Leaded Magnetics and Inductors

VISHAY I N T E R T E C H N O L O G Y , I N C .
INTERACTIVE
data book
LEADED MAGNETICS AND INDUCTORS
vishay DALE
vsD-db0058-0112
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One of the World’s Largest Manufacturers of
Discrete Semiconductors and Passive Components
LEADED MAGNETICS AND INDUCTORS
w w w. v i s h a y. c o m
DATA BOOK
V I S H A Y I N T E R T E C H N O L O G Y, I N C .
VISHAY INTERTECHNOLOGY, INC.
DISCRETE
SEMICONDUCTORS
RECTIFIERS
SMALL-SIGNAL DIODES
ZENER & SUPPRESSOR DIODES
MOSFETs
RF TRANSISTORS
OPTOELECTRONICS
ICs
PASSIVE COMPONENTS
CAPACITORS
RESISTIVE PRODUCTS
MAGNETICS
INTEGRATED MODULES
MEASUREMENT SENSORS
AND EQUIPMENT
Schottky (single, dual)
Standard, Fast and Ultra-Fast Recovery (single, dual)
Clamper/Damper
Bridge
Superectifier ®
Schottky and Switching (single, dual)
Tuner/Capacitance (single, dual)
Bandswitching
PIN
Zener Diodes (single, dual)
TVS (TransZorb,® Automotive, Arrays)
Power MOSFETs
JFETs
Bipolar RF Transistors (AF and RF)
Dual Gate MOSFETs
MOSMICs®
IR Emitters, Detectors and IR Receiver Modules
Opto Couplers and Solid State Relays
Optical Sensors
LEDs and 7 Segment Displays
Infrared Data Transceiver Modules
Custom products
Power ICs
Analog Switches
Tantalum Capacitors
Solid Tantalum Capacitors
Wet Tantalum Capacitors
Ceramic Capacitors
Multilayer Chip Capacitors
Disc Capacitors
Film Capacitors
Power Capacitors
Heavy Current Capacitors
Aluminum Capacitors
Foil Resistors
Film Resistors
Thin Film Resistors
Thick Film Resistors
Metal Oxide Film Resistors
Carbon Film Resistors
Wirewound Resistors
Variable Resistors
Cermet Variable Resistors
Wirewound Variable Resistors
Conductive Plastic Variable Resistors
Networks/Arrays
Non-Linear Resistors
NTC Thermistors
PTC Thermistors
Inductors
Transformers
DC/DC CONVERTERS
STRAIN GAGES
INSTRUMENTATION
PHOTOSTRESS® PRODUCTS
TRANSDUCERS
Stress Analysis
Transducer-Class®
Installation Accessories
Strain Indicators
Amplifiers
Data Systems
Polariscopes
Plastics
Load Cells
Linear Displacement Sensors
ONE OF THE WORLD'S LARGEST MANUFACTURERS OF DISCRETE SEMICONDUCTORS AND PASSIVE COMPONENTS
Vishay Leaded
Magnetics and Inductors
Vishay Dale
1505 E. Highway 50
P.O. Box 180
Yankton, SD 57078-0180, USA
Phone: 605-665-9301
Fax: 605-665-1627
www.vishay.com
The products listed in this catalog are not generally recommended for use in life
support systems where a failure or malfunction of the component may directly
threaten life or cause injury.
The user of products in such applications assumes all risks of such use and will agree
to hold Vishay Intertechnology, Inc. and all the companies whose products are
represented in this catalog, harmless against all damages.
Table of Contents
Vishay Dale
Contents ................................................................................................................................................................................................... 1
Product Selector Guide ........................................................................................................................................................................... 2
IM, Inductors, MIL-C- 15305 qualified, type LT and commercial, molded .................................................................................................. 8
IM-6-38, Inductors, medium, current ....................................................................................................................................................... 14
IM-6-RFCS-40, Inductors, commercial, molded ...................................................................................................................................... 15
IM-10-xx, Inductors, commercial, molded ............................................................................................................................................... 16
IM-10RFCL-12, Inductors, commercial, molded ...................................................................................................................................... 18
IM-2SWWD-30, Inductors, commercial subminiature, molded, shielded ................................................................................................ 19
IMS-2WWD-40, Inductors, subminiature, shielded .................................................................................................................................. 21
IMS-2, Inductors, MIL-C-15305 qualified, type LT and commercial, miniature, molded, shielded ........................................................... 22
IMS-5, Inductors, MIL-C-15305 qualified, type LT and commercial, molded, shielded ............................................................................ 24
IMS-5WD-40, Inductors, miniature, shielded ........................................................................................................................................... 26
IR, Inductors, epoxy comformal coated, uniform roll coated ................................................................................................................... 28
IRF, Inductors, epoxy conformal coated, uniform roll coated ................................................................................................................... 31
IRF-24, Epoxy conformal coated, axial leaded ........................................................................................................................................ 33
IRF-36, Epoxy conformal coated, axial leaded ........................................................................................................................................ 34
IRF-46, Epoxy conformal coated, axial leaded ........................................................................................................................................ 35
IRF-24, 36, 46 PACKAGING SPECS ..................................................................................................................................................... 36
IHD, Filter inductors, high current ............................................................................................................................................................ 37
IHA, Filter inductors, high current ............................................................................................................................................................ 38
IH, Filter inductors, high current .............................................................................................................................................................. 39
IHM-2, Filter inductors, high current ........................................................................................................................................................ 40
IHB, Filter inductors, high current ............................................................................................................................................................ 41
IHV, Filter inductors, high current ............................................................................................................................................................ 44
PC, Inductors, subminiature, shielded ..................................................................................................................................................... 45
WVL, Inductors, variable, subminiature, shielded ................................................................................................................................... 47
TJ, Inductors, toroid, wirewound, open ................................................................................................................................................... 49
TE, Inductors, toroid, wirewound, dipencap ............................................................................................................................................ 56
TD, Inductors, toroid, wirewound, dipencap ............................................................................................................................................ 56
Custom Products ................................................................................................................................................................................... 61
Definitions .............................................................................................................................................................................................. 69
Engineering Note ................................................................................................................................................................................... 76
Packaging Methods ............................................................................................................................................................................... 78
Revision 28-Feb-02
www.vishay.com
1
Product Selector Guide
Vishay Dale
CONSTRUCTION
CONSTRUCTION
PHYSICAL
COIL
CORE TYPE
TERMINATIONS
Leaded Magnetic Products
INDUCTOR
MODELS
INCHES
PICTURES
[MILLIMETERS]
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2
MOLDED
WIREWOUND
LEADED
NON MAGNETIC, POWERED IRON, FERRITE
L
W
INDUCTANCE
H
μH
@0.01
@.10
@1
@10
@100
IM-1
0.210
[5.33]
0.086
[2.18]
IM-2
0.260
[6.60]
0.105
[2.67]
IM-4
0.385
[9.78]
0.165
[4.19]
0.15
IM-6
0.450
[11.43]
0.200
[5.08]
0.1
IM-8
0.570
[14.48]
0.225
[5.72]
IM-9
0.570
[14.48]
0.260
[6.60]
IM-10
0.750
[19.05]
0.250
[6.35]
IM-6-38
0.450
[11.43]
0.200
[5.08]
IM-6RFCS-40
0.440
[11.18]
0.188
[4.78]
IM-10-22
0.570
[14.48]
0.230
[5.84]
IM-10-28
0.570
[14.48]
2.90
[7.37]
IM-10-31
0.570
[14.48]
0.320
[8.13]
180 390
IM-10-37
0.635
[16.13]
0.385
[9.78]
470
IM-10-46
0.697
[17.70]
0.478
[12.14]
IM-10-RFCL-12
0.900
[22.86]
0.310
[7.87]
0.10
@1000 @10000
100
0.022
1K
1.8K
1K
1.1K
68
3.6K
150
3.9K
0.22
10K
470
0.1
1K
0.47
3.6K
1.2
120
1K
1.5K
1.0
For technical questions, contact [email protected]
10K
10K
Document Number: 34081
Revision 07-Jan-02
Product Selector Guide
Vishay Dale
Leaded Magnetic Products
@0.1
RATED CURRENT
DCR
SRF
mA
Ohms
MHz
@1
@10
@100 @1000 @10000
52
56
78
@0..1
@1
0.13
895
28
@0.01
0.025
72
2.45K
0.03
56.7
3.6K
0.02
57
195
4K
0.02
1.97K
0.06
2.4K
0.075
72
40
Document Number: 34081
Revision 07-Jan-02
360
2.2
400
300
1.5
10
3.9
14.5
22
0.03
13
2.1
4.1
9
4K
510
0.95 1.45
16.5
95 125
80
525
1.5 2.8
4.5
5.5 8.7
84
900
8.3
118 148
680
1.6
3.3 5.3
0.024
@100 @1000 @10000
3.4
21 40
2.38K
@10
2.8
44
104
@1
16.5
47 61
185
@0.1
9.5
2.4K
132 168
47
@100
17.5
78
57
@10
170
6
2.7 3.7
70
80
0.8
0.45
For technical questions, contact [email protected]
2.2
136
www.vishay.com
3
Product Selector Guide
PHYSICAL
CONSTRUCTION
CONSTRUCTION
COIL
TERMINATIONS
CORE TYPE
Vishay Dale
Leaded Magnetic Products
INDUCTOR
MODELS
INCHES
PICTURES
[MILLIMETERS]
SHIELDED-MOLDED
ROLL COATED
SLEEVED
FERRITE
WIREWOUND
LEADED
NON MAGNETIC, POWDERED IRON, FERRITE
L
H
@ 0.01 @0.10
@1
@10
@100
@1000 @ 10000
IMS-2SWWD-30
0.345
[8.76]
0.136
[3.45]
0.1
1.8K
IMS-2WWD-40
0.335
[8.51]
0.133
[3.38]
0.1
1K
IMS-2
0.260
[6.60]
0.105
[2.67]
0.1
IMS-5
0.430
[10.92]
0.172
[4.37]
0.1
IMS-5WD-40
0.450
[11.43]
0.164
[4.166]
0.1
IR-2
0.330
[8.38]
0.120
[3.05]
0.1
IR-4
0.440
[11.18]
0.180
[4.57]
0.15
IRF-1
0.330
[8.38]
0.120
[3.15]
0.1
1K
IRF-3
0.410
[10.41]
0.165
[4.19]
0.22
1K
IRF-24
0.394
[10.01]
0.118
[3.00]
0.1
1K
IRF-36
0.551
[14.00]
0.157
[3.99]
0.1
1K
IRF-46
0.551
[14.00]
0.197
[5.00]
IHD-1
0.700
[17.78]
0.270
[6.86]
IHD-3
0.900
[22.86]
0.460
[11.68]
0.8-1.3
[20.3-33]
0.475-0.700
[12.1-17.8]
IHA
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4
W
INDUCTANCE
μH
560
100K
5.6K
1K
1.8K
1K
1.0
39K
18K
3.9
5.0
For technical questions, contact [email protected]
100K
1K
Document Number: 34081
Revision 07-Jan-02
Product Selector Guide
Vishay Dale
Leaded Magnetic Products
RATED CURRENT
@0.1
mA
@10 @100 @1000 @10000 @0.01
@1
44
1.038K
40
1.79K
0.025
4K
0.02
28
1.35K
56
2.45K
1.35K
60
100
60
100
72
0.03
56.7
0.15
80
70
1.4K
Document Number: 34081
Revision 07-Jan-02
0.009
4K
0.007
9.3K
0.01
400
3.4
680
1.6
400
1.4
380
1.15
17.4
1.4
270
0.2
525
1.4
30
8
5.3K
250
0.65
14
0.085
490
0.11
26
@1000
400
7
104
@100
480
4.5
678
200
25
2.6
0.08
1.75K
@1
28
0.1
700
@0.1
52
0.06
1.4K
@0.01
33
0.1
56
@10 @100
0.112
670
11
SRF
MHz
@10
0.087
1.72K
80
@0.1
DCR
Ohms
@1
280
320
1.7
N/A
40
76
0.60
For technical questions, contact [email protected]
N/A
N/A
www.vishay.com
5
Product Selector Guide
PHYSICAL
Leaded Magnetic Products
CONSTRUCTION
COIL
CONSTRUCTION
CORE TYPE
TERMINATIONS
Vishay Dale
INDUCTOR
MODELS
INCHES
PICTURES
[MILLIMETERS]
L
VARIABLE
MISC
FERRITE
IH
(Sleeved)
OPEN
WIREWOUND
LEADED
DIPENCAP
TOROID
0.875-1.687
[22.2-42.8]
IHM-2
(Encap)
1.0
[25.4]
IHB
(Open)
H
μH
@0.1
0.6-1.0
[15.2-25.4]
0.5
[12.7]
@1
@10
5
@100
@1000 @10000 @100000
250
0.56
[14.22]
1
0.66 - 2.0
[16.8 - 50.8]
0.84 - 1.5
[21.3 - 38.1]
1
IHV
(Sleeved)
2.45-2.55
[62.2-64.8]
1.02-1.92
[25.9-48.8]
PC
(Shielded)
0.310
[7.87]
0.270
[6.86]
0.1
1K
WVL
(Variable)
0.320
[8.13]
0.430
0.1
[10.92]
1K
TJ-3
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6
W
INDUCTANCE
0.65-0.66 0.65-0.66
[16.5-16.8] [16.5-16.8]
15K
47K
24
500
0.30-0.32
[7.6-8.1]
1.2
1.5K
TJ-4
0.88
[22.4]
0.88
[22.4]
0.40
[10.2]
1.2
1.5K
TJ-5
1.00
[25.4]
1.00
[25.4]
0.45
[11.4]
1.2
1.5K
TJ-6
1.38
[35.1]
1.38
[35.1]
0.83
[21.1]
1.2
2.7K
TJ-7
1.65
[41.9]
1.65
[41.9]
0.75
[19.1]
1.2
2.7K
TJ-8
1.92-1.94 1.92-1.94
[48.8-49.3] [48.8-49.3]
1.00
[25.4]
1.5
TJ-9
2.66-2.72 2.66-2.72
[67.6-69.1] [67.6-69.1]
1.42
[36.1]
1.5
TE-3
0.685
[17.40]
0.685
[17.40]
1.00
[25.4]
TE-4
1.06
[26.92]
1.06
[26.92]
1.00
[25.4]
TE-5
1.32
[33.53]
1.32
[33.53]
1.00
[25.4]
TD-3
0.685
[17.40]
0.685
[17.40]
3.00
[76.2]
TD-4
1.06
[26.92]
1.06
[26.92]
4.00
[101.60]
TD-5
1.32
[33.53]
1.32
[33.53]
6.00
[152.40]
3.9K
5.6K
4M
50
150
2M
1K
50
For technical questions, contact [email protected]
2M
4M
2M
150
1K
2M
Document Number: 34081
Revision 07-Jan-02
Product Selector Guide
Vishay Dale
Leaded Magnetic Products
RATED CURRENT
@1
DCR
mA
@100 @1000 @10000 @0.001 @ 0..01
@10
24K
5K
260
17.8K
800
35K
0.008
@1
@10
@0.001 @0.01
MHz
@0.1
@1
0.09
21.9
0.003
N/A
6.19
0.8
0.05
2.5K
0.03
12
2.35
141
1.51K
0.03
12
1.9
10K
0.006
10.7K
0.006
1.3K
10.1K
0.006
0.539
N/A
2K
16K
0.004
0.499
N/A
2.7K
16K
0.005
0.359
N/A
18.5K
0.005
0.304
N/A
20K
0.004
0.224
N/A
900
3.2K
5K
1.476
0.952
2.7K
N/A
0.54
1.2K
1.7
200
0.009
2.7K
N/A
0.54
1.2K
475
7.6
2.6
0.011
0.008
0.68
Document Number: 34081
Revision 07-Jan-02
250
0.009
475
N/A
1.7
670
N/A
0.68
N/A
5.7
N/A
N/A
N/A
@ 100
N/A
141
500
@10
N/A
0.005
60K 0.0025
15K
SRF
Ohms
@0.1
0.8
7.6
2.6
0.011
0.008
For technical questions, contact [email protected]
0.80
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7
IM
Vishay Dale
Inductors
Military, MIL-PRF-15305 Qualified, Type LT
and Commercial, Molded
FEATURES
• Wide inductance range in small package.
• Flame retardant coating.
• Precision performance, excellent reliability, sturdy construction.
• Epoxy molded construction provides superior moisture
protection.
INDUCTANCE RANGE AND MILITARY STANDARD
INDUCTANCE RANGE
Mil. Range in bold face CLASSIFICATION
MODEL FROM
TO
MILITARY
STANDARD
GRADE CLASS
IM-1
0.10H
100H
—
—
—
IM-2
0.022H
0.10H
1.2H
33H
0.082H
1H
27H
1000H
—
1
1
1
—
B
A
A
—
MS75083
MS75084
MS75085
IM-4
0.15H
5.6H
36H
270H
4.7H
33H
240H
1800H
1
1
1
—
B
A
A
—
MS18130
MS14046
MS90538
—
IM-6
0.10H
3.3H
33H
270H
2.7H
27H
220H
1000H
1
1
—
1
B
A
—
A
MS75008 Not QPL'd
MS75101
—
MS90539 Not QPL'd
IM-8
1100H
3600H
1
A
MS90540 Not QPL'd
IM-9
68H
150H
1
A
MS14047 Not QPL'd
IM-10
3900H
10,000H
1
A
MS90541 Not QPL'd
A Dia.
A (Dia.)
MECHANICAL SPECIFICATIONS
Terminal Strength: Per MIL-STD-202, Method 211,
Test Condition A: For IM-1, 3 pounds pull.
For IM-2, -4, -6, -8, -9 and -10, 5 pounds pull and twist.
Weight: IM-1 = .25 gram maximum.
IM-2 = .30 gram maximum.
IM-4 = .65 gram maximum.
IM-6 = .95 gram maximum.
IM-8 = 1.5 gram maximum.
IM-9 = 2.0 gram maximum.
IM-10 = 2.5 gram maximum.
MATERIAL SPECIFICATIONS
TEST EQUIPMENT*
B
D
Dia.
MODEL
Inductance Tolerance: 1%, 3%, 5%, 10%,
20%. Other tolerances available on request.
Insulation Resistance: 1000 Megohm minimum per
MIL-STD-202, Method 302, Test Condition B.
Dielectric Strength: Per MIL-STD-202, Method 301:
1000 VAC for IM-2, -4, -6, -8, -9 and -10.
200 VAC for IM-1.
Encapsulant: Epoxy.
Standard Terminals: IM-1 and IM-2, 24 AWG;
IM-4, IM-6 and IM-9, 22 AWG; IM-8, 21 AWG;
and IM-10, 20 AWG, tinned copper.
DIMENSIONS in inches [millimeters]
C
Typ.
ELECTRICAL SPECIFICATIONS
B
C (Typ.)
D (Dia.)
• H/P 4342A Q-Meter.
• Measurements Corporation Megacycle Meter, Model 59.
• Wheatstone bridge.
*Test procedures per MIL-PRF-15305.
ENVIRONMENTAL PERFORMANCE
CONDITIONS
Barometric Pressure
Test Condition C
MIL-STD-202,
Method 105
Thermal Shock
Test Condition A-1
MIL-STD-202,
Method 107
Flammability
—
MIL-STD-202,
Method 111
Overload
—
MIL-PRF-15305
Low Temperature
Storage
—
MIL-PRF-15305
Maximum 0.086 [2.18] 0.210 [5.33] 1.62 [41.15] 0.0215 [.546]
Minimum 0.070 [1.78] 0.190 [4.83] 1.38 [35.05] 0.0185 [.470]
IM-2
Maximum 0.105 [2.67] 0.260 [6.60] 1.63 [41.40] 0.0215 [.546]
Minimum 0.085 [2.16] 0.240 [6.10] 1.25 [31.75] 0.0185 [.470]
IM-4
Maximum 0.165 [4.19] 0.385 [9.78] 1.63 [41.40] 0.027 [.686]
Minimum 0.145 [3.68] 0.365 [9.27] 1.25 [31.75] 0.023 [.584]
IM-6
Maximum 0.200 [5.08] 0.450 [11.43] 1.63 [41.40] 0.027 [.686]
Minimum 0.180 [4.57] 0.430 [10.92] 1.25 [31.75] 0.023 [.584]
IM-8
Maximum 0.225 [5.72] 0.570 [14.48] 1.63 [41.40] 0.030 [.762]
Minimum 0.205 [5.21] 0.550 [13.97] 1.25 [31.75] 0.026 [.660]
IM-9
Maximum 0.260 [6.60] 0.570 [14.48] 1.63 [41.40] 0.027 [.686]
Minimum 0.240 [6.10] 0.550 [13.97] 1.25 [31.75] 0.023 [.584]
Resistance to
Soldering Heat
IM-10
Maximum 0.250 [6.35] 0.750 [19.05] 1.63 [41.40] 0.034 [.864]
Minimum 0.230 [5.84] 0.730 [18.54] 1.25 [31.75] 0.030 [.762]
Resistance to
Solvents
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8
SPECIFICATIONS
TEST
IM-1
For technical questions, contact [email protected]
Test Condition A
—
MIL-STD-202,
Method 210
MIL-STD-202,
Method 215
Document Number 34030
Revision 02-Nov-01
IM
Vishay Dale
Inductors, Military, MIL-PRF-15305 Qualified,
Type LT and Commercial, Molded
STANDARD ELECTRICAL SPECIFICATIONS
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
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
10%
10%
10%
10%
10%
10%
10%
10%
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
LT4K
339
340
341
342
343
344
345
346
347
348
349
350
351
LT10K
061
062
063
064
065
066
067
068
35
35
35
35
30
30
25
25
25
40
40
40
40
35
40
40
45
45
45
50
55
55
55
45
45
40
40
40
45
45
45
45
45
45
45
45
45
50
40
40
40
40
40
40
40
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
50.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
680.0
650.0
560.0
540.0
500.0
440.0
410.0
380.0
340.0
250.0
215.0
200.0
190.0
170.0
150.0
135.0
130.0
110.0
100.0
95.0
88.0
78.0
69.0
52.0
47.0
31.0
26.0
23.0
20.0
17.0
15.0
13.5
12.5
11.5
10.5
10.0
9.5
900.0
875.0
850.0
825.0
800.0
775.0
750.0
725.0
0.13
0.15
0.18
0.21
0.25
0.38
0.49
0.59
0.62
0.18
0.20
0.22
0.25
0.28
0.49
0.56
0.72
0.85
1.2
1.5
2.1
2.8
3.2
4.4
5.2
3.0
3.4
3.8
4.3
4.7
5.2
6.8
8.2
10.0
11.5
16.0
17.5
0.025
0.03
0.035
0.04
0.045
0.05
0.06
0.07
895
835
760
705
645
525
460
420
410
510
485
465
435
410
310
290
257
236
198
178
150
130
122
104
95
126
118
112
105
100
95
83.5
76
69
64
54.5
52
2400
2200
2000
1900
1800
1700
1500
1400
40
40
38
35
33
33
30
30
30
30
28
28
25
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
680.0
640.0
600.0
550.0
510.0
430.0
410.0
365.0
330.0
300.0
275.0
250.0
230.0
0.08
0.09
0.10
0.12
0.14
0.16
0.22
0.30
0.35
0.50
0.60
0.85
1.0
1350
1270
1200
1105
1025
960
815
700
650
545
495
415
385
25
28
30
30
37
45
45
45
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
150.0
140.0
125.0
115.0
100.0
90.0
80.0
75.0
0.18
0.22
0.30
0.40
0.55
0x.85
1.0
1.2
590
535
455
395
355
270
250
230
PHENOLIC CORE
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
MS75083
-1
-2
-3
-4
-5
-6
-7
-8
-9
-10
-11
-12
-13
MS75084
-01
-02
-03
-04
-05
-06
-07
-08
IRON CORE
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%
20%
10%
10%
10%
10%
10%
10%
10%
Q
MIN.
PHENOLIC CORE
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
10.0
12.0
15.0
18.0
22.0
27.0
33.0
39.0
47.0
56.0
68.0
82.0
100.0
0.022
0.027
0.033
0.039
0.047
0.056
0.068
0.082
RATED**
DC CURRENT
(mA)
MIL.
TYPE
PHENOLIC CORE
TOL.
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-1
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
TEST FREQ. SELF- RESONANT*
DCR
L&Q
MAX.
FREQ. MIN.
(MHz)
(Ohms)
(MHz)
MIL.
STD.
IRON CORE
MODEL
IND.
(H)
*Measured with full length lead. **Rated DC current based on maximum temperature rise as shown in table.
NOTE: Listing of Military Standard does not imply qualification. Contact factory for latest government QPL information.
NOTE: Products with dashes instead of Military Standard value and type designations are not qualified.
Document Number 34030
Revision 02-Nov-01
For technical questions, contact [email protected]
www.vishay.com
9
IM
Vishay Dale
Inductors, Military, MIL-PRF-15305 Qualified,
Type LT and Commercial, Molded
STANDARD ELECTRICAL SPECIFICATIONS
5.6
6.8
8.2
10.0
12.0
15.0
18.0
22.0
27.0
10%
10%
10%
10%
10%
10%
10%
10%
10%
MS75084
-09
-10
-11
-12
-13
-14
-15
-16
-17
LT10K
069
070
071
072
073
074
075
076
077
50
50
55
55
45
40
50
50
50
7.9
7.9
7.9
7.9
2.5
2.5
2.5
2.5
2.5
65.0
60.0
55.0
50.0
40.0
35.0
30.0
25.0
20.0
1.8
2.0
2.7
3.7
2.7
2.8
3.1
3.3
3.5
185
175
155
130
155
150
145
140
135
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
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
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
MS75085
-1
-2
-3
-4
-5
-6
-7
-8
-9
-10
-11
-12
-13
-14
-15
-16
-17
-18
-19
LT10K
078
079
080
081
082
083
084
085
086
087
088
089
090
091
092
093
094
095
096
45
45
45
45
50
50
50
30
30
30
30
30
30
30
30
30
30
30
30
2.5
2.5
2.5
2.5
2.5
2.5
2.5
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
24.0
22.0
20.0
18.0
15.0
14.0
13.0
12.0
11.0
10.0
9.0
8.0
7.0
6.5
6.0
5.0
4.0
3.8
3.4
3.4
3.6
4.5
5.7
6.7
7.3
8.0
13.0
15.0
17.0
21.0
25.0
28.0
35.0
42.0
46.0
60.0
65.0
72.0
130
125
110
100
92
88
84
66
61
57
52
47
45
40
36
35
30
29
28
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
0.15
0.22
0.33
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
20%
20%
20%
20%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
MS18130
-1
-2
-3
-4
-5
-6
-7
-8
-9
-10
-11
-12
-13
-14
-15
-16
LT4K
074
075
076
077
078
079
080
081
082
083
084
085
086
087
088
089
50
50
45
45
50
50
50
50
33
33
33
33
33
33
33
33
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
525.0
450.0
360.0
310.0
280.0
250.0
220.0
200.0
180.0
160.0
150.0
135.0
120.0
110.0
100.0
90.0
0.03
0.055
0.09
0.12
0.135
0.15
0.22
0.29
0.42
0.50
0.65
0.95
1.20
2.0
2.30
2.60
2450
1810
1400
1225
1150
1100
900
785
650
600
525
435
385
300
280
260
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
5.6
6.8
8.2
10.0
12.0
15.0
18.0
22.0
27.0
33.0
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
MS14046
-1
-2
-3
-4
-5
-6
-7
-8
-9
-10
LT10K
128
129
130
131
132
133
134
135
136
137
45
50
50
55
65
65
75
75
60
65
7.9
7.9
7.9
7.9
2.5
2.5
2.5
2.5
2.5
2.5
60.0
55.0
50.0
45.0
42.0
40.0
34.0
30.0
25.0
19.0
0.32
0.50
0.60
0.90
1.10
1.40
2.25
2.50
2.60
3.0
495
395
360
290
265
240
185
175
170
165
FERRITE CORE
TOL.
