PULSE PE-0402CD1N8KTT

Wire-Wound - 0402, 0603, 0805, 1008, 1206
RF Chip Inductors
WC701.L (4/10)
WIRE-WOUND
RF CHIP INDUCTORS
P
ulse is one of the largest magnetic component design and manufacturing companies in the
world. With over 19,000 employees worldwide and an extensive line of state-of-the-art magnetic
solutions, Pulse has become a leading supplier of magnetic components to OEMs and Contract
Manufacturers in data networking, connectivity, digital telecommunications including wireless
communications, broadband/Internet, cable modems and most forms of power conversion.
In addition, Pulse designs and manufactures end-user products such as DSL filters and splitters (Excelsus® products),
as well as components used in consumer products such as personal computers, cable modems, TVs, DVDs, PDAs, digital
cameras, and set-top boxes.
Engineering design centers and manufacturing facilities in North America, Europe and Asia supply product to a broad international customer base. Sales and service operations in the United States, Canada, United Kingdom, France, Italy, Singapore,
Hong Kong and Taiwan, as well as authorized distributors and representatives worldwide, support Pulse customers around
the globe. The company offers a complete line of magnetic components and modules for use in T1 telecommunications,
Internet/broadband access, VoIP, DSL, Ethernet data networking up to one Gigabit, AC-DC, DC-DC and UPS power
conversion and communication, and power conversion for military/aerospace applications. This extensive catalog of standard
products is available through distributors worldwide.
With the acquisition of Eldor (Italy) in 2003, Pulse is now a leading worldwide supplier of magnetics for consumer applications,
offering a wide range of product platforms including flyback transformers (FBTs), power switch-mode transformers (SMTs)
and other inductive components for TV, DVD, set-top boxes and LCD TV monitors. Pulse has the industry's widest range
of inductive solutions to designers and producers in the emerging digital consumer products markets.
Pulse has a wide range of capabilities to support customers. Real-time programs track current product development, vendor
delivery and production status. They also schedule available delivery dates and support product delivery programs such
as vendor-managed inventory, consignment and EDI ordering.
Pulse is proactive in developing industry standard products to ensure that its customers receive high-performance, highquality and high-reliability products. Pulse is a member of and actively participates in IEEE, ANSI, T1/E1 and the DSL Forum.
As an example, Pulse is a team member of the standards committee developing DSL products that allow broadband
connectivity via household telephone lines.
Ongoing research and development at Pulse has resulted in multiple product patents along with several unique manufacturing
processes. Likewise, Engineering design centers around the world can provide custom designs for applications not generally
available in the current, Pulse catalog product lines.
Pulse works closely with the major semiconductor manufacturers (that provide the ICs controlling computer networks, DSL
and telecommunications and power conversion electronics) to develop standard magnetic components that exactly match
the magnetic requirements of the IC. These semiconductor companies recommend Pulse magnetics on their datasheets.
Committed to delivering high-performance products, advanced technologies, and world-class quality, Pulse supports
the electronics industry and end-user with competitively priced products and services.
The 0402 to 1206 series of Miniature RF Inductors all contain wirewound technology and ceramic or ferrite cores, thus
providing the ultimate performance demanded by today's RF applications. Inductors feature high Qs and SRFs and an
industry standard size and footprint. Tighter inductance tolerances are available. CD, CM, CQ, and FT Series inductors are
available in Tin or Gold terminations. Sample kits are available from Pulse for all series. Please refer to page 2 for part
numbers. Use the Product Finder on the Pulse web site: http://www.pulseeng.com/Products
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www.pulseeng.com
WC701.L (4/10)
WIRE-WOUND
RF CHIP INDUCTORS
The 0402 to 1206 series range of Miniature Chip Inductors contains the very latest in wire-wound
technology and Ceramic or Ferrite Core, thus providing the ultimate in performance demanded by
today's Wireless products. The Inductors provide high Q and SRFs in an industry standard size
and footprint. Pulse chip inductors manufactured after February, 2005 are in compliance with
RoHS requirements.
