SMD Magnetics

VISHAY I N T E R T E C H N O L O G Y , I N C .
INTERACTIVE
data book
smd magnetics, inductors and
ferrite beads
vishay Dale
vse-db0059-1201e
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One of the World’s Largest Manufacturers of
Discrete Semiconductors and Passive Components
V I S H AY I N T E R T E C H N O L O G Y, I N C .
DATA B O O K
smd magnetics, inductors
and ferrite beads
vishay dale
High Current Inductors
RF Inductors
Multilayer Inductors
Multilayer Ferrite Beads
Tr a n s f o r m e r s
w w w. v i s h a y. c o m
SEMICONDUCTORS
Rectifiers
FETs
Schottky (single, dual)
Standard, Fast and Ultra-Fast Recovery
(single, dual)
Bridge
Superectifier®
Sinterglass Avalanche Diodes
High-Power Diodes and Thyristors
High-Power Fast-Recovery Diodes
Phase-Control Thyristors
Fast Thyristors
P rod u ct L istings
Small-Signal Diodes
Schottky and Switching (single, dual)
Tuner/Capacitance (single, dual)
Bandswitching
PIN
Low-Voltage TrenchFET® Power MOSFETs
High-Voltage TrenchFET® Power MOSFETs
High-Voltage Planar MOSFETs
JFETs
Optoelectronics
IR Emitters and Detectors, and IR Receiver Modules
Optocouplers and Solid-State Relays
Optical Sensors
LEDs and 7-Segment Displays
Infrared Data Transceiver Modules
Custom Products
ICs
Power ICs
Analog Switches
Zener and Suppressor Diodes
Modules
Zener (single, dual)
TVS (TRANSZORB®, Automotive,
ESD, Arrays)
Power Modules (contain power diodes,
thyristors, MOSFETs, IGBTs)
Passive Components
Resistive Products
Magnetics
Film Resistors
Metal Film Resistors
Thin Film Resistors
Thick Film Resistors
Metal Oxide Film Resistors
Carbon Film Resistors
Wirewound Resistors
Power Metal Strip® Resistors
Chip Fuses
Variable Resistors
Cermet Variable Resistors
Wirewound Variable Resistors
Conductive Plastic Variable Resistors
Networks/Arrays
Non-Linear Resistors
NTC Thermistors
PTC Thermistors
Varistors
Inductors
Transformers
Capacitors
Tantalum Capacitors
Molded Chip Tantalum Capacitors
Coated Chip Tantalum Capacitors
Solid Through-Hole Tantalum Capacitors
Wet Tantalum Capacitors
Ceramic Capacitors
Multilayer Chip Capacitors
Disc Capacitors
Film Capacitors
Power Capacitors
Heavy-Current Capacitors
Aluminum Capacitors
Vishay Dale
SMD Magnetics, Inductors
and Ferrite Beads
Vishay Dale
1505 E. Highway 50
P.O. Box 180
Yankton, SD 57078-0180, USA
Phone: +1 605 665 9301
Fax: +1 605 665 1627
www.vishay.com
DISCLAIMER
All product specifications and data are subject to change without notice.
Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf
(collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained
herein or in any other disclosure relating to any product.
Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any
information provided herein to the maximum extent permitted by law. The product specifications do not expand or
otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed
therein, which apply to these products.
No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this
document or by any conduct of Vishay.
The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless
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Product names and markings noted herein may be trademarks of their respective owners.
Table of Contents
www.vishay.com
Vishay Dale
SMD Magnetics, Inductors, and Ferrite Beads
Alphabetical Index ..................................................................................................................................................................
3
POWER INDUCTORS
IHLP-1212AB-11 ..................................................................................................................................................................
IHLP-1212AE-11 ..................................................................................................................................................................
IHLP-1212BZ-11 ..................................................................................................................................................................
IHLP-1616AB-01 ..................................................................................................................................................................
IHLP-1616AB-11 ..................................................................................................................................................................
IHLP-1616BZ-01 ..................................................................................................................................................................
IHLP-1616BZ-11 ..................................................................................................................................................................
IHLP-2020BZ-01 ..................................................................................................................................................................
IHLP-2020BZ-11 ..................................................................................................................................................................
IHLP-2020CZ-01 ..................................................................................................................................................................
IHLP-2020CZ-11 ..................................................................................................................................................................
IHLP-2525AH-01 .................................................................................................................................................................
IHLP-2525BD-01 .................................................................................................................................................................
IHLP-2525CZ-01 ..................................................................................................................................................................
IHLP-2525CZ-11 ..................................................................................................................................................................
IHLP-2525CZ-06 ..................................................................................................................................................................
IHLP-2525CZ-07 ..................................................................................................................................................................
IHLP-2525EZ-01 ..................................................................................................................................................................
IHLP-3232CZ-01 ..................................................................................................................................................................
IHLP-3232CZ-11 ..................................................................................................................................................................
IHLP-3232DZ-01 ..................................................................................................................................................................
IHLP-3232DZ-11 ..................................................................................................................................................................
IHLP-4040DZ-01 ..................................................................................................................................................................
IHLP-4040DZ-11 ..................................................................................................................................................................
IHLP-5050CE-01 ..................................................................................................................................................................
IHLP-5050CE-06 ..................................................................................................................................................................
IHLP-5050CE-07 ..................................................................................................................................................................
IHLP-5050EZ-01 ..................................................................................................................................................................
IHLP-5050FD-01 ..................................................................................................................................................................
IHLP-6767DZ-01 ..................................................................................................................................................................
IHLP-6767DZ-11 ..................................................................................................................................................................
IHLP-6767GZ-01 .................................................................................................................................................................
IHLP-6767GZ-11 .................................................................................................................................................................
IHLP-6767GZ-51 .................................................................................................................................................................
IHLW-4040CF-11 .................................................................................................................................................................
IHLW-5050CE-01 .................................................................................................................................................................
IHLM-2525CZ-01 .................................................................................................................................................................
IHLM-2525CZ-06 .................................................................................................................................................................
IHLM-2525CZ-07 .................................................................................................................................................................
IFLP-4040DZ-01 ..................................................................................................................................................................
IFSC-0806AZ-01 ..................................................................................................................................................................
IFSC-1008AB-01 ..................................................................................................................................................................
IFSC-1111AZ-01 ..................................................................................................................................................................
IFSC-1111AB-01 ..................................................................................................................................................................
IFSC-1515AH-01 .................................................................................................................................................................
IHSM-3825 ...........................................................................................................................................................................
IHSM-4825 ...........................................................................................................................................................................
IHSM-5832 ...........................................................................................................................................................................
IHSM-7832 ...........................................................................................................................................................................
IDC-2512 ..............................................................................................................................................................................
IDC-5020 ..............................................................................................................................................................................
IDC-7328 ..............................................................................................................................................................................
IDCS-2512 ...........................................................................................................................................................................
IDCS-5020 ...........................................................................................................................................................................
IDCS-7328 ...........................................................................................................................................................................
IDCP-1813 ...........................................................................................................................................................................
IDCP-2218 ...........................................................................................................................................................................
IDCP-3020 ...........................................................................................................................................................................
IDCP-3114 ...........................................................................................................................................................................
IDCP-3722 ...........................................................................................................................................................................
IDCP-3916 ...........................................................................................................................................................................
Revision: 22-Dec-11
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Table of Contents
www.vishay.com
Vishay Dale
HIGH FREQUENCY INDUCTORS
IFCB-0402.............................................................................................................................................................................
IFCB-0603.............................................................................................................................................................................
ILC-0402 ...............................................................................................................................................................................
ILC-0603 ...............................................................................................................................................................................
ILC-0805 ...............................................................................................................................................................................
IMC-0402 ..............................................................................................................................................................................
IMC-0603 ..............................................................................................................................................................................
167
168
169
170
171
172
173
WIREWOUND INDUCTORS
IMC-0402-01.........................................................................................................................................................................
IMC-0603-01.........................................................................................................................................................................
IMC-0805 ..............................................................................................................................................................................
IMC-0805-01.........................................................................................................................................................................
IMC-1008 ..............................................................................................................................................................................
ISC-1008...............................................................................................................................................................................
IMC-1210 ..............................................................................................................................................................................
IMC-1210-100.......................................................................................................................................................................
ISC-1210...............................................................................................................................................................................
IMC-1812 ..............................................................................................................................................................................
ISC-1812...............................................................................................................................................................................
IMCH-1812 ...........................................................................................................................................................................
IMC-2220 ..............................................................................................................................................................................
175
177
179
180
182
184
186
187
188
189
191
193
194
COMMON MODE CHOKES
ICM-0805 .............................................................................................................................................................................. 196
ICM-1206 .............................................................................................................................................................................. 197
ICM-2824, ICM-3528, ICM-4743 .......................................................................................................................................... 198
MULTILAYER FERRITE INDUCTORS AND BEADS
ILSB-0603 .............................................................................................................................................................................
ILSB-0805 .............................................................................................................................................................................
ILSB-1206 .............................................................................................................................................................................
ILBB-0402.............................................................................................................................................................................
ILBB-0603.............................................................................................................................................................................
ILBB-0805.............................................................................................................................................................................
ILB-1206 ...............................................................................................................................................................................
ILBB-1210, ILBB-1806, ILBB-1812 ......................................................................................................................................
ILHB ......................................................................................................................................................................................
ILAS-1206 .............................................................................................................................................................................
200
202
204
206
209
212
217
221
223
227
TRANSFORMERS/INDUCTORS
LPE-3325-CST......................................................................................................................................................................
LPE-3325 ..............................................................................................................................................................................
LPE-4841 ..............................................................................................................................................................................
LPE-5047 ..............................................................................................................................................................................
LPE-6562 ..............................................................................................................................................................................
LPE-6855 ..............................................................................................................................................................................
LPT-3535 ..............................................................................................................................................................................
LPT-4545 ..............................................................................................................................................................................
230
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233
235
237
239
241
243
REFERENCE INFORMATION
Custom Products..................................................................................................................................................................
Definitions .............................................................................................................................................................................
Engineering Note ILB, ILBB, IMC, ISC, IFC ..........................................................................................................................
Engineering Note ILB, ILBB Ferrite Beads............................................................................................................................
Engineering Note ..................................................................................................................................................................
Packaging Methods ..............................................................................................................................................................
Conversion Tables ................................................................................................................................................................
Linear Tech Cross Reference ...............................................................................................................................................
Revision: 22-Dec-11
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278
279
Alphabetical Index
www.vishay.com
Vishay Dale
SMD Magnetics, Inductors, and Ferrite Beads
Conversion Tables .................................................................................................................................................................
Custom Products ....................................................................................................................................................................
Definitions ..............................................................................................................................................................................
Engineering Note ...................................................................................................................................................................
Engineering Note ILB, ILBB, IMC, ISC, IFC ...........................................................................................................................
Engineering Note ILB, ILBB Ferrite Beads .............................................................................................................................
ICM-0805 ................................................................................................................................................................................
ICM-1206 ................................................................................................................................................................................
ICM-2824, ICM-3528, ICM-4743 ............................................................................................................................................
IDC-2512 ................................................................................................................................................................................
278
246
254
274
261
268
196
197
198
154
IDC-5020 ................................................................................................................................................................................
IDC-7328 ................................................................................................................................................................................
IDCP-1813 ..............................................................................................................................................................................
IDCP-2218 ..............................................................................................................................................................................
IDCP-3020 ..............................................................................................................................................................................
IDCP-3114 ..............................................................................................................................................................................
IDCP-3722 ..............................................................................................................................................................................
IDCP-3916 ..............................................................................................................................................................................
IDCS-2512 ..............................................................................................................................................................................
IDCS-5020 ..............................................................................................................................................................................
IDCS-7328 ..............................................................................................................................................................................
IFCB-0402 ...............................................................................................................................................................................
IFCB-0603 ...............................................................................................................................................................................
IFLP-4040DZ-01 ....................................................................................................................................................................
IFSC-0806AZ-01 .....................................................................................................................................................................
IFSC-1008AB-01.....................................................................................................................................................................
IFSC-1111AB-01.....................................................................................................................................................................
IFSC-1111AZ-01 .....................................................................................................................................................................
IFSC-1515AH-01.....................................................................................................................................................................
IHLM-2525CZ-01 ...................................................................................................................................................................
IHLM-2525CZ-06 ...................................................................................................................................................................
IHLM-2525CZ-07 ...................................................................................................................................................................
IHLP-1212AB-11 ....................................................................................................................................................................
IHLP-1212AE-11 ....................................................................................................................................................................
IHLP-1212BZ-11 ....................................................................................................................................................................
IHLP-1616AB-01 ....................................................................................................................................................................
IHLP-1616AB-11 ....................................................................................................................................................................
IHLP-1616BZ-01 ....................................................................................................................................................................
IHLP-1616BZ-11 ....................................................................................................................................................................
IHLP-2020BZ-01 ....................................................................................................................................................................
IHLP-2020BZ-11 ....................................................................................................................................................................
IHLP-2020CZ-01 ....................................................................................................................................................................
IHLP-2020CZ-11 ....................................................................................................................................................................
IHLP-2525AH-01 ....................................................................................................................................................................
IHLP-2525BD-01 ....................................................................................................................................................................
IHLP-2525CZ-01 ....................................................................................................................................................................
IHLP-2525CZ-11 ....................................................................................................................................................................
IHLP-2525CZ-06 ....................................................................................................................................................................
IHLP-2525CZ-07 ....................................................................................................................................................................
IHLP-2525EZ-01 ....................................................................................................................................................................
IHLP-3232CZ-01 .....................................................................................................................................................................
IHLP-3232CZ-11 .....................................................................................................................................................................
IHLP-3232DZ-01 .....................................................................................................................................................................
IHLP-3232DZ-11 .....................................................................................................................................................................
IHLP-4040DZ-01 ....................................................................................................................................................................
IHLP-4040DZ-11 ....................................................................................................................................................................
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Revision: 03-Jan-12
3
Alphabetical Index
www.vishay.com
Vishay Dale
IHLP-5050CE-01 ....................................................................................................................................................................
IHLP-5050CE-06 ....................................................................................................................................................................
IHLP-5050CE-07 ....................................................................................................................................................................
IHLP-5050EZ-01 ....................................................................................................................................................................
IHLP-5050FD-01 ....................................................................................................................................................................
IHLP-6767DZ-01 ....................................................................................................................................................................
IHLP-6767DZ-11 ....................................................................................................................................................................
IHLP-6767GZ-01 ....................................................................................................................................................................
IHLP-6767GZ-11 ....................................................................................................................................................................
IHLP-6767GZ-51.....................................................................................................................................................................
IHLW-4040CF-11 ...................................................................................................................................................................
IHLW-5050CE-01 ...................................................................................................................................................................
IHSM-3825 .............................................................................................................................................................................
IHSM-4825 .............................................................................................................................................................................
IHSM-5832 .............................................................................................................................................................................
IHSM-7832 .............................................................................................................................................................................
ILAS-1206 ...............................................................................................................................................................................
ILB-1206..................................................................................................................................................................................
ILBB-0402 ...............................................................................................................................................................................
ILBB-0603 ...............................................................................................................................................................................
ILBB-0805 ...............................................................................................................................................................................
ILBB-1210, ILBB-1806, ILBB-1812.........................................................................................................................................
ILC-0402 .................................................................................................................................................................................
ILC-0603 .................................................................................................................................................................................
ILC-0805 .................................................................................................................................................................................
ILHB ........................................................................................................................................................................................
ILSB-0603 ...............................................................................................................................................................................
ILSB-0805 ...............................................................................................................................................................................
ILSB-1206 ...............................................................................................................................................................................
IMC-0402 ................................................................................................................................................................................
IMC-0603 ................................................................................................................................................................................
IMC-0402-01 ...........................................................................................................................................................................
IMC-0603-01 ...........................................................................................................................................................................
IMC-0805 ................................................................................................................................................................................
IMC-0805-01 ...........................................................................................................................................................................
IMC-1008 ................................................................................................................................................................................
IMC-1210 ................................................................................................................................................................................
IMC-1210-100 .........................................................................................................................................................................
IMC-1812 ................................................................................................................................................................................
IMC-2220 ................................................................................................................................................................................
IMCH-1812..............................................................................................................................................................................
ISC-1008 .................................................................................................................................................................................
ISC-1210 .................................................................................................................................................................................
ISC-1812 .................................................................................................................................................................................
Linear Tech Cross Reference..................................................................................................................................................
LPE-3325 ................................................................................................................................................................................
LPE-3325-CST ........................................................................................................................................................................
LPE-4841 ................................................................................................................................................................................
LPE-5047 ................................................................................................................................................................................
LPE-6562 ................................................................................................................................................................................
LPE-6855 ................................................................................................................................................................................
LPT-3535.................................................................................................................................................................................
LPT-4545.................................................................................................................................................................................
Packaging Methods ................................................................................................................................................................
Revision: 03-Jan-12
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Contents
Power
Inductors
IHLP-1212AB-11 ...................
IHLP-1212AE-11 ...................
IHLP-1212BZ-11 ...................
IHLP-1616AB-01 ...................
IHLP-1616AB-11 ...................
IHLP-1616BZ-01 ...................
IHLP-1616BZ-11 ...................
IHLP-2020BZ-01 ...................
IHLP-2020BZ-11 ...................
IHLP-2020CZ-01 ...................
IHLP-2020CZ-11 ...................
IHLP-2525AH-01...................
IHLP-2525BD-01...................
IHLP-2525CZ-01 ...................
IHLP-2525CZ-11 ...................
IHLP-2525CZ-06 ...................
IHLP-2525CZ-07 ...................
IHLP-2525EZ-01 ...................
IHLP-3232CZ-01 ...................
IHLP-3232CZ-11 ...................
IHLP-3232DZ-01 ...................
IHLP-3232DZ-11 ...................
IHLP-4040DZ-01 ...................
IHLP-4040DZ-11 ...................
IHLP-5050CE-01...................
IHLP-5050CE-06...................
IHLP-5050CE-07...................
IHLP-5050EZ-01 ...................
IHLP-5050FD-01 ...................
IHLP-6767DZ-01 ...................
IHLP-6767DZ-11 ...................
IHLP-6767GZ-01...................
IHLP-6767GZ-11...................
IHLP-6767GZ-51...................
IHLW-4040CF-11 ..................
IHLW-5050CE-01..................
IHLM-2525CZ-01 ..................
IHLM-2525CZ-06 ..................
IHLM-2525CZ-07 ..................
IFLP-4040DZ-01 ...................
IFSC-0806AZ-01 ...................
IFSC-1008AB-01...................
IFSC-1111AZ-01 ...................
IFSC-1111AB-01...................
IFSC-1515AH-01...................
IHSM-3825 ............................
IHSM-4825 ............................
IHSM-5832 ............................
IHSM-7832 ............................
IDC-2512...............................
IDC-5020...............................
IDC-7328...............................
IDCS-2512 ............................
IDCS-5020 ............................
IDCS-7328 ............................
IDCP-1813 ............................
IDCP-2218 ............................
IDCP-3020 ............................
IDCP-3114 ............................
IDCP-3722 ............................
IDCP-3916 ............................
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IHLP-1212AB-11
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 1.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Halogen-free according to IEC 61249-2-21 definition
APPLICATIONS
• PDA/notebook/desktop/server applications
STANDARD ELECTRICAL SPECIFICATIONS
• High current POL converters
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
0.22
9.5
11.4
9.3
9.3
0.33
12.0
14.3
7.2
8.7
0.47
16.3
19.5
6.4
7.0
0.56
18.7
22.0
5.1
6.7
0.68
22.5
25.0
4.0
5.5
1.0
33.0
38.0
3.0
4.5
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.118 ± 0.008
[3.0 ± 0.2]
0.020 ± 0.008
[0.5 ± 0.2]
Typical Pad Layout
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.142 [3.6]
Max.
0.165
[4.2]
0.079
[2.0]
0.047 [1.2]
Max.
0.047
[1.2]
0.031 ± 0.012
[0.8 ± 0.3]
DESCRIPTION
IHLP-1212AB-11
0.22 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34299
Revision: 20-May-11
P
1
2
1
2
SIZE
A
B
E
R
PACKAGE
CODE
R
2
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
2
M
TOL.
1
1
SERIES
www.vishay.com
6
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1212AB-11
Low Profile, High Current IHLP®
Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-1212AB-11 0.22 μH
IHLP-1212AB-11 0.33 μH
40
0.36
30
20
0.24
L
0.12
10
4
6
8
0.24
30
20
0.16
L
0.08
0.00
0
12
10
40
10
0
1
2
3
DC BIAS (A)
IHLP-1212AB-11 0.47 μH
30
L
0.24
20
0.12
10
5
4
6
7
8
9
INDUCTANCE (μH)
0.36
TEMPERATURE (°C)
INDUCTANCE (μH)
40
3
L
0.36
30
0.24
20
0.12
10
0.00
0
40
0.48
IHLP-1212AB-11 0.68 μH
0
1
2
3
0.6
60
L
0.4
40
0.2
20
4
5
7
8
9
0
6
7
8
0
100
0.8
80
L
0.6
60
0.4
40
0.2
20
0.0
0
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5
DC BIAS (A)
www.vishay.com
7
6
ΔT °C
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
3
5
IHLP-1212AB-11 1.0 μH
0.8
2
4
1.0
100
1
0
DC BIAS (A)
1.0
0
9
50
DC BIAS (A)
0.0
8
ΔT °C
0.48
2
7
IHLP-1212AB-11 0.56 μH
ΔT °C
1
6
0.60
50
0
5
DC BIAS (A)
0.60
0.00
4
TEMPERATURE (°C)
2
0.32
TEMPERATURE (°C)
0
50
ΔT °C
INDUCTANCE (μH)
0.48
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
0.00
0.40
50
TEMPERATURE (°C)
0.60
For technical questions, contact: [email protected]
DC BIAS (A)
Document Number: 34299
Revision: 20-May-11
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1212AE-11
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 1.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
APPLICATIONS
• PDA/notebook/desktop/server applications
• High current POL converters
STANDARD ELECTRICAL SPECIFICATIONS
• Low profile, high current power supplies
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
0.22
9.5
11.4
8.5
9.0
0.33
11.5
13.8
7.8
7.0
0.47
12.7
15.0
6.7
6.7
0.56
17.0
20.4
6.0
5.5
0.68
18.4
22.0
5.4
5.5
0.82
22.5
26.0
4.9
5.5
1.0
29.5
33.0
3.9
5.3
1.5
41.0
46.0
2.7
4.5
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.118 ± 0.008
[3.0 ± 0.2]
0.020 ± 0.008
[0.5 ± 0.2]
Typical Pad Layout
0.142 [3.6]
Max.
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.165
[4.2]
0.079
[2.0]
0.059 [1.5]
Max.
0.047
[1.2]
0.031 ± 0.012
[0.8 ± 0.3]
DESCRIPTION
IHLP-1212AE-11
0.22 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34300
Revision: 20-May-11
P
1
2
1
2
SIZE
A
E
E
R
PACKAGE
CODE
R
2
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
2
M
TOL.
1
1
SERIES
www.vishay.com
8
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1212AE-11
Low Profile, High Current IHLP®
Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-1212AE-11 0.22 μH
IHLP-1212AE-11 0.33 μH
40
0.18
30
L
0.12
20
0.06
10
5
4
6
7
0.36
30
L
0.24
20
0.12
10
0.00
0
10
9
8
40
ΔT °C
0
1
3
2
DC BIAS (A)
IHLP-1212AE-11 0.47 μH
0.28
20
0.14
10
5
4
6
7
8
INDUCTANCE (μH)
L
TEMPERATURE (°C)
INDUCTANCE (μH)
40
30
3
L
0.42
30
0.28
20
0.14
10
0.0
0
40
0.56
0
1
3
2
0.42
30
0.28
20
0.14
10
3
4
5
6
7
8
9
INDUCTANCE (μH)
L
TEMPERATURE (°C)
INDUCTANCE (μH)
40
2
0.54
30
0.36
20
0.18
10
2.0
0
1
3
2
40
1.6
0.4
20
0.2
10
4
5
6
7
8
9
0
INDUCTANCE (μH)
30
3
5
6
7
8
0
100
80
1.2
60
L
0.8
40
0.4
20
0.0
0
1
2
3
4
5
6
0
DC BIAS (A)
DC BIAS (A)
www.vishay.com
9
4
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
50
L
0.6
2
40
L
IHLP-1212AE-11 1.5 μH
0.8
1
0
DC BIAS (A)
ΔT °C
0
8
ΔT °C
0.72
0.0
0
IHLP-1212AE-11 1.0 μH
0.0
7
50
DC BIAS (A)
1.0
6
IHLP-1212AE-11 0.82 μH
0.56
1
5
0.90
50
ΔT °C
0
4
DC BIAS (A)
IHLP-1212AE-11 0.68 μH
0.00
0
50
DC BIAS (A)
0.70
9
ΔT °C
0.42
2
8
IHLP-1212AE-11 0.56 μH
ΔT °C
0.56
1
7
0.70
50
0
6
DC BIAS (A)
0.70
0.0
5
4
TEMPERATURE (°C)
3
2
0.48
TEMPERATURE (°C)
1
50
TEMPERATURE (°C)
0
INDUCTANCE (μH)
0.24
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
0.00
0.60
50
TEMPERATURE (°C)
0.30
For technical questions, contact: [email protected]
Document Number: 34300
Revision: 20-May-11
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1212BZ-11
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 1.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Halogen-free according to IEC 61249-2-21 definition
APPLICATIONS
• PDA/notebook/desktop/server applications
STANDARD ELECTRICAL SPECIFICATIONS
• High current POL converters
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
0.22
9.5
11.4
6.5
7.5
0.36
11.5
13.8
6.3
6.5
0.56
16.2
19.4
5.5
5.5
0.68
17.0
20.4
5.5
5.0
0.88
18.5
22.0
5.5
4.5
1.0
20.0
24.0
5.0
4.5
1.2
23.0
27.0
5.0
4.0
1.5
28.5
32.0
3.8
4.0
2.2
42.9
46.0
3.0
3.3
3.3
56.0
61.0
2.7
3.3
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
• Currently not recommended for automotive applications
DIMENSIONS in inches [millimeters]
0.118 ± 0.008
[3.0 ± 0.2]
0.020 ± 0.008
[0.5 ± 0.2]
Typical Pad Layout
0.142 [3.6]
Max.
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.165
[4.2]
0.079
[2.0]
0.079 [2.0]
Max.
0.047
[1.2]
0.031 ± 0.012
[0.8 ± 0.3]
DESCRIPTION
IHLP-1212BZ-11
0.22 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34289
Revision: 20-May-11
P
1
2
1
2
SIZE
B
Z
E
R
PACKAGE
CODE
R
2
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
2
M
TOL.
1
1
SERIES
www.vishay.com
10
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1212BZ-11
Low Profile, High Current IHLP®
Inductors
Vishay Dale
PERFORMANCE GRAPHS
80
L
0.15
60
0.10
40
0.05
20
4
6
8
0.24
60
0.16
40
0.08
20
0.00
0
12
10
80
L
0
2
4
DC CURRENT (A)
6
DC CURRENT (A)
IHLP-1212BZ-11 0.56 μH
IHLP-1212BZ-11 0.68 μH
0.60
0.70
100
60
0.24
40
0.12
20
0
2
4
6
INDUCTANCE (μH)
L
0.36
TEMPERATURE (°C)
INDUCTANCE (μH)
80
0.48
80
0.56
L
0.42
60
0.28
40
0.14
20
0.00
0
10
8
100
ΔT °C
ΔT °C
0.00
0
10
8
0
2
4
DC CURRENT (A)
6
0
10
8
DC CURRENT (A)
IHLP-1212BZ-11 0.88 μH
IHLP-1212BZ-11 1.0 μH
1.0
1.20
100
0.6
60
L
0.4
40
0.2
20
0
1
3
2
5
4
6
7
8
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
0.8
0.96
80
0.72
60
L
0.48
40
0.24
20
0.00
0
0
1
IHLP-1212BZ-11 1.2 μH
0.75
60
0.50
40
0.25
20
4
5
DC CURRENT (A)
www.vishay.com
11
6
7
0
INDUCTANCE (μH)
L
TEMPERATURE (°C)
INDUCTANCE (μH)
80
1.00
3
6
7
0
IHLP-1212BZ-11 1.5 μH
ΔT °C
2
5
1.5
100
1
4
DC CURRENT (A)
1.25
0
3
2
DC CURRENT (A)
0.00
100
ΔT °C
ΔT °C
0.0
TEMPERATURE (°C)
2
0.32
TEMPERATURE (°C)
0
100
ΔT °C
100
ΔT °C
1.2
80
L
0.9
60
0.6
40
0.3
20
0.0
0
1
2
3
4
5
6
TEMPERATURE (°C)
0.00
INDUCTANCE (μH)
0.20
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-1212BZ-11 0.36 μH
0.40
100
ΔT °C
TEMPERATURE (°C)
IHLP-1212BZ-11 0.22 μH
0.25
0
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34289
Revision: 20-May-11
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1212BZ-11
Low Profile, High Current IHLP®
Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-1212BZ-11 2.2 μH
1.5
60
L
1.0
40
0.5
20
0
2
1
4
3
5
6
100
ΔT °C
0
4
80
3
60
L
2
40
1
20
0
0
1
2
DC CURRENT (A)
3
4
5
TEMPERATURE (°C)
80
5
INDUCTANCE (μH)
ΔT °C
2.0
0.0
IHLP-1212BZ-11 3.3 μH
100
TEMPERATURE (°C)
INDUCTANCE (μH)
2.5
0
DC CURRENT (A)
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-1212BZ-11 0.22 μH 20 %
0.60
80
0.48
0.18
60
0.12
40
Q
20
0.06
0.00
0.1
1
10
100
0
1000
100
80
L
0.36
60
0.24
40
Q
L
INDUCTANCE (μH)
0.24
IHLP-1212BZ-11 0.36 μH 20 %
100
Q
INDUCTANCE (μH)
0.30
Q
20
0.12
0.00
0.1
1
FREQUENCY (MHz)
IHLP-1212BZ-11 0.56 μH 20 %
80
1.2
40
0.48
Q
20
0.24
100
FREQUENCY (MHz)
Document Number: 34289
Revision: 20-May-11
0
1000
100
80
L
60
0.9
Q
60
0.72
INDUCTANCE (μH)
1.5
L
10
0
1000
IHLP-1212BZ-11 0.68 μH 20 %
100
Q
INDUCTANCE (μH)
0.96
1
100
FREQUENCY (MHz)
1.20
0.00
0.1
10
40
0.6
Q
20
0.3
0.0
0.1
1
10
100
0
1000
FREQUENCY (MHz)
For technical questions, contact: [email protected]
www.vishay.com
12
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1212BZ-11
Low Profile, High Current IHLP®
Inductors
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-1212BZ-11 0.88 μH 20 %
IHLP-1212BZ-11 1.0 μH 20 %
2.0
80
1.6
60
1.2
40
0.8
Q
20
0.4
1
0
100
10
Q
0.0
0.1
1
3.5
80
2.8
1.8
60
1.2
40
Q
20
0.6
0
100
10
100
80
L
2.1
60
1.4
40
Q
L
INDUCTANCE (μH)
2.4
Q
20
0.7
0.0
0.1
FREQUENCY (MHz)
1
IHLP-1212BZ-11 2.2 μH 20 %
IHLP-1212BZ-11 3.3 μH 20 %
100
20
100
80
16
80
L
60
2.8
40
Q
4.2
20
1.4
INDUCTANCE (μH)
5.6
12
L
10
FREQUENCY (MHz)
www.vishay.com
13
60
8
40
4
20
Q
1
0
100
10
FREQUENCY (MHz)
7.0
0.0
0.1
0
100
10
IHLP-1212BZ-11 1.5 μH 20 %
100
Q
INDUCTANCE (μH)
20
0.4
IHLP-1212BZ-11 1.2 μH 20 %
INDUCTANCE (μH)
40
0.8
FREQUENCY (MHz)
3.0
1
60
1.2
FREQUENCY (MHz)
0.0
0.1
80
L
Q
0.0
0.1
100
Q
L
INDUCTANCE (μH)
1.6
100
Q
INDUCTANCE (μH)
2.0
Q
0
100
0.0
0.1
1
10
0
100
FREQUENCY (MHz)
For technical questions, contact: [email protected]
Document Number: 34289
Revision: 20-May-11
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1616AB-01
www.vishay.com
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
Note
** Please see document “Vishay Material Category Policy”:
www.vishay.com/doc?99902
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
APPLICATIONS
• PDA/notebook/desktop/server applications
STANDARD ELECTRICAL SPECIFICATIONS
• High current POL converters
• Low profile, high current power supplies
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(3)
(A)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
0.047
3.25
3.75
13.0
32.0
0.10
5.50
6.00
11.5
25.0
0.22
11.0
12.0
8.5
20.0
0.47
20.0
22.0
5.0
13.0
1.00
50.0
52.5
4.0
8.5
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.160 ± 0.010
[4.06 ± 0.254]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.080 ± 0.002
[2.0 ± 0.05] Typical Pad Layout
0.195
[4.95]
0.175 ± 0.010
[4.45 ± 0.254]
0.090
[2.30]
0.065
[1.65]
0.047
[1.20]
Max.
0.030 ± 0.012
[0.76 ± 0.30]
DESCRIPTION
IHLP-1616AB-01
0.47 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Revision: 07-Jun-11
P
1
6
1
6
SIZE
A
B
E
R
PACKAGE
CODE
R
4
7
INDUCTANCE
VALUE
M
TOL.
0
1
SERIES
Document Number: 34197
14
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1616AB-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP1616AB-01 0.047 µH
IHLP-1616AB-01 0.10 µH
100
0.075
100
0.10
80
0.045
60
L
0.030
40
0.015
20
0.000
0
5
10
15
20
25
30
INDUCTANCE (µH)
0.060
0
0.08
80
L
0.06
60
0.04
40
0.02
20
0.00
0
5
10
DC CURRENT (A)
15
20
25
30
TEMPERATURE (°C)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0
DC CURRENT (A)
IHLP1616AB-01 0.22 µH
IHLP1616AB-01 0.47 µH
0.5
100
0.20
100
0.12
60
0.08
40
0.04
20
0.00 0
2
4
6
8
10
12
14
16
18
20
0.4
80
L
0.3
0.2
40
0.1
20
0.0
0
22
60
0
1
2
3 4
5 6
7
8
TEMPERATURE (°C)
80
L
ΔT °C
INDUCTANCE (µH)
0.16
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0
9 10 11 12 13 14 15 16 17
DC CURRENT (A)
DC CURRENT (A)
IHLP1616AB-01 1.0 µH
100
1.0
80
0.8
L
0.6
60
0.4
40
0.2
20
0.0
0
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5
DC CURRENT (A)
Revision: 07-Jun-11
Document Number: 34197
15
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1616AB-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-1616AB-01 0.047 μH 20 %
IHLP-1616AB-01 0.10 μH 20 %
0.10
50
0.120
50
30
0.06
L
0.04
20
0.02
10
0.00
0.1
1
0
1000
100
10
40
0.096
30
0.072
Q
Q
Q
INDUCTANCE (μH)
40
0.08
Q
INDUCTANCE (μH)
L
0.048
20
0.024
10
0.000
0.1
1
FREQUENCY (MHz)
0
1000
FREQUENCY (MHz)
IHLP-1616AB-01 0.22 μH 20 %
IHLP-1616AB-01 0.47 μH 20 %
0.30
100
1.0
50
0.24
80
0.8
40
0.6
30
0.4
20
0.2
10
Q
60
0.18
L
0.12
40
0.06
20
0.00
0.1
1
100
10
0
1000
L
Q
Q
INDUCTANCE (μH)
Q
INDUCTANCE (μH)
100
10
0.0
0.1
1
FREQUENCY (MHz)
10
100
0
1000
FREQUENCY (MHz)
IHLP-1616AB-01 1.0 μH 20 %
2.0
50
40
1.6
Q
1.2
30
0.8
20
0.4
10
Q
INDUCTANCE (μH)
L
0.0
0.1
1
10
0
100
FREQUENCY (MHz)
Revision: 07-Jun-11
Document Number: 34197
16
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1616AB-11
www.vishay.com
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 1.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
APPLICATIONS
• PDA/notebook/desktop/server applications
• High current POL converters
• Low profile, high current power supplies
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
• Battery powered devices
HEAT
RATING SATURATION
DCR DCR
TYP. MAX. CURRENT
CURRENT
25 °C 25 °C DC TYP.
DC TYP.
(A) (3)
(m) (m)
(A) (4)
0.10
5.0
5.5
12.0
12.0
0.22
9.5
10.5
9.5
9.5
0.47
19
21
6.0
5.7
1.0
43
47
4.2
4.5
1.2
55.6
58.5
3.75
3.75
1.5
68
75
3.25
3.25
2.2
79.4
83.5
2.75
3.00
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.160 ± 0.010
[4.06 ± 0.254]
0.080 ± 0.002
[2.0 ± 0.05] Typical Pad Layout
0.195
[4.95]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.175 ± 0.010
[4.45 ± 0.254]
0.090
[2.30]
0.065
[1.65]
0.047
[1.20]
Max.
0.030 ± 0.012
[0.76 ± 0.30]
DESCRIPTION
IHLP-1616AB-11
2.2 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Revision: 07-Jun-11
P
1
6
1
6
A
B
SIZE
E
R
PACKAGE
CODE
17
2
R
2
INDUCTANCE
VALUE
M
TOL.
1
1
SERIES
Document Number: 34194
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1616AB-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP-1616AB-11 0.10 μH
IHLP-1616AB-11 0.22 μH
0.25
100
ΔT °C
80
0.06
60
0.04
40
0.02
20
0
4
2
6
80
0.15
60
0.10
40
0.05
20
0.00
0
10 12 14 16 18 20 22 24 26
8
0.20
0
4
2
DC CURRENT (A)
IHLP-1616AB-11 0.47 μH
IHLP-1616AB-11 1.0 μH
L
0.3
60
0.2
40
0.1
20
1
2
3
4
5
6
7
8
9
INDUCTANCE (μH)
80
0.4
80
0.8
L
0.6
60
0.4
40
0.2
20
0.0
0
0
1
2
DC CURRENT (A)
IHLP-1616AB-11 1.2 μH
L
0.8
40
0.4
20
3
4
5
6
INDUCTANCE (μH)
60
TEMPERATURE (°C)
INDUCTANCE (μH)
80
1.2
2
5
7
6
0
IHLP-1616AB-11 1.5 μH
ΔT °C
1.6
1
4
2.0
100
0
3
DC CURRENT (A)
2.0
0.0
100
ΔT °C
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
1.0
100
0
0
10
8
DC CURRENT (A)
0.5
0.0
6
TEMPERATURE (°C)
0.00
INDUCTANCE (μH)
L
0.08
TEMPERATURE (°C)
INDUCTANCE (μH)
L
TEMPERATURE (°C)
100
ΔT °C
1.6
80
1.2
60
L
0.8
40
0.4
20
0.0
0
100
ΔT °C
0
2
1
DC CURRENT (A)
3
4
5
6
TEMPERATURE (°C)
0.10
0
DC CURRENT (A)
IHLP-1616AB-11 2.2 μH
100
ΔT °C
4
80
3
60
L
2
40
1
0
0.0
20
0.5
1.0
1.5
2.0
2.5
3.0
3.5
TEMPERATURE (°C)
INDUCTANCE (μH)
5
0
4.0
DC CURRENT (A)
Revision: 07-Jun-11
18
Document Number: 34194
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1616AB-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-1616AB-11 0.10 μH 20 %
IHLP-1616AB-11 0.22 μH 20 %
0.20
0.35
50
50
Q
30
0.12
20
0.08
L
10
0.04
0.00
0.1
1
0
1000
100
10
40
0.28
30
0.21
Q
INDUCTANCE (μH)
40
0.16
Q
INDUCTANCE (μH)
Q
L
0.14
20
0.07
10
0.00
0.1
1
FREQUENCY (MHz)
0
1000
100
10
FREQUENCY (MHz)
IHLP-1616AB-11 0.47 μH 20 %
IHLP-1616AB-11 1.0 μH 20 %
0.80
2.0
50
50
L
0.48
30
0.32
20
0.16
10
0.00
0.1
1
0
1000
100
10
40
1.6
Q
1.2
30
0.8
20
0.4
10
Q
40
Q
INDUCTANCE (μH)
0.64
Q
INDUCTANCE (μH)
L
0.0
0.1
1
FREQUENCY (MHz)
FREQUENCY (MHz)
IHLP-1616AB-11 1.5 μH 20 %
3.5
2.8
40
2.8
30
Q
L
1.4
20
0.7
10
0.0
0.1
1
0
100
10
50
L
Q
2.1
40
30
Q
INDUCTANCE (μH)
50
Q
INDUCTANCE (μH)
IHLP-1616AB-11 1.2 μH 20 %
3.5
2.1
0
100
10
1.4
20
0.7
10
0.0
0.1
1
FREQUENCY (MHz)
10
0
100
FREQUENCY (MHz)
IHLP-1616AB-11 2.2 μH 20 %
5
50
40
Q
3
30
2
20
1
10
Q
INDUCTANCE (μH)
L
4
0
0.1
1
10
0
100
FREQUENCY (MHz)
Revision: 07-Jun-11
19
Document Number: 34194
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1616BZ-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
APPLICATIONS
• PDA/notebook/desktop/server applications
• High current POL converters
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
0.10
4.50
5.00
11.0
0.22
7.30
8.00
13.0
24.0
0.47
16.0
18.0
5.60
11.50
1.00
33.0
37.0
3.75
8.50
2.20
80.0
90.0
2.85
6.00
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
35.0
DIMENSIONS in inches [millimeters]
0.160 ± 0.010
[4.06 ± 0.254]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.080 ± 0.002
[2.0 ± 0.05] Typical Pad Layout
0.195
[4.95]
0.175 ± 0.010
[4.45 ± 0.254]
0.090
[2.30]
0.065
[1.65]
0.079
[2.0]
Max.
0.030 ± 0.012
[0.76 ± 0.30]
DESCRIPTION
IHLP-1616BZ-01
0.47 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
P
1
6
1
6
SIZE
B
Z
E
R
PACKAGE
CODE
R
4
INDUCTANCE
VALUE
7
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34195
Revision: 08-Mar-11
For technical questions, contact: [email protected]
www.vishay.com
20
IHLP-1616BZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-1616BZ-01 0.22 μH
80
L
0.06
60
ΔT °C
40
0.02
0
20
0
5
10
15
20
25
100
0.20
80
L
0.15
60
ΔT °C
0.10
40
0.05
20
0
0
35
30
0.25
0
2
4
6
DC CURRENT (A)
60
L
0.30
40
0.15
20
4
6
8
10
12
INDUCTANCE (μH)
0.45
TEMPERATURE (°C)
INDUCTANCE (μH)
80
2
18
20
0
22
IHLP-1616BZ-01 1.0 μH
ΔT °C
0
16
1.25
100
0.60
0
14
12
DC CURRENT (A)
IHLP-1616BZ-01 0.47 μH
0.75
10
8
80
1.00
L
0.75
60
ΔT °C
0.50
40
0.25
20
0
0
14
100
0
2
4
DC CURRENT (A)
8
6
TEMPERATURE (°C)
0.04
INDUCTANCE (μH)
0.08
TEMPERATURE (°C)
INDUCTANCE (μH)
100
TEMPERATURE (°C)
IHLP-1616BZ-01 0.1 μH
0.10
0
10
DC CURRENT (A)
100
3.00
80
2.25
60
L
ΔT °C
1.50
40
0.75
0
20
0
1
2
3
4
5
6
7
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-1616BZ-01 2.2 μH
3.75
0
DC CURRENT (A)
www.vishay.com
21
For technical questions, contact: [email protected]
Document Number: 34195
Revision: 08-Mar-11
IHLP-1616BZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-1616BZ-01 0.22 μH 20 %
0.5
100
0.112
80
0.4
80
0.084
60
40
0.056
Q
20
0.028
1
0
1000
100
10
0.2
40
0.1
20
0.0
0.1
1
FREQUENCY (MHz)
IHLP-1616BZ-01 1.0 μH 20 %
4.0
0.8
80
3.2
Q
60
40
0.4
L
20
0.2
1
0
1000
100
10
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
IHLP-1616BZ-01 0.47 μH 20 %
0.0
0.1
0
1000
100
10
FREQUENCY (MHz)
1.0
0.6
60
L
100
80
L
60
2.4
Q
0.0
0.1
Q
0.3
Q
L
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
IHLP-1616BZ-01 0.1 μH 20 %
0.140
Q
1.6
40
0.8
20
0.0
0.1
1
FREQUENCY (MHz)
10
0
100
FREQUENCY (MHz)
100
4.8
80
60
3.6
Q
Q
INDUCTANCE (μH)
IHLP-1616BZ-01 2.2 μH 20 %
6.0
L
2.4
40
1.2
20
0.0
0.1
1
10
0
100
FREQUENCY (MHz)
Document Number: 34195
Revision: 08-Mar-11
For technical questions, contact: [email protected]
www.vishay.com
22
IHLP-1616BZ-11
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 1.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
APPLICATIONS
• PDA/notebook/desktop/server applications
• High current POL converters
STANDARD ELECTRICAL SPECIFICATIONS
• Low profile, high current power supplies
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
0.10
4.1
4.5
0.22
6.5
7.0
9.0
9.0
0.47
14.5
16
7.0
7.0
1.0
24
27
4.5
5.0
2.2
61
68
3.25
3.25
4.7
95
105
1.7
1.75
12.0
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
12.0
DIMENSIONS in inches [millimeters]
0.160 ± 0.010
[4.06 ± 0.254]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.080 ± 0.002
[2.0 ± 0.05] Typical Pad Layout
0.195
[4.95]
0.175 ± 0.010
[4.45 ± 0.254]
0.090
[2.30]
0.065
[1.65]
0.079
[2.0]
Max.
0.030 ± 0.012
[0.76 ± 0.30]
DESCRIPTION
IHLP-1616BZ-11
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34196
Revision: 18-Mar-11
P
1
6
1
6
SIZE
B
Z
E
R
PACKAGE
CODE
4
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
7
M
TOL.
1
1
SERIES
www.vishay.com
23
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-1616BZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP1616BZ-11 0.22 µH
IHLP1616BZ-11 0.10 µH
0.125
0.25
100
100
80
L
0.075
60
0.050
40
0.025
20
0
2
4
6
8
10
12
14
16
18
0.15
60
0.10
40
0.05
20
0
0
80
L
0
1
2
DC CURRENT (A)
IHLP1616BZ-11 0.47 µH
1.25
80
1.00
L
0.45
60
0.30
40
0.15
20
2
4
3
5
6
7
8
9
10
INDUCTANCE (µH)
100
TEMPERATURE (°C)
INDUCTANCE (µH)
0.60
1
5
6
7
8
9
10 11 12 13 14
0
IHLP1616BZ-11 1.0 µH
ΔT °C
0
4
DC CURRENT (A)
0.75
0.00
3
ΔT °C
80
0.75
L
60
0.50
40
0.25
20
0.00
0
11
100
TEMPERATURE (°C)
0.000
0.20
TEMPERATURE (°C)
0.100
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 6 6.5 7 7.5
DC CURRENT (A)
DC CURRENT (A)
IHLP1616BZ-11 2.2 µH
IHLP1616BZ-11 4.7 µH
2.5
100
5
2.0
80
4
100
60
1.0
40
ΔT °C
0.5
0
20
0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
DC CURRENT (A)
www.vishay.com
24
4.0
4.5
5.0
0
5.5
80
L
3
60
2
40
1
20
0
0
0.5
1.0
1.5
2.0
2.5
TEMPERATURE (°C)
1.5
INDUCTANCE (µH)
L
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0
3.0
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34196
Revision: 18-Mar-11
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020BZ-01
www.vishay.com
Vishay Dale
Low Profile, High Current IHLP® Inductor
FEATURES
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Compliant to RoHS Directive 2002/95/EC
Note
** Please see document “Vishay Material Category Policy”:
www.vishay.com/doc?99902
STANDARD ELECTRICAL SPECIFICATIONS
APPLICATIONS
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
0.10
3.6
3.9
17.0
45.0
• Battery powered devices
0.22
4.9
5.2
15.0
22.0
• DC/DC converters in distributed power systems
0.33
7.6
8.2
12.0
25.0
0.47
8.9
9.4
11.5
21.0
• DC/DC converter for Field Programmable Gate Array
(FPGA)
0.68
11.2
12.4
10.0
15.0
1.0
18.9
20.0
7.0
16.0
2.2
45.6
50.1
4.2
9.5
3.3
79.2
85.5
3.3
8.5
4.7
108.0
116.6
2.8
5.0
5.6
113.0
122.0
2.5
4.5
6.8
139.0
150.0
2.4
4.3
10
184.0
199.0
2.3
4.0
• PDA/notebook/desktop/server applications
• High current POL converters
• Low profile, high current power supplies
DIMENSIONS in inches [millimeters]
0.100 ± 0.010
[2.54 ± 0.254]
0.204 ± 0.010
[5.18 ± 0.254]
Typical Pad Layout
0.216 ± 0.010
[5.49 ± 0.254]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.236
[5.99]
0.110
[2.79]
0.078
[2.0]
Max.
0.085
[2.16]
0.040 ± 0.012
[1.02 ± 0.300]
DESCRIPTION
IHLP-2020BZ-01
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Revision: 20-Oct-11
P
2
0
2
0
SIZE
B
Z
E
R
PACKAGE
CODE
4
R
7
INDUCTANCE
VALUE
M
TOL.
0
1
SERIES
Document Number: 34253
25
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020BZ-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
0.12
60
L
0.08
40
0.04
20
15
10
20
25
30
35
0.3
60
0.2
40
L
0.1
0.0
0
50
45
40
80
20
5
0
DC CURRENT (A)
IHLP-2020BZ-01 0.33 μH
IHLP-2020BZ-01 0.47 μH
0.3
60
L
0.2
40
0.1
20
15
10
INDUCTANCE (μH)
80
TEMPERATURE (°C)
0.4
5
100
ΔT °C
ΔT °C
INDUCTANCE (μH)
1.0
100
0
80
0.6
60
L
0.4
20
5
0
IHLP-2020BZ-01 0.68 μH
IHLP-2020BZ-01 1.0 μH
2.0
100
100
80
0.8
L
0.6
60
0.4
40
0.2
20
1.6
80
1.2
60
L
0.8
20
4
0
DC CURRENT (A)
IHLP-2020BZ-01 2.2 μH
IHLP-2020BZ-01 3.3 μH
1.5
80
60
40
ΔT °C
0.5
20
0
2
4
6
DC CURRENT (A)
Revision: 20-Oct-11
8
0
10
INDUCTANCE (μH)
L
TEMPERATURE (°C)
INDUCTANCE (μH)
5
100
2.0
0.0
0
16
12
8
DC CURRENT (A)
2.5
1.0
40
0.4
0.0
0
20
15
10
INDUCTANCE (μH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
5
0
20
15
10
DC CURRENT (A)
1.0
0
40
0.2
0.0
0
25
20
0.8
DC CURRENT (A)
0.0
0
25
20
DC CURRENT (A)
0.5
0.0
15
10
TEMPERATURE (°C)
5
0.4
TEMPERATURE (°C)
0
100
ΔT °C
100
ΔT °C
4
80
3
60
L
2
40
1
20
0
0
1
2
3
4
5
6
7
8
9
TEMPERATURE (°C)
0.0
INDUCTANCE (μH)
80
0.16
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-2020BZ-01 0.22 μH
0.5
100
ΔT °C
TEMPERATURE (°C)
IHLP-2020BZ-01 0.1 μH
0.20
0
DC CURRENT (A)
Document Number: 34253
26
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020BZ-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
80
L
3
60
2
40
1
20
0
1
2
3
4
5
80
8
6
40
2
20
0
1
60
4
40
2
20
3
DC CURRENT (A)
Revision: 20-Oct-11
4
5
0
100
ΔT °C
INDUCTANCE (μH)
L
6
TEMPERATURE (°C)
INDUCTANCE (μH)
80
2
0
IHLP-2020BZ-01 10 μH
8
1
5
20
100
ΔT °C
0
4
DC CURRENT (A)
IHLP-2020BZ-01 6.8 μH
0
3
2
DC CURRENT (A)
10
60
L
4
0
0
100
ΔT °C
16
80
12
60
L
8
40
4
20
0
0
1
2
3
4
TEMPERATURE (°C)
0
INDUCTANCE (μH)
4
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-2020BZ-01 5.6 μH
10
100
ΔT °C
TEMPERATURE (°C)
IHLP-2020BZ-01 4.7 μH
5
0
DC CURRENT (A)
Document Number: 34253
27
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020BZ-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-2020BZ-01 0.22 μH 20 %
0.40
0.24
80
0.32
60
40
0.12
L
20
0.06
1
0
1000
100
10
80
Q
60
0.24
40
0.16
L
20
0.08
0.0
0.1
1
FREQUENCY (MHz)
FREQUENCY (MHz)
IHLP-2020BZ-01 0.33 μH 20 %
IHLP-2020BZ-01 0.47 μH 20 %
2.0
80
1.6
Q
60
0.48
L
0.32
40
0.16
20
1
0
1000
100
10
INDUCTANCE (μH)
0.64
100
Q
INDUCTANCE (μH)
0.80
0.0
0.1
0
1000
100
10
100
80
Q
1.2
60
L
Q
0.0
0.1
100
Q
Q
0.18
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
IHLP-2020BZ-01 0.1 μH 20 %
0.30
0.8
40
0.4
20
0.0
0.1
1
FREQUENCY (MHz)
0
1000
100
10
FREQUENCY (MHz)
IHLP-2020BZ-01 0.68 μH 20 %
IHLP-2020BZ-01 1.0 μH 20 %
2.0
100
4.0
80
3.2
100
60
0.8
40
0.4
20
1
0
100
10
2.4
60
1.6
40
0.8
20
0.0
0.1
1
FREQUENCY (MHz)
IHLP-2020BZ-01 2.2 μH 20 %
IHLP-2020BZ-01 3.3 μH 20 %
20
80
16
L
60
3.2
40
1.6
20
0.0
0.1
1
10
FREQUENCY (MHz)
Revision: 20-Oct-11
0
100
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
6.4
4.8
0
100
10
FREQUENCY (MHz)
8.0
Q
80
100
L
80
60
12
Q
Q
0.0
0.1
L
Q
Q
Q
1.2
INDUCTANCE (μH)
1.6
Q
INDUCTANCE (μH)
L
8
40
4
20
0
0.1
1
10
0
100
FREQUENCY (MHz)
Document Number: 34253
28
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020BZ-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-2020BZ-01 4.7 μH 20 %
20
IHLP-2020BZ-01 5.6 μH 20 %
100
10
100
60
12
Q
8
40
4
20
0
0.1
1
0
100
10
8
80
6
60
Q
80
16
INDUCTANCE (μH)
L
Q
INDUCTANCE (μH)
L
Q
4
40
2
20
0
0.1
1
FREQUENCY (MHz)
0
100
10
FREQUENCY (MHz)
IHLP-2020BZ-01 6.8 μH 20 %
20
IHLP-2020BZ-01 10 μH 20 %
100
70
80
56
100
L
8
40
4
20
0
0.1
1
10
FREQUENCY (MHz)
Revision: 20-Oct-11
0
100
42
80
60
Q
Q
Q
INDUCTANCE (μH)
60
12
Q
INDUCTANCE (μH)
L
16
28
40
14
20
0
0.1
1
10
0
100
FREQUENCY (MHz)
Document Number: 34253
29
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020BZ-11
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 1.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
STANDARD ELECTRICAL SPECIFICATIONS
APPLICATIONS
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
0.10
2.7
2.9
21.0
25.0
• Battery powered devices
0.22
4.1
4.5
17.0
13.0
• DC/DC converters in distributed power systems
0.33
5.5
5.9
13.0
7.5
0.47
7.1
7.7
12.5
8.0
• DC/DC converter for Field Programmable Gate Array
(FPGA)
1.0
16.8
18.1
7.5
7.0
2.2
34.9
37.7
5.0
5.5
3.3
53.5
57.8
4.1
4.7
4.7
75.3
81.3
3.2
3.0
5.6
85.2
92.0
3.0
2.2
6.8
114.0
121.0
2.8
2.1
10.0
169.3
182.8
2.2
2.0
• PDA/notebook/desktop/server applications
• High current POL converters
• Low profile, high current power supplies
DIMENSIONS in inches [millimeters]
0.100 ± 0.010
[2.54 ± 0.254]
0.204 ± 0.010
[5.18 ± 0.254]
Typical Pad Layout (Min.)
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.236
[5.99]
0.216 ± 0.010
[5.49 ± 0.254]
0.110
[2.79]
0.078
[2.0]
Max.
0.085
[2.16]
0.040 ± 0.012
[1.02 ± 0.300]
DESCRIPTION
IHLP-2020BZ-11
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34261
Revision: 18-Mar-11
P
2
0
2
0
SIZE
B
Z
E
R
PACKAGE
CODE
4
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
7
M
TOL.
1
1
SERIES
www.vishay.com
30
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020BZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
80
0.12
60
L
40
0.08
0.04
20
25
0.3
60
40
0.2
L
0.1
0.0
0
35
30
80
20
5
0
DC CURRENT (A)
IHLP-2020BZ-11 0.33 μH
80
0.3
60
L
0.2
40
0.1
20
2
4
6
8
10
12
14
18
16
INDUCTANCE (μH)
0.4
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-2020BZ-11 0.47 μH
1.0
100
ΔT °C
0
0.8
80
0.6
60
0.4
20
0
2
6
4
IHLP-2020BZ-11 1.0 μH
0.75
60
L
0.50
40
0.25
20
8
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
6
L
1.5
1.0
40
0.5
20
0
1
L
2
40
1
20
www.vishay.com
31
5
6
0
INDUCTANCE (μH)
60
TEMPERATURE (°C)
INDUCTANCE (μH)
3
DC CURRENT (A)
4
5
7
6
8
0
IHLP-2020BZ-11 4.7 μH
80
4
3
2
5
100
4
3
60
DC CURRENT (A)
ΔT °C
2
100
80
IHLP-2020BZ-11 3.3 μH
1
0
20
18
16
2.0
0.0
0
12
10
5
0
14
ΔT °C
DC CURRENT (A)
0
12
IHLP-2020BZ-11 2.2 μH
1.00
4
10
2.5
100
2
8
DC CURRENT (A)
1.25
0
40
L
0.2
0.0
0
20
100
ΔT °C
DC CURRENT (A)
0.0
0
25
20
DC CURRENT (A)
0.5
0.0
15
10
TEMPERATURE (°C)
15
10
0.4
TEMPERATURE (°C)
5
0
100
ΔT °C
100
ΔT °C
80
4
L
3
60
2
40
1
20
0
0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
TEMPERATURE (°C)
0.0
20
INDUCTANCE (μH)
0.16
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-2020BZ-11 0.22 μH
0.5
100
ΔT °C
TEMPERATURE (°C)
IHLP-2020BZ-11 0.10 μH
0.20
0
5.0
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34261
Revision: 18-Mar-11
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020BZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
8
80
6
60
4
L
2
0
40
20
0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
INDUCTANCE (μH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-2020BZ-11 6.8 μH
10
100
8
80
6
60
L
4
40
2
20
0
0
5.0
100
ΔT °C
0
1
DC CURRENT (A)
2
3
4
TEMPERATURE (°C)
IHLP-2020BZ-11 5.6 μH
10
0
DC CURRENT (A)
IHLP-2020BZ-11 10 μH
100
ΔT °C
16
80
12
60
L
8
4
0
40
20
0
0.5
1.0
1.5
2.0
2.5
3.0
TEMPERATURE (°C)
INDUCTANCE (μH)
20
0
3.5
DC CURRENT (A)
Document Number: 34261
Revision: 18-Mar-11
For technical questions, contact: [email protected]
www.vishay.com
32
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020BZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-2020BZ-11 0.22 μH 20 %
100
0.144
80
0.32
80
0.108
60
0.24
60
Q
40
0.072
L
20
0.036
0.0
0.1
1
0
1000
100
10
Q
0.40
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
IHLP-2020BZ-11 0.1 μH 20 %
0.180
0.16
40
Q
L
20
0.08
0.0
0.1
1
FREQUENCY (MHz)
FREQUENCY (MHz)
IHLP-2020BZ-11 0.47 μH 20 %
1.0
0.4
80
0.8
Q
40
0.2
L
20
0.1
1
0
1000
100
10
100
80
L
60
0.6
Q
60
0.3
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
IHLP-2020BZ-11 0.33 μH 20 %
0.5
0.0
0.1
0.4
40
Q
20
0.2
0.0
0.1
1
FREQUENCY (MHz)
IHLP-2020BZ-11 2.2 μH 20 %
5
2.0
80
4
60
1.0
40
Q
20
0.5
0
100
10
100
L
3
60
2
40
Q
20
1
0
0.1
1
FREQUENCY (MHz)
IHLP-2020BZ-11 3.3 μH 20 %
IHLP-2020BZ-11 4.7 μH 20 %
100
80
9.6
80
7.2
60
6
60
4
40
20
Q
12.0
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
L
2
0
100
10
FREQUENCY (MHz)
10
8
80
Q
L
1.5
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
IHLP-2020BZ-11 1.0 μH 20 %
1
0
100
10
FREQUENCY (MHz)
2.5
0.0
0.1
0
1000
100
10
40
4.8
L
Q
20
2.4
Q
0
0.1
1
10
FREQUENCY (MHz)
www.vishay.com
33
0
100
0.0
0.1
1
10
0
100
FREQUENCY (MHz)
For technical questions, contact: [email protected]
Document Number: 34261
Revision: 18-Mar-11
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020BZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-2020BZ-11 6.8 μH 20 %
100
16
80
16
80
12
60
12
60
8
Q
40
L
20
4
Q
20
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
IHLP-2020BZ-11 5.6 μH 20 %
20
40
8
L
20
4
Q
0
0.1
1
10
0
100
0
0.1
1
FREQUENCY (MHz)
10
0
100
FREQUENCY (MHz)
100
16
80
12
60
Q
INDUCTANCE (μH)
IHLP-2020BZ-11 10 μH 20 %
20
40
8
Q
L
20
4
0
0.1
1
10
0
100
FREQUENCY (MHz)
Document Number: 34261
Revision: 18-Mar-11
For technical questions, contact: [email protected]
www.vishay.com
34
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020CZ-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
•
•
•
•
Shielded construction
Frequency range up to 5.0 MHz
Lowest DCR/μH, in this package size
Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite
construction
• Excellent temperature stability for inductance and
saturation
• Compliant to RoHS Directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
HEAT
DCR
RATING SATURATION
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(3)
(m)
(A)
(A) (4)
0.10
3.00
3.16
23.0
27.0
0.22
4.30
4.52
15.5
21.0
0.33
5.30
5.56
13.7
19.0
0.47
6.70
7.04
12.2
16.0
0.68
8.53
8.96
10.2
13.5
0.82
11.3
11.9
9.3
13.0
1.0
13.1
13.7
9.2
12.0
1.5
19.7
20.7
7.2
11.0
2.2
27.8
29.2
5.8
10.0
3.3
52.1
54.7
5.0
8.5
4.7
73.8
77.5
3.5
8.2
5.6
103
108
3.0
4.1
10.0
152
158
2.5
4.0
15.0
252
265
1.9
2.5
APPLICATIONS
•
•
•
•
•
•
PDA/notebook/desktop/server applications
High current POL converters
Low profile, high current power supplies
Battery powered devices
DC/DC converters in distributed power systems
DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.100 ± 0.010
[2.54 ± 0.254]
0.204 ± 0.010
[5.18 ± 0.254]
Typical Pad Layout (Min.)
0.216 ± 0.010
[5.49 ± 0.250]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.236
[5.99]
0.110
[2.79]
0.118
[3.0]
Max.
0.085
[2.16]
0.040 ± 0.012
[1.02 ± 0.300]
DESCRIPTION
IHLP-2020CZ-01
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
P
2
0
2
0
SIZE
C
Z
E
R
PACKAGE
CODE
4
R
INDUCTANCE
VALUE
7
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
www.vishay.com
35
For technical questions, contact: [email protected]
Document Number: 34280
Revision: 08-Mar-11
IHLP-2020CZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2020CZ-01 0.22 µH
80
L
60
0.075
ΔT °C
0.050
40
0.025
20
0.000
15
20
25
0
35
30
L
0.15
60
0.10
40
0.05
20
0
10
5
DC CURRENT (A)
IHLP-2020CZ-01 0.33 µH
100
0.5
L
0.3
60
L
0.2
40
0.1
20
20
0.4
80
0.3
60
0.2
40
0.1
20
0
5
DC CURRENT (A)
IHLP-2020CZ-01 0.68 µH
L
0.45
60
0.30
40
0.15
20
0
15
0.00
9
INDUCTANCE (µH)
80
1.0
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0.60
6
12
80
0.8
L
0.6
60
0.4
40
0.2
20
0
3
IHLP-2020CZ-01 1.0 µH
12
9
6
IHLP-2020CZ-01 1.5 µH
100
100
2.0
80
1.00
L
0.75
60
0.50
40
0.25
20
0.0
12
9
DC CURRENT (A)
www.vishay.com
36
0
15
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
6
0
15
0.0
DC CURRENT (A)
1.25
3
100
ΔT° C
DC CURRENT (A)
0
0
20
15
IHLP-2020CZ-01 0.82 µH
100
3
10
DC CURRENT (A)
0.75
0
ΔT °C
0.0
0
25
0.0
15
INDUCTANCE (µH)
80
0.4
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
10
20
IHLP-2020CZ-01 0.47 µH
100
5
15
DC CURRENT (A)
0.5
0
0
25
0.00
TEMPERATURE (°C)
10
80
0.20
TEMPERATURE (°C)
5
100
ΔT °C
80
1.6
L
1.2
60
0.8
40
0.4
20
TEMPERATURE (°C)
0
0.25
INDUCTANCE (µH)
INDUCTANCE (µH)
0.100
TEMPERATURE (°C)
100
TEMPERATURE (°C)
IHLP-2020CZ-01 0.1 µH
0.125
0
0.0
0
2
4
6
8
10
12
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34280
Revision: 08-Mar-11
IHLP-2020CZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2020CZ-01 2.2 µH
IHLP-2020CZ-01 3.3 µH
80
2.0
L
60
1.5
1.0
40
0.5
20
0.0
0
10
8
6
ΔT °C
3.2
2.4
60
L
1.6
40
0.8
20
0
0.0
0
2
DC CURRENT (A)
100
7.5
60
2
40
1
20
INDUCTANCE (µH)
3
TEMPERATURE (°C)
INDUCTANCE (µH)
80
L
0
0
4
8
6
80
6.0
60
4.5
L
3.0
40
1.5
20
0
0.0
0
10
1
DC CURRENT (A)
6
60
4
40
2
20
0
0
4
3
DC CURRENT (A)
Document Number: 34280
Revision: 08-Mar-11
5
5
100
20
ΔT °C
INDUCTANCE (µH)
80
L
TEMPERATURE (°C)
INDUCTANCE (µH)
8
2
4
IHLP-2020CZ-01 15 µH
100
ΔT °C
1
3
2
DC CURRENT (A)
IHLP-2020CZ-01 10 µH
10
0
10
8
ΔT °C
4
2
6
IHLP-2020CZ-01 5.6 µH
100
ΔT °C
0
4
DC CURRENT (A)
IHLP-2020CZ-01 4.7 µH
5
80
TEMPERATURE (°C)
4
2
100
80
16
L
12
60
8
40
4
20
0
0
0.5
1.0
1.5
2.0
2.5
TEMPERATURE (°C)
0
INDUCTANCE (µH)
ΔT °C
4.0
TEMPERATURE (°C)
100
TEMPERATURE (°C)
INDUCTANCE (µH)
2.5
0
3.0
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
37
IHLP-2020CZ-11
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 1.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Excellent temperature stability for inductance and
saturation
• Compliant to RoHS Directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
• Halogen-free according to IEC 61249-2-21 definition
HEAT
L0
RATING SATURATION
DCR DCR
INDUCTANCE
± 20 % AT 100 kHz, TYP. MAX. CURRENT
CURRENT
25 °C 25 °C DC TYP.
0.25 V, 0 A
DC TYP.
(A) (3)
(m) (m)
(μH)
(A) (4)
APPLICATIONS
• PDA/notebook/desktop/server applications
• High current POL converters
0.10
2.6
2.9
21.00
25.00
• Low profile, high current power supplies
0.22
3.5
3.9
21.00
14.50
• Battery powered devices
0.33
4.5
5.0
16.50
9.00
• DC/DC converters in distributed power systems
0.47
5.4
6.0
14.00
9.00
1.0
10.0
11.0
10.00
6.50
• DC/DC converter for Field Programmable Gate Array
(FPGA)
1.5
17.1
18.5
7.50
7.00
2.2
22.5
25.0
6.75
5.50
3.3
36.4
40.4
5.50
7.00
4.7
54.0
60.0
4.50
5.20
5.6
63.0
70.6
4.25
3.50
10.0
122.1 131.9
2.75
2.25
22.0
260.0 270.0
1.90
1.70
DIMENSIONS in inches [millimeters]
0.100 ± 0.010
[2.54 ± 0.254]
0.204 ± 0.010
[5.18 ± 0.254]
Typical Pad Layout (Min.)
0.216 ± 0.010
[5.49 ± 0.250]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.236
[5.99]
0.110
[2.79]
0.118
[3.0]
Max.
0.085
[2.16]
0.040 ± 0.012
[1.02 ± 0.300]
DESCRIPTION
IHLP-2020CZ-11
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34260
Revision: 18-Mar-11
P
2
0
2
0
SIZE
C
Z
E
R
PACKAGE
CODE
4
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
7
M
TOL.
1
1
SERIES
www.vishay.com
38
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020CZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2020CZ-11 0.1 μH
IHLP-2020CZ-11 0.22 μH
0.20
60
0.08
L
0.04
40
20
15
18
21
27
24
30
0.08
40
0.04
20
0.0
0
33
5
0
10
DC CURRENT (A)
IHLP-2020CZ-11 0.33 μH
60
0.2
40
L
0.1
20
15
INDUCTANCE (μH)
0.3
TEMPERATURE (°C)
INDUCTANCE (μH)
80
10
0.4
80
0.3
60
L
0.2
40
0.1
20
0.0
0
25
20
0
2
6
4
IHLP-2020CZ-11 1.0 μH
0.8
L
0.4
40
20
10
12
14
INDUCTANCE (μH)
60
TEMPERATURE (°C)
INDUCTANCE (μH)
1.2
8
14
16
1.6
1.2
60
L
0.8
40
0.4
20
0.0
0
16
80
2
0
6
4
8
IHLP-2020CZ-11 2.2 μH
IHLP-2020CZ-11 3.3 μH
5
100
60
1.0
40
0.5
20
4
6
8
DC CURRENT (A)
www.vishay.com
39
10
0
12
INDUCTANCE (μH)
L
1.5
TEMPERATURE (°C)
INDUCTANCE (μH)
80
2.0
100
ΔT °C
ΔT °C
2
0
12
10
DC CURRENT (A)
2.5
0
0
22
20
100
DC CURRENT (A)
0.0
18
ΔT °C
80
6
12
IHLP-2020CZ-11 1.5 μH
1.6
4
10
2.0
100
ΔT °C
2
8
DC CURRENT (A)
2.0
0
100
ΔT °C
DC CURRENT (A)
0.0
0
35
30
0.5
100
0.4
5
25
20
IHLP-2020CZ-11 0.47 μH
ΔT °C
0
15
DC CURRENT (A)
0.5
0.0
60
TEMPERATURE (°C)
12
L
0.12
TEMPERATURE (°C)
9
6
80
80
4
3
60
L
2
40
1
20
0
0
1
3
2
4
5
6
7
8
TEMPERATURE (°C)
3
0.16
TEMPERATURE (°C)
0.12
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
0.16
0
100
ΔT °C
ΔT °C
0.0
0.20
100
0
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34260
Revision: 18-Mar-11
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020CZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
4
80
L
3
60
2
40
1
20
0
1
2
3
4
5
6
7
8
8
80
6
60
L
4
20
0
1
DC CURRENT (A)
IHLP-2020CZ-11 10 μH
60
8
40
L
4
20
3
DC CURRENT (A)
Document Number: 34260
Revision: 18-Mar-11
4
0
INDUCTANCE (μH)
12
TEMPERATURE (°C)
INDUCTANCE (μH)
80
2
5
6
7
0
IHLP-2020CZ-11 22 μH
16
1
4
25
100
ΔT °C
0
3
2
DC CURRENT (A)
20
0
40
2
0
0
100
ΔT °C
100
ΔT °C
80
20
15
L
60
10
40
5
20
0
0
0.5
1.0
1.5
2.0
2.5
TEMPERATURE (°C)
0
INDUCTANCE (μH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-2020CZ-11 5.6 μH
10
100
TEMPERATURE (°C)
IHLP-2020CZ-11 4.7 μH
5
0
3.0
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
40
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020CZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-2020CZ-11 0.22 μH 20 %
100
0.12
80
0.32
80
0.24
60
60
0.09
L
Q
40
0.06
20
0.03
0.0
0.1
1
0
1000
100
10
L
40
0.16
Q
20
0.08
0.0
0.1
1
FREQUENCY (MHz)
IHLP-2020CZ-11 0.47 μH 20 %
0.80
0.48
80
0.64
L
40
0.24
Q
1
20
0
1000
100
10
100
80
L
60
0.48
Q
60
0.36
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
IHLP-2020CZ-11 0.33 μH 20 %
0.0
0.1
0
1000
100
10
FREQUENCY (MHz)
0.60
0.12
Q
0.40
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
IHLP-2020CZ-11 0.1 μH 20 %
0.15
40
0.32
Q
20
0.16
0.0
0.1
1
FREQUENCY (MHz)
0
100
10
FREQUENCY (MHz)
IHLP-2020CZ-11 1.0 μH 20 %
IHLP-2020CZ-11 1.5 μH 20 %
2.0
100
2.5
80
2.0
100
0.8
40
Q
20
0.4
0.0
0.1
1
0
100
10
Q
0.0
0.1
80
8
80
2
40
Q
20
0
100
L
60
6
Q
60
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
10
3
www.vishay.com
41
0
100
10
100
L
FREQUENCY (MHz)
1
IHLP-2020CZ-11 3.3 μH 20 %
4
10
20
0.5
IHLP-2020CZ-11 2.2 μH 20 %
1
40
1.0
FREQUENCY (MHz)
5
0
0.1
60
1.5
FREQUENCY (MHz)
1
80
L
Q
60
1.2
INDUCTANCE (μH)
1.6
Q
INDUCTANCE (μH)
L
4
Q
40
20
2
0
0.1
1
10
0
100
FREQUENCY (MHz)
For technical questions, contact: [email protected]
Document Number: 34260
Revision: 18-Mar-11
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2020CZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-2020CZ-11 4.7 μH 20 %
12.0
IHLP-2020CZ-11 5.6 μH 20 %
100
14.0
100
60
Q
4.8
40
2.4
20
0.0
0.1
1
0
100
10
80
11.2
8.4
60
Q
Q
7.2
80
INDUCTANCE (μH)
L
9.6
Q
INDUCTANCE (μH)
L
5.6
40
2.8
20
0.0
0.1
1
FREQUENCY (MHz)
FREQUENCY (MHz)
IHLP-2020CZ-11 10 μH 20 %
25
IHLP-2020CZ-11 22 μH 20 %
100
120
100
L
60
40
20
5
Q
0
0.1
1
10
FREQUENCY (MHz)
Document Number: 34260
Revision: 18-Mar-11
0
100
80
96
60
72
Q
Q
15
INDUCTANCE (μH)
80
Q
INDUCTANCE (μH)
L
20
10
0
100
10
48
40
24
20
0
0.1
1
10
0
100
FREQUENCY (MHz)
For technical questions, contact: [email protected]
www.vishay.com
42
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2525AH-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Lowest height (1.8 mm) in this package footprint
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
APPLICATIONS
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
0.1
3.0
3.5
18
40
0.15
4.7
5.2
15
38
• DC/DC converters in distributed power systems
0.22
5.3
5.7
14
26
0.33
6.6
7.0
12
18
• DC/DC converter for Field Programmable Gate Array
(FPGA)
0.47
8.4
9.3
11
18
0.68
12.7
13.9
9
17
0.82
13.8
15.9
8
17
1.0
17.5
18.3
7
14
1.5
32.6
34.0
4
11.5
2.2
40.3
46.0
3.75
13
2.5
49.9
52.4
3.5
10.4
3.3
56.2
60.1
3.25
10
4.7
76.6
78.0
3
8
• PDA/notebook/desktop/server applications
• High current POL converters
• Low profile, high current power supplies
• Battery powered devices
DIMENSIONS in inches [millimeters]
0.255 ± 0.01
[6.47 ± 0.254]
0.125 ± 0.01
[3.18 ± 0.3]
T ypical Pad Layout (Min.)
0.270 ± 0.015
[6.86 ± 0.381]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.135
[3.43]
0.146
[3.71]
0.071
[1.80]
Max.
0.290
[7.37]
0.050 ± 0.012
[1.27 ± 0.30]
DESCRIPTION
IHLP-2525AH-01
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
P
2
5
2
5
SIZE
A
H
E
R
PACKAGE
CODE
1
R
0
INDUCTANCE
VALUE
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34125
Revision: 25-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
43
IHLP-2525AH-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
0.100
80
L
70
0.080
60
0.060
50
40
0.040
30
20
0.020
10
0.000
15
20
25
30
35
0.10
50
40
0.08
0.06
0.04
30
20
0.02
10
0
5
10
DC CURRENT (A)
IHLP-2525AH-01 0.22 µH
0.15
60
50
40
0.10
30
0.05
20
0.00
10
0
35
15
20
25
30
INDUCTANCE (µH)
80
70
L
10
80
0.25
70
L
0.20
50
40
0.15
30
20
0.10
0.05
0.00
10
0
5
10
70
0.30
60
0.25
0.20
0.15
50
40
15
20
0.70
80
0.50
60
50
40
0.40
0.30
10
0.10
10
0
0.00
0
2
4
6
70
60
0.50
50
40
0.40
0.30
0.20
30
20
0.10
10
0.00
0
DC CURRENT (A)
www.vishay.com
44
14
16
INDUCTANCE (µH)
0.60
12
10
12
1.20
TEMPERATURE (°C)
INDUCTANCE (µH)
L
10
8
0
16
14
IHLP-2525AH-01 1.0 µH
80
8
70
L
30
20
100
90
0.70
6
100
90
DC CURRENT (A)
Δ T °C
4
0
35
30
0.60
IHLP-2525AH-01 0.82 µH
2
25
Δ T °C
DC CURRENT (A)
0
20
0.20
30
20
0.10
INDUCTANCE (µH)
L
0.35
0.80
15
0.80
TEMPERATURE (°C)
INDUCTANCE (µH)
80
0.40
10
60
IHLP-2525AH-01 0.68 µH
100
90
Δ T °C
0.45
0.90
0
100
90
0.30
IHLP-2525AH-01 0.47 µH
5
35
DC CURRENT (A)
0.50
0
30
Δ T °C
DC CURRENT (A)
0.05
0.00
25
0.35
TEMPERATURE (°C)
INDUCTANCE (µH)
Δ T °C 90
5
20
IHLP-2525AH-01 0.33 µH
100
0
15
DC CURRENT (A)
0.25
0.20
60
TEMPERATURE (°C)
10
L
TEMPERATURE (°C)
5
70
0.12
0.00
0
40
80
0.14
Δ T °C
1.00
100
90
80
L
0.80
70
60
0.60
50
40
0.40
30
20
0.20
TEMPERATURE (°C)
0
100
90
Δ T °C
0.16
INDUCTANCE (µH)
INDUCTANCE (µH)
Δ T °C
0.18
TEMPERATURE (°C)
100
90
TEMPERATURE (°C)
IHLP-2525AH-01 0.15 µH
IHLP-2525AH-01 0.1 µH
0.120
10
0.00
0
2
4
6
8
10
12
0
14
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34125
Revision: 25-Feb-11
IHLP-2525AH-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
70
L
1.0
60
0.8
50
40
0.6
0.4
30
20
0.2
10
0
2
4
6
8
1.5
60
1.0
50
40
Δ T °C
10
0.0
0
2
4
70
2.0
60
L
50
40
1.5
1.0
30
20
0.5
8
70
60
Δ T °C
2. 0
1. 5
50
40
1. 0
30
20
0. 5
0
10
80
L
2. 5
10
6
100
90
3. 0
INDUCTANCE (µH)
80
4
0
12
3. 5
TEMPERATURE (°C)
INDUCTANCE (µH)
2.5
2
10
IHLP-2525AH-01 3.3 µH
100
90
Δ T °C
0
8
6
DC CURRENT (A)
IHLP-2525AH-01 2.5 µH
0
30
20
0.5
DC CURRENT (A)
3.0
70
L
0
10
80
2.0
0
TEMPERATURE (°C)
0
INDUCTANCE (µH)
80
1.2
100
90
2.5
TEMPERATURE (°C)
Δ T °C
1.4
INDUCTANCE (µH)
100
90
TEMPERATURE (°C)
IHLP-2525AH-01 2.2 µH
IHLP-2525AH-01 1.5 µH
1.6
10
0
1
2
3
DC CURRENT (A)
4
5
6
7
8
9
0
10
DC CURRENT (A)
100
90
4.0
80
3.5
70
L
3.0
2.5
60
50
40
Δ T °C
2.0
1.5
1.0
30
20
0.5
0
10
0
1
2
3
4
5
6
7
8
TEMPERATURE (°C)
INDUCTANCE (µH)
IHLP-2525AH-01 4.7 µH
5.0
4.5
0
DC CURRENT (A)
Document Number: 34125
Revision: 25-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
45
IHLP-2525BD-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Lowest height (2.4 mm) in this package footprint
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
APPLICATIONS
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
0.1
0.22
0.33
0.47
0.68
0.82
1.0
1.5
2.2
3.3
4.7
6.8
8.2
10
DCR
TYP.