Q
MIN.
IRON CORE
RATED**
DC CURRENT
(mA)
MIL.
TYPE
PHENOLIC CORE
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
IM-2
TEST FREQ. SELF-RESONANT*
DCR
FREQ. MIN.
L&Q
MAX.
(MHz)
(MHz)
(Ohms)
MIL.
STD.
IRON CORE
MODEL
IND.
(H)
*Measured with full length lead. **Rated DC current based on maximum temperature rise as shown in table.
NOTE: Listing of Military Standard does not imply qualification. Contact factory for latest government QPL information.
NOTE: Products with dashes instead of Military Standard value and type designations are not qualified.
www.vishay.com
10
For technical questions, contact [email protected]
Document Number 34030
Revision 02-Nov-01
IM
Vishay Dale
Inductors, Military, MIL-PRF-15305 Qualified,
Type LT and Commercial, Molded
MIL.
TYPE
Q
MIN.
TEST FREQ.
L&Q
(MHz)
SELF-RESONANT*
FREQ. MIN.
(MHz)
DCR
MAX.
(Ohms)
RATED**
DC CURRENT
(mA)
36.0
39.0
43.0
47.0
51.0
56.0
62.0
68.0
75.0
82.0
91.0
100.0
110.0
120.0
130.0
150.0
160.0
180.0
200.0
220.0
240.0
270.0
300.0
330.0
360.0
390.0
430.0
470.0
510.0
560.0
620.0
680.0
750.0
820.0
910.0
1000.0
1100.0
1200.0
1300.0
1500.0
1600.0
1800.0
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
MS90538
-1
-2
-3
-4
-5
-6
-7
-8
-9
-10
-11
-12
-13
-14
-15
-16
-17
-18
-19
-20
-21
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
LT10K
001
002
003
004
005
006
007
008
009
010
011
012
013
014
015
016
017
018
019
020
021
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
60
60
60
55
55
55
55
55
55
50
50
50
60
65
65
65
65
65
65
65
65
65
65
65
65
65
65
65
65
65
65
55
55
55
55
55
30
30
30
30
30
30
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.25
0.25
0.25
0.25
0.25
0.25
15.5
14.5
13.7
13.0
12.7
12.0
11.5
11.0
10.5
10.3
10.0
9.5
8.9
8.7
8.5
8.0
7.5
7.0
6.5
6.2
5.9
5.7
5.4
5.1
4.8
4.5
4.2
3.9
3.7
3.5
3.3
3.1
2.9
2.7
2.5
2.3
2.1
2.0
1.9
1.8
1.7
1.6
2.50
2.60
2.70
2.75
2.85
3.0
3.15
3.30
3.70
3.90
4.30
4.50
4.90
5.20
5.45
6.05
6.40
6.75
7.10
7.45
7.80
11.0
11.5
12.0
15.5
16.3
17.1
17.9
18.8
24.7
25.9
27.2
28.6
30.0
31.5
33.1
43.5
45.7
49.0
52.5
54.0
56.7
180
176
172
170
167
164
160
156
147
143
136
133
128
124
121
114
111
108
106
103
101
129
125
123
108
105
102
100
98
85
83
81
79
77
76
74
64
63
61
59
58
56
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
20%
20%
20%
20%
20%
20%
20%
20%
20%
10%
10%
10%
10%
10%
10%
10%
10%
10%
MS75008
—
—
-21
—
-22
—
-23
—
-24
-25
-26
-27
-28
-29
-30
-31
-32
-33
LT4K
—
—
027
—
028
—
029
—
030
031
032
033
034
035
036
037
038
039
(Not QPL'd)
55
55
55
55
50
50
50
50
50
50
45
40
40
30
30
30
30
30
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
7.9
7.9
7.9
7.9
7.9
510.0
510.0
510.0
450.0
415.0
380.0
350.0
320.0
300.0
270.0
250.0
210.0
200.0
180.0
170.0
150.0
140.0
120.0
.020
.025
.030
.030
.035
.050
.065
.080
.085
.125
.150
.205
.290
.400
.485
.740
.970
1.20
3600
3300
3000
2900
2800
2400
2000
1800
1700
1450
1300
1100
930
785
700
580
505
460
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-4
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
MODEL
PHENOLIC CORE
TOL.
MIL.
STD.
IND.
(H)
IRON CORE
STANDARD ELECTRICAL SPECIFICATIONS
*Measured with full length lead. **Rated DC current based on maximum temperature rise as shown in table.
NOTE: Listing of Military Standard does not imply qualification. Contact factory for latest government QPL information.
NOTE: Products with dashes instead of Military Standard value and type designations are not qualified.
Document Number 34030
Revision 02-Nov-01
For technical questions, contact [email protected]
www.vishay.com
11
IM
Vishay Dale
Inductors, Military, MIL-PRF-15305 Qualified,
Type LT and Commercial, Molded
RATED**
DC CURRENT
(mA)
70.0
65.0
60.0
50.0
50.0
48.0
42.0
36.0
30.0
30.0
24.0
22.0
20.0
18.0
16.0
15.0
12.0
10.0
8.0
6.0
5.4
5.0
4.7
0.140
0.155
0.210
0.280
0.375
0.440
0.605
1.05
1.20
1.95
2.20
2.75
3.5
3.8
4.0
4.4
4.7
5.3
6.0
5.0
5.8
6.6
7.4
990
870
745
645
560
540
440
370
310
255
240
205
185
176
170
164
156
143
133
124
118
114
112
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
5.6
5.3
5.0
4.7
4.5
4.3
4.0
3.8
3.6
3.5
3.4
3.3
3.1
2.9
2.8
8.2
8.7
9.1
9.6
10.0
10.6
11.1
11.6
12.3
13.0
13.7
14.4
15.1
15.8
16.5
110
107
105
102
100
97
95
93
91
88
85
83
81
79
78
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
2.8
2.7
2.6
2.4
2.3
2.2
2.1
2.0
1.9
1.8
1.7
1.6
1.5
21.0
22.0
23.0
25.0
26.0
28.0
29.0
30.0
31.0
33.0
35.0
38.0
40.0
78
76
75
72
70
68
67
66
64
62
61
58
57
TOL.
Q
MIN.
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
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
10%
MS75101
-01
-02
-03
-04
-05
-06
-07
-08
-09
-10
-11
-12
—
—
—
—
—
—
—
—
—
—
—
LT10K
169
170
171
172
173
174
175
176
177
178
179
180
—
—
—
—
—
—
—
—
—
—
—
30
30
30
30
30
30
30
50
55
60
60
65
75
75
75
75
75
75
65
65
65
65
65
LT10K
7.9
7.9
7.9
7.9
7.9
7.9
7.9
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
0.79
0.79
0.79
0.79
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
270.0
300.0
330.0
360.0
390.0
430.0
470.0
510.0
560.0
620.0
680.0
750.0
820.0
910.0
1000.0
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
MS90539
-01
-02
-03
-04
-05
-06
-07
-08
-09
-10
-11
-12
-13
-14
-15
LT10K
022
023
024
025
026
027
028
029
030
031
032
033
034
035
036
(Not QPL'd)
65
65
65
65
65
65
65
65
65
60
60
60
60
60
60
IM-8
IM-8
IM-8
IM-8
IM-8
IM-8
IM-8
IM-8
IM-8
IM-8
IM-8
IM-8
IM-8
1100.0
1200.0
1300.0
1500.0
1600.0
1800.0
2000.0
2200.0
2400.0
2700.0
3000.0
3300.0
3600.0
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
MS90540
-01
-02
-03
-04
-05
-06
-07
-08
-09
-10
-11
-12
-13
LT10K
037
038
039
040
041
042
043
044
045
046
047
048
049
(Not QPL'd)
60
60
60
65
65
65
65
70
70
70
70
70
70
MODEL
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IM-6
IRON CORE
DCR
MAX.
(Ohms)
MIL.
TYPE
IRON CORE
TEST FREQ. SELF-RESONANT*
L&Q
FREQ. MIN.
(MHz)
(MHz)
MIL.
STD.
IND.
(H)
IRON CORE
STANDARD
ELECTRICAL
SPECIFICATIONS
STANDARD
ELECTRICAL
SPECIFICATIONS
*Measured with full length lead. **Rated DC current based on maximum temperature rise as shown in table.
NOTE: Listing of Military Standard does not imply qualification. Contact factory for latest government QPL information.
NOTE: Products with dashes instead of Military Standard value and type designations are not qualified.
www.vishay.com
12
For technical questions, contact [email protected]
Document Number 34030
Revision 02-Nov-01
IM
Vishay Dale
Inductors, Military, MIL-PRF-15305 Qualified,
Type LT and Commercial, Molded
STANDARD ELECTRICAL SPECIFICATIONS
IM-10
IM-10
IM-10
IM-10
IM-10
IM-10
IM-10
IM-10
IM-10
IM-10
IM-10
RATED**
DC CURRENT
(mA)
TOL.
MIL.
TYPE
Q
MIN.
68.0
82.0
100.0
120.0
150.0
10%
10%
10%
10%
10%
MS14047
-01
-02
-03
-04
-05
LT10K
138
139
140
141
142
(Not QPL'd)
70
65
65
75
75
2.5
2.5
2.5
0.79
0.79
13.0
11.7
10.7
9.3
8.3
3.3
3.5
3.8
4.7
5.3
168
162
155
142
132
3900.0
4300.0
4700.0
5000.0
5600.0
6200.0
6800.0
7500.0
8200.0
9100.0
10000.0
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
MS90541
-01
-02
-03
-04
-05
-06
-07
-08
-09
-10
-11
LT10K
050
051
052
053
054
055
056
057
058
059
060
(Not QPL'd)
80
80
80
80
80
80
80
80
80
80
80
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
1.45
1.40
1.35
1.30
1.25
1.20
1.15
1.10
1.05
1.0
0.95
44.0
46.0
48.0
50.0
53.0
56.0
59.0
62.0
65.0
68.0
72.0
61
59
58
57
56
54
52
51
50
49
47
IRON CORE
IM-9
IM-9
IM-9
IM-9
IM-9
TEST FREQ. SELF-RESONANT* DCR
MAX.
FREQ. MIN.
L&Q
(Ohms)
(MHz)
(MHz)
MIL.
STD.
IRON CORE
MODEL
IND.
(H)
*Measured with full length lead. **Rated DC current based on maximum temperature rise as shown in table.
NOTE: Listing of Military Standard does not imply qualification. Contact factory for latest government QPL information.
NOTE: Products with dashes instead of Military Standard value and type designations are not qualified.
MAXIMUM TEMPERATURE RISE
OPERATING
TEMPERATURE RANGE
IM-1
0.10H to .47H = 35C at + 90C ambient
0.56H to 1000H = 15C at + 90C ambient
- 55C to + 125C
- 55C to + 105C
IM-2
0.022H to 1.0H = 35C at + 90C ambient
1.2H to 27H = 15C at + 90C ambient
33H to 1000H = 15C at + 90C ambient
- 55C to + 125C
- 55C to + 105C
- 55C to + 105C
IM-4
0.15H to 4.7H = 35C at + 90C ambient
5.6H to 33H = 15C at + 90C ambient
36H to 240H = 15C at + 90C ambient
270H to 1800H = 35C at + 90C ambient
- 55C to + 125C
- 55C to + 105C
- 55C to + 105C
- 55C to + 125C
IM-6
0.1H to 2.7H = 35C at + 90C ambient
3.3H to 1000H = 15C at + 90C ambient
- 55C to + 125C
- 55C to + 105C
= 15C at + 90C ambient
- 55C to + 105C
IM-8, IM-9, IM-10
ORDERING INFORMATION
10H
INDUCTANCE
VALUE
IM-2
MODEL
10%
INDUCTANCE TOLERANCE
ORDERING INFORMATION - MILITARY PART NUMBER
MS75084
MILITARY STANDARD
Document Number 34030
Revision 02-Nov-01
- 12
INDUCTANCE
VALUE
OR
LT
TYPE
10
GRADE AND CLASS
For technical questions, contact [email protected]
K
FAMILY
072
ID NUMBER
www.vishay.com
13
IM-6-38
Vishay Dale
Inductors
Medium Current
FEATURES
• Wide inductance range in small package.
• Flame retardant coating.
• Epoxy molded construction provides superior moisture
protection.
• Superior electrical specifications. High Q and self resonant
frequency, low DC resistance, high rated DC current.
STANDARD ELECTRICAL SPECIFICATIONS
IND.
(μH)
TOL.
Q
MIN.
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
10.0
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
± 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%
55
55
55
55
55
55
55
55
55
65
65
65
65
65
65
55
55
55
55
45
45
55
55
55
55
55
55
45
45
45
45
30
30
55
55
60
60
60
60
60
60
SELFTEST
RATED
FREQ. RESONANT DCR
DC
L & Q FREQ. MIN. MAX. CURRENT
(Ohms) (mA)
(MHz)
(MHz)
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
25.0
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
360.0
340.0
320.0
260.0
200.0
195.0
190.0
175.0
160.0
145.0
125.0
95.0
85.0
47.0
45.0
35.0
30.0
26.0
24.0
22.0
20.0
32.0
32.0
23.0
23.0
20.0
20.0
19.0
19.0
14.0
14.0
4.5
4.5
4.0
3.4
8.5
8.2
5.8
5.5
5.1
2.1
0.024
0.026
0.030
0.033
0.036
0.040
0.043
0.048
0.053
0.058
0.067
0.075
0.083
0.095
0.100
0.110
0.120
0.135
0.155
0.165
0.175
0.320
0.390
0.475
0.565
0.650
0.720
0.780
0.830
0.900
0.980
1.07
1.15
1.45
1.66
2.80
3.10
3.15
4.30
4.40
4.50
2380
2210
2070
2000
1910
1860
1810
1730
1650
1570
1490
1430
1370
1300
1230
1210
1190
1100
1020
975
940
775
645
625
600
560
520
495
465
450
440
420
400
365
340
240
235
230
205
190
185
ELECTRICAL SPECIFICATIONS
Inductance Tolerance: ± 5%, ± 10%, ± 20%. Other
tolerances available on request.
Insulation Resistance: 1000 Megohm per MIL-STD-202,
Method 302, Test Condition B.
Operating Temperature: - 55°C to + 105°C (no load);
- 55°C to + 80°C (at full rated current).
MECHANICAL SPECIFICATIONS
Terminal Strength: 5 pounds pull per MIL-STD-202,
Method 211, Test Condition A.
MATERIAL SPECIFICATIONS
Core: Ferrite.
Encapsulant: Epoxy.
Terminals: Tinned copper, standard.
DIMENSIONS in inches [millimeters]
C
Typ.
B
A
Dia.
D
Dia.
MODEL
A (Dia.)
B
C (Typ.)
D (Dia.)
IM-6-38 Maximum 0.200 [5.08] 0.450 [11.43] 1.63 [41.40] 0.027 [0.686]
Minimum 0.180 [4.57] 0.430 [10.92] 1.25 [31.75] 0.023 [0.584]
ENVIRONMENTAL PERFORMANCE
TEST
CONDITIONS
SPECIFICATIONS
—
MIL-STD-202,
Method 111
Resistance to
Soldering Heat
Test Condition A
MIL-STD-202,
Method 210
Resistance to
Solvents
—
MIL-STD-202,
Method 215
Flammability
ORDERING INFORMATION
MARKING
— Vishay Dale
IM-6-38
3.9μH
± 10%
— Inductance value
MODEL
INDUCTANCE
VALUE
INDUCTANCE
TOLERANCE
— Date code
www.vishay.com
14
For technical questions, contact [email protected]
Document Number 34033
Revision 02-Nov-01
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DIMENSIONS LQLQFKHV>[email protected]
>@
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3+(12/,&&25(
,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 ,05)&6 0RGHOHOHFWULFDOVDQGWROHUDQFHVVKRZQ
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ORDERING INFORMATION
,05)&6
+
02'(/
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72/(5$1&(
ZZZYLVKD\FRP
IM-10-22, -28, -31, -37, -46
Vishay Dale
Inductors
Commercial, Molded
FEATURES
• High Q and SRF.
• Non standard tolerances are also available in all types.
• Maximum protection with minimum size as a result of full
encapsulation in a thermo-setting mineral filled plastic jacket.
• Assured uniformity of product, a result of stringent quality
control and inspection procedures at every production stage.
DIMENSIONS in inches [millimeters]
1.25 [31.75]
Min.
A
B
C
MODEL
A
B
C
IM-10-22
0.560 ± 0.010
[14.22 ± 0.254]
#22 AWG 0.025 ± 0.002 [0.635 ± 0.051] (0.47μH thru 39μH)
#21 AWG 0.028 ± 0.002 [0.711 ± 0.051] (1100μH thru 3600μH)
0.220 ± 0.010
[5.59 ± 0.254]
IM-10-28
0.940 ± 0.010
[23.88 ± 0.254]
#21 AWG
0 .028 ± 0.002 [0.711 ± 0.051]
0.280 ± 0.010
[7.11 ± 0.254]
IM-10-31
0.560 ± 0.010
[14.22 ± 0.254]
#21 AWG
0 .028 ± 0.002 [0.711 ± 0.051]
0.310 ± 0.010
[7.87 ± 0.254]
IM-10-37
0.625 ± 0.010
[15.88 ± 0.254]
#21 AWG
0 .028 ± 0.002 [0.711 ± 0.051]
0.375 ± 0.010
[9.52 ± 0.254]
IM-10-46
0.687 ± 0.010
[17.45 ± 0.254]
#21 AWG
0 .028 ± 0.002 [0.711 ± 0.051]
0.468 ± 0.010
[11.89 ± 0.254]
INDUCTANCE RANGE
INDUCTANCE RANGE
MAXIMUM
OPERATING
TEMPERATURE
MODEL
FROM
TO
CORE
MATERIAL
IM-10-22
0.47μH
4.7μH
Phenolic
+ 125°C
5.6μH
39μH
Iron
+ 105°C
1100μH
3600μH
Iron
+ 105°C
1.2μH
18μH
Phenolic
+ 125°C
22μH
120μH
Iron
+ 105°C
IM-10-31
180μH
390μH
Iron
+ 105°C
IM-10-37
470μH
1000μH
Iron
+ 105°C
IM-10-46
1500μH
10000μH
Iron
+ 105°C
IM-10-28
MODEL
IND.
(μH)
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
0.47
0.56
0.68
0.82
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1.2
1.5
1.8
2.2
2.7
3.3
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www.vishay.com
16
TOL.
PREVIOUS
PART NO.
Q
MIN.
TEST
FREQ.
(MHz)
SELF-RESONANT
FREQ. MIN.
(MHz)
DCR
@ + 25°C MAX.
(Ohms)
RATED DC
CURRENT
(mA)
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
4412-1K
4412-2K
4412-3K
4412-4K
4412-5K
4412-6K
4412-7K
4412-8K
4412-9K
4411-10K
4412-11K
4412-12K
4412-13K
65
65
65
65
65
40
40
40
40
40
40
40
40
25
25
25
25
25
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
300
270
240
220
200
180
160
150
135
120
105
100
90
0.06
0.07
0.08
0.11
0.14
0.19
0.28
0.37
0.50
0.65
1.00
1.20
1.80
1970
1850
1700
1450
1290
1120
925
790
680
600
480
440
360
For technical questions, contact [email protected]
PHENOLIC CORE
STANDARD ELECTRICAL SPECIFICATIONS
Document Number 34035
Revision 02-Nov-01
IM-10-22, -28, -31, -37, -46
Vishay Dale
Inductors Commercial, Molded
DCR
@ + 25°C MAX.
(Ohms)
RATED DC
CURRENT
(mA)
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
4422-1K
4422-2K
4422-3K
4422-4K
4422-5K
4422-6K
4422-7K
4422-8K
4422-9K
4422-10K
4422-11K
35
35
35
35
45
45
50
60
60
60
70
7.9
7.9
7.9
7.9
2.5
2.5
2.5
2.5
2.5
2.5
2.5
55
50
44
42
34
32
28
24
22
20
18
885
710
680
625
465
442
380
326
275
258
224
1312-20J
1312-21J
1312-22J
1312-23J
1312-24J
1312-25J
1312-26J
1312-27J
1312-28J
1312-29J
1312-30J
1312-31J
1312-32J
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
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
60
60
60
65
65
65
65
70
70
70
70
70
70
60
60
60
60
60
60
60
60
60
60
60
60
40
40
40
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
2.5
2.5
2.5
2.8
2.7
2.6
2.4
2.3
2.2
2.1
2.0
1.9
1.8
1.7
1.6
1.5
170
160
140
125
115
100
95
90
80
75
68
60
53
50
45
0.13
0.20
0.22
0.26
0.45
0.52
0.70
1.00
1.30
1.50
2.00
21.0
22.0
23.0
25.0
26.0
28.0
29.0
30.0
31.0
33.0
35.0
38.0
40.0
0.075
0.090
0.135
0.160
0.220
0.305
0.450
0.560
0.745
1.05
1.40
1.90
2.65
3.25
4.15
78
76
75
72
70
68
67
66
64
62
61
58
57
2400
2150
1750
1600
1350
1150
955
860
745
635
550
460
395
355
315
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
22
27
33
39
47
56
68
82
100
120
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
50
45
60
55
65
65
75
75
75
95
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
0.79
24
22
19
18
16
14
13
12
12
10
0.295
0.350
0.550
0.650
1.00
1.15
1.85
2.10
2.50
4.10
725
660
525
485
390
360
285
265
245
195
IM-10-31
IM-10-31
IM-10-31
IM-10-31
IM-10-31
± 10%
± 10%
± 10%
± 10%
± 10%
80
80
80
75
75
0.79
0.79
0.79
0.79
0.79
6.0
5.5
5.1
4.2
3.9
5.5
5.9
6.6
7.8
8.7
148
145
138
122
118
IM-10-37
IM-10-37
IM-10-37
IM-10-37
IM-10-37
180
220
270
330
390
470
560
680
820
1000
4424-1K
4424-2K
4424-3K
4424-4K
4424-5K
4424-6K
4424-7K
4424-8K
4424-9K
4424-10K
31A181K
31A221K
31A271K
31A331K
31A391K
± 10%
± 10%
± 10%
± 10%
± 10%
37A471K
37A561K
37A681K
37A821K
37A102K
80
80
75
75
70
0.79
0.79
0.79
0.79
0.79
3.7
3.5
3.2
3.0
2.7
9.0
10.0
11.2
13.0
14.5
125
118
112
105
95
IM-10-46
IM-10-46
IM-10-46
IM-10-46
IM-10-46
1500
2200
2700
5100
10000
± 10%
± 10%
± 10%
± 10%
± 10%
46A152K
46A222K
46A272K
46A512K
46A103K
85
85
85
70
70
0.25
0.25
0.25
0.25
0.25
2.2
1.8
1.6
1.0
0.8
22.0
27.0
32.0
66.0
70.0
84
76
69
48
47
MODEL
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
5.6
6.8
8.2
10
12
15
18
22
27
33
39
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-22
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
IM-10-28
1100
1200
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1500
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1800
2000
2200
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3000
3300
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4414-2K
4414-3K
4414-4K
4414-5K
4414-6K
4414-7K
4414-8K
4414-9K
4414-10K
4414-11K
4414-12K
4414-13K
4414-14K
4414-15K
MARKING
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SELF-RESONANT
FREQ. MIN.
(MHz)
PHENOLIC CORE
TEST
FREQUENCY
(MHz)
IRON CORE
Q
MIN.
IRON CORE IRON CORE IRON CORE
TOLERANCE
PREVIOUS
PART NO.
IND.
(μH)
IRON CORE
STANDARD ELECTRICAL SPECIFICATIONS
ORDERING INFORMATION
— Color coded, see packaging
Document Number 34035
Revision 02-Nov-01
IM-10-28
MODEL
22μH
INDUCTANCE VALUE
For technical questions, contact [email protected]
± 10%
INDUCTANCE
TOLERANCE
www.vishay.com
17
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Inductors
Subminiature, Shielded
FEATURES
•
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ELECTRICAL SPECIFICATIONS
STANDARD ELECTRICAL SPECIFICATIONS
IMS-2WWD-40
IMS-2WWD-40
IMS-2WWD-40
IMS-2WWD-40
IMS-2WWD-40
IMS-2WWD-40
IMS-2WWD-40
IMS-2WWD-40
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0.10
0.12
0.15
0.18
0.22
0.27
0.33
0.39
0.47
0.56
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42
42
42
42
42
42
42
42
41
39
36
35
25
25
25
25
25
25
25
25
25
25
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> 400
> 400
366
331
298
288
271
247
236
216
200
0.112
0.126
0.138
0.165
0.198
0.220
0.258
0.292
0.360
0.397
0.472
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1720
1630
1550
1420
1330
1230
1140
1060
960
915
840
720
> 1720
> 1630
> 1550
> 1420
> 1330
> 1230
> 1140
> 1060
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IMS-2WWD-40
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1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
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8.2
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± 10%
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± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
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42
38
38
38
36
38
38
40
42
42
45
47
51
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7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
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120
111
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94
85
78
73
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44
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0.265
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0.330
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2.58
3.65
1260
1210
1120
1080
1000
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875
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650
565
485
440
355
300
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Document Number 34047
Revision 02-Nov-01
PHENOLIC
MODEL
TEST SRF DCR RATED DC INCR.*
IND.
Q FREQ. MIN. MAX. CURRENT CURRENT
(μH) TOL. MIN. (MHz) (MHz) (Ohms) (mA)
(mA)
Inductance Tolerance: ± 10% Q-Meter.
Dielectric Strength: 700VRMS at sea level.
Operating Temperature: - 55°C to + 125°C.
Self-Resonant Frequency: Minimum SRF measured with
full length leads on Grid-Dip Meter.
Rating: Maximum current based on 1/3 watt dissipation.
MECHANICAL SPECIFICATIONS
Terminal Strength: Meets 5 pound pull test.
DENSITY SPECIFICATIONS
Weight: 0.50 gram maximum.
Shielding: Less than 3% coupling with two units mounted
side by side at 1000 cycles.
IRON
DIMENSIONS in inches [millimeters]
1.3 [33.02]
Typ. Min.
#24 .020 ± .002
[.508 ± .051] TCW
.335
[8.51]
Max.
.133
[3.38]
Max.