TABLE of CONTENTS
Part Number Legend & Design Kits Available . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2
Selection Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3
Performance Specifications
Environmental Testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
Mechanical Testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-5
Tape and Reel Specification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5
Miniature Wire-wound RF Chip Inductors
0402CD Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6-7
0603CD Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8-9
0805CD Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10-11
0805CM Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12-13
0805FT Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14-15
1008CD Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16-17
1008CM Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18-19
1008CQ Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20-21
1206CD Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22-23
Application Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24-27
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1
WC701.L (4/10)
WIRE-WOUND
RF CHIP INDUCTORS
Part Number Legend
(0402, 0603, 0805, 1008, or 1206)
CORE MATERIAL
C = Ceramic (Alumina)
CQ = High Q
CD = Standard range
F = Ferrite
CM = Alternative performance/inductance to CD
INDUCTANCE (nH)
Representative of the
inductance value
TOLERANCE
F = ± 1% K = ± 10%
G = ± 2% B = ± 0.2nH
J = ± 5% S = ± 0.3nH
TERMINATION (Lead Free Compatible)
T = Gold or Tin plating (Gold plating is priority)
G = Gold plating only
S = Tin plating only
PACKAGING (T = Tape & Reel: 7 or 13 reel)
Size
0402
Pcs/Reel 3000
0603
2000
0805
2000
1008
1600
1206
3000
Design Kits Available from Pulse
Product KIT Series
Kit Part Number
Tolerance
0402CD Series
PE-0402CDKIT-T
2%
0603CD Series
PE-0603CDKIT-T
2%
0805CD Series
PE-0805CDKIT-T
2%
1008CD Series
PE-1008CDKIT-T
2%
NOTE: 0805CM, 1008CM and 1008CQ design kits are not available at this time.
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2
WC701.L (4/10)
WIRE-WOUND
RF CHIP INDUCTORS
Selection Guides
Electrical Specifications
Part
Number
Size
Construction
Inductance
(nH)
0402CD
0402
Wirewound
1.0 to 120
0603CD
0603
Wirewound
1.6 to 390
0805CD
0805
Wirewound
2.8 to 1500
0805CM
0805
Wirewound
3.3 to 820
0805FT
0805
Wirewound
1000 to 68000
1008CD
1008
Wirewound
9.7 to 8200
1008CM
1008
Wirewound
10 to 4700
1008CQ
1008
Wirewound
4.1 to 390
1206CD
1206
Wirewound
3.3 to 1200
1
10
100
1
10
100
1000
CD Series: Standard 100% compatible with other market leaders.
CM Series: Offers improved electrical performance or alternative inductance values to Pulse CD series.
CQ Series: Offers high Q and high Idc series.
FT Series: Ferrite core offers higher inductance values.
Competition Cross Reference
Type
Wire
Wound
Competition
0402CD
0603CD
Coilcraft
0402CS
0603CS
Pulse Wire-wound Inductors
0805CD
0805FT
1008CQ
1008CD
1206CD
0805CS/
HS/HT
1008CS/
HT/CT
1206CS
1008HQ
Murata
LQW1608A
LQN21A
Taiyo
Yuden
LB2012T
LEM_2520T
TDK
NL2016
NLH2520
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3
WC701.L (4/10)
WIRE-WOUND
RF CHIP INDUCTORS
Performance Specifications
Environmental Testing
Storage and Operating
Temperature Range:
Inductors are subjected to the
extremes for 48 hours.
Then tested at 25°C
There shall be no deformation
or change in appearance
-40 to +125°C
Thermal Shock:
Inductors are subjected to 30 cycles
for 30 minutes at each extreme.
-40 to +85°C
Then tested at 25°C
Inductance shall not change
by more than ±5%
Q values shall not change
by more than ±10%
Inductors are subjected to
10 cycles of 24 hours at 70°C with
90 to 95% Relative Humidity
Moisture Resistance
Then tested at 25°C
Operating Life
Inductors are subjected to
1000 hours at 85°C with 85%
Relative Humidity with
the rated current applied
There shall be no Damaged,
Open or Shorted Windings
Mechanical Testing
Temperature Range:
Inductors are subjected to the
following: Use a solder pot at
260°C, with RMA Flux. Each
termination is immersed in
63Sn/37Pb molten solder
for 4 to 6 seconds.