25 °C
(m)
1.5
2.9
3.7
6.0
8.7
10.6
13.1
18.5
28.0
36.5
45.2
72.5
84.2
115.6
• PDA/notebook/desktop/server applications
HEAT
DCR
RATING SATURATION
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(3)
(m)
(A)
(A) (4)
1.7
30
50
3.2
21
34
4.1
18
22
6.5
13.5
21
9.4
11
18
11.8
10
17
14.2
9.0
16
21.2
7.5
15
34.0
6.5
14
51.6
5.0
13
63.0
4.5
10
95.0
3.5
9
106
3.0
8
129
2.5
7
• High current POL converters
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.255 ± 0.010
[6.47 ± 0.254]
0.125 ± 0.01
[3.18 ± 0.3]
Typical Pad Layout (Min.)
0.135
[3.43]
0.146
[3.71]
0.270 ± 0.015
[6.86 ± 0.381]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.290
[7.37]
0.095 [2.4] Max.
0.050 ± 0.012
[1.27 ± 0.30]
DESCRIPTION
IHLP-2525BD-01
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
2
E
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
P
2
5
5
SIZE
B
D
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
0
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34154
Revision: 28-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
46
IHLP-2525BD-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2525BD-01 0.22 µH
IHLP-2525BD-01 0.1 µH
100
0.25
ΔT °C
0.080
60
0.060
40
0.040
20
0.020
10
0
30
20
L
60
0.10
40
0.05
20
5
0
10
DC CURRENT (A)
80
L
0.25
60
0.20
0.15
40
0.10
100
ΔT °C
0.45
INDUCTANCE (µH)
0.30
TEMPERATURE (°C)
ΔT °C
0.40
80
L
0.35
0.30
60
0.25
0.20
40
0.15
20
0.10
20
0.05
0.00
15
10
20
25
30
0.00
0
5
0
10
DC CURRENT (A)
DC CURRENT (A)
IHLP-2525BD-01 0.68 µH
IHLP-2525BD-01 0.82 µH
ΔT °C
80
0.60
L
0.50
60
0.40
40
0.30
0.20
20
0.10
100
ΔT °C
0.80
INDUCTANCE (µH)
0.70
0.90
100
TEMPERATURE (°C)
0.80
0
20
15
80
0.70
L
0.60
60
0.50
0.40
40
0.30
0.20
TEMPERATURE (°C)
5
0
20
0.10
0.00
0
2
4
6
8
10
14
12
16
0
20
18
0
0
0
2
4
6
DC CURRENT (A)
8
10
14
12
16
18
DC CURRENT (A)
IHLP-2525BD-01 1.0 µH
IHLP-2525BD-01 1.5 µH
1.2
100
1.6
Δ T °C
100
80
L
0.8
60
0.6
40
0.4
20
0.2
INDUCTANCE (µH)
1.0
TEMPERATURE (°C)
1.4
L
1.2
80
ΔT °C
1.0
60
0.8
0.6
40
0.4
20
TEMPERATURE (°C)
INDUCTANCE (µH)
0
35
30
25
0.50
100
0.05
INDUCTANCE (µH)
20
IHLP-2525BD-01 0.47 µH
IHLP-2525BD-01 0.33 µH
INDUCTANCE (µH)
15
DC CURRENT (A)
0.35
0
80
0.15
0.00
0
50
40
0.20
TEMPERATURE (°C)
0.000
INDUCTANCE (µH)
80
L
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0.100
TEMPERATURE (°C)
100
0.120
0.2
0
2
4
6
8
10
14
12
16
18
0
20
0
0
0
2
4
6
DC CURRENT (A)
www.vishay.com
47
For technical questions, contact: [email protected]
8
10
12
14
16
18
DC CURRENT (A)
Document Number: 34154
Revision: 28-Feb-11
IHLP-2525BD-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2525BD-01 2.2 µH
IHLP-2525BD-01 3.3 µH
100
80
L
1.5
60
1.0
40
0.5
20
100
ΔT °C
3.5
INDUCTANCE (µH)
2.0
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
4.0
80
3.0
L
2.5
60
2.0
40
1.5
1.0
20
TEMPERATURE (°C)
2.5
0.5
0.0
0
6
8
0.0
14
12
10
4
2
0
DC CURRENT (A)
IHLP-2525BD-01 4.7 µH
8.0
80
Δ T °C
3.0
60
2.5
2.0
40
1.5
1.0
20
INDUCTANCE (µH)
4.0
TEMPERATURE (°C)
0
100
80
6.0
L
5.0
60
4.0
3.0
40
2.0
20
1.0
0.0
0
1
4
3
2
5
7
6
9
8
10
0
0.0
0
0
1
2
3
DC CURRENT (A)
7.0
100
12
80
10
L
6.0
60
5.0
4.0
40
3.0
2.0
20
1.0
1
2
3
4
5
DC CURRENT (A)
Document Number: 34154
Revision: 28-Feb-11
6
7
8
0
INDUCTANCE (µH)
ΔT °C
0
6
7
8
9
IHLP-2525BD-01 10 µH
TEMPERATURE (°C)
9.0
5
DC CURRENT (A)
IHLP-2525BD-01 8.2 µH
8.0
4
100
ΔT °C
80
L
8
60
6
40
4
20
2
0
0
1
3
2
4
5
6
7
TEMPERATURE (°C)
INDUCTANCE (µH)
12
ΔT °C
7.0
L
0.5
INDUCTANCE (µH)
10
IHLP-2525BD-01 6.8 µH
100
4.5
0.0
8
DC CURRENT (A)
5.0
3.5
6
TEMPERATURE (°C)
4
2
0
0
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
48
IHLP-2525CZ-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Lowest height (3.0 mm) in this package footprint
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
0.10
0.15
0.20
0.22
0.33
0.47
0.68
0.82
1.0
1.5
2.2
3.3
4.7
6.8
8.2
10
DCR
TYP.
25 °C
(m)
1.5
1.9
2.4
2.5
3.5
4
5
6.7
9
14
18
28
37
54
64
102
APPLICATIONS
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
1.7
32.5
60
2.5
26
52
3.0
24
41
2.8
23
40
3.9
20
30
4.2
17.5
26
5.5
15.5
25
8
13
24
10
11
22
15
9
18
20
8
14
30
6
13.5
40
5.5
10
60
4.5
8
68
4
7.5
105
3
7.0
• PDA/notebook/desktop/server applications
• High current POL converters
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
Typical Pad Layout (Min.)
0.255 ± 0.010
[6.47 ± 0.254]
0.125 ± 0.01
[3.18 ± 0.3]
0.135
[3.43]
0.146
[3.71]
0.290
[7.37]
0.270 ± 0.015
[6.86 ± 0.381]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.118 [3.0] Max.
0.050 ± 0.012
[1.27 ± 0.30]
DESCRIPTION
IHLP-2525CZ-01
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
P
2
5
2
5
SIZE
C
Z
E
R
PACKAGE
CODE
1
R
0
INDUCTANCE
VALUE
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34104
Revision: 24-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
49
IHLP-2525CZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2525CZ-01 0.15 µH
IHLP-2525CZ-01 0.10 µH
0.120
0.16
100
0.080
60
0.060
40
0.040
20
0.020
L
0.12
0.10
60
0.08
40
0.06
0.04
20
0.02
40
50
60
0.00
0
0
10
0
20
30
40
DC CURRENT (A)
IHLP-2525CZ-01 0.20 µH
IHLP-2525CZ-01 0.22 µH
100
0.25
100
0.25
ΔT °C
L
0.15
60
0.10
40
0.05
20
15
20
25
30
L
0.15
60
0.10
40
0.05
20
40
35
80
0.20
0.00
0
10
5
INDUCTANCE (µH)
80
0.20
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0
0
5
10
IHLP-2525CZ-01 0.33 µH
25
30
0
40
35
0.6
100
100
ΔT °C
0.30
60
L
0.25
0.20
40
0.15
0.10
20
INDUCTANCE (µH)
80
0.35
TEMPERATURE (°C)
ΔT °C
0.40
20
IHLP-2525CZ-01 0.47 µH
0.50
0.45
15
DC CURRENT (A)
DC CURRENT (A)
INDUCTANCE (µH)
50
TEMPERATURE (°C)
30
20
0.5
80
L
0.4
60
0.3
40
0.2
20
0.1
TEMPERATURE (°C)
10
0
DC CURRENT (A)
0.00
80
TEMPERATURE (°C)
80
L
INDUCTANCE (µH)
0.100
0.000
100
ΔT °C
0.14
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0.05
0.00
5
15
10
20
0.0
0
30
25
5
0
10
DC CURRENT (A)
L
0.5
60
0.4
40
0.3
0.2
20
0.1
INDUCTANCE (µH)
80
TEMPERATURE (°C)
INDUCTANCE (µH)
0
100
ΔT °C
0.8
0.6
0.0
25
IHLP-2525CZ-01 0.82 µH
0.9
100
ΔT °C
0.7
20
DC CURRENT (A)
IHLP-2525CZ-01 0.68 µH
0.8
15
L
0.7
80
0.6
60
0.5
0.4
40
0.3
0.2
20
TEMPERATURE (°C)
0
0.1
0
5
10
15
20
25
0
0.0
0
5
DC CURRENT (A)
www.vishay.com
50
For technical questions, contact: [email protected]
10
20
15
0
25
DC CURRENT (A)
Document Number: 34104
Revision: 24-Feb-11
IHLP-2525CZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2525CZ-01 1.5 µH
IHLP-2525CZ-01 1.00 µH
1.2
1.6
100
ΔT °C
60
0.6
40
0.4
20
0.2
L
80
1.2
1.0
60
0.8
40
0.6
0.4
20
TEMPERATURE (°C)
0.8
INDUCTANCE (µH)
80
L
TEMPERATURE (°C)
INDUCTANCE (µH)
1.0
0.0
100
ΔT °C
1.4
0.2
5
0
15
10
0.0
0
20
0
2
4
6
10
8
12
14
16
18
0
DC CURRENT (A)
DC CURRENT (A)
IHLP-2525CZ-01 2.2 µH
2.5
IHLP-2525CZ-01 3.3 µH
ΔT °C
100
3.5
100
ΔT °C
60
1.0
40
20
0.5
60
2.0
1.5
40
1.0
20
0.5
0.0
0
2
0
8
6
4
10
12
14
0
2
4
IHLP-2525CZ-01 4.7 µH
100
ΔT °C
80
L
3.5
3.0
60
2.5
2.0
40
1.5
1.0
20
80
7.0
6.0
L
60
5.0
4.0
40
3.0
2.0
20
TEMPERATURE (°C)
4.0
INDUCTANCE (µH)
8.0
TEMPERATURE (°C)
INDUCTANCE (µH)
IHLP-2525CZ-01 6.8 µH
1.0
0.5
0.0
0
0.0
0
1
4
3
2
6
5
7
8
9
10
0
1
2
100
ΔT °C
6
5
8
7
0
100
10.0
L
7.0
80
6.0
60
5.0
4.0
40
3.0
2.0
20
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
8.0
4
IHLP-2525CZ-01 10.0 µH
IHLP-2525CZ-01 8.2 µH
9.0
3
DC CURRENT (A)
DC CURRENT (A)
INDUCTANCE (µH)
0
12
10
9.0
100
ΔT °C
4.5
8
DC CURRENT (A)
DC CURRENT (A)
5.0
6
8.0
80
L
6.0
60
4.0
40
2.0
20
TEMPERATURE (°C)
0.0
80
L
2.5
TEMPERATURE (°C)
1.5
INDUCTANCE (µH)
L
TEMPERATURE (°C)
INDUCTANCE (µH)
3.0
80
2.0
1.0
0.0
0
1
2
3
4
5
6
7
8
9
0
0.0
0
1
2
DC CURRENT (A)
Document Number: 34104
Revision: 24-Feb-11
For technical questions, contact: [email protected]
3
4
5
6
7
0
DC CURRENT (A)
www.vishay.com
51
IHLP-2525CZ-11
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 1.0 MHz
• Lowest DCR/μH, in this package size
• Powered iron
saturation
composition
provides
soft
• Handles high transient current spikes without hard
saturation
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
1.0
7.6
8.0
12.5
9.5
2.2
15.7
16.5
9.0
7.0
3.3
24.8
26.0
7.0
6.5
4.7
31.8
33.4
6.0
4.0
6.8
44.6
46.8
5.5
4.0
8.2
52.3
54.9
5.0
4.0
10
67.8
71.2
4.0
3.5
22
128.9
135.0
2.9
2.5
APPLICATIONS
HEAT
DCR
RATING SATURATION
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(m)
(A) (3)
(A) (4)
• PDA/notebook/desktop/server applications
• High current POL converters
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
Typical Pad Layout (Min.)
0.255 ± 0.010
[6.47 ± 0.254]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.125 ± 0.01
[3.18 ± 0.3]
0.135
[3.43]
0.146
[3.71]
0.290
[7.37]
0.270 ± 0.015
[6.86 ± 0.381]
0.118 [3.0] Max.
0.050 ± 0.012
[1.27 ± 0.30]
DESCRIPTION
IHLP-2525CZ-11
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34190
Revision: 18-Mar-11
P
2
5
2
5
SIZE
C
Z
E
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
0
M
TOL.
1
1
SERIES
www.vishay.com
52
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2525CZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2525CZ-11 1.0 µH
IHLP-2525CZ-11 2.2 µH
100
1.25
L
0.50
40
0.25
20
0.00
8
10
12
14
16
18
0
20
1.0
40
0.5
20
0.0
0
1
2
3
4
5
6
7
8
0
10 11 12 13 14
9
DC CURRENT (A)
DC CURRENT (A)
IHLP-2525CZ-11 3.3 µH
IHLP-2525CZ-11 4.7 µH
100
5.0
ΔT °C
60
3.0
L
40
1.0
0.0
20
0
1
2
3
4
5
6
7
8
9
10
INDUCTANCE (µH)
80
4.0
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
2.0
L
3.0
60
2.0
40
1.0
20
0.0
0
11
80
4.0
0
1
2
3
4
5
6
7
IHLP-2525CZ-11 6.8 µH
ΔT °C
80
4.5
60
L
3.0
40
1.5
20
0.0
INDUCTANCE (µH)
6.0
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
4
5
6
7
8
8
80
6
60
L
4
40
2
20
0
0
3
0
0
9
1
2
3
4
IHLP-2525CZ-11 10 µH
100
25
80
20
60
L
5.0
40
2.5
20
3
4
5
DC CURRENT (A)
www.vishay.com
53
6
7
0
INDUCTANCE (µH)
7.5
TEMPERATURE (°C)
INDUCTANCE (µH)
10.0
2
7
100
ΔT °C
ΔT °C
1
6
IHLP-2525CZ-11 22 µH
12.5
0
5
DC CURRENT (A)
DC CURRENT (A)
0.0
0
100
10
100
2
9
IHLP-2525CZ-11 8.2 µH
7.5
1
8
DC CURRENT (A)
DC CURRENT (A)
0
100
5.0
TEMPERATURE (°C)
6
L
TEMPERATURE (°C)
4
60
1.5
80
15
60
L
10
40
5
20
0
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
TEMPERATURE (°C)
2
80
2.0
TEMPERATURE (°C)
60
0.75
INDUCTANCE (µH)
80
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
1.00
0
100
2.5
ΔT °C
0
5.0
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34190
Revision: 18-Mar-11
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-2525CZ-06
Vishay Dale
10 % DCR Tolerance,
Low Profile, IHLP® Power Inductors
FEATURES
• Lowest height (3.0 mm) in this package footprint
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without saturation
• Ultra low buzz noise, due to composite construction
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Compliant to RoHS directive 2002/95/EC
APPLICATIONS
• Tolerance DCR for current sense applications
STANDARD ELECTRICAL SPECIFICATIONS
• Improved current balance in phased power supplies
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
± 10 %
AT 25 °C
(m)
HEAT
RATING
CURRENT
DC TYP.
(A) (3)
0.10
1.30
32.5
60
• High current, low profile POL converters
0.20
2.34
24
41
• DC/DC converters in distributed power systems
0.33
3.20
20
30
0.47
3.86
17.5
26
0.68
5.20
15.5
25
0.82
7.41
13
24
1.0
8.44
11
22
1.5
14.50
9
18
2.2
17.73
8
14
3.3
28.21
6
13.5
4.7
37.11
5.5
10
SATURATION
CURRENT
DC TYP.
(A) (4)
8.2
61.47
4
7.5
10
97.71
3
7.0
• Improved thermal management
• PDA/notebook/desktop/server
devices
and
battery
powered
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
Typical Pad Layout (Min.)
0.255 ± 0.010
[6.47 ± 0.254]
0.125 ± 0.01
[3.18 ± 0.3]
0.135
[3.43]
0.146
[3.71]
0.290
[7.37]
0.270 ± 0.015
[6.86 ± 0.381]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.118 [3.0] Max.
0.050 ± 0.012
[1.27 ± 0.30]
DESCRIPTION
IHLP-2525CZ-06
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34167
Revision: 26-May-10
P
2
5
2
5
SIZE
C
Z
E
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
0
M
TOL.
0
6
SERIES
www.vishay.com
54
IHLP-2525CZ-06
10 % DCR Tolerance,
Low Profile, IHLP® Power Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2525CZ-06 0.20 µH
IHLP-2525CZ-06 0.10 µH
ΔT °C
80
TEMPERATURE (°C)
L
0.080
60
0.060
40
0.040
20
0.020
10
30
20
40
0
60
50
L
0.15
60
0.10
40
0.05
20
0.00
0
5
0
15
10
DC CURRENT (A)
IHLP-2525CZ-06 0.47 µH
IHLP-2525CZ-06 0.33 µH
80
0.35
0.30
60
L
0.25
0.20
40
0.15
0.10
20
INDUCTANCE (µH)
ΔT °C
0
0
15
10
5
20
25
0.5
80
L
0.4
60
0.3
40
0.2
20
0.1
0.05
0.00
100
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (µH)
0.6
100
0.40
0.0
30
0
DC CURRENT (A)
IHLP-2525CZ-06 0.68 µH
L
60
0.4
40
0.3
0.2
20
INDUCTANCE (µH)
80
0.1
L
0.7
80
0.6
60
0.5
0.4
40
0.3
0.2
20
0.1
0.0
0
5
10
15
0
25
20
0.0
0
0
25
20
DC CURRENT (A)
IHLP-2525CZ-06 1.5 µH
IHLP-2525CZ-06 1.00 µH
1.6
100
ΔT °C
L
80
0.8
60
0.6
40
0.4
20
0.2
INDUCTANCE (µH)
1.0
100
ΔT °C
1.4
TEMPERATURE (°C)
1.2
15
10
5
DC CURRENT (A)
INDUCTANCE (µH)
100
ΔT °C
0.8
0.6
0.5
0.9
TEMPERATURE (°C)
INDUCTANCE (µH)
IHLP-2525CZ-06 0.82 µH
100
ΔT °C
0.7
25
20
15
10
5
0
DC CURRENT (A)
0.8
40
35
30
DC CURRENT (A)
0.50
0.45
25
20
TEMPERATURE (°C)
0
80
0.20
TEMPERATURE (°C)
0.000
ΔT °C
L
1.2
1.0
80
60
0.8
40
0.6
0.4
20
TEMPERATURE (°C)
INDUCTANCE (µH)
0.100
100
0.25
TEMPERATURE (°C)
100
INDUCTANCE (µH)
0.120
0.2
0
0.0
0
5
10
15
DC CURRENT (A)
www.vishay.com
55
20
0.0
0
2
4
6
8
10
12
14
16
0
18
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34167
Revision: 26-May-10
IHLP-2525CZ-06
10 % DCR Tolerance,
Low Profile, IHLP® Power Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2525CZ-06 3.3 µH
IHLP-2525CZ-06 2.2 µH
100
3.5
L
1.5
60
1.0
40
20
0.5
100
ΔT °C
3.0
INDUCTANCE (µH)
80
2.0
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
80
L
2.5
60
2.0
1.5
40
1.0
20
TEMPERATURE (°C)
2.5
0.5
0
4
2
0
6
10
8
12
0.0
14
2
0
DC CURRENT (A)
IHLP-2525CZ-06 8.2 µH
80
L
3.5
3.0
60
2.5
2.0
40
1.5
20
1.0
INDUCTANCE (µH)
4.0
100
ΔT °C
8.0
TEMPERATURE (°C)
INDUCTANCE (µH)
9.0
100
ΔT °C
4.5
0
12
10
DC CURRENT (A)
IHLP-2525CZ-06 4.7 µH
5.0
8
6
4
L
7.0
80
6.0
60
5.0
4.0
40
3.0
2.0
20
TEMPERATURE (°C)
0.0
1.0
0.5
0
0.0
0
1
2
3
4
5
6
7
9
8
0
0.0
10
0
1
2
DC CURRENT (A)
3
4
5
6
7
8
9
DC CURRENT (A)
IHLP-2525CZ-06 10.0 µH
100
ΔT °C
8.0
80
L
6.0
60
4.0
40
2.0
20
TEMPERATURE (°C)
INDUCTANCE (µH)
10.0
0
0.0
0
1
2
3
4
5
6
7
DC CURRENT (A)
Document Number: 34167
Revision: 26-May-10
For technical questions, contact: [email protected]
www.vishay.com
56
IHLP-2525CZ-07
Vishay Dale
5 % DCR Tolerance,
Low Profile, IHLP® Power Inductors
FEATURES
• Lowest height (3.0 mm) in this package footprint
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without saturation
• Ultra low buzz noise, due to composite construction
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Compliant to RoHS directive 2002/95/EC
APPLICATIONS
STANDARD ELECTRICAL SPECIFICATIONS
• Tolerance DCR for current sense applications
DCR
±5%
AT 25 °C
(m)
HEAT
RATING
CURRENT
DC TYP.
(A) (3)
0.10
1.30
32.5
60
0.15
1.85
26
52
0.20
2.34
24
41
• DC/DC converters in distributed power systems
0.33
3.20
20
30
0.47
3.86
17.5
26
• DC/DC converter for Field Programmable Gate Array
(FPGA)
0.68
5.20
15.5
25
0.82
7.41
13
24
1.0
8.44
11
22
1.5
14.50
9
18
2.2
17.73
8
14
3.3
28.21
6
13.5
4.7
37.11
5.5
10
8.2
61.47
4
7.5
10
97.71
3
7.0
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
• Improved current balance in phased power supplies
SATURATION
CURRENT
DC TYP.
(A) (4)
• Improved thermal management
• PDA/notebook/desktop/server
devices
and
battery
powered
• High current, low profile POL converters
DIMENSIONS in inches [millimeters]
Typical Pad Layout (Min.)
0.255 ± 0.010
[6.47 ± 0.254]
0.125 ± 0.01
[3.18 ± 0.3]
0.135
[3.43]
0.146
[3.71]
0.290
[7.37]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.270 ± 0.015
[6.86 ± 0.381]
0.118 [3.0] Max.
0.050 ± 0.012
[1.27 ± 0.30]
DESCRIPTION
IHLP-2525CZ-07
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
www.vishay.com
57
P
2
5
2
5
SIZE
C
Z
E
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
0
M
TOL.
0
7
SERIES
Document Number: 34168
Revision: 26-May-10
IHLP-2525CZ-07
5 % DCR Tolerance,
Low Profile, IHLP® Power Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2525CZ-07 0.15 µH
IHLP-2525CZ-07 0.10 µH
0.16
100
0.120
ΔT °C
60
0.060
40
0.040
20
0.020
L
0.12
0.10
80
60
0.08
40
0.06
0.04
20
TEMPERATURE (°C)
0.080
INDUCTANCE (µH)
80
L
TEMPERATURE (°C)
0.02
0.000
20
10
0
30
40
0
0.0
0
60
50
0
DC CURRENT (A)
50
40
30
20
10
DC CURRENT (A)
IHLP-2525CZ-07 0.20 µH
IHLP-2525CZ-07 0.33 µH
0.25
100
0.50
ΔT °C
100
ΔT °C
80
L
0.15
60
0.10
40
0.05
20
INDUCTANCE (µH)
0.20
TEMPERATURE (°C)
0.45
0.40
80
0.35
0.30
60
0.25
L
0.20
40
0.15
0.10
20
TEMPERATURE (°C)
INDUCTANCE (µH)
0.100
INDUCTANCE (µH)
100
ΔT °C
0.14
0.05
0
5
10
15
25
20
30
0
40
35
0
0.00
0
IHLP-2525CZ-07 0.47 µH
0.8
100
ΔT °C
30
100
ΔT °C
0.4
60
0.3
40
0.2
20
0.1
INDUCTANCE (µH)
80
L
TEMPERATURE (°C)
0.7
0.5
80
0.6
L
0.5
60
0.4
40
0.3
0.2
20
0.1
0
0.0
0
10
5
15
0.0
25
20
0
0
IHLP-2525CZ-07 1.00 µH
IHLP-2525CZ-07 0.82 µH
100
L
0.6
60
0.5
0.4
40
0.3
0.2
20
0.1
0
5
10
15
20
DC CURRENT (A)
Document Number: 34168
Revision: 26-May-10
0
25
100
ΔT °C
1.0
INDUCTANCE (µH)
80
0.7
1.2
TEMPERATURE (°C)
ΔT °C
0.8
25
20
15
DC CURRENT (A)
DC CURRENT (A)
0.9
10
5
L
80
0.8
60
0.6
40
0.4
20
0.2
TEMPERATURE (°C)
INDUCTANCE (µH)
25
IHLP-2525CZ-07 0.68 µH
0.6
INDUCTANCE (µH)
20
DC CURRENT (A)
DC CURRENT (A)
0.0
15
10
5
TEMPERATURE (°C)
0.00
0
0.0
0
5
10
15
20
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
58
IHLP-2525CZ-07
5 % DCR Tolerance,
Low Profile, IHLP® Power Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2525CZ-07 2.2 µH
IHLP-2525CZ-07 1.5 µH
2.5
100
ΔT °C
100
ΔT °C
80
1.0
60
0.8
40
0.6
0.4
20
INDUCTANCE (µH)
INDUCTANCE (µH)
L
1.2
TEMPERATURE (°C)
1.4
2.0
80
L
1.5
60
1.0
40
0.5
20
TEMPERATURE (°C)
1.6
0.2
0.0
0
0.0
2
4
6
12
10
8
14
16
2
0
18
6
4
DC CURRENT (A)
1.5
40
1.0
20
INDUCTANCE (µH)
60
2.0
TEMPERATURE (°C)
4.0
80
L
3.5
3.0
60
2.5
2.0
40
1.5
20
1.0
0.5
2
0
8
6
4
10
0
12
0
0.0
0
IHLP-2525CZ-07 8.2 µH
9
8
10
IHLP-2525CZ-07 10.0 µH
10.0
80
8.0
6.0
60
5.0
4.0
40
3.0
2.0
20
INDUCTANCE (µH)
L
7.0
100
TEMPERATURE (°C)
ΔT °C
8.0
7
6
5
DC CURRENT (A)
DC CURRENT (A)
9.0
4
3
2
1
100
ΔT °C
80
L
6.0
60
4.0
40
2.0
20
TEMPERATURE (°C)
INDUCTANCE (µH)
80
L
2.5
100
ΔT °C
4.5
0.5
INDUCTANCE (µH)
0
14
12
IHLP-2525CZ-07 4.7 µH
5.0
100
ΔT °C
3.0
0.0
10
DC CURRENT (A)
IHLP-2525CZ-07 3.3 µH
3.5
8
TEMPERATURE (°C)
0
1.0
0.0
0
0
1
2
3
4
5
6
DC CURRENT (A)
www.vishay.com
59
7
8
9
0
0.0
0
1
2
3
4
5
6
7
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34168
Revision: 26-May-10
IHLP-2525EZ-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
•
•
•
•
•
•
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
•
•
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
0.56
3.4
3.6
20
12
0.68
4.2
4.5
18
11.5
0.82
4.6
4.9
16.5
13
1.0
5.6
6.5
13
15
APPLICATIONS
HEAT
DCR
RATING SATURATION
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(3)
(m)
(A)
(A) (4)
1.5
8.6
9.0
12
12
2.2
13.0
13.6
10
10
3.3
19.9
20.9
8
8
4.7
28.9
30.3
6.5
7
5.6
32.7
34.4
6
7
6.8
42.5
44.6
5.5
5.5
Shielded construction
Frequency range below 1.0 MHz
Lowest DCR/μH, in this package size
Powdered iron composition provides soft
saturation
Handles high transient current spikes without
saturation
Saturation and inductance extremely stable over
temperature
Ultra low buzz noise, due to composite construction
Compliant to RoHS Directive 2002/95/EC
•
•
•
•
•
Notebook/desktop/server applications
High current POL converters
Low profile, high current power supplies
DC/DC converters in distributed power systems
DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.125 ± 0.01
[3.18 ± 0.3]
Typical Pad Layout (Min)
8.2
48.3
50.7
5.0
5.0
10.0
67.9
71.3
4.5
4.5
0.255 ± 0.010
[6.47 ± 0.254]
0.135
[3.43]
0.146
[3.71]
0.290
[7.37]
0.270 ± 0.016
[6.86 ± 0.381]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.197
[5.0] Max
0.050 ± 0.012
[1.27 ± 0.30]
DESCRIPTION
IHLP-2525EZ-01
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
P
2
5
2
5
SIZE
E
Z
E
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
0
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34177
Revision: 01-Mar-11
For technical questions, contact: [email protected]
www.vishay.com
60
IHLP-2525EZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2525EZ-01 0.56 µH
IHLP-2525EZ-01 0.68 µH
80
0.45
60
0.30
40
L
0.15
20
0.00
INDUCTANCE (µH)
Δ T °C
5
10
15
20
25
60
0.6
0.4
20
0.2
0
30
5
10
15
20
IHLP-2525EZ-01 1.0 µH
IHLP-2525EZ-01 0.82 µH
100
1.25
100
Δ T °C
0.6
60
0.5
0.4
40
0.3
0.2
20
INDUCTANCE (µH)
80
L
TEMPERATURE (°C)
Δ T °C
0.9
0.7
0
30
25
DC CURRENT (A)
1.0
0.8
40
L
DC CURRENT (A)
INDUCTANCE (µH)
80
Δ T °C
0.0
0
0
0.8
1.00
80
0.75
L
60
0.50
40
0.25
20
TEMPERATURE (°C)
0.60
100
1.0
TEMPERATURE (°C)
100
TEMPERATURE (°C)
INDUCTANCE (µH)
0.75
0.1
0.0
10
15
0
0
25
20
0
2
4
6
8
DC CURRENT (A)
0
12 14 16 18 20 22 24
10
DC BIAS (A)
IHLP-2525EZ-01 2.2 µH
IHLP-2525EZ-01 1.5 µH
2.5
100
2.0
100
80
1.6
60
1.2
L
0.8
40
0.4
20
0.0
0
2
4
6
8
10
12
14
16
INDUCTANCE (µH)
Δ T °C
TEMPERATURE (°C)
INDUCTANCE (µH)
Δ T °C
2.0
1.5
60
1.0
40
0.5
20
0.0
0
0
18
80
L
1
2
3
4
5
DC CURRENT (A)
6
7
8
0
9 10 11 12 13 14 15
DC CURRENT (A)
IHLP-2525EZ-01 3.3 µH
IHLP-2525EZ-01 4.7 µH
100
5.0
100
5.0
Δ T °C
60
3.0
L
2.0
40
20
1.0
1
2
3
4
5
6
7
8
DC CURRENT (A)
www.vishay.com
61
9
0
10 11 12
INDUCTANCE (µH)
80
4.0
TEMPERATURE (°C)
INDUCTANCE (µH)
Δ T °C
0.0
0
TEMPERATURE (°C)
5
80
4.0
L
3.0
60
2.0
40
1.0
20
0.0
0
1
2
3
4
5
6
7
8
9
TEMPERATURE (°C)
0
0
10
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34177
Revision: 01-Mar-11
IHLP-2525EZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-2525EZ-01 6.8 µH
IHLP-2525EZ-01 5.6 µH
100
10
100
7.5
4.5
60
L
3.0
40
1.5
20
1
2
3
4
5
6
7
8
60
L
4
40
2
20
0
0
9
1
2
IHLP-2525EZ-01 8.2 µH
Δ T °C
L
4.5
60
3.0
40
1.5
20
0
0.0
4
5
DC CURRENT (A)
Document Number: 34177
Revision: 01-Mar-11
7
8
6
7
100
12.5
8
INDUCTANCE (µH)
80
3
6
Δ T °C
6.0
2
5
IHLP-2525EZ-01 10 µH
100
TEMPERATURE (°C)
INDUCTANCE (µH)
7.5
1
4
DC CURRENT (A)
DC CURRENT (A)
0
3
80
10.0
60
7.5
L
5.0
40
2.5
20
TEMPERATURE (°C)
0
6
0
0
0.0
80
8
TEMPERATURE (°C)
80
6.0
INDUCTANCE (µH)
Δ T °C
TEMPERATURE (°C)
INDUCTANCE (µH)
Δ T °C
0
0.0
0
1
2
3
4
5
6
7
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
62
IHLP-3232CZ-01
www.vishay.com
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 5 MHz
• Operating temperature up to 125 °C
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
APPLICATIONS
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• PDA/notebook/desktop/server applications
• High current POL converters
• Low profile, high current power supplies
STANDARD ELECTRICAL SPECIFICATIONS
L0
DCR
INDUCTANCE
± 20 % AT 100 kHz, TYP.
25 °C
0.25 V, 0 A
(m)
(μH)
• Battery powered device
HEAT
RATING SATURATION
DCR
MAX. CURRENT CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
0.22
1.50
1.61
32.0
43.0
0.33
2.40
2.57
25.0
32.0
0.47
3.11
3.33
21.5
35.0
1.0
7.80
8.35
13.7
29.0
1.5
12.40
13.30
11.0
24.0
2.2
19.00
20.30
9.0
21.0
3.3
25.60
27.40
7.2
12.0
4.7
32.00
34.20
6.6
10.5
5.6
34.70
37.20
6.3
10.0
6.8
46.10
49.30
5.3
9.5
8.2
55.40
59.30
4.8
9.5
10.0
66.50
71.20
4.7
8.2
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.322 ± 0.03
[8.18 ± 0.076]
0.340 ± 0.01
[8.64 ± 0.254]
0.118
[3.0]
Max.
0.054 ± 0.015
[1.372 ± 0.318]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.200 ± 0.003
[5.08 ± 0.076]
Typical Pad Layout
0.380
[9.652]
0.210
[5.334]
0.190
[4.826]
DESCRIPTION
IHLP-3232CZ-01
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Revision: 24-Oct-11
P
3
2
3
2
C
Z
SIZE
E
R
PACKAGE
CODE
63
4
R
7
INDUCTANCE
VALUE
M
TOL.
0
1
SERIES
Document Number: 34320
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232CZ-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP-3232CZ-01 0.22 μH
IHLP-3232CZ-01 0.33 μH
60
0.10
40
0.05
20
30
0.2
40
0.1
20
0.0
0
50
40
0
10
DC CURRENT (A)
IHLP-3232CZ-01 1.0 μH
100
1.25
60
L
0.30
40
0.15
20
10
0
40
30
20
INDUCTANCE (μH)
0.45
TEMPERATURE (°C)
INDUCTANCE (μH)
80
0.60
1.00
80
L
0.75
60
0.50
40
0.25
20
0.00
0
5
IHLP-3232CZ-01 1.5 μH
1.2
60
L
0.8
40
0.4
20
15
INDUCTANCE (μH)
80
1.6
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
10
80
2.0
L
1.5
60
1.0
40
0.5
20
0.0
0
25
20
5
0
15
10
IHLP-3232CZ-01 3.3 μH
IHLP-3232CZ-01 4.7 μH
5
100
3
60
L
2
40
1
20
4
6
8
10
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
4
4
80
L
3
60
2
40
1
20
0
0
12
0
2
DC CURRENT (A)
Revision: 24-Oct-11
100
ΔT °C
ΔT °C
2
0
25
20
DC CURRENT (A)
5
0
100
ΔT °C
DC CURRENT (A)
0
0
30
25
IHLP-3232CZ-01 2.2 μH
2.5
100
5
20
DC CURRENT (A)
2.0
0
15
10
DC CURRENT (A)
0.0
100
ΔT °C
ΔT °C
TEMPERATURE (°C)
IHLP-3232CZ-01 0.47 μH
0
0
40
30
20
DC CURRENT (A)
0.75
0.00
60
L
TEMPERATURE (°C)
20
0.3
4
6
8
10
TEMPERATURE (°C)
10
80
0.4
TEMPERATURE (°C)
0.15
INDUCTANCE (μH)
80
L
0
100
ΔT °C
0.20
0.00
0.5
100
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
0.25
0
12
DC CURRENT (A)
64
Document Number: 34320
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232CZ-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP-3232CZ-01 5.6 μH
IHLP-3232CZ-01 6.8 μH
7.5
10
100
100
60
3.0
40
1.5
20
0
2
6
4
8
6
60
L
4
40
2
20
0
0
12
10
80
8
0
2
4
DC CURRENT (A)
6
DC CURRENT (A)
IHLP-3232CZ-01 8.2 μH
IHLP-3232CZ-01 10 μH
10
10
100
6
60
4
40
2
20
0
2
4
6
8
INDUCTANCE (μH)
80
L
TEMPERATURE (°C)
INDUCTANCE (μH)
8
8
80
L
6
60
4
40
2
20
0
0
10
0
2
DC CURRENT (A)
Revision: 24-Oct-11
100
ΔT °C
ΔT °C
0
0
10
8
4
6
8
TEMPERATURE (°C)
0.0
INDUCTANCE (μH)
L
4.5
TEMPERATURE (°C)
INDUCTANCE (μH)
80
6.0
TEMPERATURE (°C)
ΔT °C
ΔT °C
0
10
DC CURRENT (A)
65
Document Number: 34320
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232CZ-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-3232CZ-01 0.33 μH 20 %
0.80
0.4
80
0.64
L
0.3
60
0.2
40
0.1
20
0.0
0.1
1
0
1000
100
10
100
L
80
Q
0.48
60
0.32
40
0.16
20
Q
Q
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
IHLP-3232CZ-01 0.22 μH 20 %
0.5
0.00
0.1
1
FREQUENCY (MHz)
0
1000
100
10
FREQUENCY (MHz)
IHLP-3232CZ-01 0.47 μH 20 %
IHLP-3232CZ-01 1.0 μH 20 %
1.60
100
4.0
100
Q
L
0.96
60
0.64
40
0.32
20
0.00
0.1
1
0
100
10
80
2.4
60
1.6
40
0.8
20
0.0
0.1
1
FREQUENCY (MHz)
IHLP-3232CZ-01 1.5 μH 20 %
10
100
L
3
60
2
40
1
20
0
100
10
8
80
6
60
4
40
2
20
Q
80
INDUCTANCE (μH)
4
1
L
Q
Q
INDUCTANCE (μH)
IHLP-3232CZ-01 2.2 μH 20 %
100
Q
0
100
10
FREQUENCY (MHz)
5
0
0.1
L
3.2
Q
80
INDUCTANCE (μH)
1.28
Q
INDUCTANCE (μH)
Q
0
0.1
1
FREQUENCY (MHz)
0
100
10
FREQUENCY (MHz)
IHLP-3232CZ-01 3.3 μH 20 %
12.0
IHLP-3232CZ-01 4.7 μH 20 %
100
20
80
16
100
Q
4.8
40
2.4
20
1
0
100
10
80
60
12
Q
8
40
4
20
0
0.1
FREQUENCY (MHz)
Revision: 24-Oct-11
L
Q
60
7.2
0.0
0.1
INDUCTANCE (μH)
9.6
Q
INDUCTANCE (μH)
L
1
10
0
100
FREQUENCY (MHz)
66
Document Number: 34320
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232CZ-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-3232CZ-01 5.6 μH 20 %
25
IHLP-3232CZ-01 6.8 μH 20 %
100
40
100
20
80
32
80
15
60
10
40
5
20
0
0.1
1
0
100
10
L
Q
24
60
Q
INDUCTANCE (μH)
Q
Q
INDUCTANCE (μH)
L
16
40
8
20
0
0.1
1
FREQUENCY (MHz)
FREQUENCY (MHz)
IHLP-3232CZ-01 8.2 μH 20 %
50
IHLP-3232CZ-01 10 μH 20 %
100
40
100
L
Q
20
40
10
20
1
0
100
10
60
24
Q
16
40
8
20
0
0.1
FREQUENCY (MHz)
Revision: 24-Oct-11
80
32
Q
60
30
0
0.1
INDUCTANCE (μH)
80
Q
INDUCTANCE (μH)
L
40
0
100
10
1
10
0
100
FREQUENCY (MHz)
67
Document Number: 34320
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232CZ-11
www.vishay.com
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 1 MHz
• Operating temperature up to 125 °C
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
APPLICATIONS
• PDA/notebook/desktop/server applications
• High current POL converters
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
0.22
0.33
0.47
0.68
0.82
1.0
1.5
2.2
4.7
6.8
8.2
10
15
22
33
DCR
TYP.
25 °C
(m)
1.51
2.22
2.54
3.73
4.55
6.07
8.29
13.70
26.70
35.30
43.60
51.50
79.70
123.0
192.0
• Low profile, high current power supplies
HEAT
DCR
RATING SATURATION
MAX. CURRENT CURRENT
25 °C DC TYP.
DC TYP.
(m)
(A) (3)
(A) (4)
1.62
36.0
24.0
2.38
27.0
18.0
2.72
24.0
18.0
3.99
20.0
15.2
4.87
18.5
15.0
6.49
16.0
14.8
9.94
12.5
11.3
14.70
10.4
10.4
28.60
7.6
5.4
37.80
6.5
5.0
46.70
5.9
4.2
55.10
5.3
3.8
85.30
4.3
3.8
132.0
3.6
2.8
205.0
2.6
2.5
• Battery powered device
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.322 ± 0.03
[8.18 ± 0.076]
0.340 ± 0.01
[8.64 ± 0.254]
0.118
[3.0]
Max.
0.054 ± 0.015
[1.372 ± 0.318]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.200 ± 0.003
[5.08 ± 0.076]
Typical Pad Layout
0.380
[9.652]
0.210
[5.334]
0.190
[4.826]
DESCRIPTION
IHLP-3232CZ-11
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Revision: 24-Oct-11
P
3
2
3
2
C
Z
SIZE
E
R
PACKAGE
CODE
68
4
R
7
INDUCTANCE
VALUE
M
TOL.
1
1
SERIES
Document Number: 34321
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232CZ-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP-3232CZ-11 0.22 μH
IHLP-3232CZ-11 0.33 μH
60
L
0.10
40
0.05
20
15
20
25
30
35
40
L
0.2
20
0
5
10
DC CURRENT (A)
IHLP-3232CZ-11 0.47 μH
0.45
60
L
0.30
40
0.15
20
INDUCTANCE (μH)
80
100
0
40
30
0.8
80
0.6
60
L
0.4
40
0.2
20
0.0
5
0
15
10
DC CURRENT (A)
20
IHLP-3232CZ-11 0.82 μH
IHLP-3232CZ-11 1.0 μH
1.0
100
60
L
0.4
40
0.2
20
5
15
10
20
INDUCTANCE (μH)
0.6
TEMPERATURE (°C)
INDUCTANCE (μH)
80
0.8
80
0.8
L
0.6
60
0.4
40
0.2
20
0.0
0
30
25
0
5
10
DC CURRENT (A)
15
IHLP-3232CZ-11 1.5 μH
IHLP-3232CZ-11 2.2 μH
2.5
100
100
ΔT °C
80
1.2
L
60
0.8
40
0.4
20
4
8
12
16
INDUCTANCE (μH)
1.6
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
0
2.0
L
1.5
60
1.0
40
0.5
20
0.0
0
20
80
0
2
4
DC CURRENT (A)
Revision: 24-Oct-11
0
25
20
DC CURRENT (A)
2.0
0.0
100
ΔT °C
ΔT °C
0
0
30
25
DC CURRENT (A)
1.0
0.0
0
45
40
35
1.0
TEMPERATURE (°C)
INDUCTANCE (μH)
0.60
20
30
ΔT °C
ΔT °C
10
25
20
IHLP-3232CZ-11 0.68 μH
100
0
15
DC CURRENT (A)
0.75
0.00
40
0.1
0.0
0
55
45
60
TEMPERATURE (°C)
10
0.3
TEMPERATURE (°C)
5
80
6
8
10
12
14
TEMPERATURE (°C)
0
0.4
TEMPERATURE (°C)
0.15
100
ΔT °C
INDUCTANCE (μH)
80
0.20
0.00
0.5
100
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
0.25
0
16
DC CURRENT (A)
69
Document Number: 34321
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232CZ-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP-3232CZ-11 4.7 μH
IHLP-3232CZ-11 6.8 μH
5
10
100
100
60
2
40
1
20
6
4
8
60
L
4
40
2
20
0
0
12
10
6
2
0
6
4
DC CURRENT (A)
DC CURRENT (A)
IHLP-3232CZ-11 8.2 μH
IHLP-3232CZ-11 10 μH
1.0
15
100
100
ΔT °C
6
60
4
40
2
20
0
0
1
2
3
5
4
6
7
8
9
INDUCTANCE (μH)
80
L
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
8
12
9
60
6
40
3
20
0
0
80
L
1
0
2
3
DC CURRENT (A)
IHLP-3232CZ-01 15 μH
60
L
8
40
4
20
3
4
5
6
INDUCTANCE (μH)
12
TEMPERATURE (°C)
INDUCTANCE (μH)
80
2
7
8
9
0
IHLP-3232CZ-01 22 μH
16
1
6
25
100
ΔT °C
0
5
4
DC CURRENT (A)
20
0
0
10
8
TEMPERATURE (°C)
2
0
80
8
ΔT °C
20
80
60
15
L
10
40
5
20
0
0
100
0
1
2
DC CURRENT (A)
3
4
5
6
TEMPERATURE (°C)
0
INDUCTANCE (μH)
L
3
TEMPERATURE (°C)
INDUCTANCE (μH)
80
4
TEMPERATURE (°C)
ΔT °C
ΔT °C
0
DC CURRENT (A)
IHLP-3232CZ-11 33 μH
100
ΔT °C
40
80
30
60
L
20
40
10
20
0
0
1
2
3
4
TEMPERATURE (°C)
INDUCTANCE (μH)
50
0
DC CURRENT (A)
Revision: 24-Oct-11
70
Document Number: 34321
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232CZ-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-3232CZ-11 0.22 μH 20 %
0.60
80
0.48
L
60
0.18
Q
40
0.12
20
0.06
0.00
0.1
1
0
1000
100
10
100
80
L
60
0.36
Q
INDUCTANCE (μH)
0.24
IHLP-3232CZ-11 0.33 μH 20 %
100
Q
INDUCTANCE (μH)
0.30
40
0.24
Q
20
0.12
0.00
0.1
1
FREQUENCY (MHz)
0
1000
100
10
FREQUENCY (MHz)
IHLP-3232CZ-11 0.47 μH 20 %
0.80
IHLP-3232CZ-11 0.68 μH 20 %
100
1.40
0.64
80
1.12
0.48
60
100
0.32
40
0.16
20
1
0
100
10
80
Q
0.84
60
Q
Q
0.00
0.1
INDUCTANCE (μH)
L
Q
INDUCTANCE (μH)
L
0.56
40
0.28
20
0.00
0.1
1
FREQUENCY (MHz)
0
100
10
FREQUENCY (MHz)
IHLP-3232CZ-11 0.82 μH 20 %
1.60
IHLP-3232CZ-11 1.0 μH 20 %
100
2.0
100
L
60
0.64
40
0.32
20
0.00
0.1
1
0
100
10
80
1.6
Q
1.2
60
Q
Q
0.96
INDUCTANCE (μH)
80
1.28
Q
INDUCTANCE (μH)
L
0.8
40
0.4
20
0.0
0.1
1
FREQUENCY (MHz)
0
100
10
FREQUENCY (MHz)
IHLP-3232CZ-11 1.5 μH 20 %
3.5
IHLP-3232CZ-11 2.2 μH 20 %
100
7.0
80
5.6
100
Q
60
2.1
1.4
40
0.7
20
0.0
0.1
1
0
100
10
L
60
4.2
Q
2.8
40
1.4
20
0.0
0.1
FREQUENCY (MHz)
Revision: 24-Oct-11
80
Q
INDUCTANCE (μH)
2.8
Q
INDUCTANCE (μH)
L
1
10
0
100
FREQUENCY (MHz)
71
Document Number: 34321
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232CZ-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-3232CZ-11 4.7 μH 20 %
12.5
IHLP-3232CZ-11 6.8 μH 20 %
100
20
100
80
7.5
60
5.0
40
0.0
0.1
20
1
0
100
10
80
12
60
Q
8
20
4
0
0.1
1
FREQUENCY (MHz)
IHLP-3232CZ-11 10 μH 20 %
50
100
80
40
80
INDUCTANCE (μH)
100
60
15
Q
INDUCTANCE (μH)
L
20
Q
10
40
5
20
0
0.1
1
0
100
10
L
30
60
Q
20
40
10
20
0
0.1
1
FREQUENCY (MHz)
0
100
10
FREQUENCY (MHz)
IHLP-3232CZ-11 15 μH 20 %
50
0
100
10
FREQUENCY (MHz)
IHLP-3232CZ-11 8.2 μH 20 %
25
40
Q
Q
2.5
16
Q
10.0
INDUCTANCE (μH)
L
Q
INDUCTANCE (μH)
L
IHLP-3232CZ-11 22 μH 20 %
100
80
100
80
60
30
Q
20
40
10
20
0
0.1
1
0
100
10
80
64
60
48
Q
Q
L
INDUCTANCE (μH)
40
Q
INDUCTANCE (μH)
L
32
40
16
20
0
0.1
0
10
1
FREQUENCY (MHz)
FREQUENCY (MHz)
IHLP-3232CZ-11 33 μH 20 %
160
100
80
128
96
60
Q
Q
INDUCTANCE (μH)
L
64
40
32
20
0
0.1
1
0
10
FREQUENCY (MHz)
Revision: 24-Oct-11
72
Document Number: 34321
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232DZ-01
www.vishay.com
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
•
•
•
•
•
Shielded construction
Frequency range up to 5 MHz
Operating temperature up to 125 °C
Lowest DCR/μH, in this package size
Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
Note
** Please see document “Vishay Material Category Policy”:
www.vishay.com/doc?99902
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
APPLICATIONS
STANDARD ELECTRICAL SPECIFICATIONS
L0
DCR
INDUCTANCE
± 20 % AT 100 kHz, TYP.
25 °C
0.25 V, 0 A
(m)
(μH)
0.22
0.33
0.47
0.68
0.82
1.0
2.2
3.3
4.7
5.6
6.8
8.2
10.0
1.57
2.00
2.45
3.43
4.13
5.40
12.80
16.50
29.90
33.20
44.60
47.50
56.00
•
•
•
•
•
•
HEAT
RATING SATURATION
DCR
MAX. CURRENT CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
1.68
2.14
2.62
3.67
4.42
5.78
13.70
17.70
32.00
35.50
47.70
50.80
59.90
30.7
29.5
25.0
21.0
19.0
18.0
10.5
9.2
7.5
6.8
5.7
5.5
5.2
34.0
36.0
31.5
24.5
24.2
24.0
23.0
20.0
18.7
16.7
15.2
10.0
9.0
PDA/notebook/desktop/server applications
High current POL converters
Low profile, high current power supplies
Battery powered device
DC/DC converters in distributed power systems
DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.322 ± 0.03
[8.18 ± 0.076]
0.340 ± 0.01
[8.64 ± 0.254]
0.158
[4.0]
Max.
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.054 ± 0.015
[1.372 ± 0.318]
0.200 ± 0.003
[5.08 ± 0.076]
Typical Pad Layout
0.380
[9.652]
0.210
[5.334]
0.190
[4.826]
DESCRIPTION
IHLP-3232DZ-01
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Revision: 24-Oct-11
P
3
2
3
2
D
Z
SIZE
E
R
PACKAGE
CODE
73
4
R
7
INDUCTANCE
VALUE
M
TOL.
0
1
SERIES
Document Number: 34316
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232DZ-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP-3232DZ-01 0.22 μH
IHLP-3232DZ-01 0.33 μH
0.5
0.5
100
100
80
0.3
60
0.2
L
0.1
20
30
60
L
0.2
40
0.1
20
0.0
0
50
40
0.3
10
0
30
20
DC CURRENT (A)
DC CURRENT (A)
IHLP-3232DZ-01 0.47 μH
IHLP-3232DZ-01 0.68 μH
0.5
1.0
100
100
ΔT °C
L
60
0.3
0.2
40
0.1
20
0
10
0
40
30
20
INDUCTANCE (μH)
80
0.4
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
0
0.8
80
0.6
60
L
0.4
40
0.2
20
0.0
0
5
15
10
20
25
DC CURRENT (A)
DC CURRENT (A)
IHLP-3232DZ-01 0.82 μH
IHLP-3232DZ-01 1.0 μH
1.0
100
0.6
60
L
0.4
40
0.2
20
5
15
10
20
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
0.8
0
1.2
60
L
0.8
40
0.4
20
0.0
0
30
25
80
1.6
0
5
15
10
DC CURRENT (A)
IHLP-3232DZ-01 2.2 μH
IHLP-3232DZ-01 3.3 μH
100
ΔT °C
80
L
1.5
60
1.0
40
0.5
20
10
15
20
INDUCTANCE (μH)
2.0
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
5
4
3
L
60
2
40
1
20
0
0
25
80
0
4
DC CURRENT (A)
Revision: 24-Oct-11
0
30
25
5
100
0
20
DC CURRENT (A)
2.5
0.0
0
35
30
2.0
100
ΔT °C
0.0
0
50
40
TEMPERATURE (°C)
20
80
TEMPERATURE (°C)
10
0
0.4
8
12
16
TEMPERATURE (°C)
0.0
40
INDUCTANCE (μH)
0.4
TEMPERATURE (°C)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
0
20
DC CURRENT (A)
74
Document Number: 34316
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232DZ-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP-3232DZ-01 4.7 μH
IHLP-3232DZ-01 5.6 μH
100
ΔT °C
2
40
1
20
0
20
15
10
6
60
L
4
40
2
20
0
3
0
DC CURRENT (A)
4
40
2
20
0
16
12
8
INDUCTANCE (μH)
L
TEMPERATURE (°C)
INDUCTANCE (μH)
60
6
4
10
100
ΔT °C
80
0
0
18
15
IHLP-3232DZ-01 8.2 μH
100
ΔT °C
8
0
12
DC CURRENT (A)
IHLP-3232DZ-01 6.8 μH
10
9
6
8
80
L
6
60
4
40
2
20
0
2
0
4
DC CURRENT (A)
6
8
TEMPERATURE (°C)
5
80
8
TEMPERATURE (°C)
60
3
INDUCTANCE (μH)
80
L
0
100
ΔT °C
4
0
10
TEMPERATURE (°C)
INDUCTANCE (μH)
5
0
10
DC CURRENT (A)
IHLP-3232DZ-01 10 μH
100
ΔT °C
8
80
L
6
60
4
40
2
20
0
0
2
6
4
8
TEMPERATURE (°C)
INDUCTANCE (μH)
10
0
10
DC CURRENT (A)
Revision: 24-Oct-11
75
Document Number: 34316
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232DZ-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-3232DZ-01 0.22 μH 20 %
IHLP-3232DZ-01 0.33 μH 20 %
0.5
100
1.0
80
0.8
100
60
0.3
40
0.2
Q
20
0.1
0.0
0.1
1
0
1000
100
10
80
Q
60
0.4
40
0.2
20
0.0
0.1
1
FREQUENCY (MHz)
IHLP-3232DZ-01 0.47 μH 20 %
IHLP-3232DZ-01 0.68 μH 20 %
80
2.0
0.9
60
0.6
40
0.3
20
0
100
10
100
Q
L
1.5
60
1.0
40
0.5
20
0.0
0.1
1
0
100
10
FREQUENCY (MHz)
FREQUENCY (MHz)
IHLP-3232DZ-01 0.82 μH 20 %
IHLP-3232DZ-01 1.0 μH 20 %
100
60
1.0
40
0.5
20
1
0
100
10
L
3.2
80
2.4
60
1.6
40
0.8
20
Q
1.5
Q
80
0.0
0.1
100
L
INDUCTANCE (μH)
Q
4.0
Q
2.0
80
Q
L
2.5
INDUCTANCE (μH)
2.5
INDUCTANCE (μH)
Q
100
Q
INDUCTANCE (μH)
1.2
1
0
1000
100
10
FREQUENCY (MHz)
1.5
0.0
0.1
L
0.6
Q
INDUCTANCE (μH)
0.4
Q
INDUCTANCE (μH)
L
0.0
0.1
1
FREQUENCY (MHz)
0
100
10
FREQUENCY (MHz)
IHLP-3232DZ-01 2.2 μH 20 %
10
IHLP-3232DZ-01 3.3 μH 20 %
100
12.0
100
80
L
6
60
4
40
2
20
0
0.1
1
0
100
10
9.6
7.2
60
4.8
40
2.4
20
0.0
0.1
FREQUENCY (MHz)
Revision: 24-Oct-11
80
Q
Q
Q
INDUCTANCE (μH)
8
Q
INDUCTANCE (μH)
L
1
10
0
100
FREQUENCY (MHz)
76
Document Number: 34316
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232DZ-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-3232DZ-01 4.7 μH 20 %
80
32
60
8
40
4
20
0
0.1
1
0
100
10
60
16
40
8
20
0
0.1
1
IHLP-3232DZ-01 8.2 μH 20 %
50
100
80
40
80
24
60
16
40
8
20
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
L
Q
0
0.1
1
0
100
10
0
100
10
FREQUENCY (MHz)
IHLP-3232DZ-01 6.8 μH 20 %
32
80
24
FREQUENCY (MHz)
40
L
Q
Q
12
100
Q
30
L
60
Q
Q
16
40
INDUCTANCE (μH)
L
IHLP-3232DZ-01 5.6 μH 20 %
100
Q
INDUCTANCE (μH)
20
20
40
10
20
0
0.1
1
FREQUENCY (MHz)
10
0
100
FREQUENCY (MHz)
IHLP-3232DZ-01 10 μH 20 %
100
80
40
L
30
60
Q
Q
INDUCTANCE (μH)
50
20
40
10
20
0
0.1
1
10
0
100
FREQUENCY (MHz)
Revision: 24-Oct-11
77
Document Number: 34316
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232DZ-11
www.vishay.com
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 1.0 MHz
• Operating temperature up to 125 °C
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
APPLICATIONS
• PDA/notebook/desktop/server applications
STANDARD ELECTRICAL SPECIFICATIONS
• High current POL converters
HEAT
L0
RATING SATURATION
DCR DCR
INDUCTANCE
± 20 % AT 100 kHz, TYP. MAX. CURRENT
CURRENT
25 °C 25 °C DC TYP.
0.25 V, 0 A
DC TYP.
(A) (3)
(m) (m)
(μH)
(A) (4)
0.22
1.26
1.35
34.0
22.0
0.33
2.01
2.15
27.5
16.0
0.47
2.22
2.38
25.0
14.0
0.68
3.01
3.22
22.2
14.5
0.82
3.63
3.88
19.5
15.0
1.0
4.33
4.63
18.2
12.0
2.2
8.8
9.41
14.5
10.2
3.3
14.0
14.9
10.5
9.7
4.7
21.1
22.6
8.0
8.7
5.6
26.7
28.6
7.4
7.6
6.8
31.2
33.4
7.0
6.7
8.2
42.1
45.0
5.7
6.6
10.0
48.4
51.8
5.4
6.4
15.0
61.0
65.3
4.9
3.7
22.0
88.0
94.2
4.3
3.3
33.0
135
144
3.2
3.2
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.322 ± 0.03
[8.18 ± 0.076]
0.340 ± 0.01
[8.64 ± 0.254]
0.158
[4.0]
Max.
0.054 ± 0.015
[1.372 ± 0.318]
0.200 ± 0.003
[5.08 ± 0.076]
Typical Pad Layout
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.380
[9.652]
0.210
[5.334]
0.190
[4.826]
DESCRIPTION
IHLP-3232DZ-11
33 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Revision: 24-Oct-11
P
3
2
3
2
D
Z
SIZE
E
R
PACKAGE
CODE
78
3
3
0
INDUCTANCE
VALUE
M
TOL.
1
1
SERIES
Document Number: 34313
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232DZ-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP-3232DZ-11 0.33 μH
0.5
100
60
L
0.10
40
0.05
20
30
40
60
0.2
L
0.1
0.0
0
60
50
0.3
20
0
5
15
10
DC CURRENT (A)
IHLP-3232DZ-11 0.47 μH
40
0.4
L
0.2
20
20
25
30
INDUCTANCE (μH)
60
TEMPERATURE (°C)
INDUCTANCE (μH)
0.6
15
100
80
0.6
60
L
0.4
20
0
5
15
10
20
25
DC CURRENT (A)
DC CURRENT (A)
IHLP-3232DZ-11 1.0 μH
1.0
60
L
0.4
40
0.2
20
5
15
10
20
INDUCTANCE (μH)
0.6
TEMPERATURE (°C)
INDUCTANCE (μH)
80
0.8
80
0.6
L
40
0.2
20
5
0
IHLP-3232DZ-11 2.2 μH
L
60
1.0
40
0.5
20
8
10
12
14
16
18
20
INDUCTANCE (μH)
1.5
100
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
80
6
4
80
3
60
L
2
40
1
20
0
0
22
0
2
4
DC CURRENT (A)
Revision: 24-Oct-11
0
30
25
IHLP-3232DZ-11 3.3 μH
2.0
4
20
5
100
ΔT °C
2
15
10
DC CURRENT (A)
2.5
0
60
0.4
DC CURRENT (A)
0.0
100
ΔT °C
0.8
0.0
0
30
25
0
35
30
IHLP-3232DZ-11 0.82 μH
100
40
0.2
ΔT °C
0
0
45
40
0.8
0.0
0
40
35
1.0
0.0
35
ΔT °C
80
10
30
IHLP-3232DZ-11 0.68 μH
0.8
5
25
1.0
100
ΔT °C
0
20
DC CURRENT (A)
1.0
0.0
40
TEMPERATURE (°C)
20
80
TEMPERATURE (°C)
10
0
0.4
6
8
10
12
14
TEMPERATURE (°C)
0.0
INDUCTANCE (μH)
0.15
TEMPERATURE (°C)
INDUCTANCE (μH)
80
0.20
100
ΔT °C
ΔT °C
TEMPERATURE (°C)
IHLP-3232DZ-11 0.22 μH
0.25
0
16
DC CURRENT (A)
79
Document Number: 34313
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232DZ-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP-3232DZ-11 4.7 μH
IHLP-3232DZ-11 5.6 μH
ΔT °C
60
2
40
1
20
10
L
4
20
2
0
6
4
DC CURRENT (A)
8
IHLP-3232DZ-11 6.8 μH
IHLP-3232DZ-11 8.2 μH
10
100
6
60
L
4
40
2
20
1
2
3
5
4
6
7
8
9
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
8
8
80
L
6
40
2
20
2
0
IHLP-3232DZ-11 10 μH
80
12
60
L
8
40
4
20
3
4
5
6
8
7
9
INDUCTANCE (μH)
16
2
100
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-3232DZ-11 15 μH
20
100
ΔT °C
1
16
80
12
60
20
0
1
2
3
4
5
6
50
100
15
60
L
10
40
5
20
4
5
6
7
ΔT °C
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
20
3
40
80
30
60
40
10
0
0
L
20
20
0
1
DC CURRENT (A)
Revision: 24-Oct-11
0
100
ΔT °C
2
8
IHLP-3232DZ-11 33 μH
IHLP-3232DZ-11 22 μH
1
7
DC CURRENT (A)
25
0
40
4
0
0
L
8
DC CURRENT (A)
0
0
10
8
DC CURRENT (A)
20
0
6
4
DC CURRENT (A)
0
60
4
0
0
11
10
100
ΔT °C
ΔT °C
0
0
12
10
DC CURRENT (A)
10
0
40
2
0
0
14
12
60
TEMPERATURE (°C)
8
6
TEMPERATURE (°C)
6
4
80
2
3
4
5
TEMPERATURE (°C)
2
8
TEMPERATURE (°C)
3
INDUCTANCE (μH)
80
L
0
100
ΔT °C
4
0
10
100
TEMPERATURE (°C)
INDUCTANCE (μH)
5
0
DC CURRENT (A)
80
Document Number: 34313
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232DZ-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-3232DZ-11 0.33 μH 20 %
0.40
100
0.24
80
0.32
80
0.18
60
L
40
0.12
Q
20
0.06
0.00
0.1
1
0
1000
100
10
60
0.24
L
Q
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
IHLP-3232DZ-11 0.22 μH 20 %
0.30
40
0.16
Q
20
0.08
0.00
0.1
1
FREQUENCY (MHz)
0
1000
100
10
FREQUENCY (MHz)
IHLP-3232DZ-11 0.68 μH 20 %
IHLP-3232DZ-11 0.47 μH 20 %
0.70
100
1.20
100
0.56
80
0.96
80
0.42
60
0.72
60
0.48
40
Q
0.28
40
0.14
20
0.00
0.1
1
0
100
10
Q
INDUCTANCE (μH)
L
Q
INDUCTANCE (μH)
L
Q
20
0.24
0.00
0.1
1
0
100
10
FREQUENCY (MHz)
FREQUENCY (MHz)
IHLP-3232DZ-11 0.82 μH 20 %
IHLP-3232DZ-11 1.0 μH 20 %
1.60
100
2.0
1.28
80
1.6
100
Q
0.96
60
0.64
40
0.32
20
0.00
0.1
1
0
100
10
80
Q
1.2
60
0.8
40
0.4
20
Q
INDUCTANCE (μH)
L
Q
INDUCTANCE (μH)
L
0.0
0.1
1
FREQUENCY (MHz)
0
100
10
FREQUENCY (MHz)
IHLP-3232DZ-11 2.2 μH 20 %
6.0
IHLP-3232DZ-11 3.3 μH 20 %
100
10
100
80
8
80
Q
3.6
60
2.4
40
1.2
20
0.0
0.1
1
0
100
10
L
60
6
Q
INDUCTANCE (μH)
4.8
Q
INDUCTANCE (μH)
L
4
Q
20
2
0
0.1
FREQUENCY (MHz)
Revision: 24-Oct-11
40
1
10
0
100
FREQUENCY (MHz)
81
Document Number: 34313
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-3232DZ-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-3232DZ-11 4.7 μH 20 %
IHLP-3232DZ-11 5.6 μH 20 %
80
16
60
6.4
40
3.2
20
0.0
0.1
1
100
0
100
10
12
80
Q
60
Q
INDUCTANCE (μH)
Q
9.6
20
L
L
12.8
100
Q
INDUCTANCE (μH)
16.0
8
40
4
20
0
0.1
1
FREQUENCY (MHz)
FREQUENCY (MHz)
IHLP-3232DZ-11 6.8 μH 20 %
IHLP-3232DZ-11 8.2 μH 20 %
20
100
25
100
L
60
12
Q
8
40
4
20
1
0
100
10
80
20
Q
15
60
10
40
05
20
Q
INDUCTANCE (μH)
80
16
Q
INDUCTANCE (μH)
L
0
0.1
0
0.1
1
FREQUENCY (MHz)
IHLP-3232DZ-11 10 μH 20 %
IHLP-3232DZ-11 15 μH 20 %
30
80
24
80
18
60
L
Q
60
40
16
20
8
1
0
100
10
100
L
Q
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
32
0
0.1
40
12
Q
20
6
0
0.1
1
FREQUENCY (MHz)
IHLP-3232DZ-11 22 μH 20 %
IHLP-3232DZ-11 33 μH 20 %
100
120
40
80
96
30
60
100
40
20
20
Q
0
10
1
80
60
72
Q
48
40
24
20
0
0.1
FREQUENCY (MHz)
Revision: 24-Oct-11
Q
INDUCTANCE (μH)
L
Q
INDUCTANCE (μH)
L
0
0.1
0
100
10
FREQUENCY (MHz)
50
10
0
100
10
FREQUENCY (MHz)
40
24
0
100
10
0
10
1
FREQUENCY (MHz)
82
Document Number: 34313
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-4040DZ-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
•
•
•
•
Shielded construction
Frequency range up to 5.0 MHz
Lowest DCR/μH, in this package size
Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite
construction
• Compliant to RoHS Directive 2002/95/EC
APPLICATIONS
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
•
•
•
•
•
•
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
HEAT
DCR
RATING SATURATION
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(3)
(m)
(A)
(A) (4)
0.19
0.875
0.95
40.0
90.0
0.36
1.30
1.40
31.5
60.0
0.56
1.70
1.80
27.5
49.0
1.0
3.70
4.10
17.5
36.0
1.5
5.30
5.80
15.0
27.5
2.2
8.20
9.00
12.0
25.6
3.3
13.70
14.40
10.0
18.6
4.7
15.00
16.50
9.5
17.0
5.6
17.60
19.30
8.5
16.0
6.8
21.20
23.30
8.0
13.5
10
33.20
36.50
6.8
12.0
PDA/notebook/desktop/server applications
High current POL converters
Low profile, high current power supplies
Battery powered devices
DC/DC converters in distributed power systems
DC/DC converter for Field Programmable Gate Array (FPGA)
DIMENSIONS in inches [millimeters]
Typical Pad Layout
0.405
[10.3]
Max.
0.405
[10.3]
Max.
0.158
[4.0]
Max.
0.158
[4.0]
Max.
0.079 ± 0.01
[2.0 ± 0.3]
0.430 ± 0.01
[10.92 ± 0.3]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.430 ± 0.01
[10.92 ± 0.3]
0.512
[13.0]
0.158
[4.0]
Max.
0.079 ± 0.01
[2.0 ± 0.3]
0.512
[13.0]
0.195
[4.95]
Max.
0.236
[6.0]
0.236
[6.0]
0.118 ± 0.01
[3.0 ± 0.3]
0.185 ± 0.01
[4.7 ± 0.3]
The diagram above applies to values
0.56 µH and below.
The diagram above applies to values
1.0 µH and above.
DESCRIPTION
IHLP-4040DZ-01
6.8 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
P
4
0
4
0
SIZE
D
Z
E
R
PACKAGE
CODE
6
R
INDUCTANCE
VALUE
8
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34193
Revision: 01-Mar-11
For technical questions, contact: [email protected]
www.vishay.com
83
IHLP-4040DZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-4040DZ-01 0.19 µH
IHLP-4040DZ-01 0.36 µH
100
ΔT °C
75
50
0.10
0.05
25
0
10 15 20 25 30 35 40 45 50 55 60 65 70 75
0.2
40
0.1
20
0.0
0
10
20
30
1.25
80
1.00
60
L
0.30
40
0.15
20
30
40
50
INDUCTANCE (µH)
0.45
TEMPERATURE (°C)
INDUCTANCE (µH)
0.60
20
L
0.75
60
0.50
40
0.25
20
0.00
0
0
10
20
ΔT °C
L
60
1.0
50
0.8
40
0.6
30
0.4
20
0.2
10
20
25
30
INDUCTANCE (µH)
70
1.2
100
2.5
TEMPERATURE (°C)
INDUCTANCE (µH)
80
1.4
15
0
2.0
80
ΔT °C
60
1.0
40
0.5
20
0.0
0
5
10
15
100
5
50
1
25
10
15
20
DC CURRENT (A)
www.vishay.com
84
25
0
INDUCTANCE (µH)
L
TEMPERATURE (°C)
INDUCTANCE (µH)
75
3
100
ΔT °C
ΔT °C
5
0
30
25
IHLP-4040DZ-01 4.7 µH
IHLP-4040DZ-01 3.3 µH
0
20
DC CURRENT (A)
4
2
L
1.5
DC CURRENT (A)
0
0
50
40
90
1.6
10
30
IHLP-4040DZ-01 2.2 µH
100
5
100
80
IHLP-4040DZ-01 1.5 µH
0
0
DC CURRENT (A)
2.0
0.0
70
ΔT °C
DC BIAS (A)
1.8
60
TEMPERATURE (°C)
100
ΔT °C
10
50
IHLP-4040DZ-01 1.0 µH
IHLP-4040DZ-01 0.56 µH
0.75
0
40
DC BIAS (A)
DC CURRENT (A)
0.00
60
L
TEMPERATURE (°C)
5
0.3
80
4
L
3
60
2
40
1
20
0
0
2
4
6
8
10
12
14
16
18
20
22
24
TEMPERATURE (°C)
0
80
0.4
TEMPERATURE (°C)
L
INDUCTANCE (µH)
ΔT °C
0.15
0.00
100
0.5
TEMPERATURE (°C)
INDUCTANCE (µH)
0.20
0
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34193
Revision: 01-Mar-11
IHLP-4040DZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
7.5
6.0
80
6.0
4.5
60
L
3.0
40
1.5
20
0.0
0
5
10
15
20
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (µH)
IHLP-4040DZ-01 6.8 µH
100
80
L
4.5
60
3.0
40
1.5
20
0.0
0
100
ΔT °C
0
2
4
6
DC CURRENT (A)
8
10
12
14
TEMPERATURE (°C)
IHLP-4040DZ-01 5.6 µH
7.5
0
16
DC CURRENT (A)
IHLP-4040DZ-01 10 µH
100
ΔT °C
8
80
L
6
60
4
40
2
20
0
0
2
4
6
8
10
12
14
TEMPERATURE (°C)
INDUCTANCE (µH)
10
0
DC CURRENT (A)
Document Number: 34193
Revision: 01-Mar-11
For technical questions, contact: [email protected]
www.vishay.com
85
IHLP-4040DZ-11
www.vishay.com
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
•
•
•
•
•
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
•
•
•
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
0.19
0.22
0.24
0.36
0.47
0.56
0.78
1.0
1.8
2.0
4.7
6.8
10.0
15.0
22.0
33.0
47.0
100.0
DCR
TYP.
25 °C
(m)
0.70
0.85
0.85
1.05
1.53
1.61
1.80
2.30
4.50
5.20
12.9
17.5
27.8
40.9
60.4
87.5
132.0
249.0
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
0.80
40
46
0.95
33
44
0.95
33
44
1.15
32
30
1.68
30
30
1.80
32
22
1.90
27
22
2.50
25
20
5.00
17
16
5.80
16
14
14.2
9.5
7.6
19.3
9.0
7.5
30.5
7.5
7.1
45.0
6.25
6.0
66.0
5.0
4.5
94.5
4.4
4.0
145.0
3.3
3.0
270.0
2.5
2.25
Shielded construction
Frequency range up to 1.0 MHz
Lowest DCR/μH, in this package size
Handles high transient current spikes without
saturation
Ultra low buzz noise, due to composite
construction
Excellent temperature stability for inductance and
saturation
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21 definition
APPLICATIONS
•
•
•
•
•
•
PDA/notebook/desktop/server applications
High current POL converters
Low profile, high current power supplies
Battery powered devices
DC/DC converters in distributed power systems
DC/DC converter for Field Programmable Gate Array (FPGA)
DIMENSIONS in inches [millimeters]
Typical Pad Layout
0.405
[10.3]
max
0.405
[10.3]
max
0.158
[4.0]
max
0.158
[4.0]
max
0.079 ± 0.01
[2.0 ± 0.3]
0.079 ± 0.01
[2.0 ± 0.3]
0.430 ± 0.01
[10.92 ± 0.3]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.430 ± 0.01
[10.92 ± 0.3]
0.512
[13.0]
0.158
[4.0]
max
0.512
[13.0]
0.195
[4.95]
max
0.236
[6.0]
0.236
[6.0]
0.118 ± 0.01
[3.0 ± 0.3]
0.185 ± 0.01
[4.7 ± 0.3]
The diagram above applies to values
1.8 µH and above.
The diagram above applies to values
1.0 µH and below.
DESCRIPTION
IHLP-4040DZ-11
MODEL
2.0 μH
INDUCTANCE VALUE
± 20 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Revision: 20-Oct-11
P
4
0
4
0
SIZE
D
Z
E
R
PACKAGE
CODE
2
R
0
INDUCTANCE
VALUE
M
TOL.
1
1
SERIES
Document Number: 34192
86
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-4040DZ-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP-4040DZ-11 0.22 µH
100
0.25
80
0.20
60
L
0.10
40
0.05
20
20
30
40
50
60
70
60
0.10
40
0.05
20
0.00
0
0
5
10 15 20 25 30
DC BIAS (A)
IHLP-4040DZ-11 0.24 µH
60
0.10
40
0.05
20
35 40 45 50 55 60
65
INDUCTANCE (µH)
L
0.15
TEMPERATURE (°C)
INDUCTANCE (µH)
80
10 15 20 25 30
100
0.5
ΔT °C
0.20
5
0
0.4
80
0.3
60
L
0.2
0.0
20
0
5
10
15
20
25
30
35
40
100
60
L
0.20
40
0.10
20
25
30
35
40
45
INDUCTANCE (µH)
0.30
TEMPERATURE (°C)
INDUCTANCE (µH)
80
20
100
0.80
80
0.60
60
0.40
0.20
0.00
0
50
20
0
10
5
15
20
30
25
35
40
IHLP-4040DZ-11 0.78 µH
1.0
80
0.8
60
L
0.4
40
0.2
20
15
20
25
DC BIAS (A)
Revision: 20-Oct-11
30
35
40
45
0
INDUCTANCE (µH)
0.6
TEMPERATURE (°C)
INDUCTANCE (µH)
0.8
10
50
55
0
IHLP-4040DZ-11 1.0 µH 20 %
100
100
ΔT °C
ΔT °C
5
45
DC CURRENT (A)
1.0
0
40
L
DC CURRENT (A)
0.0
0
ΔT °C
0.40
15
55
1.00
ΔT °C
10
50
IHLP-4040DZ-11 0.56 µH
IHLP-4040DZ-11 0.47 µH
5
45
DC BIAS (A)
0.50
0
40
0.1
DC BIAS (A)
0.00
0
IHLP-4040DZ-11 0.36 µH
100
ΔT °C
0
65
DC BIAS (A)
0.25
0.00
35 40 45 50 55 60
TEMPERATURE (°C)
10
0.15
TEMPERATURE (°C)
0
80
L
80
0.6
60
L
0.4
40
0.2
20
0.0
0
5
10
15
20
25
30
35
40
TEMPERATURE (°C)
0.00
INDUCTANCE (µH)
0.15
TEMPERATURE (°C)
INDUCTANCE (µH)
0.20
100
ΔT °C
ΔT °C
TEMPERATURE (°C)
IHLP-4040DZ-11 0.19 µH
0.25
0
DC BIAS (A)
Document Number: 34192
87
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-4040DZ-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP-4040DZ-11 1.8 µH 20 %
IHLP-4040DZ-11 2.0 µH
2.5
100
2.5
100
1.5
60
L
1.0
40
0.5
20
0.0
0
2
4
6
8
10
12
14 16 18 20
22 24 26
INDUCTANCE (µH)
80
TEMPERATURE (°C)
INDUCTANCE (µH)
2.0
1.5
60
L
1.0
40
0.5
20
0.0
0
80
2.0
0
5
10
15
TEMPERATURE (°C)
ΔT °C
ΔT °C
0
25
20
DC BIAS (A)
DC BIAS (A)
IHLP-4040DZ-11 6.8 µH
IHLP-4040DZ-11 4.7 µH
5
100
7.5
80
6.0
100
60
L
2
40
1
20
2
4
6
8
10
12
60
L
3.0
40
1.5
20
0
0
16
14
4.5
0
1
2
3
DC CURRENT (A)
IHLP-4040DZ-11 10 µH
80
6
60
L
4
40
2
20
2
3
4
5
6
7
8
9
10
11
INDUCTANCE (µH)
8
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
1
6
7
8
0
10 11 12 13 14
9
IHLP-4040DZ-11 15 µH
100
0
5
DC CURRENT (A)
10
0
4
20
100
18
90
16
60
10
50
L
8
30
4
20
2
10
0
1
2
3
4
5
6
IHLP-4040DZ-11 22 µH
60
L
10
40
5
20
5
DC CURRENT (A)
Revision: 20-Oct-11
6
7
8
0
INDUCTANCE (µH)
15
TEMPERATURE (°C)
INDUCTANCE (µH)
80
4
0
100
ΔT °C
20
3
9
50
ΔT °C
2
8
IHLP-4040DZ-11 33 µH
100
1
7
DC CURRENT (A)
25
0
40
6
DC CURRENT (A)
0
70
12
0
0
12
80
ΔT °C
14
TEMPERATURE (°C)
0
80
40
80
30
60
L
20
40
10
20
0
0
1
2
3
4
5
6
TEMPERATURE (°C)
0
ΔT °C
TEMPERATURE (°C)
3
INDUCTANCE (µH)
4
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0
DC CURRENT (A)
Document Number: 34192
88
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-4040DZ-11
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS
IHLP-4040DZ-11 47 µH
IHLP-4040DZ-11 100 µH
50
100
100
100
80
30
L
60
20
40
10
20
0
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
DC CURRENT (A)
Revision: 20-Oct-11
4.0
4.5 5.0
0
5.5
80
80
L
60
60
40
40
20
20
0
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
TEMPERATURE (°C)
40
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0
4.0
DC CURRENT (A)
Document Number: 34192
89
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-5050CE-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
•
•
•
•
•
Lowest height (3.5 mm) in this package footprint
Shielded construction
Frequency range up to 5.0 MHz
Lowest DCR/μH, in this package size
Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite
construction
• Compliant to RoHS Directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
APPLICATIONS
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
0.10
0.15
0.22
0.33
0.47
0.60
0.68
0.82
1.0
1.5
1.8
2.2
3.3
4.7
5.6
6.8
8.2
10
DCR
TYP.