MARKING
— Color coded
FERRITE
620
200
44
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570
175
40
1.02
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545
160
36
1.12
IMS-2WWD-40 22 ± 10% 42 2.5
510
155
33
1.28
IMS-2WWD-40 27 ± 10% 37 2.5
440
150
30
1.70
IMS-2WWD-40 33 ± 10% 46 2.5
405
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26
1.99
IMS-2WWD-40 39 ± 10% 38 2.5
370
140
23
2.41
IMS-2WWD-40 47 ± 10% 42 2.5
340
130
22
2.85
IMS-2WWD-40 56 ± 10% 41 2.5
320
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18
3.21
IMS-2WWD-40 68 ± 10% 46 2.5
305
115
17
3.57
IMS-2WWD-40 82 ± 10% 46 2.5
280
100
15
4.10
IMS-2WWD-40 100 ± 10% 43 2.5
235
80
13
5.97
IMS-2WWD-40 120 ± 10% 50 0.79
215
68
12
7.05
IMS-2WWD-40 150 ± 10% 49 0.79
200
64
11
8.12
IMS-2WWD-40 180 ± 10% 56 0.79
150
60
10
14.8
IMS-2WWD-40 220 ± 10% 53 0.79
140
58
9
16.8
IMS-2WWD-40 270 ± 10% 57 0.79
130
56
IMS-2WWD-40 330 ± 10% 57 0.79 8.5 18.6
120
54
8
21.1
IMS-2WWD-40 390 ± 10% 57 0.79
100
52
7
32.2
IMS-2WWD-40 470 ± 10% 50 0.79
95
50
6
36.4
IMS-2WWD-40 560 ± 10% 50 0.79
90
48
IMS-2WWD-40 680 ± 10% 56 0.79 5.5 41.1
85
47
5
45.0
IMS-2WWD-40 820 ± 10% 49 0.79
80
45
IMS-2WWD-40 1000 ± 10% 49 0.79 4.5 52.0
*Incremental Current: The DC current required to cause a 5% reduction in
the nominal inductance value.
Classification is Grade 2, Class B.
Inductance range is 0.10μH to 1000μH.
High inductance-to-size ratio.
0.133" [3.38mm] diameter by 0.335" [8.51mm] length.
Subminiature shielded inductor.
Solves special problems in density circuit application.
ORDERING INFORMATION
IMS-2WWD-40
MODEL
For technical questions, contact [email protected]
0.10μH
INDUCTANCE
VALUE
± 10%
INDUCTANCE
TOLERANCE
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IMS-5WD-40
Vishay Dale
Inductors
Miniature, Shielded
FEATURES
• Miniature shielded inductor.
• High inductance-to-size ratio.
• Inductance range is 0.10μH to 180,000μH.
• Encapsulated non-flammable shielded unit.
• 0.164" [4.17mm] diameter by 0.450" [11.43mm] long envelope.
• Offers extremely high inductance for density packaging.
ELECTRICAL SPECIFICATIONS
Inductance Tolerance: ± 10% on Q-Meter for 0.10μH to 22μH.
± 5% on 1KC Bridge for 27μH to 1000μH.
± 10% on 1KC Bridge for 1200μH to 56,000μH.
± 20% on 1KC Bridge measured at point on leads 1/4"
[6.35mm] from body for 68,000μH to 180,000μH.
Dielectric Strength: 700V RMS at sea level.
Operating Temperature: - 55°C to + 125°C.
Self-Resonant Frequency: Minimum SRF measured
with full length leads on Grid-Dip Meter.
Q: Measured on Q-Meter.
Maximum Current: Based on temperature rise not to
exceed 40°C at + 85°C ambient.
MECHANICAL SPECIFICATIONS
Terminal Strength: Meets 5 pound pull test.
DENSITY SPECIFICATIONS
Weight: 0.75 gram maximum.
Shielding: Less than 3% coupling with two units mounted
side by side at 1000 cycles.
DIMENSIONS in inches [millimeters]
1.30 [33.02]
Typ. Min.
#24 0.020 ± 0.002
[0.508 ± 0.051] TCW
0.450
[11.43]
Max.
0.164 [4.17]
Max.
STANDARD ELECTRICAL SPECIFICATIONS
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
0.10
0.12
0.15
0.18
0.22
0.27
0.33
0.39
0.47
0.56
0.68
0.82
TOL.
Q
MIN.
TEST FREQ.
Q
(MHz)
SELF-RESONANT
FREQ. MIN.
(MHz)
DCR
MAX.
(Ohms)
RATED DC
CURRENT
(mA)
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
55
55
55
50
56
50
48
48
48
45
45
41
25
25
25
25
25
25
25
25
25
25
25
25
400
400
400
366
331
298
270
248
226
206
188
171
0.020
0.029
0.032
0.040
0.045
0.08
0.09
0.16
0.17
0.36
0.37
0.46
4000
3350
3000
2850
2700
2000
1900
1420
1400
960
940
870
INCREMENTAL*
CURRENT
(mA)
4000
3350
3000
2850
2700
2000
1900
1420
1400
960
940
870
PHENOLIC
MODEL
IND.
(μH)
*Incremental Current: The DC current required to cause a 5% reduction in the nominal inductance value.
www.vishay.com
26
For technical questions, contact [email protected]
Document Number 34051
Revision 02-Nov-01
IMS-5WD-40
Vishay Dale
Inductors, Miniature, Shielded
TOL.
Q
MIN.
TEST
FREQ.
(MHz)
SELF-RESONANT
FREQ. MIN.
(MHz)
DCR
MAX.
(Ohms)
RATED DC
CURRENT
(mA)
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
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
42
43
41
42
42
41
40
40
40
40
40
45
46
47
47
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
2.5
2.5
2.5
2.5
131
120
108
99
90
86
73
68
61
56
51
46
42
38
34
0.062
0.067
0.16
0.17
0.19
0.20
0.31
0.33
0.58
0.64
0.68
1.3
1.4
1.5
1.7
2300
2200
1420
1370
1300
1270
1030
1000
750
710
680
500
480
460
440
2300
2200
1420
1370
1300
1270
1030
1000
750
710
680
500
480
460
440
IRON
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
± 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%
45
47
42
43
45
46
40
40
42
63
62
63
60
57
52
50
43
66
64
71
67
62
52
51
51
50
51
52
48
48
48
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
43
38
35
32
30
26
24
22
14
12
11
10
9.2
8.8
8.0
7.2
6.8
6.4
6.0
5.2
4.8
4.5
1.2
1.2
1.1
1.0
0.94
0.84
0.77
0.67
0.65
0.88
0.95
1.15
1.2
1.6
1.8
2.2
2.3
2.4
2.6
2.9
3.3
3.6
4.1
4.8
5.6
6.2
10.0
11.5
12.0
13.8
16.0
18.2
23.7
30.2
33.7
43.1
48.7
62.7
70.5
104
610
590
530
520
450
420
390
375
360
345
330
315
300
280
260
240
230
180
170
160
150
140
135
118
105
99
87
82
72
68
56
235
220
200
193
183
177
170
165
160
157
145
126
110
105
91
87
72
67
65
60
55
52
50
48
42
37
33
30
29
28
24
FERRITE
STANDARD ELECTRICAL SPECIFICATIONS
IND.
(μH)
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
IMS-5WD-40
MODEL
INCREMENTAL*
CURRENT
(mA)
*Incremental Current: The DC current required to cause a 5% reduction in the nominal inductance value.
MARKING
ORDERING INFORMATION
— Model
— Inductance value
— Tolerance
— Date code
Document Number 34051
Revision 02-Nov-01
IMS-5WD-40
MODEL
For technical questions, contact [email protected]
0.10μH
INDUCTANCE
VALUE
± 10%
INDUCTANCE
TOLERANCE
www.vishay.com
27
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5HYLVLRQ02-Nov-01
IRF-24
Vishay Dale
Inductors
Epoxy Conformal Coated, Axial Leaded
FEATURES
STANDARD ELECTRICAL SPECIFICATIONS
SELFTEST RES.
RATED
FREQ. FREQ.
DCR
DC
Q
L&Q
MIN.
MAX. CURRENT
MIN. (MHz) (MHz) (Ohms)
(mA)
• High performance ferrite core is used in this epoxy conformally
coated choke which allows for inductance values to 1000μH.
• Axial lead type, small lightweight design.
• Special magnetic core structure contributes to high Q and
self-resonant frequencies.
• Treated with epoxy resin coating for humidity resistance to
ensure long life.
• Heat resistant adhesives.
ELECTRICAL SPECIFICATIONS
IND.
(μH)
TOL.
0.10
0.12
0.15
0.18
0.22
0.27
0.33
0.39
0.47
0.56
0.68
0.82
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
30
30
30
30
40
40
40
40
40
40
40
40
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
280
280
280
280
280
260
260
220
200
180
160
140
0.085
0.085
0.095
0.12
0.15
0.15
0.15
0.17
0.17
0.17
0.18
0.18
1400
1350
1270
1200
1150
1110
1110
1000
1000
950
900
900
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
± 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%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
40
50
50
50
50
50
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
135
135
130
125
80
80
70
65
45
40
30
28
22
20
16
15
13
11
10
9.5
8.5
7.5
6.5
6.0
5.5
0.18
0.18
0.20
0.23
0.25
0.28
0.30
0.32
0.35
0.40
0.45
0.56
0.72
0.80
0.88
1.0
1.2
1.35
1.50
1.70
2.30
2.60
2.90
3.20
3.70
815
740
700
655
630
595
575
555
530
500
470
425
370
350
335
315
285
270
255
240
205
195
185
175
165
Maximum Temperature Rise: + 20°C.
120
150
180
220
270
330
390
470
560
680
820
1000
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
60
60
60
60
60
60
60
60
60
60
60
50
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
5.4
4.75
4.35
4.0
3.7
3.4
2.8
2.56
2.35
2.0
1.60
1.15
3.80
4.90
5.0
6.50
7.5
9.5
10.5
17.5
18.5
20.0
23.7
30.0
160
150
140
130
120
100
95
90
85
75
65
60
ORDERING INFORMATION
Document Number 34056
Revision 07-Dec-01
Inductance Range: 0.1μH to 1000μH.
Inductance Tolerance: ± 10% from 0.1μH to 1000μH
standard, ± 5% optional.
Operating Temperature Range: - 20°C to + 105°C.
Dielectric Strength: 250V RMS.
MECHANICAL SPECIFICATIONS
Terminal Strength: Pull = 5 pounds. Twist = 360°C x 3.
Protection: Epoxy uniform roll coated.
Leads: Tinned copper.
ENVIRONMENTAL SPECIFICATIONS
DIMENSIONS in inches [millimeters]
C (Max.)
D
(Max.)
B
(Max.)
A (Max.)
0.98 [25.0]
Min.
1.22 [31.0]
Max.
MODEL
IRF-24
IRF-24
MODEL
A
(Max.)
B
(Max.)
C
(Max.)
D
(Max.)
0.157
[4.0]
0.118
[3.0]
0.394
[10.0]
0.020
[0.5]
6.8μH
INDUCTANCE
VALUE
For technical questions, contact [email protected]
± 10%
INDUCTANCE
TOLERANCE
www.vishay.com
33
IRF-36
Vishay Dale
Inductors
Epoxy Conformal Coated, Axial Leaded
FEATURES
STANDARD ELECTRICAL SPECIFICATIONS
TEST
FREQ.
Q
L&Q
MIN. (MHz)
SELFRES.
FREQ.
MIN.
(MHz)
RATED
DCR
DC
MAX. CURRENT
(Ω)
(mA)
• High performance ferrite core is used in this epoxy conformally
coated choke which allows for inductance values to 1000μH.
• Axial lead type, small lightweight design.
• Special magnetic core structure contributes to high Q and
self-resonant frequencies.
• Treated with epoxy resin coating for humidity resistance to
ensure long life.
• Heat resistant adhesives and special structural design for
effective open circuit measurement.
IND.
(μH)
TOL.
0.10
0.12
0.15
0.18
0.22
0.27
0.33
0.39
0.47
0.56
0.68
0.82
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
25
25
25
25
25
25
25
25
25
25
25
45
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
25.2
320
320
320
320
300
300
300
280
250
230
210
172
0.15
0.16
0.17
0.19
0.21
0.24
0.28
0.32
0.36
0.41
0.47
0.24
1750
1650
1560
1480
1400
1320
1280
1200
1150
1100
1030
980
Inductance Range: 0.1μH to 1000μH.
Inductance Tolerance: ± 10% from 0.1μH to 1000μH
standard, ± 5% optional.
Operating Temperature Range: - 20°C to + 105°C.
Dielectric Strength: 250V RMS.
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
± 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%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
45
50
50
55
55
60
65
65
70
70
75
70
70
70
70
65
40
55
55
50
45
40
40
35
30
25.2
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
2.52
140
140
131
121
110
100
94
86
80
74
68
53
45
34
20
14
9.9
7.6
6.3
6.3
6.3
6.2
5.7
5.3
4.8
0.24
0.27
0.30
0.32
0.35
0.35
0.35
0.37
0.39
0.43
0.48
0.52
0.58
0.63
0.72
0.77
0.84
0.94
1.03
1.12
1.22
1.34
1.47
1.62
1.80
920
880
830
790
750
720
670
640
620
590
550
530
500
480
460
430
410
390
370
350
340
320
306
290
275
Maximum Temperature Rise: + 20°C.
120
150
180
220
270
330
390
470
560
680
820
1000
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
± 5%, ± 10%
70
70
70
70
65
65
65
60
60
55
55
50
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
0.796
3.8
3.5
3.3
3.0
2.8
2.6
2.4
2.25
2.10
1.95
1.85
1.40
3.7
4.2
4.6
5.1
5.8
6.4
7.0
7.7
8.5
9.4
12.0
17.4
185
175
165
155
146
137
133
126
120
113
100
100
www.vishay.com
34
ELECTRICAL SPECIFICATIONS
MECHANICAL SPECIFICATIONS
Terminal Strength: Pull = 5 pounds. Twist = 360°C x 3.
Protection: Epoxy uniform roll coated.
Leads: Tinned copper.
ENVIRONMENTAL SPECIFICATIONS
DIMENSIONS in inches [millimeters]
C (Max.)
D
(Max.)
B
(Max.)
A (Max.)
0.98 [25.0]
Min.
1.22 [31.0]
Max.
MODEL
IRF-36
A
(Max.)
B
(Max.)
C
(Max.)
D
(Max.)
0.236
[6.0]
0.157
[4.0]
0.551
[14.0]
0.026
[0.65]
ORDERING INFORMATION
IRF-36
MODEL
4.7μH
INDUCTANCE
VALUE
For technical questions, contact [email protected].com
± 10%
INDUCTANCE
TOLERANCE
Document Number 34057
Revision 07-Dec-01
IRF-46
Vishay Dale
Inductors
Epoxy Conformal Coated, Axial Leaded
FEATURES
• Axial lead type, small lightweight design.
• Special magnetic core structure contributes to high Q and
self-resonant frequencies.
• Treated with epoxy resin coating for humidity resistance to
ensure long life.
• Heat resistant adhesives and special structural design for
effective open circuit measurement.
STANDARD ELECTRICAL SPECIFICATIONS
TEST
RATED
FREQ. DCR SRF
DC
Q
Q
MAX. MIN. CURRENT
MIN. (MHz)
(Ω) (MHz)
(mA)
ELECTRICAL SPECIFICATIONS
Inductance Range: 1000μH to 39,000μH.
Inductance Tolerance: ± 10% standard, ± 5% optional.
Operating Temperature Range: - 20°C to + 105°C.
Dielectric Strength: 250VRMS.
IND.
@ 1KHz
(μH)
TOL.
1000
± 5%, ± 10%
80
2.52
8
1.7
200
1200
± 5%, ± 10%
80
2.52
9
1.5
180
1500
± 5%, ± 10%
80
2.52
10
1.4
160
Terminal Strength: Pull = 5 pounds. Twist = 360°C x 3.
Protection: Epoxy uniform roll coated.
Leads: Tinned copper.
1800
± 5%, ± 10%
80
2.52
11
1.3
150
ENVIRONMENTAL SPECIFICATIONS
2200
± 5%, ± 10%
80
2.52
14
1.2
120
Maximum Temperature Rise: + 20°C.
2700
± 5%, ± 10%
80
2.52
18
1.0
110
3300
± 5%, ± 10%
80
2.52
22
0.9
105
3900
± 5%, ± 10%
80
2.52
26
0.8
100
C (Max.)
4700
± 5%, ± 10%
80
2.52
30
0.7
95
A (Max.)
5600
± 5%, ± 10%
60
2.52
34
0.7
80
6800
± 5%, ± 10%
60
2.52
48
0.5
75
8200
± 5%, ± 10%
60
2.52
62
0.5
70
10,000
± 5%, ± 10%
60
2.52
74
0.5
65
12,000
± 5%, ± 10%
50
2.52
88
0.4
60
15,000
± 5%, ± 10%
50
2.52
102
0.4
55
18,000
± 5%, ± 10%
40
0.0796
150
0.3
50
22,000
± 5%, ± 10%
40
0.0796
180
0.3
45
27,000
± 5%, ± 10%
40
0.0796
210
0.3
40
30,000
± 5%, ± 10%
40
0.0796
240
0.3
35
33,000
± 5%, ± 10%
40
0.0796
250
0.2
30
39,000
± 5%, ± 10%
40
0.0796
270
0.2
25
MECHANICAL SPECIFICATIONS
DIMENSIONS in inches [millimeters]
D
(Max.)
0.98 [25.0]
Min.
1.22 [31.0]
Max.
B
(Max.)
MODEL
IRF-46
A
(Max.)
B
(Max.)
C
(Max.)
D
(Max.)
0.236
[6.0]
0.197
[5.0]
0.551
[14.0]
0.026
[0.65]
ORDERING INFORMATION
IRF-46
15,000μH
± 10%
MODEL
INDUCTANCE VALUE
INDUCTANCE TOLERANCE
Document Number 34058
Revision 02-Nov-01
For technical questions, contact [email protected]
www.vishay.com
35
IRF-24, -36, -46
Vishay Dale
Packaging Specifications
REEL DIMENSIONS in millimeters
Marking
150
70
75
306
MARKING:
1. Product name
2. Quantity
PACKAGING UNIT (per reel):
5,000 pieces per reel.
TAPE DIMENSIONS in millimeters
6.0 ± 1.0
6.0 ± 1.0
A
1.0 Max.
0.5 Max.
2.5 Max.
1.0
Max.
Loose tape end
1.0 Max.
5.0 ± 0.5
B
TAPE DIMENSION
FOR INNER TAPE WIDTH OF 52mm
www.vishay.com
36
A
52 ± 1
B
26 ± 1
B
NOTES:
1. Color code in uniform direction is not specified.
2. Array of components is complete, none are missing.
For technical questions, contact [email protected]
Document Number 34059
Revision 02-Nov-01
IHD
Vishay Dale
Filter Inductors
High Current
FEATURES
•
•
•
•
•
Printed circuit mounting (axial leads).
Protected by polyolefin tubing.
High saturation bobbin used allowing high inductance with low DC resistance.
Pre-tinned leads.
High resistivity core offers very high parallel resistance, resulting in maximum
coil performance.
• 20 sleeveless models available at reduced cost.
ELECTRICAL SPECIFICATIONS
STANDARD ELECTRICAL SPECIFICATIONS
MODEL IHD-1
MODEL IHD-3
INCREINCRERATED MENTAL
RATED MENTAL
IND.
DCR CURRENT CURRENT IND.
DCR CURRENT CURRENT
@ 1kHz
MAX. (Max.
(Amps @ 1kHz
(Amps
MAX. (Max.
(μH) TOL. (Ohms) Amps) Approx.)
(μH) TOL. (Ohms) Amps) Approx.)
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
390
470
560
680
820
1000
1200
1500
1800
2200
2700
3300
3900
4700
5600
6800
8200
10000
12000
15000
18000
± 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%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
0.009
0.010
0.011
0.012
0.013
0.014
0.016
0.017
0.022
0.024
0.026
0.028
0.033
0.037
0.040
0.044
0.050
0.070
0.075
0.084
0.104
0.130
0.145
0.152
0.208
0.283
0.330
0.362
0.505
0.557
0.650
0.770
1.03
1.14
1.50
1.98
2.30
2.55
3.0
4.0
4.40
5.80
6.56
8.63
10.1
11.2
15.0
20.8
23.4
26.0
36.0
40.0
Document Number 34016
Revision 07-Dec-01
5.3
5.0
4.8
4.6
4.4
4.2
4.0
3.8
3.4
3.2
3.1
3.0
2.8
2.6
2.5
2.4
2.2
1.9
1.8
1.7
1.6
1.4
1.3
1.3
1.1
0.94
0.87
0.83
0.70
0.67
0.62
0.57
0.49
0.47
0.41
0.36
0.33
0.31
0.29
0.25
0.24
0.21
0.20
0.17
0.16
0.15
0.13
0.11
0.10
0.10
0.08
0.08
7.0
6.4
5.7
5.2
4.7
4.3
3.9
3.6
3.3
3.0
2.7
2.5
2.3
2.1
1.9
1.7
1.5
1.4
1.3
1.2
1.1
0.97
0.88
0.80
0.73
0.66
0.60
0.54
0.49
0.45
0.40
0.37
0.34
0.31
0.28
0.26
0.23
0.21
0.19
0.18
0.16
0.14
0.13
0.12
0.11
0.10
0.09
0.08
0.08
0.07
0.06
0.06
3.9 ± 15%
4.7 ± 15%
5.6 ± 15%
6.8 ± 15%
8.2 ± 15%
10.0 ± 15%
12.0 ± 15%
15.0 ± 15%
18.0 ± 15%
22.0 ± 15%
27.0 ± 15%
33.0 ± 15%
39.0 ± 15%
47.0 ± 15%
56.0 ± 15%
68.0 ± 15%
82.0 ± 15%
100.0 ± 15%
120.0 ± 15%
150.0 ± 15%
180.0 ± 15%
220.0 ± 15%
270.0 ± 15%
330.0 ± 15%
390.0 ± 15%
470.0 ± 15%
560.0 ± 15%
680.0 ± 15%
820.0 ± 15%
1000.0 ± 15%
1200.0 ± 15%
1500.0 ± 15%
1800.0 ± 15%
2200.0 ± 15%
2700.0 ± 15%
3300.0 ± 15%
3900.0 ± 15%
4700.0 ± 15%
5600.0 ± 15%
6800.0 ± 15%
8200.0 ± 15%
10000.0 ± 15%
12000.0 ± 15%
15000.0 ± 15%
18000.0 ± 15%
22000.0 ± 15%
27000.0 ± 15%
33000.0 ± 15%
39000.0 ± 15%
47000.0 ± 15%
56000.0 ± 15%
68000.0 ± 15%
82000.0 ± 15%
100000.0 ± 15%
0.007
0.008
0.011
0.011
0.013
0.016
0.018
0.020
0.022
0.024
0.025
0.028
0.031
0.034
0.043
0.059
0.066
0.084
0.113
0.129
0.150
0.162
0.226
0.257
0.288
0.393
0.504
0.570
0.643
0.844
0.977
1.18
1.50
1.76
2.13
2.53
2.84
3.79
4.24
5.75
6.44
7.30
9.34
10.7
14.8
18.0
22.7
25.7
29.7
33.7
38.0
52.8
67.3
76.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
3.2
2.5
2.0
1.6
1.6
1.6
1.6
1.6
1.6
1.6
1.6
1.2
1.0
1.0
0.80
0.80
0.60
0.60
0.60
0.50
0.40
0.40
0.40
0.40
0.32
0.25
0.25
0.25
0.20
0.20
0.16
0.13
0.13
0.13
0.10
0.10
0.10
0.08
0.07
0.07
8.2
7.5
6.9
6.3
5.7
5.2
4.7
4.3
3.9
3.5
3.2
2.9
2.7
2.5
2.3
2.1
1.9
1.7
1.6
1.4
1.3
1.2
1.1
0.95
0.88
0.80
0.74
0.67
0.61
0.56
0.51
0.46
0.42
0.38
0.34
0.31
0.29
0.26
0.24
0.22
0.20
0.18
0.17
0.15
0.14
0.12
0.11
0.10
0.09
0.09
0.08
0.07
0.07
0.06
Inductance: Measured at 1V with no DC
current.
Incremental Current: The typical current
at which the inductance will be decreased
by 5% from its initial zero DC value.
Dielectric Rating: 2500VRMS between
winding and outer circumference to within
0.250" [6.35mm] of the insulating sleeve
edge.
Operating Temperature:
- 55°C to + 125°C (no load).
- 55°C to + 85°C (at full rated current).
Current Rating: Maximum continuous.
Operating current (DC or RMS) based on a
40°C temperature rise.
MECHANICAL SPECIFICATIONS
Wire: Solid soft copper.
Terminals: 20 AWG tinned copper leads.
Coating: Polyolefin tubing - flame
retardant UL type VW-1 per MIL-I-23053/5,
Class 3 requirements.
Core Material: Ferrite.
DIMENSIONS in inches [millimeters]
B Max.
1.13 [28.70]
Min. Typ.
0.032 [0.813]
Dia. Typ.
A Dia.
Max.
MODEL
#20 AWG
A (Max.)
B (Max.)
IHD-1
0.270 [6.85]
0.700 [17.78]
IHD-3
0.460 [11.68]
0.900 [22.86]
MARKING
— Vishay Dale
— Model
— Value
— Date code
ORDERING INFORMATION
IHD-1
MODEL
For technical questions, contact [email protected]
3.9μH
INDUCTANCE
VALUE
± 15%
INDUCTANCE
TOLERANCE
www.vishay.com
37
IHA
Vishay Dale
Filter Inductors
High Current
FEATURES
• Printed circuit mounting (axial leads).
• Pre-tinned leads.
• Low cost construction.
• Protected by polyolefin tubing - flame retardant UL type
VW-1 per MIL-I-23053/5, Class 3 requirements.
STANDARD ELECTRICAL SPECIFICATIONS
MODEL
IND.
@ 1kHz
(μH)
IHA-101
IHA-102
IHA-103
IHA-104
IHA-105
TOL.
DCR
MAX.
(Ohms)
RATED
CURRENT
(Max. Amps)
50
100
250
500
1000
± 10%
± 10%
± 10%
± 10%
± 10%
0.12
0.16
0.28
0.42
0.60
2.5
2.1
1.8
1.6
1.4
IHA-201
IHA-202
IHA-203
IHA-204
IHA-205
27
50
100
250
500
± 10%
± 10%
± 10%
± 10%
± 10%
0.060
0.085
0.12
0.20
0.32
3.7
3.1
2.7
2.4
2.3
IHA-301
IHA-302
IHA-303
IHA-304
IHA-305
5
10
27
50
100
± 10%
± 10%
± 10%
± 10%
± 10%
0.015
0.021
0.040
0.050
0.070
6.8
6.1
4.8
4.3
4.2
IHA-501
IHA-502
IHA-503
IHA-504
IHA-505
5
10
27
50
100
± 10%
± 10%
± 10%
± 10%
± 10%
0.010
0.015
0.030
0.040
0.060
9.3
8.3
6.5
6.1
5.9
ELECTRICAL SPECIFICATIONS
Inductance: Measured at 1V with no DC current.
Current Rating: Maximum continuous operating current
(DC or RMS) based on 50°C temperature rise.
Dielectric Rating: 2500VRMS, 60Hz, applied for one
minute between winding and outer circumference to within
0.250" [6.35mm] of the insulation sleeve edge.
Operating Temperature: - 55°C to + 125°C (no load).