There shall be no deformation
or change in appearance
Inductance shall not change
by more than ±5%
Q values shall not change
by more than ±10%
300
Recommended Solder
Heat Resistance Profile
T
E
M
P
E
R
A
T
U
R
E
275
C°
25
250
225
200
175
150
125
100
75
50
0
0
25
50
75
100
125 150 175
TIME (SECOND)
200
225
250
275
300
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4
WC701.L (4/10)
WIRE-WOUND
RF CHIP INDUCTORS
Performance Specifications
Mechanical Testing
Vibration (Random)
Samplers are subjected to random
vibration as per NAVMAT P9492
There shall be no deformation
or change in appearance
Mechanical Shock
Inductors are subjected to one half
sine wave pulse (8700 g's for
0.3 ms) in each directional axis
for a total of 18 shocks
Inductance shall not change
by more than ±5%
Q values shall not change
by more than ±10%
Moisture Resistance
Reflow Inductors on to test pads
using 63 Sn/37 Pb solder paste
(IR Reflow profile = 200°C for
30 seconds or peak 235°C for 20
seconds)
The inductors shall withstand
a minimum force of 1000 g's in any
direction using a dynamometer
force guage.
Tape and Reel Specifications
A
D
P1
P2
P3
H
C
W
T
B
E
Packaging Specifications
Reel Dimensions (mm)
Tape Dimensions (mm)
Series
Parts per
Reel
A
B
C
D
E
W
P1
P2
P3
H
T
0402CD
3000
178
50
13
14.4
8.4
8
2
4
4
1.1
0.3
0603CD
2000
178
50
13
14.4
8.4
8
2
4
4
1.7
0.3
0805CD
2000
178
50
13
14.4
8.4
8
2
4
4
2.1
0.3
0805CM
2000
178
50
13
14.4
8.4
8
2
4
4
2.1
0.3
0805FT
2000
178
50
13
14.4
8.4
8
2
4
4
2.1
0.3
1008CD
1600
178
50
13
14.4
8.4
8
2
4
4
2.6
0.3
1008CM
1600
178
50
13
14.4
8.4
8
2
4
4
2.6
0.3
1008CQ
1600
178
50
13
14.4
8.4
8
2
4
4
2.6
0.3
1206CD
3000
330
101
13
18.4
12.4
12
2
4
4
2.0
0.4
NOTE: P1, P2 and P3 are same for all chip inductor series. Keeping the same dimensions for guide hole and pocket pitch (P1), pocket pitch (P2), guide
hole pitch (P3) and tape width (8mm) for all series, enables the packaging machine to maintain the same settings while changing models. The only difference between the series are the parts per reel which contribute to a different length of tapes/reel per model.
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www.pulseeng.com
5
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 0402CD SERIES
Wirewound ceramic core construction
High Q values
High self resonant frequency
Industry standard 0402 (1005 ) surface
mount land pattern
See page 3 for Competition Cross Reference
Electrical Specifications @ 25°C
Part Number
PE-0402CD1N0KTT
PE-0402CD1N2KTT
PE-0402CD1N8KTT
PE-0402CD1N9KTT
PE-0402CD2N0KTT
PE-0402CD2N2KTT
PE-0402CD2N4KTT
PE-0402CD2N7KTT
PE-0402CD3N3KTT
PE-0402CD3N6KTT
PE-0402CD3N9KTT
PE-0402CD4N3KTT
PE-0402CD4N7KTT
PE-0402CD5N1KTT
PE-0402CD5N6KTT
PE-0402CD6N2KTT
PE-0402CD6N8KTT
PE-0402CD7N5KTT
PE-0402CD8N2KTT
PE-0402CD8N7KTT
PE-0402CD9N0KTT
PE-0402CD9N5KTT
PE-0402CD100KTT
PE-0402CD110KTT
PE-0402CD120KTT
PE-0402CD130KTT
PE-0402CD150KTT
PE-0402CD160KTT
PE-0402CD180KTT
PE-0402CD190KTT
PE-0402CD200KTT