25 °C
(m)
0.8
1
1.1
1.3
1.6
1.8
2.3
2.6
3.3
5.1
6.5
7.2
11
14.3
18.3
19.8
24.8
30.4
•
•
•
•
•
•
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
0.96
43
84
1.2
41
75
1.3
38.5
65
1.5
36.5
62
2
32
55
2.2
29
51
2.5
28
49
3
25
44
3.5
24
40
5.5
19
35
7
16.5
30
8
16
29
12
12
27
15
10
24
19
9.5
19
22
9
18
28
8.5
16
34
7
14
PDA/notebook/desktop/server applications
High current POL converters
Low profile, high current power supplies
Battery powered devices
DC/DC converters in distributed power systems
DC/DC converter for Field Programmable Gate Array (FPGA)
DIMENSIONS in inches [millimeters]
Typical Pad Layout
0.508
[12.9]
Max.
0.542
[13.76]
0.138
[3.5] Max.
0.195
[4.95]
0.091 ± 0.01
[2.3 ± 0.3]
0.310
[7.87]
0.185 ± 0.01
[4.7 ± 0.3]
0.520 ± 0.015
[13.2 ± 0.38] Max.
This diagram applies to values 0.6 µH and below
Typical Pad Layout
0.508
[12.9]
Max.
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.542
[13.8]
0.138
[3.5] Max.
0.128 [3.3]
0.087 ± 0.01
[2.2 ± 0.254]
0.318
[8.1]
0.118 ± 0.01
[3.0 ± 0.3]
0.520 ± 0.015
[13.2 ± 0.38]
This diagram applies to values 0.68 µH and above
DESCRIPTION
IHLP-5050CE-01
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
P
5
0
5
0
SIZE
C
E
E
R
PACKAGE
CODE
1
R
0
INDUCTANCE
VALUE
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34105
Revision: 24-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
90
IHLP-5050CE-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-5050CE-01 0.10 µH
0.12
IHLP-5050CE-01 0.15 µH
100
ΔT °C
0.25
100
ΔT °C
L
0.08
40
0.07
20
0.06
0
20
30
50
40
L
0.13
40
0.09
20
0.05
80
70
60
60
0
20
10
60
0.15
0.10
40
0.05
20
40
30
50
INDUCTANCE (µH)
80
L
20
0
60
80
0.40
60
0.30
L
0.20
40
0.10
20
0
0.00
0
10
DC CURRENT (A)
IHLP-5050CE-01 0.47 µH
40
0.2
20
INDUCTANCE (µH)
60
L
0.4
TEMPERATURE (°C)
INDUCTANCE (µH)
80
0.6
0
20
30
40
50
80
60
0.6
L
0.4
40
0.2
20
0
60
0
0
10
L
40
0.4
0.2
20
40
DC CURRENT (A)
www.vishay.com
91
50
60
0
INDUCTANCE (µH)
60
TEMPERATURE (°C)
INDUCTANCE (µH)
0.6
30
50
60
IHLP-5050CE-01 0.82 µH
80
20
40
1.2
100
0.8
10
30
20
DC CURRENT (A)
ΔT °C
0
60
0.8
IHLP-5050CE-01 0.68 µH
0
50
ΔT °C
DC CURRENT (A)
1.0
40
100
1.0
ΔT °C
10
30
IHLP-5050CE-01 0.60 µH
100
0
20
DC CURRENT (A)
0.8
0
100
ΔT °C
0.20
10
0
70
0.50
TEMPERATURE (°C)
INDUCTANCE (µH)
100
ΔT °C
0
60
IHLP-5050CE-01 0.33 µH
IHLP-5050CE-01 0.22 µH
0.00
50
DC CURRENT (A)
DC CURRENT (A)
0.25
40
30
TEMPERATURE (°C)
10
0.17
TEMPERATURE (°C)
0
80
100
ΔT °C
1.0
80
0.8
L
60
0.6
40
0.4
20
0.2
TEMPERATURE (°C)
0.05
0.21
TEMPERATURE (°C)
60
0.09
INDUCTANCE (µH)
80
0.10
TEMPERATURE (°C)
INDUCTANCE (µH)
0.11
0
0
0
10
20
30
40
50
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34105
Revision: 24-Feb-11
IHLP-5050CE-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-5050CE-01 1.0 µH
IHLP-5050CE-01 1.5 µH
100
ΔT °C
L
60
0.8
0.6
40
0.4
20
INDUCTANCE (µH)
TEMPERATURE (°C)
80
1.0
0.2
1.6
80
1.4
L
60
1.2
1.0
40
0.8
0.6
0.4
20
0.2
0
0
0
50
40
0
20
10
0
DC CURRENT (A)
DC CURRENT (A)
IHLP-5050CE-01 2.2 µH
IHLP-5050CE-01 1.8 µH
3.0
3.0
100
80
2.0
60
L
1.5
40
1.0
20
0.5
15
10
20
25
80
2.0
L
40
1.0
20
0
0
0
5
80
L
2.8
60
2.4
2.0
1.6
1.2
40
0.8
20
INDUCTANCE (µH)
INDUCTANCE (µH)
3.2
TEMPERATURE (°C)
ΔT °C
0.4
15
10
20
25
100
6.0
5.5
5.0
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
ΔT °C
80
L
60
40
20
0
0
30
5
10
15
20
25
30
DC CURRENT (A)
DC CURRENT (A)
IHLP-5050CE-01 5.6 µH
IHLP-5050CE-01 6.8 µH
8
100
12.0
80
10.0
60
L
4
40
3
2
20
INDUCTANCE (µH)
5
TEMPERATURE (°C)
6
100
ΔT °C
ΔT °C
7
35
0.5
0
0
0
5
30
25
IHLP-5050CE-01 4.7 µH
100
0
20
DC CURRENT (A)
IHLP-5050CE-01 3.3 µH
3.6
15
10
DC CURRENT (A)
4.0
60
1.5
0.5
0
30
0.0
5
2.5
INDUCTANCE (µH)
TEMPERATURE (°C)
INDUCTANCE (µH)
2.5
100
ΔT °C
ΔT °C
0
50
40
30
TEMPERATURE (°C)
30
TEMPERATURE (°C)
20
10
80
8.0
60
6.0
L
40
4.0
20
2.0
TEMPERATURE (°C)
0
INDUCTANCE (µH)
100
ΔT °C
1.8
1.2
INDUCTANCE (µH)
2.0
TEMPERATURE (°C)
1.4
1
0
0
0
5
10
20
15
DC CURRENT (A)
Document Number: 34105
Revision: 24-Feb-11
25
0.0
0
5
10
15
0
20
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
92
IHLP-5050CE-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-5050CE-01 10 µH
IHLP-5050CE-01 8.2 µH
100
16.0
100
12.0
8.0
L
60
6.0
40
4.0
20
2.0
0
0.0
0
2
4
6
8
10
DC CURRENT (A)
www.vishay.com
93
12
14
INDUCTANCE (µH)
80
TEMPERATURE (°C)
INDUCTANCE (µH)
10.0
14.0
80
12.0
60
10.0
L
8.0
20
6.0
4.0
40
TEMPERATURE (°C)
ΔT °C
ΔT °C
0
0
2
6
4
8
10
12
14
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34105
Revision: 24-Feb-11
IHLP-5050CE-06
Vishay Dale
10 % DCR Tolerance,
Low Profile, Power Inductors
FEATURES
•
•
•
•
•
Lowest height (3.5 mm) in this package footprint
Shielded construction
Frequency range up to 5.0 MHz
Lowest DCR/μH, in this package size
Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS directive 2002/95/EC
APPLICATIONS
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
•
•
•
•
Tolerance DCR for current sense applications
Improved current balance in phased power supplies
Improved thermal management
PDA/notebook/desktop/server and battery powered
devices
• High current, low profile POL converters
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
± 10 %
AT 25 °C
(m)
HEAT
RATING
CURRENT
DC TYP.
(A) (3)
SATURATION
CURRENT
DC TYP.
(A) (4)
0.60
1.85
29
51
0.68
2.34
28
49
1.0
3.21
24
40
1.5
4.97
19
35
2.2
7.20
16
29
3.3
10.69
12
27
4.7
14.27
10
24
5.6
18.19
9.5
19
10
30.86
7
14
DIMENSIONS in inches [millimeters]
Typical Pad Layout
0.508
[12.9]
Max.
0.542
[13.76]
0.195
[4.95]
0.138
[3.5] Max.
0.310
[7.87]
0.091 ± 0.01
[2.3 ± 0.3]
0.185 ± 0.01
[4.7 ± 0.3]
0.520 ± 0.015
[13.2 ± 0.38] Max.
The diagram above applies to values 0.6 µH and below.
Typical Pad Layout
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.508
[12.9]
Max.
0.542
[13.8]
0.128 [3.3]
0.138
[3.5] Max.
0.318
[8.1]
0.087 ± 0.01
[2.2 ± 0.254]
0.118 ± 0.01
[3.0 ± 0.3]
0.520 ± 0.015
[13.2 ± 0.38]
The diagram above applies to values 0.68 µH and above.
DESCRIPTION
IHLP-5050CE-06
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34165
Revision: 12-May-09
P
5
0
5
0
SIZE
C
E
E
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
0
M
TOL.
0
6
SERIES
www.vishay.com
94
IHLP-5050CE-06
10 % DCR Tolerance,
Low Profile, Power Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-5050CE-06 0.60 µH
IHLP-5050CE-06 0.68 µH
100
1.0
100
1.0
ΔT °C
60
L
0.4
40
0.2
20
0
60
0
30
20
40
50
0.6
60
L
0.4
40
0.2
20
0
10
IHLP-5050CE-06 1.0 µH
40
50
IHLP-5050CE-06 1.5 µH
1.4
100
L
60
0.8
0.6
40
0.4
20
INDUCTANCE (µH)
80
1.0
TEMPERATURE (°C)
1.2
100
2.0
1.8
ΔT °C
0.2
ΔT °C
1.6
80
1.4
L
60
1.2
1.0
40
0.8
0.6
0.4
20
0.2
0
0
20
10
0
0
0
50
40
30
0
20
10
50
40
30
DC CURRENT (A)
DC CURRENT (A)
IHLP-5050CE-06 2.2 µH
IHLP-5050CE-06 3.3 µH
3.0
100
100
4.0
ΔT °C
ΔT °C
80
2.0
L
60
1.5
40
1.0
20
0.5
INDUCTANCE (µH)
2.5
TEMPERATURE (°C)
3.6
3.2
80
L
2.8
60
2.4
2.0
40
1.6
1.2
0.8
20
TEMPERATURE (°C)
INDUCTANCE (µH)
30
20
DC CURRENT (A)
DC CURRENT (A)
INDUCTANCE (µH)
0
60
0
TEMPERATURE (°C)
10
0
80
0.8
TEMPERATURE (°C)
0.6
INDUCTANCE (µH)
80
0.8
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0.4
0
0
5
15
10
25
20
30
0
0
35
5
IHLP-5050CE-06 4.7 µH
25
0
30
IHLP-5050CE-06 5.6 µH
100
8
ΔT °C
100
ΔT °C
80
L
60
40
20
INDUCTANCE (µH)
7
TEMPERATURE (°C)
INDUCTANCE (µH)
20
DC CURRENT (A)
DC CURRENT (A)
6.0
5.5
5.0
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
15
10
80
6
5
60
L
4
40
3
2
20
TEMPERATURE (°C)
0
1
0.5
0
0
0
5
10
15
20
DC CURRENT (A)
www.vishay.com
95
25
30
0
0
0
10
5
15
20
25
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34165
Revision: 12-May-09
IHLP-5050CE-06
10 % DCR Tolerance,
Low Profile, Power Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-5050CE-06 10 µH
16.0
100
INDUCTANCE (µH)
14.0
80
12.0
60
10.0
L
8.0
40
20
6.0
4.0
TEMPERATURE (°C)
ΔT °C
0
0
2
4
6
8
10
12
14
DC CURRENT (A)
Document Number: 34165
Revision: 12-May-09
For technical questions, contact: [email protected]
www.vishay.com
96
IHLP-5050CE-07
Vishay Dale
5 % DCR Tolerance,
Low Profile, Power Inductors
FEATURES
•
•
•
•
•
Lowest height (3.5 mm) in this package footprint
Shielded construction
Frequency range up to 5.0 MHz
Lowest DCR/μH, in this package size
Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS directive 2002/95/EC
APPLICATIONS
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
•
•
•
•
Tolerance DCR for current sense applications
Improved current balance in phased power supplies
Improved thermal management
PDA/notebook/desktop/server and battery powered
devices
• High current, low profile POL converters
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
±5%
AT 25 °C
(m)
HEAT
RATING
CURRENT
DC TYP.
(A) (3)
SATURATION
CURRENT
DC TYP.
(A) (4)
0.60
1.85
29
51
0.68
2.34
28
49
1.0
3.21
24
40
1.5
4.97
19
35
2.2
7.20
16
29
3.3
10.69
12
27
4.7
14.27
10
24
5.6
18.19
9.5
19
10
30.86
7
14
DIMENSIONS in inches [millimeters]
Typical Pad Layout
0.508
[12.9]
Max.
0.542
[13.76]
0.195
[4.95]
0.138
[3.5] Max.
0.310
[7.87]
0.091 ± 0.01
[2.3 ± 0.3]
0.185 ± 0.01
[4.7 ± 0.3]
0.520 ± 0.015
[13.2 ± 0.38] Max.
The diagram above applies to values 0.6 µH and below.
Typical Pad Layout
0.508
[12.9]
Max.
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.542
[13.8]
0.128 [3.3]
0.138
[3.5] Max.
0.318
[8.1]
0.087 ± 0.01
[2.2 ± 0.254]
0.118 ± 0.01
[3.0 ± 0.3]
0.520 ± 0.015
[13.2 ± 0.38]
The diagram above applies to values 0.68 µH and above.
DESCRIPTION
IHLP-5050CE-07
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
www.vishay.com
97
P
5
0
5
0
SIZE
C
E
E
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
0
M
TOL.
0
7
SERIES
Document Number: 34166
Revision: 22-Jun-09
IHLP-5050CE-07
5 % DCR Tolerance,
Low Profile, Power Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-5050CE-07 0.60 µH
IHLP-5050CE-07 0.68 µH
1.0
100
1.0
100
0.6
60
L
0.4
40
0.2
20
0
60
0
10
30
20
40
50
0.6
60
L
0.4
40
0.2
20
0
10
50
TEMPERATURE (°C)
80
L
60
0.8
0.6
40
0.4
20
INDUCTANCE (µH)
ΔT °C
1.0
100
2.0
1.8
100
1.2
0.2
ΔT °C
1.6
80
1.4
L
1.2
60
1.0
40
0.8
0.6
0.4
20
0.2
0
10
0
20
30
0
0
0
50
40
20
10
0
DC CURRENT (A)
50
40
30
DC CURRENT (A)
IHLP-5050CE-07 2.2 µH
IHLP-5050CE-07 3.3 µH
3.0
100
2.0
L
60
1.5
40
1.0
20
0.5
INDUCTANCE (µH)
80
TEMPERATURE (°C)
ΔT °C
2.5
100
4.0
3.6
ΔT °C
3.2
80
L
2.8
60
2.4
2.0
40
1.6
1.2
0.8
20
TEMPERATURE (°C)
INDUCTANCE (µH)
40
IHLP-5050CE-07 1.5 µH
IHLP-5050CE-07 1.0 µH
INDUCTANCE (µH)
30
20
DC CURRENT (A)
DC CURRENT (A)
1.4
0
60
0
TEMPERATURE (°C)
0
80
0.8
TEMPERATURE (°C)
80
0.8
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0.4
0
0
5
15
10
20
30
25
0
5
IHLP-5050CE-07 5.6 µH
60
L
4
40
3
2
20
1
0
0
5
10
20
15
DC CURRENT (A)
Document Number: 34166
Revision: 22-Jun-09
25
INDUCTANCE (µH)
80
6
TEMPERATURE (°C)
INDUCTANCE (µH)
7
0
20
25
IHLP-5050CE-07 4.7 µH
100
ΔT °C
5
15
10
DC CURRENT (A)
DC CURRENT (A)
8
0
30
0
35
100
6.0
5.5
5.0
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0
ΔT °C
80
L
60
40
20
0
5
10
15
20
25
TEMPERATURE (°C)
0
0
30
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
98
IHLP-5050CE-07
5 % DCR Tolerance,
Low Profile, Power Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-5050CE-07 10 µH
100
ΔT °C
14.0
80
12.0
60
10.0
L
8.0
40
20
6.0
4.0
TEMPERATURE (°C)
INDUCTANCE (µH)
16.0
0
0
2
4
6
8
10
12
14
DC CURRENT (A)
www.vishay.com
99
For technical questions, contact: [email protected]
Document Number: 34166
Revision: 22-Jun-09
IHLP-5050EZ-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
0.10
0.22
0.33
0.47
0.56
0.68
0.82
1.0
1.5
1.8
2.2
3.3
4.7
5.6
6.8
7.8
8.2
10
DCR
TYP.
25 °C
(m)
0.53
0.64
0.85
1.1
1.3
1.5
2.0
2.1
3.4
4.2
4.6
7.7
12.8
14.0
15.4
17.2
18.9
21.4
APPLICATIONS
HEAT
DCR
RATING SATURATION
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(3)
(m)
(A)
(A) (4)
0.60
55
118
0.80
51
110
1.1
42
80
1.3
38
65
1.5
36
55
1.7
34
54
2.3
31
53
2.5
29
50
4.1
23
48
4.9
19
40
5.5
20
32
9.2
15
32
15.0
12
27
16.5
11.5
22
18.5
11
21
20.5
10
18
22.5
9.5
18
25.5
9.0
16
• Notebook/desktop/server applications
• High current POL converters
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
Typical Pad Layout
0.542
[13.76]
0.195
[4.95]
0.310
[7.87]
0.508
[12.9] Max.
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.520 ± 0.02
[13.2 ± 0.5]
0.197
[5.0] Max.
0.091 ± 0.01
[2.3 ± 0.3]
0.185 ± 0.01
[4.7 ± 0.3]
DESCRIPTION
IHLP-5050EZ-01
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
P
5
0
5
0
SIZE
E
Z
E
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
0
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34126
Revision: 25-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
100
IHLP-5050EZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-5050EZ-01 0.22 µH
IHLP-5050EZ-01 0.10 µH
60
0.06
40
0.04
20
0.02
INDUCTANCE (µH)
0.08
TEMPERATURE (°C)
80
60
0.15
60
0.10
40
0.05
20
0
100
20
0
DC CURRENT (A)
0.50
0.15
40
0.10
20
INDUCTANCE (µH)
60
0.20
TEMPERATURE (°C)
L
0.40
80
0.35
60
0.30
0.25
40
0.20
0.15
20
0.10
0.05
0
0.00
0
20
10
30
50
40
0.00
80
70
60
0
10
0
40
30
20
50
60
DC CURRENT (A)
DC CURRENT (A)
IHLP-5050EZ-01 0.56 µH
0.60
IHLP-5050EZ-01 0.68 µH
0.70
100
ΔT °C
100
ΔT °C
L
0.40
60
0.30
40
0.20
20
0.10
0.00
0
10
20
40
30
INDUCTANCE (µH)
80
TEMPERATURE (°C)
0.60
0.50
60
0.40
0.30
40
0.20
20
0
0.00
DC CURRENT (A)
IHLP-5050EZ-01 0.82 µH
IHLP-5050EZ-01 1.0 µH
1.2
100
80
0.60
60
0.50
0.40
40
0.30
0.20
20
1.0
INDUCTANCE (µH)
L
0.70
100
ΔT °C
TEMPERATURE (°C)
ΔT °C
0.80
50
40
30
20
10
0
DC CURRENT (A)
0.90
80
0.10
0
50
L
0.50
TEMPERATURE (°C)
INDUCTANCE (µH)
80
L
0.25
100
ΔT °C
0.45
0.05
INDUCTANCE (µH)
100
IHLP-5050EZ-01 0.47 µH
100
ΔT °C
0.30
INDUCTANCE (µH)
80
DC CURRENT (A)
IHLP-5050EZ-01 0.33 µH
0.35
60
40
TEMPERATURE (°C)
40
80
L
0.00
0
20
0
0.20
80
L
0.8
60
0.6
40
0.4
20
0.2
TEMPERATURE (°C)
INDUCTANCE (µH)
80
L
100
ΔT °C
ΔT °C
0.10
0.00
0.25
TEMPERATURE (°C)
100
0.12
0.10
0
0.00
0
10
20
30
40
DC CURRENT (A)
www.vishay.com
101
50
0
0
0
5
10
20
15
25
30
35
40
45
50
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34126
Revision: 25-Feb-11
IHLP-5050EZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-5050EZ-01 1.5 µH
2.5
100
ΔT °C
1.2
1.0
60
0.8
40
0.6
0.4
20
90
2.0
80
70
L
1.5
60
1.0
40
50
30
0.5
20
0.0
10
0
40
0.2
0.0
0
5
20
15
10
30
25
35
45
40
0
10
IHLP-5050EZ-01 3.3 µH
IHLP-5050EZ-01 2.2 µH
ΔT °C
100
ΔT °C
80
L
1.5
60
1.0
40
0.5
20
INDUCTANCE (µH)
2.0
3.0
TEMPERATURE (°C)
INDUCTANCE (µH)
3.5
100
2.5
30
20
DC CURRENT (A)
DC CURRENT (A)
80
L
2.5
60
2.0
1.5
40
1.0
20
TEMPERATURE (°C)
0
TEMPERATURE (°C)
80
L
INDUCTANCE (µH)
INDUCTANCE (µH)
1.4
IHLP-5050EZ-01 1.8 µH
100
ΔT °C
TEMPERATURE (°C)
1.6
0.5
0
0
5
15
10
30
25
20
0
0
35
5
0
15
10
DC CURRENT (A)
20
DC CURRENT (A)
IHLP-5050EZ-01 5.6 µH
IHLP-5050EZ-01 4.7 µH
5.0
6.0
100
ΔT °C
3.0
60
2.5
2.0
40
1.5
1.0
20
5.0
INDUCTANCE (µH)
80
L
TEMPERATURE (°C)
INDUCTANCE (µH)
4.0
100
ΔT °C
4.5
3.5
35
30
25
80
L
4.0
60
3.0
40
2.0
20
1.0
TEMPERATURE (°C)
0
0.5
0.0
0
5
0
0.0
25
20
15
10
10
5
0
DC CURRENT (A)
IHLP-5050EZ-01 7.8 µH
100
ΔT °C
9.0
60
4.0
40
3.0
2.0
20
1.0
INDUCTANCE (µH)
L
5.0
TEMPERATURE (°C)
INDUCTANCE (µH)
80
6.0
100
ΔT °C
8.0
7.0
0.0
20
DC CURRENT (A)
IHLP-5050EZ-01 6.8 µH
8.0
15
80
7.0
L
6.0
60
5.0
4.0
40
3.0
2.0
20
TEMPERATURE (°C)
0
1.0
0
5
10
15
DC CURRENT (A)
Document Number: 34126
Revision: 25-Feb-11
20
0
0.0
0
2
4
8
6
10
12
14
16
18
0
20
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
102
IHLP-5050EZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-5050EZ-01 10 µH
IHLP-5050EZ-01 8.2 µH
80
6.0
60
5.0
4.0
40
3.0
2.0
20
10.0
80
8.0
60
L
6.0
40
4.0
20
2.0
TEMPERATURE (°C)
INDUCTANCE (µH)
L
7.0
100
ΔT °C
INDUCTANCE (µH)
ΔT °C
8.0
12.0
100
TEMPERATURE (°C)
9.0
1.0
0.0
0
0
2
4
6
8
10
12
DC CURRENT (A)
www.vishay.com
103
14
16
18
0
0.0
0
2
6
4
8
10
12
14
16
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34126
Revision: 25-Feb-11
IHLP-5050FD-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
•
•
•
•
Shielded construction
Frequency range up to 5.0 MHz
Lowest DCR/μH, in this package size
Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite
construction
• Compliant to RoHS Directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
0.10
0.15
0.22
0.30
0.33
0.40
0.47
0.56
0.68
0.82
1.0
1.2
1.5
1.8
2.2
3.3
4.7
5.6
6.8
8.2
10
DCR
TYP.
25 °C
(m)
0.47
0.53
0.63
0.70
0.83
0.90
1.0
1.2
1.4
1.6
1.7
2.1
2.5
2.8
3.5
5.7
8.0
9.3
13.1
14.5
16.4
APPLICATIONS
HEAT
DCR
RATING SATURATION
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(3)
(m)
(A)
(A) (4)
0.50
60
120
0.60
55
118
0.70
53
112
0.80
48
72
0.90
46
65
1.0
44
64
1.2
41
63
1.4
37
62
1.6
35
60
1.9
33
50
2.0
32
49
2.5
30
48
3.0
27
45
3.2
24
41
4.2
22
40
6.8
18
35
8.7
13.5
32
10
13.5
32
14
11.5
16.5
15.5
10.5
16
17.2
10
15.5
•
•
•
•
•
•
Notebook/desktop/server applications
High current POL converters
Low profile, high current power supplies
Battery powered devices
DC/DC converters in distributed power systems
DC/DC converter for Field Programmable Gate Array (FPGA)
DIMENSIONS in inches [millimeters]
Typical Pad Layout
0.542
[13.76]
0.195
[4.95]
0.310
[7.87]
0.508
[12.9]
Max.
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.520 ± 0.02
[13.2 ± 0.5]
0.256
[6.5]
Max.
0.091± 0.01
[2.3 ± 0.3]
0.185 ± 0.01
[4.7 ± 0.3]
DESCRIPTION
IHLP-5050FD-01
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
P
5
0
5
0
SIZE
F
D
E
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
0
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34123
Revision: 25-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
104
IHLP-5050FD-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-5050FD-01 0.10 µH
IHLP-5050FD-01 0.15 µH
100
0.12
0.16
ΔT °C
0.08
60
0.06
40
0.04
20
0.02
L
0.10
60
0.08
40
0.06
0.04
20
0.02
20
0
40
80
60
0
120
100
0
0.00
20
0
IHLP-5050FD-01 0.22 µH
0.10
40
0.05
20
0.00
INDUCTANCE (µH)
60
TEMPERATURE (°C)
80
L
0.15
80
60
80
0.25
L
60
0.20
0.15
40
0.10
20
0.05
0.00
0
40
100
ΔT °C
0.30
ΔT °C
20
IHLP-5050FD-01 0.30 µH
0.35
100
0
100
80
DC CURRENT (A)
DC CURRENT (A)
0.20
60
40
TEMPERATURE (°C)
0.00
0
0
100
10
30
20
60
50
40
70
DC CURRENT (A)
DC CURRENT (A)
IHLP-5050FD-01 0.33 µH
IHLP-5050FD-01 0.40 µH
0.35
100
100
0.45
L
80
0.25
60
0.20
ΔT °C
0.15
40
0.10
20
INDUCTANCE (µH)
0.30
TEMPERATURE (°C)
0.40
0.05
80
0.35
0.30
L
ΔT °C
60
0.25
0.20
40
0.15
0.10
20
TEMPERATURE (°C)
INDUCTANCE (µH)
80
0.12
TEMPERATURE (°C)
80
INDUCTANCE (µH)
L
TEMPERATURE (°C)
INDUCTANCE (µH)
0.10
INDUCTANCE (µH)
100
ΔT °C
0.14
0.05
0
0.00
0
20
10
40
30
50
0.00
60
0
0
20
10
30
50
40
60
70
80
DC CURRENT (A)
DC CURRENT (A)
IHLP-5050FD-01 0.56 µH
IHLP-5050FD-01 0.47 µH
0.50
100
100
0.60
0.35
ΔT °C
0.30
60
0.25
0.20
40
0.15
0.10
20
0.50
80
L
ΔT °C
0.40
60
0.30
40
0.20
20
0.10
TEMPERATURE (°C)
80
L
INDUCTANCE (µH)
0.40
TEMPERATURE (°C)
INDUCTANCE (µH)
0.45
0.05
0.00
0
0
10
20
30
40
50
60
70
0.00
0
0
10
20
DC CURRENT (A)
www.vishay.com
105
For technical questions, contact: [email protected]
30
40
50
60
DC CURRENT (A)
Document Number: 34123
Revision: 25-Feb-11
IHLP-5050FD-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-5050FD-01 0.68 µH
IHLP-5050FD-01 0.82 µH
100
ΔT °C
ΔT °C
0.80
L
0.50
60
0.40
40
0.30
0.20
20
INDUCTANCE (µH)
80
0.60
TEMPERATURE (°C)
0.70
0.10
80
0.70
L
0.60
60
0.50
0.40
40
0.30
0.20
20
0.10
0
0.00
50
40
0
0.00
60
0
10
5
DC CURRENT (A)
100
ΔT °C
1.0
80
L
0.8
60
0.6
40
0.4
20
INDUCTANCE (µH)
1.2
TEMPERATURE (°C)
80
L
1.0
60
0.8
0.6
40
0.4
20
0.2
0.0
30
20
10
0
50
40
0.0
0
0
10
5
20
15
DC CURRENT (A)
30
25
35
0
50
45
40
DC CURRENT (A)
IHLP-5050FD-01 1.8 µH
IHLP-5050FD-01 1.5 µH
80
1.4
L
1.2
60
1.0
0.8
40
0.6
0.4
20
0.2
100
ΔT °C
1.8
INDUCTANCE (µH)
1.6
2.0
100
ΔT °C
TEMPERATURE (°C)
1.8
90
80
1.6
1.4
70
L
60
1.2
1.0
50
0.8
40
0.6
30
0.4
20
10
0.2
0
5
10
15
20
25
30
35
0
0
45
40
0
10
5
15
20
30
25
35
45
40
0
DC CURRENT (A)
DC CURRENT (A)
IHLP-5050FD-01 2.2 µH
IHLP-5050FD-01 3.3 µH
100
2.0
L
80
1.5
60
1.0
40
0.5
20
3.5
100
ΔT °C
3.0
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
2.5
TEMPERATURE (°C)
INDUCTANCE (µH)
1.4
100
ΔT °C
0.2
INDUCTANCE (µH)
50
IHLP-5050FD-01 1.2 µH
IHLP-5050FD-01 1.0 µH
INDUCTANCE (µH)
45
40
35
30
25
DC CURRENT (A)
1.2
0.0
20
15
TEMPERATURE (°C)
30
20
10
0
L
80
2.5
60
2.0
1.5
40
1.0
20
TEMPERATURE (°C)
INDUCTANCE (µH)
100
0.90
TEMPERATURE (°C)
0.80
0.5
0.0
0
0
5
10
15
20
25
30
DC CURRENT (A)
Document Number: 34123
Revision: 25-Feb-11
35
40
0
0.0
0
5
15
10
20
25
30
35
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
106
IHLP-5050FD-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
80
5
L
3.5
3.0
60
2.5
2.0
40
1.5
20
1.0
0
0
10
5
15
20
25
80
L
4
60
3
40
2
20
1
0.5
0
0
30
0
5
0
15
10
25
20
DC CURRENT (A)
DC CURRENT (A)
IHLP-5050FD-01 6.8 µH
8.000
IHLP-5050FD-01 8.2 µH
100
ΔT °C
9
7.000
L
5.000
60
4.000
40
3.000
2.000
20
INDUCTANCE (µH)
80
6.000
1.000
100
ΔT °C
8
TEMPERATURE (°C)
INDUCTANCE (µH)
100
ΔT °C
TEMPERATURE (°C)
4.0
6
80
7
L
6
60
5
4
40
3
2
20
TEMPERATURE (°C)
INDUCTANCE (µH)
4.5
IHLP-5050FD-01 5.6 µH
100
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
IHLP-5050FD-01 4.7 µH
5.0
1
0.000
0
0
2
4
6
8
10
12
14
0
16
0
4
2
6
DC CURRENT (A)
8
12
10
14
0
16
DC CURRENT (A)
IHLP-5050FD-01 10 µH
100
ΔT °C
10
80
L
8
60
6
40
4
20
2
TEMPERATURE (°C)
INDUCTANCE (µH)
12
0
0
0
2
4
6
8
10
12
14
16
DC CURRENT (A)
www.vishay.com
107
For technical questions, contact: [email protected]
Document Number: 34123
Revision: 25-Feb-11
IHLP-6767DZ-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
•
•
•
•
Shielded construction
Frequency range up to 2.0 MHz
Lowest DCR/μH, in this package size
Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite
construction
• Compliant to RoHS Directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
APPLICATIONS
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
0.22
0.80
0.88
75.0
92.0
0.33
1.16
1.28
56.0
82.0
0.47
1.31
1.38
49.0
77.0
0.56
1.45
1.52
47.0
62.0
0.68
1.90
2.00
41.0
60.0
0.82
2.17
2.28
38.5
51.0
1.0
2.53
2.66
31.5
58.0
1.5
4.50
4.73
23.5
40.0
2.2
6.10
6.40
19.0
30.0
3.3
9.06
9.51
18.5
28.0
4.7
10.70
11.20
16.0
27.0
5.6
13.40
14.10
14.0
26.0
6.8
15.20
16.00
13.2
21.0
8.2
16.80
17.60
11.5
20.0
10.0
24.40
25.60
10.5
19.5
•
•
•
•
•
•
PDA/notebook/desktop/server applications
High current POL converters
Low profile, high current power supplies
Battery powered devices
DC/DC converters in distributed power systems
DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.675
[17.15]
Max.
0.675 ± 0.005
[17.15 ± 0.127]
0.158 [4.00]
Max.
0.47 ± 0.01
[11.94 ± 0.3]
0.083 ± 0.01
[2.11 ± 0.3]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
Typical Pad Layout
0.725
[18.42]
0.480
[12.19]
0.479
[12.17]
DESCRIPTION
IHLP-6767DZ-01
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
P
6
7
6
7
SIZE
D
Z
E
R
PACKAGE
CODE
4
R
INDUCTANCE
VALUE
7
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34296
Revision: 08-Mar-11
For technical questions, contact: [email protected]
www.vishay.com
108
IHLP-6767DZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
L
80
0.15
60
0.10
40
0.05
20
40
60
80
0.3
L
40
0.1
20
0
15
30
DC CURRENT (A)
0.2
40
0.1
20
30
45
60
INDUCTANCE (μH)
60
TEMPERATURE (°C)
INDUCTANCE (μH)
80
0.3
15
80
0.48
L
0.36
60
0.24
40
0.12
20
0.00
0
90
75
0
15
30
L
0.45
60
0.30
40
0.15
20
20
30
40
80
L
0.6
60
0.4
40
0.2
20
0
10
20
DC CURRENT (A)
30
40
IHLP-6767DZ-01 1.0 μH
IHLP-6767DZ-01 1.5 μH
2.0
100
ΔT °C
L
80
0.75
60
0.50
40
0.25
20
10
20
30
40
DC CURRENT (A)
www.vishay.com
109
0
50
INDUCTANCE (μH)
1.00
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
0
0
60
50
DC CURRENT (A)
1.25
0.00
100
ΔT °C
0.8
0.0
0
70
60
50
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-6767DZ-01 0.82 μH
0.60
10
0
75
60
1.0
100
ΔT °C
0
45
DC CURRENT (A)
IHLP-6767DZ-01 0.68 μH
0.00
100
ΔT °C
DC CURRENT (A)
0.75
0
90
75
IHLP-6767DZ-01 0.56 μH
L
0
60
0.60
100
ΔT °C
0.4
0.0
45
DC CURRENT (A)
IHLP-6767DZ-01 0.47 μH
0.5
60
0.2
0.0
0
120
100
80
TEMPERATURE (°C)
20
0.4
TEMPERATURE (°C)
0
100
ΔT °C
100
80
1.6
L
1.2
60
0.8
40
0.4
20
0.0
0
5
10
15
20
25
30
TEMPERATURE (°C)
0.00
INDUCTANCE (μH)
0.20
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-6767DZ-01 0.33 μH
0.5
100
ΔT °C
TEMPERATURE (°C)
IHLP-6767DZ-01 0.22 μH
0.25
0
35
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34296
Revision: 08-Mar-11
IHLP-6767DZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-6767DZ-01 3.3 μH
1.5
60
1.0
40
0.5
20
10
15
20
80
L
2.4
60
1.6
40
0.8
20
0.0
0
30
25
3.2
0
5
10
DC CURRENT (A)
IHLP-6767DZ-01 4.7 μH
L
3
60
2
40
1
20
10
15
20
INDUCTANCE (μH)
80
4
5
L
4.8
60
2.4
40
1.2
20
0
5
10
15
IHLP-6767DZ-01 6.8 μH
6
60
L
4
40
2
20
12
16
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
8
8
80
L
6
60
4
40
2
20
0
0
20
100
ΔT °C
ΔT °C
8
0
30
25
IHLP-6767DZ-01 8.2 μH
10
100
4
20
DC CURRENT (A)
10
0
80
3.6
0.0
0
30
25
100
ΔT °C
DC CURRENT (A)
0
0
30
25
IHLP-6767DZ-01 5.6 μH
ΔT °C
0
20
6.0
100
TEMPERATURE (°C)
INDUCTANCE (μH)
5
0
15
DC CURRENT (A)
TEMPERATURE (°C)
5
100
ΔT °C
0
5
10
DC CURRENT (A)
15
20
TEMPERATURE (°C)
0
INDUCTANCE (μH)
80
L
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
2.0
0.0
4.0
100
TEMPERATURE (°C)
IHLP-6767DZ-01 2.2 μH
2.5
0
25
DC CURRENT (A)
IHLP-6767DZ-01 10.0 μH
100
ΔT °C
80
9.6
L
7.2
60
4.8
40
2.4
20
0.0
0
5
10
15
TEMPERATURE (°C)
INDUCTANCE (μH)
12.0
0
20
DC CURRENT (A)
Document Number: 34296
Revision: 08-Mar-11
For technical questions, contact: [email protected]
www.vishay.com
110
IHLP-6767DZ-11
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 750 kHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
1.0
1.86
2.05
41
27.5
1.5
3.12
3.43
31
21
2.2
4.57
5.03
26
19
3.3
6.64
7.30
20.5
14
4.7
8.47
9.32
18
12
5.6
11.09
12.20
15
11.5
6.8
12.54
13.79
14.5
10.5
10.0
17.2
18.92
12
8
15.0
27.8
30.58
9
7.5
22.0
42.7
46.97
7.2
6.2
33.0
64.4
70.84
6.5
6
47.0
98.60 108.46
5
4.3
APPLICATIONS
• PDA/notebook/desktop/server applications
• High current POL converters
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
0.675
[17.15]
Max.
0.675 ± 0.005
[17.15 ± 0.127]
0.158 [4.00]
Max.
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.47 ± 0.01
[11.94 ± 0.3]
0.083 ± 0.01
[2.11 ± 0.3]
Typical Pad Layout
0.725
[18.42]
0.480
[12.19]
0.479
[12.17]
DESCRIPTION
IHLP-6767DZ-11
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34306
Revision: 25-May-11
P
6
7
6
7
SIZE
D
Z
E
R
PACKAGE
CODE
4
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
7
M
TOL.
1
1
SERIES
www.vishay.com
111
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767DZ-11
Low Profile, High Current IHLP®
Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-6767DZ-11 1.5 μH
2.0
100
0.6
60
L
0.4
40
0.2
20
30
20
40
60
L
0.8
40
0.4
20
0.0
0
60
50
1.2
0
10
DC CURRENT (A)
L
60
1.0
40
0.5
20
10
20
INDUCTANCE (μH)
80
1.5
100
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-6767DZ-11 3.3 μH
ΔT °C
0
80
3
60
L
2
20
0
5
10
IHLP-6767DZ-11 4.7 μH
60
L
2
40
1
20
15
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
3
6.4
80
4.8
60
L
3.2
40
1.6
20
0.0
0
25
20
0
5
10
15
IHLP-6767DZ-11 6.8 μH
IHLP-6767DZ-11 10.0 μH
12.0
100
100
8
80
6
60
L
4
40
2
20
10
15
20
DC CURRENT (A)
www.vishay.com
112
0
25
INDUCTANCE (μH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
5
0
25
20
DC CURRENT (A)
10
0
100
ΔT °C
DC CURRENT (A)
0
0
30
25
IHLP-6767DZ-11 5.6 μH
4
10
20
8.0
100
5
15
DC CURRENT (A)
5
0
40
1
0
0
40
30
4
DC CURRENT (A)
0
0
50
40
5
100
2.0
0.0
30
DC CURRENT (A)
IHLP-6767DZ-11 2.2 μH
2.5
20
TEMPERATURE (°C)
10
80
TEMPERATURE (°C)
0
1.6
80
9.6
7.2
60
L
4.8
40
2.4
20
0.0
0
3
6
9
12
15
TEMPERATURE (°C)
0.0
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
0.8
100
ΔT °C
ΔT °C
TEMPERATURE (°C)
IHLP-6767DZ-11 1.0 μH
1.0
0
18
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34306
Revision: 25-May-11
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767DZ-11
Low Profile, High Current IHLP®
Inductors
Vishay Dale
PERFORMANCE GRAPHS
80
L
9
60
6
40
3
20
0
2
4
6
10
8
20
80
15
60
L
10
40
5
20
0
0
14
12
0
2
4
DC CURRENT (A)
6
8
IHLP-6767DZ-11 33.0 μH
IHLP-6767DZ-11 47.0 μH
75
100
100
ΔT °C
24
60
L
16
40
8
20
1.5
3.0
4.5
6.0
DC CURRENT (A)
Document Number: 34306
Revision: 25-May-11
7.5
0
9.0
INDUCTANCE (μH)
80
32
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
0
0
12
10
DC CURRENT (A)
40
0
100
ΔT °C
80
60
45
60
L
30
40
15
20
0
0
2
4
6
8
TEMPERATURE (°C)
0
INDUCTANCE (μH)
12
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLP-6767DZ-11 22.0 μH
25
100
ΔT °C
TEMPERATURE (°C)
IHLP-6767DZ-11 15.0 μH
15
0
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
113
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767DZ-11
Low Profile, High Current IHLP®
Inductors
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-6767DZ-11 1.0 μH 20 %
IHLP-6767DZ-11 1.5 μH 20 %
4.0
80
3.2
60
1.2
40
0.8
20
0.4
100
80
Q
60
2.4
L
Q
L
INDUCTANCE (μH)
1.6
100
Q
INDUCTANCE (μH)
2.0
1.6
40
0.8
20
Q
0.0
0.1
1
0
100
10
0.0
0.1
FREQUENCY (MHz)
0
100
10
FREQUENCY (MHz)
IHLP-6767DZ-11 2.2 μH 20 %
IHLP-6767DZ-11 3.3 μH 20 %
100
12.0
100
6.0
80
9.6
80
4.5
60
40
20
1.5
L
60
7.2
Q
Q
L
3.0
INDUCTANCE (μH)
7.5
Q
INDUCTANCE (μH)
1
4.8
40
2.4
20
Q
1
0
100
10
0.0
0.1
FREQUENCY (MHz)
IHLP-6767DZ-11 4.7 μH 20 %
IHLP-6767DZ-11 5.6 μH 20 %
20
80
16
L
60
8.4
Q
5.6
40
2.8
20
INDUCTANCE (μH)
100
Q
INDUCTANCE (μH)
11.2
1
0
100
10
100
80
L
60
12
Q
8
40
20
4
0
0.1
FREQUENCY (MHz)
1
10
0
100
FREQUENCY (MHz)
IHLP-6767DZ-11 6.8 μH 20 %
25
0
100
10
FREQUENCY (MHz)
14.0
0.0
0.1
1
Q
0.0
0.1
IHLP-6767DZ-11 10.0 μH 20 %
100
40
100
L
60
15
10
40
5
20
0
0.1
1
10
FREQUENCY (MHz)
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114
0
100
80
32
60
24
Q
Q
INDUCTANCE (μH)
80
20
Q
INDUCTANCE (μH)
L
Q
16
40
8
20
0
0.1
1
10
0
100
FREQUENCY (MHz)
For technical questions, contact: [email protected]
Document Number: 34306
Revision: 25-May-11
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767DZ-11
Low Profile, High Current IHLP®
Inductors
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-6767DZ-11 15.0 μH 20 %
IHLP-6767DZ-11 22.0 μH 20 %
100
80
80
Q
28
40
14
20
0
0.1
1
0
100
10
100
80
L
Q
60
60
40
40
20
20
Q
60
42
INDUCTANCE (μH)
L
56
100
Q
INDUCTANCE (μH)
70
0
0.1
1
FREQUENCY (MHz)
IHLP-6767DZ-11 33.0 μH 20 %
IHLP-6767DZ-11 47.0 μH 20 %
100
250
100
L
64
40
32
20
0
0.1
0
10
1
FREQUENCY (MHz)
Document Number: 34306
Revision: 25-May-11
80
200
60
150
Q
60
Q
INDUCTANCE (μH)
80
Q
INDUCTANCE (μH)
L
96
0
100
FREQUENCY (MHz)
160
128
10
Q
100
40
50
20
0
0.1
1
10
0
100
FREQUENCY (MHz)
For technical questions, contact: [email protected]
www.vishay.com
115
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767GZ-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
•
•
•
•
Shielded construction
Frequency range up to 2.0 MHz
Lowest DCR/μH, in this package size
Handles high transient current spikes without
saturation
• Saturation and inductance extremely stable over
temperature
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
HEAT
DCR
RATING SATURATION
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(3)
(m)
(A)
(A) (4)
0.22
0.33
0.47
0.56
0.82
1.0
1.5
1.8
2.2
3.3
4.7
5.6
6.8
8.2
10.0
15.0
22.0
0.63
0.71
0.90
0.91
1.17
1.28
1.78
1.96
2.40
3.68
4.84
6.68
8.37
10.10
11.6
18.8
25.1
0.70
0.79
0.98
1.00
1.29
1.35
1.88
2.07
2.53
3.88
5.11
7.05
8.83
10.66
12.0
19.9
26.5
80
65
62
56
50
48
42
38
35
28
25
21
19
18
16.5
12.5
11
APPLICATIONS
•
•
•
•
•
129
126
123
88
73
73
65
65
62
54
41
40
32
25
25
25
23
Desktop/server applications
High current buck and boost converters
Low profile, high current power supplies
DC/DC converters in distributed power systems
High current noise filter
DIMENSIONS in inches [millimeters]
0.675
[17.15]
Max.
0.675 ± 0.005
[17.15 ± 0.127]
0.276
[7.00]
Max.
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.47 ± 0.01
[11.94 ± 0.3]
0.083 ± 0.01
[2.11 ± 0.3]
Typical Pad Layout
0.725
[18.42]
0.480
[12.19]
0.479
[12.17]
DESCRIPTION
IHLP-6767GZ-01
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
P
6
7
6
7
SIZE
G
Z
E
R
PACKAGE
CODE
4
R
INDUCTANCE
VALUE
7
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34000
Revision: 15-Apr-11
For technical questions, contact: [email protected]
www.vishay.com
116
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767GZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
100
0.20
80
0.300
80
0.15
60
0.225
60
0.10
40
0.150
40
0.05
20
0.075
20
0.00
80
60
100
0.000
0
140
120
0
40
20
DC CURRENT (A)
IHLP-6767GZ-01 0.56 µH
0.625
100
0.500
80
0.500
80
0.375
60
0.375
60
0.250
40
0.250
40
0.125
20
0.125
20
0
40
20
80
60
100
INDUCTANCE (µH)
100
TEMPERATURE (°C)
INDUCTANCE (µH)
0
120
0.625
0.000
0.000
0
120
0
20
10
40
30
DC CURRENT (A)
50
60
80
70
90
0
100
DC CURRENT (A)
IHLP-6767GZ-01 0.82 µH
IHLP-6767GZ-01 1.0 µH
100
1.25
100
0.80
80
1.00
80
0.60
60
0.75
60
0.40
40
0.50
40
0.20
20
0.25
20
0.00
0
10
30
20
50
40
60
70
80
INDUCTANCE (µH)
1.00
TEMPERATURE (°C)
INDUCTANCE (µH)
100
DC CURRENT (A)
IHLP-6767GZ-01 0.47 µH
0.00
0
0
10
30
20
DC CURRENT (A)
50
40
60
70
80
0
DC CURRENT (A)
IHLP-6767GZ-01 1.5 µH
IHLP-6767GZ-01 1.8 µH
100
2.5
100
1.6
80
2.0
80
1.2
60
1.5
60
0.8
40
1.0
40
0.4
20
0.5
20
0.0
0
10
20
30
40
50
DC CURRENT (A)
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117
60
70
0
INDUCTANCE (µH)
2.0
TEMPERATURE (°C)
INDUCTANCE (µH)
80
60
TEMPERATURE (°C)
40
TEMPERATURE (°C)
20
0.0
0
10
20
30
40
50
60
70
TEMPERATURE (°C)
0
INDUCTANCE (µH)
0.375
TEMPERATURE (°C)
IHLP-6767GZ-01 0.33 µH
100
TEMPERATURE (°C)
INDUCTANCE (µH)
IHLP-6767GZ-01 0.22 µH
0.25
0
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34000
Revision: 15-Apr-11
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767GZ-01
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
100
2.0
80
3.00
80
1.5
60
2.25
60
1.0
40
1.50
40
0.5
20
0.75
20
30
20
50
40
0.00
0
60
0
10
DC CURRENT (A)
7.5
100
4.0
80
6.0
80
3.0
60
4.5
60
2.0
40
3.0
40
1.0
20
1.5
20
0
20
10
0.0
0
40
30
INDUCTANCE (µH)
100
TEMPERATURE (°C)
INDUCTANCE (µH)
IHLP-6767GZ-01 5.6 µH
5.0
0.0
0
20
10
DC CURRENT (A)
40
30
0
DC CURRENT (A)
IHLP-6767GZ-01 6.8 µH
IHLP-6767GZ-01 8.2 µH
100
10.0
100
6.0
80
8.0
80
4.5
60
6.0
60
3.0
40
4.0
40
1.5
20
2.0
20
0.0
0
5
15
10
25
20
30
35
INDUCTANCE (µH)
7.5
TEMPERATURE (°C)
INDUCTANCE (µH)
0
50
40
DC CURRENT (A)
IHLP-6767GZ-01 4.7 µH
0.0
0
0
5
DC CURRENT (A)
10
15
20
25
30
0
DC CURRENT (A)
IHLP-6767GZ-01 15 µH
IHLP-6767GZ-01 10 µH
100
15.0
100
8.0
80
12.0
80
6.0
60
9.0
60
4.0
40
6.0
40
2.0
20
3.0
20
0.0
0
5
10
15
20
DC CURRENT (A)
Document Number: 34000
Revision: 15-Apr-11
25
30
0
INDUCTANCE (µH)
10.0
TEMPERATURE (°C)
INDUCTANCE (µH)
30
20
TEMPERATURE (°C)
10
TEMPERATURE (°C)
0
0.0
0
5
10
15
20
25
30
TEMPERATURE (°C)
0.0
INDUCTANCE (µH)
3.75
TEMPERATURE (°C)
IHLP-6767GZ-01 3.3 µH
100
TEMPERATURE (°C)
INDUCTANCE (µH)
IHLP-6767GZ-01 2.2 µH
2.5
0
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
118
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767GZ-01
Vishay Dale
Low Profile, High Current IHLP® Inductors
PERFORMANCE GRAPHS
100
20.0
80
15.0
60
10.0
40
5.0
20
0.0
0
5
10
15
20
25
TEMPERATURE (°C)
INDUCTANCE (µH)
IHLP-6767GZ-01 22 µH
25.0
0
DC CURRENT (A)
www.vishay.com
119
For technical questions, contact: [email protected]
Document Number: 34000
Revision: 15-Apr-11
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767GZ-11
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Shielded construction
• Frequency range up to 750 kHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without
saturation
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
0.33
0.47
0.56
0.82
1.0
1.5
2.2
3.3
4.7
5.6
6.8
8.2
10.0
15.0
22.0
33.0
47.0
56.0
68.0
82.0
100.0
DCR
TYP.
25 °C
(m)
0.61
0.78
0.83
0.98
1.21
1.54
1.85
2.79
3.98
4.23
5.86
7.71
8.89
13.7
20.0
35.1
40.7
55
72.1
87.3
105
• Halogen-free according to IEC 61249-2-21 definition
HEAT
DCR
RATING SATURATION
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(m)
(A) (3)
(A) (4)
0.67
75.5
55
0.87
64.5
62
0.91
61
66
1.08
56.5
45
1.27
55.5
32
1.62
48
31
1.98
43.5
28
2.93
35
27
4.18
30
21
4.44
28
21
6.15
22.5
18.5
8.10
21
18
9.33
19
17
14.4
14
12
21.0
12
9.5
37.0
10.7
9
42.7
8.7
8.6
57.8
7.2
4.2
75.7
6.1
4.5
91.7
5.5
4.5
110
5.0
4.0
APPLICATIONS
• PDA/notebook/desktop/server applications
• High current POL converters
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array (FPGA)
DIMENSIONS in inches [millimeters]
0.675
[17.15]
Max.
0.675 ± 0.005
[17.15 ± 0.127]
0.276
[7.00]
Max.
0.47 ± 0.01
[11.94 ± 0.3]
0.083 ± 0.01
[2.11 ± 0.3]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
Typical Pad Layout
0.725
[18.42]
0.480
[12.19]
0.479
[12.17]
DESCRIPTION
IHLP-6767GZ-11
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34282
Revision: 18-Mar-11
P
6
7
6
7
SIZE
G
Z
E
R
PACKAGE
CODE
4
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
7
M
TOL.
1
1
SERIES
www.vishay.com
120
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767GZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-6767GZ-11 0.33 µH
IHLP-6767GZ-11 0.47 µH
0.2
40
0.1
20
60
80
0.2
40
0.1
20
0.0
0
120
100
60
0
20
40
DC CURRENT (A)
IHLP-6767GZ-11 0.56 µH
IHLP-6767GZ-11 0.82 µH
1.0
80
0.8
0.36
60
0.24
40
0.12
20
0
20
40
60
INDUCTANCE (µH)
L
100
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT°C
0.00
0
100
80
DC CURRENT (A)
0.60
0.48
60
L
60
0.4
40
0.2
20
0
15
30
DC CURRENT (A)
45
60
75
IHLP-6767GZ-11 1.0 µH
100
80
1.0
L
0.8
60
0.5
40
0.3
20
30
45
60
75
90
INDUCTANCE (µH)
ΔT°C
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT°C
15
L
1.2
60
0.8
40
0.4
20
0.0
0
80
1.6
0
10
DC CURRENT (A)
IHLP-6767GZ-11 2.2 µH
4.0
80
3.2
1.5
60
1.0
40
0.5
20
0.0
30
40
50
DC CURRENT (A)
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121
60
70
0
INDUCTANCE (µH)
ΔT°C
L
20
30
40
50
60
70
0
IHLP-6767GZ-11 3.3 µH
100
TEMPERATURE (°C)
INDUCTANCE (µH)
2.0
10
20
DC CURRENT (A)
2.5
0
0
IHLP-6767GZ-11 1.5 µH
2.0
100
0
90
DC CURRENT (A)
1.3
0.0
80
ΔT°C
0.6
0.0
0
100
80
100
TEMPERATURE (°C)
40
0.3
TEMPERATURE (°C)
20
L
100
80
ΔT°C
L
2.4
60
1.6
40
0.8
20
0.0
0
10
20
30
40
50
60
TEMPERATURE (°C)
0
80
0.4
TEMPERATURE (°C)
60
INDUCTANCE (µH)
80
L
0.3
100
ΔT°C
ΔT°C
0.4
0.0
0.5
100
TEMPERATURE (°C)
INDUCTANCE (µH)
0.5
0
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34282
Revision: 18-Mar-11
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767GZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-6767GZ-11 4.7 µH
IHLP-6767GZ-11 5.6 µH
5
100
6
80
5
100
60
2
40
1
20
0
INDUCTANCE (µH)
3
TEMPERATURE (°C)
0
10
15
20
25
30
35
40
60
2
40
1
20
0
0
0
45
5
10
15
DC CURRENT (A)
IHLP-6767GZ-11 6.8 µH
100
10
80
8
60
3.0
40
1.5
20
15
20
25
INDUCTANCE (µH)
4.5
10
0
35
30
6
60
4
40
2
20
0
0
0
5
10
80
16
7
60
5
40
2
20
INDUCTANCE (µH)
20
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT°C
20
25
80
L
60
8
40
4
20
0
4
8
80
28
ΔT°C
15
60
10
40
5
20
12
DC CURRENT (A)
Document Number: 34282
Revision: 18-Mar-11
15
18
0
INDUCTANCE (µH)
35
TEMPERATURE (°C)
INDUCTANCE (µH)
100
L
9
0
20
16
IHLP-6767GZ-11 33 µH
20
6
12
DC CURRENT (A)
IHLP-6767GZ-11 22 µH
3
30
12
30
25
0
25
100
DC CURRENT (A)
0
20
ΔT°C
0
0
0
15
15
IHLP-6767GZ-11 15 µH
100
L
10
80
L
IHLP-6767GZ-11 10 µH
5
45
DC CURRENT (A)
12
0
40
100
DC CURRENT (A)
10
35
ΔT°C
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT°C
6.0
5
30
IHLP-6767GZ-11 8.2 µH
L
0
25
DC CURRENT (A)
7.5
0.0
20
TEMPERATURE (°C)
5
4
TEMPERATURE (°C)
0
80
L
100
ΔT°C
L
80
21
60
14
40
7
20
0
TEMPERATURE (°C)
INDUCTANCE (µH)
L
TEMPERATURE (°C)
ΔT°C
ΔT°C
4
0
0
2
4
6
8
10
12
14
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
122
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767GZ-11
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-6767GZ-11 47 µH
IHLP-6767GZ-11 56 µH
75
80
60
20
40
10
20
0
6
8
10
12
60
30
40
15
20
14
0
2
4
DC CURRENT (A)
IHLP-6767GZ-11 68 µH
100
100
80
80
60
30
40
15
20
0
INDUCTANCE (µH)
45
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT°C
2
3
4
5
12
0
6
7
8
100
80
L
ΔT°C
60
60
40
40
20
20
0
0
1
10
IHLP-6767GZ-11 82 µH
L
0
8
DC CURRENT (A)
75
60
6
9
TEMPERATURE (°C)
4
45
0
0
2
80
L
TEMPERATURE (°C)
60
INDUCTANCE (µH)
30
0
100
ΔT°C
ΔT°C
L
40
100
TEMPERATURE (°C)
INDUCTANCE (µH)
50
0
0
1
2
3
DC CURRENT (A)
4
5
6
7
8
DC CURRENT (A)
IHLP-6767GZ-11 100 µH
INDUCTANCE (µH)
L
ΔT°C
80
80
60
60
40
40
20
20
0
TEMPERATURE (°C)
100
100
0
0
1
2
3
4
5
6
7
8
DC CURRENT (A)
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123
For technical questions, contact: [email protected]
Document Number: 34282
Revision: 18-Mar-11
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767GZ-51
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• High temperature rating, up to 155 °C
• Shielded construction
• Frequency range up to 750 kHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without saturation
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
APPLICATIONS
• PDA/notebook/desktop/server applications
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
• High current POL converters
DCR
TYP.
25 °C
(m)
0.47
0.89
0.95
63.0
87.0
• DC/DC converter for Field Programmable Gate Array (FPGA)
1.0
1.36
1.46
53.0
42.0
2.2
2.25
2.41
38.5
38.0
3.3
3.06
3.27
32.2
32.0
4.7
4.89
5.23
24.0
26.0
10.0
10.20
10.91
16.0
20.0
15.0
15.85
16.96
12.5
13.0
22.0
21.28
22.27
11.7
11.0
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
DIMENSIONS in inches [millimeters]
0.675
[17.15]
Max.
0.675 ± 0.005
[17.15 ± 0.127]
0.276
[7.00]
Max.
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 155 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
155 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.47 ± 0.01
[11.94 ± 0.3]
0.083 ± 0.01
[2.11 ± 0.3]
Typical Pad Layout
0.725
[18.42]
0.480
[12.19]
0.479
[12.17]
DESCRIPTION
IHLP-6767GZ-51
2.2 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34312
Revision: 29-Mar-11
P
6
7
6
7
SIZE
G
Z
E
R
PACKAGE
CODE
2
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
2
M
TOL.
5
1
SERIES
www.vishay.com
124
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767GZ-51
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLP-6767GZ-51 0.47 μH
IHLP-6767GZ-51 1.0 μH
60
0.2
40
0.1
20
50
60
70
80
0.4
40
0.2
20
0.0
0
100
90
60
0
10
DC CURRENT (A)
IHLP-6767GZ-51 2.2 μH
60
1.0
40
0.5
20
30
40
80
3.00
L
2.25
40
0.75
20
10
0
20
30
IHLP-6767GZ-51 10 μH
100
12.0
L
3
60
2
40
1
20
15
20
25
INDUCTANCE (μH)
80
TEMPERATURE (°C)
INDUCTANCE (μH)
4
9.6
80
7.2
60
L
4.8
40
2.4
20
0.0
0
35
30
0
5
10
DC CURRENT (A)
60
L
8
40
4
20
15
DC CURRENT (A)
www.vishay.com
125
0
20
INDUCTANCE (μH)
12
10
25
ΔT °C
L
80
5
25
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
0
20
0
30
IHLP-6767GZ-51 22 μH
100
16
0
15
DC CURRENT (A)
IHLP-6767GZ-51 15 μH
20
100
ΔT °C
ΔT °C
10
0
50
40
DC CURRENT (A)
IHLP-6767GZ-51 4.7 μH
5
60
1.50
0.00
0
60
50
5
0
0
80
100
DC CURRENT (A)
0
70
ΔT °C
INDUCTANCE (μH)
L
1.5
TEMPERATURE (°C)
INDUCTANCE (μH)
80
20
60
IHLP-6767GZ-51 3.3 μH
2.0
10
50
3.75
100
ΔT °C
0
40
DC CURRENT (A)
2.5
0.0
30
20
TEMPERATURE (°C)
40
0.6
TEMPERATURE (°C)
30
20
80
100
20
80
15
60
10
40
5
20
0
0
5
15
10
TEMPERATURE (°C)
10
ΔT °C
0.8
TEMPERATURE (°C)
L
INDUCTANCE (μH)
80
0.3
0
100
L
ΔT °C
0.4
0.0
1.0
100
TEMPERATURE (°C)
INDUCTANCE (μH)
0.5
0
20
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34312
Revision: 29-Mar-11
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLP-6767GZ-51
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
IHLP-6767GZ-51 0.47 μH 20 %
IHLP-6767GZ-51 1.0 μH 20 %
1.0
200
4.0
0.8
160
3.2
200
0.4
80
0.2
40
0.0
0.1
1
0
100
10
160
120
2.4
Q
Q
120
0.6
INDUCTANCE (μH)
L
Q
Q
INDUCTANCE (μH)
L
1.6
80
0.8
40
0.0
0.1
1
FREQUENCY (MHz)
0
100
10
FREQUENCY (MHz)
IHLP-6767GZ-51 2.2 μH 20 %
IHLP-6767GZ-51 3.3 μH 20 %
12.0
200
25
160
20
200
Q
4.8
80
2.4
40
0.0
0.1
1
0
100
10
L
120
15
Q
10
80
5
40
0
0.1
1
FREQUENCY (MHz)
IHLP-6767GZ-51 4.7 μH 20 %
100
100
Q
30
120
20
80
10
40
0
100
10
80
80
60
60
40
40
20
20
0
0.1
1
FREQUENCY (MHz)
IHLP-6767GZ-51 15 μH 20 %
80
160
80
40
40
20
0
10
FREQUENCY (MHz)
Document Number: 34312
Revision: 29-Mar-11
100
L
80
Q
120
60
80
40
40
20
Q
60
INDUCTANCE (μH)
200
Q
INDUCTANCE (μH)
100
120
1
0
100
IHLP-6767GZ-51 22 μH 20 %
L
0
0.1
10
FREQUENCY (MHz)
200
Q
L
Q
Q
INDUCTANCE (μH)
160
40
Q
INDUCTANCE (μH)
L
160
0
100
IHLP-6767GZ-51 10 μH 20 %
200
1
10
FREQUENCY (MHz)
50
0
0.1
160
Q
120
7.2
INDUCTANCE (μH)
9.6
Q
INDUCTANCE (μH)
L
0
0.1
1
10
0
100
FREQUENCY (MHz)
For technical questions, contact: [email protected]
www.vishay.com
126
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IHLW-4040CF-11
Vishay Dale
Low Profile, High Current Inductor
FEATURES
•
•
•
•
Shielded construction
Frequency range up to 1.0 MHz
Lowest DCR/μH, in this package size
Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite construction
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
0.10
0.70
0.80
0.15
0.79
0.22
0.83
46
48
0.85
45
46
0.90
35.5
36
APPLICATIONS
•
•
•
•
•
•
PDA/notebook/desktop/server applications
High current POL converters
Low profile, high current power supplies
Battery powered devices
DC/DC converters in distributed power systems
DC/DC converter for Field Programmable Gate Array
(FPGA)
0.33
1.09
1.18
33.5
33.5
0.47
1.60
1.69
31
22
0.56
1.71
1.81
30.5
23
0.68
2.05
2.16
29
20
0.82
2.46
2.60
24
19
1.0
2.67
2.82
24
18
1.5
4.20
4.43
20
14.5
0.030 [0.762] R.
(TYP.)
2.2
6.83
7.21
16
14
0.040 [1.016] R.
(TYP.)
DIMENSIONS in inches [millimeters]
0.035 [0.889] x 45°
(TYP.)
0.400 ± 0.005
[10.16 ± 0.127]
XXUH
(DATE CODE)
0.300 ± 0.005
[7.62 ± 0.127]
0.185 ± 0.005
[4.70 ± 0.127]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.053 ± 0.005
[1.346 ± 0.127]
0.053 ± 0.005
[1.346 ± 0.127]
0.080 ± 0.005
[2.032 ± 0.127]
0.400 ± 0.005
[10.15 ± 0.127]
0.080 ± 0.005
[2.032 ± 0.127]
0.0945
[2.4]
MAX.
0.0472
[1.20]
MAX.
DESCRIPTION
IHLW-4040CF-11
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34001
Revision: 03-Feb-11
W
4
0
4
0
SIZE
C
F
E
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
0
M
TOL.
1
1
SERIES
www.vishay.com
127
IHLW-4040CF-11
Low Profile, High Current Inductor
Vishay Dale
PERFORMANCE GRAPHS
80
0.075
60
0.050
40
0.025
20
0
20
30
50
40
60
80
0.15
60
0.10
40
0.05
20
0.00
70
0
0
10
20
DC CURRENT (A)
70
IHLW-4040CF-11 0.33 µH
0.35
100
0.24
80
0.28
80
0.18
60
0.21
60
0.12
40
0.14
40
0.06
20
0.07
20
0
10
INDUCTANCE (µH)
100
TEMPERATURE (°C)
INDUCTANCE (µH)
60
0.30
0.00
0
20
30
40
50
0
0.00
10
0
60
80
0.45
60
0.30
40
0.15
20
INDUCTANCE (µH)
0.60
10
0
20
30
40
0.75
100
0.60
80
0.45
60
0.30
40
0.15
20
0.00
50
0
10
0
80
0.6
60
0.4
40
0.2
20
0
30
40
DC CURRENT (A)
www.vishay.com
128
50
INDUCTANCE (µH)
0.8
20
50
IHLW-4040CF-11 0.82 µH
100
TEMPERATURE (°C)
IHLW-4040CF-11 0.68 µH
10
40
DC CURRENT (A)
1.0
0
30
20
DC CURRENT (A)
0.0
60
50
IHLW-4040CF-11 0.56 µH
100
TEMPERATURE (°C)
IHLW-4040CF-11 0.47 µH
0
40
DC CURRENT (A)
0.75
0.00
30
20
DC CURRENT (A)
INDUCTANCE (µH)
50
40
DC CURRENT (A)
IHLW-4040CF-11 0.22 µH
INDUCTANCE (µH)
30
TEMPERATURE (°C)
10
0.20
TEMPERATURE (°C)
0
100
1.0
100
0.8
80
0.6
60
0.4
40
0.2
20
0.0
0
5
TEMPERATURE (°C)
0.000
0.25
TEMPERATURE (°C)
0.100
INDUCTANCE (µH)
IHLW-4040CF-11 0.15 µH
100
TEMPERATURE (°C)
INDUCTANCE (µH)
IHLW-4040CF-11 0.10 µH
0.125
0
10
15
20
25
30
35
40
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34001
Revision: 03-Feb-11
IHLW-4040CF-11
Low Profile, High Current Inductor
Vishay Dale
PERFORMANCE GRAPHS
80
0.75
60
0.50
40
0.25
20
0.00
0
5
10
0
15
30
25
20
100
2.0
80
1.5
60
1.0
40
0.5
20
0.0
40
35
2.5
4
0
TEMPERATURE (°C)
1.00
INDUCTANCE (µH)
IHLW-4040CF-11 1.5 µH
100
TEMPERATURE (°C)
INDUCTANCE (µH)
IHLW-4040CF-11 1.0 µH
1.25
0
8
12
DC CURRENT (A)
16
20
24
28
32
DC CURRENT (A)
100
2.0
80
1.5
60
1.0
40
0.5
20
0.0
0
5
10
TEMPERATURE (°C)
INDUCTANCE (µH)
IHLW-4040CF-11 2.2 µH
2.5
0
15
20
25
DC CURRENT (A)
Document Number: 34001
Revision: 03-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
129
IHLW-5050CE-01
Vishay Dale
Low Profile, High Current Inductors
FEATURES
•
•
•
•
Shielded construction
Frequency range up to 5.0 MHz
Lowest DCR/μH, in this package size
Handles high transient current spikes without
saturation
• Ultra low buzz noise, due to composite
construction
• Compliant to RoHS Directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
APPLICATIONS
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
HEAT
DCR
RATING SATURATION
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(3)
(m)
(A)
(A) (4)
0.10
0.15
0.22
0.33
0.47
0.68
0.82
1.0
1.5
1.8
2.2
3.3
4.7
5.6
6.8
8.2
10
0.8
1
1.1
1.3
1.6
2.3
2.6
3.3
5.1
6.5
7.2
11
14.3
18.3
19.8
24.8
30.4
0.96
1.2
1.3
1.5
2
2.5
3
3.5
5.5
7
8
12
15
19
22
28
34
43
41
38.5
36.5
32
28
25
24
19
16.5
16
12
10
9.5
9
8.5
7
•
•
•
•
•
•
84
75
65
62
55
49
44
40
35
30
29
27
24
19
18
16
14
PDA/notebook/desktop/server applications
High current POL converters
Low profile, high current power supplies
Battery powered devices
DC/DC converters in distributed power systems
DC/DC converter for Field Programmable Gate Array (FPGA)
DIMENSIONS in inches [millimeters]
0.035 [0.889] x 45°
(TYP.)
0.500 ± 0.005
[12.7 ± 0.127]
0.0945
[2.40]
MAX.
XXUH
(DATE CODE)
0.400 ± 0.005
[10.16 ± 0.127]
0.0433
[1.10]
MAX.
0.030 [0.762] R.
(TYP.)
0.040 [1.016] R.
(TYP.)
0.185 ± 0.005
[4.70 ± 0.127]
0.053 ± 0.005
[1.346 ± 0.127]
0.053 ± 0.005
[1.346 ± 0.127]
0.080 ± 0.005
[2.032 ± 0.127]
0.500 ± 0.005
[12.7 ± 0.127]
0.080 ± 0.005
[2.032 ± 0.127]
The diagram above applies to values 0.47 µH and below
0.035 [0.889] x 45°
(TYP.)
0.500 ± 0.005
[12.7 ± 0.127]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.0945
[2.40]
MAX.
XXUH
(DATE CODE)
0.400 ± 0.005
[10.16 ± 0.127]
0.0433
[1.10]
MAX.
0.030 [0.762] R.
(TYP.)
0.040 [1.016] R.
(TYP.)
0.118 ± 0.005
[3.00 ± 0.127]
0.053 ± 0.005
[1.346 ± 0.127]
0.053 ± 0.005
[1.346 ± 0.127]
0.080 ± 0.005
[2.032 ± 0.127]
0.500 ± 0.005
[12.7 ± 0.127]
0.080 ± 0.005
[2.032 ± 0.127]
The diagram above applies to values 0.68 µH and above
DESCRIPTION
IHLW-5050CE-01
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
W
5
0
5
0
SIZE
C
E
E
R
PACKAGE
CODE
1
R
0
INDUCTANCE
VALUE
M
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34262
Revision: 08-Mar-11
For technical questions, contact: [email protected]
www.vishay.com
130
IHLW-5050CE-01
Low Profile, High Current Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLW-5050CE-01 0.10 µH
0.12
IHLW-5050CE-01 0.15 µH
100
ΔT °C
0.25
100
ΔT °C
L
0.08
40
0.07
20
0.06
0
20
30
40
50
40
0.09
20
0.05
80
70
60
0.13
0
20
10
0.10
40
0.05
20
30
40
50
INDUCTANCE (µH)
60
0.15
TEMPERATURE (°C)
INDUCTANCE (µH)
80
L
20
0
60
80
0.40
60
0.30
L
0.20
40
0.10
20
0
0.00
0
10
100
1.0
80
0.8
40
0.2
20
INDUCTANCE (µH)
60
L
0.4
TEMPERATURE (°C)
INDUCTANCE (µH)
0.6
0
30
40
50
80
0.6
60
L
0.4
40
0.2
20
0
60
0
10
DC CURRENT (A)
40
50
60
0
IHLW-5050CE-01 1.0 µH
1.4
100
1.0
80
0.8
L
60
0.6
40
0.4
20
0.2
100
ΔT °C
1.2
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (µH)
30
20
DC CURRENT (A)
IHLW-5050CE-01 0.82 µH
1.2
100
ΔT °C
ΔT °C
20
60
IHLW-5050CE-01 0.68 µH
IHLW-5050CE-01 0.47 µH
10
50
DC CURRENT (A)
0.8
0
40
30
20
DC CURRENT (A)
0
100
ΔT °C
0.20
10
0.50
100
ΔT °C
0
0
70
60
IHLW-5050CE-01 0.33 µH
IHLW-5050CE-01 0.22 µH
0.00
50
DC CURRENT (A)
DC CURRENT (A)
0.25
40
30
TEMPERATURE (°C)
10
L
TEMPERATURE (°C)
0
60
0.17
80
1.0
L
60
0.8
0.6
40
0.4
20
TEMPERATURE (°C)
0.05
80
0.21
TEMPERATURE (°C)
60
0.09
INDUCTANCE (µH)
80
0.10
TEMPERATURE (°C)
INDUCTANCE (µH)
0.11
0.2
0
0
0
10
20
30
40
DC CURRENT (A)
www.vishay.com
131
50
0
0
0
20
10
30
40
50
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34262
Revision: 08-Mar-11
IHLW-5050CE-01
Low Profile, High Current Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLW-5050CE-01 1.8 µH
IHLW-5050CE-01 1.5 µH
3.0
100
80
1.4
L
60
1.2
1.0
40
0.8
0.6
0.4
20
2.5
TEMPERATURE (°C)
1.6
100
ΔT °C
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (µH)
2.0
1.8
80
2.0
60
L
1.5
40
1.0
20
0.5
0.2
0
5
0
50
40
30
15
10
DC CURRENT (A)
20
25
DC CURRENT (A)
IHLW-5050CE-01 2.2 µH
IHLW-5050CE-01 3.3 µH
100
ΔT °C
100
4.0
ΔT °C
80
2.0
L
60
1.5
40
1.0
20
0.5
INDUCTANCE (µH)
2.5
TEMPERATURE (°C)
3.6
3.2
80
TEMPERATURE (°C)
3.0
INDUCTANCE (µH)
0
30
0.0
0
20
10
0
L
2.8
60
2.4
2.0
1.6
1.2
40
0.8
20
0.4
0
0
5
15
10
20
30
25
0
0
5
0
35
100
30
100
8
ΔT °C
ΔT °C
80
L
60
40
20
INDUCTANCE (µH)
7
TEMPERATURE (°C)
80
6
5
60
L
4
40
3
2
20
1
0.5
0
0
0
5
10
15
20
25
0
0
30
0
10
5
DC CURRENT (A)
DC CURRENT (A)
IHLW-5050CE-01 8.2 µH
IHLW-5050CE-01 6.8 µH
12.0
100
ΔT °C
60
6.0
L
40
4.0
20
2.0
5
10
15
0
20
INDUCTANCE (µH)
8.0
TEMPERATURE (°C)
80
0
100
12.0
ΔT °C
10.0
0.0
10.0
80
8.0
L
60
6.0
40
4.0
20
2.0
0
0.0
0
2
4
DC CURRENT (A)
Document Number: 34262
Revision: 08-Mar-11
25
20
15
TEMPERATURE (°C)
INDUCTANCE (µH)
25
IHLW-5050CE-01 5.6 µH
IHLW-5050CE-01 4.7 µH
INDUCTANCE (µH)
20
DC CURRENT (A)
DC CURRENT (A)
6.0
5.5
5.0
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
15
10
TEMPERATURE (°C)
0
For technical questions, contact: [email protected]
6
8
10
12
14
DC CURRENT (A)
www.vishay.com
132
IHLW-5050CE-01
Low Profile, High Current Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLW-5050CE-01 10 µH
100
16.0
14.0
80
12.0
60
10.0
L
8.0
20
6.0
4.0
40
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0
0
2
4
6
8
10
12
14
DC CURRENT (A)
www.vishay.com
133
For technical questions, contact: [email protected]
Document Number: 34262
Revision: 08-Mar-11
IHLM-2525CZ-01
Vishay Dale
Molded, Low Profile, High Current Inductors
FEATURES
• Lowest molded height (3.0 mm) in this package
footprint
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without saturation
• Ultra low buzz noise, due to composite construction
• Encapsulated body offers improved environmental
protection and moisture resistance
• Higher dielectric withstanding voltage vs. IHLP
• Flame retardant encapsulant (UL 94 V-0)
• Corrosion resistant package
• Compliant to RoHS directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
STANDARD ELECTRICAL SPECIFICATIONS
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
0.10
1.5
1.7
32.5
60
0.15
1.9
2.5
26
52
0.20
2.4
3.0
24
41
0.22
2.5
2.8
23
40
0.33
3.5
3.9
20
30
0.47
4
4.2
17.5
26
0.68
5
5.5
15.5
25
0.82
6.7
8
13
24
1.0
9
10
11
22
1.5
14
15
9
18
2.2
18
20
8
14
3.3
28
30
6
13.5
4.7
37
40
5.5
10
6.8
54
60
4.5
8
8.2
64
68
4
7.5
10
102
105
3
7.0
APPLICATIONS
•
•
•
•
•
•
PDA/notebook/desktop/server applications
High current POL converters
Low profile, high current power supplies
Battery powered devices
DC/DC converters in distributed power systems
DC/DC converter for Field Programmable Gate Array
(FPGA)
• Harsh environments including moisture, chemicals and
salt spray
DIMENSIONS in inches [millimeters]
Typical Pad Layout (Min.)
0.125
[3.18]
0.255 ± 0.010
[6.47 ± 0.254]
0.135
[3.43]
0.146
[3.71]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.290
[7.37]
0.270 ± 0.015
[6.86 ± 0.381]
0.118 [3.0] Max.
0.050 ± 0.012
[1.27 ± 0.30]
DESCRIPTION
IHLM-2525CZ-01
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34172
Revision: 11-May-09
M
2
5
2
5
SIZE
C
Z
E
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
0
M
TOL.