- 55°C to + 75°C (at full rated current).
MECHANICAL SPECIFICATIONS
Winding: Layered solenoid type.
Wire: Solid soft copper.
Terminals: Tinned copper leads.
Encapsulant: Polyolefin tubing.
Core Material: Ferrite.
APPLICATIONS
Noise filtering for switching regulators, power amplifiers,
power supplies and SCR and Triac control circuits.
MARKING
1.25 [31.75]
Min. Typ.
B
Max.
.125
[3.18]
C Typ.
A Max.
SCHEMATIC
MODEL
A
(Max.)
B
(Max.)
± 0.002 [0.050]
IHA-101
IHA-102
IHA-103
IHA-104
IHA-105
0.475 [12.07]
0.475 [12.07]
0.475 [12.07]
0.550 [13.97]
0.550 [13.97]
0.800 [20.32]
0.800 [20.32]
1.05 [26.67]
1.05 [26.67]
1.175 [29.85]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
IHA-201
IHA-202
IHA-203
IHA-204
IHA-205
0.500 [12.70]
0.500 [12.70]
0.500 [12.70]
0.600 [15.24]
0.750 [19.05]
0.800 [20.32]
0.800 [20.32]
0.920 [23.37]
0.920 [23.37]
1.05 [26.67]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
IHA-301
IHA-302
IHA-303
IHA-304
IHA-305
0.475 [12.07]
0.475 [12.07]
0.550 [13.97]
0.550 [13.97]
0.550 [13.97]
0.800 [20.32]
0.920 [23.37]
0.800 [20.32]
0.920 [23.37]
1.175 [29.85]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
IHA-501
IHA-502
IHA-503
IHA-504
IHA-505
0.475 [12.07]
0.475 [12.07]
0.700 [17.78]
0.700 [17.78]
0.700 [17.78]
1.05 [26.67]
1.05 [26.67]
1.05 [26.67]
1.05 [26.67]
1.30 [33.02]
0.040 [1.02]
0.040 [1.02]
0.040 [1.02]
0.040 [1.02]
0.040 [1.02]
C
ORDERING INFORMATION
— Vishay Dale
— Model
— Date code
www.vishay.com
38
DIMENSIONS in inches [millimeters]
IHA-101
MODEL
50μH
INDUCTANCE
VALUE
For technical questions, contact [email protected]
± 10%
INDUCTANCE
TOLERANCE
Document Number 34014
Revision 02-Nov-01
IH
Vishay Dale
Filter Inductors
High Current
FEATURES
• Printed circuit mounting.
• Pre-tinned leads.
• Protected by polyolefin tubing - flame retardant UL type VW1 per MIL-I-23053/5, Class 3 requirements.
APPLICATIONS
Noise filtering for switching regulators, power amplifiers,
power supplies and SCR and Triac control circuits.
ELECTRICAL SPECIFICATIONS
Inductance: Measured at 1.0V with zero DC current.
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 + 75°C (at full rated current).
STANDARD ELECTRICAL SPECIFICATIONS
IND.
@ 1 kHz
MODEL (μH)
TOL.
DCR
MAX.
(Ohms)
5
10
27
50
100
150
250
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
0.015
0.018
0.035
0.050
0.065
0.075
0.090
10.0
9.0
7.0
5.6
5.2
5.0
5.0
25
19
12
8
6
5
4
IH-5
IH-5
IH-5
IH-5
IH-5
IH-5
IH-5
5
10
27
50
68
100
150
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
0.012
0.015
0.025
0.030
0.035
0.050
0.060
14.0
12.0
9.0
8.0
7.5
7.5
7.0
25
19
13
10
9
7
5
IH-10
IH-10
IH-10
IH-10
IH-10
IH-10
5
10
27
50
68
100
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
0.010
0.012
0.018
0.025
0.027
0.030
19.0
16.0
12.5
11.0
10.0
10.0
25
19
12
10
8
7
IH-15
IH-15
IH-15
IH-15
5
10
27
50
± 10%
± 10%
± 10%
± 10%
0.008
0.010
0.015
0.020
24.0
20.0
16.0
15.0
25
19
14
10
MARKING
— Vishay Dale
— Model
— Inductance value
— Date code
ORDERING INFORMATION
10μH
INDUCTANCE
VALUE
Document Number 34013
Revision 02-Nov-01
MECHANICAL SPECIFICATIONS
Wire: Solid soft copper.
Terminals: Extensions of the winding.
Core Material: Ferrite.
Coating: Polyolefin tubing.
DIMENSIONS in inches [millimeters]
RATED
INCREMENTAL
CURRENT
CURRENT
(Max. Amps)
(Amps)
IH-3
IH-3
IH-3
IH-3
IH-3
IH-3
IH-3
IH-5
MODEL
Current Rating: Maximum continuous operating
current (DC or RMS) based on a 50°C temperature rise.
± 10%
INDUCTANCE
TOLERANCE
A
B
1.0 ± .125
[25.40 ± 3.18]
Schematic
C
IND.
MODEL (μH)
D
Leads tinned
to within
.125 [3.18]
A
(Max.)
B
(Max.)
C
D
± 0.062 [1.57] ± 0.005 [0.127]
IH-3
IH-3
IH-3
IH-3
IH-3
IH-3
IH-3
5
10
27
50
100
150
250
0.875 [22.23]
1.125 [28.58]
0.875 [22.23]
0.875 [22.23]
1.125 [28.58]
1.375 [34.93]
1.625 [41.28]
0.600 [15.24]
0.625 [15.88]
0.800 [20.32]
0.800 [20.32]
0.800 [20.32]
0.800 [20.32]
0.800 [20.32]
0.500 [12.70]
0.687 [17.45]
0.437 [11.10]
0.750 [19.05]
0.937 [23.80]
1.062 [26.97]
1.312 [33.32]
0.042 [1.067]
0.042 [1.067]
0.042 [1.067]
0.042 [1.067]
0.042 [1.067]
0.042 [1.067]
0.042 [1.067]
IH-5
IH-5
IH-5
IH-5
IH-5
IH-5
IH-5
5
10
27
50
68
100
150
0.875 [22.23]
1.125 [28.58]
0.875 [22.23]
1.125 [28.58]
1.125 [28.58]
1.375 [34.93]
1.625 [41.28]
0.625 [15.88]
0.625 [15.88]
0.840 [21.34]
0.840 [21.34]
0.860 [21.84]
0.860 [21.84]
0.860 [21.84]
0.750 [19.05]
1.0 [25.40]
0.562 [14.27]
0.750 [19.05]
0.875 [22.23]
1.0 [25.40]
1.250 [31.75]
0.053 [1.35]
0.053 [1.35]
0.053 [1.35]
0.053 [1.35]
0.053 [1.35]
0.053 [1.35]
0.053 [1.35]
IH-10
IH-10
IH-10
IH-10
IH-10
IH-10
5
10
27
50
68
100
1.125 [28.58]
1.375 [34.93]
1.125 [28.58]
1.375 [34.93]
1.375 [34.93]
1.625 [41.28]
0.635 [16.13]
0.635 [16.13]
0.935 [23.75]
0.935 [23.75]
0.935 [23.75]
0.935 [23.75]
0.812 [20.62]
1.218 [30.94]
0.687 [17.45]
0.937 [23.80]
1.125 [28.58]
1.312 [33.32]
0.065 [1.65]
0.065 [1.65]
0.065 [1.65]
0.065 [1.65]
0.065 [1.65]
0.065 [1.65]
IH-15
IH-15
IH-15
IH-15
5
10
27
50
1.375 [34.93] 0.700 [17.78] 0.937 [23.80]
1.687 [42.85] 0.700 [17.78] 1.50 [38.10]
1.375 [34.93] 1.0 [25.40] 0.937 [23.80]
1.625 [41.28] 1.0 [25.40] 1.125 [28.58]
0.082 [2.08]
0.082 [2.08]
0.082 [2.08]
0.082 [2.08]
For technical questions, contact [email protected]
www.vishay.com
39
IHM-2
Vishay Dale
Filter Inductors
High Current
FEATURES
• Totally encapsulated using a potted flame-resistant shell.
• Pre-tinned leads.
• Printed circuit mounting.
STANDARD ELECTRICAL SPECIFICATIONS
IND.
@ 1kHz
(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
1200.0
1500.0
1800.0
2200.0
2700.0
3300.0
3900.0
4700.0
5600.0
6800.0
8200.0
10000.0
12000.0
15000.0
www.vishay.com
40
TOLERANCE
DCR
MAXIMUM
(Ohms)
RATED
CURRENT
(Max. Amps)
± 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%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
0.005
0.005
0.006
0.006
0.007
0.008
0.008
0.009
0.010
0.011
0.012
0.013
0.014
0.016
0.022
0.024
0.033
0.037
0.051
0.056
0.076
0.084
0.093
0.103
0.140
0.175
0.210
0.241
0.330
0.420
0.510
0.561
0.610
0.687
0.910
1.03
1.40
1.57
2.20
2.42
3.30
3.72
5.10
5.58
7.70
8.32
11.70
12.80
14.20
15.70
21.90
17.8
17.0
16.2
15.6
15.0
14.5
14.0
13.5
13.0
12.75
12.50
11.25
10.0
9.25
8.50
7.50
6.50
6.0
5.50
5.0
4.50
4.25
4.0
3.65
3.30
3.0
2.70
2.45
2.20
1.95
1.70
1.65
1.60
1.45
1.30
1.15
1.0
0.92
0.84
0.77
0.69
0.62
0.55
0.50
0.45
0.41
0.36
0.35
0.33
0.30
0.26
ELECTRICAL SPECIFICATIONS
Inductance: Measured at 1V with no DC current.
Current Rating: Maximum continuous operating current
based on 50°C temperature rise.
Dielectric Rating: 1500VRMS between windings and top
of component.
Operating Temperature: - 55°C to + 125°C (no load).
- 55°C to + 75°C (at full rated current).
MECHANICAL SPECIFICATIONS
Terminals: 18 AWG tinned copper.
Encapsulant: Flame-resistant shell potted with epoxy.
Core Material: Ferrite.
DIMENSIONS in inches [millimeters]
0.500 ± 0.015
[12.70 ± 0.381]
1.0 ± 0.015
[25.40 ± 0.381]
0.560 [14.22]
Max.
0.150 [3.81]
0.125 [3.18]
0.020 [0.508]
Min. Typ.
0.500 ± 0.015
[12.70 ± 0.381]
0.250 ± 0.015
[6.35 ± 0.381]
0.040 ± 0.001
[1.02 ± 0.025]
Dia.
0.250 ± 0.010
[6.35 ± 0.254]
#18 AWG
MARKING
— Vishay Dale
— Model
— Value
— Date code
ORDERING INFORMATION
IHM-2
MODEL
10μH
INDUCTANCE
VALUE
For technical questions, contact [email protected]
± 10%
INDUCTANCE TOLERANCE
Document Number 34017
Revision 02-Nov-01
IHB
Vishay Dale
Filter Inductors
High Current
FEATURES
•
•
•
•
ELECTRICAL SPECIFICATIONS
Inductance: Measured at 1V with no DC current.
Dielectric: 2500VRMS between winding and 0.250"
[6.35mm] of insulating covering edge (with optional insulating
covering).
Current Rating: Maximum continuous operating current
based on a + 50°C temperature rise.
Printed circuit mounting.
Wide range of inductance and current ratings.
Pre-tinned leads.
Optional polyolefin tubing and printing available at
additional cost.
Operating Temperature: - 55°C to + 130°C (no load).
- 55°C to + 80°C (at full rated current).
MECHANICAL SPECIFICATIONS
Terminals: Extensions of winding wire, solder coated to
within 0.063" [1.60mm] of body.
Mounting: Center hole for mechanical mounting. Insulated
bushings recommended for center hole mounting.
DIMENSIONS in inches [milimeters]
D Dia.
B
.500 ± .062
[12.70 ± 1.57]
E*
C Dia.
A
Dia.
A
(Max.)
MODEL
B
(Max.)
C
(Min.)
D
(Min.)
IHB-1
0.660 [16.76]
0.840 [21.34]
0.162 [4.11]
IHB-2
0.825 [20.96]
0.840 [21.34]
0.162 [4.11]
IHB-3
1.10 [27.94]
0.840 [21.34]
0.162 [4.11]
IHB-4
1.60 [40.64]
0.250 [6.35]
1.03 [26.16]
IHB-5
1.60 [40.64]
1.45 [36.83]
0.250 [6.35]
IHB-6
2.0 [50.80]
1.50 [38.10]
0.330 [8.38]
*E varies between components. See individual model specifications for details. Tolerance of ± 0.035.
0.115 [2.92]
0.115 [2.92]
0.115 [2.92]
0.175 [4.45]
0.175 [4.45]
0.240 [6.10]
STANDARD ELECTRICAL SPECIFICATIONS
IND.
@ 1kHz
(μH)
TOL.
DCR
MAX.
RATED
CURRENT
(Ohms)
(Amps)
APPROX.
LEAD “E”
SPACING
IND.
@ 1kHz
TOL.
(μH)
DCR
MAX.
RATED
CURRENT
(Ohms)
(Amps)
APPROX.
LEAD “E”
SPACING
IND.
@ 1kHz
(μH)
68.0
82.0
100.0
120.0
150.0
180.0
220.0
270.0
330.0
390.0
470.0
560.0
DCR
MAX.
TOL. (Ohms)
RATED
CURRENT
(Amps)
APPROX.
LEAD “E”
SPACING
2.8
2.8
2.8
2.0
1.6
1.6
1.6
1.6
1.3
1.0
0.8
0.8
0.500 [12.70]
0.500 [12.70]
0.500 [12.70]
0.500 [12.70]
0.500 [12.70]
0.500 [12.70]
0.500 [12.70]
0.480 [12.19]
0.480 [12.19]
0.480 [12.19]
0.475 [12.07]
0.475 [12.07]
MODEL IHB-1
1.0
± 20% 0.003
9.0
0.550 [13.97]
8.2
± 20% 0.009
9.0
0.550 [13.97]
1.2
± 20% 0.003
9.0
0.550 [13.97]
10.0
± 10% 0.010
9.0
0.550 [13.97]
1.5
± 20% 0.004
9.0
0.550 [13.97]
12.0
± 10% 0.011
9.0
0.550 [13.97]
1.8
± 20% 0.004
9.0
0.550 [13.97]
15.0
± 10% 0.015
7.2
0.500 [12.70]
2.2
± 20% 0.005
9.0
0.550 [13.97]
18.0
± 10% 0.016
7.2
0.500 [12.70]
2.7
± 20% 0.005
9.0
0.550 [13.97]
22.0
± 10% 0.020
5.5
0.500 [12.70]
3.3
± 20% 0.005
9.0
0.550 [13.97]
27.0
± 10% 0.030
4.5
0.500 [12.70]
3.9
± 20% 0.006
9.0
0.550 [13.97]
33.0
± 10% 0.040
4.0
0.475 [12.07]
4.7
± 20% 0.007
9.0
0.550 [13.97]
39.0
± 10% 0.046
4.0
0.475 [12.07]
5.6
± 20% 0.007
9.0
0.550 [13.97]
47.0
± 10% 0.062
2.8
0.470 [11.94]
6.8
± 20% 0.008
9.0
0.550 [13.97]
56.0
± 10% 0.069
2.8
0.470 [11.94]
Document Number 34015
Revision 02-Nov-01
For technical questions, contact [email protected]
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
0.077
0.083
0.095
0.127
0.181
0.217
0.240
0.300
0.336
0.460
0.636
0.696
www.vishay.com
41
IHB
Vishay Dale
Filter Inductors, High Current
STANDARD ELECTRICAL SPECIFICATIONS
IND.
@ 1kHz
(μH)
DCR
RATED
MAX. CURRENT
TOL.
(Ohms)
(Amps)
APPROX.
LEAD “E”
SPACING
IND.
@ 1kHz
(μH)
(Amps)
APPROX.
LEAD “E”
SPACING
IND.
@ 1kHz
(μH)
TOL.
(Ohms)
(Amps)
APPROX.
LEAD “E”
SPACING
DCR
RATED
MAX. CURRENT
TOL.
(Ohms)
DCR
RATED
MAX. CURRENT
MODEL IHB-2
1.0
± 20%
0.003
11.4
0.620 [15.75]
15.0
± 10% 0.013
9.0
0.620 [15.75]
220.0
± 10%
0.150
2.8
0.600 [15.24]
1.2
± 20%
0.003
11.4
0.620 [15.75]
18.0
± 10% 0.018
7.2
0.615 [15.62]
270.0
± 10%
0.213
2.0
0.600 [15.24]
1.5
± 20%
0.003
11.4
0.620 [15.75]
22.0
± 10% 0.019
7.2
0.615 [15.62]
330.0
± 10%
0.305
1.6
0.600 [15.24]
1.8
± 20%
0.003
11.4
0.620 [15.75]
27.0
± 10% 0.026
5.5
0.575 [14.61]
390.0
± 10%
0.320
1.6
0.600 [15.24]
2.2
± 20%
0.004
11.4
0.620 [15.75]
33.0
± 10% 0.029
5.5
0.575 [14.61]
470.0
± 10%
0.355
1.6
0.590 [14.99]
2.7
± 20%
0.005
11.4
0.620 [15.75]
39.0
± 10% 0.030
5.5
0.600 [15.24]
560.0
± 10%
0.388
1.6
0.590 [14.99]
3.3
± 20%
0.005
11.4
0.620 [15.75]
47.0
± 10% 0.035
5.5
0.600 [15.24]
680.0
± 10%
0.430
1.6
0.590 [14.99]
3.9
± 20%
0.005
11.4
0.620 [15.75]
56.0
± 10% 0.039
5.5
0.600 [15.24]
820.0
± 10%
0.590
1.3
0.590 [14.99]
4.7
± 20%
0.005
11.4
0.620 [15.75]
68.0
± 10% 0.053
4.8
0.600 [15.24] 1000.0
± 10%
0.818
1.0
0.590 [14.99]
5.6
± 20%
0.006
11.4
0.620 [15.75]
82.0
± 10% 0.060
4.8
0.600 [15.24] 1200.0
± 10%
1.14
0.8
0.590 [14.99]
6.8
± 20%
0.007
11.4
0.620 [15.75]
100.0
± 10% 0.080
4.0
0.600 [15.24] 1500.0
± 10%
1.26
0.8
0.590 [14.99]
8.2
± 20%
0.007
11.4
0.620 [15.75]
120.0
± 10% 0.090
4.0
0.600 [15.24] 1800.0
± 10%
1.39
0.8
0.590 [14.99]
10.0
± 10%
0.009
11.4
0.620 [15.75]
150.0
± 10% 0.098
4.0
0.600 [15.24] 2200.0
± 10%
1.54
0.8
0.590 [14.99]
12.0
± 10%
0.009
11.4
0.620 [15.75]
180.0
± 10% 0.110
4.0
0.600 [15.24]
MODEL IHB-3
1.0
± 20%
0.003
21.0
0.790 [20.07]
18.0
± 10% 0.010
13.5
0.750 [19.05]
330.0
± 10%
0.122
4.5
0.770 [19.56]
1.2
± 20%
0.003
21.0
0.790 [20.07]
22.0
± 10% 0.011
13.5
0.750 [19.05]
390.0
± 10%
0.169
4.0
0.740 [18.80]
1.5
± 20%
0.003
21.0
0.790 [20.07]
27.0
± 10% 0.012
13.5
0.800 [20.32]
470.0
± 10%
0.187
4.0
0.740 [18.80]
1.8
± 20%
0.003
21.0
0.790 [20.07]
33.0
± 10% 0.017
13.5
0.780 [19.81]
560.0
± 10%
0.205
4.0
0.740 [18.80]
2.2
± 20%
0.003
21.0
0.790 [20.07]
39.0
± 10% 0.022
11.4
0.780 [19.81]
680.0
± 10%
0.256
2.8
0.725 [18.42]
2.7
± 20%
0.003
21.0
0.790 [20.07]
47.0
± 10% 0.024
9.0
0.760 [19.30]
820.0
± 10%
0.288
2.8
0.725 [18.42]
3.3
± 20%
0.003
21.0
0.790 [20.07]
56.0
± 10% 0.026
9.0
0.760 [19.30] 1000.0
± 10%
0.426
2.0
0.715 [18.16]
3.9
± 20%
0.003
21.0
0.790 [20.07]
68.0
± 10% 0.029
9.0
0.760 [19.30] 1200.0
± 10%
0.462
2.0
0.760 [19.30]
4.7
± 20%
0.003
21.0
0.790 [20.07]
82.0
± 10% 0.032
9.0
0.760 [19.30] 1500.0
± 10%
0.518
2.0
0.760 [19.30]
5.6
± 20%
0.003
21.0
0.790 [20.07]
100.0
± 10% 0.034
9.0
0.760 [19.30] 1800.0
± 10%
0.705
1.6
0.740 [18.80]
6.8
± 20%
0.004
21.0
0.790 [20.07]
120.0
± 10% 0.046
7.2
0.740 [18.80] 2200.0
± 10%
1.02
1.3
0.720 [18.29]
8.2
± 20%
0.004
21.0
0.790 [20.07]
150.0
± 10% 0.064
5.5
0.720 [18.29] 2700.0
± 10%
1.14
1.3
0.720 [18.29]
10.0
± 10%
0.006
17.0
0.770 [19.56]
180.0
± 10% 0.072
5.5
0.720 [18.29] 3300.0
± 10%
1.27
1.3
0.720 [18.29]
12.0
± 10%
0.008
13.5
0.750 [19.05]
220.0
± 10% 0.080
5.5
0.790 [20.07] 3900.0
± 10%
1.67
1.0
0.700 [17.78]
15.0
± 10%
0.009
13.5
0.750 [19.05]
270.0
± 10% 0.110
4.5
0.770 [19.56] 4700.0
± 10%
1.86
1.0
0.730 [18.54]
MODEL IHB-4
1.8
± 20%
0.002
27.0
1.10 [27.94]
39.0
± 10% 0.012
21.0
1.10 [27.94]
820.0
± 10%
0.154
7.2
1.13 [28.70]
2.2
± 20%
0.002
27.0
1.10 [27.94]
47.0
± 10% 0.018
14.4
1.10 [27.94]
1000.0
± 10%
0.216
5.5
1.10 [27.94]
2.7
± 20%
0.003
27.0
1.10 [27.94]
56.0
± 10% 0.019
14.4
1.11 [28.19]
1200.0
± 10%
0.232
5.5
1.10 [27.94]
3.3
± 20%
0.003
27.0
1.10 [27.94]
68.0
± 10% 0.021
14.4
1.11 [28.19]
1500.0
± 10%
0.324
4.5
1.14 [28.96]
3.9
± 20%
0.003
27.0
1.10 [27.94]
82.0
± 10% 0.023
14.4
1.11 [28.19]
1800.0
± 10%
0.360
4.5
1.14 [28.96]
4.7
± 20%
0.003
27.0
1.10 [27.94]
100.0
± 10% 0.025
14.4
1.11 [28.19]
2200.0
± 10%
0.494
4.0
1.11 [28.19]
5.6
± 20%
0.004
27.0
1.10 [27.94]
120.0
± 10% 0.028
14.4
1.11 [28.19]
2700.0
± 10%
0.555
4.0
1.11 [28.19]
6.8
± 20%
0.004
27.0
1.10 [27.94]
150.0
± 10% 0.040
11.4
1.10 [27.94]
3300.0
± 10%
0.773
2.8
1.09 [27.69]
8.2
± 20%
0.004
27.0
1.10 [27.94]
180.0
± 10% 0.045
11.4
1.10 [27.94]
3900.0
± 10%
0.845
2.8
1.09 [27.69]
10.0
± 10%
0.005
27.0
1.10 [27.94]
220.0
± 10% 0.050
11.4
1.10 [27.94]
4700.0
± 10%
1.14
2.0
1.07 [27.18]
12.0
± 10%
0.005
27.0
1.10 [27.94]
270.0
± 10% 0.056
11.4
1.10 [27.94]
5600.0
± 10%
1.60
2.0
1.05 [26.67]
15.0
± 10%
0.006
27.0
1.10 [27.94]
330.0
± 10% 0.074
11.4
1.16 [29.46]
6800.0
± 10%
1.76
1.6
1.05 [26.67]
18.0
± 10%
0.008
27.0
1.10 [27.94]
390.0
± 10% 0.082
9.0
1.13 [28.70]
8200.0
± 10%
1.95
1.6
1.09 [27.69]
22.0
± 10%
0.009
21.0
1.10 [27.94]
470.0
± 10% 0.114
7.2
1.13 [28.70]
10000.0 ± 10%
2.76
1.3
1.07 [27.18]
27.0
± 10%
0.010
21.0
1.10 [27.94]
560.0
± 10% 0.125
7.2
1.13 [28.70]
12000.0 ± 10%
3.04
1.3
1.07 [27.18]
33.0
± 10%
0.011
21.0
1.10 [27.94]
680.0
± 10% 0.139
7.2
1.13 [28.70]
15000.0 ± 10%
3.39
1.3
1.07 [27.18]
www.vishay.com
42
For technical questions, contact [email protected]
Document Number 34015
Revision 02-Nov-01
IHB
Vishay Dale
Filter Inductors, High Current
STANDARD ELECTRICAL SPECIFICATIONS
IND.
@ 1kHz
(μH)
TOL.
(Amps)
APPROX.
LEAD “E”
SPACING
IND.
@ 1kHz
(μH)
DCR
MAX.
RATED
CURRENT
(Ohms)
TOL.
DCR
MAX.
RATED
CURRENT
(Ohms)
(Amps)
APPROX.
LEAD “E”
SPACING
IND.
@ 1kHz
(μH)
TOL.
DCR
MAX.
RATED
CURRENT
(Ohms)
(Amps)
APPROX.