PE-0402CD220KTT
PE-0402CD230KTT
PE-0402CD240KTT
PE-0402CD270KTT
Inductance 1
(nH)
Standard
Tolerance
Optional
Tolerance
Q2
(MIN)
SRF 3
(MHz MIN)
RDC
(Ω MAX)
IDC
(mA MAX)
1.0 @ 250MHz
1.2 @ 250MHz
1.8 @ 250MHz
1.9 @ 250MHz
2.0 @ 250MHz
2.2 @ 250 MHz
2.4 @ 250MHz
2.7 @ 250MHz
3.3 @ 250MHz
3.6 @ 250MHz
3.9 @ 250MHz
4.3 @ 250MHz
4.7 @ 250MHz
5.1 @ 250MHz
5.6 @ 250MHz
6.2 @ 250MHz
6.8 @ 250MHz
7.5 @ 250MHz
8.2 @ 250MHz
8.7 @ 250MHz
9.0 @ 250MHz
9.5 @ 250MHz
10 @ 250MHz
11 @ 250MHz
12 @ 250MHz
13 @ 250MHz
15 @ 250MHz
16 @ 250MHz
18 @ 250MHz
19 @ 250MHz
20 @ 250MHz
22 @ 250MHz
23 @ 250MHz
24 @ 250MHz
27 @ 250MHz
±0.3nH (S)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±0.2nH (B)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J)
±5% (J), ±2% (G)
13 @ 250MHz
13 @ 250MHz
16 @ 250MHz
16 @ 250MHz
16 @ 250MHz
18 @ 250MHz
18 @ 250MHz
18 @ 250MHz
20 @ 250MHz
20 @ 250MHz
20 @ 250MHz
20 @ 250MHz
20 @ 250MHz
23 @ 250MHz
23 @ 250MHz
23 @ 250MHz
20 @ 250MHz
25 @ 250MHz
25 @ 250MHz
21 @ 250MHz
25 @ 250MHz
21 @ 250MHz
21 @ 250MHz
26 @ 250MHz
26 @ 250MHz
26 @ 250MHz
26 @ 250MHz
26 @ 250MHz
26 @ 250MHz
26 @ 250MHz
26 @ 250MHz
26 @ 250MHz
26 @ 250MHz
26 @ 250MHz
26 @ 250MHz
6000
6000
6000
6000
6000
6000
6000
6000
6000
6000
5800
5800
4775
5800
5800
5800
5800
5800
4400
4100
4160
4000
3900
3680
3600
3450
3280
3100
3100
3040
3000
2800
2720
2700
2480
0.045
0.060
0.070
0.070
0.070
0.070
0.068
0.120
0.066
0.066
0.066
0.091
0.130
0.083
0.083
0.083
0.083
0.104
0.104
0.200
0.104
0.200
0.195
0.120
0.120
0.210
0.172
0.220
0.230
0.202
0.250
0.300
0.214
0.300
0.298
1360
1300
1040
1040
1040
960
900
860
840
840
840
640
640
800
760
760
680
680
680
680
680
600
480
640
640
600
560
560
520
480
480
400
400
400
400
(Continued on next page)
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6
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 0402CD SERIES
Electrical Specifications @ 25°C (continued)
Inductance 1
(nH)
Standard
Tolerance
Optional
Tolerance
Q2
(MIN)
SRF 3
(MHz MIN)
RDC
(Ω MAX)
IDC
(mA MAX)
30 @ 250MHz
33 @ 250MHz
36 @ 250MHz
39 @ 250MHz
40 @ 250MHz
43 @ 250MHz
47 @ 250MHz
51 @ 250MHz
56 @ 250MHz
68 @ 250MHz
82 @ 250MHz
100 @ 250MHz
120 @ 250MHz
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
25 @ 250MHz
24 @ 250MHz
26 @ 250MHz
25 @ 250MHz
26 @ 250MHz
25 @ 250MHz
20 @ 250MHz
25 @ 250MHz
22 @ 250MHz
18 @ 250MHz
16 @ 250MHz
16 @ 250MHz
14 @ 250MHz
2350
2350
2320
2100
2240
2030
2100
1750
1750
1840
1680
1620
1520
0.300
0.350
0.403
0.550
0.438
0.810
0.830
0.820
0.970
0.970
1.250
2.600
2.700
350
350
320
320
320
240
100
100
100
100
100
100
90
Part Number
PE-0402CD300KTT
PE-0402CD330KTT
PE-0402CD360KTT
PE-0402CD390KTT
PE-0402CD400KTT
PE-0402CD430KTT
PE-0402CD470KTT
PE-0402CD510KTT
PE-0402CD560KTT
PE-0402CD680KTT
PE-0402CD820KTT
PE-0402CD101KTT
PE-0402CD121KTT
Notes:
1. Inductance measured using a HP4286A RF Impedance Analyzer.
(Please note that inductance information is not stamped on part,
because of the extremely small size).