0
1
SERIES
www.vishay.com
134
IHLM-2525CZ-01
Molded, Low Profile, High Current
Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLM-2525CZ-01 0.10 µH
IHLM-2525CZ-01 0.15 µH
0.16
ΔT °C
TEMPERATURE (°C)
80
L
0.080
60
0.060
40
0.040
20
0.020
INDUCTANCE (µH)
0.100
ΔT °C
0.12
L
0.10
60
0.08
40
0.06
0.04
20
0.02
30
20
10
0
40
0
60
50
0.00
DC CURRENT (A)
DC CURRENT (A)
IHLM-2525CZ-01 0.20 µH
IHLM-2525CZ-01 0.22 µH
100
0.25
0.25
100
0.20
80
L
0.15
60
0.10
40
0.05
20
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
0
0
5
10
15
25
20
30
80
L
0.15
60
0.10
40
0.05
20
0.00
40
35
0.20
0
5
15
10
25
20
40
35
30
0
DC CURRENT (A)
DC CURRENT (A)
IHLM-2525CZ-01 0.47 µH
IHLM-2525CZ-01 0.33 µH
0.50
0.6
100
0.35
0.30
L
60
0.25
0.20
40
0.15
0.10
20
0.5
INDUCTANCE (µH)
80
TEMPERATURE (°C)
0.40
100
ΔT °C
ΔT °C
0.45
INDUCTANCE (µH)
0
50
40
30
20
10
0
TEMPERATURE (°C)
0.000
0.00
80
80
L
0.4
60
0.3
40
0.2
20
0.1
TEMPERATURE (°C)
INDUCTANCE (µH)
100
0.14
TEMPERATURE (°C)
100
0.120
0.05
0
5
10
15
20
25
0
0.0
0
30
0
10
5
DC CURRENT (A)
DC CURRENT (A)
IHLM-2525CZ-01 0.68 µH
0.8
IHLM-2525CZ-01 0.82 µH
ΔT °C
0.9
100
0.5
60
0.4
40
0.3
0.2
20
0.1
INDUCTANCE (µH)
L
TEMPERATURE (°C)
80
0.6
100
ΔT °C
0.8
0.7
INDUCTANCE (µH)
25
20
15
80
0.7
L
0.6
60
0.5
0.4
40
0.3
0.2
20
TEMPERATURE (°C)
0.00
0.1
0.0
0
5
10
15
20
DC CURRENT (A)
www.vishay.com
135
0
25
0.0
0
10
5
15
20
0
25
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34172
Revision: 11-May-09
IHLM-2525CZ-01
Molded, Low Profile, High Current
Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLM-2525CZ-01 1.00 µH
IHLM-2525CZ-01 1.5 µH
80
L
0.8
60
0.6
40
0.4
20
0.2
1.0
60
0.8
40
0.6
0.4
20
0.2
15
10
5
0
0
20
0.0
0
2
4
6
IHLM-2525CZ-01 2.2 µH
14
16
18
0
IHLM-2525CZ-01 3.3 µH
100
80
2.0
L
1.5
60
1.0
40
20
0.5
3.5
100
ΔT °C
3.0
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
2.5
12
10
8
DC CURRENT (A)
DC CURRENT (A)
INDUCTANCE (µH)
80
1.2
80
L
2.5
60
2.0
1.5
40
1.0
20
TEMPERATURE (°C)
0.0
L
INDUCTANCE (µH)
1.0
100
ΔT °C
1.4
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
1.6
100
1.2
0.5
0
2
0
8
6
4
12
10
0
0.0
14
2
0
DC CURRENT (A)
IHLM-2525CZ-01 6.8 µH
80
L
3.5
3.0
60
2.5
2.0
40
1.5
20
1.0
INDUCTANCE (µH)
4.0
80
7.0
6.0
L
4.0
40
3.0
2.0
20
1
2
4
3
6
5
8
7
9
0
0.0
0
10
0
1
IHLM-2525CZ-01 10.0 µH
10.0
80
8.0
L
6.0
60
5.0
4.0
40
3.0
2.0
20
INDUCTANCE (µH)
7.0
100
TEMPERATURE (°C)
ΔT °C
8.0
8
7
6
DC CURRENT (A)
IHLM-2525CZ-01 8.2 µH
9.0
5
4
3
2
100
ΔT °C
80
L
6.0
60
4.0
40
2.0
20
TEMPERATURE (°C)
0
DC CURRENT (A)
INDUCTANCE (µH)
60
5.0
1.0
0.5
0.0
100
ΔT °C
8.0
TEMPERATURE (°C)
INDUCTANCE (µH)
9.0
100
ΔT °C
4.5
12
10
DC CURRENT (A)
IHLM-2525CZ-01 4.7 µH
5.0
8
6
4
TEMPERATURE (°C)
0.0
1.0
0.0
0
0
1
2
3
4
5
6
7
8
9
0.0
0
1
2
DC CURRENT (A)
Document Number: 34172
Revision: 11-May-09
For technical questions, contact: [email protected]
3
4
5
6
7
0
DC CURRENT (A)
www.vishay.com
136
IHLM-2525CZ-06
Vishay Dale
10 % DCR Tolerance, Low Profile, Power Inductors
FEATURES
• Lowest molded height (3.0 mm) in this package
footprint
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without saturation
• Ultra low buzz noise, due to composite construction
• Encapsulated body offers improved environmental
protection and moisture resistance
• Higher dielectric withstanding voltage vs. IHLP
• Flame retardant encapsulant (UL 94 V-0)
• Corrosion resistant package
• Compliant to RoHS directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
STANDARD ELECTRICAL SPECIFICATIONS
DCR
± 10 %
AT 25 °C
(m)
HEAT
RATING
CURRENT
DC TYP.
(A) (3)
0.10
1.37
32.5
60
0.20
2.34
24
41
0.33
3.20
20
30
0.47
3.86
17.5
26
0.68
5.20
15.5
25
0.82
7.41
13
24
1.0
8.44
11
22
1.5
14.50
9
18
2.2
17.73
8
14
3.3
28.21
6
13.5
4.7
37.11
5.5
10
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
SATURATION
CURRENT
DC TYP.
(A) (4)
8.2
61.47
4
7.5
10
97.71
3
7.0
APPLICATIONS
•
•
•
•
Tolerance DCR for current sense applications
Improved current balance in phased power supplies
Improved thermal management
PDA/notebook/desktop/server and battery powered
devices
• High current, low profile POL converters
• DC/DC converters in distributed power systems
• DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
Typical Pad Layout (Min.)
0.255 ± 0.010
[6.47 ± 0.254]
0.135
[3.43]
0.125
[3.18]
0.146
[3.71]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.290
[7.37]
0.270 ± 0.015
[6.86 ± 0.381]
0.118 [3.0] Max.
0.050 ± 0.012
[1.27 ± 0.30]
DESCRIPTION
IHLM-2525CZ-06
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
www.vishay.com
137
M
2
5
2
5
SIZE
C
Z
E
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
0
M
TOL.
0
6
SERIES
Document Number: 34185
Revision: 12-May-09
IHLM-2525CZ-06
10 % DCR Tolerance, Low Profile, Power
Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLM-2525CZ-06 0.10 µH
IHLM-2525CZ-06 0.20 µH
0.120
100
100
0.25
0.080
60
0.060
40
0.040
20
0.020
0
60
0.000
10
30
20
40
50
80
0.20
L
0.15
60
0.10
40
0.05
20
0.00
0
5
0
15
10
25
30
IHLM-2525CZ-06 0.47 µH
IHLM-2525CZ-06 0.33 µH
0.50
0.6
100
100
ΔT °C
80
0.35
0.30
60
L
0.25
0.20
40
0.15
0.10
20
0.5
INDUCTANCE (µH)
0.40
TEMPERATURE (°C)
ΔT °C
0.45
40
35
DC CURRENT (A)
DC CURRENT (A)
INDUCTANCE (µH)
20
80
L
0.4
60
0.3
40
0.2
20
0.1
TEMPERATURE (°C)
0
INDUCTANCE (µH)
80
L
TEMPERATURE (°C)
INDUCTANCE (µH)
0.100
TEMPERATURE (°C)
ΔT °C
ΔT °C
0.05
0.00
15
10
5
20
0
0.0
0
30
25
5
0
DC CURRENT (A)
DC CURRENT (A)
IHLM-2525CZ-06 0.68 µH
80
0.6
L
0.5
60
0.4
40
0.3
0.2
20
0.1
L
0.7
80
0.6
60
0.5
0.4
40
0.3
0.2
20
0.1
0
0.0
5
15
10
0
25
0.0
25
20
0
10
5
20
15
DC CURRENT (A)
DC CURRENT (A)
IHLM-2525CZ-06 1.5 µH
IHLM-2525CZ-06 1.00 µH
1.2
1.6
100
ΔT °C
100
ΔT °C
L
80
0.8
60
0.6
40
0.4
20
0.2
INDUCTANCE (µH)
1.0
TEMPERATURE (°C)
1.4
L
80
1.2
1.0
60
0.8
40
0.6
0.4
20
TEMPERATURE (°C)
0
INDUCTANCE (µH)
100
ΔT °C
0.8
INDUCTANCE (µH)
0.7
INDUCTANCE (µH)
IHLM-2525CZ-06 0.82 µH
0.9
100
ΔT °C
TEMPERATURE (°C)
0.8
25
20
15
10
TEMPERATURE (°C)
0
0.2
0
0.0
0
5
10
15
DC CURRENT (A)
Document Number: 34185
Revision: 12-May-09
20
0
0.0
0
2
4
6
8
10
12
14
16
18
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
138
IHLM-2525CZ-06
10 % DCR Tolerance, Low Profile, Power
Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLM-2525CZ-06 2.2 µH
IHLM-2525CZ-06 3.3 µH
100
3.5
L
1.5
60
1.0
40
20
0.5
INDUCTANCE (µH)
80
2.0
100
ΔT °C
3.0
TEMPERATURE (°C)
INDUCTANCE (µH)
ΔT °C
80
L
2.5
60
2.0
1.5
40
1.0
20
TEMPERATURE (°C)
2.5
0.5
0
0.0
6
10
8
12
0.0
14
2
0
9.0
100
ΔT °C
80
L
3.5
3.0
60
2.5
2.0
40
1.5
20
1.0
INDUCTANCE (µH)
4.0
100
ΔT °C
8.0
TEMPERATURE (°C)
INDUCTANCE (µH)
0
12
IHLM-2525CZ-06 8.2 µH
IHLM-2525CZ-06 4.7 µH
4.5
10
DC CURRENT (A)
DC CURRENT (A)
5.0
8
6
4
L
7.0
80
6.0
60
5.0
4.0
40
3.0
2.0
20
TEMPERATURE (°C)
4
2
0
1.0
0.5
0.0
0
1
2
3
4
5
6
7
9
8
0
0.0
0
10
0
1
2
3
DC CURRENT (A)
4
5
6
7
8
9
DC CURRENT (A)
IHLM-2525CZ-06 10.0 µH
100
ΔT °C
8.0
80
L
6.0
60
4.0
40
2.0
20
TEMPERATURE (°C)
INDUCTANCE (µH)
10.0
0
0.0
0
1
2
3
4
5
6
7
DC CURRENT (A)
www.vishay.com
139
For technical questions, contact: [email protected]
Document Number: 34185
Revision: 12-May-09
IHLM-2525CZ-07
Vishay Dale
Low Profile, High Current IHLP® Inductors
FEATURES
• Lowest molded height (3.0 mm) in this package
footprint
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without saturation
• Ultra low buzz noise, due to composite construction
• Encapsulated body offers improved environmental
protectiogmn and moisture resistance
• Higher dielectric withstanding voltage vs. IHLP
• Flame retardant encapsulant (UL 94 V-0)
• Corrosion resistant package
• Compliant to RoHS directive 2002/95/EC
Manufactured under one or more of the following:
US Patents; 6,198,375/6,204,744/6,449,829/6,460,244.
Several foreign patents, and other patents pending.
STANDARD ELECTRICAL SPECIFICATIONS
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
±5%
AT 25 °C
(m)
HEAT
RATING
CURRENT
DC TYP.
(A) (3)
0.10
1.37
32.5
60
0.15
1.85
26
52
0.20
2.34
24
41
0.33
3.20
20
30
0.47
3.86
17.5
26
0.68
5.20
15.5
25
0.82
7.41
13
24
1.0
8.44
11
22
1.5
14.50
9
18
2.2
17.73
8
14
3.3
28.21
6
13.5
4.7
37.11
5.5
10
SATURATION
CURRENT
DC TYP.
(A) (4)
8.2
61.47
4
7.5
10
97.71
3
7.0
APPLICATIONS
•
•
•
•
•
•
•
Tolerance DCR for current sense applications
Improved current balance in phased power supplies
Improved thermal management
PDA/notebook/desktop/server and battery powered devices
High current, low profile POL converters
DC/DC converters in distributed power systems
DC/DC converter for Field Programmable Gate Array
(FPGA)
DIMENSIONS in inches [millimeters]
Typical Pad Layout (Min.)
0.125
[3.18]
0.255 ± 0.010
[6.47 ± 0.254]
0.135
[3.43]
0.146
[3.71]
0.270 ± 0.015
[6.86 ± 0.381]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.290
[7.37]
0.118 [3.0] Max.
0.050 ± 0.012
[1.27 ± 0.305]
DESCRIPTION
IHLM-2525CZ-07
1.0 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
L
PRODUCT FAMILY
Document Number: 34186
Revision: 25-Nov-09
M
2
5
2
5
SIZE
C
Z
E
R
PACKAGE
CODE
1
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
0
M
TOL.
0
7
SERIES
www.vishay.com
140
IHLM-2525CZ-07
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
IHLM-2525CZ-07 0.15 μH
0.160
100
0.072
60
0.048
40
0.024
20
20
30
40
0.096
60
0.064
40
0.032
20
0.000
0
60
50
0
10
20
DC CURRENT (A)
30
40
IHLM-2525CZ-07 0.20 μH
IHLM-2525CZ-07 0.33 μH
0.5
100
100
80
0.20
L
0.15
60
0.10
40
0.05
20
5
10
15
20
25
30
INDUCTANCE (μH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
0
0.3
40
0.1
20
0
5
15
10
20
IHLM-2525CZ-07 0.47 μH
IHLM-2525CZ-07 0.68 μH
0.80
100
100
0.48
80
L
0.36
60
0.24
40
0.12
20
10
15
20
INDUCTANCE (μH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
ΔT °C
5
80
L
0.48
60
0.32
40
0.16
20
0.00
0
25
0.64
0
5
L
80
0.54
60
0.36
40
0.18
20
5
10
15
20
DC CURRENT (A)
www.vishay.com
141
0
25
INDUCTANCE (μH)
0.72
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLM-2525CZ-07 1.00 μH
1.20
100
ΔT °C
0
0
25
20
DC CURRENT (A)
IHLM-2525CZ-07 0.82 μH
0.00
15
10
DC CURRENT (A)
0.90
0
30
25
DC CURRENT (A)
0.60
0
60
L
0.2
0.0
0
40
35
80
0.4
DC CURRENT (A)
0.00
0
55
50
DC CURRENT (A)
0.25
0.00
80
TEMPERATURE (°C)
10
L
TEMPERATURE (°C)
0
0.128
100
ΔT °C
0.96
L
80
0.72
60
0.48
40
0.24
20
0.00
0
5
10
15
20
TEMPERATURE (°C)
0.000
INDUCTANCE (μH)
80
L
TEMPERATURE (°C)
INDUCTANCE (μH)
0.096
100
ΔT °C
ΔT °C
TEMPERATURE (°C)
IHLM-2525CZ-07 0.10 μH
0.120
0
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34186
Revision: 25-Nov-09
IHLM-2525CZ-07
Low Profile, High Current IHLP® Inductors
Vishay Dale
PERFORMANCE GRAPHS
L
1.28
80
0.96
60
0.64
40
0.32
20
2
4
6
8
10
12
80
L
1.5
60
1.0
40
0.5
20
0.0
0
18
16
14
2.0
2
0
4
DC CURRENT (A)
IHLM-2525CZ-07 3.3 μH
60
1.4
40
0.4
20
4
8
6
10
INDUCTANCE (μH)
80
2.1
2
100
ΔT °C
L
0
60
2.0
40
1.0
20
0
1
2
3
60
3.6
40
1.8
20
3
4
5
6
DC CURRENT (A)
Document Number: 34186
Revision: 25-Nov-09
7
8
9
0
INDUCTANCE (μH)
5.4
TEMPERATURE (°C)
INDUCTANCE (μH)
80
L
2
6
7
8
0
10
9
IHLM-2525CZ-07 10.0 μH
7.2
1
5
10.0
100
ΔT °C
0
4
DC CURRENT (A)
IHLM-2525CZ-07 8.2 μH
9.0
80
3.0
0.0
0
12
L
4.0
DC CURRENT (A)
0.0
0
14
12
IHLM-2525CZ-07 4.7 μH
ΔT °C
2.8
0.0
10
5.0
100
TEMPERATURE (°C)
INDUCTANCE (μH)
3.5
8
6
DC CURRENT (A)
TEMPERATURE (°C)
0
100
ΔT °C
100
ΔT °C
L
8.0
80
6.0
60
4.0
40
2.0
20
0.0
0
1
2
3
4
5
6
7
TEMPERATURE (°C)
0.00
INDUCTANCE (μH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (μH)
IHLM-2525CZ-07 2.2 μH
2.5
100
TEMPERATURE (°C)
IHLM-2525CZ-07 1.5 μH
1.60
0
DC CURRENT (A)
For technical questions, contact: [email protected]
www.vishay.com
142
IFLP-4040DZ-01
Vishay Dale
3 % DCR Tolerance, Low Profile, High Current Inductor
FEATURES
• Shielded construction
• Frequency range up to 5.0 MHz
• Lowest DCR/μH, in this package size
• Handles high transient current spikes without saturation
• Compliant to RoHS Directive 2002/95/EC
APPLICATIONS
Patents Pending
• Notebook/desktop/server applications
STANDARD ELECTRICAL SPECIFICATIONS
• High current POL converters
L0
HEAT
INDUCTANCE
DCR
RATING
SATURATION
± 20 % AT 100 kHz,
±3%
CURRENT
CURRENT
0.25 V, 0 A
AT 25 °C
DC TYP.
DC TYP.
(3)
(μH)
(m)
(A)
(A) (4)
0.34
36
0.42
30
0.88
32
0.50
25
0.62
20
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 20 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
DIMENSIONS in inches [millimeters]
0.400 + 0.012/- 0.006
[10.16 + 0.305/- 0.152]
0.15 ± 0.007
[3.81 ± 0.178]
0.400 + 0.012/- 0.006
[10.16 + 0.305/- 0.152]
VALUE
[DATE CODE] X
0.430 ± 0.020
[10.92 ± 0.508]
RECOMMENDED PAD LAYOUT
0.09 [2.286]
0.472
[12.0]
0.260
[6.60]
0.260 [6.60]
0.118
[3.0]
0.276
[7.0]
No Connection
(NC)
0.080 ± 0.010
[2.03 ± 0.254]
0.236 (NC)
[6.0]
0.09 [2.286]
0.080 ± 0.010
[2.03 ± 0.254]
0.118
[3.0]
The No Connection (NC) terminal must not be connected to the ground
or to any electrical traces as this will cause a short in the circuit.
0.118
[3.0]
0.118
[3.0]
DESCRIPTION
IFLP-4040DZ-01
0.42 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
F
L
PRODUCT FAMILY
Document Number: 34200
Revision: 08-Mar-11
P
4
0
4
0
SIZE
D
Z
E
R
PACKAGE
CODE
R
4
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
2
M
TOL.
0
1
SERIES
www.vishay.com
143
IFLP-4040DZ-01
3 % DCR Tolerance, Low Profile,
High Current Inductor
Vishay Dale
PERFORMANCE GRAPHS
IFLP-4040DZ-01 0.34 µH
IFLP-4040DZ-01 0.42 µH
0.50
100
100
0.50
0.30
60
0.20
40
0.10
0
5
10
15
20
25
30
35
40
0.40
80
0.30
60
0.20
40
0.10
20
L
45
0
50
0
0
5
10
15
DC CURRENT (A)
20
25
30
35
IFLP-4040DZ-01 0.50 µH
50
0
IFLP-4040DZ-01 0.62 µH
100
0.75
100
ΔT °C
0.60
80
0.45
60
0.30
40
L
20
INDUCTANCE (µH)
ΔT °C
TEMPERATURE (°C)
INDUCTANCE (µH)
45
DC CURRENT (A)
0.75
0.15
40
0.60
80
0.45
60
0.30
40
20
0.15
TEMPERATURE (°C)
0
20
L
INDUCTANCE (µH)
80
TEMPERATURE (°C)
INDUCTANCE (µH)
0.40
TEMPERATURE (°C)
ΔT °C
ΔT °C
L
0
0
5
10
15
20
25
30
35
DC CURRENT (A)
www.vishay.com
144
40
45
50
0
0
0
5
10
15
20
25
30
35
40
45
50
0
DC CURRENT (A)
For technical questions, contact: [email protected]
Document Number: 34200
Revision: 08-Mar-11
IFSC-0806AZ-01
Vishay Dale
Low Profile, High Current Inductors
FEATURES
• Shielded construction
• Frequency range up to 5.0 MHz
• Handles high transient current spikes without
saturation
• Compliant to RoHS directive 2002/95/EC
APPLICATIONS
STANDARD ELECTRICAL SPECIFICATIONS
• PDA/notebook/desktop/server applications
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
1.0
96
115
1.60
1.88
1.5
143
172
1.40
1.63
2.2
196
236
1.30
1.40
3.3
247
297
1.05
1.00
4.7
331
398
0.90
0.85
6.8
623
748
0.60
0.80
10.0
1108
1330
0.45
0.62
22.0
2367
2840
0.30
0.43
• High current POL converters
• Low profile, high current power supplies
• DC/DC converters in distributed power systems
• DC/DC converter for field programmable gate array (FPGA)
DIMENSIONS in inches [millimeters]
0.079 ± 0.008
[2.0 ± 0.2]
0.063 ± 0.008
[1.6 ± 0.2]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 30 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.024 ± 0.008 0.024 ± 0.008
[0.6 ± 0.2]
[0.6 ± 0.2]
0.039 [1.0]
Max.
Typical Pad Layout
0.102 [2.6]
0.039
[1.0]
0.031 [0.8]
DESCRIPTION
IFSC-0806AZ-01
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
F
S
PRODUCT FAMILY
Document Number: 34291
Revision: 04-Oct-10
C
0
8
0
6
SIZE
A
Z
E
R
PACKAGE
CODE
4
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
7
M
TOL.
0
1
SERIES
www.vishay.com
145
IFSC-1008AB-01
Vishay Dale
Low Profile, High Current Inductors
FEATURES
• Shielded construction
• Frequency range up to 5.0 MHz
• Handles high transient current spikes without
saturation
• Compliant to RoHS directive 2002/95/EC
APPLICATIONS
STANDARD ELECTRICAL SPECIFICATIONS
• PDA/notebook/desktop/server applications
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
0.47
25
29
3.70
3.90
1.0
37
43
2.60
2.70
1.5
63
72
2.20
2.30
2.2
80
90
1.85
2.15
3.3
140
155
1.45
1.70
4.7
190
212
1.20
1.50
6.0
260
288
1.10
1.35
6.8
325
370
1.00
1.15
10.0
360
410
0.75
0.85
22.0
910
1050
0.50
0.56
• High current POL converters
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for field programmable gate array (FPGA)
DIMENSIONS in inches [millimeters]
0.098 ± 0.008
[2.5 ± 0.2]
0.079 ± 0.008
[2.0 ± 0.2]
0.016 ± 0.008 0.016 ± 0.008
[0.4 ± 0.2]
[0.4 ± 0.2]
0.047 [1.2]
Max.
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 30 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
Typical Pad Layout
0.102 [2.6]
0.083
[2.1]
0.031 [0.8]
DESCRIPTION
IFSC-1008AB-01
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
F
S
PRODUCT FAMILY
Document Number: 34294
Revision: 23-Jul-10
C
1
0
0
8
SIZE
A
B
E
R
PACKAGE
CODE
4
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
7
M
TOL.
0
1
SERIES
www.vishay.com
146
IFSC-1111AZ-01
Vishay Dale
Low Profile, High Current Inductors
FEATURES
• Shielded construction
• Frequency range up to 5.0 MHz
• Handles high transient current spikes without
saturation
• Compliant to RoHS directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
APPLICATIONS
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
1.0
55
68
2.00
1.50
• Battery powered devices
1.5
65
75
1.45
1.35
• DC/DC converters in distributed power systems
2.2
90
105
1.30
1.10
3.3
130
150
1.20
0.90
4.7
170
200
1.00
0.75
6.8
200
230
0.90
0.65
10.0
300
340
0.80
0.52
15.0
500
570
0.65
0.40
22.0
650
750
0.50
0.35
33.0
1000
1250
0.40
0.30
47.0
1800
2050
0.35
0.235
• PDA/notebook/desktop/server applications
• High current POL converters
• Low profile, high current power supplies
• DC/DC converter for field programmable gate array (FPGA)
DIMENSIONS in inches [millimeters]
0.114 ± 0.008
[2.9 ± 0.2]
0.114 ± 0.008
[2.9 ± 0.2]
0.030 ± 0.008 0.030 ± 0.008
[0.75 ± 0.2]
[0.75 ± 0.2]
0.039 ± 0.004
[1.0 ± 0.1]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 30 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
Typical Pad Layout
0.118 [3.0]
0.106 to 0.114
[2.7 to 2.9]
0.047 to 0.055 [1.2 to 1.4]
DESCRIPTION
IFSC-1111AZ-01
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
F
S
PRODUCT FAMILY
Document Number: 34293
Revision: 04-Oct-10
C
1
1
1
1
SIZE
A
Z
E
R
PACKAGE
CODE
4
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
7
M
TOL.
0
1
SERIES
www.vishay.com
147
IFSC-1111AB-01
Vishay Dale
Low Profile, High Current Inductors
FEATURES
• Shielded construction
• Frequency range up to 5.0 MHz
• Handles high transient current spikes without
saturation
• Compliant to RoHS directive 2002/95/EC
APPLICATIONS
STANDARD ELECTRICAL SPECIFICATIONS
• PDA/notebook/desktop/server applications
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
2.2
82
98
1.9
1.7
• DC/DC converters in distributed power systems
3.3
100
120
1.7
1.5
• DC/DC converter for field programmable gate array (FPGA)
4.7
130
156
1.4
1.2
6.8
190
228
1.2
1.0
10.0
280
336
1.0
0.8
22.0
630
756
0.67
0.55
• High current POL converters
• Low profile, high current power supplies
• Battery powered devices
DIMENSIONS in inches [millimeters]
0.114 ± 0.008
[2.9 ± 0.2]
0.114 ± 0.008
[2.9 ± 0.2]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 30 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.030 ± 0.008 0.030 ± 0.008
[0.75 ± 0.2]
[0.75 ± 0.2]
0.047 ± 0.004
[1.2 ± 0.1]
Typical Pad Layout
0.118 [3.0]
0.106 to 0.114
[2.7 to 2.9]
0.047 to 0.055 [1.2 to 1.4]
DESCRIPTION
IFSC-1111AB-01
4.7 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
F
S
PRODUCT FAMILY
Document Number: 34292
Revision: 04-Oct-10
C
1
1
1
1
SIZE
A
B
E
R
PACKAGE
CODE
4
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
7
M
TOL.
0
1
SERIES
www.vishay.com
148
IFSC-1515AH-01
Vishay Dale
Low Profile, High Current Inductors
FEATURES
• Shielded construction
• Frequency range up to 5.0 MHz
• Handles high transient current spikes without
saturation
• Compliant to RoHS Directive 2002/95/EC
APPLICATIONS
• PDA/notebook/desktop/server applications
STANDARD ELECTRICAL SPECIFICATIONS
• High current POL converters
HEAT
RATING SATURATION
DCR
MAX. CURRENT
CURRENT
25 °C DC TYP.
DC TYP.
(A) (3)
(m)
(A) (4)
L0
INDUCTANCE
± 20 % AT 100 kHz,
0.25 V, 0 A
(μH)
DCR
TYP.
25 °C
(m)
0.56
17
22
5.40
5.50
1.0
20
25
3.80
3.80
1.2
25
30
3.60
3.60
2.2
35
45
3.00
3.00
3.3
45
56
2.70
2.40
4.7
70
90
2.20
2.00
6.8
90
115
1.90
1.50
8.2
105
132
1.40
1.40
10.0
135
170
1.30
1.30
15.0
185
222
1.25
1.00
22.0
250
315
1.20
0.83
33.0
405
486
0.90
0.68
47.0
495
594
0.80
0.56
• Low profile, high current power supplies
• Battery powered devices
• DC/DC converters in distributed power systems
• DC/DC converter for field programmable gate array (FPGA)
DIMENSIONS in inches [millimeters]
0.150 ± 0.008
[3.8 ± 0.2]
0.150 ± 0.008
[3.8 ± 0.2]
0.039 ± 0.008 0.039 ± 0.008
[1.0 ± 0.2]
[1.0 ± 0.2]
0.071 ± 0.004
[1.8 ± 0.1]
Typical Pad Layout
0.150 [3.8]
Notes
(1) All test data is referenced to 25 °C ambient
(2) Operating temperature range - 55 °C to + 125 °C
(3) DC current (A) that will cause an approximate T of 40 °C
(4) DC current (A) that will cause L to drop approximately 30 %
0
(5) The part temperature (ambient + temp. rise) should not exceed
125 °C under worst case operating conditions. Circuit design,
component placement, PWB trace size and thickness, airflow
and other cooling provisions all affect the part temperature. Part
temperature should be verified in the end application.
0.150
[3.8]
0.071 [1.8]
DESCRIPTION
IFSC-1515AH-01
3.3 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
F
S
PRODUCT FAMILY
Document Number: 34295
Revision: 04-Nov-10
C
1
5
1
5
SIZE
A
H
E
R
PACKAGE
CODE
3
R
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
3
M
TOL.
0
1
SERIES
www.vishay.com
149
IHSM-3825
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
• Flame retardant encapsulant (UL 94 V-0)
• Completely encapsulated winding provides
superior environmental protection and moisture
resistance
• High current unit in surface mount package printed with
model, inductance value and date code
• Compatible with infrared or conventional reflow soldering
methods
• Pick and place compatible
• Compliant to RoHS Directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
IND.
AT 1 kHz
(μH)
1.0
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
120.0
150.0
180.0
220.0
270.0
330.0
390.0
470.0
560.0
680.0
820.0
1000.0
DCR
MAX.
()
0.015
0.016
0.017
0.022
0.031
0.038
0.045
0.062
0.083
0.091
0.101
0.118
0.126
0.170
0.228
0.306
0.336
0.389
0.440
0.490
0.646
0.845
1.040
1.240
1.440
2.180
2.900
3.280
3.650
4.400
5.070
5.900
7.670
8.850
10.20
11.58
12.97
RATED
INCREMENTAL
CURRENT MAX. CURRENT APPROX.
(A)
(A)
5.11
4.41
4.93
4.11
4.63
3.66
4.27
3.22
3.61
2.62
3.18
2.40
2.94
2.13
2.57
2.05
2.17
1.93
2.08
1.79
1.94
1.62
1.83
1.50
1.74
1.36
1.50
1.26
1.29
1.11
1.13
1.05
1.05
0.96
0.98
0.86
0.92
0.75
0.86
0.72
0.74
0.68
0.65
0.64
0.61
0.58
0.56
0.51
0.48
0.42
0.45
0.40
0.38
0.37
0.36
0.33
0.34
0.28
0.29
0.26
0.27
0.23
0.23
0.20
0.22
0.19
0.21
0.17
0.18
0.15
0.17
0.14
0.16
0.13
APPLICATIONS
Excellent power line noise filters, filters for switching
regulated power supplies, DC/DC converters, SCR and triac
controls and RFI suppression.
ELECTRICAL SPECIFICATIONS
Inductance: Measured at 1 V with no DC current
Inductance Tolerance: ± 15 %
Incremental Current: The typical current at which the
inductance will be decreased by 5 % from its initial zero DC
value
Operating Temperature: - 55 °C to + 125 °C (no load);
- 55 °C to + 85 °C (at full rated current)
MECHANICAL SPECIFICATIONS
Core: High resistivity ferrite core
Encapsulant: Epoxy
Terminals: 100 % Sn over Ni
DIMENSIONS in inches [millimeters]
0.560 [14.224]
0.220
[5.588]
Recommended Pad Layout
0.220
[5.588]
0.200 [5.08]
0.180 [4.572]
0.180 [4.572]
0.170 ± 0.010
[4.32 ± 0.25]
0.440 [11.18]
Max.
0.225
[5.72]
Max.
0.075 ± 0.010
[1.91 ± 0.25]
0.380 ± 0.020
[9.65 ± 0.51]
0.250 [6.35]
Max.
PART MARKING
- Model
- Inductance value
- Date code
DESCRIPTION
IHSM-3825
3.9 μH
± 15 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
S
PRODUCT FAMILY
Document Number: 34018
Revision: 04-Feb-11
M
3
8
2
SIZE
5
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
3
R
INDUCTANCE
VALUE
9
L
TOL.
www.vishay.com
150
IHSM-4825
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
• Flame retardant encapsulant (UL 94 V-0)
• Completely encapsulated winding provides
superior environmental protection and moisture
resistance
• High current unit in surface mount package
printed with model, inductance value and date code
• Compatible with infrared or conventional reflow soldering
methods
• Pick and place compatible
• Tape and reel packaging for automatic handling
• Compliant to RoHS Directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
IND.
AT 1 kHz
(μH)
1.0
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
120.0
150.0
180.0
220.0
270.0
330.0
390.0
470.0
560.0
680.0
820.0
1000.0
DCR
MAX.
()
0.013
0.018
0.02
0.021
0.029
0.034
0.038
0.042
0.047
0.051
0.058
0.063
0.071
0.079
0.089
0.119
0.152
0.179
0.222
0.315
0.362
0.397
0.446
0.604
0.672
0.735
0.998
1.37
1.58
1.77
2.51
2.73
3.36
3.75
4.31
6.04
6.9
RATED
INCREMENTAL
CURRENT MAX. CURRENT APPROX.
(A)
(A)
8.6
4.1
7.6
3.8
6.9
3.5
6.5
3.2
5.7
2.9
5.1
2.6
4.6
2.4
4.3
2.2
4.0
2.0
3.8
1.9
3.5
1.7
3.3
1.5
3.1
1.4
2.7
1.3
2.3
1.2
1.9
1.1
1.7
1.02
1.6
0.95
1.3
0.88
1.19
0.8
1.07
0.74
0.95
0.68
0.87
0.62
0.8
0.56
0.73
0.5
0.66
0.45
0.58
0.4
0.5
0.35
0.46
0.32
0.41
0.3
0.37
0.28
0.34
0.26
0.32
0.24
0.3
0.23
0.28
0.2
0.26
0.17
0.24
0.15
APPLICATIONS
Excellent power line noise filters, filters for switching
regulated power supplies, DC/DC converters, SCR and triac
controls and RFI suppression.
ELECTRICAL SPECIFICATIONS
Inductance: Measured at 1 V with no DC current
Inductance Tolerance: ± 15 %
Incremental Current: The typical current at which the
inductance will be decreased by 5 % from its initial zero DC
value
Operating Temperature: - 55 °C to + 125 °C (no load);
- 55 °C to + 85 °C (at full rated current)
MECHANICAL SPECIFICATIONS
Core: High resistivity ferrite core
Encapsulant: Epoxy
Terminals: 100 % Sn over Ni
DIMENSIONS in inches [millimeters]
0.660 [16.764]
0.220
[5.588]
Recommended Pad Layout
0.220
[5.588]
0.300 [7.62]
0.180 [4.572]
0.180 [4.572]
0.170 ± 0.010
[4.32 ± 0.25]
0.540 [13.72]
Max.
0.225
[5.72]
Max.
0.075 ± 0.010
[1.91 ± 0.25]
0.480 ± 0.020
[12.19 ± 0.51]
0.250 [6.35]
Max.
PART MARKING
- Model
- Inductance value
- Date code
DESCRIPTION
IHSM-4825
MODEL
3.9 μH
INDUCTANCE VALUE
± 15 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
S
PRODUCT FAMILY
Document Number: 34019
Revision: 04-Feb-11
M
4
8
2
SIZE
5
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
3
R
INDUCTANCE
VALUE
9
L
TOL.
www.vishay.com
151
IHSM-5832
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
• Flame retardant encapsulant (UL 94 V-0)
• Completely encapsulated winding provides
superior environmental protection and moisture
resistance
• High current unit in surface mount package
printed with model, inductance value and date
code
• Compatible with infrared or conventional reflow soldering
methods
• Pick and place compatible
• Tape and reel packaging for automatic handling
• Compliant to RoHS Directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
INCREMENTAL
RATED
DCR
IND. AT
CURRENT APPROX.
CURRENT
MAX.
1 kHz
(A)
MAX. (A)
()
(μH)
1.0
0.010
9.0
6.2
1.2
0.011
8.8
5.6
1.5
0.012
8.7
5.0
1.8
0.013
8.6
4.4
2.2
0.015
8.5
4.0
2.7
0.017
8.4
3.7
3.3
0.020
8.3
3.4
3.9
0.021
7.9
3.1
4.7
0.023
7.4
2.8
5.6
0.024
7.0
2.6
6.8
0.038
6.1
2.3
8.2
0.047
5.1
2.0
10.0
0.053
4.3
1.8
12.0
0.068
3.9
1.7
15.0
0.078
3.5
1.6
18.0
0.083
3.2
1.5
22.0
0.12
2.8
1.3
27.0
0.14
2.3
1.2
33.0
0.17
1.9
1.1
39.0
0.19
1.8
1.03
47.0
0.215
1.77
0.93
56.0
0.236
1.71
0.90
68.0
0.305
1.43
0.82
82.0
0.357
1.14
0.75
100.0
0.452
0.95
0.68
120.0
0.530
0.88
0.63
150.0
0.609
0.82
0.58
180.0
0.809
0.75
0.54
220.0
1.10
0.69
0.48
270.0
1.27
0.64
0.43
330.0
1.42
0.59
0.38
390.0
1.89
0.54
0.34
470.0
2.21
0.49
0.31
560.0
2.42
0.46
0.28
680.0
2.73
0.43
0.25
820.0
3.78
0.40
0.23
1000.0
4.20
0.37
0.21
1200.0
5.51
0.32
0.19
1500.0
7.35
0.29
0.17
1800.0
8.66
0.25
0.16
2200.0
9.71
0.22
0.14
2700.0
11.29
0.20
0.13
3300.0
15.60
0.18
0.12
3900.0
20.74
0.16
0.11
4700.0
23.10
0.14
0.10
Note
• Contact factory for values above 47 000 μH
APPLICATIONS
Excellent power line noise filters, filters for switching
regulated power supplies, DC/DC converters, SCR and triac
controls and RFI suppression.
ELECTRICAL SPECIFICATIONS
Inductance: Measured at 1 V with no DC current
Inductance Tolerance: ± 15 %
Incremental Current: The typical current at which the
inductance will be decreased by 5 % from its initial zero DC
value
Operating Temperature: - 55 °C to + 125 °C (no load);
- 55 °C to + 85 °C (at full rated current)
MECHANICAL SPECIFICATIONS
Core: High resistivity ferrite core
Encapsulant: Epoxy
Terminals: 100 % Sn over Ni
DIMENSIONS in inches [millimeters]
0.865 [21.971]
0.290
[7.366]
Recommended Pad Layout
0.290
[7.366]
0.345 [8.763]
0.260 [6.604]
0.260 [6.604]
0.640 [16.26]
Max.
0.215 ± 0.005
[5.46 ± 0.13]
0.285
[7.24]
Max.
0.100 ± 0.010
[2.54 ± 0.25]
0.580 ± 0.020
[14.73 ± 0.51]
0.320 [8.13]
Max.
PART MARKING
- Model
- Inductance value
- Date code
DESCRIPTION
IHSM-5832
MODEL
3.9 μH
INDUCTANCE VALUE
± 15 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
S
PRODUCT FAMILY
Document Number: 34020
Revision: 04-Feb-11
M
5
8
3
SIZE
2
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
3
R
INDUCTANCE
VALUE
9
L
TOL.
www.vishay.com
152
IHSM-7832
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
• Flame retardant encapsulant (UL 94 V-0)
• Completely encapsulated winding provides
superior environmental protection and mooisture
resistance
• High current unit in surface mount package
printed with model, inductance value and date
code
• Compatible with infrared or conventional reflow soldering
methods
• Pick and place compatible
• Compliant to RoHS directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
IND. AT DCR MAX. RATED CURRENT
INCREMENTAL
1 kHz (μH)
()
MAX. (A)
CURRENT APPROX. (A)
1.0
0.011
9.0
5.3
1.2
0.012
8.8
4.8
1.5
0.012
8.6
4.4
1.8
0.013
8.5
4.0
2.2
0.014
8.4
3.6
2.7
0.016
8.2
3.2
3.3
0.017
8.1
2.8
3.9
0.02
7.3
2.6
4.7
0.023
6.7
2.4
5.6
0.025
6.0
2.3
6.8
0.028
5.6
2.1
8.2
0.032
5.3
1.9
10.0
0.036
5.0
1.7
12.0
0.04
4.8
1.5
15.0
0.043
4.5
1.4
18.0
0.047
4.2
1.3
22.0
0.054
3.8
1.2
27.0
0.074
3.4
1.1
33.0
0.084
3.0
0.99
39.0
0.095
2.8
0.93
47.0
0.12
2.6
0.87
56.0
0.14
2.4
0.82
68.0
0.16
2.1
0.76
82.0
0.184
1.9
0.72
100.0
0.226
1.7
0.68
120.0
0.305
1.5
0.61
150.0
0.362
1.4
0.54
180.0
0.399
1.3
0.48
220.0
0.536
1.1
0.44
270.0
0.599
0.95
0.4
330.0
0.714
0.86
0.36
390.0
0.819
0.8
0.33
470.0
1.1
0.74
0.31
560.0
1.2
0.68
0.29
680.0
1.58
0.63
0.26
820.0
2.08
0.573
0.23
1000.0
2.42
0.51
0.21
1200.0
2.68
0.46
0.19
1500.0
3.15
0.4
0.17
1800.0
4.2
0.34
0.15
2200.0
4.62
0.31
0.135
2700.0
6.3
0.29
0.12
3300.0
7.09
0.27
0.11
3900.0
9.14
0.25
0.1
4700.0
10.6
0.23
0.09
5600.0
11.8
0.21
0.08
6800.0
15.8
0.19
0.0775
8200.0
21.8
0.17
0.0725
10 000.0
24.6
0.16
0.07
12 000.0
28.4
0.14
0.0625
15 000.0
37.8
0.12
0.055
18 000.0
44.1
0.11
0.05
APPLICATIONS
Excellent power line noise filters, filters for switching
regulated power supplies, DC/DC converters, SCR and triac
controls and RFI suppression.
ELECTRICAL SPECIFICATIONS
Inductance: Measured at 1 V with no DC current
Inductance Tolerance: ± 15 %
Incremental Current: The typical current at which the
inductance will be decreased by 5 % from its initial zero DC
value
Operating Temperature: - 55 °C to + 125 °C (no load);
- 55 °C to + 85 °C (at full rated current)
MECHANICAL SPECIFICATIONS
Core: High resistivity ferrite core
Encapsulant: Epoxy
Terminals: 100 % Sn over Ni
DIMENSIONS in inches [millimeters]
Recommended Pad Layout
1.05 [26.67]
0.290
[7.366]
0.290
[7.366]
0.530 [13.462]
0.260 [6.604]
0.260 [6.604]
0.215 ± 0.005
[5.46 ± 0.13]
0.840 [21.34]
Max.
0.285
[7.24]
Max.
0.100 ± 0.010
[2.54 ± 0.25]
0.780 ± 0.020
[19.81 ± 0.51]
0.320 [8.13]
Max.
PART MARKING
- Model
- Inductance value
- Date code
DESCRIPTION
IHSM-7832
MODEL
3.9 μH
INDUCTANCE VALUE
± 15 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
H
S
PRODUCT FAMILY
Document Number: 34021
Revision: 05-Feb-11
M
7
8
3
SIZE
2
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
3
R
INDUCTANCE
VALUE
9
L
TOL.
www.vishay.com
153
IDC-2512
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
•
•
•
•
•
High energy storage
Low resistance
Tape and reel packaging for automatic handling
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
MECHANICAL SPECIFICATIONS
Inductance Range: 1.0 μH to 1000 μH, tested at 1.0 VRMS
Inductance Tolerance: 20 %, tighter tolerance available
upon request
Operating Temperature: - 40 °C to + 125 °C
Resistance to Solder Heat: 260 °C for 10 s
Core: Ferrite
Wire: Enamelled copper wire
Base: Ceramic
Terminals: Gold over nickel
Adhesive: Epoxy resin
STANDARD ELECTRICAL SPECIFICATIONS
INDUCTANCE (μH)
TOLERANCE
1.0
± 20 %
1.5
± 20 %
2.2
± 20 %
3.3
± 20 %
4.7
± 20 %
6.8
± 20 %
10
± 20 %
15
± 20 %
22
± 20 %
33
± 20 %
47
± 20 %
68
± 20 %
100
± 20 %
150
± 20 %
220
± 20 %
330
± 20 %
470
± 20 %
680
± 20 %
1000
± 20 %
Notes
• Inductance drop = 10 % typ. at ISAT
• T = 15 °C typ. at IRMS
TEST FREQUENCY L (kHz)
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
DCR MAX. ()
0.05
0.05
0.07
0.08
0.09
0.13
0.16
0.23
0.37
0.51
0.64
0.86
1.27
2.00
3.11
3.80
5.06
9.20
13.8
ISAT (A)
2.9
2.6
2.3
2.0
1.5
1.2
1.1
0.90
0.70
0.58
0.50
0.40
0.31
0.27
0.22
0.18
0.16
0.14
0.10
IRMS (A)
2.9
2.8
2.4
2.0
1.5
1.4
1.1
1.2
0.80
0.60
0.50
0.40
0.30
0.25
0.20
0.16
0.15
0.12
0.07
DIMENSIONS in inches [millimeters]
A Max.
G
A (Max.)
0.260 [6.60]
B (Max.)
0.175 [4.45]
D (Max.)
0.115 [2.92]
E
0.050 [1.27]
J
E
D
Max.
B
Max.
F
0.040 [1.02]
F
G
0.170 [4.32]
I
H
0.055 [1.40]
I
0.160 [4.06]
H
J
0.140 [3.56]
DESCRIPTION
IDC-2512
MODEL
10 μH
INDUCTANCE VALUE
± 20 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e4
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
D
PRODUCT
FAMILY
Document Number: 34006
Revision: 03-Feb-11
C
2
5
1
SIZE
2
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
0
INDUCTANCE
VALUE
M
TOL.
www.vishay.com
154
IDC-5020
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
•
•
•
•
•
High energy storage
Low resistance
Tape and reel packaging for automatic handling
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
MECHANICAL SPECIFICATIONS
Inductance Range: 1.0 μH to 1000 μH, tested at 1.0 VRMS
Inductance Tolerance: 20 %, tighter tolerance available
upon request
Operating Temperature: - 40 °C to + 125 °C
Resistance to Solder Heat: 260 °C for 10 s
Core: Ferrite
Wire: Enamelled copper wire
Base: LCP
Terminals: Nickel bronze
Adhesive: Epoxy resin
STANDARD ELECTRICAL SPECIFICATIONS
INDUCTANCE (μH)
TOLERANCE
1.0
± 20 %
1.5
± 20 %
2.2
± 20 %
3.3
± 20 %
4.7
± 20 %
6.8
± 20 %
10
± 20 %
15
± 20 %
22
± 20 %
33
± 20 %
47
± 20 %
68
± 20 %
100
± 20 %
150
± 20 %
220
± 20 %
330
± 20 %
470
± 20 %
680
± 20 %
1000
± 20 %
Notes
• Inductance drop = 10 % typ. at ISAT
• T = 15 °C typ. at IRMS
TEST FREQUENCY L (kHz)
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
DCR MAX. ()
0.009
0.010
0.012
0.015
0.018
0.027
0.038
0.046
0.085
0.10
0.14
0.20
0.28
0.40
0.61
1.02
1.27
2.02
3.00
ISAT (A)
9.0
8.0
7.0
6.4
5.4
4.6
3.8
3.0
2.6
2.0
1.6
1.4
1.2
1.0
0.8
0.6
0.5
0.4
0.3
IRMS (A)
6.8
6.4
6.1
5.4
4.8
4.4
3.9
3.1
2.7
2.1
1.8
1.5
1.3
1.0
0.8
0.6
0.5
0.4
0.3
DIMENSIONS in inches [millimeters]
F
A Max.
H
D
Max.
B
Max.
J
E
I
G
A (Max.)
0.510 [12.95]
B (Max.)
0.370 [9.40]
D (Max.)
0.205 [5.21]
E
0.100 [2.54]
F
0.100 [2.54]
G
0.300 [7.62]
H
0.115 [2.92]
I
0.290 [7.37]
J
0.110 [2.79]
DESCRIPTION
IDC-5020
10 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
D
PRODUCT
FAMILY
Document Number: 34007
Revision: 03-Feb-11
C
5
0
2
SIZE
0
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
0
INDUCTANCE
VALUE
M
TOL
www.vishay.com
155
IDC-7328
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
•
•
•
•
•
High energy storage
Low resistance
Tape and reel packaging for automatic handling
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
MECHANICAL SPECIFICATIONS
Inductance Range: 1.0 μH to 1000 μH, tested at 1.0 VRMS
Inductance Tolerance: 20 %, tighter tolerance available
upon request
Operating Temperature: - 40 °C to + 125 °C
Resistance to Solder Heat: 260 °C for 10 s
Core: Ferrite
Wire: Enamelled copper wire
Base: LCP
Terminals: Nickel bronze
Adhesive: Epoxy resin
STANDARD ELECTRICAL SPECIFICATIONS
INDUCTANCE (μH)
1.0
2.2
3.3
5.6
10
15
22
33
47
68
100
150
220
330
470
680
1000
TOLERANCE
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
TEST FREQUENCY L (kHz)
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
DCR MAX. ()
0.009
0.014
0.018
0.020
0.031
0.036
0.047
0.066
0.086
0.13
0.19
0.25
0.38
0.56
0.85
1.1
1.8
ISAT (A)
20.0
16.0
14.0
12.0
10.0
8.0
7.0
5.5
4.5
3.5
3.0
2.6
2.4
1.9
1.4
1.2
1.0
IRMS (A)
8.6
7.1
6.2
5.3
4.3
4.0
3.5
3.0
2.6
2.3
1.8
1.5
1.2
1.0
0.82
0.72
0.56
Notes
• Inductance drop = 10 % typ. at ISAT
• T = 40 °C typ. at IRMS
DIMENSIONS in inches [millimeters]
F
A Max.
H
D
Max.
B
Max.
J
E
I
G
A (Max.)
0.730 [18.54]
B (Max.)
0.600 [15.24]
D (Max.)
0.280 [7.11]
E
0.100 [2.54]
F
0.100 [2.54]
G
0.500 [12.70]
H
0.115 [2.92]
I
0.490 [12.45]
J
0.110 [2.79]
DESCRIPTION
IDC-7328
10 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
D
PRODUCT
FAMILY
Document Number: 34008
Revision: 03-Mar-11
C
7
3
2
SIZE
8
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
0
INDUCTANCE
VALUE
M
TOL.
www.vishay.com
156
IDCS-2512
Vishay Dale
High Current, Shielded, Surface Mount Inductors
FEATURES
•
•
•
•
•
•
High energy storage
Low resistance
Magnetically shielded
Tape and reel packaging for automatic handling
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
MECHANICAL SPECIFICATIONS
Inductance Range: 1.0 μH to 10 000 μH, tested at 1.0 VRMS
Inductance Tolerance: 20 %, tighter tolerance available
upon request
Operating Temperature: - 40 °C to + 125 °C
Resistance to Solder Heat: 260 °C for 10 s
Core: Ferrite
Wire: Enamelled copper wire
Base: Ceramic
Terminals: Gold over nickel
Adhesive: Epoxy resin
STANDARD ELECTRICAL SPECIFICATIONS
INDUCTANCE (μH)
1.0
1.5
2.2
3.3
4.7
6.8
10
15
22
33
47
68
100
150
220
330
470
680
1000
1500
2200
3300
4700
6800
10 000
Notes
(1) 30 °C temperature rise
TOLERANCE
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
TEST FREQUENCY L (kHz)
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
RATED DC CURRENT (A) (1)
3.0
2.8
1.8
1.6
1.4
1.2
1.0
0.80
0.70
0.60
0.50
0.40
0.30
0.26
0.22
0.20
0.19
0.18
0.15
0.12
0.10
0.08
0.06
0.04
0.02
DCR MAX. ()
0.040
0.045
0.050
0.055
0.060
0.065
0.075
0.090
0.11
0.19
0.23
0.29
0.48
0.59
0.77
1.4
1.8
2.2
3.4
4.2
8.5
11.0
13.9
25.0
32.8
DIMENSIONS in inches [millimeters]
A Max.
F
G
A (Max.)
0.260 [6.60]
B (Max.)
0.175 [4.45]
D (Max.)
0.115 [2.92]
E
0.050 [1.27]
J
E
D
Max.
B
Max.
F
0.040 [1.02]
G
0.170 [4.32]
I
H
0.055 [1.40]
H
I
0.160 [4.06]
J
0.140 [3.56]
DESCRIPTION
IDCS-2512
MODEL
10 μH
INDUCTANCE VALUE
± 20 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e4
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
D
C
PRODUCT FAMILY
Document Number: 34009
Revision: 03-Feb-11
S
2
5
1
SIZE
2
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
INDUCTANCE
VALUE
0
M
INDUCTANCE
TOLERANCE
www.vishay.com
157
IDCS-5020
Vishay Dale
High Current, Shielded, Surface Mount Inductors
FEATURES
•
•
•
•
•
•
High energy storage
Low resistance
Magnetically shielded
Tape and reel packaging for automatic handling
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
MECHANICAL SPECIFICATIONS
Inductance Range: 1.0 μH to 390.0 μH, tested at 1.0 VRMS
Inductance Tolerance: 20 %, tighter tolerance available
upon request
Operating Temperature: - 40 °C to + 125 °C
Resistance to Solder Heat: 260 °C for 10 s
Core: Ferrite
Wire: Enamelled copper wire
Base: LCP
Terminals: Nickel bronze
Adhesive: Epoxy resin
STANDARD ELECTRICAL SPECIFICATIONS
INDUCTANCE (μH)
TOLERANCE
1.0
± 20 %
1.5
± 20 %
2.2
± 20 %
3.3
± 20 %
4.7
± 20 %
6.8
± 20 %
10
± 20 %
15
± 20 %
22
± 20 %
33
± 20 %
47
± 20 %
56
± 20 %
68
± 20 %
82
± 20 %
100
± 20 %
120
± 20 %
150
± 20 %
180
± 20 %
220
± 20 %
270
± 20 %
330
± 20 %
390
± 20 %
Notes
• Inductance drop = 10 % typ. at ISAT
• T = 15 °C typ. at IRMS
TEST FREQUENCY L (kHz)
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
DCR MAX. ()
0.021
0.022
0.032
0.039
0.054
0.075
0.101
0.150
0.207
0.334
0.472
0.210
0.340
0.380
0.420
0.460
0.520
0.700
0.800
1.100
1.200
1.400
ISAT (A)
5.6
5.2
5.0
3.9
3.2
2.8
2.4
2.0
1.6
1.4
1.0
0.95
0.90
0.85
0.80
0.70
0.60
0.65
0.50
0.45
0.40
0.35
IRMS (A)
5.0
4.5
3.8
3.3
2.7
2.2
2.0
1.5
1.3
1.1
0.80
0.90
0.82
0.75
0.68
0.60
0.55
0.50
0.45
0.40
0.35
0.33
DIMENSIONS in inches [millimeters]
A
Max.
F
H
D
Max.
B
Max.
J
E
I
G
A (Max.)
0.510 [12.95]
B (Max.)
0.370 [9.40]
D (Max.)
0.200 [5.08]
E
0.100 [2.54]
F
0.100 [2.54]
G
0.300 [7.62]
H
0.115 [2.92]
I
0.290 [7.37]
J
0.110 [2.79]
DESCRIPTION
IDCS-5020
MODEL
10 μH
INDUCTANCE VALUE
± 20 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
D
C
PRODUCT FAMILY
Document Number: 34010
Revision: 04-Apr-11
S
5
0
2
SIZE
0
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
INDUCTANCE
VALUE
0
M
INDUCTANCE
TOLERANCE
www.vishay.com
158
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IDCS-7328
Vishay Dale
High Current, Shielded, Surface Mount Inductors
FEATURES
•
•
•
•
•
•
High energy storage
Low resistance
Magnetically shielded
Tape and reel packaging for automatic handling
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
MECHANICAL SPECIFICATIONS
Inductance Range: 10 μH to 1000 μH, tested at 1.0 VRMS
Inductance Tolerance: 20 %, tighter tolerance available
upon request
Operating Temperature: - 40 °C to + 125 °C
Resistance to Solder Heat: 260 °C for 10 s
Core: Ferrite
Wire: Enamelled copper wire
Base: LCP
Terminals: Nickel bronze
Adhesive: Epoxy resin
STANDARD ELECTRICAL SPECIFICATIONS
INDUCTANCE (μH)
10
15
22
33
47
68
100
150
220
330
470
680
1000
TOLERANCE
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
TEST FREQUENCY L (kHz)
100
100
100
100
100
100
100
100
100
100
100
100
100
DCR MAX. ()
0.040
0.048
0.059
0.075
0.097
0.138
0.207
0.293
0.47
0.78
1.08
1.40
2.01
ISAT (A)
8.0
7.0
6.0
5.0
4.0
3.0
2.4
2.1
1.9
1.1
1.1
0.96
0.80
IRMS (A)
3.9
3.4
3.1
2.8
2.4
2.0
1.7
1.3
1.1
0.86
0.73
0.64
0.53
Notes
• Inductance drop = 10 % typ. at ISAT
• T = 40 °C typ. at IRMS
DIMENSIONS in inches [millimeters]
A
Max.
F
H
D
Max.
B
Max.
J
E
I
G
A (Max.)
B (Max.)
D (Max.)
E
F
G
H
I
J
0.730 [18.54]
0.600 [15.24]
0.300 [7.62]
0.100 [2.54]
0.100 [2.54]
0.500 [12.70]
0.115 [2.92]
0.490 [12.45]
0.110 [2.79]
DESCRIPTION
IDCS-7328
10 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
D
C
PRODUCT FAMILY
Document Number: 34011
Revision: 04-Feb-11
S
7
3
2
SIZE
8
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
INDUCTANCE
VALUE
0
M
INDUCTANCE
TOLERANCE
www.vishay.com
159
IDCP-1813
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
•
•
•
•
•
High energy storage
Low resistance
Tape and reel packaging for automatic handling
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
MATERIALS
Inductance Range: 1.0 μH to 68 μH
Inductance Tolerance: 20 %
Operating Temperature: - 25 °C to + 105 °C
Storage Temperature: - 40 °C to + 125 °C
Resistance to Solder Heat: 260 °C for 10 s
Core: Ferrite
Wire: Enamelled copper wire
Terminals: Ag and Sn/Ag/Cu
STANDARD ELECTRICAL SPECIFICATIONS
DIMENSIONS in inches [millimeters]
RATED DC
CURRENT
(A) (1)
3.80
3.30
2.91
2.60
2.43
2.15
1.98
1.70
1.60
1.41
1.26
1.15
1.05
0.92
0.84
0.76
0.71
0.64
0.59
0.54
0.50
0.46
TEST
INDUCTANCE
FREQUENCY
DCR MAX.
(μH)
L
()
1.0
7.96 MHz
0.033
1.4
7.96 MHz
0.038
1.8
7.96 MHz
0.042
2.2
7.96 MHz
0.047
2.7
7.96 MHz
0.052
3.3
7.96 MHz
0.058
3.9
7.96 MHz
0.076
4.7
7.96 MHz
0.094
5.6
7.96 MHz
0.101
6.8
7.96 MHz
0.117
8.2
7.96 MHz
0.132
10.0
2.52 MHz
0.182
12.0
2.52 MHz
0.210
15.0
2.52 MHz
0.235
18.0
2.52 MHz
0.338
22.0
2.52 MHz
0.378
27.0
2.52 MHz
0.522
33.0
2.52 MHz
0.540
39.0
2.52 MHz
0.587
47.0
2.52 MHz
0.844
56.0
2.52 MHz
0.937
68.0
2.52 MHz
1.117
Note
(1) Rated Current: Value obtained when current flows and the
temperature has risen 40 °C or when DC current flows and the
initial value of inductance has fallen by 10 %, whichever is
smaller.
B
A
C
D
E
F
E
TYPICAL PAD LAYOUT
A
B
C
0.178 ± 0.01
[4.5 ± 0.3]
0.126 ± 0.01
[3.2 ± 0.3]
0.158 ± 0.01
[4.0 ± 0.3]
D
E
F
0.178 [4.5]
0.069 [1.75]
0.059 [1.5]
DESCRIPTION
IDCP-1813
10 μH
± 20 %
ER
e1
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
D
C
PRODUCT FAMILY
Document Number: 34094
Revision: 24-Feb-11
P
1
8
1
SIZE
3
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
INDUCTANCE
VALUE
0
M
INDUCTANCE
TOLERANCE
www.vishay.com
160
IDCP-2218
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
•
•
•
•
•
High energy storage
Low resistance
Tape and reel packaging for automatic handling
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
MATERIALS
Inductance Range: 10 μH to 220 μH
Inductance Tolerance: 20 %
Operating Temperature: - 25 °C to + 105 °C
Storage Temperature: - 40 °C to + 125 °C
Resistance to Solder Heat: 260 °C for 10 s
Core: Ferrite
Wire: Enamelled copper wire
Terminals: Ni and Sn/Ag/Cu
STANDARD ELECTRICAL SPECIFICATIONS
INDUCTANCE
(μH)
TEST
FREQUENCY
L
DCR MAX.
()
RATED DC
CURRENT
(A) (1)
10.0
2.52 MHz
0.10
1.44
12.0
2.52 MHz
0.12
1.40
15.0
2.52 MHz
0.14
1.30
18.0
2.52 MHz
0.15
1.23
22.0
2.52 MHz
0.18
1.11
27.0
2.52 MHz
0.20
0.97
33.0
2.52 MHz
0.23
0.88
39.0
2.52 MHz
0.32
0.80
47.0
2.52 MHz
0.37
0.72
56.0
2.52 MHz
0.42
0.68
68.0
2.52 MHz
0.46
0.61
82.0
2.52 MHz
0.60
0.58
100.0
1 kHz
0.70
0.52
120.0
1 kHz
0.93
0.48
150.0
1 kHz
1.10
0.40
180.0
1 kHz
1.38
0.38
220.0
1 kHz
1.57
0.35
DIMENSIONS in inches [millimeters]
B
A
C
D
E
F
E
TYPICAL PAD LAYOUT
Note
(1) Rated Current: Value obtained when current flows and the
temperature has risen 40 °C or when DC current flows and the
initial value of inductance has fallen by 10 %, whichever is
smaller.
A
B
C
0.229 ± 0.01
[5.8 ± 0.3]
0.177 ± 0.01
[4.5 ± 0.3]
0.205 ± 0.01
[5.2 ± 0.3]
D
E
F
0.217 [5.5]
0.085 [2.15]
0.067 [1.7]
DESCRIPTION
IDCP-2218
10 μH
± 20 %
ER
e1
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
D
C
PRODUCT FAMILY
Document Number: 34096
Revision: 24-Feb-11
P
2
2
1
SIZE
8
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
INDUCTANCE
VALUE
0
M
INDUCTANCE
TOLERANCE
www.vishay.com
161
IDCP-3020
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
•
•
•
•
•
High energy storage
Low resistance
Tape and reel packaging for automatic handling
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
MATERIALS
Inductance Range: 10 μH to 470 μH
Inductance Tolerance: 20 %
Operating Temperature: - 25 °C to + 105 °C
Storage Temperature: - 40 °C to + 125 °C
Resistance to Solder Heat: 260 °C for 10 s
Core: Ferrite
Wire: Enamelled copper wire
Terminals: Ni and Sn/Ag/Cu
STANDARD ELECTRICAL SPECIFICATIONS
DIMENSIONS in inches [millimeters]
RATED DC
CURRENT
(A) (1)
2.30
2.00
1.80
1.60
1.50
1.30
1.20
1.10
1.10
0.94
0.85
0.78
0.72
0.66
0.58
0.51
0.49
0.42
0.40
0.36
0.34
TEST
INDUCTANCE
FREQUENCY
DCR MAX.
(μH)
L
()
10.0
2.52 MHz
0.07
12.0
2.52 MHz
0.08
15.0
2.52 MHz
0.09
18.0
2.52 MHz
0.10
22.0
2.52 MHz
0.11
27.0
2.52 MHz
0.12
33.0
2.52 MHz
0.13
39.0
2.52 MHz
0.16
47.0
2.52 MHz
0.18
56.0
2.52 MHz
0.24
68.0
2.52 MHz
0.28
82.0
2.52 MHz
0.37
100.0
1 kHz
0.43
120.0
1 kHz
0.47
150.0
1 kHz
0.64
180.0
1 kHz
0.71
220.0
1 kHz
0.96
270.0
1 kHz
1.11
330.0
1 kHz
1.26
390.0
1 kHz
1.77
470.0
1 kHz
1.96
Note
(1) Rated Current: Value obtained when current flows and the
temperature has risen 40 °C or when DC current flows and the
initial value of inductance has fallen by 10 %, whichever is
smaller.
B
A
C
D
E
F
E
TYPICAL PAD LAYOUT
A
B
C
0.307 ± 0.01
[7.8 ± 0.3]
0.197 ± 0.02
[5.0 ± 0.5]
0.276 ± 0.01
[7.0 ± 0.3]
D
E
F
0.296 [7.5]
0.118 [3.0]
0.079 [2.0]
DESCRIPTION
IDCP-3020
10 μH
± 20 %
ER
e1
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
D
C
PRODUCT FAMILY
Document Number: 34092
Revision: 24-Feb-11
P
3
0
2
SIZE
0
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
INDUCTANCE
VALUE
0
M
INDUCTANCE
TOLERANCE
www.vishay.com
162
IDCP-3114
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
•
•
•
•
•
High energy storage
Low resistance
Tape and reel packaging for automatic handling
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
MATERIALS
Inductance Range: 10 μH to 330 μH
Inductance Tolerance: 20 %
Operating Temperature: - 25 °C to + 105 °C
Storage Temperature: - 40 °C to + 125 °C
Resistance to Solder Heat: 260 °C for 10 s
Core: Ferrite
Wire: Enamelled copper wire
Terminals: Ni and Sn/Ag/Cu
STANDARD ELECTRICAL SPECIFICATIONS
INDUCTANCE
(μH)
TEST
FREQUENCY
L
DCR MAX.
()
RATED DC
CURRENT
(A) (1)
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
120.0
150.0
180.0
220.0
270.0
330.0
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
0.08
0.09
0.10
0.11
0.13
0.15
0.17
0.22
0.25
0.28
0.33
0.41
0.48
0.54
0.75
1.02
1.20
1.31
1.50
1.44
1.39
1.24
1.12
1.07
0.94
0.85
0.74
0.68
0.64
0.59
0.54
0.51
0.49
0.40
0.36
0.31
0.29
0.28
DIMENSIONS in inches [millimeters]
B
A
C
D
E
F
E
TYPICAL PAD LAYOUT
Note
(1) Rated Current: Value obtained when current flows and the
temperature has risen 40 °C or when DC current flows and the
initial value of inductance has fallen by 10 %, whichever is
smaller.
A
B
C
0.307 ± 0.01
[7.8 ± 0.3]
0.138 ± 0.02
[3.5 ± 0.5]
0.276 ± 0.01
[7.0 ± 0.3]
D
E
F
0.296 [7.5]
0.118 [3.0]
0.079 [2.0]
DESCRIPTION
IDCP-3114
10 μH
± 20 %
ER
e1
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
D
C
PRODUCT FAMILY
Document Number: 34091
Revision: 24-Feb-11
P
3
1
1
SIZE
4
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
INDUCTANCE
VALUE
0
M
INDUCTANCE
TOLERANCE
www.vishay.com
163
IDCP-3722
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
•
•
•
•
•
High energy storage
Low resistance
Tape and reel packaging for automatic handling
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
MATERIALS
Inductance Range: 10 μH to 820 μH
Inductance Tolerance: 20 %
Operating Temperature: - 25 °C to + 105 °C
Storage Temperature: - 40 °C to + 125 °C
Resistance to Solder Heat: 260 °C for 10 s
Core: Ferrite
Wire: Enamelled copper wire
Terminals: Ni and Sn/Ag/Cu
STANDARD ELECTRICAL SPECIFICATIONS
TEST
FREQUENCY
L
2.52 MHz
2.25 MHz
2.25 MHz
2.25 MHz
2.25 MHz
2.25 MHz
2.25 MHz
2.25 MHz
2.25 MHz
2.25 MHz
2.25 MHz
2.25 MHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
DIMENSIONS in inches [millimeters]
RATED DC
CURRENT
(A) (1)
2.60
2.45
2.27
2.15
1.95
1.76
1.50
1.37
1.28
1.17
1.11
1.00
0.97
0.89
0.78
0.72
0.66
0.57
0.52
0.48
0.42
0.33
0.28
0.24
INDUCTANCE
DCR MAX.
(μH)
()
10.0
0.06
12.0
0.07
15.0
0.08
18.0
0.09
22.0
0.10
27.0
0.11
33.0
0.12
39.0
0.14
47.0
0.17
56.0
0.19
68.0
0.22
82.0
0.25
100.0
0.35
120.0
0.40
150.0
0.47
180.0
0.63
220.0
0.73
270.0
0.97
330.0
1.15
390.0
1.30
470.0
1.48
560.0
1.90
680.0
2.25
820.0
2.55
Note
(1) Rated Current: Value obtained when current flows and the
temperature has risen 40 °C or when DC current flows and the
initial value of inductance has fallen by 10 %, whichever is smaller.
B
A
C
D
E
F
E
TYPICAL PAD LAYOUT
A
B
C
0.394 ± 0.02
[10.0 ± 0.4]
0.213 ± 0.02
[5.4 ± 0.4]
0.355 ± 0.02
[9.0 ± 0.4]
D
E
F
0.374 [9.5]
0.148 [3.75]
0.099 [2.5]
DESCRIPTION
IDCP-3722
MODEL
10 μH
INDUCTANCE VALUE
± 20 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e1
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
D
C
PRODUCT FAMILY
Document Number: 34090
Revision: 24-Feb-11
P
3
7
2
SIZE
2
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
INDUCTANCE
VALUE
0
M
INDUCTANCE
TOLERANCE
www.vishay.com
164
IDCP-3916
Vishay Dale
High Current, Surface Mount Inductors
FEATURES
•
•
•
•
•
High energy storage
Low resistance
Tape and reel packaging for automatic handling
Compliant to RoHS Directive 2002/95/EC
Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
MATERIALS
Inductance Range: 10 μH to 560 μH
Inductance Tolerance: 20 %
Operating Temperature: - 25 °C to + 105 °C
Storage Temperature: - 40 °C to + 125 °C
Resistance to Solder Heat: 260 °C for 10 s
Core: Ferrite
Wire: Enamelled copper wire
Terminals: Ni and Sn/Ag/Cu
STANDARD ELECTRICAL SPECIFICATIONS
TEST
FREQUENCY
L
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
2.52 MHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
1 kHz
DCR
MAX.
()
0.05
0.06
0.07
0.08
0.09
0.10
0.12
0.15
0.17
0.20
0.22
0.25
0.34
0.40
0.54
0.62
0.72
0.95
1.10
1.24
1.53
1.90
DIMENSIONS in inches [millimeters]
RATED DC
CURRENT
(A) (1)
2.38
2.13
1.87
1.73
1.60
1.44
1.26
1.20
1.10
1.01
0.91
0.85
0.74
0.69
0.61
0.56
0.53
0.45
0.42
0.38
0.35
0.32
INDUCTANCE
(μH)
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
120.0
150.0
180.0
220.0
270.0
330.0
390.0
470.0
560.0
Note
(1) Rated Current: Value obtained when current flows and the
temperature has risen 40 °C or when DC current flows and the
initial value of inductance has fallen by 10 %, whichever is
smaller.
B
A
C
D
E
F
E
TYPICAL PAD LAYOUT
A
B
C
0.394 ± 0.01
[10.0 ± 0.3]
0.158 ± 0.02
[4.0 ± 0.5]
0.355 ± 0.01
[9.0 ± 0.3]
D
E
F
0.374 [9.5]
0.148 [3.75]
0.099 [2.5]
DESCRIPTION
IDCP-3916
MODEL
10 μH
INDUCTANCE VALUE
± 20 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e1
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
D
C
PRODUCT FAMILY
Document Number: 34131
Revision: 28-Feb-11
P
3
9
1
SIZE
6
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
INDUCTANCE
VALUE
0
M
INDUCTANCE
TOLERANCE
www.vishay.com
165
Contents
IFCB-0402............................. 167
IFCB-0603............................. 168
ILC-0402 ............................... 169
ILC-0603 ............................... 170
High
Frequency
Inductors
ILC-0805 ............................... 171
IMC-0402 .............................. 172
IMC-0603 .............................. 173
IFCB-0402
Vishay Dale
Thin Film Chip Inductors
FEATURES
•
•
•
•
•
Tight tolerance
Self-resonant frequency controlled within 10 %
Stable inductance over high frequencies
Compatible with reflow or flow soldering
Temperature range: - 40 °C to + 125 °C (no load)
- 40 °C to + 85 °C (full rated current)
• Compliant to RoHS directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
RATED
Q TYPICAL
L
DC
DCR
SRF
500
100 800 1700 TYP. MAX. CURRENT
MHz
L
MHz MHz MHz (MHz)
(mA)
()
(nH)
TOL.
1.0
0.3 nH
7
21
33
12 000 0.15
700
1.2
0.3 nH
7
21
33
12 000 0.15
700
1.5
0.3 nH
7
21
33
10 000 0.25
700
1.8
0.3 nH
7
21
33
10 000 0.25
560
2.2
0.3 nH
7
21
33
8000
0.35
440
2.7
0.3 nH
7
21
33
8000
0.35
440
3.3
0.3 nH
7
21
28
6000
0.45
380
3.9
0.3 nH
7
21
28
6000
0.55
340
4.7
0.3 nH
7
21
28
6000
0.65
320
5.6
0.3 nH
7
21
28
6000
0.85
280
6.8
0.3 nH
7
21
28
6000
1.05
260
8.2
0.3 nH
7
21
28
5500
1.25
220
10 2 %, 5 %
7
21
26
4500
1.35
200
12 2 %, 5 %
5
21
26
3700
1.55
180
15 2 %, 5 %
5
21
26
3300
1.75
130
18 2 %, 5 %
5
21
21
3100
2.15
100
22 2 %, 5 %
5
21
19
2800
2.65
90
Note
• Test equipment: HP-4287 and Agilent 16196B
APPLICATIONS
• Cellular telephone, pagers and GPS products
• Wireless LAN and other communication appliances
• VCO, TCXO circuit and RF transceiver module
DIMENSIONS in inches [millimeters]
D
C
B
A
MODEL
A
B
C
D
0.039 ± 0.002 0.020 ± 0.002 0.013 ± 0.002 0.008 ± 0.004
IFCB-0402
[1.00 ± 0.05] [0.50 ± 0.05] [0.32 ± 0.05] [0.20 ± 0.10]
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
30
60
40
INDUCTANCE (nH)
50
Q
22 nH
1 nH
2.2 nH
4.7 nH
30
20
10 nH
20
10 nH
15
10
4.7 nH
5
10
0
25
1
10
100
1000
FREQUENCY (MHz)
22 nH
10 000
2.2 nH
1.2 nH
0
1
10
100
1000
FREQUENCY (MHz)
10 000
DESCRIPTION
IFCB-0402
MODEL
10 nH
INDUCTANCE VALUE
±5%
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
F
C
PRODUCT FAMILY
www.vishay.com
167
B
0
4
0
SIZE
2
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
N
INDUCTANCE
VALUE
J
TOL.
Document Number: 34174
Revision: 10-Aug-06
IFCB-0603
Vishay Dale
Thin Film Chip Inductors
FEATURES
•
•
•
•
•
Tight tolerance
Self-resonant frequency controlled within 10 %
Stable inductance over high frequencies
Compatible with reflow or flow soldering
Temperature range: - 40 °C to + 125 °C (no load)
- 40 °C to + 85 °C (full rated current)
• Compliant to RoHS directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
L
500
MHz
(nH)
1.0
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10
12
15
18
22
27
33
39
47
56
68
RATED
DC
DCR
MAX. CURRENT
(mA)
()
0.35
800
0.35
800
0.35
800
0.35
300
0.35
300
0.45
300
0.45
300
0.45
300
0.55
300
0.65
300
0.75
300
0.95
300
0.95
300
1.05
300
1.35
300
1.65
300
1.95
250
2.35
250
2.75
250
3.00
200
3.00
200
5.00
150
5.00
150
Q TYPICAL
100 800 1700
L
MHz MHz MHz
TOL.
0.3 nH
13
34
49
0.3 nH
13
34
49
0.3 nH
13
34
49
0.3 nH
13
34
49
0.3 nH
13
34
49
0.3 nH
13
34
49
0.3 nH
13
34
49
0.3 nH
13
34
49
0.3 nH
13
34
41
0.3 nH
13
34
41
0.3 nH
13
34
41
0.3 nH
13
34
41
2 %, 5 %
13
34
30
2 %, 5 %
13
30
30
2 %, 5 %
13
30
30
2 %, 5 %
13
30
25
2 %, 5 %
13
30
25
2 %, 5 %
10
45
25
2 %, 5 %
10
45
6
2 %, 5 %
10
45
1
2 %, 5 %
10
45
1
2 %, 5 %
10
26
4
2 %, 5 %
10
26
6
SRF
TYP.
(MHz)
13 000
13 000
10 000
10 000
8000
6000
6000
6000
5000
5000
5000
4000
4000
3000
3000
2000
2000
2000
1500
1500
1500
1000
1000
APPLICATIONS
• Cellular telephone, pagers and GPS products
• Wireless LAN and other communication appliances
• VCO, TCXO circuit and RF transceiver module
DIMENSIONS in inches [millimeters]
D
C
B
A
MODEL
A
B
C
D
IFCB-060 0.063 ± 0.004 0.031 ± 0.004 0.018 ± 0.004 0.012 ± 0.008
3
[1.60 ± 0.10] [0.80 ± 0.10] [0.45 ± 0.10] [0.30 ± 0.20]
PERFORMANCE GRAPHS: INDUCTANCE AND Q VS. FREQUENCY
80
90
80
Q
INDUCTANCE (nH)
70
2.2 nH
60
4.7 nH
50
40
10 nH
30
22 nH
20
10
0
10
100
1000
FREQUENCY (MHz)
60
50
40
22 nH
30
20
10
68 nH
1
68 nH
70
1 nH
0
10 000
10 nH
2.2 nH
1 nH
1000
10 000
4.7 nH
10
1
100
FREQUENCY (MHz)
DESCRIPTION
IFCB-0603
MODEL
10 nH
INDUCTANCE VALUE
±5%
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
F
C
PRODUCT FAMILY
Document Number: 34179
Revision: 10-Aug-06
B
0
6
0
SIZE
3
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
INDUCTANCE
VALUE
N
J
TOL.
www.vishay.com
168
ILC-0402
Vishay Dale
Surface Mount, Multi Layer High Frequency Ceramic Inductors
FEATURES
•
•
•
•
High reliability
Surface mountable
Reflow or wave solderable
Tape and reel packaging per EIA specifications:
4000 pieces on 7" reel
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21
definition
MECHANICAL SPECIFICATIONS
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C and type R flux dip
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux above
Terminal Strength: 0.2 kg (0.44 lbs) for 30 s
Beam Strength: 0.2 kg (0.44 lbs)
Flex: 0.0788" [2.0 mm] min. mounted on 0.063" [1.6 mm]
thick PC board
ENVIRONMENTAL SPECIFICATIONS
Operating Temperature: - 55 °C to 125 °C
Thermal Shock: 100 cycles, - 40 °C to + 85 °C
Humidity: + 40 °C, 85 % RH, 1000 h at full rated current
Load Life: 85 °C for 1000 h at full rated current
STANDARD ELECTRICAL SPECIFICATIONS
IND.
(nH)
1.0
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10
12
15
18
22
27
33
39
47
56
68
82
100
PART NUMBER
ILC0402ER1N0S
ILC0402ER1N2S
ILC0402ER1N5S
ILC0402ER1N8S
ILC0402ER2N2S
ILC0402ER2N7S
ILC0402ER3N3S
ILC0402ER3N9S
ILC0402ER4N7S
ILC0402ER5N6S
ILC0402ER6N8J
ILC0402ER8N2J
ILC0402ER10NJ
ILC0402ER12NJ
ILC0402ER15NJ
ILC0402ER18NJ
ILC0402ER22NJ
ILC0402ER27NJ
ILC0402ER33NJ
ILC0402ER39NJ
ILC0402ER47NJ
ILC0402ER56NJ
ILC0402ER68NJ
ILC0402ER82NJ
ILC0402ERR10J
TOL.
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
TEST
FREQUENCY
(MHz)
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
Q TYPICAL
Q
MIN.
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
8
100 MHz
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
11
11
11
11
500 MHz
21
23
25
25
23
21
22
19
19
20
19
22
18
18
19
20
22
22
19
21
18
21
18
19
17
SRF (MHz)
1000 MHz
30
31
35
35
32
30
31
26
26
26
26
29
23
23
24
25
26
25
20
20
15
14
12
8
2
MIN.
10 000
10 000
6000
6000
6000
6000
6000
4000
4000
4000
3900
3600
3200
2700
2300
2100
1900
1600
1300
1200
1000
750
750
600
600
TYP.