LEAD “E”
SPACING
MODEL IHB-5
1.8
± 20% 0.002
35.0
1.13 [28.70]
39.0
± 10% 0.010
27.0
1.10 [27.94]
820.0
± 10% 0.127
9.0
1.07 [27.18]
2.2
± 20% 0.002
35.0
1.13 [28.70]
47.0
± 10% 0.011
27.0
1.10 [27.94]
1000.0
± 10% 0.176
7.2
1.05 [26.67]
2.7
± 20% 0.002
35.0
1.13 [28.70]
56.0
± 10% 0.013
21.0
1.10 [27.94]
1200.0
± 10% 0.195
7.2
1.05 [26.67]
3.3
± 20% 0.002
35.0
1.13 [28.70]
68.0
± 10% 0.015
21.0
1.10 [27.94]
1500.0
± 10% 0.274
5.5
1.03 [26.16]
3.9
± 20% 0.003
35.0
1.13 [28.70]
82.0
± 10% 0.017
21.0
1.10 [27.94]
1800.0
± 10% 0.302
5.5
1.10 [27.94]
4.7
± 20% 0.003
35.0
1.13 [28.70]
100.0
± 10% 0.018
21.0
1.10 [27.94]
2200.0
± 10% 0.338
5.5
1.10 [27.94]
5.6
± 20% 0.003
35.0
1.13 [28.70]
120.0
± 10% 0.022
17.0
1.08 [27.43]
2700.0
± 10% 0.459
4.5
1.08 [27.43]
6.8
± 20% 0.003
35.0
1.13 [28.70]
150.0
± 10% 0.025
17.0
1.08 [27.43]
3300.0
± 10% 0.642
4.0
1.06 [26.92]
8.2
± 20% 0.003
35.0
1.13 [28.70]
180.0
± 10% 0.035
13.5
1.12 [28.45]
3900.0
± 10% 0.699
4.0
1.06 [26.92]
10.0
± 10% 0.004
35.0
1.13 [28.70]
220.0
± 10% 0.040
13.5
1.12 [28.45]
4700.0
± 10% 0.775
4.0
1.06 [26.92]
12.0
± 10% 0.004
35.0
1.13 [28.70]
270.0
± 10% 0.044
13.5
1.12 [28.45]
5600.0
± 10% 0.843
4.0
1.06 [26.92]
15.0
± 10% 0.005
35.0
1.13 [28.70]
330.0
± 10% 0.049
13.5
1.12 [28.45]
6800.0
± 10%
1.15
2.8
1.04 [26.42]
18.0
± 10% 0.007
27.0
1.10 [27.94]
390.0
± 10% 0.070
11.4
1.09 [27.69]
8200.0
± 10%
1.26
2.8
1.09 [27.69]
22.0
± 10% 0.007
27.0
1.10 [27.94]
470.0
± 10% 0.078
11.4
1.09 [27.69] 10000.0 ± 10%
1.74
2.0
1.07 [27.18]
27.0
± 10% 0.008
27.0
1.10 [27.94]
560.0
± 10% 0.105
9.0
1.07 [27.18] 12000.0 ± 10%
1.92
2.0
1.07 [27.18]
33.0
± 10% 0.009
27.0
1.10 [27.94]
680.0
± 10% 0.115
9.0
1.07 [27.18] 15000.0 ± 10%
2.17
2.0
1.07 [27.18]
MODEL IHB-6
4.7
± 20% 0.002
35.0
1.43 [36.32]
120.0
± 10% 0.015
27.0
1.45 [36.83]
3300.0
± 10% 0.498
4.5
1.32 [33.53]
5.6
± 20% 0.002
35.0
1.43 [36.32]
150.0
± 10% 0.023
21.0
1.41 [35.81]
3900.0
± 10% 0.548
4.5
1.32 [33.53]
6.8
± 20% 0.003
35.0
1.43 [36.32]
180.0
± 10% 0.025
21.0
1.41 [35.81]
4700.0
± 10% 0.608
4.5
1.32 [33.53]
8.2
± 20% 0.003
35.0
1.43 [36.32]
220.0
± 10% 0.028
21.0
1.41 [35.81]
5600.0
± 10% 0.671
4.5
1.38 [35.05]
10.0
± 10% 0.003
35.0
1.43 [36.32]
270.0
± 10% 0.030
21.0
1.41 [35.81]
6800.0
± 10% 0.750
4.5
1.38 [35.05]
12.0
± 10% 0.004
35.0
1.43 [36.32]
330.0
± 10% 0.040
17.0
1.38 [35.05]
8200.0
± 10%
1.03
4.0
1.35 [34.29]
15.0
± 10% 0.004
35.0
1.43 [36.32]
390.0
± 10% 0.055
13.5
1.35 [34.29] 10000.0 ± 10%
1.16
4.0
1.35 [34.29]
18.0
± 10% 0.005
35.0
1.43 [36.32]
470.0
± 10% 0.061
13.5
1.35 [34.29] 12000.0 ± 10%
1.54
2.8
1.33 [33.78]
22.0
± 10% 0.005
35.0
1.43 [36.32]
560.0
± 10% 0.068
13.5
1.35 [34.29] 15000.0 ± 10%
1.75
2.8
1.33 [33.78]
27.0
± 10% 0.006
35.0
1.43 [36.32]
680.0
± 10% 0.094
11.4
1.33 [33.78] 18000.0 ± 10%
1.94
2.8
1.38 [35.05]
33.0
± 10% 0.006
35.0
1.43 [36.32]
820.0
± 10% 0.104
11.4
1.33 [33.78] 22000.0 ± 10%
2.74
2.0
1.36 [34.54]
39.0
± 10% 0.006
35.0
1.43 [36.32]
1000.0
± 10% 0.143
9.0
1.31 [33.27] 27000.0 ± 10%
3.71
1.7
1.33 [33.78]
47.0
± 10% 0.008
35.0
1.53 [38.86]
1200.0
± 10% 0.156
9.0
1.40 [35.56] 33000.0 ± 10%
4.16
1.7
1.33 [33.78]
56.0
± 10% 0.009
35.0
1.53 [38.86]
1500.0
± 10% 0.219
7.2
1.37 [34.80] 39000.0 ± 10%
5.55
1.4
1.31 [33.27]
68.0
± 10% 0.009
35.0
1.53 [38.86]
1800.0
± 10% 0.241
7.2
1.37 [34.80] 47000.0 ± 10%
6.19
1.4
1.34 [34.04]
82.0
± 10% 0.010
35.0
1.53 [38.86]
2200.0
± 10% 0.270
7.2
1.37 [34.80]
100.0
± 10% 0.014
27.0
1.45 [36.83]
2700.0
± 10% 0.364
5.5
1.34 [34.04]
MARKING
ORDERING INFORMATION
— Model
— Value
— Date code
Document Number 34015
Revision 02-Nov-01
IHB-1
MODEL
10PH
INDUCTANCE
VALUE
For technical questions, contact [email protected]
r 10%
INDUCTANCE
TOLERANCE
www.vishay.com
43
IHV
Vishay Dale
Filter Inductors
High Current
FEATURES
• Printed circuit mounting.
• Low cost construction.
• Designed for use with switching power supplies.
• Pre-tinned leads.
• Protected by polyolefin tubing-flame retardant UL type
VW-1 per MIL-I-23053/5, class 3 requirements.
STANDARD ELECTRICAL SPECIFICATIONS
IND.*
@ 1 kHz
(μH)
MODEL
IHV-15-500
IHV-20-200
IHV-28-60
IHV-30-150
IHV-40-39
IHV-45-92
IHV-50-50
IHV-60-24
SELFRATED
RESONANT DCR
CURRENT
FREQ. MIN. MAX.
(MHz)
TOL.
(Ohms) (Max. Amps)
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
500
200
60
150
39
92
50
24
0.8
1.2
1.9
2.1
2.5
2.9
3.1
5.7
0.0500
0.0210
0.0085
0.0130
0.0048
0.0075
0.0045
0.0025
15
20
28
30
40
45
50
60
ELECTRICAL SPECIFICATIONS
Inductance: Measured at 1V with no DC current.
Dielectric: 2500VRMS between winding and outer
circumference to within 0.250" [6.35mm] of the insulation
sleeve edge.
Operating Temperature: - 55°C to + 125°C (no load).
- 55°C to + 75°C (at full rated current).
MECHANICAL SPECIFICATIONS
Terminals: Extensions of winding, solder coated.
Encapsulant: Polyolefin tubing.
Core Material: Iron laminations.
*Will not change more than ± 10% at rated current.
DIMENSIONS in inches [millimeters]
Style 1
Style 2
A
Max.
B
.125 [3.18]
Max.
E Dia.
IHV-15-500
IHV-20-200
IHV-28-60
IHV-30-150
IHV-40-39
IHV-45-92
IHV-50-50
IHV-60-24
E Dia.
C
STYLE
A
(Max.)
B
± 0.050 [1.27]
C
± 0.062 [1.57]
D
± 0.062 [1.57]
E
(Dia.)
TYPICAL
WEIGHT
(Grams)
1
2
2
2
2
2
1
2
2.45 [62.23]
2.45 [62.23]
2.45 [62.23]
2.45 [62.23]
2.45 [62.23]
2.55 [64.77]
2.55 [64.77]
2.45 [62.23]
1.45 [36.83]
1.45 [36.83]
1.02 [25.91]
1.65 [41.91]
1.15 [29.21]
1.92 [48.77]
1.57 [39.88]
1.27 [32.26]
0.980 [24.89]
0.980 [24.89]
0.770 [19.56]
1.08 [27.43]
0.820 [20.83]
1.21 [30.73]
1.05 [26.67]
0.890 [22.61]
1.95 [49.53]
—
—
—
—
—
2.10 [53.34]
—
0.082 [2.08]
0.102 [2.59]
0.102 [2.59]
0.129 [3.28]
0.129 [3.28]
0.162 [4.11]
0.162 [4.11]
0.162 [4.11]
305
310
160
470
210
650
420
270
ORDERING INFORMATION
MARKING
— Vishay Dale
— Model
— Date code
www.vishay.com
44
.750 [19.0]
.500 [12.70]
Tinned
C
D
MODEL
B
.125 [3.18]
Max.
.750 [19.0]
.500 [12.70]
Tinned
A
Max.
IHV-15
MODEL
500μH
INDUCTANCE
VALUE
For technical questions, contact [email protected]
± 10%
INDUCTANCE
TOLERANCE
Document Number 34022
Revision 02-Nov-01
PC
Vishay Dale
Inductors
Subminiature, Shielded
FEATURES
x
x
x
x
x
x
x
x
Classification is Grade 1, Class B
Subminiature shielded
Inductance range is 0.10 µH to 100000 µH
Printed board mounting facilitated by 0.200" [5.08 mm] grid
spacing
Radial lead fixed inductor
High Q values
Unitized epoxy-molded construction
Shielded construction to allow maximum density
packaging
ELECTRICAL SPECIFICATIONS
DENSITY SPECIFICATIONS
Inductance Tolerance: ± 10 %
Dielectric Strength: 840 VRMS at sea level
Working Voltage: 300 VDC
Q and SRF Values: Minimum not less than 80 % of specified
value
Maximum Current: Based on temperature rise not to
exceed 35 °C at + 90 °C ambient
Weight: 1.5 grams maximum
MECHANICAL SPECIFICATIONS
Operating Temperature: - 55 qC to + 125 qC
Terminal Pull: 3 pounds
Shielding: 3 % coupling maximum when two units are
tested side by side
ENVIRONMENTAL SPECIFICATIONS
Moisture: Per MIL-STD-202, Method 106
Vibration: Low frequency, 10 Hz to 55 Hz at 0.06" [1.52 mm]
maximum total excursion at rate of 1 linear sweep per minute
for 2 hours repeated for each of three mutually perpendicular
planes
Shock: 100 g, 6 ms, body mounted
DIMENSIONS in inches [millimeters]
0.300 ± 0.010
[7.62 ± 0.254]
0.265 ± 0.010
[6.73 ± 0.254] Dia.
0.270 [6.86]
Max.
0.080 ± 0.010
[2.03 ± 0.254]
3/8 ± 1/16
[9.52 ± 1.59]
#24 0.020 ± 0.002
[0.508 ± 0.051] TCW
0.200 ± 0.005
[5.08 ± 0.127]
STANDARD ELECTRICAL SPECIFICATIONS
MODEL
IND.
(µH)
TOL.
Q
NOM.
PC
PC
PC
PC
PC
PC
PC
0.10
0.12
0.15
0.18
0.22
0.27
0.33
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
70
70
70
70
70
80
80
TEST
FREQ.
(MHz)
25
25
25
25
25
25
25
SELF-RESONANT
FREQ. NOM.
(MHz)
> 250
> 250
> 250
> 250
> 250
> 250
> 250
DCR
MAX.
(Ohms)
0.030
0.030
0.030
0.035
0.038
0.040
0.040
RATED DC
CURRENT
(mA)
2500
2500
2500
2400
2300
2200
2200
INCREMENTAL*
CURRENT
(mA)
2500
2500
2500
2400
2300
2200
2200
* Incremental Current: The DC current required to cause a 5 % reduction in the nominal inductance value.
Document Number: 34070
Revision: 02-Nov-01
For technical questions contact [email protected]
www.vishay.com
45
PC
Inductors, Subminiature, Shielded
Vishay Dale
STANDARD ELECTRICAL SPECIFICATIONS
MODEL
IND.
(µH)
TOL.
Q
NOM.
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
PC
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
39
47
56
68
82
100
120
150
180
220
270
330
390
470
560
680
820
1000
± 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 %
± 10 %
± 10 %
± 10 %
± 10 %
± 10 %
80
80
80
80
85
85
90
100
115
110
110
90
90
95
95
85
95
90
120
120
115
125
115
120
120
110
115
105
105
95
95
90
95
95
100
100
100
100
95
100
90
100
TEST
FREQ.
(MHz)
25
25
25
25
25
25
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
SELF-RESONANT
FREQ. NOM.
(MHz)
250
230
220
190
180
160
170
155
135
120
104
93
87
79
72
63
60
54
37
28.8
23.8
21.3
20.6
18.6
17.7
14.9
13.9
12.9
11.7
10.5
5.6
5.2
4.9
4.6
4.2
3.55
3.45
3.2
2.9
2.7
2.5
2.35
DCR
MAX.
(Ohms)
0.045
0.045
0.050
0.055
0.060
0.070
0.085
0.100
0.110
0.120
0.125
0.165
0.180
0.245
0.265
0.330
0.460
0.640
0.800
0.865
0.940
1.03
1.18
1.30
1.41
1.61
2.08
2.20
2.42
2.15
2.38
2.52
2.88
3.18
3.50
4.80
5.44
5.9
6.3
7.2
8.0
12
INCREMENTAL*
CURRENT
(mA)
2100
2100
2000
1900
1800
1700
1670
1540
1470
1410
1380
1200
1135
985
950
853
720
620
545
520
504
460
418
398
385
350
333
330
320
300
190
175
150
125
120
110
105
100
90
80
70
65
RATED DC
CURRENT
(mA)
2100
2100
2000
1900
1800
1700
1670
1540
1470
1410
1380
1200
1135
985
950
853
720
620
545
520
504
460
418
398
385
350
330
320
300
333
316
306
288
273
260
222
209
201
194
181
172
141
* Incremental Current: The DC current required to cause a 5 % reduction in the nominal inductance value.
MARKING
- Manufacturer data printed
www.vishay.com
46
ORDERING INFORMATION
PC
0.10 µH
± 10 %
MODEL
INDUCTANCE
VALUE
INDUCTANCE
TOLERANCE
For technical questions contact [email protected]
Document Number: 34070
Revision: 02-Nov-01
WVL
Vishay Dale
Inductors
Variable, Subminiature, Shielded
FEATURES
•
•
•
•
•
•
•
Classification is Grade 3, Class A.
Subminiature shielded adjustable inductor.
High Q values.
Vertical or horizontal mounting.
Inductance range is 0.10μH to 1000μH.
0.300" [7.62mm] diameter by 0.400" [10.16mm] length.
Printed board mounting facilitated by 0.200" [5.08mm] grid
spacing.
• Unit has shield construction to allow maximum density
packaging.
• Accommodates close inductance adjustments in high
density circuits that demand exceptional stability and high
“Q” in the smallest size available.
ELECTRICAL SPECIFICATIONS
MECHANICAL SPECIFICATIONS
Adjustable Inductance Range: Tunable range; ± 5% for
0.10μH to 1μH. ± 10% for 1.2μH to 1000μH.
Tuning Tool: Use Number WVL-T or equal.
Dielectic Strength: 840VRMS at sea level.
Torque: 0.40 to 6 inch-ounces.
Terminal Pull: 3 pounds.
Working Voltage: 300VDC.
Maximum Current: Based on temperature rise not to
exceed 15°C at + 90°C ambient.
Incremental Current: The DC current required to cause a
five percent reduction in the nominal inductance value.
Operating Temperature: - 55°C to + 105°C.
DENSITY SPECIFICATIONS
Weight: 1.5 grams maximum.
Shielding: 3% coupling maximum when two units are
tested side by side.
DIMENSIONS in inches [millimeters]
Vertical Style
Horizontal Style
0.400 [10.16]
0.300 ± 0.020
[7.62 ± 0.508]
0.320 [8.13]
0.400 ± 0.030
[10.16 ± 0.762]
0.020
[0.508]
Dia. Wire
Phosphor-Bronze
3/8 ± 1/16
[9.52 ± 1.59]
3/8 ± 1/16
[9.52 ± 1.59]
0.200 ± 0.010
[5.08 ± 0.254]
0.375 [9.53]
0.050 [1.27]
#24 0.020 ± 0.002
[0.508 ± 0.051] TCW
0.200 ± 0.010
[5.08 ± 0.254]
Horizontal Mounting Clip Part Number ACS-57
(One required per unit.)
Document Number 34086
Revision 02-Nov-01
For technical questions, contact [email protected]
www.vishay.com
47
WVL
Vishay Dale
Inductors, Variable, Subminiature, Shielded
STANDARD ELECTRICAL SPECIFICATIONS
MODEL
INDUCTANCE
NOM.
TUNABLE
(μH)
RANGE
TEST
SELF-RESONANT
Q
FREQUENCY
FREQ. MIN.
MINIMUM
(MHz)
(MHz)
DCR
MAXIMUM
(Ohms)
RATED DC
CURRENT
(mA)
INCREMENTAL
CURRENT
(mA)
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
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
39
47
56
68
82
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 5%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
56
56
56
56
56
64
64
64
64
64
64
68
68
72
80
92
88
88
77
72
76
76
68
76
72
96
96
92
100
92
96
96
88
92
84
84
25
25
25
25
25
25
25
25
25
25
25
25
25
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
200
200
200
200
200
200
200
200
184
176
150
144
128
136
124
108
96
83
74
70
63
58
50
48
43
30
23
19
17
16
15
14
12
11
10
9
0.030
0.030
0.030
0.035
0.038
0.040
0.040
0.045
0.045
0.050
0.055
0.060
0.070
0.085
0.100
0.110
0.120
0.125
0.165
0.180
0.245
0.265
0.330
0.460
0.640
0.800
0.865
0.940
1.03
1.18
1.30
1.41
1.61
2.08
2.20
2.42
1510
1450
1400
1370
1340
1300
1260
1240
1200
1160
1100
1040
986
968
893
853
817
800
696
659
571
550
493
417
359
316
301
292
267
243
231
223
203
191
185
174
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
WVL
100
120
150
180
220
270
330
390
470
560
680
820
1000
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
± 10%
76
76
72
76
76
80
80
80
80
76
80
72
80
2.5
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
0.79
8.4
4.5
4.0
3.9
3.7
3.4
2.8
2.7
2.6
2.3
2.2
2.0
1.9
2.15
2.38
2.52
2.88
3.18
3.50
4.80
5.44
5.90
6.30
7.20
8
12
333
316
306
288
273
260
222
209
201
194
181
172
141
333
190
175
150
125
120
110
105
100
90
80
70
65
MARKING
ORDERING INFORMATION
— Manufacturer data printed
WVL
MODEL
0.10μH
INDUCTANCE
VALUE
± 5%
TUNABLE
RANGE
For horizontal mounting use mounting clip Number ACS-57 or
order with prefix H (i.e. H WVL .10).
www.vishay.com
48
For technical questions, contact [email protected]
Document Number 34086
Revision 02-Nov-01
TJ
Vishay Dale
Inductors
Toroid, High Current
FEATURES
• Printed circuit mounting.
• Wide range of inductance and current ratings.
• Toroid design reduces EMI.
• Vertical or horizontal mounting to optimize P.C. Board layout.
APPLICATIONS
Switching power supplies, EMI/RFI filtering, output chokes.
DIMENSIONS in inches [millimeters]
Vertical Mount
Horizontal Mount
(Mounting/Coating Code - 1U)
(Mounting/Coating Code - 2U)
Hot Solder Dip
Leads
Part
Marking
H
Ld
Part
Marking
D
0.062**
[1.58]
Max.
Ls
D
0.062**
[1.58]
Max.
0.500 [12.7]
Min.
H
Ld
Hot Solder Dip
Leads
Ls
0.500
[12.7]
Min.
NOMINAL
NOMINAL
LEAD
NOMINAL
LEAD
NOMINAL
DIAMETER (D) HEIGHT (H) LEAD SPACING DIAMETER
DIAMETER (D) HEIGHT (H) LEAD SPACING DIAMETER
(Ld)
(Ls)
(Max.)
MODEL
(Ld)
(Max.)
MODEL
(Ls)
(Max.)
(Max.)
TJ3
0.65
[16.5]
0.30
[7.6]
0.26 ± 0.04
[6.60 ± 1.02]
See TJ3
Data
TJ3
0.66
[16.8]
0.32
[8.1]
0.58 ± 0.08
[14.7 ± 2.03]
See TJ3
Data
TJ4
0.88
[22.4]
0.40
[10.2]
0.31 ± 0.09
[7.87 ± 2.29]
See TJ4
Data
TJ4
0.88
[22.4]
0.40
[10.2]
0.78 ± 0.10
[19.8 ± 2.54]
See TJ4
Data
TJ5
1.00
[25.4]
0.45
[11.4]
0.37 ± 0.08
[9.40 ± 2.03]
See TJ5
Data
TJ5
1.00
[25.4]
0.45
[11.4]
0.90 ± 0.10
[22.9 ± 2.54]
See TJ5
Data
TJ6
1.38
[35.1]
0.83
[21.1]
0.73 ± 0.10
[18.5 ± 2.54]
See TJ6
Data
TJ6
1.38
[35.1]
0.83
[21.1]
1.22 ± 0.16
[31.0 ± 4.06]
See TJ6
Data
TJ7
1.65
[41.9]
0.75
[19.1]
0.62 ± 0.13
[15.8 ± 3.30]
See TJ7
Data
TJ7
1.65
[41.9]
0.75
[19.1]
1.48 ± 0.17
[37.6 ± 4.32]
See TJ7
Data
TJ8
1.92
[48.8]
1.00
[25.4]
0.82 ± 0.18
[20.8 ± 4.57]
See TJ8
Data
TJ8
1.94
[49.3]
1.00
[25.4]
1.76 ± 0.18
[44.7 ± 4.57]
See TJ8
Data
TJ9
2.66
[67.6]
1.42
[36.1]
1.25 ± 0.17
[31.8 ± 4.32]
See TJ9
Data
TJ9
2.72
[69.1]
1.42
[36.1]
2.49 ± 0.23
[63.2 ± 5.84]
See TJ9
Data
*On larger units and units with finer wire, additional mechanical mounting is recommended. **Leads stripped to within .062" [1.58mm] of the coil.
ENVIRONMENTAL PERFORMANCE
TEST
CONDITIONS
SPECIFICATIONS
Thermal Shock
Test Condition B1
MIL-STD-202, Method 107
Resistance to Soldering Heat
—
MIL-STD-202, Method 210
Solderability
—
MIL-STD-202, Method 208
Document Number 34079
Revision 08-Jan-02
For technical questions, contact [email protected]
www.vishay.com
49
TJ
Vishay Dale
Inductors Toroid, High Current
ELECTRICAL SPECIFICATION RANGES
MODEL
INDUCTANCE RANGE1
(μH)
DC RESISTANCE RANGE2
(Ohms)
RATED CURRENT RANGE3
(Amps)
TJ3
1.2 - 1500
0.006 - 1.476
10.0 - 0.5
TJ4
1.2 - 1500
0.006 - 0.952
10.7 - 0.9
TJ5
1.2 - 1500
0.006 - 0.539
10.1 - 1.3
TJ6
1.2 - 2700
0.004 - 0.499
16.0 - 2.0
TJ7
1.2 - 2700
0.005 - 0.359
16.0 - 2.7
TJ8
1.5 - 3900
0.005 - 0.304
18.5 - 3.2
TJ9
1.5 - 5600
0.004 - 0.224
20.0 - 5.0
1. Measured at 0.25 VRMS @ 10kHz.
2. DC Resistance measured @ + 25°C ± 5°C.
3. Maximum continuous operating current based on a calculated temperature rise of 40°C.
STANDARD ELECTRICAL SPECIFICATIONS in inches [millimeters]
IND.
MODEL (μH)
TOL.
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
TJ3-XX
± 20%
± 20%
± 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%
1.2
1.5
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
1200.0
1500.0
NOM.
IND.
RATED
10%
CUR- @ 0 DC CURNOM.
AMPS
RENT
DCR
RENT
(μH)
(Ohms) (Amps)
(Amps)
0.006
0.006
0.007
0.008
0.008
0.009
0.010
0.011
0.011
0.013
0.013
0.015
0.016
0.017
0.024
0.026
0.029
0.038
0.043
0.057
0.063
0.087
0.097
0.107
0.146
0.164
0.225
0.250
0.342
0.378
0.510
0.565
0.637
0.849
0.951
1.298
1.476
10.0
9.5
9.0
8.4
8.2
7.9
7.5
7.3
7.1
6.6
6.5
6.1
5.9
5.6
4.6
4.4
4.3
3.7
3.5
3.1
3.0
2.6
2.4
2.3
1.9
1.8
1.5
1.4
1.2
1.1
1.0
0.9
0.8
0.7
0.7
0.6
0.5
1.19
1.62
2.11
2.67
3.30
3.99
4.75
5.58
6.47
8.45
9.54
11.91
14.55
17.46
22.31
27.75
33.79
38.15
47.65
55.47
66.83
82.50
99.83
118.80
148.14
180.71
221.89
267.30
330.00
392.07
467.31
557.70
684.29
823.81
999.11
1203.87
1497.18
5.50
4.71
4.13
3.67
3.30
3.00
2.75
2.54
2.36
2.06
1.94
1.74
1.57
1.43
1.27
1.14
1.03
0.97
0.87
0.80
0.73
0.66
0.60
0.55
0.49
0.45
0.40
0.37
0.33
0.30
0.28
0.25
0.23
0.21
0.19
0.17
0.15
INDUCTANCE SHIFT WITH DC CURRENT*
MIN.
IND.
(μH)
20%
CURRENT
(Amps)
MIN.
IND.
(μH)
30%
CURRENT
(Amps)
MIN.
IND.
(μH)
40%
CURRENT
(Amps)
MIN.
IND.