2. Q measured using a HP4291A RF Impedance Analyzer with a
HP16193A Test Fixture.
3. SRF measured using a HP8753C Network Analyzer.
4. RDC measured using a Valhalla Scientific model 4100 ATC
Digital Ohmmeter.
5. Based on a 15oC maximum temperature rise.
6. Sample Kit Part Number: PE-0402CDKIT-T
7. Component Weight: 0.002 grams typical.
Typical Inductance vs Frequency
Typical Q vs Frequency
35
140
27 nH
130
30
120
12 nH
100
19 nH
90
80
Q
5.6 nH
Inductance (nH)
110
27 nH
1.0 nH
70
60
50
40
25
19 nH
20
15
12 nH
10
30
5.6 nH
5
20
10
0
10
100
1000
0
10000
1 nH
10
100
1000
10000
Frequency (MHz)
Frequency (MHz)
Mechanical
.018
0,46
.047 MAX
1,19
.026 MAX
0,66
Front and
Back
.026
0,66
2X Side
.014
0,36
SUGGESTED
PAD LAYOUT
Epoxy Cap
Pictorial view of core
(for reference only)
.005/0,13
Weight . . . . . . . 0.002 grams
Tape & Reel . . . . . .3000/reel
Dimensions: Inches
mm
.024 MAX
0,61
2X .008 ± .004
0,20 ± 0,10
Termination Pad
USA 858 674 8100 • Germany 49 7032 7806 0 • Singapore 65 6287 8998 • Shanghai 86 21 62787060 • China 86 755 33966678 • Taiwan 886 3 4356768
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7
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 0603CD SERIES
Wirewound ceramic core construction
High Q values
High self resonant frequency
Industry standard 0603 (1608) surface mount
land pattern
See page 3 for Competition Cross Reference
Electrical Specifications @ 25°C
Part Number
PE-0603CD1N6KTT
PE-0603CD010KTT
PE-0603CD1N8KTT
PE-0603CD2N2KTT
PE-0603CD3N3KTT
PE-0603CD3N6KTT
PE-0603CD030KTT
PE-0603CD4N3KTT
PE-0603CD040KTT
PE-0603CD4N7KTT
PE-0603CD5N1KTT
PE-0603CD5N6KTT
PE-0603CD6N2KTT
PE-0603CD060KTT
PE-0603CD6N8KTT
PE-0603CD7N5KTT
PE-0603CD080KTT
PE-0603CD8N7KTT
PE-0603CD9N5KTT
PE-0603CD100KTT
PE-0603CD110KTT
PE-0603CD120KTT
PE-0603CD130KTT
PE-0603CD150KTT
PE-0603CD160KTT
PE-0603CD180KTT
PE-0603CD220KTT
PE-0603CD230KTT
PE-0603CD240KTT
PE-0603CD270KTT
PE-0603CD300KTT
PE-0603CD330KTT
PE-0603CD360KTT
PE-0603CD390KTT
PE-0603CD430KTT
PE-0603CD470KTT
PE-0603CD510KTT
PE-0603CD560KTT
PE-0603CD680KTT
PE-0603CD720KTT
Inductance 1
(nH)
1.6 @ 250MHz
1.7 @ 250MHz
1.8 @ 250MHz
2.2 @ 250MHz
3.3 @ 250MHz
3.6 @ 250MHz
3.9 @ 250MHz
4.3 @ 250MHz
4.55 @ 250MHz
4.7 @ 250MHz
5.1 @ 250MHz
5.6 @ 250MHz
6.2 @ 250MHz
6.68 @ 250MHz
6.8 @ 250MHz
7.5 @ 250MHz
8.2 @ 250MHz
8.7 @ 250MHz
9.5 @ 250MHz
10 @ 250MHz
11 @ 250MHz
12 @ 250MHz
13 @ 250MHz
15 @ 250MHz
16 @ 250MHz
18 @ 250MHz
22 @ 250MHz
23 @ 250MHz
24 @ 250MHz
27 @ 250MHz
30 @ 250MHz
33 @ 250MHz