18 000
17 000
11 000
11 000
8700
7800
6400
5800
5100
4700
4200
3800
3400
2900
2500
2400
2200
2000
1800
1600
1500
1200
1250
1100
1000
DCR
MAX.
()
0.12
0.12
0.13
0.14
0.16
0.17
0.19
0.22
0.24
0.27
0.32
0.37
0.42
0.50
0.55
0.65
0.80
0.90
1.00
1.20
1.30
1.40
1.40
2.00
2.00
RATED DC
CURRENT
MAX. (mA)
300
300
300
300
300
300
300
300
300
300
250
250
250
250
250
200
200
200
200
150
150
150
150
100
100
DIMENSIONS in inches [millimeters]
Ceramic
Body
0.02 ± 0.004
[0.5 ± 0.1]
0.02 ± 0.004
[0.5 ± 0.1]
0.01 ± 0.004
[0.25 ± 0.1]
0.04 ± 0.004
[1.0 ± 0.1]
DESCRIPTION
ILC-0402
MODEL
10 nH
INDUCTANCE VALUE
± 10 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
L
C
PRODUCT FAMILY
Document Number: 34120
Revision: 18-Apr-11
0
4
0
SIZE
2
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
N
INDUCTANCE
VALUE
K
TOL.
www.vishay.com
169
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
ILC-0603
Vishay Dale
Surface Mount, Multi Layer High Frequency Ceramic Inductors
FEATURES
•
•
•
•
High reliability
Surface mountable
Reflow or wave solderable
Tape and reel packaging per EIA specifications:
4000 pieces on 7" reel
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21
definition
MECHANICAL SPECIFICATIONS
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C and type R flux dip
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux above
Terminal Strength: 0.3 kg (0.66 lbs) for 30 s
Beam Strength: 0.3 kg (0.66 lbs)
Flex: 0.0788" [2.0 mm] min. mounted on 0.063" [1.6 mm]
thick PC board
ENVIRONMENTAL SPECIFICATIONS
Operating Temperature: - 55 °C to + 125 °C
Thermal Shock: 100 cycles, - 40 °C to + 85 °C
Humidity: + 40 °C, 85 % RH, 1000 h at full rated current
Load Life: 85 °C for 1000 h at full rated current
STANDARD ELECTRICAL SPECIFICATIONS
IND.
(nH)
1.0
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10
12
15
18
22
27
33
39
47
56
68
82
100
120
150
180
220
270
PART NUMBER
ILC0603ER1N0S
ILC0603ER1N2S
ILC0603ER1N5S
ILC0603ER1N8S
ILC0603ER2N2S
ILC0603ER2N7S
ILC0603ER3N3S
ILC0603ER3N9S
ILC0603ER4N7S
ILC0603ER5N6S
ILC0603ER6N8J
ILC0603ER8N2J
ILC0603ER10NJ
ILC0603ER12NJ
ILC0603ER15NJ
ILC0603ER18NJ
ILC0603ER22NJ
ILC0603ER27NJ
ILC0603ER33NJ
ILC0603ER39NJ
ILC0603ER47NJ
ILC0603ER56NJ
ILC0603ER68NJ
ILC0603ER82NJ
ILC0603ERR10J
ILC0603ERR12J
ILC0603ERR15J
ILC0603ERR18J
ILC0603ERR22J
ILC0603ERR27J
TOL.
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
TEST
FREQUENCY
(MHz)
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
50
50
50
50
50
Q TYPICAL
Q
MIN. 100 MHz 500 MHz 1000 MHz
8
15
43
63
8
14
38
55
8
11
28
40
8
10
24
35
8
14
35
40
10
12
29
45
10
16
40
47
10
11
25
35
10
11
26
35
10
15
36
46
10
15
38
47
10
13
31
41
12
15
34
47
12
12
27
49
12
15
30
36
12
15
28
31
12
17
34
36
12
15
31
30
12
15
28
24
12
14
31
28
12
17
31
28
12
19
34
26
12
17
30
20
12
16
29
18
12
16
24
3
8
17
21
8
19
20
8
18
13
8
18
8
19
-
SRF (MHz)
MIN.
10 000
10 000
6000
6000
6000
6000
4000
3500
3500
3500
3000
3000
2800
2000
2000
1800
1800
1500
1200
1100
900
900
700
600
600
500
500
400
400
350
TYP.
15 000
14 000
13 000
11 000
10 000
7000
5900
4500
4500
4000
3600
3500
3000
2500
2200
2000
1900
1700
1500
1300
1300
1200
1000
1000
800
800
700
600
500
490
DCR MAX.
()
0.05
0.05
0.10
0.10
0.10
0.10
0.12
0.14
0.16
0.18
0.22
0.24
0.26
0.28
0.32
0.35
0.40
0.45
0.55
0.60
0.70
0.75
0.85
0.95
1.00
1.20
1.20
1.30
1.50
1.60
RATED DC
CURRENT
MAX. (mA)
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
300
DIMENSIONS in inches [millimeters]
Ceramic
Body
0.031 ± 0.006
[0.8 ± 0.15]
0.012 ± 0.008
[0.3 ± 0.2]
0.031 ± 0.006
[0.8 ± 0.15]
0.063 ± 0.006
[1.6 ± 0.15]
DESCRIPTION
ILC-0603
MODEL
10 nH
INDUCTANCE VALUE
± 10 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
L
C
PRODUCT FAMILY
Document Number: 34145
Revision: 18-Apr-11
0
6
0
SIZE
3
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
N
INDUCTANCE
VALUE
K
TOL.
www.vishay.com
170
This document is subject to change without notice.
THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
ILC-0805
Vishay Dale
Surface Mount, Multilayer High Frequency Ceramic Inductors
FEATURES
•
•
•
•
MECHANICAL SPECIFICATIONS
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C and type R flux dip
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux above
Terminal Strength: 0.6 kg (1.32 lbs) for 30 s
Termination: 100 % tin
Beam Strength: 1.0 kg (2.20 lbs)
Flex: 0.0788" [2.0 mm] min. mounted on 0.063" [1.6 mm]
thick PC board
High reliability
Surface mountable
Reflow or wave solderable
Tape and reel packaging per EIA specifications:
4000 pieces on 7" reel
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21
definition
ENVIRONMENTAL SPECIFICATIONS
Operating Temperature: - 55 °C to + 125 °C
Thermal Shock: 100 cycles, - 40 °C to + 85 °C
Humidity: + 40 °C, 85 % RH, 1000 h at full rated current
Load Life: 85 °C for 1000 h at full rated current
STANDARD ELECTRICAL SPECIFICATIONS
PART
NUMBER
ILC0805ER1N5S
ILC0805ER1N8S
ILC0805ER2N2S
ILC0805ER2N7S
ILC0805ER3N3S
ILC0805ER3N9S
ILC0805ER4N7S
ILC0805ER5N6S
ILC0805ER6N8J
ILC0805ER8N2J
ILC0805ER10NJ
ILC0805ER12NJ
ILC0805ER15NJ
ILC0805ER18NJ
ILC0805ER22NJ
ILC0805ER27NJ
ILC0805ER33NJ
ILC0805ER39NJ
ILC0805ER47NJ
ILC0805ER56NJ
ILC0805ER68NJ
ILC0805ER82NJ
ILC0805ERR10J
ILC0805ERR12J
ILC0805ERR15J
ILC0805ERR18J
ILC0805ERR22J
ILC0805ERR27J
IND.
(nH)
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10
12
15
18
22
27
33
39
47
56
68
82
100
120
150
180
220
270
TOL.
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
0.3 nH
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
TEST
Q TYPICAL
FREQ. Q
THICKNESS “D”
(MHz) MIN. 100 MHz 500 MHz 1000 MHz
(INCHES [mm])
0.035 ± 0.008 [0.90 ± 0.2] 100
10
16
43
67
0.035 ± 0.008 [0.90 ± 0.2] 100
10
16
56
59
0.035 ± 0.008 [0.90 ± 0.2] 100
10
16
40
58
0.035 ± 0.008 [0.90 ± 0.2] 100
12
16
43
60
0.035 ± 0.008 [0.90 ± 0.2] 100
12
19
52
70
0.035 ± 0.008 [0.90 ± 0.2] 100
12
19
52
75
0.035 ± 0.008 [0.90 ± 0.2] 100
12
19
53
70
0.035 ± 0.008 [0.90 ± 0.2] 100
15
19
53
70
0.035 ± 0.008 [0.90 ± 0.2] 100
15
19
44
60
0.035 ± 0.008 [0.90 ± 0.2] 100
15
19
45
60
0.035 ± 0.008 [0.90 ± 0.2] 100
15
20
53
60
0.035 ± 0.008 [0.90 ± 0.2] 100
15
20
36
45
0.035 ± 0.008 [0.90 ± 0.2] 100
15
20
46
45
0.035 ± 0.008 [0.90 ± 0.2] 100
15
20
52
45
0.035 ± 0.008 [0.90 ± 0.2] 100
18
20
40
31
0.035 ± 0.008 [0.90 ± 0.2] 100
18
20
44
29
0.035 ± 0.008 [0.90 ± 0.2] 100
18
20
36
15
0.035 ± 0.008 [0.90 ± 0.2] 100
18
20
36
12
0.035 ± 0.008 [0.90 ± 0.2] 100
18
21
33
12
0.035 ± 0.008 [0.90 ± 0.2] 100
18
21
31
9
0.035 ± 0.008 [0.90 ± 0.2] 100
18
21
30
0.035 ± 0.008 [0.90 ± 0.2] 100
18
22
26
0.035 ± 0.008 [0.90 ± 0.2] 100
18
22
22
0.035 ± 0.008 [0.90 ± 0.2]
50
13
22
17
0.035 ± 0.008 [0.90 ± 0.2]
50
13
22
9
0.035 ± 0.008 [0.90 ± 0.2]
50
13
21
8
0.035 ± 0.008 [0.90 ± 0.2]
50
12
20
4
0.035 ± 0.008 [0.90 ± 0.2]
50
12
24
17
-
SRF (MHz) DCR RATED DC
MAX. CURRENT
MIN. TYP. () MAX. (mA)
4000 7000 0.10
300
4000 7000 0.10
300
4000 7000 0.10
300
4000 6500 0.10
300
4000 5500 0.13
300
3000 4400 0.15
300
3000 3500 0.20
300
3000 3500 0.23
300
2500 3300 0.25
300
2000 2600 0.28
300
3000 2300 0.30
300
1500 2000 0.35
300
1500 1800 0.40
300
1300 1700 0.45
300
1200 1400 0.50
300
1000 1300 0.55
300
1000 1200 0.60
300
800 1100 0.65
300
800 1000 0.70
300
700 900 0.75
300
600 800 0.80
300
500 700 0.90
300
500 700 0.90
300
400 600 0.95
300
300 600 1.00
300
300 500 1.10
300
300 500 1.20
300
200 400 1.30
300
DIMENSIONS in inches [millimeters]
Ceramic
Body
0.049 ± 0.008
[1.25 ± 0.2]
D
0.079 ± 0.008
[2.0 ± 0.2]
0.020 ± 0.001
[0.50 ± 0.3]
DESCRIPTION
ILC-0805
MODEL
10 nH
INDUCTANCE VALUE
± 10 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
L
PRODUCT
FAMILY
Document Number: 34162
Revision: 28-Feb-11
C
0
8
0
SIZE
5
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
N
INDUCTANCE
VALUE
L
TOL.
www.vishay.com
171
IMC-0402
Vishay Dale
High Frequency, Surface Mount, Laser Spiral, Coated Inductors
FEATURES
STANDARD ELECTRICAL SPECIFICATIONS
IND.
(nH)
TEST
FREQ.
(MHz)
TOL.
L
RATED
SRF DCR
DC
Q
MIN. MAX. CURRENT
MIN. (MHz) ()
(mA) (1)
Q
• Very small size
• High self-resonant frequency values
• High Q values relative to size at higher
frequencies
• Coated coil provides protection and moisture
resistance
• Compatible with vapor phase and infrared reflow
soldering
• Tape and reel packaging for automatic handling,
10 000/reel, EIA-481
• L and Q value not affected by mounting orientation
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
1.0 0.3 nH, 0.2 nH 100 800
21
6000
0.05
400
1.2 0.3 nH, 0.2 nH 100 800
21
6000
0.06
400
1.5 0.3 nH, 0.2 nH 100 800
21
6000
0.07
400
1.8 0.3 nH, 0.2 nH 100 800
21
6000
0.08
400
2.2 0.3 nH, 0.2 nH 100 800
21
6000
0.09
400
2.7 0.3 nH, 0.2 nH 100 800
21
5500
0.10
400
3.3 0.3 nH, 0.2 nH 100 800
21
5500
0.12
400
3.9 0.3 nH, 0.2 nH 100 800
20
5200
0.15
360
4.7 0.3 nH, 0.2 nH 100 800
20
4800
0.17
360
5.6 0.3 nH, 0.2 nH 100 800
20
4600
0.19
340
TEST EQUIPMENT
6.8
5%
100 800
19
4000
0.30
320
8.2
5%
100 800
19
3500
0.35
320
10
5 %, 2 %
100 800
19
2800
0.41
320
• Inductance and Q measured on HP4291B
• SRF measured on HP8753E
• DCR measured on HP4338B
12
5 %, 2 %
100 800
19
2800
0.45
320
15
5 %, 2 %
100 800
19
2500
0.60
240
18
5 %, 2 %
100 800
19
2200
0.70
240
22
5 %, 2 %
100 800
19
2000
0.80
200
27
5 %, 2 %
100 800
19
1800
1.20
200
33
5 %, 2 %
100 800
18
1800
1.40
170
39
5 %, 2 %
100 800
18
1800
1.70
150
47
5 %, 2 %
100 800
17
1800
2.10
140
56
5 %, 2 %
100 800
17
1500
2.50
130
68
5 %, 2 %
100 800
15
1500
4.00
120
82
5 %, 2 %
100 800
15
1400
4.50
110
100
5 %, 2 %
100 800
14
1200
5.50
90
ELECTRICAL SPECIFICATIONS
Inductance Range: 1.0 nH to 100 nH
Inductance and Tolerance: ± 0.3 nH for 1.0 nH to 5.6 nH,
± 5 % for 6.8 nH to 100 nH
Operating Temperature: - 40 °C to + 100 °C
Core Material: Ceramic
DIMENSIONS in inches [millimeters]
0.008 [0.2]
0.020 ± 0.004
[0.5 ± 0.1]
0.039 ± 0.004
[1.0 ± 0.1]
0.020 ± 0.004
[0.5 ± 0.1]
Solder Pad Layout
0.02 [0.50]
0.020 [0.50]
Note
(1) Value obtained when current flows and temperature has risen 15 °C
0.063 [1.60]
DESCRIPTION
IMC-0402
10 nH
±5%
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
M
PRODUCT
FAMILY
Document Number: 34038
Revision: 23-Feb-11
C
0
4
0
SIZE
2
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
N
INDUCTANCE
VALUE
J
TOL.
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172
IMC-0603
Vishay Dale
High Frequency, Surface Mount, Laser Spiral, Coated Inductors
FEATURES
STANDARD ELECTRICAL SPECIFICATIONS
TEST
FREQ.
(MHz)
RATED
SRF DCR
DC
IND.
Q
MIN. MAX. CURRENT
(nH)
TOL.
L
Q MIN. (MHz) ()
(mA) (1)
1.0 0.3 nH, 0.2 nH 100 1000 30
6000 0.06
500
1.2 0.3 nH, 0.2 nH 100 1000 30
6000 0.06
500
1.5 0.3 nH, 0.2 nH 100 1000 30
6000 0.07
500
1.8 0.3 nH, 0.2 nH 100 1000 30
6000 0.08
500
2.2 0.3 nH, 0.2 nH 100 1000 30
6000 0.09
500
2.7 0.3 nH, 0.2 nH 100 1000 30
6000 0.10
500
3.3 0.3 nH, 0.2 nH 100 1000 30
5500 0.12
500
3.9
5%
100 1000 30
5500 0.15
450
4.7
5%
100 1000 30
4800 0.17
450
5.6
5%
100 1000 30
4600 0.19
430
6.8
5%
100 1000 30
3550 0.20
430
8.2
5%
100 1000 30
3500 0.28
400
10
5 %, 2 %
100 500 30
2800 0.32
400
12
5 %, 2 %
100 500 30
2800 0.35
400
15
5 %, 2 %
100 500 30
2500 0.41
350
18
5 %, 2 %
100 500 30
2300 0.45
350
22
5 %, 2 %
100 500 30
2000 0.50
300
27
5 %, 2 %
100 500 30
2000 0.55
300
33
5 %, 2 %
100 500 30
1800 0.60
300
39
5 %, 2 %
100 500 30
1800 0.80
300
47
5 %, 2 %
100 500 30
1800 0.95
250
56
5 %, 2 %
100 500 30
1800 1.20
250
68
5 %, 2 %
100 500 30
1500 1.30
250
82
5 %, 2 %
100 500 30
1500 1.50
250
100
5 %, 2 %
100 500 26
1300 1.80
200
120
5 %, 2 %
100 500 26
1200 3.00
130
150
5 %, 2 %
100 500 26
1100 4.50
100
180
5 %, 2 %
100 500 20
1000 6.50
80
220
5 %, 2 %
100 500 20
900
7.50
70
• Very small size
• High self-resonant frequency values
• High Q values relative to size at higher
frequencies
• Coated coil provides protection and moisture
resistance
• Compatible with vapor phase and infrared reflow
soldering
• Tape and reel packaging for automatic handling,
3000/reel, EIA-481
• L and Q value not affected by mounting orientation
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
ELECTRICAL SPECIFICATIONS
Inductance Range: 1.0 nH to 220 nH
Inductance and Tolerance: ± 0.3 nH for 1.0 nH to 3.3 nH,
± 5 % for 3.9 nH to 220 nH
Operating Temperature: - 40 °C to + 100 °C
Core Material: Ceramic
TEST EQUIPMENT
• Inductance and Q measured on HP4291B
• SRF measured on HP8753E
• DCR measured on HP4338B
DIMENSIONS in inches [millimeters]
0.031 ± 0.008
[0.8 ± 0.20]
0.016 ± 0.008
[0.4 ± 0.20]
0.016 ± 0.004
[0.4 ± 0.10]
0.031 ± 0.006
[0.8 ± 0.15]
0.063 ± 0.008
[1.6 ± 0.20]
Recommended Pad Layout
0.039
[1.0]
0.031
[0.8]
Note
(1) Value obtained when current flows and temperature has risen 15 °C
0.083
[2.1]
DESCRIPTION
IMC-0603
10 nH
±5%
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
M
PRODUCT
FAMILY
Document Number: 34039
Revision: 23-Feb-11
C
0
6
0
SIZE
3
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
N
INDUCTANCE
VALUE
J
TOL.
www.vishay.com
173
Contents
IMC-0402-01 ......................... 175
IMC-0603-01 ......................... 177
IMC-0805 .............................. 179
IMC-0805-01 ......................... 180
Wirewound
Inductors
IMC-1008 .............................. 182
ISC-1008 ............................... 184
IMC-1210 .............................. 186
IMC-1210-100 ....................... 187
ISC-1210 ............................... 188
IMC-1812 .............................. 189
ISC-1812 ............................... 191
IMCH-1812............................ 193
IMC-2220 .............................. 194
IMC-0402-01
www.vishay.com
Vishay Dale
Wirewound, Surface Mount Inductors
FEATURES
• Excellent solderability and resistance to
soldering heat
• Suitable for reflow soldering
• High reliability and easy surface mount
assembly
• Wide range of inductance values available
• Tape and reel packaging for automatic handling,
10 000/reel EIA 481
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
STANDARD ELECTRICAL SPECIFICATIONS
TEST
SRF DCR RATED DC
FREQ.
MIN. MAX. CURRENT
(MHz)
Q
(MHz) ()
(mA) (1)
L & Q MIN.
250
13
6000 0.045
1360
250
16
6000 0.070
1040
250
16
6000 0.070
1040
250
18
6000 0.070
960
250
16
6000 0.068
790
250
16
6000 0.120
640
250
20
6000 0.066
840
250
20
6000 0.066
840
250
20
6000 0.066
840
250
18
6000 0.091
700
250
15
4775 0.130
640
250
23
5800 0.083
800
250
23
5800 0.083
760
250
23
5800 0.083
760
250
20
4800 0.083
680
250
25
5800 0.104
680
250
25
4400 0.104
680
250
18
4100 0.200
480
250
25
4160 0.104
680
250
18
4000 0.200
680
250
23
3900 0.195
480
250
26
3680 0.120
640
250
26
3600 0.120
640
250
24
3450 0.210
560
250
26
3280 0.172
560
250
24
3100 0.220
560
250
25
3100 0.230
420
250
26
3040 0.202
480
250
25
3000 0.250
420
250
25
2800 0.300
400
250
26
2720 0.214
400
250
25
2480 0.298
400
250
26
2700 0.300
400
250
25
2350 0.300
400
250
24
2350 0.350
400
250
26
2320 0.403
320
250
25
2100 0.550
320
250
26
2240 0.438
320
250
25
2030 0.810
100
200
26
2100 0.830
150
200
25
1750 0.820
100
200
22
1760 0.970
100
200
22
1620 1.120
100
150
20
1500 1.250
100
150
20
1300 2.520
100
150
20
1100 2.660
100
IND.
(nH)
TOL.
1.0 0.3 nH, 0.2 nH
1.9 0.3 nH, 0.2 nH
2.0 0.3 nH, 0.2 nH
2.2 0.3 nH, 0.2 nH
2.4 0.3 nH, 0.2 nH
2.7 0.3 nH, 0.2 nH
3.3 0.3 nH, 0.2 nH
3.6 0.3 nH, 0.2 nH
3.9
10 %, 5 %
4.3
10 %, 5 %
4.7
10 %, 5 %
5.1
10 %, 5 %
5.6
10 %, 5 %
6.2
10 %, 5 %
6.8
10 %, 5 %
7.5
10 %, 5 %
8.2
10 %, 5 %
8.7
10 %, 5 %
9.0
10 %, 5 %
9.5
10 %, 5 %
10
5 %, 2 %
11
5 %, 2 %
12
5 %, 2 %
13
5 %, 2 %
15
5 %, 2 %
16
5 %, 2 %
18
5 %, 2 %
19
5 %, 2 %
20
5 %, 2 %
22
5 %, 2 %
23
5 %, 2 %
24
5 %, 2 %
27
5 %, 2 %
30
5 %, 2 %
33
5 %, 2 %
36
5 %, 2 %
39
5 %, 2 %
40
5 %, 2 %
43
5 %, 2 %
47
5 %, 2 %
51
5%
56
5%
68
5%
82
5%
100
5%
120
5%
Note
(1) Value obtained when current flows and temperature has risen 15 °C
ELECTRICAL SPECIFICATIONS
Inductance Range: 1 nH to 47 nH
Operating Temperature: - 40 °C to + 125 °C
Storage Temperature: - 40 °C to + 125 °C
TEST EQUIPMENT
• Inductance is measured in HP4287A RF LCR meter with
HP16193 fixture
• Q is measured in HP4287A RF LCR meter with HP16193
fixture
• SRF is measured in HP8753E RF network analyzer
• DCR is measured in HP4338B millohmeter
DIMENSIONS in inches [millimeters]
0.039 ± 0.004
[1.00 ± 0.1]
0.022 ± 0.004
[0.55 ± 0.1]
0.008 ± 0.004
[0.20 ± 0.1]
0.020 ± 0.004
[0.50 ± 0.1]
0.010 ref.
[0.25]
DESCRIPTION
IMC-0402-01
MODEL
10 nH
INDUCTANCE VALUE
±5%
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e4
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
M
C
PRODUCT FAMILY
Revision: 02-Sep-11
0
4
0
SIZE
2
E
R
PACKAGE
CODE
1
0
INDUCTANCE
VALUE
N
J
TOL.
0
1
SERIES
Document Number: 34163
175
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IMC-0402-01
www.vishay.com
Vishay Dale
PERFORMANCE GRAPHS (IMC-0402-01)
IMC-0402-01 Q vs. FREQUENCY
160
140
12 nH
27 nH
5.6 nH
120
47 nH
Q
100
80
60
40
1 nH
20
0
1
10
100
1000
FREQUENCY (MHz)
IMC-0402-01 Ls vs. FREQUENCY
100
47 nH
INDUCTANCE (nH)
27 nH
12 nH
10
5.6 nH
1
1 nH
0
1
10
100
FREQUENCY (MHz)
1000
10 000
TAPE AND REEL SPECIFICATIONS in inches [millimeters]
REEL DIMENSIONS
TAPE DIMENSIONS
0.08 ± 0.02
[2.0 ± 0.5]
RECOMMENDED PATTERN
0.07 ± 0.002
[1.75 ± 0.05]
0.098
[2.5]
0.14 ± 0.002
[3.5 ± 0.05]
0.1 ± 0.002
[0.3 ± 0.05]
0.158 ± 0.004 0.08 ± 0.002
[4.0 ± 0.1]
[2.0 ± 0.05]
B
0.51 ± 0.02
Ø [13.0 ± 0.5]
A
C
0.83 ± 0.03
Ø [21.0 ± 0.8]
T
7.0 ± 0.08
[178.0 ± 2.0]
MODEL
IMC-0402-01
Revision: 02-Sep-11
0.315
[8.0]
UNITS PER REEL
10 000
0.315 ± 0.008
[8.0 ± 0.2]
MODEL
IMC-0402-01
0.08
[2.0]
± 0.002
A ± 0.004
[± 0.1] B ± 0.004 [± 0.05]
[± 0.1]
A
B
T
0.028
[0.70]
0.047
[1.20]
0.028
[0.70]
MODEL
IMC-0402-01
A
B
C
0.018
[0.45]
0.063
[1.60]
0.0256
[0.65]
Document Number: 34163
176
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IMC-0603-01
Vishay Dale
Wirewound, Surface Mount Inductors
FEATURES
• Excellent solderability and resistance to
soldering heat
• Suitable for reflow soldering
• High reliability and easy surface mount
assembly
• Wide range of inductance values available
• Tape and reel packaging for automatic
handling, 3000/reel EIA 481
• Compliant to RoHS Directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
TEST
FREQ.
(MHz)
SRF DCR RATED DC
Q
MIN. MAX. CURRENT
MIN. (MHz) ()
(mA) (1)
IND.
(nH)
TOL.
L&Q
2.0
0.3 nH, 0.2 nH
250
16
6900
0.08
700
3.9
0.3 nH, 0.2 nH
250
20
6900
0.08
700
4.7
0.3 nH, 0.2 nH
250
20
5800
0.11
700
6.8
10 %, 5 %
250
30
5800
0.11
700
8.2
10 %, 5 %
250
30
4600
0.10
700
10
5 %, 2 %
250
30
4800
0.13
700
12
5 %, 2 %
250
35
4000
0.13
700
15
5 %, 2 %
250
35
4000
0.17
700
18
5 %, 2 %
250
38
3100
0.17
700
22
5 %, 2 %
250
38
3000
0.22
700
27
5 %, 2 %
250
40
2800
0.22
600
33
5 %, 2 %
250
43
2300
0.22
600
39
5 %, 2 %
250
43
2200
0.25
600
47
5 %, 2 %
200
40
2000
0.28
600
56
5 %, 2 %
200
40
1900
0.31
600
68
5 %, 2 %
200
40
1700
0.34
600
72
5 %, 2 %
150
35
1700
0.49
400
82
5 %, 2 %
150
35
1700
0.54
400
100
5 %, 2 %
150
35
1400
0.63
400
120
5 %, 2 %
150
35
1300
0.65
300
150
5 %, 2 %
150
35
1000
0.92
280
180
5 %, 2 %
100
30
1000
1.25
240
220
5 %, 2 %
100
30
1000
1.70
200
270
5 %, 2 %
100
30
1000
1.80
170
ELECTRICAL SPECIFICATIONS
Inductance Range: 2 nH to 270 nH
Operating Temperature: - 40 °C to + 125 °C
Storage Temperature: - 40 °C to + 125 °C
TEST EQUIPMENT
• Inductance is measured in HP4287A RF LCR meter with
HP16193 fixture
• Q is measured in HP4287A RF LCR meter with HP16193
fixture
• SRF is measured in HP8753E RF network analyzer
• DCR ismeasured in HP4338B millohmeter
DIMENSIONS in inches [millimeters]
0.063 ± 0.008
[1.60 ± 0.2]
0.041 ± 0.008
[1.05 ± 0.2]
0.014 ± 0.004
[0.35 ± 0.1]
0.041 ± 0.008
[1.05 ± 0.2]
0.02 ref.
[0.5]
Note
(1) Value obtained when current flows and temperature has risen 15 °C
DESRIPTION
IMC-0603-01
10 nH
±5%
ER
e4
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
M
C
PRODUCT
FAMILY
0
6
0
SIZE
3
E
R
1
PACKAGE
CODE
0
INDUCTANCE
VALUE
N
J
TOL.
0
1
SERIES
** Please see document “Vishay Material Category Policy”: www.vishay.com/doc?99902
Document Number: 34164
Revision: 01-Mar-11
For technical questions, contact: [email protected]
www.vishay.com
177
IMC-0603-01
Wirewound, Surface Mount Inductors
Vishay Dale
PERFORMANCE GRAPHS (IMC-0603-01)
IMC-0603-01 Q VS. FREQUENCY
300
250
27 nH
200
12 nH
47 nH
Q
150
100
3.9 nH
100 nH
50
270 nH
1
10
100
FREQUENCY (MHz)
1000
IMC-0603-01 Ls VS. FREQUENCY
INDUCTANCE (nH)
1000
100
10
1
1
10
100
1000
FREQUENCY (MHz)
TAPE AND REEL SPECIFICATIONS in inches [millimeters]
REEL DIMENSIONS
TAPE DIMENSIONS
0.08 ± 0.02
[2.0 ± 0.5]
RECOMMENDED PATTERN
0.098
[2.5]
0.07 ± 0.002
[1.75 ± 0.05]
0.14 ± 0.002
[3.5 ± 0.05]
0.51 ± 0.02
Ø [13.0 ± 0.5]
0.158 ± 0.004 0.08 ± 0.002
[4.0 ± 0.1] [2.0 ± 0.05]
B
0.1 ± 0.002
[0.3 ± 0.05]
A
C
0.83 ± 0.03
Ø [21.0 ± 0.8]
7.0 ± 0.08
[178.0 ± 2.0]
MODEL
IMC-0603-01
www.vishay.com
178
0.315
[8.0]
UNITS PER REEL
3000
0.315 ± 0.008
[8.0 ± 0.2]
T
± 0.002
A ± 0.004
[±
0.05]
[±
0.1]
0.158 ± 0.004
B ± 0.004
[4.0 ± 0.1]
[± 0.1]
MODEL
A
B
T
IMC-0603-01
0.039
[1.0]
0.070
[1.8]
0.039
[1.0]
MODEL
A
B
C
IMC-0603-01
0.039
[1.0]
0.083
[2.1]
0.030
[0.8]
For technical questions, contact: [email protected]
Document Number: 34164
Revision: 01-Mar-11
IMC-0805
Vishay Dale
High Frequency, Surface Mount, Molded Inductors
FEATURES
• High self-resonant frequency values
• High Q values at higher frequencies
• Molded construction provides superior strength
and moisture resistance
• Wirewound construction
• Compatible with vapor phase and infrared reflow
soldering
• Tape and reel packaging for automatic handling,
3000/reel, EIA-481
• Compliant to RoHS Directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
TEST
FREQ.
(MHz)
RATED
DC
Q TYP. (MHz) SRF DCR
Q
MIN. ± 30 % CURRENT
L & Q MIN. 100 800 1800 (MHz) ()
(mA)
IND.
(nH)
TOL.
10
12
15
18
22
27
33
39
47
56
68
82
100
120
150
180
220
270
330
390
470
560
680
820
1000
10 %
10 %
10 %
10 %
10 %
10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
5 %, 10 %
100
100
100
100
100
100
100
100
100
100
100
100
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
7.96
10
10
12
12
15
15
15
15
15
15
15
15
8
8
10
10
10
10
10
10
10
10
10
10
8
22
22
23
25
25
25
28
28
28
28
28
28
25
24
25
25
25
25
20
20
18
15
-
65 110 3300
65 105 3300
70 100 3000
75 95 3000
75 80 2600
75 - 2500
80 - 2050
70 - 2000
70 - 1650
60 - 1550
- 1450
- 1100
800
600
600
600
500
300
200
150
150
100
100
80
80
0.14
0.18
0.18
0.22
0.22
0.26
0.30
0.31
0.35
0.39
0.44
0.48
0.66
0.76
1.13
1.24
1.41
1.50
1.66
1.82
1.97
2.07
2.32
2.60
2.98
540
535
520
480
465
455
395
390
385
360
340
330
285
275
230
195
170
165
160
150
145
140
130
125
120
ELECTRICAL SPECIFICATIONS
Inductance Range: 10 nH to 1000 nH
Inductance and Tolerance: ± 10 % for 10 nH to 1000 nH,
± 5 % for 33 nH to 1000 nH
Operating Temperature: - 40 °C to + 105 °C (no load)
- 40 °C to + 85 °C (at full rated current)
Core Material: Non-magnetic
TEST EQUIPMENT
• Inductance and Q measured on HP4191A
• SRF measured on HP8753B
DIMENSIONS in inches [millimeters]
0.049 ± 0.012
[1.25 ± 0.3]
0.078 + 0.012 - 0.008
[2.00 + 0.3 - 0.2]
0.049 ± 0.012
[1.25 ± 0.3]
0.016 ± 0.008
[0.4 ± 0.2]
0.039 ± 0.004
[1.0 ± 0.1]
Recommended Pad Layout
0.043 ± 0.004
[1.1 ± 0.1]
0.043 ± 0.008
[1.1 ± 0.2]
Note
• Tighter tolerance product may be substituted based on availability.
0.134 ± 0.016
[3.4 ± 0.4]
DESCRIPTION
IMC-0805
MODEL
10 nH
INDUCTANCE VALUE
±5%
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
M
PRODUCT
FAMILY
Document Number: 34040
Revision: 23-Feb-11
C
0
8
0
SIZE
5
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
N
INDUCTANCE
VALUE
J
TOL.
www.vishay.com
179
IMC-0805-01
Vishay Dale
Wirewound, Surface Mount Inductors
FEATURES
•
•
•
•
High self-resonant frequency values
High Q values at higher frequencies
Wirewound construction
Compatible with vapor phase and infrared reflow
soldering
• Tape and reel packaging for automatic handling,
2000/reel
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
STANDARD ELECTRICAL SPECIFICATIONS
IND.
(nH)
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10
12
15
18
22
27
33
39
47
56
68
82
100
120
150
180
220
270
330
390
470
560
680
820
1000
1200
1500
1800
2200
2700
3300
3900
4700
5600
6800
8200
10 000
TOL.
0.3 nH, 0.2 nH
0.3 nH, 0.2 nH
0.3 nH, 0.2 nH
0.3 nH, 0.2 nH
0.3 nH, 0.2 nH
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5 %, 2 %
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
TEST
FREQ.
(MHz)
L
Q
250 1000
250 1000
250 1000
250 1000
250 1000
250 1000
250 1000
250 1000
250 500
250 500
250 500
250 500
250 500
250 500
250 500
250 500
200 500
200 500
200 500
150 500
150 500
150 250
100 250
100 250
100 250
100 250
100 250
100 250
25.2 100
25.2 100
25.2 100
25.2 100
25.2 50
7.96 7.96
7.96 7.96
7.96 7.96
7.96 7.96
7.96 7.96
7.96 7.96
7.96 7.96
7.96 7.96
7.96 7.96
7.96 7.96
7.96 7.96
2.52 2.52
Q
MIN.
50
35
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
60
50
50
50
50
45
45
45
45
45
35
35
35
15
15
15
15
15
15
15
15
15
15
15
10
SRF
MIN.
(MHz)
6000
6000
6000
6000
5800
5800
5500
5500
4800
4100
3600
3400
3300
2600
2400
2100
1700
1600
1450
1350
1200
1100
950
900
860
850
800
780
375
340
188
215
200
200
200
120
110
100
70
60
50
45
45
40
40
DCR RATED DC
MAX. CURRENT
()
(mA)
0.06
800
0.08
800
0.08
800
0.06
600
0.06
600
0.08
600
0.06
600
0.06
600
0.08
600
0.08
600
0.08
600
0.08
600
0.10
600
0.12
600
0.15
500
0.18
500
0.15
500
0.25
500
0.27
500
0.32
500
0.43
500
0.48
500
0.56
400
0.78
400
1.00
400
1.46
350
1.65
300
2.20
210
0.95
500
1.10
450
1.20
400
1.50
300
2.13
180
2.60
150
2.90
130
3.00
120
3.10
110
3.50
100
2.30
210
2.50
200
2.80
180
3.00
160
3.20
130
3.50
120
5.00
80
ELECTRICAL SPECIFICATIONS
Inductance Range: 2.2 nH to 10 000 nH
Inductance and Tolerance: 0.3 nH for 2.2 nH to 4.7 nH,
± 5 % for 5.6 nH to 10 000 nH
Operating Temperature: - 40 °C to + 125 °C
Core Material: Ceramic from 2.2 nH to 390 nH; Ferrite from
470 nH to 10 000 nH
TEST EQUIPMENT
• Inductance and Q measured on HP4286A (2.2 nH to
390 nH) and HP4285A (470 nH to 10 000 nH)
• SRF is measured on HP8753E
• DCR ismeasured on HP4338B
DIMENSIONS in inches [millimeters]
0.079 ± 0.008
[2.00 ± 0.2]
0.050 ± 0.008
[1.25 ± 0.2]
0.016 ± 0.008
[0.40 ± 0.2]
0.048 ± 0.008
[1.20 ± 0.2]
0.02 [0.5]
DESCRIPTION
IMC-0805-01
10 nH
±5%
ER
e4 (1)
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
Note
(1) For parts within 2.2 nH to 390 nH please use e4 for JEDEC lead (Pb)-free standard. For parts within 470 nH to 10 000 nH please use e3 for
JEDEC lead (Pb)-free standard.
GLOBAL PART NUMBER
I
M
C
PRODUCT FAMILY
Document Number: 34115
Revision: 24-Feb-11
0
8
0
SIZE
5
E
R
PACKAGE
CODE
1
0
INDUCTANCE
VALUE
For technical questions, contact: [email protected]
N
J
TOL.
0
1
SERIES
www.vishay.com
180
IMC-0805-01
Wirewound, Surface Mount Inductors
Vishay Dale
PERFORMANCE GRAPHS (IMC-0805-01)
Q VS. FREQUENCY
120
4.7 nH
100
80
Q
18 nH
60
40
47 nH
330 nH
20
0
120 nH
820 nH
1
10
100
FREQUENCY (MHz)
10 000
1000
INDUCTANCE VS. FREQUENCY
INDUCTANCE (nH)
10 000
820 nH
1000
330 nH
120 nH
47 nH
100
18 nH
10
4.7 nH
1
1
10
100
10 000
1000
FREQUENCY (MHz)
TAPE AND REEL SPECIFICATIONS in inches [millimeters]
REEL DIMENSIONS
TAPE DIMENSIONS
0.08 ± 0.02
[2.0 ± 0.5]
RECOMMENDED PATTERN
0.08 ± 0.02
[2.0 ± 0.5]
0.51 ± 0.02
Ø [13.0 ± 0.5]
0.07 ± 0.002
[1.75 ± 0.05]
0.14 ± 0.002
[3.5 ± 0.05]
0.158 ± 0.004 0.08 ± 0.002
[4.0 ± 0.1] [2.0 ± 0.05]
B
0.1 ± 0.002
[0.3 ± 0.05]
A
C
0.83 ± 0.03
Ø [21.0 ± 0.8]
7.0 ± 0.08
[178.0 ± 2.0]
MODEL
IMC-0805-01
www.vishay.com
181
0.55 ± 0.04
[14.0 ± 1.0]
UNITS PER REEL
2000
0.315 ± 0.008
[8.0 ± 0.2]
T
± 0.002
A ± 0.004
[±
0.05]
[±
0.1]
0.158 ± 0.004
B ± 0.004
[4.0 ± 0.1]
[± 0.1]
MODEL
A
B
T
IMC-0805-01
0.055
[1.4]
0.091
[2.3]
0.055
[1.4]
MODEL
A
B
C
IMC-0805-01
0.047
[1.20]
0.102
[2.6]
0.047
[1.20]
For technical questions, contact: [email protected]
Document Number: 34115
Revision: 24-Feb-11
IMC-1008
Vishay Dale
High Frequency, Surface Mount Inductors
FEATURES
•
•
•
•
STANDARD ELECTRICAL SPECIFICATIONS
IND.
(nH) TOL.
3.3 0.3 nH
6.8
5%
8.2
5%
10
5%
12
5%
15
5%
18
5%
22
5%
27
5%
33
5%
39
5%
47
5%
56
5%
68
5%
82
5%
100
5%
120
5%
150
5%
180
5%
220
5%
270
5%
330
5%
390
5%
470
5%
560
5%
680
5%
750
5%
820
5%
910
5%
1000
5%
1200
5%
1500
5%
1800
5%
2200
5%
2700
5%
3300
5%
3900
5%
4700
5%
5600
5%
6800
5%
8200
5%
10 000 5 %
12 000 5 %
15 000 5 %
18 000 5 %
22 000 5 %
27 000 5 %
33 000 5 %
39 000 5 %
47 000 5 %
TEST FREQ.
SRF DCR RATED DC
(MHz)
MIN. MAX. CURRENT
L
Q
(mA)
Q MIN. (MHz) ()
100 1000
50
6000 0.06
1000
100 1000
50
5500 0.06
1000
100 1000
50
5500 0.06
1000
100 1000
50
4300 0.08
1000
100
500
60
3600 0.08
1000
100
500
60
2700 0.08
1000
100
350
60
2700 0.10
1000
100
350
60
2500 0.10
1000
100
350
60
1800 0.10
1000
100
350
60
1700 0.10
1000
100
350
60
1500 0.10
1000
100
350
60
1500 0.10
1000
100
350
60
1350 0.12
1000
100
350
60
1300 0.15
1000
100
350
60
1100 0.18
1000
100
350
60
1100 0.18
1000
25
100
45
950
0.20
800
25
100
45
880
0.22
800
25
100
45
800
0.33
800
25
100
45
730
0.45
800
25
100
45
650
0.75
600
25
100
45
570
0.90
500
25
100
45
530
1.06
470
25
100
45
480
1.17
420
25
100
45
430
1.50
310
25
100
45
380
2.06
230
25
100
45
360
2.20
200
25
100
45
350
2.30
180
25
100
45
330
3.18
150
25
50
35
310
3.30
120
7.96 7.96
20
280
1.30
230
7.96 7.96
20
250
1.65
220
7.96 7.96
20
200
2.20
210
7.96 7.96
20
160
2.35
200
7.96 7.96
20
130
2.60
195
7.96 7.96
20
80
2.85
185
7.96 7.96
20
50
4.00
180
7.96 7.96
20
45
4.30
175
7.96 7.96
20
42
2.60
170
7.96 7.96
20
39
2.80
165
7.96 7.96
20
36
3.05
160
2.52 2.52
15
33
3.50
150
2.52 2.52
15
30
3.60
140
2.52 2.52
15
26
4.00
130
2.52 2.52
15
24
4.50
120
2.52 2.52
15
22
4.80
110
2.52 2.52
15
21
5.30
95
2.52 2.52
15
20
6.10
85
2.52 2.52
15
18
8.30
60
2.52 2.52
15
17
12.00
45
High self-resonant frequency values
High Q values at higher frequencies
Wirewound construction
Compatible with vapor phase and infrared reflow
soldering
• Tape and reel packaging for automatic handling, 2000/reel
• Compliant to RoHS directive 2002/95/EC
ELECTRICAL SPECIFICATIONS
Inductance Range: 3.3 nH to 47 000 nH
Inductance and Tolerance: 0.3 nH for 3.3 nH
± 5 % for 6.8 nH to 47 000 nH
Operating Temperature: - 40 °C to + 125 °C
Core Material: Ceramic from 3.3 nH to 1000 nH
Ferrite from 1200 nH to 47 000 nH
TEST EQUIPMENT
• Inductance and Q measured on HP4286A
• SRF measured on HP8753D
DIMENSIONS in inches [millimeters]
0.098 ± 0.012
[2.50 ± 0.3]
0.079 ± 0.012
[2.00 ± 0.3]
0.020 ± 0.008
[0.50 ± 0.2]
0.063 ± 0.012
[1.60 ± 0.3]
0.02
[0.5]
DESCRIPTION
IMC-1008
MODEL
10 nH
INDUCTANCE VALUE
±5%
INDUCTANCE TOLERANCE
e4 (1)
JEDEC LEAD (Pb)-FREE STANDARD
ER
PACKAGE CODE
Note
(1) For parts within 3.3 nH to 910 nH please use e4 for JEDEC lead (Pb)-free standard. For parts within 1000 nH to 47 000 nH please use e3 for
JEDEC lead (Pb)-free standard.
GLOBAL PART NUMBER
I
M
C
PRODUCT FAMILY
Document Number: 34041
Revision: 10-Aug-06
1
0
0
SIZE
8
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
INDUCTANCE
VALUE
N
J
TOL.
www.vishay.com
182
IMC-1008
High Frequency, Surface Mount
Inductors
Vishay Dale
PERFORMANCE GRAPHS IMC-1008
120
100
3.3 nH
Q
80
60
390 nH
40
100 nH
18 nH
20
0
1
47 nH
3900 nH 1000 nH
18 000 nH
100
FREQUENCY (MHz)
10
10 000
1000
100 000
18 000 nH
INDUCTANCE (nH)
10 000
3900 nH
1000 nH
1000
390 nH
100 nH
100
47 nH
18 nH
10
3.3 nH
1
1
10
100
FREQUENCY (MHz)
10 000
1000
TAPE AND REEL SPECIFICATIONS in inches [millimeters]
TAPE DIMENSIONS
REEL DIMENSIONS
0.08 ± 0.02
[2.0 ± 0.5]
RECOMMENDED PATTERN
0.08 ± 0.02
[2.5 ± 0.5]
0.51 ± 0.02
Ø [13.0 ± 0.5]
0.07 ± 0.002
[1.75 ± 0.05]
0.14 ± 0.002
[3.5 ± 0.05]
0.158 ± 0.004 0.08 ± 0.002
[4.0 ± 0.1] [2.0 ± 0.05]
B
0.1 ± 0.002
[0.3 ± 0.05]
A
C
0.83 ± 0.03
Ø [21.0 ± 0.8]
7.0 ± 0.08
[178.0 ± 2.0]
0.55 ± 0.04
[14.0 ± 1.0]
0.315 ± 0.008
[8.0 ± 0.2]
T
± 0.002
A ± 0.004
[±
0.05]
[±
0.1]
0.158 ± 0.004
B ± 0.004
[4.0 ± 0.1]
[± 0.1]
MODEL
UNITS PER REEL
MODEL
A
B
T
MODEL
A
B
C
IMC-1008
2000
IMC-1008
0.087
[2.20]
0.110
[2.80]
0.071
[1.80]
IMC-1008
0.047
[1.20]
0.150
[3.80]
0.100
[2.54]
www.vishay.com
183
For technical questions, contact: [email protected]
Document Number: 34041
Revision: 10-Aug-06
ISC-1008
Vishay Dale
Wirewound, Surface Mount, Shielded Inductor
FEATURES
• Excellent solderability and resistance to
soldering heat
• Suitable for reflow soldering
• High reliability and easy surface mount
assembly
• Wide range of inductance values available
• Tape and reel packaging for automatic handling, 750/reel,
EIA-481
• Compliant to RoHS directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
RATED DC
CURRENT
(mA) (1)
1000
800
680
650
650
500
450
400
250
220
180
150
130
110
100
100
80
60
50
50
50
50
30
30
30
30
DCR
MAX.
()
0.05
0.06
0.09
0.14
0.26
0.35
0.40
0.60
0.95
1.15
1.40
1.60
1.85
2.50
3.80
4.20
5.80
6.20
7.50
10.0
11.5
16.5
18.0
24.0
26.0
30.0
SRF
MIN.
(MHz)
344
260
225
185
175
160
150
120
100
35
26
20
14
14
12
9.0
7.0
6.0
5.6
4.0
3.8
2.0
2.0
1.8
1.5
1.3
Q MIN.
AT
1 MHz
35
35
35
38
38
38
38
38
38
38
40
45
45
45
45
45
45
45
40
40
40
35
35
30
30
30
IND. AT
100 kHz
(μH)
TOL.
1.0
± 20 %
1.5
± 20 %
1.8
± 20 %
2.7
± 20 %
3.9
± 20 %
4.7
± 20 %
5.6
± 20 %
6.8
± 20 %
10
± 20 %
15
± 20 %
22
± 20 %
33
± 20 %
39
± 20 %
47
± 20 %
68
± 20 %
82
± 20 %
100
± 20 %
120
± 20 %
150
± 20 %
220
± 20 %
330
± 20 %
470
± 20 %
560
± 20 %
680
± 20 %
820
± 20 %
1000
± 20 %
Note
(1) For 15 °C rise
ELECTRICAL SPECIFICATIONS
Inductance Range: 1 μH to 1000 μH
Operating Temperature: - 40 °C to + 85 °C
Storage Temperature: - 40 °C to + 125 °C
Material: Ferrite with magnetic shield
TEST EQUIPMENT
• Inductance and Q is measured in HP-4286A RF LCR meter
with HP-16193 fixture
• SRF is measured in HP-8753E RF network analyzer
• DCR is measured in HP-4338B millohmeter
DIMENSIONS in inches [millimeters]
W
H
A
B
C
L
RECOMMENDED PATTERN
S
A
B
C
LENGTH (L)
WIDTH (W)
HEIGHT (H)
TERMINAL (S)
0.142 ± 0.008
[3.60 ± 0.2]
0.142 ± 0.008
[3.60 ± 0.2]
0.098 ± 0.008
[2.50 ± 0.2]
0.020 ± 0.004
[0.50 ± 0.1]
LENGTH (L)
WIDTH (W)
HEIGHT (H)
TERMINAL (S)
A
B
C
0.142 ± 0.008
[3.60 ± 0.2]
0.142 ± 0.008
[3.60 ± 0.2]
0.098 ± 0.008
[2.50 ± 0.2]
0.020 ± 0.004
[0.50 ± 0.1]
0.080 ± 0.004
[2.00 ± 0.1]
0.063 ± 0.008
[1.60 ± 0.2]
0.098 ± 0.004
[2.50 ± 0.1]
DESCRIPTION
ISC-1008
10 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
S
C
PRODUCT FAMILY
Document Number: 34173
Revision: 10-Aug-06
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ISC-1008
Wirewound, Surface Mount,
Shielded Inductor
Vishay Dale
PERFORMANCE GRAPHS ISC-1008
Q vs. FREQUENCY
100
90
80
70
100 µH
Q
60
1 µH
50
10 µH
40
30
20
1000 µH
10
0
0.1
1
10
100
FREQUENCY (MHz)
INDUCTANCE vs. FREQUENCY
10 000
1000 µH
INDUCTANCE (µH)
1000
100 µH
100
10 µH
10
1 µH
1
0
0.01
0.1
1
FREQUENCY (MHz)
10
100
TAPE AND REEL SPECIFICATIONS in inches [millimeters]
REEL DIMENSIONS
TAPE DIMENSIONS
0.08 ± 0.02
[2.0 ± 0.5]
Ø
0.098 ± 0.02
[2.5 ± 0.5]
0.217 ± 0.002
[5.5 ± 0.05]
0.158 ± 0.004 0.08 ± 0.002
[4.0 ± 0.1]
[2.0 ± 0.05]
0.07 ± 0.002
[1.75 ± 0.05]
0.1 ± 0.002
[0.3 ± 0.05]
0.51 ± 0.02
[13.0 ± 0.5]
Ø
0.472 ± 0.008
[12.0 ± 0.2]
0.83 ± 0.03
[21.0 ± 0.8]
7.0 ± 0.08
[178.0 ± 2.0]
B ± 0.004
[± 0.1]
0.315 ± 0.004
[8.0 ± 0.1]
0.472 ± 0.04
[12.0 ± 1.0]
T
± 0.002
[± 0.05]
A ± 0.004
[± 0.1]
MODEL
UNITS PER REEL
MODEL
A
B
T
ISC-1008
750
ISC-1008
0.150 [3.8]
0.157 [4.0]
0.098 [2.5]
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185
For technical questions, contact: [email protected]
Document Number: 34173
Revision: 10-Aug-06
IMC-1210
Vishay Dale
Wirewound, Surface Mount Molded Inductors
FEATURES
STANDARD ELECTRICAL SPECIFICATIONS
TEST FREQ.
SRF DCR RATED DC
(MHz)
IND.
Q
MIN. MAX. CURRENT
(μH) TOL.
L&Q
MIN. (MHz) ()
(mA) (1)
0.010 20 %
50
30
1000 0.13
734
0.012 20 %
50
30
1000 0.14
707
0.015 20 %
50
30
1000 0.16
661
0.018 20 %
50
30
1000 0.18
624
0.022 20 %
50
30
1000 0.20
592
0.027 20 %
50
30
1000 0.22
564
0.033 20 %
50
30
1000 0.24
540
0.039 20 %
50
30
1000 0.27
530
0.047 20 %
50
30
1000 0.30
483
0.056 20 %
50
30
1000 0.33
470
0.068 20 %
50
30
1000 0.36
450
0.082 20 %
50
30
900
0.40
450
0.10 20 %
50
30
700
0.44
450
0.12 20 %
25.2
30
500
0.22
584
0.15 20 %
25.2
30
450
0.25
548
0.18 20 %
25.2
30
400
0.28
518
0.22 20 %
25.2
30
350
0.32
484
0.27 20 %
25.2
30
320
0.36
456
0.33 20 %
25.2
30
300
0.40
453
0.39 20 %
25.2
30
250
0.45
450
0.47 20 %
25.2
30
220
0.50
450
0.56 20 %
25.2
30
180
0.55
450
0.68 20 %
25.2
30
160
0.60
450
0.82 20 %
25.2
30
140
0.67
450
1.0
10 %
7.96
30
120
0.70
400
1.2
10 %
7.96
30
100
0.75
390
1.5
10 %
7.96
30
85
0.85
370
1.8
10 %
7.96
30
80
0.90
350
2.2
10 %
7.96
30
75
1.0
320
2.7
10 %
7.96
30
70
1.1
290
3.3
10 %
7.96
30
60
1.2
260
3.9
10 %
7.96
30
55
1.3
250
4.7
10 %
7.96
30
50
1.5
224
5.6
10 %
7.96
30
45
1.6
217
6.8
10 %
7.96
30
40
1.8
204
8.2
10 %
7.96
30
38
2.0
194
10
10 %
2.52
30
33
2.1
189
12
10 %
2.52
30
30
2.5
173
15
10 %
2.52
30
21
2.8
164
18
10 %
2.52
30
20
3.3
151
22
10 %
2.52
30
19
3.7
145
27
10 %
2.52
30
18
5.0
122
33
10 %
2.52
30
16
6.0
112
39
10 %
2.52
30
15
7.0
104
47
10 %
2.52
30
14
9.0
91
56
10 %
2.52
30
12
10.0
87
68
10 %
2.52
30
11
11.0
83
82
10 %
2.52
30
10
12.0
79
100 10 %
0.796
20
9
14.0
73
120 10 %
0.796
15
8
11.0
70
150 10 %
0.796
15
6.5
15.0
65
180 10 %
0.796
15
6
17.0
60
220 10 %
0.796
15
6
21.0
50
Note
(1) Rated DC current based on the maximum temperature rise, not
to exceed 40 °C at + 85 °C ambient
• Printed marking
• Molded construction provides superior strength
and moisture resistance
• Compatible with vapor phase and infrared reflow
soldering
• Tape and reel packaging for automatic handling,
2000/reel, EIA-481
• Compliant to RoHS Directive 2002/95/EC
ELECTRICAL SPECIFICATIONS
Inductance Range: 0.01 μH to 220 μH
Inductance and Tolerance: ± 20 % for 0.01 μH to 0.82 μH,
± 10 % for 1.0 μH to 220 μH standard. Special tolerances
available.
Operating Temperature: - 55 °C to + 125 °C
Coilform Material: Non-magnetic from 0.01 μH to 0.10 μH
Powdered iron from 0.12 μH to 100 μH
Ferrite from 120 μH to 220 μH
TEST EQUIPMENT
• HP4342A Q meter with Vishay Dale test fixture or equivalent
• HP4191A RF impedance analyzer (for SRF measurements)
• Wheatstone brigde
DIMENSIONS in inches [millimeters]
0.087 ± 0.008
[2.21 ± 0.203]
0.030
[0.762]
Typ.
0.006
[0.152]
Ref.
Typ.
0.040
[1.02]
0.126 ± 0.008
[3.20 ± 0.203]
0.098 ± 0.008
[2.49 ± 0.203]
0.028 ± 0.004
[0.711 ± 0.102]
Typ.
0.073
[1.85]
Ref.
0.118
[3.0]
Guidelines for
Parallel Component
Printed Circuit
Mounting Pads on
IMC-1210-100
Chip Inductors
0.138
[3.5]
0.020 (1)
[0.5]
0.118
[3.0]
0.039
[1.0]
Note
(1)
Recommended spacing between components
0.070
[1.8]
0.039
[1.0]
PART MARKING
- Vishay Dale
- Inductance value
- Date code
DESCRIPTION
IMC-1210
MODEL
10 μH
INDUCTANCE VALUE
± 10 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
M
PRODUCT
FAMILY
Document Number: 34043
Revision: 15-Mar-11
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CODE
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INDUCTANCE
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186
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IMC-1210-100
Vishay Dale
Wirewound, Surface Mount Molded Inductors
FEATURES
• Printed marking
• Molded construction provides superior strength
and moisture resistance
• Compatible with vapor phase and infrared reflow
soldering
• Tape and reel packaging for automatic handling,
2000/reel, EIA-481
• Compliant to RoHS directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
IND.
(μH)
TEST
FREQ.
(MHz)
L&Q
0.010
0.012
Q
MIN.
SRF
MIN.
(MHz) (1)
DCR
MAX.
()
RATED
DC
CURRENT
(mA)
100
15
2500
0.13
734
100
17
2300
0.14
707
0.015
100
19
2100
0.16
661
0.018
100
21
1900
0.18
624
0.022
100
23
1700
0.20
592
0.027
100
23
1500
0.22
564
0.033
100
25
1400
0.24
540
0.039
100
25
1300
0.27
530
0.047
100
26
1200
0.30
483
0.056
100
26
1100
0.33
470
0.068
100
27
1000
0.36
450
0.082
100
27
900
0.40
450
0.10
100
28
700
0.44
450
ELECTRICAL SPECIFICATIONS
Inductance and Tolerance: ± 20 % for 0.010 μH to 0.100 μH
standard.
± 10 % for 0.010 μH to 0.100 μH
± 5 % for 0.027 μH to 0.100 μH
optional.
Operating Temperature: - 55 °C to + 125 °C
Core Material: Non-magnetic from 0.010 μH to 0.100 μH
TEST EQUIPMENT
• L, Q, SRF: HP4191A RF impedance analyzer
• DCR: Wheatstone brigde or equivalent
DIMENSIONS in inches [millimeters]
0.087 ± 0.008
[2.21 ± 0.203]
0.030
[0.762]
Typ.
0.006
[0.152]
Ref.
Typ.
0.040
[1.02]
0.126 ± 0.008
[3.20 ± 0.203]
0.098 ± 0.008
[2.49 ± 0.203]
0.028 ± 0.004
[0.711 ± 0.102]
Typ.
Note
(1) All SRF values above 1000 MHz are typical minimums.
PART MARKING
0.073
[1.85]
Ref.
0.118
[3.0]
Guidelines for
Parallel Component
Printed Circuit
Mounting Pads on
IMC-1210-100
Chip Inductors
- Vishay Dale
- Inductance value
- Date code
0.138
[3.5]
0.020 (1)
[0.5]
0.118
[3.0]
0.039
[1.0]
Note
(1)
Recommended spacing between components
0.039
[1.0]
0.070
[1.8]
DESCRIPTION
IMC-1210-100
0.010 μH
± 20 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
M
PRODUCT
FAMILY
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INDUCTANCE
VALUE
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TOL.
1
0
0
SERIES
Document Number: 34042
Revision: 30-Jun-09
ISC-1210
Vishay Dale
Wirewound, Surface Mount, Molded, Shielded Inductors
FEATURES
STANDARD ELECTRICAL SPECIFICATIONS
TEST
FREQ.
(MHz)
Q
L & Q MIN.
50
50
50
50
50
50
50
50
50
45
50
45
50
45
50
40
50
40
50
40
50
40
50
38
50
36
25.2
40
25.2
40
25.2
40
25.2
40
25.2
40
25.2
40
25.2
40
25.2
40
25.2
40
25.2
40
25.2
40
7.96
30
7.96
30
7.96
30
7.96
30
7.96
30
7.96
30
7.96
30
7.96
30
7.96
30
7.96
30
7.96
30
7.96
30
2.52
30
2.52
30
2.52
30
2.52
30
2.52
30
2.52
30
2.52
30
2.52
30
2.52
30
2.52
30
2.52
30
2.52
30
0.796
30
DCR RATED DC
SRF
MIN. MAX. CURRENT
IND.
(mA) (1)
()
(MHz)
(μH)
TOL.
0.010 ± 20 %
1000
0.10
810
0.012 ± 20 %
1000
0.11
750
0.015 ± 20 %
1000
0.12
720
0.018 ± 20 %
1000
0.13
690
0.022 ± 20 %
1000
0.15
640
0.027 ± 20 %
1000
0.17
610
0.033 ± 20 %
1000
0.18
585
0.039 ± 20 %
1000
0.24
530
0.047 ± 20 %
1000
0.26
495
0.056 ± 20 %
1000
0.28
485
0.068 ± 20 %
1000
0.35
475
0.082 ± 20 %
900
0.45
460
0.10
± 20 %
700
0.50
450
0.12
± 20 %
500
0.20
630
0.15
± 20 %
470
0.20
600
0.18
± 20 %
400
0.24
580
0.22
± 20 %
330
0.30
565
0.27
± 20 %
310
0.33
500
0.33
± 20 %
280
0.36
475
0.39
± 20 %
230
0.40
465
0.47
± 20 %
220
0.44
460
0.56
± 20 %
200
0.46
455
0.68
± 20 %
180
0.48
450
0.82
± 20 %
160
0.50
450
1.0
± 10 %
120
0.60
400
1.2
± 10 %
110
0.65
390
1.5
± 10 %
90.0
0.75
370
1.8
± 10 %
85.0
0.85
350
2.2
± 10 %
65.0
0.90
320
2.7
± 10 %
60.0
1.00
290
3.3
± 10 %
60.0
1.10
270
3.9
± 10 %
58.0
1.20
250
4.7
± 10 %
52.0
1.25
220
5.6
± 10 %
50.0
1.40
210
6.8
± 10 %
40.0
1.60
205
8.2
± 10 %
35.0
1.65
195
10.0
± 10 %
30.0
2.00
185
12.0
± 10 %
24.0
2.30
175
15.0
± 10 %
20.0
2.50
165
18.0
± 10 %
17.0
2.70.
155
22.0
± 10 %
16.0
3.10
150
27.0
± 10 %
14.5
3.30
125
33.0
± 10 %
14.5
5.10
115
39.0
± 10 %
14.0
5.90
105
47.0
± 10 %
13.0
8.00
100
56.0
± 10 %
11.5
10.0
95
68.0
± 10 %
11.0
10.0
90
82.0
± 10 %
11.0
11.0
85
100.0 ± 10 %
6.0
12.0
80
Note
(1) Rated DC current based on the maximum temperature rise, not
to exceed 40 °C at + 85 °C ambient
• Molded construction provides superior strength
and moisture resistance
• Tape and reel packaging for automatic handling,
2000/reel, EIA-481
• Compatible with vapor phase, infrared and wave
soldering methodsfio
• Shielded construction minimizes coupling to
other components
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
ELECTRICAL SPECIFICATIONS
Inductance Range: 0.01 μH to 100 μH
Inductance Tolerance: ± 20 % for 0.01 μH to 0.82 μH;
± 10 % for 1.0 μH to 100 μH standard; ± 5 %, ± 3 % available
Operating Temperature: - 55 °C to + 125 °C
Coilform Material: Non-magnetic for 0.01 μH to 0.10 μH;
powdered iron for 0.12 μH to 100 μH
TEST EQUIPMENT
• H/P 4342A Q meter with Vishay Dale test fixture or equivalent
• H/P 4191A RF impedance analyzer (for SRF measurements)
• Wheatstone bridge
DIMENSIONS in inches [millimeters]
0.030 [0.762]
Typ.
0.087 ± 0.008
[2.21 ± 0.203]
0.006 [0.152]
Ref. Typ.
0.126 ± 0.008
[3.20 ± 0.203]
0.040
[1.02]
0.098 ± 0.008
[2.49 ± 0.203]
0.028 ± 0.004
[0.711 ± 0.102]
Typ.
0.118
[3.0]
0.073 [1.85]
Ref.
Guidelines for
Parallel Component
Printed Circuit
Mounting Pads on
ISC-1210 Chip
Inductors
0.138
[3.5]
0.118
0.020 (1) [3.0]
[0.508]
0.039
[1.0]
0.039
[1.0]
0.070 [1.8]
Note
(1) Recommended minimum spacing between components
PART MARKING
- Vishay Dale
- Inductance value
- Date code
DESCRIPTION
ISC-1210
MODEL
10 μH
INDUCTANCE VALUE
± 10 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
S
PRODUCT
FAMILY
Document Number: 34060
Revision: 24-Feb-11
C
1
2
1
SIZE
0
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
INDUCTANCE
VALUE
0
K
TOL.
www.vishay.com
188
IMC-1812
Vishay Dale
Wirewound, Surface Mount, Molded Inductors
FEATURES
STANDARD ELECTRICAL SPECIFICATIONS
TEST FREQ.
SRF DCR RATED DC
(MHz)
MIN. MAX. CURRENT
Q
IND.
(mA) (1)
MIN. (MHz) ()
(μH)
TOL.
L&Q
0.010 ± 20 %
50.0
50 1000 0.20
450
0.012 ± 20 %
50.0
50 1000 0.20
450
0.018 ± 20 %
50.0
50 1000 0.20
450
0.022 ± 20 %
50.0
50 1000 0.20
450
0.027 ± 20 %
50.0
50 1000 0.20
450
0.033 ± 20 %
50.0
50 1000 0.30
450
0.039 ± 20 %
50.0
50 1000 0.30
450
0.047 ± 20 %
50.0
50 1000 0.30
450
0.056 ± 20 %
50.0
40
900
0.35
450
0.068 ± 20 %
50.0
40
800
0.35
450
0.082 ± 20 %
50.0
40
700
0.40
450
0.10 ± 20 %
25.2
30
650
0.32
450
0.12 ± 20 %
25.2
30
600
0.30
450
0.15 ± 20 %
25.2
30
500
0.30
450
0.18 ± 20 %
25.2
30
400
0.35
450
0.22 ± 20 %
25.2
30
350
0.40
450
0.27 ± 20 %
25.2
30
300
0.45
450
0.33 ± 20 %
25.2
30
250
0.55
430
0.39 ± 20 %
25.2
30
220
0.70
380
0.47 ± 10 %
25.2
30
190
0.80
355
0.56 ± 10 %
25.2
30
170
1.20
285
0.68 ± 10 %
25.2
30
150
1.40
270
0.82 ± 10 %
25.2
30
140
1.60
250
1.0
± 10 %
7.96
50
100
0.50
450
1.2
± 10 %
7.96
50
80.0 0.55
430
1.5
± 10 %
7.96
50
70.0 0.60
410
1.8
± 10 %
7.96
50
60.0 0.65
390
2.2
± 10 %
7.96
50
55.0 0.70
380
2.7
± 10 %
7.96
50
50.0 0.75
370
3.3
± 10 %
7.96
50
45.0 0.80
355
3.9
± 10 %
7.96
50
40.0 0.90
330
4.7
± 10 %
7.96
50
35.0 1.00
315
5.6
± 10 %
7.96
50
33.0 1.10
300
6.8
± 10 %
7.96
50
27.0 1.20
285
8.2
± 10 %
7.96
50
25.0 1.40
270
10.0 ± 10 %
2.52
50
20.0 1.60
250
12.0 ± 10 %
2.52
50
18.0 2.00
225
15.0 ± 10 %
2.52
50
17.0 2.50
200
18.0 ± 10 %
2.52
50
15.0 2.80
190
22.0 ± 10 %
2.52
50
13.0 3.20
180
27.0 ± 10 %
2.52
50
12.0 3.60
170
33.0 ± 10 %
2.52
50
11.0 4.00
160
39.0 ± 10 %
2.52
50
11.0 4.50
150
47.0 ± 10 %
2.52
50
10.0 5.00
140
56.0 ± 10 %
2.52
50
9.0
5.50
135
68.0 ± 10 %
2.52
50
9.0
6.00
130
82.0 ± 10 %
2.52
50
8.0
7.00
120
100.0 ± 10 %
0.79
40
8.0
8.00
110
120.0 ± 10 %
0.79
40
6.0
8.00
110
150.0 ± 10 %
0.79
40
5.0
9.00
105
180.0 ± 10 %
0.79
40
5.0
9.50
102
220.0 ± 10 %
0.79
40
4.0
10.0
100
270.0 ± 10 %
0.79
40
4.0
12.0
92
330.0 ± 10 %
0.79
40
3.5
14.0
85
390.0 ± 10 %
0.79
40
3.0
16.0
80
470.0 ± 10 %
0.79
40
3.0
26.0
62
560.0 ± 10 %
0.79
30
3.0
30.0
50
680.0 ± 10 %
0.79
30
3.0
30.0
50
820.0 ± 10 %
0.79
30
2.5
35.0
30
1000.0 ± 10 %
0.25
30
2.5
40.0
30
Note
(1) Rated DC current based on the maximum temperature rise, not
to exceed 40 °C at + 85 °C ambient
Document Number: 34044
Revision: 23-Feb-11
• Molded construction provides superior strength
and moisture resistance
• Tape and reel packaging for automatic
handling, 2000/reel, EIA-481
• Printed marking
• Compatible with vapor phase and infrared reflow
soldering
• Compliant to RoHS Directive 2002/95/EC
ELECTRICAL SPECIFICATIONS
Inductance Range: 0.010 μH to 1000 μH
Inductance Tolerance: ± 20 % for 0.010 μH to 0.39 μH
± 10 % for 0.47 μH to 1000 μH standard
± 10 %, ± 5 %, ± 3 % available
Operating Temperature: - 55 °C to + 125 °C
Coilform Material: Non-magnetic for 0.010 μH to 0.82 μH
Powdered iron for 1.0 μH to 120 μH
Ferrite for 150 μH to 1000 μH
TEST EQUIPMENT
• H/P 4342A Q meter with Vishay Dale test fixture or
equivalent
• H/P 4191A RF impedance analyzer (for SRF
measurements)
• Wheatstone bridge
DIMENSIONS in inches [millimeters]
0.037 ± 0.008
[0.940 ± 0.203]
0.126 ± 0.008
[3.200 ± 0.203]
0.006 [0.152]
Ref. Typ.
0.177 ± 0.008
[4.500 ± 0.203]
+ 0.004
- 0.008
+ 0.102
[1.270 - 0.203 ]
0.050
0.126 ± 0.008
[3.200 ± 0.203]
Typ.
0.030 ± 0.004
[0.762 ± 0.102]
Typ.
0.124 [3.15]
Ref.
Guidelines for
Parallel Component
Printed Circuit
Mounting Pads on
IMC-1812 Chip
Inductors
0.158
[4.0]
0.181
[4.6]
0.024 (1)
[0.6]
0.059
[1.5]
0.158
[4.0]
0.059
[1.5]
0.118 [3.0]
Note
(2) Recommended minimum spacing between components
PART MARKING
- Vishay Dale
- Inductance value
- Date code
For technical questions, contact: [email protected]
www.vishay.com
189
IMC-1812
Wirewound, Surface Mount, Molded Inductors
Vishay Dale
DESCRIPTION
IMC-1812
10 μH
± 10 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
M
PRODUCT
FAMILY
www.vishay.com
190
C
1
8
1
SIZE
2
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
0
0
INDUCTANCE
VALUE
K
TOL.
Document Number: 34044
Revision: 23-Feb-11
ISC-1812
www.vishay.com
Vishay Dale
Wirewound, Surface Mount, Molded, Shielded Inductors
FEATURES
STANDARD ELECTRICAL SPECIFICATIONS
IND.
(μH)
0.1
0.1
0.2
0.2
0.2
0.3
0.3
0.4
0.5
0.6
0.7
0.8
1.0
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
120.0
150.0
180.0
220.0
270.0
330.0
390.0
470.0
560.0
680.0
820.0
1000.0
TEST
FREQ.
(MHz)
TOL.
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 20 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
L&Q
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
7.96
7.96
7.96
7.96
7.96
7.96
7.96
7.96
7.96
7.96
7.96
7.96
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.252
SRF
MIN.
Q MIN. (MHz)
30
460
30
400
30
390
30
350
30
310
30
280
30
240
30
215
30
205
30
195
30
165
30
155
30
140
30
120
30
100
30
90.0
30
80.0
30
67.0
30
61.0
30
56.0
30
50.0
30
40.0
30
32.0
30
30.0
50
25.0
50
22.0
50
18.0
50
15.0
50
14.0
50
13.0
50
12.0
50
11.0
50
9.0
50
8.0
50
7.6
50
7.2
40
7.0
40
6.0
40
5.0
40
4.5
40
4.2
40
4.0
40
3.7
40
3.5
40
3.3
30
2.8
40
2.6
30
2.2
30
2.0
DCR
MAX.
()
0.23
0.26
0.29
0.32
0.36
0.40
0.45
0.60
0.75
0.80
0.95
1.20
0.35
0.38
0.40
0.43
0.46
0.49
0.55
0.59
0.62
0.69
0.75
0.82
0.90
1.00
1.10
1.24
1.36
1.56
1.72
1.89
2.10
2.34
2.60
2.86
3.25
3.64
4.16
5.72
6.30
6.90
7.54
8.20
9.20
10.50
12.00
13.50
16.00
RATED DC
CURRENT
(mA) (1)
552
519
491
468
441
418
394
342
306
296
271
242
447
429
418
403
390
378
357
344
336
333
306
292
279
265
252
238
227
212
202
192
183
173
164
156
147
139
130
111
105
101
96
92
87
82
76
72
66
Note
(1) Rated DC current based on the maximum temperature rise, not
to exceed 40 °C at + 85 °C ambient
Revision: 02-Sep-11
• Molded construction provides superior strength
and moisture resistance
• Tape and reel packaging for automatic handling,
2000/reel, EIA-481
• Compatible with vapor phase and infrared reflow
soldering
• Shielded construction minimizes coupling to other
components
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
ELECTRICAL SPECIFICATIONS
Inductance Range: 0.10 μH to 1000 μH
Inductance Tolerance: ± 20 % for 0.10 μH to 0.82 μH
± 10 % for 1.0 μH to 1000 μH
standard
± 10 %, ± 5 %, ± 3 % available
Operating Temperature: - 55 °C to + 125 °C
Coilform Material: Non-magnetic for 0.10 μH to 0.82 μH
Powdered iron for 1.0 μH to 22 μH
Ferrite for 27 μH to 1000 μH
TEST EQUIPMENT
• H/P 4342A Q meter with Vishay Dale test fixture or equivalent
• H/P 4191A RF impedance analyzer (for SRF measurements)
• Wheatstone bridge
DIMENSIONS in inches [millimeters]
0.037 ± 0.008
[0.940 ± 0.203]
0.126 ± 0.008
[3.200 ± 0.203]
0.006 [0.152]
Ref. Typ.
0.177 ± 0.008
[4.500 ± 0.203]
+ 0.004
- 0.008
+ 0.102
[1.270 - 0.203 ]
0.050
0.126 ± 0.008
[3.200 ± 0.203]
Typ.
0.030 ± 0.004
[0.762 ± 0.102]
Typ.
0.124 [3.15]
Ref.
Guidelines for
Parallel Component
Printed Circuit
Mounting Pads on
ISC-1812 Chip
Inductors
0.158
[4.0]
0.181
[4.6]
0.024 (1)
[0.6]
0.059
[1.5]
0.158
[4.0]
0.059
[1.5]
0.118 [3.0]
Note
(1) Recommended minimum spacing between components
PART MARKING
- Vishay Dale
- Inductance value
- Date code
Document Number: 34061
191
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
ISC-1812
www.vishay.com
Vishay Dale
COUPLING SPECIFICATIONS (maximum)
COUPLING (%)
10
5
1
0.5
1
5
10
50 100
5001000
INDUCTANCE (µH)
DESCRIPTION
ISC-1812
10 μH
± 10 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
S
PRODUCT
FAMILY
Revision: 02-Sep-11
C
1
8
1
SIZE
2
E
R
PACKAGE
CODE
1
0
INDUCTANCE
VALUE
0
K
TOL.
Document Number: 34061
192
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
IMCH-1812
Vishay Dale
Wirewound, Surface Mount, Molded Inductors
FEATURES
• Molded construction provides superior strength
and moisture resistance
• Tape and reel packaging for automatic
handling, 500/reel, EIA-481
• Compatible with vapor phase, infrared and
wave soldering methods
• Compliant to RoHS Directive 2002/95/EC
STANDARD ELECTRICAL SPECIFICATIONS
TOL.
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
Q
MIN.
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
20
20
20
20
20
20
20
SRF
MIN.
(MHz)
200
160
130
100
60.0
60.0
45.0
40.0
35.0
30.0
28.0
25.0
22.0
21.0
20.0
19.0
18.0
16.0
14.0
12.0
11.5
11.0
10.0
9.0
8.0
6.5
7.0
5.5
5.5
5.0
4.0
DCR
MAX.
()
0.11
0.12
0.15
0.16
0.18
0.20
0.22
0.24
0.3
0.3
0.4
0.4
0.5
0.6
0.7
0.8
0.9
1.2
1.4
1.6
1.9
2.2
2.6
3.5
4.0
4.5
6.5
7.5
9
11
13
RATED DC
CURRENT
(mA) (1)
1050
1000
950
900
850
800
750
700
650
650
600
600
550
500
450
400
370
330
300
280
260
240
220
200
180
160
140
120
120
100
90
ELECTRICAL SPECIFICATIONS
Inductance Range: 1 μH to 330 μH
Inductance Tolerance: ± 10 %
Operating Temperature: - 40 °C to + 85 °C
Storage Temperature: - 40 °C to + 100 °C
TEST EQUIPMENT
• L & Q: H/P 4285A
• SRF: H/P 4286A
• DCR: H/P 34401
DIMENSIONS in inches [millimeters]
B
C
IND.
(μH)
1.0
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10
12
15
18
22
27
33
39
47
56
68
82
100
120
150
180
220
270
330
TEST
FREQ.
(MHz)
L&Q
7.96
7.96
7.96
7.96
7.96
7.96
7.96
7.90
7.96
7.96
7.96
7.96
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
0.796
0.796
0.796
0.796
0.796
0.796
0.796
E
A
Note
(1) Rated DC current based on the maximum temperature rise, not
to exceed 40 °C at + 85 °C ambient
D
A
B
C
0.177 ± 0.012
[4.5 ± 0.3]
0.126 ± 0.012
[3.2 ± 0.3]
0.126 ± 0.012
[3.2 ± 0.3]
D
E
0.055 ± 0.016
[1.4 ± 0.4]
0.035 ± 0.008
[0.9 ± 0.2]
PART MARKING
- Inductance value
DESCRIPTION
IMCH-1812
22 μH
± 10 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
M
C
PRODUCT FAMILY
Document Number: 34152
Revision: 28-Feb-11
H
1
8
1
SIZE
2
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
2
2
0
INDUCTANCE
VALUE
K
TOL.
www.vishay.com
193
IMC-2220
Vishay Dale
High Frequency, Surface Mount Molded Inductors
FEATURES
• Molded construction provides superior strength
and moisture resistance
• Compatible with vapor phase infrared and wave
soldering methods (100 % tin plating)
STANDARD ELECTRICAL SPECIFICATIONS
• Tape and reel packaging for automatic handling, 2000/reel
TEST
FREQ.
(MHz)
L&Q
7.96
7.96
7.96
7.96
7.96
7.96
7.96
7.96
7.96
7.96
7.96
7.96
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
2.52
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.252
0.252
0.252
0.252
0.252
0.252
0.252
0.252
0.252
0.252
0.252
0.252
0.0796
SRF
MIN.
(MHz)
95
70
55
47
42
37
34
32
29
26
24
22
19
17
16
14
13
11.5
10.5
9.5
8.5
7.8
7
6.4
6
5.4
4.8
4.4
3.9
3.6
3.2
2.9
2.6
2.4
2.2
2
1.8
1.5
1.4
1.3
1.2
1.1
1
1
0.9
0.8
0.7
0.6
0.5
DCR
MAX.