(μH)
LEAD
DIAMETER
"A"
0.91
1.24
1.62
2.04
2.52
3.05
3.64
4.27
4.95
6.46
7.30
9.11
11.13
13.35
17.07
21.23
25.85
29.18
36.45
42.44
51.12
63.11
76.37
90.88
113.32
138.24
169.75
204.48
252.45
299.94
357.49
426.64
523.48
630.22
764.32
920.96
1145.34
8.88
7.62
6.66
5.92
5.33
4.85
4.44
4.10
3.81
3.33
3.14
2.81
2.54
2.32
2.05
1.84
1.67
1.57
1.40
1.30
1.18
1.07
0.97
0.89
0.80
0.72
0.65
0.59
0.53
0.49
0.45
0.41
0.37
0.34
0.31
0.28
0.25
0.81
1.10
1.44
1.82
2.24
2.72
3.23
3.79
4.40
5.74
6.49
8.10
9.90
11.87
15.17
18.87
22.98
25.94
32.40
37.72
45.44
56.10
67.88
80.78
100.73
122.88
150.89
181.76
224.40
266.61
317.77
379.24
465.32
560.19
679.39
818.63
1018.08
12.69
10.88
9.52
8.46
7.62
6.92
6.35
5.86
5.44
4.76
4.48
4.01
3.63
3.31
2.93
2.63
2.38
2.24
2.00
1.86
1.69
1.52
1.38
1.27
1.14
1.03
0.93
0.85
0.76
0.70
0.64
0.59
0.53
0.48
0.44
0.40
0.36
0.71
0.96
1.26
1.59
1.96
2.38
2.83
3.32
3.85
5.03
5.67
7.09
8.66
10.39
13.27
16.51
20.11
22.70
28.35
33.01
39.76
49.09
59.40
70.69
88.14
107.52
132.03
159.04
196.35
233.28
278.05
331.83
407.15
490.17
594.47
716.30
890.82
16.50
14.14
12.38
11.00
9.90
9.00
8.25
7.62
7.07
6.19
5.82
5.21
4.71
4.30
3.81
3.41
3.09
2.91
2.61
2.41
2.20
1.98
1.80
1.65
1.48
1.34
1.21
1.10
0.99
0.91
0.83
0.76
0.69
0.63
0.57
0.52
0.46
0.61
0.82
1.08
1.36
1.68
2.04
2.42
2.84
3.30
4.31
4.86
6.08
7.42
8.90
11.38
14.15
17.23
19.46
24.30
28.29
34.08
42.08
50.91
60.59
75.55
92.16
113.16
136.32
168.30
199.96
238.33
284.43
348.99
420.14
509.55
613.98
763.56
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.029 [0.737]
0.029 [0.737]
0.029 [0.737]
0.025 [0.635]
0.025 [0.635]
0.023 [0.584]
0.023 [0.584]
0.020 [0.508]
0.020 [0.508]
0.020 [0.508]
0.018 [0.457]
0.018 [0.457]
0.016 [0.406]
0.016 [0.406]
0.014 [0.356]
0.014 [0.356]
0.013 [0.330]
0.013 [0.330]
0.013 [0.330]
0.011 [0.279]
0.011 [0.279]
0.010 [0.254]
0.010 [0.254]
*The DC current values listed are typical values that drop the nominal inductance by the percent listed.
www.vishay.com
50
For technical questions, contact [email protected]
Document Number 34079
Revision 08-Jan-02
TJ
Vishay Dale
Inductors Toroid, High Current
STANDARD ELECTRICAL SPECIFICATIONS in inches [millimeters]
MODEL
IND.
(μH)
NOM.
RATED
10%
IND.
NOM.
CUR- @ 0 DC CURDCR
RENT
AMPS RENT
TOL. (Ohms) (Amps)
(Amps)
(μH)
± 20%
TJ4-XX
1.2
± 20%
TJ4-XX
1.5
± 15%
TJ4-XX
2.2
± 15%
TJ4-XX
2.7
± 20%
TJ4-XX
3.3
± 20%
TJ4-XX
4.7
± 20%
TJ4-XX
5.6
± 20%
TJ4-XX
6.8
± 15%
TJ4-XX
8.2
TJ4-XX 10.0 ± 15%
TJ4-XX 12.0 ± 20%
TJ4-XX 15.0 ± 20%
TJ4-XX 18.0 ± 15%
TJ4-XX 22.0 ± 15%
TJ4-XX 27.0 ± 15%
TJ4-XX 33.0 ± 15%
TJ4-XX 39.0 ± 15%
TJ4-XX 47.0 ± 15%
TJ4-XX 56.0 ± 15%
TJ4-XX 68.0 ± 15%
TJ4-XX 82.0 ± 15%
TJ4-XX 100.0 ± 15%
TJ4-XX 120.0 ± 15%
TJ4-XX 150.0 ± 15%
TJ4-XX 180.0 ± 15%
TJ4-XX 220.0 ± 15%
TJ4-XX 270.0 ± 15%
TJ4-XX 330.0 ± 15%
TJ4-XX 390.0 ± 15%
TJ4-XX 470.0 ± 15%
TJ4-XX 560.0 ± 15%
TJ4-XX 680.0 ± 15%
TJ4-XX 820.0 ± 15%
TJ4-XX 1000.0 ± 15%
TJ4-XX 1200.0 ± 15%
TJ4-XX 1500.0 ± 15%
± 20%
TJ5-XX
1.2
± 25%
TJ5-XX
1.5
± 15%
TJ5-XX
2.2
± 25%
TJ5-XX
2.7
3.9
± 15%
TJ5-XX
4.7
± 15%
TJ5-XX
5.6
± 15%
TJ5-XX
6.8
± 15%
TJ5-XX
8.2
± 15%
TJ5-XX
TJ5-XX 10.0 ± 15%
TJ5-XX 12.0 ± 15%
0.006
0.006
0.007
0.008
0.009
0.010
0.010
0.011
0.013
0.013
0.015
0.017
0.017
0.019
0.021
0.024
0.025
0.028
0.031
0.040
0.045
0.062
0.070
0.079
0.105
0.118
0.162
0.181
0.243
0.269
0.297
0.406
0.452
0.617
0.684
0.952
0.006
0.007
0.008
0.009
0.010
0.010
0.011
0.012
0.013
0.015
0.016
10.7
10.2
9.7
9.5
8.8
8.5
8.3
8.1
7.8
7.4
7.1
6.8
6.7
6.5
6.1
5.8
5.7
5.5
5.2
4.6
4.4
3.7
3.5
3.3
2.9
2.7
2.3
2.2
1.9
1.8
1.7
1.4
1.3
1.1
1.0
0.9
10.1
9.5
9.0
8.6
8.2
7.9
7.7
7.5
7.3
7.0
6.9
1.09
1.57
2.13
2.78
3.52
4.35
5.26
6.26
8.53
9.79
12.57
15.70
17.40
21.05
27.19
34.10
39.15
47.37
56.38
66.16
80.43
100.22
122.19
151.42
178.18
219.28
271.48
329.25
392.59
470.50
555.45
679.69
816.45
1005.02
1198.69
1504.93
1.15
1.66
2.25
2.94
3.73
4.60
5.57
6.62
7.77
10.35
11.78
INDUCTANCE SHIFT WITH DC CURRENT*
MIN.
IND.
(μH)
0.83
8.75
1.20
7.29
1.63
6.25
2.13
5.47
2.70
4.86
3.33
4.38
4.03
3.98
4.79
3.65
6.52
3.13
7.49
2.92
9.62
2.57
12.01
2.30
13.31
2.19
16.11
1.99
20.80
1.75
26.09
1.56
29.95
1.46
36.24
1.33
43.13
1.22
50.62
1.12
61.53
1.02
76.67
0.91
93.48
0.83
115.84
0.74
136.30
0.68
167.75
0.62
207.68
0.55
251.88
0.50
300.33
0.46
359.93
0.42
424.92
0.39
519.96
0.35
624.59
0.32
768.84
0.29
916.99
0.26
0.24 1151.27
0.88
10.63
1.27
8.86
1.72
7.60
2.25
6.65
2.85
5.91
3.52
5.32
4.26
4.83
5.07
4.43
5.95
4.09
7.92
3.54
9.01
3.32
20%
CURRENT
(Amps)
MIN.
IND.
(μH)
30%
CURRENT
(Amps)
MIN.
IND.
(μH)
40%
CURRENT
(Amps)
MIN.
IND.
(μH)
LEAD
DIAMETER
"A"
14.14
11.78
10.10
8.84
7.85
7.07
6.43
5.89
5.05
4.71
4.16
3.72
3.53
3.21
2.83
2.52
2.36
2.14
1.96
1.81
1.64
1.47
1.33
1.20
1.10
1.00
0.89
0.81
0.74
0.68
0.63
0.57
0.52
0.47
0.43
0.38
17.18
14.32
12.27
10.74
9.54
8.59
7.81
7.16
6.61
5.73
5.37
0.74
1.06
1.45
1.89
2.40
2.96
3.58
4.26
5.80
6.66
8.55
10.68
11.83
14.32
18.49
23.19
26.62
32.21
38.34
44.99
54.69
68.15
83.09
102.97
121.16
149.11
184.61
223.89
266.96
319.94
377.71
462.19
555.19
683.42
815.11
1023.35
0.78
1.13
1.53
2.00
2.53
3.13
3.78
4.50
5.29
7.04
8.01
20.20
16.83
14.43
12.62
11.22
10.10
9.18
8.42
7.21
6.73
5.94
5.31
5.05
4.59
4.04
3.61
3.37
3.06
2.81
2.59
2.35
2.10
1.91
1.71
1.58
1.42
1.28
1.16
1.06
0.97
0.89
0.81
0.74
0.66
0.61
0.54
24.54
20.45
17.53
15.34
13.63
12.27
11.16
10.23
9.44
8.18
7.67
0.65
0.93
1.27
1.66
2.10
2.59
3.13
3.73
5.07
5.82
7.48
9.34
10.35
12.53
16.18
20.29
23.29
28.19
33.54
39.37
47.86
59.63
72.70
90.10
106.01
130.47
161.53
195.90
233.59
279.95
330.49
404.41
485.79
597.99
713.22
895.43
0.68
0.99
1.34
1.75
2.22
2.74
3.31
3.94
4.63
6.16
7.01
26.26
21.88
18.75
16.41
14.59
13.13
11.93
10.94
9.38
8.75
7.72
6.91
6.56
5.97
5.25
4.69
4.38
3.98
3.65
3.37
3.05
2.73
2.48
2.23
2.05
1.85
1.66
1.51
1.38
1.26
1.16
1.05
0.96
0.86
0.79
0.71
31.90
26.59
22.79
19.94
17.72
15.95
14.50
13.29
12.27
10.63
9.97
0.55
0.80
1.09
1.42
1.80
2.22
2.68
3.19
4.35
4.99
6.41
8.01
8.87
10.74
13.87
17.39
19.97
24.16
28.75
33.74
41.02
51.11
62.32
77.23
90.87
111.83
138.46
167.92
200.22
239.95
283.28
346.64
416.39
512.56
611.33
767.51
0.59
0.84
1.15
1.50
1.90
2.35
2.84
3.38
3.96
5.28
6.01
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.029 [0.737]
0.029 [0.737]
0.025 [0.635]
0.025 [0.635]
0.025 [0.635]
0.023 [0.584]
0.023 [0.584]
0.020 [0.508]
0.020 [0.508]
0.018 [0.457]
0.018 [0.457]
0.018 [0.457]
0.016 [0.406]
0.016 [0.406]
0.014 [0.356]
0.014 [0.356]
0.013 [0.330]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
*The DC current values listed are typical values that drop the nominal inductance by the percent listed.
Document Number 34079
Revision 08-Jan-02
For technical questions, contact [email protected]
www.vishay.com
51
TJ
Vishay Dale
Inductors Toroid, High Current
STANDARD ELECTRICAL SPECIFICATIONS in inches [millimeters]
MODEL
IND.
(μH)
NOM.
IND.
10%
RATED
DCR
CUR- @ 0 DC CURMAX. RENT AMPS RENT
(μH) (Amps)
TOL. (Ohms) (Amps)
± 15%
TJ5-XX 15.0
± 15%
TJ5-XX 18.0
± 15%
TJ5-XX 22.0
± 15%
TJ5-XX 27.0
± 15%
TJ5-XX 33.0
± 15%
TJ5-XX 39.0
± 15%
TJ5-XX 47.0
± 15%
TJ5-XX 56.0
± 15%
TJ5-XX 68.0
± 15%
TJ5-XX 82.0
TJ5-XX 100.0 ± 15%
TJ5-XX 120.0 ± 15%
TJ5-XX 150.0 ± 15%
TJ5-XX 180.0 ± 15%
TJ5-XX 220.0 ± 15%
TJ5-XX 270.0 ± 15%
TJ5-XX 330.0 ± 15%
TJ5-XX 390.0 ± 15%
TJ5-XX 470.0 ± 15%
TJ5-XX 560.0 ± 15%
TJ5-XX 680.0 ± 15%
TJ5-XX 820.0 ± 15%
TJ5-XX 1000.0 ± 15%
TJ5-XX 1200.0 ± 15%
TJ5-XX 1500.0 ± 15%
± 20%
TJ6-XX
1.2
± 20%
TJ6-XX
2.2
± 20%
TJ6-XX
3.3
± 15%
TJ6-XX
4.7
± 25%
TJ6-XX
5.6
± 15%
TJ6-XX
8.2
± 15%
TJ6-XX 10.0
± 15%
TJ6-XX 12.0
± 15%
TJ6-XX 15.0
± 15%
TJ6-XX 18.0
± 15%
TJ6-XX 22.0
± 15%
TJ6-XX 27.0
± 15%
TJ6-XX 33.0
TJ6-XX 39.0
± 15%
TJ6-XX 47.0
± 15%
TJ6-XX 56.0
± 15%
TJ6-XX 68.0
± 15%
TJ6-XX 82.0
± 15%
TJ6-XX 100.0 ± 15%
TJ6-XX 120.0 ± 15%
TJ6-XX 150.0 ± 15%
TJ6-XX 180.0 ± 15%
0.017
0.019
0.021
0.023
0.025
0.027
0.029
0.032
0.035
0.038
0.042
0.047
0.054
0.060
0.067
0.092
0.104
0.138
0.154
0.205
0.232
0.260
0.349
0.393
0.539
0.004
0.005
0.006
0.007
0.007
0.008
0.009
0.010
0.011
0.012
0.012
0.014
0.015
0.017
0.017
0.019
0.021
0.023
0.025
0.027
0.031
0.033
6.6
6.4
6.2
6.0
5.7
5.5
5.3
5.2
5.1
5.0
4.9
4.8
4.7
4.6
4.2
3.7
3.5
2.9
2.8
2.3
2.2
2.1
1.7
1.6
1.3
16.0
16.0
16.0
16.0
16.0
15.2
14.5
13.9
13.3
12.7
12.5
11.8
11.5
11.0
10.7
10.4
10.0
9.5
9.2
8.8
8.6
8.5
14.90
18.40
22.26
26.50
33.53
38.69
47.10
56.35
66.42
81.14
97.34
119.65
149.45
182.57
219.01
272.73
332.35
389.34
469.25
556.60
684.66
825.98
994.01
1207.22
1507.01
1.12
1.98
3.10
4.46
6.08
7.94
10.04
12.40
15.00
17.86
20.96
27.90
31.74
40.18
44.76
54.68
65.60
83.82
97.22
119.16
151.90
179.06
2.95
2.66
2.42
2.22
1.97
1.83
1.66
1.52
1.40
1.27
1.16
1.04
0.93
0.84
0.77
0.69
0.63
0.58
0.53
0.48
0.44
0.40
0.36
0.33
0.29
22.38
16.78
13.43
11.19
9.59
8.39
7.46
6.71
6.10
5.59
5.16
4.48
4.20
3.73
3.53
3.20
2.92
2.58
2.40
2.17
1.92
1.77
INDUCTANCE SHIFT WITH DC CURRENT*
MIN.
IND.
(μH)
20%
CURRENT
(Amps)
MIN.
IND.
(μH)
30%
CURRENT
(Amps)
MIN.
IND.
(μH)
40%
CURRENT
(Amps)
MIN.
IND.
(μH)
LEAD
DIAMETER
"A"
11.40
14.08
17.03
20.27
25.65
29.59
36.03
43.11
50.81
62.08
74.46
91.53
114.33
139.67
167.54
208.64
254.25
297.85
358.97
425.80
523.77
631.87
760.42
923.53
1152.86
0.85
1.52
2.37
3.41
4.65
6.07
7.68
9.49
11.48
13.66
16.03
21.34
24.28
30.73
34.24
41.83
50.18
64.13
74.37
91.16
116.20
136.98
4.77
4.29
3.90
3.58
3.18
2.96
2.68
2.45
2.26
2.05
1.87
1.68
1.51
1.36
1.24
1.12
1.01
0.93
0.85
0.78
0.70
0.64
0.58
0.53
0.47
36.15
27.11
21.69
18.08
15.49
13.56
12.05
10.85
9.86
9.04
8.34
7.23
6.78
6.03
5.71
5.16
4.72
4.17
3.87
3.50
3.10
2.85
10.13
12.51
15.14
18.02
22.80
26.31
32.03
38.32
45.17
55.18
66.19
81.36
101.63
124.15
148.92
185.46
226.00
264.75
319.09
378.49
465.57
561.66
675.93
820.91
1024.76
0.76
1.35
2.11
3.04
4.13
5.40
6.83
8.43
10.20
12.14
14.25
18.97
21.59
27.32
30.44
37.19
44.61
57.00
66.11
81.03
103.29
121.76
6.82
6.14
5.58
5.11
4.54
4.23
3.83
3.51
3.23
2.92
2.67
2.41
2.15
1.95
1.78
1.59
1.44
1.33
1.21
1.12
1.01
0.92
0.83
0.76
0.68
51.65
38.73
30.99
25.82
22.13
19.37
17.22
15.49
14.09
12.91
11.92
10.33
9.68
8.61
8.15
7.38
6.74
5.96
5.53
5.00
4.43
4.08
8.87
10.95
13.25
15.77
19.95
23.02
28.03
33.53
39.52
48.28
57.91
71.19
88.93
108.63
130.31
162.28
197.75
231.66
279.20
331.18
407.38
491.46
591.44
718.30
896.67
0.66
1.18
1.84
2.66
3.62
4.72
5.98
7.38
8.93
10.62
12.47
16.60
18.89
23.90
26.63
32.54
39.03
49.88
57.84
70.90
90.38
106.54
8.86
7.98
7.25
6.65
5.91
5.50
4.99
4.56
4.20
3.80
3.47
3.13
2.80
2.53
2.31
2.07
1.88
1.73
1.58
1.45
1.31
1.19
1.09
0.98
0.88
67.14
50.35
40.28
33.57
28.77
25.18
22.38
20.14
18.31
16.78
15.49
13.43
12.59
11.19
10.60
9.59
8.76
7.75
7.19
6.50
5.75
5.30
7.60
9.38
11.35
13.51
17.10
19.73
24.02
28.74
33.88
41.38
49.64
61.02
76.22
93.11
111.69
139.09
169.50
198.57
239.32
283.87
349.18
421.25
506.95
615.68
768.57
0.57
1.01
1.58
2.28
3.10
4.05
5.12
6.32
7.65
9.11
10.69
14.23
16.19
20.49
22.83
27.89
33.45
42.75
49.58
60.77
77.47
91.32
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.032 [0.813]
0.029 [0.737]
0.029 [0.737]
0.025 [0.635]
0.025 [0.635]
0.023 [0.584]
0.023 [0.584]
0.023 [0.584]
0.020 [0.508]
0.020 [0.508]
0.018 [0.457]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
*The DC current values listed are typical values that drop the nominal inductance by the percent listed.
www.vishay.com
52
For technical questions, contact [email protected]
Document Number 34079
Revision 08-Jan-02
TJ
Vishay Dale
Inductors Toroid, High Current
STANDARD ELECTRICAL SPECIFICATIONS in inches [millimeters]
NOM.
RATED
IND.
10%
CUR- @ 0 DC CURDCR
MAX. RENT
AMPS RENT
(Ohms) (Amps)
(μH) (Amps)
INDUCTANCE SHIFT WITH DC CURRENT*
MIN.
IND.
(μH)
20%
CURRENT
(Amps)
MIN.
IND.
(μH)
30%
CURRENT
(Amps)
MIN.
IND.
(μH)
167.33
209.55
256.50
297.48
364.64
425.83
519.45
622.38
768.37
911.04
1147.81
1365.98
1677.98
2077.81
2.58
2.31
2.09
1.94
1.75
1.62
1.47
1.34
1.21
1.11
0.99
0.90
0.82
0.73
148.74
186.26
228.00
264.43
324.13
378.51
461.74
553.22
682.99
809.81
1020.27
1214.21
1491.54
1846.95
3.69
3.30
2.98
2.77
2.50
2.31
2.09
1.91
1.72
1.58
1.41
1.29
1.16
1.05
130.15
162.98
199.50
231.37
283.61
331.20
404.02
484.07
597.62
708.58
892.74
1062.43
1305.09
1616.08
4.80 111.56 0.045 [1.14]
4.29 139.70 0.040 [1.02]
3.87 171.00 0.040 [1.02]
3.60 198.32 0.040 [1.02]
3.25 243.09 0.036 [0.914]
3.01 283.88 0.036 [0.914]
2.72 346.30 0.032 [0.813]
2.49 414.92 0.032 [0.813]
2.24 512.24 0.032 [0.813]
2.06 607.36 0.029 [0.737]
1.83 765.20 0.029 [0.737]
1.68 910.66 0.025 [0.635]
1.51 1118.65 0.025 [0.635]
1.36 1385.21 0.023 [0.584]
34.59
0.88
27.67
1.38
23.06
1.98
19.77
2.70
17.30
3.53
15.37
4.46
13.84
5.51
12.58
6.66
11.53
7.93
9.88
10.80
9.22
12.39
8.65
14.10
7.69
17.85
6.92
22.03
6.29
26.66
5.77
31.73
5.32
37.23
4.77
46.32
4.32
56.40
3.95
67.47
3.64
79.54
3.22
101.84
2.94
121.67
2.66
148.94
2.39
185.29
2.16
225.61
2.01
262.24
1.82
318.14
1.67
379.45
1.50
466.20
1.37
561.87
1.25
678.64
1.13
819.81
1.02 1018.76
49.42
39.53
32.95
28.24
24.71
21.96
19.77
17.97
16.47
14.12
13.18
12.35
10.98
9.88
8.99
8.24
7.60
6.82
6.18
5.65
5.20
4.60
4.21
3.80
3.41
3.09
2.86
2.60
2.38
2.15
1.96
1.78
1.62
1.45
0.77
1.20
1.74
2.36
3.08
3.90
4.82
5.83
6.94
9.45
10.84
12.34
15.62
19.28
23.33
27.76
32.58
40.53
49.35
59.04
69.59
89.11
106.46
130.32
162.13
197.41
229.46
278.37
332.02
407.92
491.64
593.81
717.33
891.41
64.24
51.39
42.83
36.71
32.12
28.55
25.70
23.36
21.41
18.36
17.13
16.06
14.28
12.85
11.68
10.71
9.88
8.86
8.03
7.34
6.76
5.98
5.47
4.94
4.43
4.02
3.72
3.38
3.10
2.79
2.54
2.32
2.11
1.89
MODEL
IND.
(μH)
TOL.
TJ6-XX
TJ6-XX
TJ6-XX
TJ6-XX
TJ6-XX
TJ6-XX
TJ6-XX
TJ6-XX
TJ6-XX
TJ6-XX
TJ6-XX
TJ6-XX
TJ6-XX
TJ6-XX
220.0
270.0
330.0
390.0
470.0
560.0
680.0
820.0
1000.0
1200.0
1500.0
1800.0
2200.0
2700.0
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
0.037
0.058
0.065
0.070
0.101
0.110
0.129
0.143
0.160
0.209
0.238
0.323
0.363
0.499
8.4
7.4
7.0
6.7
5.5
5.3
4.4
4.2
4.0
3.3
3.1
2.6
2.5
2.0
218.74
273.92
335.30
388.86
476.66
556.64
679.02
813.56
1004.40
1190.90
1500.40
1785.60
2193.44
2716.10
1.60
1.43
1.29
1.20
1.08
1.00
0.91
0.83
0.75
0.69
0.61
0.56
0.50
0.45
TJ7-XX
1.2
TJ7-XX
2.2
TJ7-XX
2.7
TJ7-XX
3.9
TJ7-XX
5.6
TJ7-XX
6.8
TJ7-XX
8.2
TJ7-XX 10.0
TJ7-XX 12.0
TJ7-XX 15.0
TJ7-XX 18.0
TJ7-XX 22.0
TJ7-XX 27.0
TJ7-XX 33.0
TJ7-XX 39.0
TJ7-XX 47.0
TJ7-XX 56.0
TJ7-XX 68.0
TJ7-XX 82.0
TJ7-XX 100.0
TJ7-XX 120.0
TJ7-XX 150.0
TJ7-XX 180.0
TJ7-XX 220.0
TJ7-XX 270.0
TJ7-XX 330.0
TJ7-XX 390.0
TJ7-XX 470.0
TJ7-XX 560.0
TJ7-XX 680.0
TJ7-XX 820.0
TJ7-XX 1000.0
TJ7-XX 1200.0
TJ7-XX 1500.0
± 20%
± 20%
± 20%
± 15%
± 20%
± 15%
± 15%
± 15%
± 15%
± 20%
± 15%
± 20%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
0.005
0.006
0.007
0.008
0.009
0.010
0.010
0.011
0.012
0.013
0.014
0.015
0.016
0.018
0.019
0.020
0.022
0.024
0.026
0.027
0.030
0.033
0.036
0.040
0.046
0.051
0.053
0.060
0.066
0.090
0.101
0.136
0.152
0.174
16.0
16.0
16.0
16.0
16.0
16.0
15.5
14.9
14.4
13.5
13.0
12.8
12.2
11.6
11.2
10.8
10.5
10.0
9.6
9.2
8.9
8.6
8.5
8.4
8.3
8.2
7.9
7.5
7.2
5.9
5.6
4.7
4.4
4.2
1.30
2.03
2.92
3.97
5.18
6.56
8.10
9.80
11.66
15.88
18.23
20.74
26.24
32.40
39.20
46.66
54.76
68.12
82.94
99.23
116.96
149.77
178.93
219.02
272.48
331.78
385.64
467.86
558.01
685.58
826.28
998.00
1205.60
1498.18
21.41
0.99
1.55
17.13
2.23
14.28
3.04
12.24
3.97
10.71
5.02
9.52
6.20
8.57
7.50
7.79
8.92
7.14
12.15
6.12
13.94
5.71
15.86
5.35
20.08
4.76
24.79
4.28
29.99
3.89
35.69
3.57
41.89
3.29
52.11
2.95
63.45
2.68
75.91
2.45
89.48
2.25
114.57
1.99
136.88
1.82
167.55
1.65
208.45
1.48
253.81
1.34
295.02
1.24
357.91
1.13
426.88
1.03
524.47
0.93
632.10
0.85
763.47
0.77
922.29
0.70
0.63 1146.10
40%
CUR- MIN.
RENT IND.
(Amps) (μH)
0.66
1.03
1.49
2.02
2.64
3.35
4.13
5.00
5.95
8.10
9.29
10.58
13.38
16.52
19.99
23.79
27.93
34.74
42.30
50.60
59.65
76.38
91.25
111.70
138.97
169.21
196.68
238.61
284.58
349.65
421.40
508.98
614.86
764.07
LEAD
DIAMETER
"A"
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.045 [1.14]
0.040 [1.02]
0.040 [1.02]
0.036 [0.914]
0.036 [0.914]
0.036 [0.914]
*The DC current values listed are typical values that drop the nominal inductance by the percent listed.
Document Number 34079
Revision 08-Jan-02
For technical questions, contact [email protected]
www.vishay.com
53
TJ
Vishay Dale
Inductors Toroid, High Current
STANDARD ELECTRICAL SPECIFICATIONS in inches [millimeters]
MODEL
IND.
(μH)
TOL.
NOM.
RATED
IND.
10%
DCR
CUR- @ 0 DC CURMAX. RENT
AMPS RENT
(Ohms) (Amps
(μH)
(Amps)
INDUCTANCE SHIFT WITH DC CURRENT*
MIN.
IND.
(μH)
20%
CURRENT
(Amps)
MIN.
IND.
(μH)
30%
CURRENT
(Amps)
MIN.
IND.
(μH)
40%
CURRENT
(Amps)
MIN.
IND.