36 @ 250MHz
39 @ 250MHz
43 @ 250MHz
47 @ 200MHz
51 @ 200MHz
56 @ 200MHz
68 @ 200MHz
72 @ 150MHz
Standard
Tolerance
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
Optional
Tolerance
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
Q2
(MIN)
SRF 3
(MHz MIN)
RDC 4
(Ω MAX)
IDC 5
(mA MAX)
24 @ 250MHz
16 @ 250MHz
16 @ 250MHz
18 @ 250MHz
35 @ 250MHz
20 @ 250MHz
20 @ 250MHz
20 @ 250MHz
20 @ 250MHz
20 @ 250MHz
20 @ 250MHz
25 @ 250MHz
25 @ 250MHz
25 @ 250MHz
27 @ 250MHz
28 @ 250MHz
30 @ 250MHz
28 @ 250MHz
28 @ 250MHz
30 @ 250MHz
30 @ 250MHz
30 @ 250MHz
38 @ 250MHz
30 @ 250MHz
35 @ 250MHz
35 @ 250MHz
35 @ 250MHz
38 @ 250MHz
35 @ 250MHz
35 @ 250MHz
37 @ 250MHz
35 @ 250MHz
37 @ 250MHz
35 @ 250MHz
35 @ 250MHz
35 @ 200MHz
35 @ 200MHz
35 @ 200MHz
35 @ 200MHz
34 @ 150MHz
>6000
>6000
>6000
>6000
>6000
>6000
>6000
>6000
5800
5800
5700
5500
5800
5800
5800
4800
4600
4600
5400
4800
4000
4000
3600
4000
3300
3100
3000
2850
2650
2800
2250
2300
2080
2200
2000
2000
1900
1900
1700
1700
0.030
0.050
0.045
0.110
0.045
0.070
0.080
0.102
0.106
0.116
0.108
0.108
0.110
0.110
0.110
0.115
0.120
0.109
0.135
0.130
0.086
0.130
0.106
0.170
0.170
0.170
0.190
0.190
0.200
0.220
0.144
0.220
0.250
0.250
0.280
0.280
0.270
0.310
0.340
0.490
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
700
600
600
600
600
600
600
600
600
600
600
600
400
(Continued on next page)
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8
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 0603CD SERIES
Electrical Specifications @ 25°C (continued)
Part Number
Inductance 1
(nH)
82 @ 150MHz
98.50 @ 150MHz
100 @ 150MHz
110 @ 150MHz
120 @ 150MHz
122 @ 150MHz
150 @ 150MHz
180 @ 100MHz
200 @ 100MHz
210 @ 100MHz
220 @ 100MHz
250 @ 100MHz
270 @ 100MHz
330 @ 100MHz
390 @ 100MHz
Standard
Tolerance
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
Q2
(MIN)
34 @ 150MHz
34 @ 150MHz
34 @ 150MHz
33 @ 150MHz
32 @ 150MHz
33 @ 150MHz
28 @ 150MHz
25 @ 100MHz
25 @ 100MHz
27 @ 100MHz
25 @ 100MHz
25 @ 100MHz
24 @ 100MHz
22 @ 100MHz
20 @ 100 MHz
Optional
Tolerance
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
PE-0603CD820KTT
PE-0603CD101KTT
PE-0603CDR10KTT
PE-0603CD111KTT
PE-0603CDR12KTT
PE-0603CD121KTT
PE-0603CD151KTT
PE-0603CD181KTT
PE-0603CD201KTT
PE-0603CD211KTT
PE-0603CD221KTT
PE-0603CD251KTT
PE-0603CD271KTT
PE-0603CD331KTT
PE-0603CD391KTT
Notes:
1. Inductance measured using a HP4286A RF Impedance Analyzer.
2. Q measured using a HP4291A RF Impedance Analyzer with a
HP16193A Test Fixture.