()
0.030
0.035
0.040
0.050
0.060
0.070
0.080
0.090
0.110
0.130
0.150
0.180
0.210
0.250
0.300
0.360
0.430
0.520
0.620
0.720
0.850
1.00
1.20
1.40
1.60
1.90
2.20
2.80
3.40
4.20
4.90
5.80
7.00
8.50
10.0
13.0
15.0
17.0
20.0
30.0
35.0
55.0
60.0
70.0
78.0
85.0
110.0
125.0
150.0
RATED DC
CURRENT
(mA) (1)
1800
1700
1600
1400
1300
1200
1120
1050
950
880
810
750
690
630
580
530
480
440
400
370
340
310
290
270
250
230
210
190
170
155
140
130
120
110
100
90
85
75
70
60
55
45
40
38
36
33
30
28
25
Q
IND.
MIN.
(μH)
TOL.
1.0
10 %
10
1.2
10 %
10
1.5
10 %
10
1.8
10 %
10
2.2
10 %
10
2.7
10 %
10
3.3
10 %
10
3.9
10 %
10
4.7
10 %
10
5.6
10 %
10
6.8
10 %
10
8.2
10 %
10
10
10 %
10
12
10 %
10
15
10 %
10
18
10 %
10
22
10 %
10
27
10 %
10
33
10 %
10
39
10 %
10
47
10 %
10
56
10 %
10
68
10 %
10
82
10 %
10
100
10 %
20
120
10 %
20
150
10 %
20
180
10 %
20
220
10 %
20
270
10 %
20
330
10 %
20
390
10 %
20
470
10 %
20
560
10 %
20
680
10 %
20
820
10 %
20
1000
10 %
20
1200
5%
20
1500
5%
20
1800
5%
20
2200
5%
20
2700
5%
20
3300
5%
20
3900
5%
20
4700
5%
20
5600
5%
20
6800
5%
20
8200
5%
20
10 000 5 %
15
Note
(1) Rated DC current based on the maximum temperature rise, not
to exceed 40 °C at + 85 °C ambient
• Compliant to RoHS Directive 2002/95/EC
ELECTRICAL SPECIFICATIONS
Inductance Range: 1.0 μH to 10 000 μH
Inductance and Tolerance: ± 10 %, ± 5 %
Operating Temperature: - 40 °C to + 125 °C
Storage Temperature: - 40 °C to + 125 °C
TEST EQUIPMENT
• Inductance and Q measured on HP4191
• SRF measured on HP3755
• DCR measured on HP34401
DIMENSIONS in inches [millimeters]
0.197 ± 0.008
[5.0 ± 0.2]
0.221 ± 0.012
[5.6 ± 0.3]
0.157 ± 0.008
[4.0 ± 0.2]
0.043 [1.1] Ref.
0.028 ± 0.004
[0.7 ± 0.1]
0.157 ± 0.008
[4.0 ± 0.2]
0.079 [2.0] 0.157 [4.0] 0.079 [2.0]
Ref.
Ref.
Ref.
822
0.177
[4.5]
Ref.
DESCRIPTION
IMC-2220
MODEL
22 μH
INDUCTANCE VALUE
± 10 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
E3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
M
PRODUCT
FAMILY
Document Number: 34127
Revision: 15-Mar-11
C
2
2
2
SIZE
0
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
2
2
INDUCTANCE
VALUE
0
K
TOL.
www.vishay.com
194
This datasheet is subject to change without notice.
THE PRODUCT DESCRIBED HEREIN AND THIS DATASHEET ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
Contents
ICM-0805 .............................. 196
ICM-1206 .............................. 197
ICM-2824, ICM-3528,
ICM-4743 .............................. 198
Common
Mode Chokes
ICM-0805
Vishay Dale
Surface Mount Common Mode Choke
FEATURES
• Operating temperature - 40 °C to + 85 °C
• Excellent solderability and resistance to
soldering heat
• Suitable for flow and reflow soldering
• High reliability and easy surface mount assembly
• Compliant to RoHS directive 2002/95/EC
APPLICATIONS
•
•
•
•
USB 2.0 and IEEE1394
Notebook and personal computer
Digital camera
Scanner
STANDARD ELECTRICAL SPECIFICATIONS
COMMON MODE IMPEDANCE
RATED
WITHSTANDING
AT 100 MHz, ± 20 %
VOLTAGE
VOLTAGE
(1)
()
(VDC)
(VDC)
30
50
125
67
50
125
90
50
125
120
50
125
160
50
125
180
50
125
260
50
125
370
50
125
Notes
(1) Impedance is measured in HP4287A at a frequency of 100 MHz.
(2) For a 15 °C rise.
RATED CURRENT
MAX.
(mA) (2)
450
400
330
370
350
330
300
280
DC RESISTANCE
MAX.
()
0.20
0.25
0.35
0.30
0.35
0.35
0.40
0.45
INSULATION
RESISTANCE MIN.
(M)
10
10
10
10
10
10
10
10
DIMENSIONS in inches [millimeters]
0.047 ± 0.010
[1.2 ± 0.25]
0.047 ± 0.010
[1.2 ± 0.25]
0.079 ± 0.010
[2.0 ± 0.25]
(1)
0.102
[2.60]
(2)
(1)
(2)
(4)
(3)
0.016 [0.4]
0.016 [0.4]
0.046 [1.20]
0.016 [0.4]
(4)
(3)
0.018 [0.45]
0.018 [0.45]
0.035
[0.90]
0.031
[0.80]
0.035
[0.90]
TYPICAL PAD LAYOUT
DESCRIPTION
ICM-0805
120
± 20 %
ER
e3
MODEL
IMPEDANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
C
PRODUCT
FAMILY
www.vishay.com
196
M
0
8
0
SIZE
5
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
2
1
IMPEDANCE
M
TOL.
Document Number: 34159
Revision: 19-Apr-10
ICM-1206
Vishay Dale
Surface Mount Common Mode Choke
FEATURES
• Operating temperature - 40 °C to + 85 °C
• Excellent solderability and resistance to
soldering heat
• Suitable for flow and reflow soldering
• High reliability and easy surface mount assembly
• Compliant to RoHS directive 2002/95/EC
APPLICATIONS
•
•
•
•
USB 2.0 and IEEE1394
Notebook and personal computer
Digital camera
Scanner
STANDARD ELECTRICAL SPECIFICATIONS
COMMON MODE
IMPEDANCE AT
100 MHz, ± 20 %
()(1)
90
160
260
600
1000
2200
RATED VOLTAGE
(VDC)
50
50
50
50
50
50
WITHSTANDING
VOLTAGE
(VDC)
125
125
125
125
125
125
RATED CURRENT
MAX.
(mA) (2)
370
340
310
260
230
200
INSULATION
RESISTANCE MIN.
(M)
10
10
10
10
10
10
DC RESISTANCE
MAX.
()
0.3
0.4
0.5
0.8
1.0
1.2
Notes
(1) Impedance is measured in HP4287A at a frequency of 100 MHz.
(2) For a 15 °C rise.
DIMENSIONS in inches [millimeters]
0.075 ± 0.008
[1.9 ± 0.2]
0.063 ± 0.008
[1.6 ± 0.2]
0.126 ± 0.008
[3.2 ± 0.2]
(1)
0.150
[3.80]
(2)
(1)
(2)
(4)
(3)
0.024 [0.6]
0.016 [0.4]
0.063 [1.60]
0.024 [0.6]
(4)
(3)
0.043
[1.10]
0.024 [0.6]
0.024 [0.6]
0.063
[1.60]
0.043
[1.10]
TYPICAL PAD LAYOUT
DESCRIPTION
ICM-1206
600
± 20 %
ER
e3
MODEL
IMPEDANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
C
M
PRODUCT FAMILY
Document Number: 34158
Revision: 01-Mar-06
1
2
0
SIZE
6
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
6
0
IMPEDANCE
1
M
TOL.
www.vishay.com
197
ICM-2824, ICM-3528, ICM-4743
www.vishay.com
Vishay Dale
High Current Common Mode Choke
FEATURES
• SMD high current common mode choke for DC
power line
• Base terminals are treated, allows for easy
mounting on PCB
• Paired wire coil for high stability
• Optimized for transmission of high quality signals
• Operating Temperature: - 25 °C to + 85 °C
• Rated Current: Based on temp. rise; T: 40 °C, typical
• Compliant to RoHS Directive 2002/95/EC
APPLICATIONS
• LAN's, telephones, personal computers
• CD-ROM drives, electronic games
• Other electronic devices
STANDARD ELECTRICAL SPECIFICATIONS
COMMON MODE
IMPEDANCE
AT 100 MHz ± 25 %
()
300
700
700
1500
700
1000
PART NUMBER
ICM2824ER301V
ICM2824ER701V
ICM3528ER701V
ICM3528ER152V
ICM4743ER701V
ICM4743ER102V
RATED VOLTAGE
MAX.
(VDC)
RATED CURRENT
MAX.
(mA)
DC RESISTANCE
MAX.
()
INSULATION
RESISTANCE MIN.
(M)
80
80
80
80
80
80
5000
4000
5000
4500
8000
6000
0.01
0.015
0.01
0.015
0.006
0.014
10
10
10
10
10
10
DIMENSIONS in inches [millimeters]
A
H
E
(1)
B
(2)
(1)
(2)
D
G
C
F
(4)
(3)
J
SCHEMATIC
(3)
(4)
I
LAND PATTERN
PART NUMBER
A
B
C
D
E
F
G
H
I
J
0.118
0.256
0.098
0.063
0.276 ± 0.012 0.236 ± 0.008
0.157
0.063 ± 0.012 0.071 ± 0.012 0.118
[1.8 ± 0.3] [3.0] typ. [3.0] ref. [6.5] ref. [2.5] ref. [1.6] ref.
[7.0 ± 0.3]
[6.0 ± 0.2]
[4.0] max.
[1.6 ± 0.3]
0.354 ± 0.020 0.276 ± 0.012
0.197
0.060 ± 0.008 0.060 ± 0.008 0.138
0.138
0.335
0.098
0.071
[9.0 ± 0.5]
[7.0 ± 0.3]
[5.0] max.
[1.5 ± 0.2]
[1.5 ± 0.2] [3.5] typ. [3.5] ref. [8.5] ref. [2.5] ref. [1.8] ref.
0.205
0.374
0.177
0.106
0.472 ± 0.20 0.433 ± 0.012
0.248
0.106 ± 0.008 0.091 ± 0.008 0.205
[2.7 ± 0.2]
[2.3 ± 0.2] [5.2] typ. [5.2] ref. [9.5] ref. [4.5] ref. [2.7] ref.
[12.0 ± 0.5]
[11.0 ± 0.3] [6.3]max.
ICM-2824
ICM-3528
ICM-4743
DESCRIPTION
ICM-3528
700
25 %
ER
e3
MODEL
IMPEDANCE VALUE
TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
C
MODEL
Revision: 05-Dec-11
M
3
5
2
SIZE
8
E
R
PACKAGE
CODE
7
0
IMPEDANCE
1
V
TOL.
Document Number: 34325
198
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
Contents
ILSB-0603 ............................. 200
ILSB-0805 ............................. 202
ILSB-1206 ............................. 204
ILBB-0402 ............................. 206
Multilayer
Ferrite
Inductors
and Beads
ILBB-0603 ............................. 209
ILBB-0805 ............................. 212
ILB-1206................................ 217
ILBB-1210, ILBB-1806,
ILBB-1812 ............................. 221
ILHB ...................................... 223
ILAS-1206 ............................. 227
ILSB-0603
Vishay Dale
Monolithic Chip Inductors
FEATURES
•
•
•
•
High reliability
Surface mountable
Magnetically self shielded
Nickel barrier plating virtuallly eliminates silver
migration
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
MECHANICAL SPECIFICATIONS
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C to 150 °C and type R flux dip
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux per above
Termination: 100 % Sn
Terminal Strength: 0.5 kg for 30 s
Beam Strength: 0.3 kg
ENVIRONMENTAL SPECIFICATIONS
Operating Temperature: - 55 °C to + 125 °C
Thermal Shock: - 40 °C to + 85 °C
Humidity: 90 % RH at 40 °C, 1000 h at full rated current
Load Life: 85 °C for 1000 h at full rated current
STANDARD ELECTRICAL SPECIFICATIONS
IND.
AT ± 10 %
(μH)
0.047
0.068
0.082
0.10
0.12
0.15
0.18
0.22
0.27
0.33
0.39
0.47
0.56
0.68
0.82
1.0
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10
TEST FREQ.
(MHz)
L&Q
50
50
50
25
25
25
25
25
25
25
25
25
25
25
25
10
10
10
10
10
10
10
10
10
4
4
4
2
THICKNESS “D”
(INCHES [mm])
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
0.031 ± 0.008 [0.80 ± 0.2]
TOL.
20 %
20 %
20 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
Q
MIN.
10
10
10
15
15
15
15
15
15
15
15
15
15
15
15
35
35
35
35
35
35
35
35
35
30
30
30
30
SRF MIN.
(MHz)
260
250
245
276
236
207
190
173
157
144
127
121
110
104
98
87
74
69
64
58
52
46
41
38
22
20
18
17
DCR
MAX.
()
0.15
0.25
0.25
0.50
0.50
0.60
0.60
0.80
0.80
0.85
1.00
1.35
1.55
1.70
2.10
0.60
0.80
0.80
0.95
1.15
1.35
1.55
1.70
2.10
1.55
1.70
2.10
2.55
RATED
DC CURRENT
(mA)
50
50
50
50
50
50
50
50
50
35
35
35
35
35
35
25
25
25
25
15
15
15
15
15
15
15
15
15
DESCRIPTION
ILSB-0603
3.3 μH
± 10 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
E
3
GLOBAL PART NUMBER
I
L
S
PRODUCT FAMILY
Document Number: 34027
Revision: 23-Feb-11
B
0
6
0
SIZE
3
R
PACKAGE
CODE
For technical questions, contact: [email protected]
R
INDUCTANCE
VALUE
3
K
TOL.
www.vishay.com
200
ILSB-0603
Monolithic Chip Inductors
Vishay Dale
DIMENSIONS in inches [millimeters]
100 % Sn Termination
B
G
A
F
Ferrite Body
H
D
E
C
Suggested Pad Layout
Dimensional Outline
A
B
C
D
E
F
G
H
0.063 ± 0.006
[1.6 ± 0.15]
0.031 ± 0.006
[0.8 ± 0.15]
0.012 ± 0.006
[0.3 ± 0.15]
0.031 ± 0.008
[0.8 ± 0.2]
0.105
[2.7]
0.035
[0.9]
0.025
[0.64]
0.040
[1.0]
TAPE AND REEL SPECIFICATIONS 0603 SIZE PER EIA-481-1 in inches [millimeters]
T
4000 Piece/Reel
P2
P0
E1
Ø D0
F
W
B0
Ø D1
A0
K0
P1
ØN
ØC
T1
A0
0.045 ± 0.004 [1.14 ± 0.1]
B0
0.068 ± 0.004 [1.75 ± 0.1]
D0
0.059 + 0.005/- 0.000 [1.5 + 0.127]
D1
0.039 min. [1.0 min.]
E1
0.069 ± 0.004 [1.75 ± 0.1]
F
0.138 ± 0.002 [3.50 ± 0.05]
K0
0.045 ± 0.002 [1.15 ± 0.05]
P0
0.157 ± 0.004 [4.00 ± 0.1]
P1
0.157 ± 0.004 [4.00 ± 0.1]
P2
0.079 ± 0.002 [2.00 ± 0.05]
W
0.327 max. [8.3 max.]
T
0.008 ± 0.002 [0.2 ± 0.05]
A
7.000 ± 0.079 [178 ± 2.0]
N
2.500 [63.5]
C
0.512 ± 0.020 [13.00 ± 0.50]
ØA
W
1
Empty Trailer
Components
Empty Tape
Cover Tape Leader
Unreel
Direction
160 mm Minimum
160 mm Minimum
www.vishay.com
201
390 mm Minimum
W1
0.315 + 0.059/- 0.000 [8.00 + 1.5]
T1
0.079 ± 0.002 [2.00 ± 0.05]
For technical questions, contact: [email protected]
Document Number: 34027
Revision: 23-Feb-11
ILSB-0805
Vishay Dale
Monolithic Chip Inductors
FEATURES
•
•
•
•
High reliability
Surface mountable
Magnetically self shielded
Nickel barrier plating virtuallly eliminates silver
migration
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21
definition
MECHANICAL SPECIFICATIONS
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C to 150 °C and type R flux dip
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux per above
Termination: 100 % Sn
Terminal Strength: 0.6 kg for 30 s
Beam Strength: 1.0 kg
ENVIRONMENTAL SPECIFICATIONS
Operating Temperature: - 55 °C to + 125 °C
Thermal Shock: - 40 °C to + 85 °C
Humidity: 90 % RH at 40 °C, 1000 h at full rated current
Load Life: 85 °C for 1000 h at full rated current
STANDARD ELECTRICAL SPECIFICATIONS
IND.
AT ± 10 %
(μH)
0.047
0.056
0.068
0.082
0.10
0.12
0.15
0.18
0.22
0.27
0.33
0.39
0.47
0.56
0.68
0.82
1.0
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
10
12
15
18
22
27
33
TEST FREQ.
(MHz)
L&Q
50
50
50
50
25
25
25
25
25
25
25
25
25
25
25
25
10
10
10
10
10
10
10
10
10
4
4
4
2
2
1
1
1
1
0.4
THICKNESS “D”
(INCHES [mm])
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.035 ± 0.008 [0.90 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
0.049 ± 0.008 [1.25 ± 0.2]
TOL.
20 %
20 %
20 %
20 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
Q
MIN.
15
15
15
15
20
20
20
20
20
20
20
25
25
25
25
25
45
45
45
45
45
45
45
45
45
45
45
45
50
50
30
30
30
30
30
SRF MIN.
(MHz)
320
300
280
255
279
253
230
213
196
173
167
156
144
133
121
115
87
75
69
64
58
52
48
44
41
37
34
30
28
26
22
21
19
17
13
DCR
MAX.
()
0.20
0.20
0.20
0.20
0.30
0.30
0.40
0.40
0.50
0.50
0.55
0.65
0.65
0.75
0.80
1.00
0.40
0.50
0.50
0.60
0.65
0.75
0.80
0.90
1.00
0.90
1.00
1.10
1.15
1.25
0.80
0.90
1.10
1.15
1.25
RATED
DC CURRENT
(mA)
300
300
300
300
250
250
250
250
250
250
250
200
200
150
150
150
50
50
50
50
30
30
30
30
30
15
15
15
15
15
5
5
5
5
5
DESCRIPTION
ILSB-0805
3.3 μH
± 10 %
ER
e3
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
E
3
GLOBAL PART NUMBER
I
L
S
PRODUCT FAMILY
Document Number: 34028
Revision: 23-Feb-11
B
0
8
0
SIZE
5
R
PACKAGE
CODE
For technical questions, contact: [email protected]
R
INDUCTANCE
VALUE
3
K
TOL.
www.vishay.com
202
ILSB-0805
Monolithic Chip Inductors
Vishay Dale
DIMENSIONS in inches [millimeters]
100 % Sn Termination
B
G
A
F
Ferrite Body
H
D
E
C
Suggested Pad Layout
Dimensional Outline
A
B
C
D
E
F
G
H
0.079 ± 0.008
[2.0 ± 0.2]
0.049 ± 0.008
[1.25 ± 0.2]
0.020 ± 0.012
[0.5 ± 0.3]
see electrical
specs
0.120
[3.0]
0.051
[1.3]
0.040
[1.0]
0.040
[1.0]
TAPE AND REEL SPECIFICATIONS 0805 SIZE PER EIA-481-1 in inches [millimeters]
T
P2
P0
E1
Ø D0
F
W
B0
Ø D1
A0
K0
P1
ØN
ØC
T1
A0
0.059 ± 0.004 [1.50 ± 0.1]
B0
0.092 ± 0.004 [2.34 ± 0.1]
D0
0.059 + 0.005/- 0.000 [1.5 + 0.127]
D1
0.039 min. [1.0 min.]
E1
0.069 ± 0.004 [1.75 ± 0.1]
F
0.138 ± 0.002 [3.50 ± 0.05]
K0
0.049 ± 0.002 [1.24 ± 0.05]
P0
0.157 ± 0.004 [4.00 ± 0.1]
P1
0.157 ± 0.004 [4.00 ± 0.1]
P2
0.079 ± 0.002 [2.00 ± 0.05]
W
0.327 max. [8.3 max.]
T
0.008 ± 0.002 [0.2 ± 0.05]
A
7.000 ± 0.079 [178 ± 2.0]
N
2.500 [63.5]
C
0.512 ± 0.020 [13.00 ± 0.50]
W1
0.315 + 0.059/- 0.000 [8.00 + 1.5]
T1
0.079 ± 0.002 [2.00 ± 0.05]
ØA
W
1
Empty Trailer
Components
Empty Tape
Cover Tape Leader
Unreel
Direction
160 mm Minimum
160 mm Minimum
www.vishay.com
203
390 mm Minimum
For technical questions, contact: [email protected]
Document Number: 34028
Revision: 23-Feb-11
ILSB-1206
Vishay Dale
Monolithic Chip Inductors
FEATURES
•
•
•
•
High reliability
Surface mountable
Magnetically self shielded
Nickel barrier plating virtuallly eliminates silver
migration
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
MECHANICAL SPECIFICATIONS
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C to 150 °C and type R flux dip
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux per above
Termination: 100 % Sn
Terminal Strength: 0.1 kg for 30 s
Beam Strength: 2.5 kg
ENVIRONMENTAL SPECIFICATIONS
Operating Temperature: - 55 °C to + 125 °C
Thermal Shock: - 40 °C to + 85 °C
Humidity: 90 % RH at 40 °C, 1000 h at full rated current
Load Life: 85 °C for 1000 h at full rated current
STANDARD ELECTRICAL SPECIFICATIONS
IND.
AT ± 10 %
(μH)
0.047
0.068
0.10
0.12
0.15
0.18
0.22
0.27
0.33
0.39
0.47
0.68
1.0
1.2
1.5
1.8
2.2
3.3
3.9
4.7
5.6
6.8
8.2
10
12
15
18
22
27
33
TEST FREQ.
(MHz)
L&Q
50
50
25
25
25
25
25
25
25
25
25
25
10
10
10
10
10
10
10
10
4
4
4
2
2
1
1
1
1
1
THICKNESS “D”
(INCHES [mm])
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
0.043 ± 0.012 [1.10 ± 0.3]
TOL.
20 %
20 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
10 %
Q
MIN.
20
20
20
20
20
20
20
20
20
25
25
25
45
45
45
45
45
45
45
45
45
45
45
45
45
45
45
35
35
35
SRF
MIN.
(MHz)
368
322
271
253
230
213
196
173
167
156
144
121
87
75
69
64
58
48
44
41
37
34
30
28
26
22
21
19
17
15
DCR
MAX.
()
0.15
0.25
0.25
0.30
0.30
0.40
0.40
0.50
0.60
0.50
0.60
0.80
0.40
0.50
0.50
0.50
0.50
0.70
0.80
0.90
0.70
0.80
0.90
1.00
1.05
0.70
0.70
0.90
0.90
1.05
RATED
DC CURRENT
(mA)
300
300
250
250
250
250
250
250
250
200
200
150
100
100
50
50
50
50
50
50
25
25
25
25
15
5
5
5
5
5
DESCRIPTION
ILSB-1206
MODEL
3.3 μH
INDUCTANCE VALUE
± 10 %
INDUCTANCE TOLERANCE
ER
PACKAGE CODE
e3
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
L
S
PRODUCT FAMILY
Document Number: 34029
Revision: 23-Feb-11
B
1
2
0
SIZE
6
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
3
R
INDUCTANCE
VALUE
3
K
TOL.
www.vishay.com
204
ILSB-1206
Monolithic Chip Inductors
Vishay Dale
DIMENSIONS in inches [millimeters]
100 % Sn Termination
B
G
A
F
Ferrite Body
H
D
E
C
Suggested Pad Layout
Dimensional Outline
A
B
C
D
E
F
G
H
0.126 ± 0.008
[3.2 ± 0.2]
0.063 ± 0.008
[1.6 ± 0.2]
0.020 ± 0.012
[0.5 ± 0.3]
0.043 ± 0.012
[1.10 ± 0.3]
0.185
[4.7]
0.070
[1.8]
0.087
[2.2]
0.047
[1.2]
TAPE AND REEL SPECIFICATIONS 1206 SIE PER EIA-481-1 in inches [millimeters]
T
P2
P0
E1
Ø D0
F
W
B0
Ø D1
A0
K0
P1
ØN
ØC
T1
A0
0.073 ± 0.004 [1.85 ± 0.1]
B0
0.135 ± 0.004 [3.43 ± 0.1]
D0
0.059 + 0.005/- 0.000 [1.5 + 0.127]
D1
0.039 min. [1.0 min.]
E1
0.069 ± 0.004 [1.75 ± 0.1]
F
0.138 ± 0.002 [3.50 ± 0.05]
K0
0.048 ± 0.002 [1.22 ± 0.05]
P0
0.157 ± 0.004 [4.00 ± 0.1]
P1
0.157 ± 0.004 [4.00 ± 0.1]
P2
0.079 ± 0.002 [2.00 ± 0.05]
W
0.327 max. [8.3 max.]
T
0.008 ± 0.002 [0.2 ± 0.05]
A
7.000 ± 0.079 [178 ± 2.0]
N
2.500 [63.5]
C
0.512 ± 0.020 [13.00 ± 0.50]
ØA
W
1
Empty Trailer
Components
Empty Tape
Cover Tape Leader
Unreel
Direction
160 mm Minimum
160 mm Minimum
www.vishay.com
205
390 mm Minimum
W1
0.315 + 0.059/- 0.000 [8.00 + 1.5]
T1
0.079 ± 0.002 [2.00 ± 0.05]
For technical questions, contact: [email protected]
Document Number: 34029
Revision: 23-Feb-11
ILBB-0402
Vishay Dale
Multilayer Ferrite Beads
FEATURES
• High reliability
• Surface mountable
• Magnetically self shielded
• Nickel barrier plating virtually eliminates silver
migration
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
ENVIRONMENTAL SPECIFICATIONS
MECHANICAL SPECIFICATIONS
Operating Temperature: - 55 °C to + 125 °C
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C to 150 °C and type R flux dip
Thermal Shock: 100 cycles, - 40 °C to + 125 °C
Biased Humidity: 85 % RH at 85 °C, 1000 h at full rated
current
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux per above
Terminal Strength: 0.2 kg (0.44 lbs) minimum for 30 s
DIMENSIONS in inches [millimeters]
Beam Strength: 0.2 kg (0.44 lbs) minimum
Flex: 0.2 mm minimum mounted on a 1.6 mm thick PC
board
0.02 ± 0.004
[0.5 ± 0.1]
STANDARD ELECTRICAL SPECIFICATIONS
Z
± 25 % AT 100 MHz
)
DCR MAX.
()
RATED
DC CURRENT
(mA)
20
0.13
300
30
0.20
300
40
0.20
300
60
0.30
300
70
0.30
300
120
0.45
300
240
0.70
200
300
0.80
200
600
1.00
200
0.04 ± 0.004
[1.0 ± 0.1]
Ferrite Body
0.02 ± 0.004
[0.5 ± 0.1]
0.01 ± 0.004
[0.25 ± 0.1]
DESCRIPTION
ILBB-0402
120
± 25 %
ER
e3
MODEL
IMPEDANCE VALUE
IMPEDANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
L
B
PRODUCT FAMILY
Document Number: 34146
Revision: 28-Feb-11
B
0
4
0
SIZE
2
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
2
IMPEDANCE
VALUE
1
V
IMPEDANCE
TOLERANCE
www.vishay.com
206
ILBB-0402
Multilayer Ferrite Beads
Vishay Dale
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILBB-0402 20 Ω
40
Z
IMPEDANCE (Ω)
IMPEDA NCE ( Ω)
35
30
R
25
20
15
X
10
40
Z
35
20
X
15
1
10
100
1000
0
10 000
1
10
FREQUENCY (MHz)
70
IMPEDANCE (Ω)
IMPEDANCE (Ω)
Z
R
50
40
30
20
1000
10 000
1000
10 000
1000
10 000
1000
10 000
ILBB-0402 60 Ω
80
60
X
10
0
100
FREQUENCY (MHz)
ILBB-0402 40 Ω
70
Z
R
60
50
40
30
X
20
10
0
1
10
100
1000
1
10 000
10
100
FREQUENCY (MHz)
FREQUENCY (MHz)
ILBB-0402 70 Ω
100
ILBB-0402 120 Ω
200
180
90
Z
80
IMPEDANCE (Ω)
IMPEDANCE (Ω)
R
30
25
10
5
5
0
ILBB-0402 30 Ω
50
45
R
70
60
50
40
X
30
20
160
Z
R
140
120
100
80
X
60
40
20
10
0
0
1
10
100
1000
10 000
1
10
ILBB-0402 240 Ω
300
100
FREQUENCY (MHz)
FREQUENCY (MHz)
ILBB-0402 300 Ω
450
400
Z
Z
IMPEDANCE (Ω)
IMPEDANCE (Ω)
250
200
R
150
100
X
50
350
R
300
250
200
150
100
X
50
0
0
1
10
100
1000
10 000
1
10
FREQUENCY (MHz)
www.vishay.com
207
For technical questions, contact: [email protected]
100
FREQUENCY (MHz)
Document Number: 34146
Revision: 28-Feb-11
ILBB-0402
Multilayer Ferrite Beads
Vishay Dale
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILBB-0402 600 Ω
800
IMPEDANCE (Ω)
700
Z
600
R
500
400
300
200
X
100
0
1
10
100
1000
10 000
FREQUENCY (MHz)
Document Number: 34146
Revision: 28-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
208
ILBB-0603
Vishay Dale
Multilayer Ferrite Beads
FEATURES
• High reliability
• Surface mountable
• Magnetically self shielded
• Nickel barrier plating virtually eliminates silver
migration
• Compliant to RoHS Directive 2002/95/EC
MECHANICAL SPECIFICATIONS
• Halogen-free according to IEC 61249-2-21 definition
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C to 150 °C and type R flux
dip
ENVIRONMENTAL SPECIFICATIONS
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux per above
Thermal Shock: 100 cycles, - 40 °C to + 125 °C
Operating Temperature: - 55 °C to + 125 °C
Biased Humidity: 85 % RH at 85 °C, 1000 h at full rated
current
Terminal Strength: 0.3 kg (0.66 lbs) minimum for 30 s
Beam Strength: 0.3 kg (0.66 lbs) minimum
DIMENSIONS in inches [millimeters]
STANDARD ELECTRICAL SPECIFICATIONS
Z
± 25 % AT 100 MHz
()
DCR
MAX.
()
RATED
DC CURRENT
(mA)
10
0.05
500
30
0.09
500
40
0.10
400
60
0.10
400
68
0.10
200
80
0.20
150
120
0.20
150
150
0.30
150
180
0.30
150
220
0.30
150
300
0.35
150
420
0.40
150
450
0.40
100
600
0.45
100
750
0.60
100
1000
0.60
100
1500
0.70
50
2000
0.80
50
Dimensional Outline
0.032 ± 0.006
[0.8 ± 0.15]
0.063 ± 0.006
[1.6 ± 0.15]
Ferrite Body
0.032 ± 0.006
[0.8 ± 0.15]
0.014 ± 0.006
[0.36 ± 0.15]
Recommended Pad Layout
0.023
[0.6]
0.031
[0.8]
0.039
[1.0]
0.102
[2.6]
PACKAGING OPTIONS
• Tape and Reel: Embossed plastic carrier tape per EIA481-1,
4000 pieces on a 7" [178 mm] reel
DESCRIPTION
ILBB-0603
30
± 25 %
ER
e3
MODEL
IMPEDANCE VALUE
IMPEDANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
E
3
GLOBAL PART NUMBER
I
L
B
PRODUCT FAMILY
Document Number: 34024
Revision: 04-Feb-11
B
0
6
0
SIZE
3
R
PACKAGE
CODE
For technical questions, contact: [email protected]
0
IMPEDANCE
VALUE
0
V
IMPEDANCE
TOLERANCE
www.vishay.com
209
ILBB-0603
Multilayer Ferrite Beads
Vishay Dale
TAPE AND REEL SPECIFICATIONS 0603 SIZE PER EIA-481-1 in inches [millimeters]
P2
E1
P0
W
F
ØD0
T
B0
ØD1
P1
K0
A0
T1
ØN
ØC
ØA
Empty Trailer
W1
Components
Empty Tape
Cover Tape Leader
Unreel
Direction
A0
0.045 ± 0.004 [1.14 ± 0.1]
B0
0.071 ± 0.008 [1.80 ± 0.2]
D0
0.059 + 0.004/- 0.000 [1.5 + 0.1/- 0.0]
D1
0.039 min. [1.0 min.]
E1
0.069 ± 0.004 [1.75 ± 0.1]
F
0.138 ± 0.002 [3.50 ± 0.05]
K0
0.045 ± 0.002 [1.15 ± 0.05]
P0
0.157 ± 0.004 [4.00 ± 0.1]
P1
0.157 ± 0.004 [4.00 ± 0.1]
P2
0.079 ± 0.002 [2.00 ± 0.05]
W
0.327 max. [8.3 max.]
T
0.008 ± 0.002 [0.2 ± 0.05]
A
7.000 ± 0.079 [178 ± 2.0]
N
2.500 [63.5] min.
C
0.51 ± 0.020/- 0.008 [13.00 ± 0.5/- 0.5]
W1
0.315 + 0.059/- 0.000 [8.00 + 1.5/- 0.0]
T1
0.079 ± 0.002 [2.00 ± 0.05]
160 mm min.
390 mm Minimum
160 mm Minimum
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILBB-0603 40 Ω
ILBB-0603 30 Ω
70
50
45
R
35
IMPENDANCE (Ω)
IMPENDANCE (Ω)
40
Z
60
Z
30
25
20
15
X
10
R
50
40
30
20
10
5
X
0
0
1
10
100
FREQUENCY (MHz)
1
1000
10
100
1000
FREQUENCY (MHz)
ILBB-0603 68 Ω
ILBB-0603 60 Ω
120
100
Z
Z
100
IMPENDANCE (Ω)
IMPEDANCE (Ω)
80
R
60
40
20
100
FREQUENCY (MHz)
www.vishay.com
210
40
X
0
10
60
20
X
1
R
80
1000
0
1
10
100
FREQUENCY (MHz)
For technical questions, contact: [email protected]
1000
Document Number: 34024
Revision: 04-Feb-11
ILBB-0603
Multilayer Ferrite Beads
Vishay Dale
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILBB-0603 120 Ω
ILBB-0603 80 Ω
180
120
Z
100
R
140
IMPEDANCE (Ω)
R
IMPEDANCE (Ω)
Z
160
80
60
40
120
100
80
60
40
20
20
X
0
X
0
1
10
100
FREQUENCY (MHz)
1000
1
10
100
FREQUENCY (MHz)
ILBB-0603 300 Ω
ILBB-0603 220 Ω
450
300
Z
400
Z
350
IMPEDANCE (Ω)
IMPEDANCE (Ω)
250
R
200
150
100
R
300
250
200
150
100
50
50
X
0
X
0
1
10
100
FREQUENCY (MHz)
1
1000
10
100
FREQUENCY (MHz)
700
600
Z
600
500
R
R
Z
IMPEDANCE (Ω)
IMPEDANCE (Ω)
1000
ILBB-0603 600 Ω
ILBB-0603 450 Ω
400
300
200
500
400
300
200
X
100
100
X
0
1
10
100
FREQUENCY (MHz)
0
1000
1
10
100
FREQUENCY (MHz)
ILBB-0603 750 Ω
1000
ILBB-0603 1000 Ω
1000
900
Z
900
800
Z
800
IMPEDANCE (Ω)
700
IMPEDANCE (Ω)
1000
R
600
500
400
300
200
R
700
600
500
400
300
200
X
X
100
100
0
0
1
Document Number: 34024
Revision: 04-Feb-11
10
100
FREQUENCY (MHz)
1000
1
10
100
FREQUENCY (MHz)
For technical questions, contact: [email protected]
1000
www.vishay.com
211
ILBB-0805
www.vishay.com
Vishay Dale
Multilayer Ferrite Beads
FEATURES
•
•
•
•
High reliability
Surface mountable
Magnetically self shielded
Nickel barrier plating virtually eliminates silver
migration
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
MECHANICAL SPECIFICATIONS
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C to 150 °C and type R flux dip
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux per above
Terminal Strength: 0.6 kg (1.32 lbs) minimum for 30 s
Beam Strength: 1 kg (2.2 lbs) minimum
Flex: 0.079" [2 mm] min. mounted on 0.063" [1.6 mm] thick
PC board
ENVIRONMENTAL SPECIFICATIONS
Operating Temperature: - 55 °C to + 125 °C
Thermal Shock: 100 cycles, - 40 °C to + 125 °C
Biased Humidity: 85 % RH at 85 °C, 1000 h at full rated
current
DIMENSIONS in inches [millimeters]
Dimensional Outline
STANDARD ELECTRICAL SPECIFICATIONS
Z
± 25 % AT 100 MHz
)
7
11
17
26
32
40
50
60
75
80
90
100
120
150
180
220
300
400
600
1000
1500
2000
2200
DCR
MAX.
()
0.06
0.06
0.06
0.06
0.06
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.20
0.20
0.20
0.30
0.30
0.35
0.40
0.50
0.60
RATED
DC CURRENT
(mA)
600
600
600
600
600
300
300
300
300
300
300
300
300
300
200
200
200
200
200
100
100
80
80
0.049 ± 0.008
[1.25 ± 0.2]
0.079 ± 0.008
[2.0 ± 0.2]
Ferrite Body
0.035 ± 0.008
[0.9 ± 0.2]
0.020 ± 0.012
[0.5 ± 0.3]
Recommended Pad Layout
0.039
[1.0]
0.039
[1.0]
0.039
[1.0]
0.120
[3.0]
PACKAGING OPTIONS
• Tape and Reel: Embossed plastic carrier tape per EIA481-1,
4000 pieces on a 7" [178 mm] reel
DESCRIPTION
ILBB-0805
11
± 25 %
ER
e3
MODEL
IMPEDANCE VALUE
IMPEDANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
E
1
GLOBAL PART NUMBER
I
L
B
PRODUCT FAMILY
Revision: 21-Jun-11
B
0
8
0
SIZE
5
R
PACKAGE
CODE
1
IMPEDANCE
VALUE
0
V
IMPEDANCE
TOLERANCE
Document Number: 34025
212
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
ILBB-0805
www.vishay.com
Vishay Dale
TAPE AND REEL SPECIFICATIONS 0805 SIZE PER EIA-481-1 in inches [millimeters]
P2
E1
P0
W
F
ØD0
T
B0
ØD1
P1
0.059 ± 0.004 [1.50 ± 0.1]
B0
0.093 ± 0.006 [2.35 ± 0.15]
D0
0.059 + 0.004/- 0.000 [1.5 + 0.1/- 0.0]
D1
0.039 min. [1.0 min.]
E1
0.069 ± 0.004 [1.75 ± 0.1]
F
0.138 ± 0.002 [3.50 ± 0.05]
K0
0.049 ± 0.002 [1.24 ± 0.05]
P0
0.157 ± 0.004 [4.00 ± 0.1]
P1
0.157 ± 0.004 [4.00 ± 0.1]
P2
0.079 ± 0.002 [2.00 ± 0.05]
W
0.327 max. [8.3 max.]
T
0.008 ± 0.002 [0.2 ± 0.05]
A
7.000 ± 0.079 [178 ± 2.0]
N
2.500 [63.5]
C
0.512 ± 0.020/- 0.008 [13.00 ± 0.5/- 0.2]
W1
0.315 + 0.059/- 0.000 [8.00 + 1.5]
T1
0.079 ± 0.002 [2.00 ± 0.05]
K0
A0
T1
ØN
ØC
ØA
Empty Trailer
A0
W1
Components
Empty Tape
Cover Tape Leader
Unreel
Direction
160 mm min.
390 mm Minimum
160 mm Minimum
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILBB-0805 11 Ω
ILBB-0805 7 Ω
20
16
Z
10
R
8
X
6
R
16
12
IMPEDANCE (Ω)
IMPEDANCE (Ω)
Z
18
14
4
14
12
10
8
X
6
4
2
2
0
0
1
10
100
1000
10 000
1
10
Z
35
IMPEDANCE (Ω)
R
15
10
X
5
30
R
25
20
15
10
X
5
1
10
100
FREQUENCY (MHz)
Revision: 21-Jun-11
10 000
40
Z
20
0
1000
ILBB-0805 26 Ω
ILBB-0805 17 Ω
25
IMPEDANCE (Ω)
100
FREQUENCY (MHz)
FREQUENCY (MHz)
1000
10 000
0
1
10
100
1000
10 000
FREQUENCY (MHz)
Document Number: 34025
213
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
ILBB-0805
www.vishay.com
Vishay Dale
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILBB-0805 40 Ω
ILBB-0805 32 Ω
80
60
70
Z
Z
40
IMPEDANCE (Ω)
IMPEDANCE (Ω)
50
R
30
20
X
10
60
R
50
40
30
X
20
10
0
1
10
100
1000
0
1
10 000
10
ILBB-0805 50 Ω
80
40
30
20
10
10
100
1000
R
60
50
40
30
20
X
1
Z
70
IMPEDANCE (Ω)
IMPEDANCE (Ω)
Z
R
10
0
10 000
X
1
10
FREQUENCY (MHz)
100
10 000
1000
10 000
ILBB-0805 80 Ω
ILBB-0805 75 Ω
100
90
Z
Z
80
R
IMPEDANCE (Ω)
100
80
60
40
R
70
60
50
40
30
X
20
20
X
0
1
10
100
10
1000
0
10 000
1
10
FREQUENCY (MHz)
100
FREQUENCY (MHz)
ILBB-0805 100 Ω
ILBB-0805 90 Ω
140
140
120
120
Z
IMPEDANCE (Ω)
Z
100
R
80
60
40
X
20
0
1000
FREQUENCY (MHz)
120
IMPEDANCE (Ω)
10 000
90
50
IMPEDANCE (Ω)
1000
ILBB-0805 60 Ω
60
0
100
FREQUENCY (MHz)
FREQUENCY (MHz)
100
80
R
60
40
X
20
1
10
100
FREQUENCY (MHz)
Revision: 21-Jun-11
1000
10 000
0
1
10
100
1000
10 000
FREQUENCY (MHz)
Document Number: 34025
214
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
ILBB-0805
www.vishay.com
Vishay Dale
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILBB-0805 150 Ω
ILBB-0805 120 Ω
140
250
200
Z
IMPEDANCE (Ω)
IMPEDANCE (Ω)
120
100
R
80
60
40
X
Z
150
100
X
50
20
0
1
10
100
R
1000
0
10 000
1
10
FREQUENCY (MHz)
Z
1000
10 000
1000
10 000
1000
10 000
250
Z
IMPEDANCE (Ω)
IMPEDANCE (Ω)
10 000
300
200
R
150
100
X
200
R
150
100
X
50
50
1
10
100
1000
0
10 000
1
10
FREQUENCY (MHz)
100
FREQUENCY (MHz)
ILBB-0805 400 Ω
ILBB-0805 300 Ω
600
400
350
500
Z
300
R
250
Z
IMPEDANCE (Ω)
IMPEDANCE (Ω)
1000
ILBB-0805 220 Ω
ILBB-0805 180 Ω
250
0
100
FREQUENCY (MHz)
200
150
100
400
R
300
200
X
X
100
50
0
0
1
10
100
1000
10 000
10
100
FREQUENCY (MHz)
ILBB-0805 600 Ω
ILBB-0805 1000 Ω
600
1200
500
1000
Z
IMPEDANCE (Ω)
IMPEDANCE (Ω)
1
FREQUENCY (MHz)
400
R
300
200
X
Z
800
400
100
200
0
0
1
10
100
FREQUENCY (MHz)
Revision: 21-Jun-11
1000
10 000
R
600
X
1
10
100
FREQUENCY (MHz)
Document Number: 34025
215
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
ILBB-0805
www.vishay.com
Vishay Dale
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILBB-0805 1500 Ω
ILBB-0805 2000 Ω
1600
3000
2500
Z
1200
IMPEDANCE (Ω)
IMPEDANCE (Ω)
1400
R
1000
800
600
400
X
1
10
R
1500
1000
X
500
200
0
Z
2000
100
1000
0
1
10 000
10
100
1000
10 000
FREQUENCY (MHz)
FREQUENCY (MHz)
ILBB-0805 2200 Ω
3000
IMPEDANCE (Ω)
2500
Z
2000
R
1500
1000
500
0
X
1
10
100
1000
10 000
FREQUENCY (MHz)
Revision: 21-Jun-11
Document Number: 34025
216
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
ILB-1206
Vishay Dale
Multilayer Ferrite Beads
FEATURES
•
•
•
•
High reliability
Surface mountable
Magnetically self shielded
Nickel barrier plating virtually eliminates silver
migration
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
MECHANICAL SPECIFICATIONS
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C to 150 °C and type R flux
dip
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux per above
Terminal Strength: 1.0 kg (2.2 lbs) minimum for 30 s
Beam Strength: 2.0 kg (4.4 lbs) minimum
ENVIRONMENTAL SPECIFICATIONS
Operating Temperature: - 55 °C to + 125 °C
Thermal Shock: 300 cycles, - 40 °C to + 125 °C
Biased Humidity: 85 % RH at 85 °C, 1000 h at full rated
current
Dimensional Outline
STANDARD ELECTRICAL SPECIFICATIONS
Z
FREQUENCY
± 25 % AT 100 MHz
(MHz)
)
19
26
31
50
60
70
80
90
100
120
150
200
300
500
600
800
1000
1200
1500
2000
DCR
MAX.
)
RATED
DC CURRENT
(mA)
0.05
0.05
0.05
0.10
0.10
0.10
0.20
0.20
0.20
0.20
0.20
0.20
0.30
0.30
0.30
0.30
0.40
0.40
0.50
0.50
500
500
500
600
600
600
400
400
400
400
300
300
300
200
200
200
200
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
50
30
DIMENSIONS in inches [millimeters]
0.063 ± 0.008
[1.6 ± 0.20]
0.126 ± 0.008
[3.2 ± 0.20]
Ferrite Body
0.043 ± 0.008
[1.1 ± 0.20]
0.020 ± 0.012
[0.50 ± 0.30]
Recommended Pad Layout
0.087
[2.2]
0.055
[1.4]
0.043
[1.1]
0.173
[4.4]
PACKAGING OPTIONS
• Bulk: 1000 pieces per plastic bag
• Tape and Reel: Paper carrier tape, 3000 pieces per reel
DESCRIPTION
ILB-1206
19 
± 25 %
ER
e3
MODEL
IMPEDANCE VALUE
IMPEDANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
I
L
PRODUCT
FAMILY
Document Number: 34023
Revision: 04-Feb-11
B
1
2
0
SIZE
6
E
R
PACKAGE
CODE
For technical questions, contact: [email protected]
1
9
IMPEDANCE
VALUE
0
V
IMPEDANCE
TROLERANCE
www.vishay.com
217
ILB-1206
Multilayer Ferrite Beads
Vishay Dale
TAPE AND REEL SPECIFICATIONS in inches [millimeters]
P2
E1
P0
W
F
ØD0
T
B0
ØD1
P1
K0
A0
T1
ØN
ØC
ØA
Empty Trailer
W1
Components
Empty Tape
Cover Tape Leader
Unreel
Direction
A0
0.071 ± 0.008 [1.80 ± 0.2]
B0
0.140 ± 0.006 [3.45 ± 0.15]
D0
0.059 + 0.005/- 0.000 [1.5 + 0.127/- 0.0]
D1
0.039 min. [1.0 min.]
E1
0.069 ± 0.004 [1.75 ± 0.1]
F
0.138 ± 0.002 [3.50 ± 0.05]
K0
0.049 ± 0.002 [1.24 ± 0.05]
P0
0.157 ± 0.004 [4.00 ± 0.1]
P1
0.157 ± 0.004 [4.00 ± 0.1]
P2
0.079 ± 0.002 [2.00 ± 0.05]
W
0.327 max. [8.3 max.]
T
0.009 ± 0.002 [0.2 ± 0.05]
A
7.000 ± 0.079 [178 ± 2.0]
N
2.500 [63.5]
C
0.512 ± 0.020 [13.00 ± 0.5]
W1
0.315 + 0.059/- 0.000 [8.00 + 1.5/- 0.0]
T1
0.079 ± 0.002 [2.00 ± 0.05]
160 mm min.
390 mm Minimum
160 mm Minimum
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILB-1206 26 Ω
ILB-1206 19 Ω
35
40
Z
35
Z
25
IMPEDANCE (Ω)
IMPEDANCE (Ω)
30
R
20
15
X
10
5
0
R
25
20
15
10
X
5
1
10
100
1000
ILB-1206 50 Ω
1000
10 000
1000
10 000
70
Z
R
60
IMPEDANCE (Ω)
35
30
25
20
15
X
10
R
50
40
30
20
X
10
5
10
100
1000
10 000
0
1
10
FREQUENCY (MHz)
www.vishay.com
218
100
ILB-1206 31 Ω
Z
1
10
FREQUENCY (MHz)
45
0
0
1
10 000
FREQUENCY (MHz)
40
IMPEDANCE (Ω)
30
For technical questions, contact: [email protected]
100
FREQUENCY (MHz)
Document Number: 34023
Revision: 04-Feb-11
ILB-1206
Multilayer Ferrite Beads
Vishay Dale
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILB-1206 60 Ω
ILB-1206 70 Ω
90
70
Z
80
R
70
50
40
30
20
X
10
0
Z
R
IMPEDANCE (Ω)
IMPEDANCE (Ω)
60
60
50
40
30
20
X
10
0
1
10
100
1000
10 000
1
10
Z
140
120
IMPEDANCE (Ω)
IMPEDANCE (Ω)
Z
R
80
60
40
20
1
10
100
R
100
80
60
40
X
20
X
1000
0
10 000
1
10
FREQUENCY (MHz)
10 000
1000
10 000
1000
10 000
160
Z
140
120
100
80
60
40
Z
140
R
IMPEDANCE (Ω)
IMPEDANCE (Ω)
1000
ILB-1206 120 Ω
160
X
20
R
120
100
80
60
40
X
20
1
10
100
1000
0
10 000
FREQUENCY (MHz)
1
10
100
FREQUENCY (MHz)
ILB-1206 200 Ω
ILB-1206 150 Ω
200
250
180
Z
160
R
200
R
140
IMPEDANCE (Ω)
IMPEDANCE (Ω)
100
FREQUENCY (MHz)
ILB-1206 100 Ω
120
100
80
60
40
1
10
100
Z
150
100
50
X
20
0
10 000
160
100
0
1000
ILB-1206 90 Ω
ILB-1206 80 Ω
120
0
100
FREQUENCY (MHz)
FREQUENCY (MHz)
X
1000
10 000
0
1
10
FREQUENCY (MHz)
Document Number: 34023
Revision: 04-Feb-11
For technical questions, contact: [email protected]
100
FREQUENCY (MHz)
www.vishay.com
219
ILB-1206
Multilayer Ferrite Beads
Vishay Dale
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILB-1206 500 Ω
ILB-1206 300 Ω
400
800
Z
700
R
300
IMPEDANCE (Ω)
IMPEDANCE (Ω)
350
250
200
150
100
X
50
600
400
300
200
X
100
0
1
10
100
1000
0
1
10 000
10
FREQUENCY (MHz)
100
1000
10 000
1000
10 000
1000
10 000
800
Z
700
700
600
R
500
400
300
200
Z
600
IMPEDANCE (Ω)
IMPEDANCE (Ω)
10 000
ILB-1206 800 Ω
ILB-1206 600 Ω
R
500
400
300
200
X
X
100
100
1
10
100
1000
0
10 000
1
10
100
FREQUENCY (MHz)
FREQUENCY (MHz)
ILB-1206 1000 Ω
ILB-1206 1200 Ω
2500
1200
1000
2000
Z
IMPEDANCE (Ω)
IMPEDANCE (Ω)
1000
FREQUENCY (MHz)
800
0
R
Z
500
R
1500
1000
500
Z
R
800
600
400
X
200
X
0
1
10
100
1000
0
10 000
1
10
100
FREQUENCY (MHz)
FREQUENCY (MHz)
ILB-1206 1500 Ω
ILB-1206 2000 Ω
2500
2000
1800
Z
2000
R
1400
IMPEDANCE (Ω)
IMPEDANCE (Ω)
1600
1200
1000
800
600
400
0
R
1500
1000
500
X
200
Z
X
1
10
100
1000
10 000
0
1
10
FREQUENCY (MHz)
www.vishay.com
220
For technical questions, contact: [email protected]
100
FREQUENCY (MHz)
Document Number: 34023
Revision: 04-Feb-11
ILBB-1210, ILBB-1806, ILBB-1812
Vishay Dale
Multilayer Ferrite Beads
FEATURES
• High reliability
• Surface mountable
• Magnetically self shielded
• Nickel barrier plating virtually eliminates silver
migration
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
ENVIRONMENTAL SPECIFICATIONS
Operating Temperature: - 55 °C to + 125 °C
Thermal Shock: 300 cycles, - 40 °C to + 125 °C
Biased Humidity: 85 % RH at 85 °C, 1000 h at full rated
current
MECHANICAL SPECIFICATIONS
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C to 150 °C and type R flux dip
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux per above
Terminal Strength: 1210: 1.0 kg (2.2 lbs), 1806: 1.0 kg
(2.2 lbs), 1812: 1.5 kg (3.3 lbs) for 30 s
Beam Strength: 1210: 2.5 kg (5.5 lbs), 1806: 2.5 kg (5.5 lbs),
1812: 2.5 kg (5.5 lbs)
DIMENSIONS in inches [millimeters]
Dimensional Outline
B
STANDARD ELECTRICAL SPECIFICATIONS
PART
NUMBER
Z
± 25 % AT 100 MHz
)
DCR MAX.
)
RATED
DC CURRENT
(mA)
31
0.30
400
60
0.30
400
90
0.30
400
80
0.30
400
100
0.30
300
SIZE
0.126 ± 0.008 0.098 ± 0.008 0.051 ± 0.008 0.020 ± 0.012
1210
[3.2 ± 0.2]
[2.5 ± 0.2]
[1.3 ± 0.2]
[0.5 ± 0.3]
ILBB-1210
A
Ferrite Body
C
D
ILBB-1806
150
0.50
200
70
0.40
200
120
0.40
200
ILBB-1812
A
B
C
D
1806
0.177 ± 0.010 0.063 ± 0.008 0.063 ± 0.008 0.024 ± 0.016
[4.5 ± 0.25]
[1.6 ± 0.2]
[1.6 ± 0.2]
[0.6 ± 0.4]
1812
0.177 ± 0.010 0.126 ± 0.010 0.059 ± 0.010 0.024 ± 0.016
[4.5 ± 0.25]
[3.2 ± 0.25]
[1.5 ± 0.25]
[0.6 ± 0.4]
DESCRIPTION
ILBB
1806
MODEL
SIZE
80
± 25 %
IMPEDANCE VALUE IMPEDANCE TOLERANCE
ER
e3
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
E
8
GLOBAL PART NUMBER
I
L
B
PRODUCT FAMILY
Document Number: 34101
Revision: 24-Feb-11
B
1
8
0
SIZE
6
R
PACKAGE
CODE
For technical questions, contact: [email protected]
0
IMPEDANCE
VALUE
0
V
IMPEDANCE
TOLERANCE
www.vishay.com
221
ILBB-1210, ILBB-1806, ILBB-1812
Multilayer Ferrite Beads
Vishay Dale
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILBB-1210 31 Ω
80
90
70
Z
60
R
50
40
30
X
20
R
70
60
50
40
30
X
20
10
0
Z
80
IMPEDANCE (Ω)
IMPEDANCE (Ω)
ILBB-1210 60 Ω
100
10
1
10
100
1000
0
10 000
1
10
FREQUENCY (MHz)
ILBB-1210 90 Ω
140
100
1000
ILBB-1806 80 Ω
140
Z
80
60
40
X
20
0
Z
120
R
IMPEDANCE (Ω)
IMPEDANCE (Ω)
120
100
100
R
80
60
40
X
20
1
10
100
1000
0
10 000
FREQUENCY (MHz)
1
10
ILBB-1806 100 Ω
200
IMPEDANCE (Ω)
IMPEDANCE (Ω)
Z
140
R
120
100
80
60
40
10
100
1000
1000
10 000
1000
10 000
Z
R
150
100
X
0
0
1
10 000
50
X
20
1000
ILBB-1806 150 Ω
250
160
100
FREQUENCY (MHz)
180
10 000
1
10
100
FREQUENCY (MHz)
FREQUENCY (MHz)
ILBB-1812 70 Ω
ILBB-1812 120 Ω
180
120
160
100
Z
IMPEDANCE (Ω)
IMPEDANCE (Ω)
10 000
FREQUENCY (MHz)
R
80
60
40
X
20
Z
140
R
120
100
80
60
X
40
20
0
1
10
100
1000
10 000
0
1
10
FREQUENCY (MHz)
www.vishay.com
222
For technical questions, contact: [email protected]
100
FREQUENCY (MHz)
Document Number: 34101
Revision: 24-Feb-11
ILHB
www.vishay.com
Vishay Dale
High Current Multilayer Ferrite Beads
FEATURES
• High reliability
• Surface mountable
• Current rating up to 6 A
• Magnetically self shielded
• Nickel barrier plating virtually eliminates silver
migration
• Compliant to RoHS Directive 2002/95/EC
MECHANICAL SPECIFICATIONS
• Halogen-free according to IEC 61249-2-21 definition
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C type R flux dip
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux per above
Terminal Strength: 0603: 0.3 kg (0.66 lbs), 0805: 0.6 kg
(1.3 lbs), 1206: 1.0 kg (2.2 lbs), 1806: 1.0 kg (2.2 lbs), 1812:
1.5 kg (3.3 lbs) for 30 s
Beam Strength: 0603: 0.3 kg (0.66 lbs), 0805: 1.0 kg
(2.2 lbs), 1206: 2.0 kg (4.4 lbs), 1806: 2.5 kg (5.5 lbs), 1812:
2.5 kg (5.5 lbs)
ENVIRONMENTAL SPECIFICATIONS
Operating Temperature: - 55 °C to + 125 °C
Thermal Shock: 100 cycles, - 40 °C to + 125 °C
Biased Humidity: 85 % RH at 85 °C, 1000 h at full rated
current
DIMENSIONS in inches [millimeters]
STANDARD ELECTRICAL SPECIFICATIONS
PART
NUMBER
ILHB-0603
ILHB-0805
ILHB-1206
ILHB-1806
ILHB-1812
Dimensional Outline
TEST
DCR
RATED
FREQUENCY MAX. DC CURRENT
(MHz)
()
(mA)
100
0.10
2000
100
0.10
2000
100
0.015
6000
100
0.03
3000
100
0.025
5000
100
0.03
5000
100
0.04
3000
100
0.10
2000
100
0.02
6000
100
0.03
3000
100
0.02
6000
100
0.06
2500
100
0.10
2500
100
0.02
6000
100
0.02
6000
50
0.04
3000
60
0.05
3000
Z ± 25 %
()
60
120
30
60
90
120
250
600
50
75
120
500
600
60
120
600
1300
Ferrite
Body
B
C
D
A
SIZE
A
B
C
D
0603
0.06 ± 0.006 0.03 ± 0.006 0.03 ± 0.006 0.012 ± 0.008
[1.6 ± 0.15]
[0.8 ± 0.15]
[0.8 ± 0.15] [0.30 ± 0.20]
0805
0.079 ± 0.008 0.049 ± 0.008 0.035 ± 0.008 0.02 ± 0.012
[2.0 ± 0.20] [1.25 ± 0.20] [0.90 ± 0.20] [0.50 ± 0.30]
1206
0.126 ± 0.008 0.063 ± 0.008 0.043 ± 0.008 0.020 ± 0.012
[3.2 ± 0.20]
[1.6 ± 0.2]
[1.1 ± 0.2]
[0.50 ± 0.30]
1806
0.177 ± 0.010 0.063 ± 0.008 0.063 ± 0.008 0.024 ± 0.016
[4.5 ± 0.25]
[1.6 ± 0.2]
[1.6 ± 0.2]
[0.60 ± 0.40]
1812
0.177 ± 0.010 0.126 ± 0.010 0.060 ± 0.010 0.024 ± 0.016
[4.5 ± 0.25]
[3.2 ± 0.25]
[1.5 ± 0.25] [0.60 ± 0.40]
DESCRIPTION
ILHB
1206
MODEL
SIZE
120
± 25 %
IMPEDANCE VALUE IMPEDANCE TOLERANCE
ER
e3
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
E
1
GLOBAL PART NUMBER
I
L
H
PRODUCT FAMILY
Revision: 28-Oct-11
B
1
2
0
SIZE
6
R
PACKAGE
CODE
2
IMPEDANCE
VALUE
1
V
IMPEDANCE
TOLERANCE
Document Number: 34102
223
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
ILHB
www.vishay.com
Vishay Dale
TYPICAL CURVES (Frequency Characteristics of R, X, and Z)
ILHB-0603 60 Ω
ILHB-0603 120 Ω
90
180
160
Z
IMPEDANCE (Ω)
IMPEDANCE (Ω)
80
70
R
60
50
40
30
20
X
10
Z
140
R
120
100
80
60
40
X
20
0
1
10
100
1000
0
10 000
1
10
IMPEDANCE (Ω)
IMPEDANCE (Ω)
80
Z
30
R
25
20
15
10
Z
70
R
60
50
40
30
20
X
5
X
10
1
10
100
1000
0
10 000
1
10
FREQUENCY (MHz)
100
1000
ILHB-0805 90 Ω
ILHB-0805 120 Ω
200
100
IMPEDANCE (Ω)
Z
80
R
60
40
X
150
Z
X
100
50
R
20
1
10
100
1000
0
0.1
10 000
1
10
1000
10 000
ILHB-0805 600 Ω
ILHB-0805 250 Ω
300
600
250
500
Z
IMPEDANCE (Ω)
IMPEDANCE (Ω)
100
FREQUENCY (MHz)
FREQUENCY (MHz)
200
R
150
100
X
50
0
10 000
FREQUENCY (MHz)
120
0
10 000
90
35
IMPEDANCE (Ω)
1000
ILHB-0805 60 Ω
ILHB-0805 30 Ω
40
0
100
FREQUENCY (MHz)
FREQUENCY (MHz)
Z
400
R
300
200
X
100
1
10
100
FREQUENCY (MHz)
Revision: 28-Oct-11
1000
10 000
0
1
10
100
1000
10 000
FREQUENCY (MHz)
Document Number: 34102
224
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
ILHB
www.vishay.com
Vishay Dale
TYPICAL CURVES (Frequency Characteristics of R, X, and Z)
ILHB-1206 50 Ω
ILHB-1206 75 Ω
100
70
Z
90
50
40
30
20
R
70
60
50
40
30
X
20
X
10
0
Z
80
R
IMPEDANCE (Ω)
IMPEDANCE (Ω)
60
10
1
10
100
1000
0
10 000
1
10
ILHB-1206 120 Ω
Z
IMPEDANCE (Ω)
IMPEDANCE (Ω)
10 000
500
R
120
100
80
60
40
400
R
300
200
100
20
X
1
10
100
1000
0
10 000
1
10
100
FREQUENCY (MHz)
FREQUENCY (MHz)
ILHB-1806 60 Ω
ILHB-1206 600 Ω
600
100
90
Z
500
Z
80
IMPEDANCE (Ω)
IMPEDANCE (Ω)
1000
Z
X
R
400
300
200
R
70
60
50
40
30
20
100
X
1
10
X
10
100
1000
0
10 000
1
10
FREQUENCY (MHz)
100
1000
10 000
1000
10 000
FREQUENCY (MHz)
ILHB-1812 120 Ω
ILHB-1812 600 Ω
160
700
140
600
Z
120
IMPEDANCE (Ω)
IMPEDANCE (Ω)
10 000
ILHB-1206 500 Ω
160
0
1000
600
140
0
100
FREQUENCY (MHz)
FREQUENCY (MHz)
R
100
80
60
40
X
300
200
100
0
0
10
100
FREQUENCY (MHz)
Revision: 28-Oct-11
1000
10 000
R
400
20
1
Z
500
X
1
10
100
FREQUENCY (MHz)
Document Number: 34102
225
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
ILHB
www.vishay.com
Vishay Dale
TYPICAL CURVES (Frequency Characteristics of R, X, and Z)
ILHB-1812 1300 Ω
1800
IMPEDANCE (Ω)
1600
Z
1400
1200
R
1000
800
600
400
200
0
X
1
10
100
1000
10 000
FREQUENCY (MHz)
Revision: 28-Oct-11
Document Number: 34102
226
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
ILAS-1206
Vishay Dale
Chip Array Ferrite Beads
FEATURES
• Combines four single 0603 chips into one
package to reduce board space and placement
time
• Highly effective in high density applications
• 0.031" [0.8 mm] terminal pitch makes it easy to
apply EMI prevention in multiple-lines such as connectors
amd IC pins
• Material and construction design minimize crosstalk
between adjacent circuits
• Compliant to RoHS directive 2002/95/EC
ENVIRONMENTAL SPECIFICATIONS
Operating Temperature: - 55 °C to + 125 °C
Thermal Shock: 300 cycles, - 40 °C to + 125 °C
Biased Humidity: 85 % RH at 85 °C, 1000 h at full rated
current
MECHANICAL SPECIFICATIONS
Solderability: 90 % coverage after 5 s dip in 235 °C solder
following 60 s preheat at 120 °C to 150 °C and type R flux dip
Resistance to Solder Heat: 10 s in 260 °C solder, after
preheat and flux per above
Terminal Strength: 1.2 kg (2.64 lbs) minimum for 30 s
Beam Strength: 2.0 kg (4.4 lbs) minimum
Flex: 0.079" [2 mm] min. mounted on 0.063" [1.6 mm] thick
PC board
DIMENSIONS in inches [millimeters]
0.126 ± 0.006
[3.2 ± 0.15]
0.016 ± 0.006
[0.4 ± 0.15]
STANDARD ELECTRICAL SPECIFICATIONS
0.063 ± 0.008
[1.6 ± 0.2]
0.130 [typ.]
[0.33]
Z
± 25 % AT 100 MHz
()
DCR
MAX.
()
RATED
DC CURRENT
(mA)
60
0.12
300
120
0.2
150
300
0.4
100
600
0.6
100
0.035 [typ.]
[0.88]
1000
0.8
50
0.016 [typ.]
[0.40]
SIGNAL
SPEED
0.031 ± 0.006
[0.8 ± 0.1]
0.031 ± 0.008
[0.8 ± 0.2]
0.031 ± 0.006
[0.8 ± 0.15]
Standard
0.012 ± 0.006
[0.3 ± 0.15]
DESCRIPTION
ILAS-1206
120
± 25 %
ER
e3
MODEL
IMPEDANCE VALUE
IMPEDANCE TOLERANCE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
E
1
GLOBAL PART NUMBER
I
L
A
PRODUCT FAMILY
Document Number: 34103
Revision: 16-Jan-06
S
1
2
0
SIZE
6
R
PACKAGE
CODE
For technical questions, contact: [email protected]
2
IMPEDANCE
VALUE
1
V
IMPEDANCE
TOLERANCE
www.vishay.com
227
ILAS-1206
Chip Array Ferrite Beads
Vishay Dale
TYPICAL CURVES - Frequency Characteristics of R, X, and Z
ILAS-1206 120 Ω
ILAS-1206 60 Ω
250
90
Z
80
Z
60
50
40
30
20
R
200
IMPEDANCE (Ω)
IMPEDANCE (Ω)
R
70
150
100
X
50
X
10
0
0
1
10
100
1000
10 000
1
10
100
1000
10 000
800
450
700
Z
R
IMPEDANCE (Ω)
400
IMPEDANCE (Ω)
10 000
ILAS-1206 600 Ω
ILAS-1206 300 Ω
500
350
300
250
200
150
X
100
Z
R
600
500
400
300
200
X
100
50
0
1000
FREQUENCY (MHz)
FREQUENCY (MHz)
1
10
100
1000
0
10 000
1
10
100
FREQUENCY (MHz)
FREQUENCY (MHz)
ILAS-1206 1000 Ω
1200
IMPEDANCE (Ω)
1000
Z
R
800
600
400
X
200
0
1
10
100
1000
10 000
FREQUENCY (MHz)
www.vishay.com
228
For technical questions, contact: [email protected]
Document Number: 34103
Revision: 16-Jan-06
Contents
LPE-3325-CST...................... 230
LPE-3325 .............................. 231
LPE-4841 .............................. 233
LPE-5047 .............................. 235
Transformers/
Inductors
LPE-6562 .............................. 237
LPE-6855 .............................. 239
LPT-3535 .............................. 241
LPT-4545 .............................. 243
LPE-3325-CST
www.vishay.com
Vishay Dale
Surface Mount Current Sense Transformers
FEATURES
• Surface mount design
• Compatible with surface mount process
temperatures
• Designed for switching supply applications
• Optimal performance at 100 kHz and above
• Five standard turns ratios
• Custom designs available
• Compliant to RoHS Directive 2002/95/EC
APPLICATIONS
•
•
•
•
•
•
Switching power supplies
AC current detection
Output supply for control circuitry
Appliances
Medical equipment
Office equipment
STANDARD ELECTRICAL SPECIFICATIONS
MODEL
LPE-3325-CST030
TURNS
RATIO
30
LPE-3325-CST040
SECONDARY
IND. AT 100 kHz, 0.1 V MIN. (μH)
DCR MAX. ()
180
1.00
PRIMARY AMPERES
6
40
320
1.35
6
LPE-3325-CST050
50
500
2.50
6
LPE-3325-CST070
70
980
4.71
6
LPE-3325-CST125
125
3000
7.70
6
DESCRIPTION
LPE
3325
125
ER
e2
MODEL
SERIES
TURNS RATIO
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
L
P
E
3
PRODUCT FAMILY
3
2
5
SIZE
E
R
1
PACKAGE
CODE
2
5
C
TURNS RATIO
S
T
SERIES
DIMENSIONS in inches [millimeters]
Pin 8
4
3
0.199 [5.05] Min.
0.265 [6.73] Max.
0.256 [6.50] Max.
6
Clip Opening
Opposite Pin 1
1
Pin 7
0.268
[6.81]
0.037 Max.
[0.94]
(Typ.)
White Dot
Pin 1
Designator
(either location)
0.205 [5.21] Max.
0.028
[0.71]
0.073
[1.85]
(Typ.)
0.323 Max.
[8.20]
0.199 [5.05] Min.
0.265 [6.73] Max.
0.028 [0.71]
SCHEMATIC
8
6
7
4
Revision: 22-Aug-11
Document Number: 34155
230
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
LPE-3325
Vishay Dale
Surface Mount Transformers/Inductors,
Gapped and Ungapped, Custom Configurations Available
FEATURES
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
Inductance Range: 10 μH to 3900 μH, measured
at 0.10 VRMS at 10 kHz without DC current, using an
HP 4263A or 4284A impedance analyzer
DC Resistance Range: 0.06  to 18.0 , measured at
+ 25 °C ± 5 °C
Rated Current Range: 1.00 A to 0.06 A
Dielectric Withstanding Voltage: 500 VRMS, 60 Hz, 5 s
STANDARD ELECTRICAL SPECIFICATIONS
GAPPED MODELS (B)
UNGAPPED MODELS (A)
SATURATING CURRENT
IND.
IND.
SCHEMATIC DCR MAX.
MAX. RATED DC CURRENT
(A) (2)
MODEL
(μH)
TOL.
LETTER
()
(A) (1)
LPE3325ER100NU
10
± 30 %
A
0.06
1.01
N/A
LPE3325ER150NU
15
± 30 %
A
0.08
0.91
N/A
LPE3325ER220NU
22
± 30 %
A
0.09
0.83
N/A
LPE3325ER330NU
33
± 30 %
A
0.11
0.75
N/A
LPE3325ER470NU
47
± 30 %
A
0.14
0.69
N/A
LPE3325ER680NU
68
± 30 %
A
0.16
0.63
N/A
LPE3325ER101NU
100 ± 30 %
A
0.20
0.57
N/A
LPE3325ER151NU
150 ± 30 %
A
0.76
0.29
N/A
LPE3325ER221NU
220 ± 30 %
A
0.92
0.26
N/A
LPE3325ER331NU
330 ± 30 %
A
1.13
0.24
N/A
LPE3325ER471NU
470 ± 30 %
A
1.35
0.22
N/A
LPE3325ER681NU
680 ± 30 %
A
1.62
0.20
N/A
LPE3325ER102NU
1000 ± 30 %
A
1.97
0.18
N/A
LPE3325ER152NU
1500 ± 30 %
A
2.41
0.16
N/A
LPE3325ER222NU
2200 ± 30 %
A
3.00
0.15
N/A
LPE3325ER332NU
3300 ± 30 %
A
5.96
0.10
N/A
LPE3325ER392NU
3900 ± 30 %
A
7.00
0.10
N/A
LPE3325ER100MG
10
± 20 %
A
0.22
0.54
1.480
LPE3325ER150MG
15
± 20 %
A
0.27
0.48
1.240
LPE3325ER220MG
22
± 20 %
A
0.42
0.39
1.050
LPE3325ER330MG
33
± 20 %
A
0.65
0.31
0.872
LPE3325ER470MG
47
± 20 %
A
0.97
0.26
0.740
LPE3325ER680MG
68
± 20 %
A
1.45
0.21
0.622
LPE3325ER101MG
100 ± 20 %
A
2.22
0.17
0.518
LPE3325ER151MG
150 ± 20 %
A
3.55
0.13
0.426
LPE3325ER221MG
220 ± 20 %
A
4.31
0.12
0.354
LPE3325ER331MG
330 ± 20 %
A
6.72
0.10
0.290
LPE3325ER471MG
470 ± 20 %
A
9.83
0.08
0.244
LPE3325ER681MG
680 ± 20 %
A
14.8
0.07
0.204
LPE3325ER102MG
1000 ± 20 %
A
18.0
0.06
0.169
Notes
(1) DC current that will create a maximum temperature rise of 30 °C when applied at + 25 °C ambient.
(2) DC current that will typically reduce the initial inductance by 20 %.
• UNGAPPED MODELS: Highest possible inductance with the lowest DCR and highest Q capability. Beneficial in filter, impedance matching and
line coupling devices.
GAPPED MODELS: Capable of handling large amounts of DC current, tighter inductance tolerance with better temperature stability than
ungapped models. Beneficial in DC/DC converters or other circuits carrying DC currents or requiring inductance stability over a temperature range.
DESCRIPTION
LPE
3325
1000 μH
± 30 %
A
ER
e2
MODEL
SIZE
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
CORE
PACKAGE CODE
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
L
P
E
PRODUCT FAMILY
3
3
2
SIZE
5
E
R
PACKAGE CODE
1
0
2
INDUCTANCE VALUE
N
U
TOL.
CORE
Note
• Series is also available with SnPb terminations by using package code RY for tape and reel (in place of ER) or SM for bulk (in place of EB).
Document Number: 34063
Revision: 24-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
231
LPE-3325
Surface Mount Transformers/Inductors,
Gapped and Ungapped, Custom Configurations Available
Vishay Dale
DIMENSIONS in inches [millimeters]
Pad Layout
SCHEMATIC (top view)
0.056 [1.42]
Pad Dimensions Typical,
6 places
Schematic A
0.073 [1.85]
0.042
[1.07]
Typical
two
places
0.232
[5.89]
0.288
[7.32]
Reference Only
Dimensional
4
Outline
0.256 [6.50]
3
5
2
6
1
Note
• Schematic A for both gapped and ungapped LPE series
3
ENVIRONMENTAL PERFORMANCE
Max.
1
6
4
Clip Opening
Opposite Pin 1
0.205 [5.21]
Max.
0.323 [8.20]
Max.
0.268
[6.81]
0.028
[0.71]
0.073 [1.85]
Typ.
TEST
CONDITIONS
Thermal Cycling
Withstands - 55 °C to + 125 °C
Operating
Temperature
- 55 °C to + 125 °C (1)
High Humidity
85 %
Soldering Heat
Tested to + 230 °C
Mechanical Shock
Per MIL-STD-202, method 213 (100G)
Vibration
Per MIL-STD-202, method 204 (20G)
Solderability
Per industry standards
Note
(1) Must be checked in end use application
PART MARKING
- Vishay Dale
0.028 [0.71]
Footprint Diagram
- Date code
Notes
• Pad layout guidelines per MIL-STD-275E (printed wiring for
electronic equipment).
• Tolerances: xx ± 0.01" [± 0.25 mm]; xxx ± 0.005" [± 0.12 mm].
- Marking code (suffix of model #)
- Pin 1 indicator
PACKAGING
STANDARDS: All embossed carrier tape packaging will be
accomplished in compliance with latest revision of EIA-481
“Taping of Surface Mount Components for Automatic
Placement”.
TAPE SPECIFICATIONS:
Carrier Tape Type: Conductive
Cover Tape Type: Anti-static
Cover Tape Adhesion to Carrier: 40 g ± 30 g
REEL SPECIFICATIONS:
Diameter (flange): 13" [330.2 mm]
Maximum Width (over flanges): 1.197" [30.4 mm]
MODEL
TAPE
WIDTH
COMPONENT
PITCH
UNITS PER 13"
REEL
LPE-3325
24 mm
12 mm
1000
Tape and Reel Orientation
Pin 1
Indicator
Cover Tape
Carrier Tape
Label Area
USER DIRECTION OF FEED
Embossed Cavity
Note
• Top view shown with cover tape removed
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232
For technical questions, contact: [email protected]
Document Number: 34063
Revision: 24-Feb-11
LPE-4841
Vishay Dale
Surface Mount Transformers/Inductors,
Gapped and Ungapped, Custom Configurations Available
FEATURES
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21
definition
ELECTRICAL SPECIFICATIONS
Inductance Range: 10 μH to 47 000 μH,
measured at 0.10 VRMS at 10 kHz without DC
current, using an HP 4263A or HP 4284A
impedance analyzer
DC Resistance Range: 0.03  to 19.1 , measured at
+ 25 °C ± 5 °C
Rated Current Range: 2.00 A to 0.09 A
Dielectric Withstanding Voltage: 500 VRMS, 60 Hz, 5 s
STANDARD ELECTRICAL SPECIFICATIONS
GAPPED MODELS (B)
UNGAPPED MODELS (A)
SATURATING CURRENT
IND.
IND.
SCHEMATIC DCR MAX. MAX. RATED DC CURRENT
(A) (2)
MODEL
(μH)
TOL.
LETTER
()
(A) (1)
LPE4841ER101NU
100
± 30 %
A
0.17
0.88
N/A
LPE4841ER151NU
150
± 30 %
A
0.21
0.79
N/A
LPE4841ER221NU
220
± 30 %
A
0.25
0.721
N/A
LPE4841ER331NU
330
± 30 %
A
0.30
0.65
N/A
LPE4841ER471NU
470
± 30 %
A
0.36
0.60
N/A
LPE4841ER681NU
680
± 30 %
A
0.44
0.54
N/A
LPE4841ER102NU
1000
± 30 %
A
0.53
0.49
N/A
LPE4841ER152NU
1500
± 30 %
A
0.65
0.45
N/A
LPE4841ER222NU
2200
± 30 %
A
0.79
0.40
N/A
LPE4841ER332NU
3300
± 30 %
A
1.55
0.29
N/A
LPE4841ER472NU
4700
± 30 %
A
1.85
0.26
N/A
LPE4841ER682NU
6800
± 30 %
A
4.36
0.17
N/A
LPE4841ER103NU
10 000 ± 30 %
A
5.29
0.16
N/A
LPE4841ER153NU
15 000 ± 30 %
A
6.48
0.14
N/A
LPE4841ER223NU
22 000 ± 30 %
A
13.1
0.10
N/A
LPE4841ER333NU
33 000 ± 30 %
A
16.0
0.09
N/A
LPE4841ER473NU
47 000 ± 30 %
A
19.1
0.08
N/A
LPE4841ER100MG
10
± 20 %
B
0.03
2.03
2.320
LPE4841ER150MG
15
± 20 %
B
0.04
1.84
1.925
LPE4841ER220MG
22
± 20 %
C
0.07
1.32
1.610
LPE4841ER330MG
33
± 20 %
C
0.09
1.20
1.330
LPE4841ER470MG
47
± 20 %
D
0.13
0.98
1.125
LPE4841ER680MG
68
± 20 %
D
0.21
0.79
0.941
LPE4841ER101MG
100
± 20 %
E
0.35
0.58
0.781
LPE4841ER151MG
150
± 20 %
E
0.48
0.52
0.641
LPE4841ER221MG
220
± 20 %
E
0.73
0.42
0.532
LPE4841ER331MG
330
± 20 %
E
1.14
0.34
0.436
LPE4841ER471MG
470
± 20 %
E
1.36
0.31
0.366
LPE4841ER681MG
680
± 20 %
E
2.07
0.25
0.305
LPE4841ER102MG
1000
± 20 %
E
3.15
0.20
0.252
LPE4841ER152MG
1500
± 20 %
E
4.76
0.16
0.206
LPE4841ER222MG
2200
± 20 %
E
7.29
0.13
0.170
LPE4841ER332MG
3300
± 20 %
E
11.7
0.11
0.139
LPE4841ER472MG
4700
± 20 %
E
17.7
0.09
0.117
Notes
(1) DC current that will create a maximum temperature rise of 30 °C when applied at + 25 °C ambient.