(μH)
LEAD
DIAMETER
"A"
TJ7-XX 1800.0 ± 15%
TJ7-XX 2200.0 ± 15%
TJ7-XX 2700.0 ± 15%
0.233
0.263
0.359
3.5
3.3
2.7
1798.28
2205.23
2712.61
0.57
0.52
0.47
1375.68
1687.00
2075.15
0.93
0.84
0.76
1222.83
1499.55
1844.57
1.33
1.20
1.08
1069.98
1312.11
1614.00
1.72
1.56
1.40
917.12 0.032 [0.813]
1124.66 0.032 [0.813]
1383.43 0.029 [0.737]
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
TJ8-XX
1.5
2.7
3.9
4.7
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
1200.0
1500.0
1800.0
2200.0
2700.0
3300.0
3900.0
± 20%
± 20%
± 20%
± 15%
± 20%
± 15%
± 15%
± 15%
± 20%
± 20%
± 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%
0.005
0.006
0.007
0.008
0.009
0.010
0.011
0.012
0.013
0.014
0.015
0.016
0.017
0.019
0.021
0.022
0.024
0.025
0.027
0.029
0.032
0.034
0.036
0.040
0.044
0.047
0.053
0.058
0.064
0.071
0.077
0.104
0.118
0.159
0.179
0.203
0.277
0.304
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.0
17.3
16.6
15.5
15.0
14.1
13.4
12.8
12.2
11.7
11.1
10.6
10.1
9.6
9.2
8.7
8.3
7.9
7.6
7.2
6.9
6.6
6.2
6.0
5.1
4.9
4.2
4.0
3.9
3.3
3.2
1.60
2.50
3.60
4.90
6.40
8.10
10.00
12.10
14.40
16.90
22.50
25.60
32.40
40.00
48.40
57.60
67.60
84.10
102.40
122.50
152.10
176.40
220.90
270.40
324.90
384.40
476.10
562.50
672.40
828.10
1000.0
1210.00
1488.40
1795.60
2190.40
2689.60
3312.40
3880.90
26.12
20.90
17.41
14.93
13.06
11.61
10.45
9.50
8.71
8.04
6.97
6.53
5.80
5.22
4.75
4.35
4.02
3.60
3.27
2.99
2.68
2.49
2.22
2.01
1.83
1.69
1.51
1.39
1.27
1.15
1.04
0.95
0.86
0.78
0.71
0.64
0.57
0.53
1.22
1.91
2.75
3.75
4.90
6.20
7.65
9.26
11.02
12.93
17.21
19.58
24.79
30.60
37.03
44.06
51.71
64.34
78.34
93.71
116.36
134.95
168.99
206.86
248.55
294.07
364.22
430.31
514.39
633.50
765.00
925.65
1138.63
1373.63
1675.66
2057.54
2533.99
2968.89
42.20
33.76
28.13
24.11
21.10
18.75
16.88
15.34
14.07
12.98
11.25
10.55
9.38
8.44
7.67
7.03
6.49
5.82
5.27
4.82
4.33
4.02
3.59
3.25
2.96
2.72
2.45
2.25
2.06
1.85
1.69
1.53
1.38
1.26
1.14
1.03
0.93
0.86
1.09
1.70
2.45
3.33
4.35
5.51
6.80
8.23
9.79
11.49
15.30
17.41
22.03
27.20
32.91
39.17
45.97
57.19
69.63
83.30
103.43
119.95
150.21
183.87
220.93
261.39
323.75
382.50
457.23
563.11
680.00
822.80
1012.11
1221.01
1489.47
1828.93
2252.43
2639.01
60.28
48.22
40.19
34.45
30.14
26.79
24.11
21.92
20.09
18.55
16.07
15.07
13.40
12.06
10.96
10.05
9.27
8.31
7.53
6.89
6.18
5.74
5.13
4.64
4.23
3.89
3.49
3.21
2.94
2.65
2.41
2.19
1.98
1.80
1.63
1.47
1.32
1.22
0.95
1.49
2.14
2.92
3.81
4.82
5.95
7.20
8.57
10.06
13.39
15.23
19.28
23.80
28.80
34.27
40.22
50.04
60.93
72.89
90.50
104.96
131.44
160.89
193.32
228.72
283.28
334.69
400.08
492.72
595.00
719.95
885.60
1068.38
1303.29
1600.31
1970.88
2309.14
78.36
62.69
52.24
44.78
39.18
34.83
31.35
28.50
26.12
24.11
20.90
19.59
17.41
15.67
14.25
13.06
12.06
10.81
9.80
8.96
8.04
7.46
6.67
6.03
5.50
5.06
4.54
4.18
3.82
3.44
3.13
2.85
2.57
2.34
2.12
1.91
1.72
1.59
0.82
1.28
1.84
2.50
3.26
4.13
5.10
6.17
7.34
8.62
11.48
13.06
16.52
20.40
24.68
29.38
34.48
42.89
52.22
62.48
77.57
89.96
112.66
137.90
165.70
196.04
242.81
286.88
342.92
422.33
510.00
617.10
759.08
915.76
1117.10
1371.70
1689.32
1979.26
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.051 [1.30]
0.045 [1.14]
0.045 [1.14]
0.040 [1.02]
0.040 [1.02]
0.040 [1.02]
0.036 [0.914]
0.036 [0.914]
TJ9-XX
TJ9-XX
TJ9-XX
TJ9-XX
TJ9-XX
TJ9-XX
1.5
2.7
3.9
5.6
8.2
10.0
± 15%
± 15%
± 15%
± 15%
± 15%
± 15%
0.004
0.005
0.006
0.007
0.008
0.009
20.0
20.0
20.0
20.0
20.0
20.0
1.44
2.56
4.00
5.76
7.84
10.24
50.35
37.76
30.21
25.17
21.58
18.88
1.10
1.96
3.06
4.41
6.00
7.83
81.33
61.00
48.80
40.66
34.85
30.50
0.98
1.74
2.72
3.92
5.33
6.96
116.18
87.14
69.71
58.09
49.79
43.57
0.86
1.52
2.38
3.43
4.66
6.09
151.04
113.28
90.62
75.52
64.73
56.64
0.73
1.31
2.04
2.94
4.00
5.22
0.064 [1.63]
0.064 [1.63]
0.064 [1.63]
0.064 [1.63]
0.064 [1.63]
0.064 [1.63]
*The DC current values listed are typical values that drop the nominal inductance by the percent listed.
www.vishay.com
54
For technical questions, contact [email protected]
Document Number 34079
Revision 08-Jan-02
TJ
Vishay Dale
Inductors Toroid, High Current
STANDARD ELECTRICAL SPECIFICATIONS in inches [millimeters]
INDUCTANCE SHIFT WITH DC CURRENT*
MODEL
IND.
(μH)
NOM.
RATED
IND.
10%
CUR- @ 0 DC CURDCR
AMPS RENT
MAX. RENT
(μH) (Amps)
TOL. (Ohms) (Amps)
TJ9-XX
12.0
± 20%
0.010
20.0
12.96
16.78
9.91
27.11
8.81
38.73
7.71
50.35
6.61
0.064 [1.63]
TJ9-XX
15.0
± 20%
0.011
20.0
16.00
15.10
12.24
24.40
10.88
34.85
9.52
45.31
8.16
0.064 [1.63]
TJ9-XX
18.0
± 20%
0.012
20.0
19.36
13.73
14.81
22.18
13.16
31.69
11.52
41.19
9.87
0.064 [1.63]
TJ9-XX
22.0
± 20%
0.013
20.0
23.04
12.59
17.63
20.33
15.67
29.05
13.71
37.76
11.75
0.064 [1.63]
TJ9-XX
27.0
± 15%
0.014
20.0
27.04
11.62
20.69
18.77
18.39
26.81
16.09
34.85
13.79
0.064 [1.63]
TJ9-XX
33.0
± 15%
0.015
20.0
31.36
10.79
23.99
17.43
21.32
24.90
18.66
32.37
15.99
0.064 [1.63]
TJ9-XX
39.0
± 20%
0.016
20.0
40.96
9.44
31.33
15.25
27.85
21.78
24.37
28.32
20.89
0.064 [1.63]
TJ9-XX
47.0
± 15%
0.017
20.0
46.24
8.88
35.37
14.35
31.44
20.50
27.51
26.65
23.58
0.064 [1.63]
TJ9-XX
56.0
± 15%
0.018
19.9
57.76
7.95
44.19
12.84
39.28
18.34
34.37
23.85
29.46
0.064 [1.63]
TJ9-XX
68.0
± 15%
0.019
19.0
70.56
7.19
53.98
11.62
47.98
16.60
41.98
21.58
35.99
0.064 [1.63]
TJ9-XX
82.0
± 15%
0.020
18.3
84.64
6.57
64.75
10.61
57.56
15.15
50.36
19.70
43.17
0.064 [1.63]
TJ9-XX
100.0
± 15%
0.021
17.6
100.00
6.04
76.50
9.76
68.00
13.94
59.50
18.12
51.00
0.064 [1.63]
TJ9-XX
120.0
± 15%
0.022
17.0
116.64
5.59
89.23
9.04
79.32
12.91
69.40
16.78
59.49
0.064 [1.63]
TJ9-XX
150.0
± 15%
0.025
15.9
153.76
4.87
117.63
7.87
104.56
11.24
91.49
14.62
78.42
0.064 [1.63]
TJ9-XX
180.0
± 15%
0.028
15.3
184.96
4.44
141.49
7.18
125.77
10.25
110.05
13.33
94.33
0.064 [1.63]
TJ9-XX
220.0
± 15%
0.030
14.7
219.04
4.08
167.57
6.59
148.95
9.42
130.33
12.25
111.71 0.064 [1.63]
TJ9-XX
270.0
± 15%
0.033
14.0
268.96
3.68
205.75
5.95
182.89
8.50
160.03
11.05
137.17 0.064 [1.63]
TJ9-XX
330.0
± 15%
0.036
13.4
324.00
3.36
247.86
5.42
220.32
7.75
192.78
10.07
165.24 0.064 [1.63]
TJ9-XX
390.0
± 15%
0.038
12.9
384.16
3.08
293.88
4.98
261.23
7.11
228.58
9.25
195.92 0.064 [1.63]
TJ9-XX
470.0
± 15%
0.042
12.4
466.56
2.80
356.92
4.52
317.26
6.45
277.60
8.39
237.95 0.064 [1.63]
TJ9-XX
560.0
± 15%
0.043
11.9
556.96
2.56
426.07
4.14
378.73
5.91
331.39
7.68
284.05 0.064 [1.63]
TJ9-XX
680.0
± 15%
0.048
11.3
676.00
2.32
517.14
3.75
459.68
5.36
402.22
6.97
344.76 0.064 [1.63]
TJ9-XX
820.0
± 15%
0.054
10.7
829.44
2.10
634.52
3.39
564.02
4.84
493.52
6.29
423.01 0.064 [1.63]
TJ9-XX 1000.0 ± 15%
0.059
10.3
998.56
1.91
763.90
3.09
679.02
4.41
594.14
5.74
509.27 0.064 [1.63]
TJ9-XX 1200.0 ± 15%
0.082
9.8
1211.04
1.74
926.45
2.80
823.51
4.01
720.57
5.21
617.63 0.057 [1.45]
TJ9-XX 1500.0 ± 15%
0.091
9.3
1505.44
1.56
1151.66
2.52
1023.70
3.59
895.74
4.67
767.77 0.057 [1.45]
TJ9-XX 1800.0 ± 15%
0.118
8.9
1797.76
1.42
1375.29
2.30
1222.48
3.29
1069.67
4.27
916.86 0.051 [1.30]
TJ9-XX 2200.0 ± 15%
0.131
8.4
2190.24
1.29
1675.53
2.09
1489.36
2.98
1303.19
3.87
1117.02 0.051 [1.30]
TJ9-XX 2700.0 ± 15%
0.147
8.0
2704.00
1.16
2068.56
1.88
1838.72
2.68
1608.88
3.49
1379.04 0.051 [1.30]
TJ9-XX 3300.0 ± 15%
0.165
7.6
3317.76
1.05
2538.09
1.69
2256.08
2.42
1974.07
3.15
1692.06 0.051 [1.30]
TJ9-XX 3900.0 ± 15%
0.181
5.2
3893.76
0.97
2978.73
1.56
2647.76
2.23
2316.79
2.90
1985.82 0.051 [1.30]
TJ9-XX 4700.0 ± 15%
0.201
5.1
4678.56
0.88
3579.10
1.43
3181.42
2.04
2783.74
2.65
2386.07 0.051 [1.30]
TJ9-XX 5600.0 ± 15%
0.224
5.0
5595.04
0.81
4280.21
1.30
3804.63
1.86
3329.05
2.42
2853.47 0.051 [1.30]
MIN.
IND.
(μH)
20%
CURRENT
(Amps)
MIN.
IND.
(μH)
30%
CURRENT
(Amps)
MIN.
IND.
(μH)
40%
CURRENT
(Amps)
MIN.
IND.
(μH)
LEAD
DIAMETER
"A"
*The DC current values listed are typical values that drop the nominal inductance by the percent listed.
MARKING
ORDERING INFORMATION
TJ5
MODEL
— Vishay Dale
1U
MOUNTING/COATING
CODE
330μH
INDUCTANCE
VALUE
15%
TOLERANCE
— Model number
— Date code
Document Number 34079
Revision 08-Jan-02
1U = Unmounted vertical/uncoated
(may not be self supporting).
2U = Unmounted horizontal/uncoated.
For technical questions, contact [email protected]
www.vishay.com
55
TE and TD
Vishay Dale
Filter Inductors
Toroid
FEATURES
x Choice of encapsulated (TE) or dipped (TD) styles
x TD style combines low cost with excellent
performance in commercial applications
x High Q and wide selection of Q versus
frequency ranges in one small package.
Large number of standard inductance values
RoHS
COMPLIANT
STANDARD ELECTRICAL SPECIFICATIONS (Applies to Core Only)
MODEL
TE-3
TD-3
TE-4
TD-4
TC
CODE
TE-5
TD-5
TEMPERATURE
COEFFICIENT
TC AVAILABILITY
TEMPERATURE
RANGE
Q0
Q3
Q4
X
X
X
X
TA
0 ± 1%
- 55 °C to + 125 °C
X
X
X
X
TD
0 ± 0.1%
0 °C to + 55 °C
X
X
X
X
TL*
+ 40 to + 110 ppm/°C
+ 85 to + 185 ppm/°C
- 55 °C to + 25 °C
+ 25 °C to + 85 °C
X
X
X
TM
0 ± 0.25 %
- 6 5°C to + 125 °C
X
X
X
TR
50 ppm/°C (Typical)
- 65 °C to + 125 °C
X
X
X
TW
0 ± 0.25 %
- 55 °C to + 85 °C
X
X
X
X
X
X
X
* Inverse of typical Temperature Coefficient of polystyrene capacitor.
ELECTRICAL SPECIFICATIONS
INDUCTANCE RANGE
Tolerance:
TC
CODE
TE-3
TD-3
TE-4
TD-4
TE-5
TD-5
Q0
50 µH to 15 mH
150 µH to 20 mH
1 mH to 100 mH
Q3
500 µH to 1 H
1 mH to 2 H
5 mH to 2 H
TE-3, TD-3 = ± 1 % > 2 mH, ± 2 % 154 µH to 2 mH, ± 5 % < 150 µH
TE-4, TD-4 = ± 1 % > 2 mH, ± 2 % < 2 mH
TE-5, TD-5 = ± 1% > 2mH, ± 2% < 2mH
Q4
1 mH to 4 H
2 mH to 5 H
10 mH to 5 H
Insulation Resistance: 1000 Megohm minimum
Dielectric Strength: 1000 V minimum (TE)
500 V minimum (TD)
DIMENSIONS in inches [millimeters]
TE
TD
MECHANICAL SPECIFICATIONS
A Dia.
Max.
D
C Min.
B
F Dia. Max.
C
Min.
A Dia.
Max.
D
Weight:
TE-3 = 5.1 grams, TD-3 = 4.9 grams typical
TE-4 = 20 grams, TD-4 = 17 grams typical
TE-5 = 53 grams, TD-5 = 52 grams typical
F Min.
Dia.
MODEL
A
B
F
G
TE-3
0.685
[17.40]
0.385
[9.78]
1.0
0.025 0.500
[25.40] [0.635] [12.70]
0.093
[2.36]
0.250
[6.35]
TD-3
0.685
[17.40]
0.320
[8.13]
3.0
[76.20]
0.125
[3.18]
-
TE-4
1.06
0.500
1.0
0.032 0.900
[26.92] [12.70] [25.40] [0.813] [22.86]
0.120
[3.05]
0.450
[11.43]
TD-4
1.06
0.437
4.0
[26.92] [11.10] [101.60]
0.220
[5.59]
-
TE-5
1.33
0.735
1.0
0.032
1.0
[33.78] [18.67] [25.40] [0.813] [25.40]
0.144
[3.66]
0.500
[12.70]
TD-5
1.32
0.688
6.0
[33.53] [17.48] [152.40]
0.220
[5.59]
-
www.vishay.com
56
C
-
-
-
Terminal Strength: 2 pounds pull test (TE)
Vibration: Per MIL-T-27 (TE)
Shock: Per MIL-T-27 (TE)
B
Max.
G
E
0.375 ± 0.125
[9.53 ± 3.18]
E
-
-
-
MATERIAL SPECIFICATIONS
Coating: Vinyl (TD), non-flammable, abrasion and moisture
resistant. Resists most cleaning agents
(Consult factory for chemicals which may be used)
Standard Terminals: Tinned copper (TE)
Stranded, tinned copper, Teflon insulated (TD)
Encapsulant: Epoxy (TE)
Gauge:
TE-3 = 22 AWG, TD-3 = 26 AWG
TE-4 = 20 AWG, TD-4 = 24 AWG
TE-5 = 20 AWG, TD-5 = 24 AWG
For technical questions contact [email protected]
Document Number: 34078
Revision: 02-Jun-06
TE and TD
Filter Inductors, Toroid
Vishay Dale
DESCRIPTION
TE-3
Q0
TR
5 mH
±1%
EB
e2
MODEL
Q
TYPE
TC
CODE
INDUCTANCE
VALUE
INDUCTANCE
TOLERANCE
PACKAGE
CODE
JEDEC LEAD (Pb)-FREE
STANDARD
T
E
GLOBAL PART NUMBER
T
E
Q
3
MODEL
O
Q TYPE
R
5
B
0
PACKAGE
CODE
TC CODE
0
F
1
INDUCTANCE
VALUE
INDUCTANCE
TOLERANCE
DC RESISTANCE AND SELF-RESONANT FREQUENCIES (Typical Values)
MODEL
INDUCTANCE
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-3, TD-3
TE-4, TD-4
TE-4, TD-4
TE-4, TD-4
TE-4, TD-4
TE-4, TD-4
TE-4, TD-4
TE-4, TD-4
TE-4, TD-4
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
TE-5, TD-5
50.0 µH
100.0 µH
332.0 µH
1.0 mH
3.32 mH
10.0 mH
15.0 mH
33.2 mH
100.0 mH
332.0 mH
1.0 H
4.0 H
150.0 µH
1.0 mH
2.0 mH
10.0 mH
20.0 mH
100.0 mH
1.0 H
2.0 H
1.0 mH
3.32 mH
5.0 mH
10.0 mH
33.2 mH
100.0 mH
332.0 mH
1.0 H
2.0 H
Q0
DCR (Ohms)
Q3
Q4
SELF-RESONANT FREQUENCY (MHz)
Q0
Q3
Q4
0.68
1.0
3.3
6.9
24.0
84.0
106.0
0.54
2.8
5.5
27.0
54.0
1.8
5.2
6.5
13.0
49.0
133.0
-
1.5
4.1
14.0
17.0
40.0
138.0
555.0
1500.0
0.7
1.4
4.9
9.6
56.0
570.0
1200.0
1.8
2.4
8.8
27.0
80.0
222.0
475.0
0.82
2.3
5.9
9.1
18.0
58.0
220.0
670.0
2700.0
0.78
2.5
5.0
23.0
260.0
520.0
1.7
3.9
11.0
44.0
121.0
217.0
7.6
5.1
2.9
1.4
0.79
0.40
0.34
2.6
1.0
0.64
0.24
0.18
0.80
0.44
0.33
0.21
0.12
0.061
-
1.1
0.57
0.29
0.24
0.14
0.08
0.04
0.021
0.75
0.54
0.21
0.15
0.059
0.016
0.013
0.32
0.20
0.11
0.057
0.032
0.016
0.012
1.0
0.55
0.25
0.21
0.12
0.077
0.038
0.019
0.009
0.45
0.18
0.13
0.051
0.014
0.011
0.15
0.086
0.044
0.024
0.012
0.008
STANDARD INDUCTANCE VALUE
The following standardization chart is offered
for your design and ordering convenience.
Each value listed is within one percent of the
preceding and succeeding values shown.
All decade multiples of these values, within
the range shown for each model in the chart,
are Vishay Dale standard values.
(Example: For a TE-3, 200 µH, 20 mH and
200 mH are all decade multiples of 2.00 and
are all standard values.)
Document Number: 34078
Revision: 02-Jun-06
1.00
1.02
1.05
1.07
1.10
1.13
1.15
1.18
1.21
1.24
1.27
1.30
1.33
1.37
1.40
1.43
1.47
1.50
1.54
1.58
1.62
1.65
1.69
1.74
1.78
1.82
1.87
1.91
1.96
2.00
2.05
2.10
2.15
2.21
2.26
2.32
2.37
2.43
2.49
2.55
2.61
2.67
2.74
2.80
2.87
2.94
3.00
3.01
3.09
3.16
3.24
3.32
3.40
3.48
3.57
3.65
For technical questions contact [email protected]
3.74
3.83
3.92
4.00
4.02
4.12
4.22
4.32
4.42
4.53
4.64
4.75
4.87
4.99
5.00
5.11
5.23
5.36
5.49
5.62
5.76
5.90
6.00
6.04
6.19
6.34
6.49
6.65
6.81
6.98
7.00
7.15
7.32
7.50
7.68
7.87
8.00
8.06
8.25
8.45
8.66
8.87
9.00
9.09
9.31
9.53
9.76
www.vishay.com
57
TE and TD
Filter Inductors, Toroid
Vishay Dale
PERFORMANCE GRAPHS: INDUCTANCE VS DC BIAS, INDUCTANCE VS AC EXCITATION
TE-3, TD-3
% INDUCTANCE CHANGE
0
DC
EFFECT
-5
Q3
- 10
Q4
AC
EFFECT
Q0
- 15
DC
EFFECT
- 20
- 25
Q3
Q4
1
10
100
1000
10,000
INDUCTOR CURRENT IN mA x ⎟ INDUCTANCE IN mH
TE-4, TD-4
Q0
DC
EFFECT
% INDUCTANCE CHANGE
0
-5
- 10
Q4
Q3
- 15
- 20
DC
EFFECT
- 25
Q4
1
10
100
AC
EFFECT
Q3
1000
10,000
INDUCTOR CURRENT IN mA x ⎟ INDUCTANCE IN mH
TE-5, TD-5
DC
EFFECT
% IN DU CT A NCE CHA N GE
0
Q0
-5
Q4
- 10
Q3
AC
EFFECT
- 15
DC
EFFECT
- 20
- 25
Q4
1
10
100
Q3
1000
10,000
INDUCTOR CURRENT IN mA x ⎟ INDUCTANCE IN mH
www.vishay.com
58
For technical questions contact [email protected]
Document Number: 34078
Revision: 02-Jun-06
TE and TD
Filter Inductors, Toroid
Vishay Dale
PERFORMANCE GRAPHS: TYPICAL Q VS FREQUENCY
TE-3, TD-3
TE-4, TD-4
Q0
Q0
1000
“Q”
“Q”
1000
100
3.3
mH
1
mH
330
µH
150
µH
100
50
µH
15
mH
20
mH
10
10
mH
100
1000
10,000
10
100
FREQUENCY - kHz
1000
10,000
FREQUENCY - kHz
Q3
Q3
1000
“Q”
1000
“Q”
1
mH
10
10
100
1
H
100
100
mH
1
H
1
mH
10
mH
100
mH
10
10
mH
1
mH
10
1
10
100
1
1000
10
100
1000
FREQUENCY - kHz
FREQUENCY - kHz
Q4
Q4
100
1000
“Q”
“Q”
3.3
mH
10
1
H
4
H
100
mH
10
mH
2
mH
100
1
mH
7.5
H
100
mH
1
H
10
mH
10
1
1
10
100
1000
0.1
FREQUENCY - kHz
Document Number: 34078
Revision: 02-Jun-06
For technical questions contact [email protected]
1
10
100
FREQUENCY - kHz
www.vishay.com
59
TE and TD
Filter Inductors, Toroid
Vishay Dale
PERFORMANCE GRAPHS: TYPICAL Q VS FREQUENCY
TE-5, TD-5
Q0
Q3
1000
1000
“Q”
“Q”
5
mH
100
100
mH
10
mH
100
1
mH
2
H
10
330
mH
100
mH
10
1
10
100
0.1
1000
1
FREQUENCY - kHz
10
100
FREQUENCY - kHz
Q4
“Q”
1000
100
20
H
100
mH
1
H
10
mH
10
0.1
1
10
100
FREQUENCY - kHz
MARKING
- Vishay Dale
- Model
- Q type
- TC code
- Inductance value
- Inductance tolerance
- Date code
www.vishay.com
60
For technical questions contact [email protected]
Document Number: 34078
Revision: 02-Jun-06
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.
Air Core Inductors
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.
ELECTRICAL SPECIFICATIONS
Frequency: To 500MHz.
Current: 10 amp maximum.
Temperature: To + 130°C.
MECHANICAL SPECIFICATIONS
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" [2.01mm to 8.99mm].
Coil Length: Up to 1.26" [32.0mm].
Inductive Products
Can't 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 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 amps. 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, Pulse
Transformers, High Voltage Transformers.