(2) DC current that will typically reduce the initial inductance by 20 %.
• UNGAPPED MODELS: Highest possible inductance with the lowest DCR and highest Q capability. Beneficial in filter, impedance matching and
line coupling devices.
GAPPED MODELS: Capable of handling large amounts of DC current, tighter inductance tolerance with better temperature stability than
ungapped models. Beneficial in DC/DC converters or other circuits carrying DC currents or requiring inductance stability over a temperature range.
DESCRIPTION
LPE
4841
MODEL SIZE
1000 μH
INDUCTANCE VALUE
± 30 %
INDUCTANCE TOLERANCE
A
CORE
ER
PACKAGE CODE
e2
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
L
P
E
PRODUCT FAMILY
4
8
4
SIZE
1
E
R
PACKAGE CODE
1
0
2
INDUCTANCE VALUE
N
U
TOL.
CORE
Note
• Series is also available with SnPb terminations by using package code RY for tape and reel (in place of ER) or SM for bulk (in place of EB).
Document Number: 34064
Revision: 24-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
233
LPE-4841
Surface Mount Transformers/Inductors,
Gapped and Ungapped, Custom Configurations Available
Vishay Dale
DIMENSIONS in inches [millimeters]
SCHEMATIC (top view)
0.045 [1.14]
Pad Dimensions
Typical, 8 places
Pad Layout
0.079 [2.01]
0.045
[1.14]
0.382
[9.70]
0.427
[10.85]
Reference Only
Schematic B
Schematic A
Typical
3 places
Schematic C
5
4
5
4
5
4
6
3
6
3
6
3
7
2
7
2
7
2
8
1
8
1
8
1
Schematic D
Dimensional Outline
5
0.421
[10.69]
Max.
8
4
Schematic E
5
4
5
4
6
3
6
3
7
2
7
2
8
1
8
1
Note
• Schematic A is for ungapped LPE series
1
0.492 [12.50]
Max.
ENVIRONMENTAL PERFORMANCE
0.248 [6.30]
Max.
0.400
[10.16]
0.028 [0.71]
0.079 [2.01]
Typ.
0.028 [0.71]
Foot Print Diagram
Notes
• Pad layout guidelines per MIL-STD-275E (printed wiring for
electronic equipment).
• Tolerances: xx ± 0.01" [± 0.25 mm]; xxx ± 0.005" [± 0.12 mm].
• The underside of these components contains metal and thus
should not come in contact with active circuit traces.
TEST
CONDITIONS
Thermal Cycling
Withstands - 55 °C to + 125 °C
Operating Temperature - 55 °C to + 125 °C (1)
High Humidity
85 %
Soldering Heat
Tested to + 230 °C
Mechanical Shock
Per MIL-STD-202, method 213 (100G)
Vibration
Per MIL-STD-202, method 204 (20G)
Solderability
Per industry standards
Note
(1) Must be checked in end use application
PART MARKING
- Vishay Dale
- Date code
- Marking code (suffix of model #)
- Pin 1 indicator
PACKAGING
TAPE SPECIFICATIONS:
Carrier Tape Type: Conductive
Cover Tape Type: Anti-static
Cover Tape Adhesion to Carrier: 40 g ± 30 g
REEL SPECIFICATIONS:
Diameter (flange): 13" [330.2 mm]
Maximum Width (over flanges): 1.197" [30.4 mm]
STANDARDS: All embossed carrier tape packaging will be
accomplished in compliance with latest revision of EIA-481
“Taping of Surface Mount Components for Automatic
Placement”.
TAPE
COMPONENT
UNITS PER 13"
MODEL
WIDTH
PITCH
REEL
LPE-4841
24 mm
16 mm
600
Tape and Reel Orientation
Pin 1 Indicator
Cover Tape
Carrier Tape
Embossed Cavity
Label Area
USER DIRECTION OF FEED
Note
• Top view shown with cover tape removed
www.vishay.com
234
For technical questions, contact: [email protected]
Document Number: 34064
Revision: 24-Feb-11
LPE-5047
Vishay Dale
Surface Mount Transformers/Inductors,
Gapped and Ungapped, Custom Configurations Available
FEATURES
• Compliant to RoHS directive 2002/95/EC
ELECTRICAL SPECIFICATIONS
(multiple winds are connected in parallel)
Inductance Range: 10 μH to 68 000 μH, measured
at 0.10 VRMS at 10 kHz without DC current, using an
HP 4263A or HP 4284A impedance analyzer
DC Resistance Range: 0.03  to 24.1 , measured at
+ 25 °C ± 5 °C
Rated Current Range: 2.29 A to 0.07 A
Dielectric Withstanding Voltage: 500 VRMS, 60 Hz, 5 s
STANDARD ELECTRICAL SPECIFICATIONS
GAPPED MODELS (B)
UNGAPPED MODELS (A)
IND.
IND.
SCHEMATIC DCR MAX. MAX. RATED DC CURRENT
SATURATING CURRENT
MODEL
(μH)
TOL.
LETTER
()
(A) (1)
(A) (2)
LPE5047ER151NU
150
± 30 %
A
0.20
0.79
N/A
LPE5047ER221NU
220
± 30 %
A
0.24
0.72
N/A
LPE5047ER331NU
330
± 30 %
A
0.29
0.65
N/A
LPE5047ER471NU
470
± 30 %
A
0.35
0.59
N/A
LPE5047ER681NU
680
± 30 %
A
0.42
0.54
N/A
LPE5047ER102NU
1000
± 30 %
A
0.51
0.49
N/A
LPE5047ER152NU
1500
± 30 %
A
0.63
0.44
N/A
LPE5047ER222NU
2200
± 30 %
A
0.76
0.40
N/A
LPE5047ER332NU
3300
± 30 %
A
1.00
0.35
N/A
LPE5047ER472NU
4700
± 30 %
A
2.24
0.24
N/A
LPE5047ER682NU
6800
± 30 %
A
2.70
0.21
N/A
LPE5047ER103NU
10 000 ± 30 %
A
3.27
0.19
N/A
LPE5047ER153NU
15 000 ± 30 %
A
6.26
0.14
N/A
LPE5047ER223NU
22 000 ± 30 %
A
7.58
0.13
N/A
LPE5047ER333NU
33 000 ± 30 %
A
9.50
0.11
N/A
LPE5047ER473NU
47 000 ± 30 %
A
18.5
0.08
N/A
LPE5047ER683NU
68 000 ± 30 %
A
24.1
0.07
N/A
LPE5047ER100MG
10
± 20 %
B
0.03
2.29
2.690
LPE5047ER150MG
15
± 20 %
B
0.04
2.07
2.230
LPE5047ER220MG
22
± 20 %
B
0.05
1.68
1.860
LPE5047ER330MG
33
± 20 %
C
0.09
1.35
1.540
LPE5047ER470MG
47
± 20 %
D
0.13
1.11
1.300
LPE5047ER680MG
68
± 20 %
D
0.15
1.01
1.085
LPE5047ER101MG
100
± 20 %
D
0.24
0.81
0.900
LPE5047ER151MG
150
± 20 %
D
0.37
0.65
0.740
LPE5047ER221MG
220
± 20 %
E
0.55
0.53
0.610
LPE5047ER331MG
330
± 20 %
E
0.85
0.43
0.500
LPE5047ER471MG
470
± 20 %
E
1.29
0.35
0.420
LPE5047ER681MG
680
± 20 %
E
1.96
0.28
0.350
LPE5047ER102MG
1000
± 20 %
E
2.38
0.26
0.290
LPE5047ER152MG
1500
± 20 %
E
3.66
0.21
0.240
LPE5047ER222MG
2200
± 20 %
E
5.47
0.17
0.195
LPE5047ER332MG
3300
± 20 %
E
8.48
0.14
0.160
LPE5047ER472MG
4700
± 20 %
E
13.2
0.11
0.135
Notes
(1) DC current that will create a maximum temperature rise of 30 °C when applied at + 25 °C ambient.
(2) DC current that will typically reduce the initial inductance by 20 %.
• UNGAPPED MODELS: Highest possible inductance with the lowest DCR and highest Q capability. Beneficial in filter, impedance matching and
line coupling devices.
GAPPED MODELS: Capable of handling large amounts of DC current, tighter inductance tolerance with better temperature stability than ungapped
models. Beneficial in DC/DC converters or other circuits carrying DC currents or requiring inductance stability over a temperature range.
DESCRIPTION
LPE
5047
MODEL SIZE
1000 μH
INDUCTANCE VALUE
± 30 %
INDUCTANCE TOLERANCE
A
CORE
ER
PACKAGE CODE
e2
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
L
P
E
PRODUCT FAMILY
5
0
4
SIZE
7
E
R
PACKAGE CODE
1
0
2
INDUCTANCE VALUE
N
U
TOL.
CORE
Note
• Series is also available with SnPb terminations by using package code RY for tape and reel (in place of ER) or SM for bulk (in place of EB).
Document Number: 34065
Revision: 10-Oct-08
For technical questions, contact: [email protected]
www.vishay.com
235
LPE-5047
Surface Mount Transformers/Inductors,
Gapped and Ungapped, Custom Configurations Available
Vishay Dale
DIMENSIONS in inches [millimeters]
SCHEMATIC (top view)
0.045 [1.14] Pad Dimensions
Typical, 10 places
Pad Layout
0.079 [2.01]
0.045
[1.14]
Typical
4 places
0.382
[9.70]
0.427
[10.85]
Reference Only
Schematic C
4
5
4
5
4
6
3
6
3
6
3
7
2
7
2
7
2
8
1
8
1
8
1
Schematic D
Dimensional Outline
5
6
0.472
[11.99]
Max.
10
Schematic E
5
4
5
4
6
3
6
3
7
2
7
2
8
1
8
1
Note
• Schematic A is for ungapped LPE series
1
ENVIRONMENTAL PERFORMANCE
0.248 [6.30]
Max.
0.525 [13.34]
Max.
0.437
[11.10]
0.079
[2.01]
Typ.
Schematic B
Schematic A
5
0.028 [0.71]
0.028 [0.71]
Foot Print Diagram
Notes
• Pad layout guidelines per MIL-STD-275E (printed wiring for
electronic equipment).
• Tolerances: xx ± 0.01" [± 0.25 mm]; xxx ± 0.005" [± 0.12 mm].
• The underside of these components contains metal and thus
should not come in contact with active circuit traces.
TEST
CONDITIONS
Thermal Cycling
Withstands - 55 °C to + 125 °C
Operating Temperature - 55 °C to + 125 °C (1)
High Humidity
85 %
Soldering Heat
Tested to + 230 °C
Mechanical Shock
Per MIL-STD-202, method 213 (100G)
Vibration
Per MIL-STD-202, method 204 (20G)
Solderability
Per industry standards
Note
(1) Must be checked in end use application
PART MARKING
- Vishay Dale
- Date code
- Marking code (suffix of model #)
- Pin 1 indicator
PACKAGING
TAPE SPECIFICATIONS:
Carrier Tape Type: Conductive
Cover Tape Type: Anti-static
Cover Tape Adhesion to Carrier: 40 g ± 30 g
REEL SPECIFICATIONS:
Diameter (flange): 13" [330.2 mm]
Maximum Width (over flanges): 1.197" [30.4 mm]
STANDARDS: All embossed carrier tape packaging will be
accomplished in compliance with latest revision of EIA-481
“Taping of Surface Mount Components for Automatic
Placement”.
TAPE
COMPONENT
UNITS PER 13"
MODEL
WIDTH
PITCH
REEL
LPE-5047
24 mm
16 mm
600
Tape and Reel Orientation
Pin 1 Indicator
Cover Tape
Carrier Tape
Embossed Cavity
Label Area
USER DIRECTION OF FEED
Note
• Top view shown with cover tape removed
www.vishay.com
236
For technical questions, contact: [email protected]
Document Number: 34065
Revision: 10-Oct-08
LPE-6562
Vishay Dale
Surface Mount Transformers/Inductors,
Gapped and Ungapped, Custom Configurations Available
FEATURES
• Compliant to RoHS directive 2002/95/EC
ELECTRICAL SPECIFICATIONS
(multiple winds are connected in parallel)
Inductance Range: 10 μH to 330 000 μH, measured
at 0.10 VRMS at 10 kHz without DC current, using an
HP 4263A or HP 4284A impedance analyzer
DC Resistance Range: 0.03  to 53.7 , measured at
+ 25 °C ± 5 °C
Rated Current Range: 3.00 A to 0.06 A
Dielectric Withstanding Voltage: 500 VRMS, 60 Hz, 5 s
STANDARD ELECTRICAL SPECIFICATIONS
GAPPED MODELS (B)
UNGAPPED MODELS (A)
IND.
IND.
SCHEMATIC DCR MAX. MAX. RATED DC CURRENT
SATURATING CURRENT
MODEL
(μH)
TOL.
LETTER
()
(A) (1)
(A) (2)
LPE6562ER221NU
220
± 30 %
A
0.28
0.90
N/A
LPE6562ER331NU
330
± 30 %
A
0.34
0.81
N/A
LPE6562ER471NU
470
± 30 %
A
0.40
0.74
N/A
LPE6562ER681NU
680
± 30 %
A
0.48
0.67
N/A
LPE6562ER102NU
1000
± 30 %
A
0.59
0.61
N/A
LPE6562ER152NU
1500
± 30 %
A
0.72
0.55
N/A
LPE6562ER222NU
2200
± 30 %
A
0.87
0.50
N/A
LPE6562ER332NU
3300
± 30 %
A
1.07
0.45
N/A
LPE6562ER472NU
4700
± 30 %
A
1.27
0.41
N/A
LPE6562ER682NU
6800
± 30 %
A
1.53
0.38
N/A
LPE6562ER103NU
10 000
± 30 %
A
1.86
0.34
N/A
LPE6562ER153NU
15 000
± 30 %
A
2.27
0.31
N/A
LPE6562ER223NU
22 000
± 30 %
A
8.67
0.16
N/A
LPE6562ER333NU
33 000
± 30 %
A
10.6
0.14
N/A
LPE6562ER473NU
47 000
± 30 %
A
12.7
0.13
N/A
LPE6562ER683NU
68 000
± 30 %
A
15.2
0.12
N/A
LPE6562ER104NU
100 000 ± 30 %
A
18.5
0.11
N/A
LPE6562ER154NU
150 000 ± 30 %
A
37.7
0.08
N/A
LPE6562ER224NU
220 000 ± 30 %
A
45.6
0.07
N/A
LPE6562ER334NU
330 000 ± 30 %
A
53.7
0.06
N/A
LPE6562ER100MG
10
± 20 %
B
0.03
3.09
5.055
LPE6562ER150MG
15
± 20 %
B
0.04
2.79
4.160
LPE6562ER220MG
22
± 20 %
B
0.05
2.26
3.460
LPE6562ER330MG
33
± 20 %
B
0.08
1.81
2.840
LPE6562ER470MG
47
± 20 %
D
0.12
1.48
2.390
LPE6562ER680MG
68
± 20 %
C
0.19
1.20
1.990
LPE6562ER101MG
100
± 20 %
D
0.29
0.98
1.650
LPE6562ER151MG
150
± 20 %
E
0.45
0.78
1.350
LPE6562ER221MG
220
± 20 %
E
0.54
0.71
1.115
LPE6562ER331MG
330
± 20 %
E
0.84
0.57
0.912
LPE6562ER471MG
470
± 20 %
E
1.24
0.47
0.765
LPE6562ER681MG
680
± 20 %
E
1.89
0.38
0.637
LPE6562ER102MG
1000
± 20 %
E
2.91
0.31
0.526
LPE6562ER152MG
1500
± 20 %
E
4.50
0.25
0.430
LPE6562ER222MG
2200
± 20 %
E
6.90
0.20
0.355
LPE6562ER332MG
3300
± 20 %
E
10.4
0.16
0.290
LPE6562ER472MG
4700
± 20 %
E
15.7
0.13
0.243
Notes
(1) DC current that will create a maximum temperature rise of 30 °C when applied at + 25 °C ambient.
(2) DC current that will typically reduce the initial inductance by 20 %.
• UNGAPPED MODELS: Highest possible inductance with the lowest DCR and highest Q capability. Beneficial in filter, impedance matching and
line coupling devices.
GAPPED MODELS: Capable of handling large amounts of DC current, tighter inductance tolerance with better temperature stability than ungapped
models. Beneficial in DC/DC converters or other circuits carrying DC currents or requiring inductance stability over a temperature range.
DESCRIPTION
LPE
6562
MODEL SIZE
1000 μH
INDUCTANCE VALUE
± 30 %
INDUCTANCE TOLERANCE
A
CORE
ER
PACKAGE CODE
e2
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
L
P
E
PRODUCT FAMILY
6
5
6
SIZE
2
E
R
PACKAGE CODE
1
0
2
INDUCTANCE VALUE
N
T
TOL.
CORE
Note
• Series is also available with SnPb terminations by using package code RY for tape and reel (in place of ER) or SM for bulk (in place of EB).
Document Number: 34066
Revision: 29-Jan-09
For technical questions, contact: [email protected]
www.vishay.com
237
LPE-6562
Surface Mount Transformers/Inductors,
Gapped and Ungapped, Custom Configurations Available
Vishay Dale
DIMENSIONS in inches [millimeters]
SCHEMATIC (top view)
0.092 [2.34] Pad Dimensions
Typical, 10 places
Pad Layout
0.100 [2.54]
0.058
[1.47]
Typical
4 places
0.545
[13.84]
0.603
[15.32]
Reference Only
Schematic C
4
5
4
5
4
6
3
6
3
6
3
7
2
7
2
7
2
8
1
8
1
8
1
Schematic D
Dimensional Outline
6
5
10
0.606
[15.39]
Max.
1
Schematic E
5
4
5
4
6
3
6
3
7
2
7
2
8
1
8
1
Note
• Schematic A is for ungapped LPE series
ENVIRONMENTAL PERFORMANCE
0.335 [8.51]
Max.
0.695 [17.65]
Max.
0.575
[14.60]
0.100
[2.54]
Typ.
Schematic B
Schematic A
5
0.028 [0.71]
0.028 [0.71]
Foot Print Diagram
Notes
• Pad layout guidelines per MIL-STD-275E (printed wiring for
electronic equipment).
• Tolerances: xx ± 0.01" [± 0.25 mm]; xxx ± 0.005" [± 0.12 mm].
• The underside of these components contains metal and thus
should not come in contact with active circuit traces.
TEST
CONDITIONS
Thermal Cycling
Withstands - 55 °C to + 125 °C
Operating Temperature - 55 °C to + 125 °C (1)
High Humidity
85 %
Soldering Heat
Tested to + 230 °C
Mechanical Shock
Per MIL-STD-202, method 213 (100G)
Vibration
Per MIL-STD-202, method 204 (20G)
Solderability
Per industry standards
Note
(1) Must be checked in end use application
PART MARKING
- Vishay Dale
- Date code
- Marking code (suffix of model #)
- Pin 1 indicator
PACKAGING
TAPE SPECIFICATIONS:
Carrier Tape Type: Conductive
Cover Tape Type: Anti-static
Cover Tape Adhesion to Carrier: 40 g ± 30 g
REEL SPECIFICATIONS:
Diameter (flange): 13" [330.2 mm]
Maximum Width (over flanges): 1.197" [30.4 mm]
STANDARDS: All embossed carrier tape packaging will be
accomplished in compliance with latest revision of EIA-481
“Taping of Surface Mount Components for Automatic
Placement”.
TAPE
COMPONENT
UNITS PER 13"
MODEL
WIDTH
PITCH
REEL
LPE-6562
32 mm
20 mm
300
Tape and Reel Orientation
Pin 1 Indicator
Cover Tape
Carrier Tape
Embossed Cavity
Label Area
USER DIRECTION OF FEED
Note
• Top view shown with cover tape removed
www.vishay.com
238
For technical questions, contact: [email protected]
Document Number: 34066
Revision: 29-Jan-09
LPE-6855
Vishay Dale
Surface Mount Transformers/Inductors,
Gapped and Ungapped, Custom Configurations Available
FEATURES
• Compliant to RoHS directive 2002/95/EC
ELECTRICAL SPECIFICATIONS
(Multiple winds are connected in parallel)
Inductance Range: 10 μH to 150 000 μH, measured
at 0.10 VRMS at 10 kHz without DC current, using an
HP 4263A or HP 4284A impedance analyzer
DC Resistance Range: 0.02  to 46.2 , measured at
+ 25 °C ± 5 °C
Rated Current Range: 3.20 A to 0.17 A
Dielectric Withstanding Voltage: 500 VRMS, 60 Hz, 5 s
STANDARD ELECTRICAL SPECIFICATIONS
GAPPED MODELS (B)
UNGAPPED MODELS (A)
SATURATING CURRENT
IND.
IND.
SCHEMATIC DCR MAX. MAX. RATED DC CURRENT
(A) (2)
MODEL
(μH)
TOL.
LETTER
()
(A) (1)
LPE6855ER151NU
150
± 30 %
A
0.28
0.84
N/A
LPE6855ER221NU
220
± 30 %
A
0.34
0.76
N/A
LPE6855ER331NU
330
± 30 %
A
0.41
0.69
N/A
LPE6855ER471NU
470
± 30 %
A
0.49
0.63
N/A
LPE6855ER681NU
680
± 30 %
A
0.59
0.57
N/A
LPE6855ER102NU
1000
± 30 %
A
0.72
0.52
N/A
LPE6855ER152NU
1500
± 30 %
A
0.88
0.47
N/A
LPE6855ER222NU
2200
± 30 %
A
1.07
0.43
N/A
LPE6855ER332NU
3300
± 30 %
A
1.31
0.39
N/A
LPE6855ER472NU
4700
± 30 %
A
1.56
0.35
N/A
LPE6855ER682NU
6800
± 30 %
A
1.88
0.32
N/A
LPE6855ER103NU
10 000
± 30 %
A
7.17
0.16
N/A
LPE6855ER153NU
15 000
± 30 %
A
8.78
0.15
N/A
LPE6855ER223NU
22 000
± 30 %
A
10.6
0.14
N/A
LPE6855ER333NU
33 000
± 30 %
A
13.0
0.12
N/A
LPE6855ER473NU
47 000
± 30 %
A
15.5
0.11
N/A
LPE6855ER683NU
68 000
± 30 %
A
18.7
0.10
N/A
LPE6855ER104NU 100 000 ± 30 %
A
37.7
0.07
N/A
LPE6855ER154NU 150 000 ± 30 %
A
46.2
0.06
N/A
LPE6855ER100MG
10
± 20 %
B
0.02
3.21
3.375
LPE6855ER150MG
15
± 20 %
B
0.03
2.90
2.790
LPE6855ER220MG
22
± 20 %
B
0.04
2.64
2.325
LPE6855ER330MG
33
± 20 %
B
0.05
2.12
1.910
LPE6855ER470MG
47
± 20 %
B
0.08
1.73
1.610
LPE6855ER680MG
68
± 20 %
B
0.12
1.41
1.350
LPE6855ER101MG
100
± 20 %
B
0.15
1.28
1.120
LPE6855ER151MG
150
± 20 %
C
0.23
1.02
0.915
LPE6855ER221MG
220
± 20 %
D
0.35
0.83
0.757
LPE6855ER331MG
330
± 20 %
D
0.55
0.67
0.620
LPE6855ER471MG
470
± 20 %
D
0.82
0.54
0.520
LPE6855ER681MG
680
± 20 %
E
1.23
0.45
0.433
LPE6855ER102MG
1000
± 20 %
E
1.89
0.36
0.358
LPE6855ER152MG
1500
± 20 %
E
2.90
0.29
0.292
LPE6855ER222MG
2200
± 20 %
E
4.50
0.23
0.242
LPE6855ER332MG
3300
± 20 %
E
5.50
0.21
0.197
LPE6855ER472MG
4700
± 20 %
E
8.30
0.17
0.166
Notes
(1) DC current that will create a maximum temperature rise of 30 °C when applied at + 25 °C ambient.
(2) DC current that will typically reduce the initial inductance by 20 %.
• UNGAPPED MODELS: Highest possible inductance with the lowest DCR and highest Q capability. Beneficial in filter, impedance matching and
line coupling devices.
GAPPED MODELS: Capable of handling large amounts of DC current, tighter inductance tolerance with better temperature stability than ungapped
models. Beneficial in DC/DC converters or other circuits carrying DC currents or requiring inductance stability over a temperature range.
DESCRIPTION
LPE
6855
MODEL SIZE
1000 μH
INDUCTANCE VALUE
± 30 %
INDUCTANCE TOLERANCE
A
CORE
ER
PACKAGE CODE
e2
JEDEC LEAD (Pb)-FREE STANDARD
GLOBAL PART NUMBER
L
P
E
PRODUCT FAMILY
6
8
5
SIZE
5
E
R
PACKAGE CODE
1
0
2
INDUCTANCE VALUE
N
U
TOL.
CORE
Note
• Series is also available with SnPb terminations by using package code RY for tape and reel (in place of ER) or SM for bulk (in place of EB).
Document Number: 34067
Revision: 10-Oct-08
For technical questions, contact: [email protected]
www.vishay.com
239
LPE-6855
Surface Mount Transformers/Inductors,
Gapped and Ungapped, Custom Configurations Available
Vishay Dale
DIMENSIONS in inches [millimeters]
SCHEMATIC (top view)
0.079 [2.01]
0.045
[1.14]
Typical
3 places
0.593
[15.06]
0.638
[16.21]
Reference Only
4 0.555
[14.10]
1 Max.
8
Schematic C
5
4
5
4
5
4
6
3
6
3
6
3
7
2
7
2
7
2
8
1
8
1
8
1
Schematic D
Dimensional Outline
5
Schematic B
Schematic A
0.045 [1.14]
Pad Dimensions
Typical, 8 places
Pad Layout
Schematic E
5
4
5
4
6
3
6
3
7
2
7
2
8
1
8
1
Note
• Schematic A is for ungapped LPE series
Clip Opening
Opposite Pin 1
ENVIRONMENTAL PERFORMANCE
0.220 [5.59]
Max.
0.690 [17.53]
Max.
0.618
[15.70]
0.028 [0.71]
0.079 [2.01]
Typ.
0.028 [0.71]
Foot Print Diagram
TEST
CONDITIONS
Thermal Cycling
Withstands - 55 °C to + 125 °C
Operating Temperature - 55 °C to + 125 °C (1)
High Humidity
85 %
Soldering Heat
Tested to + 230 °C
Mechanical Shock
Per MIL-STD-202, method 213 (100G)
Vibration
Per MIL-STD-202, method 204 (20G)
Solderability
Per industry standards
Note
(1) Must be checked in end use application
PART MARKING
Notes
• Pad layout guidelines per MIL-STD-275E (printed wiring for
electronic equipment).
• Tolerances: xx ± 0.01" [± 0.25 mm]; xxx ± 0.005" [± 0.12 mm].
- Vishay Dale
- Date code
- Marking code (suffix of model #)
- Pin 1 indicator
PACKAGING
TAPE SPECIFICATIONS:
Carrier Tape Type: Conductive
Cover Tape Type: Anti-static
Cover Tape Adhesion to Carrier: 40 g ± 30 g
REEL SPECIFICATIONS:
Diameter (flange): 13" [330.2 mm]
Maximum Width (over flanges): 1.197" [30.4 mm]
STANDARDS: All embossed carrier tape packaging will be
accomplished in compliance with latest revision of EIA-481
“Taping of Surface Mount Components for Automatic
Placement”.
TAPE
COMPONENT
UNITS PER 13"
MODEL
WIDTH
PITCH
REEL
LPE-6855
32 mm
20 mm
450
Tape and Reel Orientation
Pin 1 Indicator
Cover Tape
Carrier Tape
Embossed Cavity
Label Area
USER DIRECTION OF FEED
Note
• Top view shown with cover tape removed
www.vishay.com
240
For technical questions, contact: [email protected]
Document Number: 34067
Revision: 10-Oct-08
LPT-3535
Vishay Dale
Inductors/Transformers Customizable, Surface Mount
Torodial, Kool Mu®, Powdered Iron and MPP Cores
FEATURES
• Toroidal design for minimal EMI radiation in DC/DC
converter applications
• Designed to support the growing need for efficient
DC/DC converters in battery operated equipment
• Two separate windings provide versatility by ability
to connect windings in series or parallel
• Operating temperature range: - 40 °C to + 125 °C
• Supplied on tape and reel and is designed to be pick
and place compatible
• Custom versions and turns ratios available. Contact the factory
with your specifications
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
Note
• Kool Mu® is a registered trademark of Spang & Company
STANDARD ELECTRICAL SPECIFICATIONS (in parallel)
DCR
()
0.005
0.009
0.011
0.015
0.023
0.055
0.081
0.131
0.182
0.280
0.514
0.775
1.279
1.837
0.004
0.005
0.009
0.013
0.018
0.043
0.064
0.103
0.147
0.230
0.424
0.645
1.031
1.463
0.005
0.009
0.011
0.015
0.023
0.055
0.081
0.131
0.182
0.280
0.514
0.775
1.279
1.837
RATED IDC
(40 °C)
6.42
4.77
4.45
3.73
3.01
1.95
1.59
1.25
1.05
0.84
0.63
0.57
0.40
0.33
5.10
4.48
3.58
2.96
2.41
1.58
1.29
1.03
0.85
0.68
0.51
0.41
0.33
0.27
6.45
4.80
4.46
3.73
3.02
1.94
1.59
1.26
1.05
0.84
0.64
0.52
0.40
0.33
IND. AT IDC (LBIAS)
(30 %)
0.48 at 7.05
1.07 at 4.70
1.46 at 4.03
1.90 at 3.52
2.98 at 2.82
6.69 at 1.88
9.64 at 1.57
15.7 at 1.23
20.1 at 1.08
30.5 at 0.88
60.2 at 0.63
90.0 at 0.51
150.0 at 0.40
195.0 at 0.35
0.56 at 4.29
0.99 at 3.21
1.54 at 2.57
2.22 at 2.14
3.03 at 1.84
6.81 at 1.22
9.65 at 1.03
15.8 at 0.80
21.1 at 0.70
32.7 at 0.56
65.2 at 0.40
96.3 at 0.33
157.0 at 0.25
208.0 at 0.22
0.52 at 7.05
1.16 at 4.70
1.58 at 4.03
2.06 at 3.52
3.22 at 2.82
7.25 at 1.88
10.43 at 1.57
17.0 at 1.23
21.8 at 1.08
33.0 at 0.88
97.4 at 0.51
65.2 at 0.63
162.0 at 0.51
211.0 at 0.35
KOOL MU® CORE (A)
ACTUAL IND. (LOC)
(μH)
0.800
1.80
2.45
3.20
5.00
11.3
16.2
26.5
33.8
51.2
101
151
252
328
0.882
1.57
2.45
3.53
4.80
10.8
15.3
25.1
33.5
51.8
104
153
250
330
0.800
1.80
2.45
3.20
5.00
11.3
16.2
26.5
33.8
51.2
101
151
252
328
POWDERED IRON (B)
IND. TOL.
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
MPP (C)
STD. IND.
(μH)
1.0
1.5
2.5
3.3
5.0
10
15
25
33
50
100
150
250
330
1.0
1.5
2.5
3.3
5.0
10
15
25
33
50
100
150
250
330
1.0
1.5
2.5
3.3
5.0
10
15
25
33
50
100
150
250
330
MODEL
LPT3535ER1R0LK
LPT3535ER1R5LK
LPT3535ER2R5LK
LPT3535ER3R3LK
LPT3535ER5R0LK
LPT3535ER100LK
LPT3535ER150LK
LPT3535ER250LK
LPT3535ER330LK
LPT3535ER500LK
LPT3535ER101LK
LPT3535ER151LK
LPT3535ER251LK
LPT3535ER331LK
LPT3535ER1R0LP
LPT3535ER1R5LP
LPT3535ER2R5LP
LPT3535ER3R3LP
LPT3535ER5R0LP
LPT3535ER100LP
LPT3535ER150LP
LPT3535ER250LP
LPT3535ER330LP
LPT3535ER500LP
LPT3535ER101LP
LPT3535ER151LP
LPT3535ER251LP
LPT3535ER331LP
LPT3535ER1R0LM
LPT3535ER1R5LM
LPT3535ER2R5LM
LPT3535ER3R3LM
LPT3535ER5R0LM
LPT3535ER100LM
LPT3535ER150LM
LPT3535ER250LM
LPT3535ER330LM
LPT3535ER500LM
LPT3535ER101LM
LPT3535ER151LM
LPT3535ER251LM
LPT3535ER331LM
DESCRIPTION
LPT
MODEL
3535
SIZE
100 μH
INDUCTANCE
VALUE
± 15 %
INDUCTANCE
TOLERANCE
A
CORE/HEIGHT
K = KOOL MU® (A)
P = POWDERED IRON (B)
M = MPP (C)
ER
PACKAGE CODE
ER = Reel
EB = Bulk
e2
JEDEC LEAD (Pb)-FREE
STANDARD
GLOBAL PART NUMBER
L
P
T
PRODUCT FAMILY
3
5
3
SIZE
5
E
R
PACKAGE CODE
1
0
1
INDUCTANCE VALUE
L
K
TOL.
CORE
Note
• Series is also available with SnPb terminations by using package code RH for tape and reel (in place of ER) or SM for bulk (in place of EB).
Document Number: 34068
Revision: 24-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
241
LPT-3535
Inductors/Transformers Customizable, Surface Mount
Torodial, Kool Mu®, Powdered Iron and MPP Cores
Vishay Dale
DIMENSIONS in inches [millimeters]
Dimensional Outline
Pad Layout
0.160
[4.06]
0.350 ± 0.005 Dia.
[8.89 ± 0.127]
0.362 ± 0.005 Dia.
[9.19 ± 0.127]
1
0.392 sq.
[9.96 sq.]
2
0.120
[3.05]
Vishay Dale
LPT-3535xxxLX
4
0.450 [11.43]
Max.
3
0.392 sq.
[9.96 sq.]
0.235
[5.97]
Max.
SCHEMATICS (connection diagrams)
Transformer
1
Parallel
4
1
PART MARKING
Series
4
1
- Vishay Dale
4
- Model number
2
3
2
3
2
- Pin 1 identification
3
PACKAGING in inches [millimeters]
All embossed carrier tape packaging will be in compliance
with the latest revision of EIA-481.
CARRIER TAPE WIDTH
PITCH
PARTS PER 13" [330.2] REEL
0.945 [24.0]
0.630 [16.0]
600
DALE
LPT-[
]
[
]
DALE
LPT-[
]
[
]
DALE
LPT-[
]
[
]
[DATE CODE]
[DATE CODE]
[DATE CODE]
REELING DIRECTION
www.vishay.com
242
For technical questions, contact: [email protected]
Document Number: 34068
Revision: 24-Feb-11
LPT-4545
Vishay Dale
Inductors/Transformers Customizable, Surface Mount
Torodial, Kool Mu®, Powdered Iron and MPP Cores
FEATURES
• Toroidal design for minimal EMI radiation in DC/DC
converter applications
• Designed to support the growing need for efficient
DC/DC converters in battery operated equipment
• Two separate windings provide versatility by ability
to connect windings in series or parallel
• Operating temperature range: - 40 °C to + 125 °C
• Supplied on tape and reel and is designed to be pick
and place compatible
• Custom versions and turns ratios available. Contact the factory
with your specifications
• Compliant to RoHS Directive 2002/95/EC
• Halogen-free according to IEC 61249-2-21 definition
Note
• Kool Mu® is a registered trademark of Spang & Company
STANDARD ELECTRICAL SPECIFICATIONS (in parallel)
DCR
()
0.003
0.004
0.006
0.007
0.011
0.019
0.029
0.038
0.048
0.068
0.107
0.195
0.302
0.491
0.670
0.706
0.004
0.005
0.009
0.012
0.019
0.034
0.049
0.084
0.119
0.180
0.342
0.509
0.831
1.194
0.004
0.004
0.007
0.008
0.012
0.022
0.033
0.054
0.076
0.119
0.219
0.340
0.551
0.788
RATED IDC
(40 °C)
6.90
6.45
5.75
5.50
4.45
3.45
2.79
2.61
2.25
1.85
1.50
1.15
0.92
0.73
0.63
0.60
6.61
6.08
5.01
4.22
3.32
2.52
2.10
1.61
1.34
1.09
0.81
0.66
0.52
0.43
7.54
6.82
5.84
5.49
4.37
3.32
2.69
2.12
1.76
1.41
1.07
0.86
0.67
0.56
IND. AT IDC (LBIAS)
(30 %)
0.51 at 7.62
0.80 at 6.10
1.57 at 4.35
2.05 at 3.81
3.20 at 3.05
6.28 at 2.18
9.26 at 1.79
12.4 at 1.53
15.5 at 1.39
20.0 at 1.22
30.8 at 0.98
62.0 at 0.69
93.4 at 0.56
153.0 at 0.44
179.0 at 0.40
205.0 at 0.38
0.53 at 7.09
0.76 at 5.91
1.71 at 3.94
2.11 at 3.54
3.57 at 2.73
6.84 at 1.97
9.31 at 1.69
16.5 at 1.27
21.6 at 1.11
32.1 at 0.91
66.2 at 0.63
94.7 at 0.53
156.0 at 0.41
211.0 at 0.35
0.54 at 11.11
0.84 at 8.89
1.64 at 6.35
2.14 at 5.56
3.35 at 4.45
6.56 at 3.18
9.68 at 2.61
16.2 at 2.02
20.9 at 1.78
32.2 at 1.43
64.8 at 1.01
97.7 at 0.82
159.0 at 0.64
214.0 at 0.56
KOOL MU® CORE (A)
ACTUAL IND. (LOC)
(μH)
0.832
1.30
2.55
3.33
5.20
10.2
15.0
20.8
25.2
32.5
50.0
101
152
248
300
333
0.838
1.21
2.71
3.35
5.66
10.9
14.8
26.3
34.3
51.0
105
150
248
335
0.838
1.30
2.55
3.33
5.20
10.2
15.0
25.2
32.5
50.0
101
152
248
333
POWDERED IRON (B)
IND. TOL.
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
± 15 %
MPP (C)
STD. IND.
(μH)
1.0
1.5
2.5
3.3
5.0
10
15
20
25
33
50
100
150
250
300
330
1.0
1.5
2.5
3.3
5.0
10
15
25
33
50
100
150
250
330
1.0
1.5
2.5
3.3
5.0
10
15
25
33
50
100
150
250
330
MODEL
LPT4545ER1R0LK
LPT4545ER1R5LK
LPT4545ER2R5LK
LPT4545ER3R3LK
LPT4545ER5R0LK
LPT4545ER100LK
LPT4545ER150LK
LPT4545ER200LK
LPT4545ER250LK
LPT4545ER330LK
LPT4545ER500LK
LPT4545ER101LK
LPT4545ER151LK
LPT4545ER251LK
LPT4545ER301LK
LPT4545ER331LK
LPT4545ER1R0LP
LPT4545ER1R5LP
LPT4545ER2R5LP
LPT4545ER3R3LP
LPT4545ER5R0LP
LPT4545ER100LP
LPT4545ER150LP
LPT4545ER250LP
LPT4545ER330LP
LPT4545ER500LP
LPT4545ER101LP
LPT4545ER151LP
LPT4545ER251LP
LPT4545ER331LP
LPT4545ER1R0LM
LPT4545ER1R5LM
LPT4545ER2R5LM
LPT4545ER3R3LM
LPT4545ER5R0LM
LPT4545ER100LM
LPT4545ER150LM
LPT4545ER250LM
LPT4545ER330LM
LPT4545ER500LM
LPT4545ER101LM
LPT4545ER151LM
LPT4545ER251LM
LPT4545ER331LM
DESCRIPTION
LPT
MODEL
4545
SIZE
100 μH
INDUCTANCE
VALUE
± 15 %
INDUCTANCE
TOLERANCE
A
CORE/HEIGHT
K = KOOL MU® (A)
P = POWDERED IRON (B)
M = MPP (C)
ER
PACKAGE CODE
ER = Reel
EB = Bulk
e2
JEDEC LEAD (Pb)-FREE
STANDARD
GLOBAL PART NUMBER
L
P
T
4
5
4
5
E
R
1
0
1
L
K
PRODUCT FAMILY
SIZE
PACKAGE CODE
INDUCTANCE VALUE
TOL.
CORE
Note
• Series is also available with SnPb terminations by using package code RH for tape and reel (in place of ER) or SM for bulk (in place of EB).
Document Number: 34069
Revision: 24-Feb-11
For technical questions, contact: [email protected]
www.vishay.com
243
LPT-4545
Inductors/Transformers Customizable, Surface Mount
Torodial, Kool Mu®, Powdered Iron and MPP Cores
Vishay Dale
DIMENSIONS in inches [millimeters]
Dimensional Outline
Pad Layout
0.160
[4.06]
0.450 ± 0.005 Dia.
[11.43 ± 0.127]
0.462 ± 0.005 Dia.
[11.73 ± 0.127]
1
0.492 sq.
[12.5 sq.]
2
0.120
[3.05]
Vishay Dale
LPT-4545xxxLX
4
0.550 [13.97]
Max.
3
0.492 sq.
[12.5 sq.]
0.250
[6.350]
Max.
SCHEMATICS (connection diagrams)
Transformer
1
Parallel
4
1
PART MARKING
Series
4
1
- Vishay Dale
4
- Model number
2
3
2
3
2
- Pin 1 identification
3
PACKAGING in inches [millimeters]
All embossed carrier tape packaging will be in compliance
with the latest revision of EIA-481.
CARRIER TAPE WIDTH
PITCH
PARTS PER 13" [330.2] REEL
0.945 [24.0]
0.630 [16.0]
600
DALE
LPT-[
]
[
]
DALE
LPT-[
]
[
]
DALE
LPT-[
]
[
]
[DATE CODE]
[DATE CODE]
[DATE CODE]
REELING DIRECTION
www.vishay.com
244
For technical questions, contact: [email protected]
Document Number: 34069
Revision: 24-Feb-11
Contents
Custom Products................... 246
Definitions ............................. 254
Engineering Note ILB, ILBB,
IMC, ISC, IFC........................ 261
Reference
Information
Engineering Note ILB, ILBB
Ferrite Beads......................... 268
Engineering Note .................. 274
Packaging Methods............... 276
Conversion Tables ................ 278
Linear Tech
Cross Reference ................... 279
Custom Products
Vishay Dale
Magnetic Components
SWITCH MODE MAGNETICS
CUSTOM DESIGN AND PRODUCTION
Vishay Dale has extensive facilities for custom design and
production of custom magnetics. Design applications
include:
• PWM, PSM and FM transformers
• Pulse and trigger transformers
• Test measurement transformers
• Power transformers
• Power, filter and switchmode inductors
• Telecommunications/audio transformers
Design input forms for the above design applications follow:
PACKAGE DESIGN AND MATERIALS
If you have your own electrical design we can add value by
assisting you with selection of the most economical
materials and efficient packaging design.
Vishay Dale can provide designs to meet UL, CSA, IEEE and
VDE requirements.
Produced to your specifications for a wide range of high
frequency applications including: Television, radio (2-way,
scanners, AM/FM), satellite communication, cable TV
systems, microwave, test equipment.
AIR CORE INDUCTORS
ELECTRICAL SPECIFICATIONS
Frequency: To 500 MHz
Current: 10 A maximum
Temperature: To + 130 °C
MECHANICAL SPECIFICATIONS
INDUCTIVE PRODUCTS
Winding: 1 to 32 turns, clockwise or counter-clockwise with
variable pitch
Wire gauge: #18 to #32
Leads: Automatically tinned. Various configurations
available
Coil inside diameter: 0.079" to 0.354" [2.01 mm to
8.99 mm]
Coil length: Up to 1.26" [32.0 mm]
Cannot find it in the catalog? Vishay Dale has the custom
capability to design and produce a wide range of magnetic
components to your requirements.
POWER TRANSFORMERS
50 Hz to 400 Hz, VA ratings to 100 VA. Specialty models in
low profile and PC mount.
INDUCTORS
Inductance values to 20 H, current ratings to 60 A.
Capability of many styles including: Toroidal, laminated,
E core, pot core, slug core, air core
AUDIO TRANSFORMERS
Coupling transformers and hybrid transformers available in
PC mount, leadset and low profile
TRANSFORMERS
Switching magnetics, converter transformers,
transformers, high voltage transformers
www.vishay.com
246
For technical questions, contact: [email protected]
pulse
Document Number: 34003
Revision: 23-Jan-02
Custom Products
Magnetic Components
Vishay Dale
POWER TRANSFORMER DESIGN INFORMATION
CONTACT INFORMATION
Contact Person ______________________________________
E-Mail ______________________________________________
Phone # ______ - ______ - ______
Fax # ______ - ______ - ______
Company ____________________________
General Application of this product: _______________________________________________________________________________
ELECTRICAL REQUIREMENTS
Approximate Output Power: __________ VA
Minimum Line Frequency (Hz):
50 60 400 1K 100K 150K 250K Other: __________
Maximum Temperature Rise (°C):
10 20 30 40 50 Other: __________
Efficiency: __________ %
Isolation Voltage: __________ VAC/VDC
Interwinding Capacitance (Ciw): __________ pF
Duty Cycle: __________ %
Primary Input Voltage:
90 100 115 120 200 230 240 115/230 Other: ________
Protection (Resettable or Single Use):
Thermal Fused Other: __________
Regulation: __________ %
Agency Requirements: UL VDE CSA IEC
Leakage Ind. (LI): __________ μH
SCHEMATIC
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
L:
Rect:
HW FW FWB
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
L:
Rect:
HW FW FWB
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
L:
Rect:
HW FW FWB
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
L:
Rect:
HW FW FWB
Screen or Shield
Outer Shield
Thick:
Thick:
Material:
Material:
Other Requirements:
Other Requirements:
Other Requirements:
Budgetary/Target Price:
at
pcs
Pin Requirements
PHYSICAL REQUIREMENTS
Flame Retardant:
Yes No
Mounting Style:
Standard Varnish:
Yes No
Thru Hole Surface Mount Flying Leads Other ______
Encapsulated:
Yes No
Length (Max.): __________
Hermetically Sealed:
Yes No
Width (Max.): __________
Shielded:YesNoHeight (Max.):__________Temperature Class (°C):Grid Units: __________
105 130 155 180 200
OTHER REQUIREMENTS
PRIORITIZATION (1-HIGHEST)
____________________________________________________
____________________________________________________
____________________________________________________
_______________ (Continue on separate sheet if necessary)
____________________ Size
____________________ Efficiency
____________________ Cost
Document Number: 34003
Revision: 23-Jan-02
For technical questions, contact: [email protected]
www.vishay.com
247
Custom Products
Magnetic Components
Vishay Dale
POWER TRANSFORMER DESIGN INFORMATION
CONTACT INFORMATION
Contact Person ______________________________________
E-Mail ______________________________________________
Phone # ______ - ______ - ______
Fax # ______ - ______ - ______
Company _____________________________
General Application of this product: _______________________________________________________________________________
ELECTRICAL REQUIREMENTS
Approximate Output Power: __________ VA
Minimum Line Frequency (Hz):
50 60 400 1K 100K 150K 250K Other: __________
Maximum Temperature Rise (°C):
10 20 30 40 50 Other: __________
Efficiency: __________ %
Isolation Voltage: __________ VAC/VDC
Interwinding Capacitance (Ciw): __________ pF
Duty Cycle: __________ %
Primary Input Voltage:
90 100 115 120 200 230 240 115/230 Other: ________
Protection (Resettable or Single Use):
Thermal Fused Other: __________
Regulation: __________ %
Agency Requirements: UL VDE CSA IEC
Leakage Ind. (LI): __________ μH
SCHEMATIC
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
L:
Rect:
HW FW FWB
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
L:
Rect:
HW FW FWB
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
L:
Rect:
HW FW FWB
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
L:
Rect:
HW FW FWB
Screen or Shield
Outer Shield
Thick:
Thick:
Material:
Material:
Other Requirements:
Other Requirements:
Other Requirements:
Budgetary/Target Price:
at
pcs
Pin Requirements
PHYSICAL REQUIREMENTS
Flame Retardant:
Standard Varnish:
Encapsulated:
Hermetically Sealed:
Shielded:
Yes
Yes
Yes
Yes
Yes
No
No
No
No
No
Mounting Style:
Thru Hole Surface Mount Flying Leads Other ______
Length (Max.): __________
Width (Max.): __________
Height (Max.): __________
Temperature Class (°C):
Grid Units: __________
105 130 155 180 200
OTHER REQUIREMENTS
PRIORITIZATION (1-HIGHEST)
____________________________________________________
____________________________________________________
____________________________________________________
_______________ (Continue on separate sheet if necessary)
____________________ Size
____________________ Efficiency
____________________ Cost
www.vishay.com
248
For technical questions, contact: [email protected]
Document Number: 34003
Revision: 23-Jan-02
Custom Products
Magnetic Components
Vishay Dale
PWM, PSM, AND FM TRANSFORMER DESIGN INFORMATION
CONTACT INFORMATION
Contact Person ______________________________________
E-Mail ______________________________________________
Phone # ______ - ______ - ______
Fax # ______ - ______ - ______
Company ____________________________
General Application of this product: _______________________________________________________________________________
ELECTRICAL REQUIREMENTS
Frequency: __________ Hz
Primary Voltage __________ VAC/VDC
Isolation Voltage: ____________________ VAC/VDC
Secondary Voltage __________ VAC/VDC
Secondary Current __________ A (Max.)
Duty Cycle: ____________ %
Driver Current __________ A (Max.)
Circuit Type: PWM PSM FM Other: _______________
Size of Storage Capacitors __________ F
Driver Type: SCR FET PWM Other: _______________
Maximum Temperature Rise (°C):
Protection (Resettable or Single Use):
10 20 30 40 50 Other __________
Thermal Fused Other __________
Build to Agency Requirements: UL VDE CSA IEC MIL-Spec _________________________________________________________
Certify to Agency Requirements: UL VDE CSA IEC MIL-Spec ________________________________________________________
Leakage L: __________ μH (Max.)
Ciw: __________ pF (Max.)
ET: __________ V-μs
SCHEMATIC
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
L:
Rect:
HW FW FWB
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
L:
Rect:
HW FW FWB
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
L:
Rect:
HW FW FWB
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
L:
Rect:
HW FW FWB
Screen or Shield
Outer Shield
Thick:
Thick:
Material:
Material:
Other Requirements:
Other Requirements:
Other Requirements:
Budgetary/Target Price:
at
pcs
Pin Requirements
PHYSICAL REQUIREMENTS
Flame Retardant:
Yes No
Mounting Style:
Standard Varnish:
Yes No
Thru Hole Surface Mount Flying Leads Other ______
Encapsulated:
Yes No
Length (Max.): __________
Hermetically Sealed:
Yes No
Width (Max.): __________
Shielded:YesNoHeight (Max.):__________Temperature Class (°C):Grid Units: __________
105 130 155 180 200
OTHER REQUIREMENTS
____________________________________________________
____________________________________________________
____________________________________________________
_______________ (Continue on separate sheet if necessary)
Document Number: 34003
Revision: 23-Jan-02
PRIORITIZATION (1-HIGHEST)
____________________ Size
____________________ Efficiency
____________________ Cost
For technical questions, contact: [email protected]
www.vishay.com
249
Custom Products
Magnetic Components
Vishay Dale
POWER, FILTER AND SWITCHMODE INDUCTOR DESIGN INFORMATION
CONTACT INFORMATION
Contact Person ______________________________________
E-Mail ______________________________________________
Phone # ______ - ______ - ______
Fax # ______ - ______ - ______
Company _____________________________
General Application of this product: _______________________________________________________________________________
Application: Power/Energie or Filter/Frequency Selection
ELECTRICAL REQUIREMENTS
L:__________ H
DC Bias:__________ ADC
L at DC Bias:__________ H
Q Min. at nominal L:__________
% of Saturation (Max.):__________ %
AC Current or Voltage Level:__________ AAC or VAC
DC Current or Voltage Level:__________ ADC or VDC
Impedance: __________  at __________ Hz
SCHEMATIC
Frequency (Range): __________ Hz
SRF: __________ Hz
ET: __________ V-μs
DCR (Max.): __________ 
Dielectric Range: __________ VAC/VDC
Operating Temperature Range: __________ to __________
Maximum Temperature Rise (°C): 10 20 30 40 50 _____
BUCK AND BOOST INDUCTORS
Voltage:
AC or DC
Current:
RMS or Peak
Other:
Input Voltage
V
Output Voltage
V
Switching Frequency
Hz
Voltage:
AC or DC
Maximum DC Output Current
A
Current:
RMS or Peak
Minimum DC Output Current
A
Maximum Duty Cycle
%
Minimum Duty Cycle
%
AC Ripple
%
Other:
Voltage:
AC or DC
Current:
RMS or Peak
Other:
Voltage:
AC or DC
Current:
RMS or Peak
Budgetary/Target Price:
at
pcs
Other:
Outer Shield
Screen or Shield
Thick:
Thick:
Material:
Material:
PHYSICAL REQUIREMENTS
Flame Retardant:
Yes
Standard Varnish:
Yes
Encapsulated:
Yes
Hermetically Sealed:
Yes
Shielded:
Yes
No
No
No
No
No
Mounting Style: Vertical or Horizontal
Thru Hole Surface Mount Flying Leads Other ________
Inside Diameter (Min.):__________
Length (Max.): __________
Width (Max.): __________ Temperature Class (°C):
Grid Units: __________
Height (Max.): __________ 105 130 155 180 200
OTHER REQUIREMENTS
PRIORITIZATION (1-HIGHEST)
____________________________________________________
____________________________________________________
____________________________________________________
_______________ (Continue on separate sheet if necessary)
____________________ Size
____________________ Efficiency
____________________ Cost
www.vishay.com
250
Pin Requirements
For technical questions, contact: [email protected]
Document Number: 34003
Revision: 23-Jan-02
Custom Products
Magnetic Components
Vishay Dale
TELECOMMUNICATIONS/AUDIO TRANSFORMER DESIGN INFORMATION
CONTACT INFORMATION
Contact Person ______________________________________
E-Mail ______________________________________________
Phone # ______ - ______ - ______
Fax # ______ - ______ - ______
Company ____________________________
General Application of this product: _______________________________________________________________________________
Application Type: Modem Audio xDSL
ELECTRICAL REQUIREMENTS
Power Rating:__________ W
Primary Voltage:__________ VAC/VDC
Primary Impedance:__________ 
Secondary Impedance:__________ 
Turns Ratio:__________ (if known)
Isolation Voltage:__________ VAC or VDC
DC Loop Current:__________ mADC
Maximum Drive Level: __________ dbm VRMS
Ref. Resistance: __________ 
Return Loss: __________ db (Min.)
Leakage L: __________ µH (Max.)
Ciw: __________ pF (Max.)
Frequency Range: __________ Hz to __________ Hz
Frequency Response: Ref. __________ Hz ± __________ db
from __________ Hz to __________ Hz
Insertion/Transducer Loss: ± __________ db (Max.) or
± __________ db at __________ Hz
Longitudinal Transverse Balance:
__________ db (Min.) from __________ Hz to __________ Hz
__________ db (Min.) from __________ Hz to __________ Hz
Crosstalk: __________ db or better from __________ Hz to
__________ Hz w/__________ spacing
Distortion: __________ % Maximum
DCR: __________ 
SCHEMATIC
Z:
Z:
L:
L:
DC current:
Build for Certify to Agency
Requirements:
UL/CSA FCC BABT Other:
Output: Single Push-Pull
Z:
Z:
L:
L:
DC current:
Output: Single Push-Pull
Z:
Z:
L:
L:
DC current:
Modem Specifications:
V.22 V.29 V.32 V.34 V.90
Output: Single Push-Pull
Z:
Z:
Budgetary/Target Price:
L:
L:
at
DC current:
Screen or Shield
pcs
Output: Single Push-Pull
Outer Shield
Thick:
Thick:
Material:
Material:
Pin Requirements
PHYSICAL REQUIREMENTS
Flame Retardant:
Yes No
Mounting Style:
Standard Varnish:
Yes No
Thru Hole Surface Mount Flying Leads Other ________
Encapsulated:
Yes No
Inside Diameter (Min.):__________
Hermetically Sealed:
Yes No
Length (Max.):__________
Shielded:YesNoWidth (Max.):Temperature Class (°C):Grid Units: __________
Height (Max.):__________
OTHER REQUIREMENTS
____________________________________________________
____________________________________________________
____________________________________________________
_______________ (Continue on separate sheet if necessary)
Document Number: 34003
Revision: 23-Jan-02
105 130 155 180 200
PRIORITIZATION (1-HIGHEST)
____________________ Size
____________________ Efficiency
____________________ Cost
For technical questions, contact: [email protected]
www.vishay.com
251
Custom Products
Magnetic Components
Vishay Dale
TEST AND MEASUREMENT TRANSFORMER DESIGN INFORMATION
CONTACT INFORMATION
Contact Person ______________________________________
E-Mail ______________________________________________
Phone # ______ - ______ - ______
Fax # ______ - ______ - ______
Company _____________________________
General Application of this product: _______________________________________________________________________________
ELECTRICAL REQUIREMENTS
Primary Voltage: __________ VAC/VDC
Primary Current Range: __________ 
Desired Secondary Voltage: __________ V
Turns Ratio__________ (if known)
Accuracy Required: __________ %
Ratio Error: __________ at 10 %
__________ at 100 %
Dielectric Rating: __________ VAC/VDC
Frequency Range: _______ Hz to _______ ref _______ Hz
Load/Burden Resistance: __________ 
Isolation Voltage: ____________ VAC/VDC
DC Current: ____________ mADC
Maximum Phase Error Angle: _______________ at 10 %
_______________ at 100 %
Operating Temperature Range: ___________ to ___________
SCHEMATIC
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
Other
RL:
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
Other
RL:
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
Other
RL:
Voltage:
Voltage:
AC or DC
Current:
Current:
RMS or Peak
Other
RL:
Screen or Shield
Thick:
Material:
Material:
No
No
No
No
No
Other Requirements:

Other Requirements:

Budgetary/Target Price:
at
pcs.

Pin Requirements
Mounting Style: Vertical or Horizontal
Thru Hole Surface Mount Flying Leads Other ________
Inside Diameter (Min.):__________
Length (Max.): __________
Width (Max.): __________ Temperature Class (°C):
Grid Units: __________
Height (Max.): __________ 105 130 155 180 200
OTHER REQUIREMENTS
____________________________________________________
____________________________________________________
____________________________________________________
_______________ (Continue on separate sheet if necessary)
www.vishay.com
252

Outer Shield
Thick:
PHYSICAL REQUIREMENTS
Flame Retardant:
Yes
Standard Varnish:
Yes
Encapsulated:
Yes
Hermetically Sealed:
Yes
Shielded:
Yes
Other Requirements:
PRIORITIZATION (1-HIGHEST)
____________________ Size
____________________ Efficiency
____________________ Cost
For technical questions, contact: [email protected]
Document Number: 34003
Revision: 23-Jan-02
Custom Products
Magnetic Components
Vishay Dale
CUSTOM DESIGN GRID
Document Number: 34003
Revision: 23-Jan-02
For technical questions, contact: [email protected]
www.vishay.com
253
Definitions
Vishay Dale
Inductor and Magnetic Product Terminology
INTRODUCTION
ILB
IFC
LPT
IMC
IHSM
LPE
IM
TJ
IRF
LPC
IHB
The scope of this application note is to define the terminology associated with inductors and their applications. Some of these
terms are listed in the component data sheets. Many terms go beyond the specification of inductors. These terms describe
issues associated with inductor design and performance, magnetic materials and theory and applications. A thorough
understanding of these terms and definitions will aid in the selling, procurement and application of inductor products.
DEFINITIONS
AIR CORE INDUCTORS
Bobbins
(see Ceramic Core and Phenolic Core)
AMBIENT TEMPERATURE
Axial Leaded
The temperature of still air immediately surrounding a
component or circuit. A typical method to measure ambient
temperature is to record the temperature that is
approximately 1/2" from the body of the component or
circuit.
ATTENUATION
The relative decrease in amplitude of a given parameter.
Attenuation measurements are common for voltage, current
and power. It is usually expressed in units of decibels (dB).
For a power ratio, one dB = 10 Log10 (P1/P2).
A dB is equal to 20 Log10 (l1/l2) for current and 20 Log10
(V1/V2) for voltage ratios.
AXIAL INDUCTOR
An inductor constructed on a core with concentric leads on
opposite ends of the core. Axial inductors are available for
both power applications and RF applications, and are
available in many core materials including the basic
phenolic, ferrite and powdered iron types. Both rod and
bobbin shapes are utilized. Axial inductors are very suitable
for tape and reel packaging for auto placement. (see
Inductor).
Axial Leaded Inductor
Radial Leaded
Leadless
BOOST REGULATOR (DC/DC)
A basic dc-to-dc switching converter topology that takes an
unregulated input voltage, and produces a higher, regulated
output voltage. This higher output voltage is achieved by
storing energy in an input inductor and then transferring the
energy to the output by turning a shunt switch (transistor) on
and off.
Simplified Boost Regulator
D
L
+
+
+
VIN
BOBBIN CORE
A core with the shape of a bobbin or spool which contains
flanges. Bobbin cores are available with and without leads
and in the axial and radial form. (see Axial Inductor and
Radial Inductor)
www.vishay.com
254
Q
C
VOUT
-
For technical questions, contact: [email protected]
-
Document Number: 34053
Revision: 06-Mar-02
Definitions
Inductor and Magnetic Product Terminology
BUCK REGULATOR (DC/DC)
A basic DC/DC switching converter topology that takes an
unregulated input voltage, and produces a lower, regulated
output voltage. This output voltage is achieved by chopping
the input voltage with a series connected switch (transistor)
which applies pulses to an averaging inductor and capacitor
circuit.
Simplified Buck Regulator
L
Q
+
+
+
VIN
D
C
-
VOUT
-
CERAMIC CORES
Ceramic is one of the common materials used for inductor
cores. Its main purpose is to provide a form for the coil. In
some designs it also provides the structure to hold the
terminals in place. Ceramic has a very low thermal
coefficient of expansion. This allows for relatively high
inductance stability over the operating temperature ranges.
Ceramic has no magnetic properties. Thus, there is no
increase in permeability due to the core material.
Ceramic core inductors are often referred to as “air core”
inductors. Ceramic core inductors are most often used in
high frequency applications where low inductance values,
very low core losses and high Q values are required.
CHOKE
(see RF Choke)
CLOSED MAGNETIC PATH
Magnetic core shapes designed to contain all of the
magnetic flux generated from an excited winding(s).
Inductors made with these core types are considered to be
shielded inductors. Shielding, however, is a matter of
degree. Common core shapes that are considered to have
closed magnetic paths are toroids, E-cores and most pot
cores. Shielded bobbins also offer a high degree of shielding
and may be considered to have closed magnetic paths for
most practical purposes. Common core shapes that are
considered to have open magnetic flux paths are rod cores
and unshielded bobbin cores. (see Shielded Inductor)
COILS
Another common name for inductors. (see Inductor)
COLOR CODES
Inductor color codes have been standardized. The color
marks or bands represent the inductor's value and
tolerance. Following is a table that translates the colors and
numbers:
Document Number: 34053
Revision: 06-Mar-02
COLOR
Black
Brown
Red
Orange
Yellow
Green
Blue
Violet
Gray
White
None
Silver
Gold
Vishay Dale
COLOR CODE CHART
SIGNIFICANT
FIGURES OR
MULTIPLIER
DECIMAL POINT
0
1
1
10
2
100
3
1000
4
10 000
5
6
7
8
9
-
INDUCTANCE
TOLERANCE
±1%
±2%
±3%
±4%
± 20 %
± 10 %
±5%
COMMON-MODE NOISE
Noise or electrical interference that is common to both
electrical lines in relation to earth ground.
COPPER LOSS
The power lost by current flowing through the winding. The
power loss is equal to the square of the current multiplied by
the resistance of the wire (I2R). This power loss is transferred
into heat.
CORE LOSSES
Core losses are caused by an alternating magnetic field in
the core material. The losses are a function of the operating
frequency and the total magnetic flux swing. The total core
losses are made up of three main components: Hysteresis,
eddy current and residual losses. These losses vary
considerably from one magnetic material to another.
Applications such as higher power and higher frequency
switching regulators and RF designs require careful core
selection to yield the highest inductor performance by
keeping the core losses to a minimum.
CORE SATURATION
(see Saturation Current)
CURIE TEMPERATURE
The temperature above which a ferrite core loses its
magnetic properties. The core’s permeability typically
increases dramatically as the core temperature approaches
the curie temperature which causes the inductance to
increase. The permeability drops to near unity at the curie
temperature which causes the inductance to drop
dramatically. The curie point is the temperature at which the
initial permeability has dropped to 10 % of its original value
at room temperature.
DC/DC CONVERTER
A circuit or device that converts a DC input voltage to
a regulated output voltage. The output voltage may be
lower, higher or the same as the input voltage. Switching
regulator DC/DC circuits most often require an inductor or
transformer to achieve the regulated output voltage.
Switching regulator circuits can achieve a higher level
of power efficiency when compared to non-switching
techniques. (see Boost Regulator and Buck Regulator)
For technical questions, contact: [email protected]
www.vishay.com
255
Definitions
Vishay Dale
Inductor and Magnetic Product Terminology
DCR (DC RESISTANCE)
The resistance of the inductor winding measured with no
alternating current. The DCR is most often minimized in the
design of an inductor. The unit of measure is ohms, and it is
usually specified as a maximum rating.
DIFFERENTIAL-MODE NOISE
Also known as normal-mode noise, it is electrical
interference that is not common to both electrical lines but
present between both electrical lines.
DISTRIBUTED CAPACITANCE
In the construction of an inductor, each turn of wire or
conductor acts as a capacitor plate. The combined effects
of each turn can be represented as a single capacitance
known as the distributed capacitance. This capacitance is in
parallel with the inductor. This parallel combination will
resonate at some frequency which is called the
self-resonant frequency (SRF). Lower distributed
capacitances for a given inductance value will result in a
higher SRF value for the inductor and vice versa. (see SRF)
EMI
EMI is an acronym for Electromagnetic Interference. It is
unwanted electrical energy in any form. EMI is often used
interchangeably with “Noise”.
EDDY CURRENT LOSSES
Eddy current losses are present in both the magnetic core
and winding of an inductor. Eddy currents in the winding (or
conductor) contribute to two main types of losses: losses
due to proximity effects and skin effects. As for the core
losses, an electric field around the flux lines in the magnetic
field is generated by alternating magnetic flux. This will
result in eddy currents if the magnetic core material has
electrical conductivity. Losses result from this phenomenon
since the eddy currents flow in a plane that is perpendicular
to the magnetic flux lines.
EPOXY COATED INDUCTOR
Inductors that have been coated with epoxy as opposed to
having a molded case, shrink wrapped tubing or left with an
open construction body. Epoxy coated inductors typically
have smooth edges and surfaces. The epoxy coat acts as an
insulation. Both radial and axial styles can be found with
epoxy coated surfaces.
FERRITE CORE
Ferrite is a magnetic material which consists of a mixed
oxide of iron and other elements that are made to have a
crystalline molecular structure. The crystalline structure is
created by firing the ferrite material at a very high
temperature for a specified amount of time and profile. The
general composition of ferrites is xxFe2O4 where xx
represents one or several metals. The most popular metal
combinations are manganese and zinc (MnZn) and nickel
and zinc (NiZn). These metals can be easily magnetized.
FILTER
A circuit or device whose purpose is to control electrical
energy at a given frequency or over a range of frequencies.
Groups of passive components are commonly used to
construct many types of filters. These passive components
include resistors, capacitors and inductors.
IMPEDANCE
The impedance of an inductor is the total resistance to the
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256
flow of current, including the AC and DC component. The
DC component of the impedance is simply the DC
resistance of the winding. The AC component of the
impedance includes the inductor reactance. The following
formula calculates the inductive reactance of an ideal
inductor (i.e., one with no losses) to a sinusoidal AC signal.
Z = XL = 2fL
L is in henries and f is in Hertz. This equation indicates that
higher impedance levels are achieved by higher inductance
values or at higher frequencies. Skin effect and core losses
also add to the impedance of an inductor. (see Skin Effect
and Core Losses)
IMPEDANCE ANALYZER
Test instrument capable of measuring a wide range of
impedance parameters, gain and phase angle. In testing
inductors, impedance analyzers can measure inductance,
Q, SRF, insertion loss, impedance and capacitance. They
operate in a much more automatic fashion in comparison to
Q Meters. Some impedance analyzers have a wider test
frequency range than a Q meter.
INCREMENTAL CURRENT
The DC bias current flowing through the inductor which
causes an inductance drop of 5 % from the initial zero DC
bias inductance value. This current level indicates where the
inductance can be expected to drop significantly if the DC
bias current is increased further. This applies mostly to
ferrite cores in lieu of powdered iron. Powdered iron cores
exhibit “soft” saturation characteristics. This means their
inductance drop from higher DC levels is much more
gradual than ferrite cores. The rate at which the inductance
will drop is also a function of the core shape. (see Saturation
Current)
INDUCTANCE
The property of a circuit element which tends to oppose any
change in the current flowing through it. The inductance for
a given inductor is influenced by the core material, core
shape and size, the turns count and the shape of the coil.
Inductors most often have their inductances expressed in
microhenries (μH). The following table can be used to
convert units of inductance to microhenries. Thus, 47 mH
would equal 47 000 μH.
1 Henry (H) = 106 μH
1 milli Henry (mH) = 103 μH
1 micro Henry (μH) = 1 μH
1 nano Henry (nH) = 10-3 μH
INDUCTANCE TOLERANCE
Standard inductance tolerances are typically designated by
a tolerance letter. Standard inductance tolerance letters
include (see Color Codes):
LETTER
F
G
H
J
K
L
M
TOLERANCE
±1%
±2%
±3%
± 5%
± 10 %
± 15 % (1)
± 20 %
Note
(1) L = ± 20 % for some Military Products
For technical questions, contact: [email protected]
Document Number: 34053
Revision: 06-Mar-02
Definitions
Inductor and Magnetic Product Terminology
INDUCTOR
A passive component designed to resist changes in current.
Inductors are often referred to as “AC Resistors”. The ability
to resist changes in current and the ability to store energy in
its magnetic field, account for the bulk of the useful
properties of inductors. Current passing through an inductor
will produce a magnetic field. A changing magnetic field
induces a voltage which opposes the field-producing
current. This property of impeding changes of current is
known as inductance. The voltage induced across an
inductor by a change of current is defined as:
V = L dI/dt
Thus, the induced voltage is proportional to the inductance
value and the rate of current change. (see Inductance)
INPUT LINE FILTER
A power filter placed on the input to a circuit or assembly
that attenuates noise introduced from the power bus. The
filter is designed to reject noise within a frequency band.
Typically these filters are low-pass filters meaning they pass
low frequency signals such as the DC power and attenuate
higher frequency signals which consist of mainly noise.
Band pass or low pass filters are commonly made up of
inductor and capacitor combinations. (also see Noise,
Attenuation, EMI and Pi-Filter)
KOOL MU® CORE (1)
Kool Mu® is a magnetic material that has an inherent
distributed air gap. The distributed air gap allows the core to
store higher levels of magnetic flux when compared to other
magnetic materials such as ferrites. This characteristic
allows a higher DC current level to flow through the inductor
before the inductor saturates.
Kool Mu material is an alloy that is made up of basically
nickel and iron powder (approx. 50 % of each) and is
available in several permeabilities. It has a higher
permeability than powdered iron and also lower core losses.
Kool Mu is required to be pressed at a much higher pressure
than powdered iron material. The manufacturing process
includes an annealing step that relieves the pressure put
onto the powdered metals which restores their desirable
magnetic properties. Thus, the powdered particles require a
high temperature insulation as compared to powdered iron.
Kool Mu performs well in power switching applications. The
relative cost is significantly higher than powdered iron.
LAMINATED CORES
Cores constructed by stacking multiple laminations on top
of each other. The laminations are offered in a variety of
materials and thicknesses. Some laminations are made to
have the grains oriented to minimize the core losses and
give higher permeabilities. Each lamination has an insulated
surface which is commonly an oxide finish. Laminated cores
are used in some inductor designs but are more common in
a wide variety of transformer applications.
LITZ WIRE
Wire consisting of a number of separately insulated strands
that are woven or bunched together such that each strand
tends to take all possible positions in the cross section of
the wire as a whole. The current through each individual
strand is divided equally since this wire design equalizes
theflux linkages and reactance of the individual strands.
Vishay Dale
In other words, a Litz conductor has lower AC losses than
comparable solid wire conductors which becomes
important as the operating frequency increases. (see Skin
Effect)
MAGNETIC WIRE
Wire used to create a magnetic field such as those in
magnetic components (inductors and transformers). Magnet
wire is nearly 100 % copper and must be made from virgin
copper. It is offered with a number of different organic
polymer film coatings.
MATCHED IMPEDANCE
The condition that exists when two coupled circuits are
adjusted so that the output impedance of one circuit equals
the input impedance of the other circuit connected to the
first. There is a minimum power loss between two circuits
when their connecting impedances are equal.
MOLDED INDUCTOR
An inductor whose case has been formed via a molding
process. Common molding processes include injection and
transfer molding. Molded inductors typically have well
defined body dimensions which consist of smooth surfaces
and sharper corners as compared to other case types such
as epoxy coated and shrink wrap coatings. (see Inductor)
MONOLITHIC INDUCTOR
(see Multilayer Inductor)
MPP CORE
MPP is an acronym for molypermalloy powder. It is a
magnetic material that has an inherent distributed air gap.
The distributed air gap allows the core to store higher levels
of magnetic flux when compared to other magnetic
materials such as ferrites. This characteristic allows a higher
DC current level to flow through the inductor before the
inductor saturates.
The basic raw materials are nickel, iron and molybdenum.
The ratios are: approximately 80 % nickel, 2 % to 3 %
molybdenum, and the remaining is iron. The manufacturing
process includes an annealing step as discussed in the
Kool Mu definition. MPP stores higher amounts of energy
and has a higher permeability than Kool Mu.
Cores are offered in 10 or more permeability selections. The
core characteristics allow inductors to perform very well in
switching power applications. Since higher energy can be
stored by the core, more DC current can be passed through
the inductor before the core saturates. The cost of MPP is
significantly higher than Kool Mu, powdered irons and most
ferrite cores with similar sizes. (see Saturation Current)
MULTILAYER INDUCTOR
An inductor constructed by layering the coil between layers
of core material. The coil typically consists of a bare metal
material (no insulation). This technology is sometimes
referred to as “non-wirewound”. The inductance value can
be made larger by adding additional layers for a given spiral
pattern.
NOISE
Unwanted electrical energy in a circuit that is unrelated to
the desired signal. Sources of noise are most often
generated by some type of switching circuit. Common
sources include switching voltage regulators and clocked
signals such as digital circuits.
Note
(1) Kool Mu® is a registered trademark of Spang & Company
Document Number: 34053
Revision: 06-Mar-02
For technical questions, contact: [email protected]
www.vishay.com
257
Definitions
Inductor and Magnetic Product Terminology
Vishay Dale
OHM
The unit of measurement for resistance and impedance.
Resistance is calculated by Ohm’s Law:
R = V/l
where R = Resistance
V = Voltage
l = Current
POLYOLEFIN TUBING
A common shrink wrap (tubing) used in the electronic
industry. It is often used to provide insulation or protect wire
insulation such as coil windings. Polyolefin tubing is a
polymer which can be provided to meet various degrees of
flammability requirements.
OPERATING TEMPERATURE RANGE
Range of ambient temperatures over which a component
can be operated safely. The operating temperature is
different from the storage temperature in that it accounts for
the component’s self temperature rise caused by the
winding loss from a given DC bias current. This power loss
is referred to as the “copper” loss and is equal to:
Power Loss = (DCR) (l2DC)
This power loss results in an increase to the component
temperature above the given ambient temperature. Thus,
the maximum operating temperature will be less than the
maximum storage temperature:
Maximum Operating Temperature =
Storage Temperature - Self Temperature Rise
(see Core Losses)
POWERED IRON CORE
Powdered iron is a magnetic material that has an inherent
distributed air gap. The distributed air gap allows the core to
store higher levels of magnetic flux when compared to other
magnetic materials such as ferrites. This characteristic
allows a higher DC current level to flow through the inductor
before the inductor saturates.
Powdered iron cores are made of nearly 100 % iron. The
iron particles are insulated from each other, mixed with a
binder (such as phenolic or epoxy) and pressed into the final
core shape. The cores are cured via a baking process. Other
characteristics of powdered iron cores include: they are
typically the lowest cost alternative and their permeabilities
typically have a more stable temperature coefficient than
ferrites. (see Saturation Current)
PERMEABILITY (CORE)
The permeability of a magnetic core is the characteristic that
gives the core the ability to concentrate lines of magnetic
flux. The core material, as well as the core geometry, affect
the core’s “effective permeability”. For a given core shape,
size and material, and a given winding, higher permeability
magnetic materials result in higher inductance values as
opposed to lower permeability materials.
PHENOLIC CORE
Phenolic is a common material used for inductor cores.
Many are made of a polyester base that have high
temperature characteristics. It is also common for phenolic
cores to have high flammability ratings such as UL 94 V-0.
Phenolic cores also provide high strength and are more
economical than ceramic cores.
Phenolic has no magnetic properties. Thus, there is no
increase in permeability due to the core material.
Phenolic core inductors are often referred to as “air core”
inductors and are most often used in high frequency
applications where low inductance values, very low core
losses and high Q values are required.
PI-FILTER
A filter consisting of two capacitors connected in parallel
with a series inductor. These filters are commonly found
near dc-to-dc converters to filter ripple current and voltage.
Basic Pi-Filter
+
VIN
+
C1
-
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258
L
C2
VOUT
-
Q
The Q value of an inductor is a measure of the relative losses
in an inductor. The Q is also known as the “quality factor”
and is technically defined as the ratio of inductive reactance
to effective resistance and is represented by:
XL
2fL
Q = ------- = -----------Re
Re
Since XL and Re are functions of frequency, the test
frequency must be given when specifying Q. XL typically
increases with frequency at a faster rate than Re at lower
frequencies, and vice versa at higher frequencies. This
results in a bell shaped curve for Q vs. frequency. Re is
mainly comprised of the DC resistance of the wire, the core
losses and skin effect of the wire.
Based on the above formula, it can be shown that the Q is
zero at the self resonant frequency since the inductance is
zero at this point.
Q METER
A standard instrument used to measure the inductance and
Q of small RF inductors. The Q meter is based on a stable,
continuously variable oscillator and a resonant circuit which
is connected to the part to be tested.
The Q is proportional to the voltage across the internal
calibrated variable capacitor. The voltage is measured by an
internal RF Voltmeter. The capable test frequency range is
near 22 kHz to 70 MHz.
RF CHOKE
Another name for a radio frequency inductor which is
intended to filter or choke out signals. (see Inductor)
RFI
RFI is an acronym for Radio-Frequency Interference. It is an
older and more restrictive term that is used interchangeably
with “EMI”. (see EMI)
For technical questions, contact: [email protected]
Document Number: 34053
Revision: 06-Mar-02
Definitions
Inductor and Magnetic Product Terminology
RADIAL INDUCTOR
An inductor constructed on a core with leads exiting from
the same side of the inductor body as to be mounted in the
same plane. Radial inductors most often refer to two leaded
devices but technically include devices with more than two
leads as well. Some common core shapes include rod
cores, bobbins and toroids. (see Inductor)
Radial Inductor Styles
RATED CURRENT
The level of continuous DC current that can be passed
through the inductor. This DC current level is based on a
maximum temperature rise of the inductor at the maximum
rated ambient temperature. The rated current is related to
the inductor's ability to minimize the power losses in the
winding by having a low DC resistance. It is also related to
the inductor's ability to dissipate this power lost in the
windings. Thus, the rated current can be increased by
reducing the DC resistance or increasing the inductor size.
For low frequency current waveforms, the RMS current can
be substituted for the DC rated current. The rated current is
not related to the magnetic properties of the inductor. (see
Incremental Current and Saturation Current)
REACTANCE
The imaginary part of the impedance. (see Impedance)
RIPPLE VOLTAGE
The periodic alternating voltage imposed on the voltage
output of a switching voltage converter. The ripple voltage is
normally specified as a peak-to-peak value.
SATURATION CURRENT
The DC bias current flowing through the inductor which
causes the inductance to drop by a specified amount from
the initial zero DC bias inductance value. Common specified
inductance drop percentages include 10 % and 20 %. It is
useful to use the 10 % inductance drop value for ferrite
cores and 20 % for powdered iron cores in energy storage
applications.
The cause of the inductance to drop due to the DC bias
current is related to the magnetic properties of the core. The
core, and some of the space around the core, can only store
a given amount of magnetic flux density.
Beyond the maximum flux density point, the permeability of
the core is reduced. Thus, the inductance is caused to drop.
Core saturation does not apply to “air-core” inductors. (see
Incremental Current and Permeability)
Document Number: 34053
Revision: 06-Mar-02
Vishay Dale
SRF (SELF-RESONANT FREQUENCY)
The frequency at which the inductor's distributed
capacitance resonates with the inductance. It is at this
frequency that the inductance is equal to the capacitance
and they cancel each other. The inductor will act purely
resistive with a high impedance at the SRF point.