Document Number 34003
Revision 23-Jan-02
For technical questions, contact [email protected]
www.vishay.com
61
Custom Products
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
Duty Cycle: _______ %
Minimum Line Frequency (Hz):
50 60 400 1K 100K 150K 250K Other _______
Primary Input Voltage:
90 100 115 120 200 230 240 115/230 Other: ______
Maximum Temperature Rise (°C)
10 20 30 40 50 Other _______
Protection (Resettable or Single Use):
Thermal Fused Other _______
Efficiency: _______ %
Regulation: _______ %
Isolation Voltage: _______ Vac/Vdc
Agency Requirements: UL VDE CSA IEC
Interwinding Capacitance (Ciw): _______ pF
Leakage Ind. (LI): _______ PH
SCHEMATIC
Voltage: __________
Current: __________
L: __________
Voltage: __________
Current: __________
Rect: __________
AC or DC
Rms or Peak
HW FW FWB
Other Requirements:
____________________
____________________
Voltage: __________
Current: __________
L: __________
Voltage: __________
Current: __________
Rect: __________
AC or DC
Rms or Peak
HW FW FWB
Other Requirements:
____________________
____________________
Voltage: __________
Current: __________
L: __________
Voltage: __________
Current: __________
Rect: __________
AC or DC
Rms or Peak
HW FW FWB
Other Requirements:
____________________
____________________
Voltage: __________
Current: __________
L: __________
Voltage: __________
Current: __________
Rect: __________
AC or DC
Rms or Peak
HW FW FWB
Budgetary/Target Price:
[email protected]_________ pcs
Screen or Shield
Thick: _________
Material: _________
Pin Requirements
Outer Shield
Thick: _________
Material: _________
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
Length (Max.): __________
Width (Max.): __________
Height (Max.): __________
Other
Grid Units: _________
Temperature Class (°C):
105 130 155 180 200
PRIORITIZATION (1-HIGHEST)
______________________________________________________________
______________________________________________________________
____________________________________________________________________________________________________________________________
__________ Size
__________ Efficiency
__________ Cost
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Power Transformer Design Information
CONTACT INFORMATION
Contact Person _________________________________
E-Mail __________________________________________
Phone # _____ - _____ - ______
Fax # _____ - _____ - ______
Company _________________________
General Application of this product: _____________________________________________________________________
ELECTRICAL REQUIREMENTS
Approximate Output Power: __________ VA
Duty Cycle: _______ %
Minimum Line Frequency (Hz):
50 60 400 1K 100K 150K 250K Other _______
Primary Input Voltage:
90 100 115 120 200 230 240 115/230 Other: ______
Maximum Temperature Rise (°C)
10 20 30 40 50 Other _______
Protection (Resettable or Single Use):
Thermal Fused Other _______
Efficiency: _______ %
Regulation: _______ %
Isolation Voltage: _______ Vac/Vdc
Agency Requirements: UL VDE CSA IEC
Interwinding Capacitance (Ciw): _______ pF
Leakage Ind. (LI): _______ μH
SCHEMATIC
Voltage: __________
Current: __________
L: __________
Voltage: __________
Current: __________
Rect: __________
AC or DC
Rms or Peak
HW FW FWB
Other Requirements:
____________________
____________________
Voltage: __________
Current: __________
L: __________
Voltage: __________
Current: __________
Rect: __________
AC or DC
Rms or Peak
HW FW FWB
Other Requirements:
____________________
____________________
Voltage: __________
Current: __________
L: __________
Voltage: __________
Current: __________
Rect: __________
AC or DC
Rms or Peak
HW FW FWB
Other Requirements:
____________________
____________________
Voltage: __________
Current: __________
L: __________
Voltage: __________
Current: __________
Rect: __________
AC or DC
Rms or Peak
HW FW FWB
Budgetary/Target Price:
[email protected]_________ pcs
Screen or Shield
Thick: _________
Material: _________
Pin Requirements
Outer Shield
Thick: _________
Material: _________
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
Length (Max.): __________
Width (Max.): __________
Height (Max.): __________
Other
Grid Units: _________
Temperature Class (°C):
105 130 155 180 200
OTHER REQUIREMENTS
PRIORITIZATION (1-HIGHEST)
______________________________________________________________
______________________________________________________________
____________________________________________________________________________________________________________________________
__________ Size
__________ Efficiency
__________ Cost
(Continue on separate sheet if necessary)
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PWM, PSM, & FM Transformer Design Information
CONTACT INFORMATION
Contact Person _________________________________
E-Mail __________________________________________
Phone # _____ - _____ - ______
Fax # _____ - _____ - ______
Company _________________________
General Application of this product: _____________________________________________________________________
Primary Voltage ________ Vac/Vdc
Frequency: ________________Hz
Secondary Voltage ________ Vac/Vdc
Isolation 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)
10 20 30 40 50 Other________
Protection (Resettable or single use):
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: __________PH(Max.)
Ciw: __________ pF(Max.)
ET: __________V-Psec
SCHEMATIC
Voltage: __________
Current: __________
L: __________
Voltage: __________
Current: __________
Rect: __________
AC or DC
Rms or Peak
HW FW FWB
Other Requirements:
____________________
____________________
Voltage: __________
Current: __________
L: __________
Voltage: __________
Current: __________
Rect: __________
AC or DC
Rms or Peak
HW FW FWB
Other Requirements:
____________________
____________________
Voltage: __________
Current: __________
L: __________
Voltage: __________
Current: __________
Rect: __________
AC or DC
Rms or Peak
HW FW FWB
Other Requirements:
____________________
____________________
Voltage: __________
Current: __________
L: __________
Voltage: __________
Current: __________
Rect: __________
AC or DC
Rms or Peak
HW FW FWB
Budgetary/Target Price:
[email protected]_________ pcs.
Outer Shield
Thick:
Material:
Screen or Shield
Thick: __________
Material: __________
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
Length (Max.): __________
Width (Max.): __________
Height (Max.): __________
Other
Temperature Class (°C):
105 130 155 180 200
Grid Units: _________
OTHER REQUIREMENTS
PRIORITIZATION (1-HIGHEST)
______________________________________________________________
______________________________________________________________
______________________________________________________________
(Continue on separate sheet if necessary)
__________ Size
__________ Efficiency
__________ Cost
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Power, Filter and Switchmode Inductor Design Information
CONTACT INFORMATION
Contact Person _________________________________
E-Mail __________________________________________
Phone # _____ - _____ - ______
Fax # _____ - _____ - ______
Company _________________________
General Application of this product: _____________________________________________________________________
Application: Power/Energy Storage or
Filter/Frequency Selection
ELECTRICAL REQUIREMENTS
L:
DC Bias:
L @ DC Bias:
Q Min. @ nominal L:
% of Saturation (Max.):
AC Current or Voltage Level:
DC Current or Voltage Level:
H
Adc
H
%
Aac or Vac
Adc or Vdc
Impedance: _________ Ohms @ ___________ Hz
Frequency (range):
SRF:
ET:
DCR (Max.):
Dielectric Rating:
Hz
Hz
V-Psec
Ohms
Vac/Vdc
Operating Temperature Range: __________ to _______
Maximum Temperature Rise (°C): 10 20 30 40 50 ___
Buck and Boost Inductors
SCHEMATIC
Input Voltage
Output Voltage
Switching Frequency:
Maximum DC Output Current:
Minimum DC Output Current:
Maximum Duty Cycle:
Minimum Duty Cycle:
AC Ripple:
Voltage: __________ AC or DC
Current: __________ Rms or Peak
Other: __________
Voltage: __________ AC or DC
Current: __________ Rms or Peak
Other: __________
Voltage: __________ AC or DC
Current: __________ Rms or Peak
Other: __________
V
V
Hz
A
A
%
%
%
Budgetary/Target Price:
[email protected]____ pcs.
Voltage: __________ AC or DC
Current: __________ Rms or Peak
Other: __________
Outer Shield
Thick: _________
Material: _________
Screen or Shield
Thick: _________
Material: _________
Pin Requirements
PHYSICAL REQUIREMENTS
Flame Retardant:
Standard Varnish:
Encapsulated:
Hermetically Sealed:
Shielded:
Yes
Yes
Yes
Yes
Yes
No
No
No
No
No
Mounting Style: Vertical or Horizontal
Thru Hole Surface Mount Flying Leads
Inside Diameter (Min.):
Length (Max.):
Width (Max.):
Height (Max.):
__________
__________
__________
__________
Other ______
Grid Units: _________
Temperature Class (°C):
105 130 155 180 200
OTHER REQUIREMENTS
PRIORITIZATION (1-HIGHEST)
______________________________________________________________
______________________________________________________________
______________________________________________________________
(Continue on separate sheet if necessary)
__________ Size
__________ Efficiency
__________ Cost
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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
Frequency Range: _____Hz to _____Hz
Power Rating: ________ Watts
Frequency Response: ref_____Hz ±______db from_____Hz
Primary Voltage:________ Vac/Vdc
to_______Hz
Primary Impedance: ________ Ohms
Insertion/Transducer Loss: ±_____db(Max.) or ±_____db
Secondary Impedance: ________ Ohms
@______Hz
Turns Ratio: ________ (if known)
Longitudinal Transverse Balance:
Isolation Voltage: ________ Vac/Vdc
______db(Min.) from_______Hz to _______Hz
DC Loop Current: ________mA dc
______db(Min.) from_______Hz to _______Hz
Maximum Drive Level: ________ dbm Vrms
Crosstalk: ______db or better from_____Hz to_____Hz
ref Resistance: ________ Ohms
w/_______spacing.
Distortion: ________% Maximum
Return Loss: ________ db(Min.)
Leakage L: __________μH(Max.)
Ciw: __________ pF(Max.)
DCR: __________Ohms
SCHEMATIC
Z: ________
L: ________
DC current: ________
Z: __________
L: __________
Output: Single Push-Pull
Z: ________
L: ________
DC current: ________
Z: __________
L: __________
Output: Single Push-Pull
Z: ________
L: ________
DC current: ________
Z: __________
L: __________
Output: Single Push-Pull
Z: ________
L: ________
DC current: ________
Z: __________
L: __________
Output: Single Push-Pull
Modem Specifications:
V.22 V.29 V.32 V.34 V.90
Budgetary/Target Price:
[email protected]_____ pcs.
Pin Requirements
Outer Shield
Thick:
Material: __________
Screen or Shield
Thick:
Material:
Flame Retardant:
Standard Varnish:
Encapsulated:
Hermetically Sealed:
Shielded:
Build or Certify to Agency
Requirements:
UL/CSA FCC BABT Other
_______________________
Yes
Yes
Yes
Yes
Yes
No
No
No
No
No
Mounting Style:
Thru Hole Surface Mount
Flying Leads
Inside Diameter (Min.):
Length (Max.):
Width (Max.):
Height (Max.):
Other
Grid Units: _________
Temperature Class (°C):
105 130 155 180 200
OTHER REQUIREMENTS
PRIORITIZATION (1-HIGHEST)
______________________________________________________________
______________________________________________________________
______________________________________________________________
(Continue on separate sheet if necessary)
__________ Size
__________ Efficiency
__________ Cost
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Test & Measurement Transformer Design Information
CONTACT INFORMATION
Contact Person _________________________________
E-Mail __________________________________________
Phone # _____ - _____ - ______
Fax # _____ - _____ - ______
Company _________________________
General Application of this product: _____________________________________________________________________
ELECTRICAL REQUIREMENTS
Frequency range: _____Hz to__ref_______Hz
Primary Voltage: ________ Vac/Vdc
Primary Current Range: ________Ohms
Desired Secondary Voltage: ________Ohms
Load/Burden Resistance: ____________Ohms
Isolation Voltage: ________________Vac/Vdc
DC Current: _______________mAdc
Turns Ratio: ________(if known)
Accuracy Required: ________ %
Maximum Phase Error Angle: [email protected] 10%
[email protected] 100%
Ratio Error: [email protected] 10%
[email protected] 100%
Operating Temperature Range: __________to___________
Dielectric Rating: ________Vac/Vdc
SCHEMATIC
Voltage: __________
Current: __________
Other: __________
Voltage: __________
Current: __________
RL: __________
AC or DC
Rms or Peak
Ohms
Voltage: __________
Current: __________
Other: __________
Voltage: __________
Current: __________
RL: __________
AC or DC
Rms or Peak
Ohms
Voltage: __________
Current: __________
Other: __________
Voltage: __________
Current: __________
RL: __________
AC or DC
Rms or Peak
Ohms
Voltage: __________
Current: __________
Other: __________
Voltage: __________
Current: __________
RL: __________
AC or DC
Rms or Peak
Ohms
Screen or Shield
Thick: _________
Material: _________
Outer Shield
Thick: _________
Material: _________
Other Requirements:
____________________
____________________
Other Requirements:
____________________
____________________
Other Requirements:
____________________
____________________
Budgetary/Target Price:
[email protected]_________ 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: Vertical or Horizontal
Thru Hole Surface Mount Flying Leads
Inside Diameter (Min.): ___________
Length (Max.): ___________
Width (Max.): ___________
Height (Max.): ___________
Other _____
Grid Units: _________
Temperature Class (°C):
105 130 155 180 200
OTHER REQUIREMENTS
PRIORITIZATION (1-HIGHEST)
______________________________________________________________
______________________________________________________________
______________________________________________________________
(Continue on separate sheet if necessary)
__________ Size
__________ Efficiency
__________ Cost
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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
(See Ceramic Core and Phenolic Core.)
Bobbins
AMBIENT TEMPERATURE
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 inch from the body of the component or circuit.
Axial Leaded
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 Log 10 (l 1 /l 2 ) 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.)
Radial Leaded
Leadless
BOOST REGULATOR (DC-DC)
A basic DC-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
Axial Leaded Inductor
D
L
+
+
+
BOBBIN CORE
V in
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.)
Document Number 34053
Revision 06-Mar-02
Q
C
V out
-
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-
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Definitions
Inductor and Magnetic Product Terminology
Vishay Dale
BUCK REGULATOR (DC-DC)
COLOR CODE CHART
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
+
+
+
V in
D
C
-
V out
-
COLOR
SIGNIFICANT
FIGURES OR
DECIMAL POINT
MULTIPLIER
0
1
2
3
4
5
6
7
8
9
—
—
1
10
100
1000
10,000
—
—
—
—
—
—
—
Black
Brown
Red
Orange
Yellow
Green
Blue
Violet
Gray
White
None
Silver
Gold
INDUCTANCE
TOLERANCE
—
± 1%
± 2%
± 3%
± 4%
—
—
—
—
—
± 20%
± 10%
± 5%
CERAMIC CORES
COMMON-MODE NOISE
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.
Noise or electrical interference that is common to both electrical
lines in relation to earth ground.
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.)
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
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:
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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.)
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Document Number 34053
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Definitions
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.
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 = 2Sf L
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 flow
of current, including the AC and DC component. The
Document Number 34053
Revision 06-Mar-02
Vishay Dale
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, 47mH would equal
47,000PH.
1 henry (H) = 106PH
1 millihenry (mH) = 103PH
1 microhenry (μH) = 1PH
1 nanohenry (nH) = 10-3PH
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%*
± 20%
*L = ± 20% for some Military Products.
For technical questions, contact [email protected]
www.vishay.com
71
Definitions
Inductor and Magnetic Product Terminology
Vishay Dale
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.)
flux linkages and reactance of the individual strands. 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.)
*KOOL MU® CORE
MONOLITHIC INDUCTOR
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.
(See Multilayer Inductor.)
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 the
*Kool Mu® is a registered trademark of Magnetics, Inc.
www.vishay.com
72
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% - 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.
For technical questions, contact [email protected]
Document Number 34053
Revision 06-Mar-02
Definitions
Inductor and Magnetic Product Terminology
Vishay Dale
OHM
POLYOLEFIN TUBING
The unit of measurement for resistance and impedance.
Resistance is calculated by Ohm's Law:
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.
R = V/l
V = voltage
l = current.
where R = resistance
POWDERED IRON CORE
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.)
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.)
Q
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 UL94V-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
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:
Q=
XL
Re
=
2SfL
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.
A filter consisting of two capacitors connected in parallel with a
series inductor. These filters are commonly found near DC-DC
converters to filter ripple current and voltage.
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 22kHz to
70MHz.
Basic Pi-Filter
RF CHOKE
Another name for a radio frequency inductor which is intended
to filter or choke out signals. (See Inductor.)
+
V in
+
C1
-
Document Number 34053
Revision 06-Mar-02
L
C2
V out
-
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]
www.vishay.com
73
Definitions
Vishay Dale
Inductor and Magnetic Product Terminology
RADIAL INDUCTOR
SRF (SELF-RESONANT FREQUENCY)
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.)
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.
Radial Inductor Styles
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
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.
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 also
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
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.)
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74
For technical questions, contact [email protected]
Non-Leaded
Leaded
Document Number 34053
Revision 06-Mar-02
Definitions
Inductor and Magnetic Product Terminology
Vishay Dale
STORAGE TEMPERATURE RANGE
TEST FREQUENCY
Range of ambient temperatures over which a component can
be stored safely. (See Operating Temperature Range.)
The frequency at which inductors are tested for either
inductance or Q or both. Some test frequencies used widely
in the industry include:
SWITCHING FREQUENCY
COMMON TEST FREQUENCIES
The operating frequency of a switching regulator.
TEST FREQUENCY INDUCTOR/VALUE MEASURED
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.)
1kHz
Power Inductors (Wide Value Range)
0.079MHz
RF Inductors (above 10,000PH to 100,000PH)
0.250MHz
RF Inductors (above 1,000PH to 10,000PH)
0.790MHz
RF Inductors (above 100PH to 1,000PH)
2.5MHz
RF Inductors (above 10PH to 100PH)
7.9MHz
RF Inductors (above 1PH to 10PH)
TAPE WOUND CORES
25MHz
RF Inductors (above .10PH to 1PH)
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.)
50MHz
RF Inductors (.01PH to 0.1PH)
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
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.
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 Ohm - 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.
Toroidal Inductors
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
Document Number 34053
Revision 06-Mar-02
For technical questions, contact [email protected]
www.vishay.com
75
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 inductor
under test. Distributed Capacitance is only a concern with inductors with large inductance values (typically above 1mH).
The fundamental difficulty with measuring inductance and Q is that coil inductance, parasitics1 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.
1
Unwanted stray inductance and capacitance inherent in the product's construction.
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76
For technical questions, contact [email protected]
Document Number 34093
Revision 28-Feb-02
Engineering Note
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 ohms 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
I N ST RU ME N T
FR EQ U E NCY
IN DUC TA NCE
HP4342A Q meter
25MHz
682.3nH
HP4192A
0.130MHz
607.0nH
592.7nH
HP4192A
10MHz
Booton 62AD
1MHz
594.0nH
Tektronix LC130
0.130MHz
1300.0nH
HP4191A
100MHz
1065.0nH
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-181291, 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 28-Feb-02
For technical questions, contact [email protected]
www.vishay.com
77
Packaging Methods
Vishay Dale
Leaded Magnetics Packaging Methods
TAPE AND REEL in inches [millimeters]
Reel Pack
11 3/32
[281.78]
9/16 to 5/8
[14.29 to 15.88]
Hole
IM-1
PACKAGE
CODE
R36
IM-2
RJ1
RJ4
R36
IM-4
RJ1
RJ4
R36
IM-6
RJ1
RJ4
R16
MODEL
IM-6-38
RJ2
RJ5
R16
RJ2
RJ5
R16
RJ2
RJ5
R16
RJ2
R16
IM-6RFCS-40
RJ2
RJ5
R36
IM-10-22
IM-10-28
IM-10-31
IM-10-37
IM-10-46
IM-10RFCL-12
IMS-2WWD-40
RJ1
RJ4
R16
R07
N/A
R16
N/A
RB5
R36
IMS-2
RJ1
RJ4
R36
IM-8
IM-9
IM-10
REEL SIZE
7.5
12
7.5
7.5
7.5
12
7.5
7.5
7.5
12
7.5
7.5
7.5
12
7.5
12
12
7.5
12
12
7.5
12
12
7.5
7.5
12
7.5
12
7.5
12
7.5
12
12
12
12
12
7.5
12
7.5
7.5
7.5
12
7.5
7.5
RJ1
RJ4
CARRIER TAPE
WIDTH (W)
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.88[73.15]
2.06[52.39]
2.19[55.63]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
COMPONENT
PITCH (P)
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.4[10.16]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
UNITS/
REEL
1500
4000
400
1000
1500
4000
400
1000
1000
2500
400
1000
500
1000
400
1000
1000
400
1000
800
400
1000
800
400
500
1000
400
1000
500
1000
400
1000
500
250
500
250
1500
4000
400
1000
1500
4000
400
1000
PACKAGE
CODE
B08
UNITS/
BULK
200
B08
200
B08
200
B08
200
B08
100
B08
80
B08
70
B08
200
B08
200
B08
B08
B08
B08
B08
B08
B08
100
70
50
40
25
50
200
B08
200
NOTE: Shaded area indicates bulk packaging.
www.vishay.com
78
For technical questions, contact: [email protected]
Document Number: 34148
Revision: 23-Jan-02
Packaging Methods
Leaded Magnetics Packaging Methods
Vishay Dale
TAPE AND REEL in inches [millimeters]
MODEL
IMS-5
PACKAGE
CODE
R36
IMS-5WD-40
RJ1
RJ4
RB6
IR-2
R36
IR-4
RJ2
RJ5
R36
IRF-1
RJ1
RJ4
R36
IRF-3
RJ1
RJ4
R36
IRF-24
IRF-36
IRF-46
IHD-1
RJ1
RJ4
R36
R36
R36
R16
IHD-3
IHA-10x
IHA-20x
IHA-30x
IHA-50x
IH-3
IH-5
IH-10
IH-15
IHM-2
IHB-1
IHB-2
IHB-3
IHB-4
IHB-5
IHB-6
IHV
PC
WVL
TJ
RA3
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
TE-3
TE-4
TE-5
TD-3
TD-4
TD-5
N/A
N/A
N/A
N/A
N/A
N/A
REEL SIZE
7.5
12
7.5
7.5
7.5
12
7.5
12
7.5
12
7.5
12
7.5
7.5
7.5
12
7.5
7.5
7.5
12
7.5
7.5
12
12
12
7.5
12
12
-
CARRIER TAPE
WIDTH (W)
2.50[63.50]
2.50[63.50]
2.50[63.50]
2.50[63.50]
2.50[63.50]
2.50[63.50]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.06[52.39]
2.87[72.90]
-
COMPONENT
PITCH (P)
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.2[5.08]
0.4[10.16]
0.4[10.16]
0.6[15.24]
-
UNITS/
REEL
1000
2500
400
1000
1000
2500
1500
4000
400
1000
1000
2500
400
1000
1500
4000
400
1000
1000
2500
400
1000
5000
5000
5000
200
800
200
-
PACKAGE
CODE
B08
UNITS/
BULK
200
B08
200
B08
200
B08
200
B08
200
B08
200
N/A
N/A
N/A
B08
50
B08
B01
B01
B01
B01
B15
B15
B15
B15
P12
B40
B40
B40
B40
B40
B40
B48
F09
F09
B09
T07
T07
T07
T07
P09
P09
P09
various
various
various
various
various
various
various
various
various
20
various
various
various
16
16
16
various
120
120
various
various
35
42
36
5
2
2
NOTE: Shaded area indicates bulk packaging.
Document Number: 34148
Revision: 23-Jan-02
For technical questions, contact: [email protected]
www.vishay.com
79
Packaging Methods
Leaded Magnetics Packaging Methods
Vishay Dale
MILITARY PART ORDERING EXAMPLES
TRANSFORMERS AND INDUCTORS
1. Military Specification
2. Specification Sheet Number
3. Specification Sheet Dash Number
Indicating Value and Electrical Ratings
MIL-T-27E (Basic [TF]) (Established Reliability - None)
M27 215 05
Dale
TE1.0 2 %
=
1
2
3
Type
3Q0TR mH
MIL-C-15305E (Basic [LT]) (Established Reliability MIL-C-39010)
LT
4
K
Dale IM-2 (0.10 µH to 1.00 µH) 10 %
=
1
2
3
Type
NOTE: Parts will be color banded.
Value per Military
Standard dash numer.
1. Style
2. Grade and Class
3. Family K = Coil, Radio Frequency, Fixed
1. Specification Sheet
2. Temperature Class: A = 105, B = 125
3. Value: R = Decimal Point
4. Tolerance: J = 5, K = 10, L = 20
5. Failure Rate Level
MIL-C-39010D (Established Reliability)
NOTE: Parts will be
M39010/01 A 1R0 J R = Dale IMS-5A-ER 1.0µH 5%
printed as shown.
1
2 3 4 5
Type
MILITARY COLOR CODES - RF COILS
BAND B & C
BAND D
BAND E
COLOR
SIGNIFICANT FIGURES or
DECIMAL POINT
MULTIPLIER* or SIGNIFICANT
FIGURE
INDUCTANCE TOLERANCE
Black
0
1
-
Brown
1
10
±1%
Red
2
100
±2%
Orange
3
1000
±3%
Yellow
4
10 000
±4%
Green
5
-
-
Blue
6
-
-
Violet
7
-
-
Gray
8
-
-
White
9
-
-
None**
-
-
± 20 %
Silver
-
-
± 10 %
Gold
Decimal Point
-
±5%
Significant Figures
or Decimal Point
Multiplier or
Significant Figure
Inductor Identifier (Silver)
Tolerance
Radio
Frequency
Coils
A
B
C
D
E
Twice the Width
of Other Bands
Band “A” is twice the width of the other bands and is silver in color to identify part as an inductor. ***
For Inductance Values Less Than 10 either Band “B” or Band “C” will be gold and will represent the decimal point. The other two bands
(“B” and “D” or “C” and “D”) will represent significant figures.
For Inductance Values of 10 or More Band “B” and Band “C” represent significant figures and Band “D” is the Multiplier.
For small units, dots may be used in place of bands.
* The multiplier is the factor by which two significant figures are multiplied to yield the nominal inductance value.
** Indicates body color.
*** Coated inductors are marked with four color bands, the first being a double wide significant figure or decimal point in lieu of the double wide
silver inductor identifier.
www.vishay.com
80
For technical questions, contact: [email protected]
Document Number: 34148
Revision: 23-Jan-02
Notes
Vishay Dale
For technical questions, contact [email protected]
www.vishay.com
81
Notes
Vishay Dale
www.vishay.com
82
For technical questions, contact [email protected]
WORLDWIDE SALES CONTACTS
DISCRETE SEMICONDUCTORS AND PASSIVE COMPONENTS
THE AMERICAS
VISHAY AMERICAS
ONE GREENWICH PLACE
SHELTON, CT 06484
UNITED STATES
PH: +1-402-563-6866
FAX: +1-402-563-6296
ASIA
VISHAY INTERTECHNOLOGY
ASIA PTE LTD.
25 TAMPINES STREET 92
KEPPEL BUILDING #02-00
SINGAPORE 528877
PH: +65-6788-6668
FAX: +65-6788-0988
JAPAN
VISHAY JAPAN CO., LTD.
SHIBUYA 3F, GE EDISON BUILDING
3-5-16 SHIBUYA
SHIBUYA-KU
TOKYO 150-0002
JAPAN
PH: +81-3-5464-6411
FAX: +81-3-5464-6433
EUROPE
VISHAY ELECTRONIC GMBH
GEHEIMRAT-ROSENTHAL-STR. 100
95100 SELB
GERMANY
PH: +49-9287-71-0
FAX: +49-9287-70435
VISHAY S.A.
4, RUE DE SALONIQUE
95101 ARGENTEUIL
FRANCE
PH: +33-1-39-98-22-00
FAX: +33-1-39-98-22-05
VISHAY LTD.
PALLION INDUSTRIAL ESTATE
SUNDERLAND, SR4 6SU
GREAT BRITAIN
PH: +44-191-514-4155
FAX: +44-191-567-8262
ONLINE INFORMATION
For product information and a current list of sales reps and distributors, visit our website:
www.vishay.com
ONE OF THE WORLD'S LARGEST MANUFACTURERS OF DISCRETE SEMICONDUCTORS AND PASSIVE COMPONENTS
V I S H A Y I N T E R T E C H N O L O G Y, I N C .
World Headquarters
63 Lincoln Highway
Malvern, PA 19355-2143
USA
w w w. v i s h a y. c o m
© C o p y r i g h t V i s h a y I n t e r t e c h n o l o g y, I n c.
R e g i s t e r e d Tr a d e m a r k s o f V i s h a y I n t e r t e c h n o l o g y, I n c.
All rights reserved. Printed in the USA.
Specifications subject to change without notice.
Databook VSD-DB0058-0112