The distributed capacitance is caused by the turns of wire
layered on top of each other and around the core. This
capacitance is in parallel to the inductance. At frequencies
above the SRF, the capacitive reactance of the parallel
combination will become the dominant component.
Also, the Q of the inductor is equal to zero at the SRF point
since the inductive reactance is zero. The SRF is specified
in MHz and is listed as a minimum value on product data
sheets. (also see Distributed Capacitance)
SHIELDED INDUCTOR
An inductor designed for its core to contain a majority of its
magnetic field. Some inductor designs are self shielding.
Examples of these are magnetic core shapes which include
toroids, pot cores and E-cores. Magnetic core shapes such
as slug cores and bobbins require the application of a
magnetic sleeve or similar method to yield a shielded
inductor.
It should be noted that magnetic shielding is a matter of
degree. A certain percentage of the magnetic field will
escape the core material. This is even applicable for toroidal
cores as lower core permeabilities will have higher fringing
fields than will high permeability toroidal cores. (see Closed
Magnetic Path)
SKIN EFFECT
Skin effect is the tendency for alternating current to flow
near the surface of the conductor in lieu of flowing in a
manner as to utilize the entire cross-sectional area of the
conductor. This phenomenon causes the resistance of the
conductor to increase. The magnetic field associated with
the current in the conductor causes eddy currents near the
center of the conductor which opposes the flow of the main
current near the center of the conductor. The main current
flow is forced further to the surface as the frequency of the
alternating current increases. (see Litz Wire)
SLUG CORE
A core with the shape of a cylindrical rod. Slug cores
typically refer to cores with no leads. Axial leaded slug cores
are very common. Non-leaded slug cores are typically used
in power filtering applications. They exhibit higher flux
density characteristics than other core shapes as most of
the magnetic energy is stored in the air around the core. (see
Axial Inductors and Radial Inductors)
Slug Cores
For technical questions, contact: [email protected]
Non-Leaded
Leaded
www.vishay.com
259
Definitions
Vishay Dale
Inductor and Magnetic Product Terminology
STORAGE TEMPERATURE RANGE
Range of ambient temperatures over which a component
can be stored safely. (see Operating Temperature Range)
SWITCHING FREQUENCY
The operating frequency of a switching regulator.
TEST FREQUENCY
The frequency at which inductors are tested for either
inductance or Q or both. Some test frequencies used widely
in the industry include:
COMMON TEST FREQUENCIES
SWITCHING REGULATOR
A circuit that is designed to regulate the output voltage, from
a given input voltage, by using a closed control loop design.
The most common switching regulator types involve a
magnetic component, such as an inductor or transformer,
that is used to store and transfer energy to the output by
having the current switched on and off. (see Boost Regulator
and Buck Regulator)
TEST
FREQUENCY
TAPE WOUND CORES
Cores made by rolling strips of alloy iron into a toroidal
shape. The metal strips have a precisely controlled
thickness which are coated with a very thin insulation
material to prevent the metal in the layers to make contact
with each other. The finished cores have an outside coating
to protect the metal layers and they are offered in a variety
of material mixes. Tape wound cores are capable of storing
high amounts of energy and contain a high permeability.
Their major disadvantage is that they are relatively
expensive when compared to other core types. (see
Toroidal Inductor)
7.9 MHz
RF Inductors (above 1 μH to 10 μH)
25 MHz
RF Inductors (above 0.10 μH to 1 μH)
50 MHz
RF Inductors (0.01 μH to 0.1 μH)
TEMPERATURE RISE
The increase in surface temperature of a component in air
due to the power dissipation in the component. The power
dissipation for an inductor includes both copper and core
losses.
TOROIDAL INDUCTOR
An inductor constructed by placing a winding(s) on a core
that has a donut shaped surface. Toroidal cores are
available in many magnetic core materials within the four
basic types: Ferrite, powdered iron, alloy and high flux and
tape wound. Characteristics of toroidal inductors include:
self shielding (closed magnetic path), efficient energy
transfer, high coupling between windings and early
saturation.
Toroidal Inductors
1 kHz
INDUCTOR/VALUE MEASURED
Power Inductors (wide value range)
0.079 MHz
RF Inductors (above 10 000 μH to 100 000 μH)
0.250 MHz
RF Inductors (above 1000 μH to 10 000 μH)
0.790 MHz
RF Inductors (above 100 μH to 1000 μH)
2.5 MHz
RF Inductors (above 10 μH to 100 μH)
Most of these test frequencies have been designated by
military specifications. However, there are some conflicting
frequency assignments among the military specifications.
There is a present trend to assign test frequencies that
match the user frequencies. This is particularly true for very
low values. These user frequencies do not match those
listed above.
VOLT MICROSECOND CONSTANT
The product of the voltage applied across the winding and
the time for the magnetizing current to reach 1.5 times the
linear extrapolation of the current waveform. This constant
is a measure of the energy handling capability of a
transformer or inductor. It is dependent upon the core area,
core material (including the saturation flux density of the
core), the number of turns of the winding and the duty cycle
of the applied pulse.
VOLUME RESISTIVITY (CORE)
The ability of a core to resist the flow of electrical current
either through the bulk of the material or on its surface. The
unit of the volume resistivity is /cm.
Core volume resistivity becomes an issue in inductor
designs where the leads/terminals come in contact with the
core material. This type includes axial and radial inductors
that have leads epoxied into the core. As for core materials,
high permeability ferrites present the most concern as their
volume resistivity is typically the lowest.
Under certain conditions, a low resistive path can be
realized between two inductor terminals if they are in
contact with a low resistivity core. The inductor, under these
conditions, will lose its higher impedance characteristics.
Surface Mount
Through Hole
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260
For technical questions, contact: [email protected]
Document Number: 34053
Revision: 06-Mar-02
Engineering Note ILB, ILBB, IMC, ISC, IFC
Vishay Dale
Circuit Simulation of Surface Mount Inductors
and Impedance Beads
INTRODUCTION
Inductors can be one of the most difficult passive
components to accurately simulate, due to their inherent
parasitic capacitive and resistive elements. These parasitic
elements are the result of the resistance and turn-to-turn
capacitance of the current conductor, which will affect the
characteristic impedance of the inductor, particularly at
higher frequencies. Figure 1 illustrates the equivalent circuit
model for a real inductor with parasitic elements.
R
C
R
L
C
L
Circuit A
Circuit B
Fig. 1 - Equivalent Circuit for a Real Inductor
SIMULATING THE PERFORMANCE OF AN
INDUCTOR
In many computer based circuit simulators, if a single
element inductor is placed in the circuit, it will be
represented as an ideal inductor. This may be acceptable if
the simulation is at a frequency well below the series
resonant frequency (SRF) of the inductor, as the impedance
curve for the ideal and the real inductors are identical over
frequency until a point that is about 20 % of the inductor’s
SRF. At this point, the impedance curves diverge due to the
effects of the parasitic elements.
However, the accuracy of the ideal inductor model will begin
to increase beyond 20 % of the inductor’s SRF.
Figure 2 is a graph of the impedance versus frequency
characteristics of a real and ideal inductor.
Document Number: 34098
Revision: 10-Aug-06
100 000
SRF
Impedance
With the advent of higher component densities, smaller
components, and reduced design to market times, many of
today’s complex circuits are designed using a computer and
circuit simulation software rather actual physical bread
boarding.
10 000
Approx. 20 % SRF
Real
1000
Ideal
100
1
10
Frequency (MHz)
100
Fig. 2 - Impedance/Frequency Curves of Real
and Ideal 10 μH Inductor
Most inductors can be represented with an acceptable
degree of accuracy by one of the circuits shown in Figure 1.
Circuit A typically represents an inductor that uses a
magnetic core material such as ferrite or powdered iron.
Circuit B will accurately represent most non-magnetic core
inductors commonly referred to as “air cores.” If the
equivalent circuit values of the parasitic capacitance and
resistance are known along with the effective inductance,
the inductor model can be inserted in the circuit simulator
and provide an accurate representation of the inductor’s
true performance in the A circuit.
Vishay Dale has generated the equivalent circuit values for
many of its surface mount product lines. A table illustrating
the equivalent circuit values for each of the current Vishay
Dale product lines follows this discussion.
LIMITATIONS OF INDUCTOR MODELS
Most inductors are used well below their series resonant
frequency (SRF) and these basic, three element inductor
models will be very accurate under these simulation
conditions. The SRF of the inductor occurs when the
inductive reactance (XL) is equal to the capacitive reactance
(XC) of the conductor. The impedance of the inductor is at its
maximum and would be infinite if there were no core loss or
if the resistance of the conductor were zero. Above the SRF,
the XC exceeds XL and the inductor behaves like a capacitor.
As the frequency increases above the SRF point, the
inductor will go through several more resonant phases as a
result of secondary parasitic elements which require a more
complex equivalent circuit. For this reason, the typical useful
range for the three element inductor models is the SRF of
the inductor plus about 25 %.
For technical questions, contact: [email protected]
www.vishay.com
261
Engineering Note ILB, ILBB, IMC, ISC, IFC
Vishay Dale
Circuit Simulation of Surface Mount Inductors
and Impedance Beads
IMC-0402
EQUIVALENT CIRCUIT DATA
NOMINAL INDUCTANCE
(nH)
CIRCUIT
RESISTANCE ()
CAPACITANCE (pF)
INDUCTANCE (nH)
1.2
B
75.790
2.12680
0.896
1.5
B
50.568
1.48730
1.254
1.8
B
69.254
1.32050
1.469
2.2
B
72.762
0.91637
2.115
2.7
B
79.357
0.82001
2.356
3.3
B
87.174
0.66923
2.929
3.9
B
86.272
0.57138
3.452
4.7
B
123.660
0.47681
4.150
5.6
B
143.730
0.38200
5.255
6.8
B
171.930
0.31975
6.376
8.2
B
230.000
0.28377
7.329
10.0
B
213.970
0.23723
8.904
12.0
B
312.950
0.19187
11.175
18.0
B
554.440
0.13639
16.818
33.0
B
792.650
0.08367
30.769
39.0
B
1.059
0.07628
35.933
47.0
B
1.832
0.06090
45.300
56.0
B
1.987
0.05267
54.122
NOMINAL INDUCTANCE
(nH)
CIRCUIT
RESISTANCE ()
CAPACITANCE (pF)
INDUCTANCE (nH)
1.5
B
0.0319
0.0000
1.34
1.8
B
0.0485
0.0000
1.65
2.2
B
0.0557
0.0000
1.98
2.7
B
0.0554
0.0125
2.52
3.3
B
0.0374
0.0118
3.15
3.9
B
0.0541
0.0232
3.68
4.7
B
0.0834
0.0362
4.40
5.6
B
0.1197
0.0439
5.46
6.8
B
0.1209
0.0486
6.54
8.2
B
0.1256
0.0515
7.82
10.0
B
0.1806
0.0555
9.64
12.0
B
0.2173
0.0620
11.55
15.0
B
0.2812
0.0630
14.64
18.0
B
0.3140
0.0647
17.45
22.0
B
0.3322
0.0698
21.26
27.0
B
0.4009
0.0683
25.98
33.0
B
0.5273
0.0740
31.95
39.0
B
0.5809
0.0694
37.29
47.0
B
0.7227
0.0723
45.30
56.0
B
0.9117
0.0667
53.70
68.0
B
1.0948
0.0717
63.19
82.0
B
1.4347
0.0684
76.62
100.0
B
1.5531
0.0709
93.26
IMC-0603
www.vishay.com
262
EQUIVALENT CIRCUIT DATA
For technical questions, contact: [email protected]
Document Number: 34098
Revision: 10-Aug-06
Engineering Note ILB, ILBB, IMC, ISC, IFC
Circuit Simulation of Surface Mount Inductors
and Impedance Beads
Vishay Dale
IMC-0805-01
EQUIVALENT CIRCUIT DATA
NOMINAL INDUCTANCE
(nH)
CIRCUIT
RESISTANCE ()
CAPACITANCE (pF)
INDUCTANCE (nH)
3.9
B
0.0884
0.0075
4.3
4.7
B
0.0958
0.0061
4.6
5.6
B
0.1053
0.0325
5.5
6.8
B
0.1297
0.0320
5.2
8.2
B
0.1472
0.0398
8.1
10
B
0.1468
0.1445
11.2
12
B
0.1749
0.0598
12.6
15
B
0.1861
0.0836
16.4
18
B
0.2194
0.0698
18.8
22
B
0.2420
0.0837
22.4
27
B
0.2638
0.0921
27.4
33
B
0.2814
0.1046
33.4
39
B
0.3282
0.0924
39.0
47
B
0.3432
0.0975
45.3
56
B
0.4023
0.0927
55.7
68
B
0.4356
0.0936
67.9
82
B
0.4880
0.1503
79.8
100
B
0.5968
0.0968
94.4
120
B
0.7235
0.1994
97.7
150
B
1.1647
0.1295
132.9
180
B
1.2414
0.1698
150.2
220
B
1.3983
0.1719
194.2
270
A
17.7K
0.4812
230.6
330
A
16.4K
0.5637
274.2
390
A
12.6K
0.8714
331.9
470
A
10.5K
1.5701
425.7
560
A
10.9K
1.2488
491.0
680
A
12.1K
1.3662
592.1
820
A
13.5K
1.1962
737.5
1000
A
12.5K
1.4749
859.1
NOMINAL INDUCTANCE
(μH)
CIRCUIT
RESISTANCE ()
CAPACITANCE (pF)
0.010
B
89.79 m
0.0984
6.83 n
0.012
B
107.98 m
0.0965
9.09 n
0.015
B
119.35 m
0.1285
11.09 n
0.018
B
138.90 m
0.1390
14.62 n
0.022
B
135.92 m
0.1827
18.48 n
0.027
B
172.43 m
0.2258
22.37 n
0.033
B
218.71 m
0.1876
30.59 n
0.039
B
209.12 m
0.2440
35.42 n
0.047
B
215.71 m
0.2882
37.57 n
0.056
B
308.05 m
0.3251
46.38 n
0.068
B
224.86 m
0.3369
54.42 n
0.082
B
359.50 m
0.2936
63.2 n
IMC-1210
Document Number: 34098
Revision: 10-Aug-06
EQUIVALENT CIRCUIT DATA
For technical questions, contact: [email protected]
INDUCTANCE (H)
www.vishay.com
263
Engineering Note ILB, ILBB, IMC, ISC, IFC
Vishay Dale
Circuit Simulation of Surface Mount Inductors
and Impedance Beads
IMC-1210
EQUIVALENT CIRCUIT DATA
NOMINAL INDUCTANCE
(μH)
CIRCUIT
RESISTANCE ()
CAPACITANCE (pF)
INDUCTANCE (H)
0.100
B
353.36 m
0.3709
80.52 n
0.120
B
363.80 m
0.5019
103.4 n
0.150
B
229.68 m
0.6020
139.55 n
0.180
B
312.54 m
0.6353
159.31 n
0.220
B
269.10 m
0.7814
205.23 n
0.270
A
5.98 k
0.6474
253.82 n
0.330
A
4.11 K
0.6869
309.87 n
0.390
A
4.59 K
0.7050
375.18 n
0.470
A
7.48 K
0.7929
439.72 n
0.560
A
9.09 K
0.9563
523.33 n
0.680
A
10.66 K
0.8764
646.61 n
0.820
A
11.24 K
0.7070
751.05 n
1.0
A
14.21 K
1.2100
0.99 μ
1.2
A
13.73 K
0.9900
1.15 μ
1.5
A
15.51 K
1.5800
1.46 μ
1.8
A
18.89 K
1.4300
1.72 μ
2.2
A
20.98 K
1.1200
2.11 μ
2.7
A
25.90 K
0.9800
2.66 μ
3.3
A
24.65 K
1.5200
3.16 μ
3.9
A
27.80 K
1.6900
3.67 μ
4.7
A
26.43 K
1.4100
4.5 μ
5.6
A
35.52 K
1.3400
5.28 μ
6.8
A
38.26 K
1.5700
6.32 μ
5.2
A
37.93 K
1.3500
7.52 μ
10.0
A
46.21 K
1.5200
9.43 μ
NOMINAL INDUCTANCE
(μH)
CIRCUIT
RESISTANCE ()
CAPACITANCE (pF)
0.010
B
64.1
0.1357
9.9 n
0.012
B
88.7
0.1463
11.8 n
0.015
B
130.7
0.1746
14.6 n
0.018
B
143.7
0.1926
17.4 n
0.022
B
200.2
0.1892
21.3 n
0.027
B
156.7
0.2227
29.2 n
0.033
B
273.4
0.1597
38.4 n
0.039
B
197.6
0.2976
34.0 n
0.047
B
212.7
0.2630
44.2 n
0.056
B
277.6
0.3289
48.1 n
0.068
B
314.1
0.2958
61.8 n
0.082
B
325.6
0.2483
84.9 n
0.100
B
412.8
0.3469
84.9 n
0.10
A
11.46
0.5351
0.0935 μ
0.12
A
13.69
0.4697
0.1177 μ
0.15
A
13.69
0.4757
0.1424 μ
0.18
A
18.45
0.5231
0.1623 μ
0.22
A
28.14
0.4544
0.2012 μ
0.27
A
45.62
0.4926
0.2408 μ
IMC-1210-100
www.vishay.com
264
EQUIVALENT CIRCUIT DATA
For technical questions, contact: [email protected]
INDUCTANCE (H)
Document Number: 34098
Revision: 10-Aug-06
Engineering Note ILB, ILBB, IMC, ISC, IFC
Circuit Simulation of Surface Mount Inductors
and Impedance Beads
Vishay Dale
IMC-1812
EQUIVALENT CIRCUIT DATA
NOMINAL INDUCTANCE
(μH)
CIRCUIT
RESISTANCE (k)
CAPACITANCE (pF)
INDUCTANCE (μH)
0.33
A
28.00
0.5365
0.2957
0.39
A
29.24
0.5127
0.3429
0.47
A
29.47
0.5427
0.4508
0.56
A
41.36
0.4498
0.5104
0.68
A
32.51
0.4792
0.6067
0.82
A
32.76
0.4674
0.7412
1.00
A
12.40
1.6920
0.9513
1.20
A
12.33
1.6740
1.1640
1.50
A
14.92
1.6930
1.4020
1.80
A
18.89
1.4410
1.7370
2.20
A
23.51
1.6220
2.1300
ILBB-0603
NOMINAL IMPEDANCE
EQUIVALENT CIRCUIT DATA
CIRCUIT
RESISTANCE ()
CAPACITANCE (pF)
INDUCTANCE (μH)
40
A
65
0.900
0.0952
60
A
80
0.900
0.1533
68
A
100
0.900
0.1779
80
A
118
1.000
0.1993
120
A
157
1.200
0.3356
220
A
315
0.900
0.6037
300
A
420
0.800
0.7954
450
A
545
0.800
1.1186
600
A
690
0.800
1.4531
750
A
810
0.900
2.0182
1000
A
1.1k
0.658
2.4001
CIRCUIT
RESISTANCE ()
CAPACITANCE (pF)
INDUCTANCE (μH)
11
A
18
0.90
0.0273
32
A
50
0.85
0.1053
60
A
82
0.70
0.2114
90
A
125
1.00
0.2836
120
A
165
1.00
0.2969
150
A
208
1.00
0.4437
300
A
350
1.00
0.8621
400
A
510
0.90
1.3274
600
A
636
1.20
1.3454
1000
A
975
1.00
2.7573
1500
A
1600
1.00
4.7412
2000
A
2500
0.90
7.4365
ILBB-0805
NOMINAL IMPEDANCE
Document Number: 34098
Revision: 10-Aug-06
EQUIVALENT CIRCUIT DATA
For technical questions, contact: [email protected]
www.vishay.com
265
Engineering Note ILB, ILBB, IMC, ISC, IFC
Vishay Dale
Circuit Simulation of Surface Mount Inductors
and Impedance Beads
ILB-1206
NOMINAL IMPEDANCE
EQUIVALENT CIRCUIT DATA
CIRCUIT
RESISTANCE ()
CAPACITANCE (pF)
INDUCTANCE (H)
19
A
27
0.9
63.51 n
26
A
37
0.8
75.00 n
50
A
75
0.4
109.60 n
31
A
37
1.0
73.34 n
70
A
95
0.2
174.12 n
120
A
150
1.5
352.33 n
150
A
180
0.9
492.76 n
300
A
330
1.8
1.05 μ
500
A
485
2.1
1.69 μ
600
A
610
2.0
2.49 μ
CIRCUIT
RESISTANCE ()
CAPACITANCE (pF)
INDUCTANCE (H)
0.010
A
1.04
0.1003
0.00741
0.012
A
1.21
0.1051
0.00782
0.015
A
1.80
0.2178
0.01284
0.018
A
2.50
0.2487
0.01564
0.022
A
2.35
0.2434
0.01889
0.027
A
3.00
0.2279
0.02466
0.033
A
3.07
0.1983
0.03188
0.039
A
3.63
0.4437
0.03427
0.047
A
4.39
0.2873
0.03947
0.056
A
5.47
0.4233
0.04478
0.068
A
4.74
0.3259
0.06028
0.082
A
10.12
0.3506
0.07696
0.100
A
7.50
0.4130
0.08288
0.120
A
2.39
0.5536
0.12007
0.150
A
3.37
0.5382
0.14700
0.180
A
3.20
0.6848
0.16420
0.220
A
3.99
0.6573
0.22131
0.270
A
4.27
0.6229
0.25678
0.330
A
4.75
0.6377
0.31673
0.390
A
3.00
0.9118
0.39058
0.470
A
7.49
1.1016
0.44061
0.560
A
6.19
0.9598
0.50199
0.680
A
7.79
0.7370
0.62592
0.820
A
6.85
1.0187
0.80402
1.000
A
10.40
1.3400
0.98740
ISC-1210 0.10 μH TO 1 μH
NOMINAL INDUCTANCE
EQUIVALENT CIRCUIT DATA
IFC-0805/0603
Contact factory for current data
www.vishay.com
266
For technical questions, contact: [email protected]
Document Number: 34098
Revision: 10-Aug-06
Engineering Note ILB, ILBB, IMC, ISC, IFC
Circuit Simulation of Surface Mount Inductors
and Impedance Beads
Vishay Dale
FREQUENTLY ASKED QUESTIONS
Why is the equivalent circuit inductance less than the
nominal value of the inductor? For instance, the equivalent
circuit inductance listed for an IMC-1210 0.82 μH inductor is
only 0.74 μH.
The effective inductance of a component can be adversely
affected by the parasitic elements. Capacitance cancels out
some of the inductive reactance and reduces the effective
inductance of the device. Throughout a family of inductors,
wire size, core size, core material and number of turns will
be varied to achieve the proper inductance. The most
efficient inductors (with smallest parasitic element) have the
lowest number of turns, the largest wire and the optimum
core dimensions.
Since it is not economically feasible to have ideal core and
wire sizes for each inductance value in a series, some values
will have more significant parasitic elements that affect the
performance of the inductor. For example, one core and
wire size may be used for as many as 5 adjacent values in
an inductor series. The number of turns is varied to achieve
the higher inductance values. An inductor with more turns
will have more inter-winding capacitance so the highest
inductor with the same core and wire size will typically be
more affected by the winding capacitance than the lower
values.
I would like to perform a Monte Carlo analysis that will
examine my circuit over the tolerance range of all my
components. How much can I expect the parasitic elements
to change due to manufacturing tolerances?
This is a tough question to answer.
Vishay Dale and other inductor manufacturers sell inductors
based on four major specifications:
Inductance ± a percentage tolerance
Minimum Q at a specified frequency
I use “S” parameters in my circuit simulator. Are they
available for Vishay Dale inductors?
Because of the complexity of distributing “S” parameters for
all the inductor series, we have opted not to provide “S”
parameters for these products. As an alternative, most
circuit simulation programs will generate “S” parameters for
a simulated circuit. The equivalent circuit elements for the
Vishay Dale inductors can be entered as a separate circuit
into the simulator which can in turn generate a table or file of
“S” parameters for the inductor model.
I am interested in simulating the performance of a Vishay
Dale inductor that is not on the charts contained within this
application note. How can I get equivalent circuit information
for this inductor?
Vishay Dale will be adding equivalent circuit information for
other products as demand requires. If there is a specific
inductor you would like information on that has not been
published, we can normally supply this information within
one week of the request.
My circuit simulator already contains a library of inductive
components models from Vishay Dale and other vendor
products. How do I know if these are accurate models?
Some component libraries contain models that have been
empirically generated from catalog specifications, and so
these models may not accurately depict product
performance. To have full confidence in your library of
inductive component models, we strongly suggest that you
contact the vendor of your circuit simulator to determine the
source of the supplied inductor model data. All data
included here in our Application Note has been generated by
testing normally processed product and represents the
typical performance you can expect from the Vishay Dale
product.
Maximum DCR of the winding or conductor
Minimum SRF
In order to achieve these specifications, core size and
material, wire size, and number of turns can be varied. Due
to manufacturing tolerances on all of the inductor
components, wire size and/or number of turns may vary on
the same value across production lots. Varying the wire size
and/or turns will affect the values of the parasitic
components, however, the specified L, Q, DCR, and SRF
will always be in tolerance. Vishay Dale designs and
manufactures inductors with respect for the behavior of
parasitic elements. Typically, the basic tolerance of the
purchased inductor (i.e., 10 μH ± 10 %) can be applied to all
the equivalent circuit elements in the inductor model with
good success.
Document Number: 34098
Revision: 10-Aug-06
For technical questions, contact: [email protected]
www.vishay.com
267
Engineering Note ILB, ILBB Ferrite Beads
Vishay Dale
Electro-Magnetic Interference and Electro-Magnetic Compatibility
(EMI/EMC)
INTRODUCTION
Manufacturers of electrical and electronic equipment
regularly submit their products for EMI/EMC testing to
ensure regulations on electromagnetic compatibility are
met. Inevitably, some equipment will fail, as the interference
transmitted on cables connected to the equipment exceeds
regulated limits, resulting in radiated emissions failure.
Additional problems can occur when connected equipment
causes interference problems with the equipment under test
resulting in component malfunction.
There are many ways to reduce the level of conducted and
radiated interference, especially during the initial design of
the circuit board.
These techniques include proper routing of tracks, proper
use of ground planes, power supply impedance matching,
and reducing logic frequency to a minimum.
Even with the most diligent employment of good EMI/EMC
circuit design practices, not all interference or compatibility
issues can be eliminated. At this point, additional
components can be added, allowing the circuit to comply
with design and regulation limits for EMI/EMC.
This engineering note will review both initial circuit board
design practices and identify some after design
components that can be used to solve EMI/EMC problems.
CIRCUIT DESIGN TIPS TO REDUCE EMI/EMC
PROBLEMS
There are several areas where good circuit design practices
are critical to the reduction or elimination of EMI/EMC
problems. How the PCB layout is approached - not simply
in the design but also the choice of components - directly
affects the degree of EMI/EMC interference. Another area of
concern is the circuit design of the power supply.
PCB Design Tips
Avoid Track Stubs
Fig. 2
• On sensitive components and terminations, use
surrounding guard ring and ground fill where possible
• A guard ring around trace layers reduces emission out of
the board; also, connect to ground only at a single point
and make no other use of the guard ring (Fig. 3)
Ground
Fill on
Trace
Side
Guard
Ring
Guard
Ring on
Trace
Side
Use Guard Ring and Ground Fill
on Terminations and Sensitive Components
Fig. 3
• When you have separate power planes, keep them over a
common ground to reduce system noise and power
coupling (Fig. 4)
Vcc
Vcc
Vdd
Vdd
Avoid Overlapping Power Planes
Fig. 4
• Avoid slit apertures in PCB layout, particularly in ground
planes or near current paths
• Areas of high impedance give rise to high EMI, so use
wide tracks for power lines on the trace sides
• Make signal tracks stripline and include ground plane and
power plane whenever possible
• Keep HF and RF tracks as short as possible, and lay out
the HF tracks first (Fig. 1)
• The power plane conductivity should be high, so avoid
localized concentrations of via and through hole pads
(surface mount is preferred mounting method)
• Track mitering (beveling of edges and corners) reduces
field concentration
• If possible, make tracks run orthogonally between
adjacent layers (Fig. 5)
Keep HF Tracks Short
Make Tracking Run Orthogonally
Between Layers
Fig. 1
• Avoid track stubs, as they cause reflections and
harmonics (Fig. 2)
www.vishay.com
268
Fig. 5
• Do not loop tracks, even between layers, as this forms a
receiving or radiating antenna.
For technical questions, contact: [email protected]com
Document Number: 34097
Revision: 10-Dec-08
Engineering Note ILB, ILBB Ferrite Beads
Electro-Magnetic Interference and
Electro-Magnetic Compatibility (EMI/EMC)
• Do not leave floating conductor areas, as they act as EMI
radiators; if possible connect to ground plane (often, these
sections are placed for thermal dissipation, so polarity
should not be a consideration, but verify with component
data sheet). (Fig. 6)
Vishay Dale
Vcc
DC
DC
CCT1
DC
DC
CCT2
GND
Isolated Individual Systems
Fig. 10
Component Considerations
Do Not Leave Floating Conducting Areas
Fig. 6
Power Supply Considerations
• Eliminate loops in the supply lines. (Fig. 7)
PSU
CCT1
CCT2
Vcc
GND
PSU
CCT1
CCT2
Vcc
GND
Eliminate Loops in Supply Lines
• Locate biasing and pull up/down components close to
driver/bias points.
• Minimize output drive from clock circuits.
• Use common mode chokes (Vishay Dale series LPT4545
or LPT3535 or the LPE series of surface mount
transformers) between current carrying and signal lines to
increase coupling and cancel stray fields. (Fig. 11)
Signal
Input
Receiving
Circuit
Use Common Mode Choke Between Signal Lines
Fig. 11
Fig. 7
• Decouple supply lines at local boundaries. (Fig. 8)
• Decouple close to chip supply lines, to reduce component
noise and power line transients. (Fig. 12)
Vcc
GND
CCT1
c
CCT1
Vcc
Decouple Close to IC Supply Lines
GND
Decouple Supply Lines at Local Boundaries
Fig. 8
• Place high speed circuits close to Power Supply Unit
(PSU) and slowest sections furthest away to reduce power
plane transients. (Fig. 9)
PSU
High
Speed
Circuit
(Micro)
Medium
Speed
Circuit
(Display)
Low
Speed
(Interface)
DC
Circuit
(Analog)
Place High Speed Circuits Close to PSU
Fig. 9
• Isolate individual systems where possible (especially
analog and digital systems) on both power supply and
signal lines. (Fig. 10)
Document Number: 34097
Revision: 10-Dec-08
Fig. 12
• Use low impedance capacitors for decoupling and
bypassing (ceramic multilayer capacitors, like those
offered by Vishay Vitramon are preferred, offering high
resonant frequencies and stability).
• Use discrete components for filters where possible
(surface mount is preferable due to lower parasitic and
aerial effects of termination’s compared to through hole
components).
• Ensure filtering of cables and overvoltage protection at the
terminations (this is especially true of cabling that is
external to the system, if possible all external cabling
should be isolated at the equipment boundary).
• Minimize capacitive loading on digital output by
minimizing fanout, especially on CMOS ICs (this reduces
current loading and surge per IC).
If available, use shielding on fast switching circuits, main
power supply components and low power circuitry
(shielding is expensive and should be considered a “last
resort” option).
For technical questions, contact: [email protected]
www.vishay.com
269
Engineering Note ILB, ILBB Ferrite Beads
Vishay Dale
Electro-Magnetic Interference and
Electro-Magnetic Compatibility (EMI/EMC)
MAGNETIC COMPONENTS FOR ELECTRO
MAGNETIC INTERFERENCE REDUCTION AND
ELECTRO MAGNETIC COMPATIBILITY
Products that use magnetics to reduce electro-magnetic
interference and improve electro-magnetic compatibility
within the circuit can be classified into several categories:
inductors, chokes, transformers, ferrite beads, capacitors,
and integrated passive devices that can incorporate any or
all of the above devices. When considering any of these
EMI/EMC components, it is necessary to identify circuit
paths or areas likely to conduct or radiate noise.
Inductors
The most common magnetic EMI filter is the inductor or
choke. Inductors are used for both line filtering and energy
storage. If a circuit is suspected of being a source for EMI,
often, selection of the right inductor can help eliminate the
problem. For radiated interference, the choice of a shielded
or toroidal inductor can often eliminate (or at least greatly
reduce) the offending frequency. In fact, toroidal inductors
like Vishay Dale’s LPT-4545 and LPT-3535 surface mount,
or Vishay Dale’s TE, TD, or TJ series of leaded toroids
virtually eliminate radiated fields because of the toroid’s
unique ability to contain the magnetic flux within its core.
LPT 4545
Toroidal
Inductor
The toroid is also less susceptible to induced noise from
other components as the applied magnetic field would
induce equal and opposite currents inside the toroid, thus
canceling the induced interference.
Chokes
Common mode and differential mode chokes are used to
eliminate noise on a pair of conductors. Common mode
noise is defined as noise that is present or “common” to
both conductors, and can be the result of induced noise
caused by the “antenna” effect of a conductor or PC trace.
Common mode noise is typically “in phase” within the
conductors, while differential noise is present on only one
conductor or present in opposite phase in both conductors.
Common mode chokes use the properties of two closely
coupled magnetic fields to eliminate the interference
problem by canceling the noise within the magnetic fields.
They are best employed to eliminate noise or EMI on cables
or signal tracks. The choke should be located as close to the
driver or receiver circuit as possible, or at the signal entry
point of the circuit board. The proper selection of inductive
component can also help in matching line impedance and
can act as a bandwidth filter for the circuit. Vishay Dale’s
LPT and LPE series products can be configured in the
common or differential mode depending on your
application.
Transformers
The main benefit of using a transformer for EMI/EMC is that
it can provide an isolation barrier between a signal line and
the signal processing circuit (particularly where the signal
line exits the board or system). This is true of signals being
driven or received, since isolating the line reduces common
www.vishay.com
270
mode noise and eliminates ground (or signal return)
potential differences between systems.
One particular area where high noise immunity is essential is
in thyristor/triac driving circuits. Here the transformer
provides an isolation between the driven load and a logic
based controller. The isolating pulse transistor provides
much better noise immunity than an insulated gate bi-polar
transistor (IGBT) due to inherently lower coupling
capacitance (typically 10’s of pF for a pulse transformer
compared to nF for a power IGBT device). The lower
coupling capacitance improves the circuit’s immunity from
noise from the main power supply or from power switching
devices. Vishay Dale’s LPE and PT transformers can be
used to meet your transformer needs. Many more EMI/EMC
configurations can be provided through our custom
magnetic design department.
LPE Series
Transformer
Surface Mount Ferrite Beads
Chip impeders, also called ferrite chip beads, perform the
function of removing RF energy that exists within a
transmission line structure (printed circuit board trace). To
remove unwanted RF energy, chip beads are used as high
frequency resistors (attenuators) that allow DC to pass while
absorbing the RF energy and dissipating that energy in the
form of heat.
ILBB-0603
ILB-1206
ILBB/ILB
Ferrite
Beads
ILBB-0805
Surface mount ferrite beads have many advantages:
• Small and light weight
• Inexpensive
• High impedance values removes broad range of RF
energy
• Closed magnetic circuit eliminates cross talk
• Beads are inherently shielded
• Low DCR ratings minimizes desired signal degradation
• Excellent current
alternatives
carrying
capacity
compared
to
• Outstanding performance at removing RF energy
• Spurious circuit oscillations or resonances are reduced
because of the bead’s resistive characteristics at RF
frequencies
• Broad impedance ranges (several  to 2000 )
• Operates effectively from several MHz to 1 GHz
For technical questions, contact: [email protected]
Document Number: 34097
Revision: 10-Dec-08
Engineering Note ILB, ILBB Ferrite Beads
Electro-Magnetic Interference and
Electro-Magnetic Compatibility (EMI/EMC)
Document Number: 34097
Revision: 10-Dec-08
VISHAY COMPONENTS FOR EMI/EMC
COMPLIANCE
Surface Mount Ferrite Beads
ILB-1206, ILBB-0402 to ILBB-1812
Surface Mount, High Current Ferrite Beads
ILHB-0603 to IHLB-1812
Surface Mount Bead Arrays
ILAS-1206
Surface Mount Ferrite Inductors and Chokes
LPT-4545, LPT-3535
Surface Mount Transformers
LPE Series
Surface Mount Ceramic and Tantalum Capacitors
Ferrite Beads for EMI/EMC Compliance
One of the simplest and most effective ways to reduce
EMI is through the use of ferrite beads. Initially, EMI
suppression consisted of a small bead-shaped ferrite
(hence the name bead) with a hole through the middle.
The ferrite bead was slipped over the suspected “noisy”
wire or component lead and EMI was reduced.
Today, beads are available in a variety of styles including
the original through-hole model, multiple apertures and
surface mount configurations.
How Ferrite Beads Work
The best way to conceptualize a bead is as a frequency
dependent resistor. An equivalent circuit for a bead
consists of a resistor and inductor in series. The resulting
change (of impedance over frequency) is directly
associated with the frequency dependent complex
impedance of the ferrite material.
At low frequencies (below 10 MHz) the inductive
impedance is 10  or less, as shown below. At higher
frequencies, the impedance of the bead increases to
over 100 , and becomes mostly resistive above
100 MHz.
600 Ω ± 25 %
800
Z
600
Z, R, X (Ω)
To chose the proper bead, you should consider the
following:
1. What is the range of unwanted frequencies?
2. What is the source of the EMI?
3. How much attenuation is required?
4. What are the environmental and electrical conditions for
the circuit (temperature DC voltage, DC bias currents,
maximum operating currents, field strengths, etc...)?
5. What is the maximum allowable profile and board real
estate for using this component?
Selection of the right bead for your particular frequencies is
not a simple process. In most cases, since beads are only
rated for impedance at 100 MHz, you will need to look at
several graphs to determine the best bead for your
frequency if it is different than 100 MHz.
This is a time consuming but necessary process to select
the correct bead value since the highest impedance bead
at 100 MHz is not necessarily the highest impedance bead
at higher or lower frequencies. DC bias will also lower the
effective impedance of the device.
EMI/EMC Component Selection
Before incorporating EMI/EMC components, it is necessary
to identify the circuit paths and circuit areas most likely to
conduct noise, and to identify circuit areas likely to act as
antennas and radiate noise. At this point the most
appropriate location for the chosen components can be
determined.
The actual components chosen are determined by the
frequency and signal level of the noise to be eliminated.
Consideration should also be given for the frequencies that
are to remain intact.
For attenuation less than 5dB inductive, EMI components
are generally the best choice. For attenuation less than 5 dB,
circuit type must first be considered.
Working with a high speed signal circuit, your best choice is
a complex filter consisting of inductive and capacitive
components (such as an LCR Filter). If your circuit is a
general signal type (i.e., not a high speed circuit) grounding
stability must first be determined. For stable grounds,
capacitive EMI components are an excellent choice.
However, if the circuit has an unstable ground, high
impedance inductive components should be considered for
EMI suppression needs.
Designing equipment and choosing components is not an
easy process. Often, the only measure of design success is
the overall radiation level from your equipment. Trial and
error is a long tedious process that can take several months
to complete, and choosing the wrong component can waste
time.
Here are three suggestions for more effective design:
• Always place EMI/EMC components as close as possible
to the noise source.
• Select EMI/EMC components that match the impedance
of the noise conduction path, not necessarily that of the
circuit path. Remember that common mode noise often
travels a different path than the circuit current.
• Start with EMI/EMC components that offer sufficient
performance to meet your design standards. Component
costs can be reduced once you have a working design.
Vishay Dale
400
R
200
X
0
1
10
100
Frequency (MHz)
1000
Since the bead's impedance is essentially resistive to
high frequency circuits, the problem of resonance
experienced by other EMI filtering choices like
capacitors and inductors is eliminated. Often the bead is
the only practical solution to an EMI problem.
When used as a high frequency filter, ferrite beads
provide a resistive loss that attenuates the unwanted
frequencies through minute heating of the bead's ferrite
material due to eddy currents. At the same time, the
bead presents minimal series impedance to the lower
frequency or direct currents of the circuit.
For technical questions, contact: [email protected]
www.vishay.com
271
Engineering Note ILB, ILBB Ferrite Beads
Electro-Magnetic Interference and
Electro-Magnetic Compatibility (EMI/EMC)
Vishay Dale
USEFUL TABLES FOR EMI/EMC DESIGNS
DECIBELS
DB (1)
0
3
6
10
12
14
20
30
40
60
80
100
120
140
POWER RATIO
1.0
2.0
4.0
10.0
16.0
25.0
102
103
104
106
108
1010
1012
1014
VOLTAGE CURRENT RATIO
1.0
1.4
2.0
3.2
4.0
5.0
10
32
102
103
104
105
106
107
DB (2)
0
-3
-6
- 10
- 12
- 14
- 20
- 30
- 40
- 60
- 80
- 100
- 120
- 140
POWER RATIO
1.0
0.50
0.25
0.10
0.05
0.04
10-2
10-3
10-4
10-6
10-8
10-10
10-12
10-14
VOLTAGE CURRENT RATIO
1.0
0.71
0.50
0.32
0.25
0.20
0.10
0.03
10-2
10-3
10-4
10-5
10-6
10-7
Notes
(1)
P1
dB = 10 log 10 -----P2
(2)
V1
I1
dB = 20 log 10 ------ = 20 log 10 ---V2
I2
ELECTRIC FIELD LEVELS
W
1m
10 m
100 m
1 km
10 km
0.55 mV/m
1
5.5 V/m
0.55 V/m
0.05 V/m
5.5 V/m
10
17.4 V/m
1.7 V/m
0.17 V/m
17 V/m
1.7 mV/m
100
55 V/m
5.5 V/m
0.55 V/m
55 V/m
5.5 mV/m
1K
174 V/m
17.4 V/m
1.74 V/m
170 V/m
17 mV/m
10K
550 V/m
55 V/m
5.5 V/m
550 V/m
55 mV/m
100K
1740 V/m
174 V/m
17.4 V/m
1.74 V/m
174 mV/m
Notes
• Table assumes an antenna gain of one
5.5 PA
E = --------------------d
• P = Power at antenna in W
d = Distance from antenna in m (valid when d > /2)
E = Electric field in V/m
A = Antenna gain (1 for table)
•
CISPR 22 LIMITS
FREQUENCY (MHz)
CLASS A
CLASS B
30 to 230
40 dB V/m
30 dB V/m
230 to 1000
47 dB V/m
37 dB V/m
0.15 to 0.50
66 dB V/m
56 dB V/m to
46 dB V/m
0.50 to 5
60 dB V/m
46 dB V/m
5 to 30
60 dB V/m
50 dB V/m
RADIATED
Quasi-peak, antenna at 10 m
CONDUCTED
Average
www.vishay.com
272
For technical questions, contact: [email protected]
Document Number: 34097
Revision: 10-Dec-08
Engineering Note ILB, ILBB Ferrite Beads
Electro-Magnetic Interference and
Electro-Magnetic Compatibility (EMI/EMC)
Vishay Dale
FREQUENCY VS. WAVELENGTH
f

/2
/20
10 Hz
30 000 km
4800 km
1500 km
60 Hz
5000 km
800 km
250 km
100 Hz
3000 km
480 km
150 km
400 Hz
750 km
120 km
37 km
1 kHz
300 km
48 km
15 km
10 kHz
30 km
4.8 km
1.5 km
100 kHz
3 km
480 m
150 m
1 MHz
300 m
48 m
15 m
10 MHz
30 m
4.8 m
1.5 m
100 MHz
3m
0.48 m
15 cm
1 GHz
30 cm
4.8 cm
1.5 cm
10 GHz
3 cm
4.8 mm
1.5 mm
Note
• f = Frequency
 = Wavelength
/2 = Near field to far field distance
/20 = Antenna effects of wires and slots
CAPACITOR SELF RESONANCE
TOTAL LEAD LENGTH
FARADS
1/4"
1/2"
1"
500 pF
100 MHz
72 MHz
50 MHz
1000 pF
72
51
36
0.01 F
23
16
11
0.1 F
7.2
5.1
3.6
0.3 F
4.2
2.9
2.1
0.5 F
3.2
2.3
1.6
Note
•
1
f = ------------------- ; L = 20 nH/inch
2 LC
RISE TIMES - FREQUENCY - LENGTH
tr
feq
Lcross
Lcross/2
Lterm
1 ns
318 MHz
1.0 ft.
6"
3"
3 ns
95 MHz
3.0 ft.
1.5 ft.
9"
10 ns
32 MHz
10 ft.
5 ft.
2.5 ft.
7.5 ft.
30 ns
9.5 MHz
30 ft.
15 ft.
100 ns
3.2 MHz
100 ft.
50 ft.
25 ft.
300 ns
950 MHz
300 ft.
150 ft.
75 ft.
1 μs
320 MHz
1000 ft.
500 ft.
250 ft.
Note
= Rise time
• tr
feq
= Equivalent frequency I/tr
Lcross = Length of one rise time in free space
Lcross/2 = Typical length of rise time on cable or printed circuit
board (crosstalk)
Lterm = Length of terminate on cable or printed circuit board
Document Number: 34097
Revision: 10-Dec-08
For technical questions, contact: [email protected]
www.vishay.com
273
Engineering Note
Vishay Dale
Frequency Dependance of Inductor Testing and Correlation of
Results Between Q Meters and Impedance Meters
This engineering note is in response to questions raised regarding differences of inductance testing results between Vishay Dale
products tested using a “Q” meter as the standard and similar inductor products produced by other manufacturers that use an
impedance meter as the standard. It will also discuss the frequency dependance of inductance and Q (Quality Factor) when
testing.
The primary values used to specify an inductor or coil are inductance, Q, Self-Resonant Frequency (SRF), and Direct Current
Resistance (DCR). The first two parameters, inductance and Q, are very dependant on the testing frequency and the instrument
used for testing. Inductance is specified in Henries, usually with a tolerance. Q, being an indication of relative losses within an
inductor, is unitless, and is based on the ratio of inductive reactance (XL) and effective resistance (Re) at frequency (XL/Re). As
can be seen from this formula, Q is very dependent on frequency. At lower frequencies, the inductive reactance (XL) changes
faster than effective resistance (Re); at higher frequencies, the reverse is true. SRF is specified in Hertz and DCR in Ohms.
Many Vishay Dale leaded and surface mount inductors are referenced from what has been the industry standard test instrument:
the HP4342A Q meter (it is important to note that using the Q meter as the standard does not mean that the product is
necessarily tested on that meter, but only that values are referenced back to what a Q meter would read if it was testing the
part). This common industry test method/instrument has historical ties back to military specifications and standards and is still
in wide use throughout the industry as the standard by which values are determined. Recently, the impedance analyzer has
been gaining preference as the new standard for inductance measurements of radio frequency coils (especially commercial
surface mount products). The following is a brief description of the reasons for this trend.
The Q meter is made up of a variable frequency signal generator, a calibrated variable capacitor, and a high impedance RF
Voltmeter. There are several sources of error when testing with a Q meter. The first is Residual Inductance which is defined as
the sum of the internal inductance of the Q meter as well as the inductance of any test leads or fixtures. It is determined by using
a shorting bar with a known inductance value. This value is then subtracted from any Measured Inductance to give the Effective
Inductance. The next error is called Distributed Capacitance which is defined as the total distributed capacitance of the
inductorunder test. Distributed Capacitance is only a concern with inductors with large inductance values (typically above
1 mH).
The fundamental difficulty with measuring inductance and Q is that coil inductance, parasitics (1) of the coil and test fixture, and
Q are highly dependant on the test frequency and the configuration of the test instrument and fixture. Q meters require the use
of a test fixture that has parasitics that can vary from one test fixture to another. This variance requires compensation before
testing to get accurate and repeatable results. It is also important to understand that the Q meter operates by resonating the
coil under test with a variable capacitor. At resonance, the meter indicates the capacitance value on a dial that the test operator
must judge by reading the dial. The resolution of the analog dial often introduces parallax errors that add to the inaccuracy in
the measurement.
Note
(1) Unwanted stray inductance and capacitance inherent in the product’s construction
www.vishay.com
274
For technical questions, contact: [email protected]
Document Number: 34093
Revision: 10-Aug-06
Engineering Note
Frequency Dependance of Inductor Testing and
Correlation of Results Between Q Meters and
Impedance Meters
Vishay Dale
Commercially available Q meters have inductance measurement accuracies of no better than 3 %. The accuracy can be
improved by the use of setup standards called correlation pieces or samples. The correlation samples are used as the standard
for a specific component value and are then used to “calibrate” the meter every time testing of components is performed. The
use of correlation samples has been the traditional industry test method used to improve accuracy of Q meters, and results in
little error and provides consistent readings. However, this correlation process has significant disadvantages. For the best
accuracy, correlation sample standards must be established and shared between the manufacturer and the customer. Also,
each Q meter must be “calibrated” with the correlation standard before each test.
Because of the inherent difficulties in using a Q meter accurately, the use of impedance analyzers as the standard has become
much more common. Impedance analyzers (i.e., HP4191, HP4194) have accuracies that can be better than ± 1 % for
impedances near 50  and a machine to machine repeatability of approximately 1 %. Overall session-to-session test
repeatability on the same instrument is also 1 %. The use of impedance analyzers also eliminates the need for correlation
samples. In addition, the analyzers have digital readouts which remove the potential for problems associated with dial
reading/parallax errors.
Selection of a test instrument will influence test results. Different instruments have different capabilities and accuracies. As
stated, the frequency used during testing will also cause a variation in test results. Even the tolerance of a coil will change with
frequency because of the variances in parasitics within the coil (i.e., a 5 % tolerance coil tested at one frequency may only be
a 10 % tolerance coil at another frequency). Below is a table that shows the typical variations that can be expected for the same
coil tested on different instruments and at different frequencies.
TYPICAL VARIATIONS
INSTRUMENT
HP4342A Q meter
FREQUENCY
INDUCTANCE
25 MHz
682.3 nH
HP4192A
0.130 MHz
607.0 nH
HP4192A
10 MHz
592.7 nH
Booton 62AD
1 MHz
594.0 nH
0.130 MHz
1300.0 nH
100 MHz
1065.0 nH
Tektronix LC130
HP4191A
As can be seen in the table above, it is difficult to get similar results between two different meters or by testing at two different
frequencies. This difference is more pronounced when using meters with different test methods (Q meter versus impedance
analyzer). If the testing instrument and or method is different between the manufacturer and the customer, it is possible to
establish a correlation between the two readings by testing a controlled set of parts on both machines and averaging the
difference to establish a correlation factor. This is only recommended when the test instruments are different and should not be
used when different testing frequencies are involved.
Following the trend toward the use of impedance analyzers as the standardized industry test method, and to eliminate
correlation issues, Vishay Dale offers testing (at customer request) using the impedance analyzer as the standard in lieu of the
Q meter. However, because reliable Q measurements can be made on the Q meter, and because of the number of existing
customer designs that are based on this standard, the HP4342A Q meter will remain the reference instrument for all Q
measurements. If the alternate test method is desired, then we can accommodate customer needs by designating the product
with a special part number or by linking the special testing requirements to the customer part number. The IMC-1812-91,
IMC-1210-91, ISC-1812-91, and ISC-1210-91 are among several parts that reflect this test method and should be considered
for future use if the customer requires value testing based on the impedance analyzer standard. It should be noted that changing
from standard product to the special “-” series of products like the -91 will, in most cases, have little or no impact on price or
delivery. Vishay Dale will continue to monitor testing trends and will make changes as required to meet overall customer needs.
If you have further questions regarding this issue, please contact the factory at (605) 665-9301.
Document Number: 34093
Revision: 10-Aug-06
For technical questions, contact: [email protected]
www.vishay.com
275
Packaging Methods
www.vishay.com
Vishay Dale
SMD Magnetics Packaging Methods
TAPE AND REEL in inches [millimeters]
W
P
User Direction of Feed
Carrier Dimensions
PACKAGE CODE
MODEL
IHLP-1212AB
IHLP-1212AE
IHLP-1212BZ
IHLP-1616AB
IHLP-1616BZ
IHLP-2020AB
IHLP-2020BZ
IHLP-2020CZ
IHLP-2525AH
IHLP-2525BD
IHLP-2525CZ
IHLP-2525EZ
IHLP-3232CZ
IHLP-3232DZ
IHLP-4040DZ
IHLP-5050CE
IHLP-5050EZ
IHLP-5050FD
IHLP-6767DZ
IHLP-6767GZ
IHLM-2525CZ
IHLW-4040CF
IHLW-5050CE
IFSC-0806AZ
IFSC-1008AB
IFSC-1111AZ
IFSC-1111AB
IFSC-1515AH
IHSM-3825
IHSM-4825
IHSM-5832
IHSM-7832
IDC-2512
IDC-5020
IDC-7328
IDCS-2512
IDCS-5020
IDCS-7328
IDCP-1813
IDCP-2218
IDCP-3114
IDCP-3020
IDCP-3722
IDCP-3916
IFCB-0402
IFCB-0603
Revision: 23-Nov-11
PACKAGE CODE
GLOBAL
CODE
GLOBAL GLOBAL
GLOBAL
CARRIER
LEAD
CODE
CODE
CODE
COMPONENT
TAPE
(Pb)LEAD
LEAD
PITCH
UNITS/ PREVIOUS
REEL WIDTH
PREVIOUS LEAD (Pb)UNITS/
BEARING (Pb)-FREE BULK
BEARING (Pb)-FREE SIZE
(P)
REEL
(W)
CODE
CODE
ER
13 0.472 [12.0] 0.315 [8.0]
3000
ER
13 0.472 [12.0] 0.315 [8.0]
3000
ER
13 0.472 [12.0] 0.315 [8.0]
3000
EB
100
ER
13 0.630 [16.0] 0.315 [8.0]
4000
ER
13 0.630 [16.0] 0.315 [8.0]
4000
EB
100
EB
100
ER
13 0.630 [16.0] 0.315 [8.0]
4000
EB
100
ER
13 0.630 [16.0] 0.315 [8.0]
2000
ER
13 0.630 [16.0] 0.315 [8.0]
2000
EB
100
EB
100
ER
13 0.630 [16.0] 0.315 [8.0]
2000
EB
100
ER
13 0.630 [16.0] 0.315 [8.0]
2000
ER
13 0.630 [16.0] 0.315 [8.0]
2000
EB
100
EB
100
ER
13 0.630 [16.0] 0.472 [12.0]
500
EB
100
ER
13 0.630 [16.0] 0.472 [12.0]
1000
ER
13 0.630 [16.0] 0.472 [12.0]
500
EB
100
EB
100
ER
13 0.945 [24.0] 0.630 [16.0]
500
EB
100
ER
13 0.945 [24.0] 0.630 [16.0]
500
ER
13 0.945 [24.0] 0.630 [16.0]
250
EB
100
EB
100
ER
13 0.945 [24.0] 0.630 [16.0]
250
EB
100
ER
13 0.945 [24.0] 0.945 [24.0]
250
ER
13 0.945 [24.0] 0.945 [24.0]
200
EB
100
EB
100
ER
13 0.630 [16.0] 0.315 [8.0]
2000
EB
100
ER
13 0.945 [24.0] 0.630 [16.0]
500
ER
13 0.945 [24.0] 0.630 [16.0]
500
EB
100
ER
7
0.315 [8.0]
0.157 [4.0]
2000
ER
7
0.315 [8.0]
0.157 [4.0]
2000
ER
7
0.315 [8.0]
0.157 [4.0]
2000
ER
7
0.315 [8.0]
0.157 [4.0]
2000
ER
13 0.472 [12.0] 0.315 [8.0]
2000
RC2
RE
ER
13 0.945 [24.0] 0.472 [12.0]
750
P09
PJ
EB
100
P09
PJ
EB
100
RC2
RE
ER
13 0.945 [24.0] 0.472 [12.0]
750
P09
PJ
EB
100
RC3
RF
ER
13
1.26 [32.0] 0.472 [12.0]
500
RC4
RG
ER
13
1.73 [44.0] 0.472 [12.0]
500
P09
PJ
EB
100
ER
13 0.630 [16.0] 0.315 [8.0]
2000
ER
13 0.630 [16.0] 0.472 [12.0]
500
ER
13 0.945 [24.0] 0.945 [24.0]
250
ER
13 0.630 [16.0] 0.315 [8.0]
2000
ER
13 0.630 [16.0] 0.472 [12.0]
500
ER
13 0.945 [24.0] 0.945 [24.0]
250
ER
13 0.472 [12.0] 0.315 [8.0]
2000
ER
13 0.472 [12.0] 0.315 [8.0]
1500
ER
13 0.630 (16.0) 0.472 [12.0]
1000
ER
13 0.630 (16.0) 0.472 [12.0]
1000
ER
13 0.945 [24.0] 0.472 [12.0]
800
ER
13 0.945 [24.0] 0.472 [12.0]
800
ER
7
0.315 [8.0]
0.079 [2.0]
10 000
ER
7
0.315 [8.0]
0.157 [4.0]
5000
Document Number: 34150
276
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
Packaging Methods
www.vishay.com
Vishay Dale
TAPE AND REEL in inches [millimeters]
PACKAGE CODE
MODEL
ILC-0402
ILC-0603
ILC-0805
IMC-0402
IMC-0402-01
IMC-0603
IMC-0603-01
IMC-0805
IMC-0805-01
IMC-1008
IMC-1210
IMC-1210-100
IMC-1812
IMCH-1812
IMC-2220
ISC-1008
ISC-1210
ISC-1812
ICM-0805
ICM-1206
ICM-2824
ICM-3528
ICM-4743
ILSB-0603
ILSB-0805
(0.047 μH to 2.2 μH)
ILSB-0805
(2.7 μH to 33 μH)
ILSB-1206
ILBB-0402
ILBB-0603
ILBB-0805
ILB-1206
ILBB-1210
ILBB-1806
ILBB-1812
ILHB-0603
ILHB-0805
ILHB-1206
ILHB-1806
ILHB-1812
ILAS-1206
LPE-3325
LPE-4841
LPE-5047
LPE-6562
LPE-6855
LPE-3325-CST
LPT-3535
LPT-4545
Revision: 23-Nov-11
GLOBAL GLOBAL
CARRIER
CODE
CODE
COMPONENT
TAPE
LEAD
LEAD
(Pb)PITCH
UNITS/
REEL WIDTH
PREVIOUS
(Pb)-FREE
BEARING
(P)
REEL
(W)
SIZE
CODE
ER
7
0.315 [8.0]
0.079 [2.0]
10 000
ER
7
0.315 [8.0]
0.157 [4.0]
4000
ER
7
0.315 [8.0]
0.157 [4.0]
4000
ER
7
0.315 [8.0]
0.079 [2.0]
10 000
ER
7
0.315 [8.0]
0.079 [2.0]
10 000
ER
7
0.315 [8.0]
0.157 [4.0]
4000
ER
7
0.315 [8.0]
0.079 [2.0]
3000
ER
7
0.315 [8.0]
0.157 [4.0]
3000
ER
7
0.315 [8.0]
0.157 [4.0]
2000
ER
7
0.315 [8.0]
0.157 [4.0]
2000
R98/RB3
SY/AN
ER/ET
7
0.315 [8.0]
0.157 [4.0]
2000
R99/RB4
SZ/R9
ES/EU
13
0.315 [8.0]
0.157 [4.0]
7500
R98/RB3
SY/AN
ER/ET
7
0.315 [8.0]
0.157 [4.0]
2000
R99/RB4
SZ/R9
ES/EU
13
0.315 [8.0]
0.157 [4.0]
7500
R73/R92
RV/RX
ER/ET
7
0.472 [12.0] 0.315 [8.0]
500
R13/R91
RQ/RW
ES/EU
13 0.472 [12.0] 0.315 [8.0]
2000
ER
7
0.472 [12.0] 0.315 [8.0]
500
ER
13 0.630 [16.0] 0.472 [12.0]
1000
ER
13 0.472 [12.0] 0.157 [4.0]
750
R98/RB3
SY/AN
ER/ET
7
0.315 [8.0]
0.157 [4.0]
2000
R99/RB4
SZ/R9
ES/EU
13
0.315 [8.0]
0.157 [4.0]
7500
R73/R92
RV/RX
ER/ET
7
0.472 [12.0] 0.315 [8.0]
500
R13/R91
RQ/RW
ES/EU
13 0.472 [12.0] 0.315 [8.0]
2000
ER
7
0.315 [8.0]
0.157 [4.0]
2000
ER
7
0.315 [8.0]
0.157 [4.0]
2000
ER
13 0.630 [16.0] 0.472 [12.0]
2000
ER
13 0.945 [24.0] 0.472 [12.0]
900
ER
13 0.945 [24.0] 0.630 [16.0]
500
ER
7
0.315 [8.0]
0.157 [4.0]
4000
PACKAGE CODE
GLOBAL
CODE
GLOBAL
LEAD
CODE
(Pb)LEAD UNITS/
PREVIOUS
BEARING (Pb)-FREE BULK
CODE
B13
BN
EB
500
B13
BN
EB
500
B13
BN
EB
500
-
-
-
-
B13
BN
EB
500
B13
BN
EB
500
-
-
-
-
-
-
ER
7
0.315 [8.0]
0.157 [4.0]
4000
-
-
-
-
-
-
ER
7
0.315 [8.0]
0.157 [4.0]
3000
-
-
-
-
R94
R94
R94
R94
R94
RC5
RC5
RY
RY
RY
RY
RY
RH
RH
ER
ER
ER
ER
ER
ES
ER
ER
ER
ER
ER
ER
ER
ER
ER
ER
ER
ER
ER
ER
ER
ER
ER
7
7
7
7
7
13
7
7
7
7
7
7
7
7
7
13
13
13
13
13
13
13
13
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
0.472 [12.0]
0.472 [12.0]
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
0.945 [24.0]
0.945 [24.0]
0.945 [24.0]
1.26 [32.0]
1.26 [32.0]
0.945 [24.0]
0.945 [24.0]
0.945 [24.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.472 [12.0]
0.630 [16.0]
0.630 [16.0]
0.787 [20.0]
0.787 [20.0]
0.472 [12.0]
0.630 [16.0]
0.630 [16.0]
3000
10 000
4000
4000
3000
10 000
2000
2000
1000
4000
4000
3000
2000
1000
3000
1000
600
600
300
450
1000
600
600
-
-
-
-
-
-
-
-
S51
S51
S51
S51
S51
S51
S51
SM
SM
SM
SM
SM
SM
SM
EB
EB
EB
EB
EB
EB
EB
EB
10
10
10
10
10
10
10
10
Document Number: 34150
277
For technical questions, contact: [email protected]
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
Conversion Tables
Vishay Dale
Inductance and Tolerance Conversion Tables
for Global Part Numbers
INDUCTANCE CODES
nH
SAP
nH
H
SAP
1
H
1N0
820
0.82
R82
680
681
1.2
1N2
1
1R0
820
821
1.5
1N5
1.2
1R2
1000
102
1.8
1N8
1.5
1R5
1200
122
2.2
2N2
1.8
1R8
1500
152
2.7
2N7
2.2
2R2
1800
182
3.3
3N3
2.7
2R7
2200
222
3.9
3N9
3.3
3R3
2700
272
4.7
4N7
3.9
3R9
3300
332
5.6
5N6
4.7
4R7
3900
392
6.8
6N8
5.6
5R6
4700
472
8.2
8N2
6.8
6R8
5600
562
H
SAP
10
0.01
10N
8.2
8R2
6800
682
12
0.012
12N
10
100
8200
822
15
0.015
15N
12
120
10 000
103
18
0.018
18N
15
150
12 000
123
22
0.022
22N
18
180
15 000
153
27
0.027
27N
22
220
18 000
183
33
0.033
33N
27
270
22 000
223
39
0.039
39N
33
330
27 000
273
47
0.047
47N
39
390
33 000
333
56
0.056
56N
47
470
39 000
393
68
0.068
68N
56
560
47 000
473
563
82
0.082
82N
68
680
56 000
100
0.1
R10
82
820
68 000
683
120
0.12
R12
100
101
82 000
823
150
0.15
R15
120
121
100 000
104
180
0.18
R18
150
151
120 000
124
220
0.22
R22
180
181
150 000
154
270
0.27
R27
220
221
180 000
184
330
0.33
R33
270
271
220 000
224
390
0.39
R39
330
331
270 000
274
470
0.47
R47
390
391
330 000
334
560
0.56
R56
470
471
680
0.68
R68
560
561
PACKAGE CODES
TOLERANCE CODES
B
C
S
D
F
G
H
nH
=
=
=
=
=
=
=
± 0.15 nH
± 0.2 nH
± 0.3 nH
± 0.5 nH
±1%
±2%
±3%
www.vishay.com
278
J
K
L
M
V
N
=
=
=
=
=
=
±5%
± 10 %
± 15 %
± 20 %
± 25 %
± 30 %
See packaging methods for conversion.
For technical questions, contact: [email protected]
Document Number: 34151
Revision: 03-May-07
Linear Tech Cross Reference
Vishay Dale
Models Listed in Linear Tech Publication
MAGNETICS PRODUCTS
DESCRIPTION
IC TYPE
CIRCUIT DESCRIPTION
IHSM-4825
High Current, Molded, Inductor
LT1507
Representative Surface Mount Units
IHSM-4825 10 μH
High Current, Molded, Inductor
LT1375/LT1376
1.5 A, 500 kHz Step-Down Switching Regulator
IHSM-4825 10 μH
High Current, Molded, Inductor
LT1507
500 kHz Monlithic Buck Mode Switching Regulator
IHSM-4825 2.7 μH
High Current, Molded, Inductor
LT1374
4.5 A, 500 kHz Step-Down Switching Regulator
IHSM-4825 2.7 μH
High Current, Molded, Inductor
LT1506
4.5 A, 500 kHz Step-Down Switching Regulator
IHSM-4825 22 μH
High Current, Molded, Inductor
LT1375/LT1376
1.5 A, 500 kHz Step-Down Switching Regulator
IHSM-4825 4.7 μH
High Current, Molded, Inductor
LT1374
4.5 A, 500 kHz Step-Down Switching Regulator
IHSM-4825 4.7 μH
High Current, Molded, Inductor
LT1506
4.5 A, 500 kHz Step-Down Switching Regulator
IHSM-5832
High Current, Molded, Inductor
LT1507
Auxiliary 5 V/3 A, 3.3 V/3.5 A, 12 V/0.2 A Regulator
IHSM-5832 10 μH
High Current, Molded, Inductor
LT1374
4.5 A, 500 kHz Step-Down Switching Regulator
IHSM-5832 10 μH
High Current, Molded, Inductor
LT1375/LT1376
1.5 A, 500 kHz Step-Down Switching Regulator
IHSM-5832 10 μH
High Current, Molded, Inductor
LT1506
4.5 A, 500 kHz Step-Down Switching Regulator
IHSM-5832 10 μH
High Current, Molded, Inductor
LT1507
500 kHz Monlithic Buck Mode Switching Regulator
IHSM-5832 15 μH
High Current, Molded, Inductor
LT1374
4.5 A, 500 kHz Step-Doown Switching Regulator
IHSM-5832 15 μH
High Current, Molded, Inductor
LT1506
4.5 A, 500 kHz Step-Down Switching Regulator
IHSM-5832 22 μH
High Current, Molded, Inductor
LT1375/LT1376
1.5 A, 500 kHz Step-Down Switching Regulator
IHSM-7832 22 μH
High Current, Molded, Inductor
LT1374
4.5 A, 500 kHz Step-Down Switching Regulator
IHSM-7832 22 μH
High Current, Molded, Inductor
LT1375/LT1376
1.5 A, 500 kHz Step-Down Switching Regulator
IHSM-7832 22 μH
High Current, Molded, Inductor
LT1506
4.5 A, 500 kHz Step-Down Switching Regulator
ILB-1206 19  25 %
Chip Bead
LTC1550-4.1
Low Noise, Regulated, Switched-Capacitor
Voltage Inverter
ILB-1206 31  25 %
Chip Bead
LTC1174CS8
Low Noise, High Efficiency Step-Down
Regulator for Personal Communications Devices
ILS-3825-01
Multilayer Power Inductor
LT1106
Micropower Step-Up DC/DC Converter of
PCMCIA Card Flash Memory, 12 V, 60 mA
Flash Memory Programming Supply
ILS-3825-01
Multilayer Power Inductor
LT1106
Flash Memory VPP Generator
LPE-3325-A142
SMD Current Sense Transformer
LT1431CS8
35 W Isolated DC/DC Converter
LPE-3325-A190
SMD Transformer
LT1307
High Voltage Flyback Converter
SMD Transformer
LTC1304
LTC-1304-3.3
LT1304-5
Electroluminescent Panel Driver with
200 Hz Oscillator
LPE-4841-100MB
SMD Inductor/Transformer
LT1372/LT1377
Dual Output Flyback Converter with
Overvoltage Protection
LPE-4841-100MB
SMD Inductor/Transformer
LT1373
Dual Output Flyback Converter with
Overvoltage Protection
LPE-4841-330MB
SMD Inductor/Transformer
LT1425
Isolated Flyback Switching Regulator
5 V to Isolated - 9 Vout
LPE-4841-A307
SMD Transformer
LT1424-5
Isolated Flyback Switching Regulator with 5 V Output
LPE-4841-A307
SMD Transformer
LT1425
- 9 V Isolate LAN Supply
LPE-4841-A307
SMD Transformer
LT1425
1.5 V to - 9 V/250 mA Isolated LAN Supply
LPE-4841-A307
SMD Transformer
LTC1435
Dual Output 5 V and Synchronous 12 V Application
LPE-4841-A313
SMD Transformer
LT1316
Nonisolated - 48 V to 5 V Flyback Converter
LPE-4841-A313
SMD Transformer
LT1316
50 V to 6 V Isolated Flyback Converter
LPE-3325-A205
Document Number: 34153
Revision: 15-Aug-06
For technical questions, contact: [email protected]
www.vishay.com
279
Linear Tech Cross Reference
Vishay Dale
MAGNETICS PRODUCTS
Models Listed in Linear Tech Publication
DESCRIPTION
IC TYPE
CIRCUIT DESCRIPTION
SMD Transformer
LT1316
- 48 V to 5 V Flyback Converter
LPE-5047-100MB
SMD Inductor/Transformer
LT1370
Dual Output Flyback Converter with
Overvoltage Protection
LPE-5047-100MB
SMD Inductor/Transformer
LT1371
Dual Output Flyback Converter with
Overvoltage Protection
LPE-5047-100MB
SMD Inductor/Transformer
LT1371
Compact Dual Output, 500 kHz 5 V to ± 15 V
Flyback Converter
LPE-5047-A045 same as:
LPE-5047-100MB
SMD Transformer
LT1300
LCD Contrast Supply
LPE-5047-A045 same as:
LPE-5047-100MB
SMD Transformer
LT1301
LCD Contrast Supply
LPE-5047-A045 same as:
LPE-5047-100MB
SMD Transformer
LT1301
Micropower LCD Contrast Supply Use only
10 μA in a Shutdown
LPE-5047-A132
SMD Transformer
LT1303
EL Panel Driver
LPE-5047-A132
SMD Transformer
LT1303
High-Efficiency EL Driver Circuit
LPE-5047-A132
SMD Transformer
LT1305
EL Panel Driver
LPE-5047-A132
SMD Transformer
LT1305
EL Panel Driver for Large Display Area
LPE-5047-A132
SMD Transformer
LT1305
Circuit for Driving Electroluminescent
Panels in Portable Devices
LPE-5047-A132
SMD Transformer
LT1303
EL Panel Driver
LPE-4841-A313
LPE-6562-220MB
SMD Inductor/Transformer
LTC1149-5
Ultra Wide Input Range (5.5 V to 25 V)
High Efficiency 5 V Regulator
LPE-6562-220MB
SMD Inductor/Transformer
LTC1149-5
Ultra Wide Input Range (5.5 V to 25 V)
High Efficiency 5 V Regulator
LPE-6562-A026
SMD Transformer
1/2LTC1142HV
(5 V REG)
Deriving 14 V Power from an Auxiliary Winding on
the LTC1142HV 5 V Regulator
LPE-6562-A026
SMD Transformer
LTC1142
Triple Output Regulator with Switched 12 V Output
LPE-6562-A026
SMD Transformer
LTC1142
Auxiliary Winding Power Supply
Deriving 14 V Power from a 5 V Auxiliary Winding
LPE-6562-A026
SMD Transformer
LTC1142
Auxiliary Winding Power Supply
Deriving 14 V Power from a 3.3 V Auxiliary Winding
LPE-6562-A026
SMD Transformer
LTC1142
Triple Output Buck Converter
(6.5 V to 14 V to 3.3 V/2 A, 5 V/2 A, 12 V/0.15 A)
LPE-6562-A026
SMD Transformer
LTC1142
Triple Output High Efficiency Power Supply
LPE-6562-A026
SMD Transformer
LTC1142,
LT1121
High-Efficiency Power Supply
LPE-6562-A026
SMD Transformer
LTC1142HV
Dual Slot PCMCIA Driver/Regulator Powered from
Auxililary Winding on the LTC1142HV 5 V Regulator
LPE-6562-A026
SMDTransformer
LTC1142HV
Deriving 14 V Power from an Auxiliary Winding on the
LTC1142HV 5 V Regulator
LPE-6562-A026
SMD Transformer
LTC1142HV
Auxiliary Winding Power Supply
LPE-6562-A026
SMD Transformer
LTC1142HV
PCMCIA VPP Supply Generated from Switching
Regulator Auxiliary Winding
LPE-6562-A026
SMD Transformer
LTC1142HV
High Voltage Triple Output Buck Converter
(6.5 V to 18 V to 3.3 V/2 A, 5 V/2 A, 12 V/0.15 A)
LPE-6562-A026
SMD Transformer
LTC1148
Deriving Auxiliary 14 V Power from an LTC1148
5 V Regulator
LPE-6562-A026
SMD Transformer
LTC1148-3.3
Auxiliary Winding Power Supply Deriving 14 V Power
from a 3.3 V Auxiliary Winding
LPE-6562-A026
SMD Transformer
LTC1148-5
Auxiliary Winding Power Supply Deriving 14 V Power
from a 5 V Auxiliary Winding
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280
For technical questions, contact: [email protected]
Document Number: 34153
Revision: 15-Aug-06
Linear Tech Cross Reference
Models Listed in Linear Tech Publication
MAGNETICS PRODUCTS
Vishay Dale
DESCRIPTION
IC TYPE
CIRCUIT DESCRIPTION
LPE-6562-A026
SMD Transformer
LTC1471,
LT1313
Dual Socket Design for Applications Requiring Two
PC Card Sockets
LPE-6562-A069
SMD Inductor
LT1302
3 Cells to 3.3 V Buck-Boost Converter with Auxiliary
12 V Regulated Output
LPE-6562-A086
SMD Transformer
LTC1142HV
Deriving 14 V Auxiliary 14 V Power from an
LTC1142HV 3.3 V Regulator
LPE-6562-A092
SMD Transformer
LTC1434
2.5 V/5 A Adjustable Output with 5 V Auxiliary Output
LPE-6562-A092
SMD Transformer
LTC1435
Dual Output 5 V and 12 V Application
LPE-6562-A092
SMD Transformer
LTC1435A
Dual Output 5 V and 12 V Application
LPE-6562-A092
SMD Transformer
LTC1436
2.9 V/5 A Adjustable with 5 V Auxiliary Output
LPE-6562-A092
SMD Transformer
LTC1436
3.3 V/4 A fixed Output with 5 V Auxiliary Output
LPE-6562-A092
SMD Transformer
LTC1436
5 V/3 A Fixed Output with 12 V Auxiliary Output
LPE-6562-A092
SMD Transformer
LTC1436A-PLL
5 V/3 A Fixed Output with 12 V Auxiliary Output an
Uncommitted Comparator
LPE-6562-A092
SMD Transformer
LTC1436-PLL
2.5 V/5 A Adjustable Output with Foldback
Current limiting and 5 V Auxiliary Output
LPE-6562-A092
SMD Transformer
LTC1436-PLL
Fixed Output with 12 V/200 mA Auxiliary Output and
Uncommitted comparator
LPE-6562-A092
SMD Transformer
LTC1437A
5 V/3 A Fixed Output with 12 V Auxiliary Output
LPE-6562-A092
SMD Transformer
LTC1439
3.3 V and 5 V Dual Output Step-Down Switching
Regulator with 12 V Regulated Auxiliary
LPE-6562-A214
SMD Transformer
LTC1439
4 Output High Efficiency Low Noise 5 V/3 A,
3.3 V/3 A, 2.9 V/2.6 A, 12 V/200 mA Notebook
Computer Power Supply
LPE-6562-A214
SMD Transformer
LTC1538
High Efficiency 5 V/20 mA Standby, 3.3 V/2.5 V
Regulator with Low Noise 12 V Linear Regulator
LPE-6562-A214
SMD Transformer
LTC1539
High Efficiency 5 V/20 mA Standby, 3.3 V/2.5 A
Regulator with Low Noise 12 V Linear Regulator
LPE-6562-A236
SMD Transformer
LTC1435
Dual Output 5 V and Synchronous 12 V Application
LPE-6562-A236
SMD Transformer
LTC1435A
Dual Output 5 V and Synchronous 12 V Application
LPE-6562-A236
SMD Transformer
LTC1438
Representative Surface Mount Units
LPE-6562-A236
SMD Transformer
LTC1539
5 Output High Efficiency Low Noise 5 V/3 A,
3.3 V/3 A, 2.9 V/2.6 A, 12 V/200 mA, 5 V/20 mA
Notebook Computer Power Supply
LPE-6562-A262
SMD Transformer
LT1539
High Efficiency Low Noise 5 V/20 mA Standby,
5 V/3 A, 3.3 V/3.5 A and 12 V/200 mA Regulator
LPE-6562-A262
SMD Transformer
LTC1438
High Efficiency Low Noise 5 V/3 A, 3.3 V/3.5 A and
12 V/200 mA Regulator
LPE-6562-A262
SMD Transformer
LTC1539
High Efficiency Low Noise 5 V/20 mA Standby,
5 V/3 A, 3.3 V/3.5 A and 12 V/200 mA Regulator
LPE-6562-A262
SMD Transformer
LT1538
High Efficiency Low Noise 5 V/20 mA Standby,
5 V/3 A, 3.3 V/3.5 A and 12 V/200 mA Regulator
LPE-6562-A262
SMD Transformer
LTC1538-AUX
5 V/3 A, 3.3 V/3.5 A, 12 V/0.2 A Regulator
LPT-4545-100LA
SMD Toroidal Inductor
LT1302
Micropower High Output Current Step-Up
Adjustable and Fixed 5 V DC/DC Converters
LPT-4545-101LA
SMD Toroidal Inductor
LTC1433
9 V to 12 V, - 12 V Outputs
LPT-4545-101LA
SMD Toroidal Inductor
LTC1433
LTC1434
9 V to 12 V, - 12 V Outputs
LPT-4545-200LA
SMD Toroidal Inductor
LT1302
Micropower High Output Current Step-Up
Adjustable and Fixed 5 V DC/DC Converters
LPT-4545-200LA
SMD Toroidal Inductor
LTC1433
5 V to ± 5 V Outputs
Document Number: 34153
Revision: 15-Aug-06
For technical questions, contact: [email protected]
www.vishay.com
281
Linear Tech Cross Reference
Vishay Dale
MAGNETICS PRODUCTS
Models Listed in Linear Tech Publication
DESCRIPTION
IC TYPE
CIRCUIT DESCRIPTION
LPT-4545-200LA
SMD Toroidal Inductor
LTC1433
LTC1434
5 V to ± 5 V Outputs
LPT-4545-330LA
SMD Toroidal Inductor
LTC1265
5 V Buck-Boost Converter
LPT-4545-330LA
SMD Toroidal Inductor
LTC1265
Logic Selectable 0 V/3.3 V/5 V 700 mA Regulator
LPT-4545-330LA
SMD Toroidal Inductor
LTC1626
Single Li-lon to 3.3 V Buck-Boost Converter
LPT-4545-330LA
SMD Toroidal Inductor
LTC1626
Single Li-lon to 3.3 V Buck-Boost Converter
LPT-4545-500LA
SMD Toroidal Inductor
LTC1265
9 V to 12 V and - 12 V Outputs
LPT-4545-500LA
SMD Toroidal Inductor
LTC1265-5
Positive-to-Negative (- 5 V) Converter
LPT-4545-500LA
SMD Toroidal Inductor
LTC1265-5
Positive (+ 3.5 to 7.5 V) to Negative (- 5 V) Converter
LPT-4545-A001
SMD Toroidal Inductor
LTC1266-3.3
Low Dropout, 3.3 V/3 A High Efficiency Regulator
LPT-4545-A002
SMD Toroidal Inductor
LTC1266
5 V to 12 V/500 mA High Efficiency Boost Regulator
TC-10-04
Leaded Converter Transformer
LT1013
5 V Powered EEPROM Pulse Generator
TE-3Q3TA
Leaded Toriodal Inductor
LT1013
Low Power 9 V to 5 V Converter
TJ4-100-1 μH
Leaded Toriodal Inductor
LTC1159
High Efficiency 12 V to -12 V 1 A Converter
TJ4-100-1 μH
Leaded Toriodal Inductor
LTC1159
High Efficiency 12 V to - 12 V Converter
www.vishay.com
282
For technical questions, contact: [email protected]
Document Number: 34153
Revision: 15-Aug-06
Build Vishay
into your Design
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