3. SRF measured using a HP8753C Network Analyzer.
SRF 3
(MHz MIN)
1700
1400
1400
1300
1300
1300
990
990
900
895
900
822
860
500
350
RDC 4
(Ω MAX)
0.540
0.580
0.580
0.610
0.650
0.650
0.920
1.250
1.980
2.060
1.900
3.550
2.300
2.300
2.900
IDC 5
(mA MAX)
400
400
400
300
300
300
280
240
240
220
200
180
170
150
130
4. RDC measured using a Valhalla Scientific model 4100 ATC
Digital Ohmmeter.
5. Based on a 15oC maximum temperature rise.
6. Sample Kit Part Number: PE-0603CDKIT-T
7. 5-sides or top side epoxy cap.
Typical Q vs Frequency
Typical Inductance vs Frequency
200
120
175
100
12 nH
3.3 nH
22 nH
Q
60
68 nH
120 nH
40
120 nH
150
Inductance (nH)
33 nH
80
125
100
68 nH
75
50
20
0
33 nH
25
10
100
1000
0
10000
10
100
1000
22 nH
12 nH
3.3 nH
10000
Frequency (MHz)
Frequency (MHz)
Mechanical
.071 MAX
1,80
.025
0,64
.040 MAX
1,02
.050
1,27
.049
MAX
1,24
.005/0,13
BOTTOM VIEW
2X
.025
2X
0,64
SUGGESTED PAD LAYOUT
Dimensions: Inches
mm
Unless otherwise specified
all tolerances are ± .010
0,25
.014 ± .004
0,36 ±0,10
USA 858 674 8100 • Germany 49 7032 7806 0 • Singapore 65 6287 8998 • Shanghai 86 21 62787060 • China 86 755 33966678 • Taiwan 886 3 4356768
www.pulseeng.com
9
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 0805CD SERIES
Wirewound ceramic core construction
High Q values and self resonant frequency
Industry standard 0805 (2012)
surface mount land pattern
See page 3 for Competition Cross Reference
Electrical Specifications @ 25°C
Part Number
PE-0805CD2N8KTT
PE-0805CD3N0KTT
PE-0805CD030KTT
PE-0805CD050KTT
PE-0805CD060KTT
PE-0805CD7N5KTT
PE-0805CD080KTT
PE-0805CD100KTT
PE-0805CD120KTT
PE-0805CD150KTT
PE-0805CD180KTT
PE-0805CD220KTT
PE-0805CD240KTT
PE-0805CD270KTT
PE-0805CD330KTT
PE-0805CD360KTT
PE-0805CD390KTT
PE-0805CD430KTT
PE-0805CD470KTT
PE-0805CD560KTT
PE-0805CD680KTT
PE-0805CD820KTT
PE-0805CD910KTT
PE-0805CD101KTT
PE-0805CD111KTT
PE-0805CD121KTT
PE-0805CD151KTT
PE-0805CD181KTT
PE-0805CD221KTT
PE-0805CD241KTT
PE-0805CD271KTT
PE-0805CD331KTT
PE-0805CD391KTT
PE-0805CD471KTT
PE-0805CD561KTT
PE-0805CD681KTT
PE-0805CD821KTT
PE-0805CD102KTT
PE-0805CD122KTT
PE-0805CD152KTT
Inductance 1
(nH)
2.8 @ 250MHz
3.0 @ 250MHz
3.32 @ 250MHz
5.6 @ 250MHz
6.5 @ 250MHz
7.5 @ 250MHz
7.9 @ 250MHz
10.2 @ 250MHz
11.9 @ 250MHz
14.9 @ 250MHz
17.95 @ 250MHz
21.7 @ 250MHz
24 @ 250MHz
26.5 @ 250MHz
32.75 @ 250MHz
36 @ 250MHz
38.5 @ 250MHz
43 @ 200MHz
46.6 @ 200MHz
55.5 @ 200MHz
67.8 @ 200MHz
82.7 @ 150MHz
91 @ 150MHz
98.7 @ 150MHz
110 @ 150MHz
119.7 @ 150MHz
149.4 @ 100MHz
179.6 @ 100MHz
217 @ 100MHz
240 @ 100MHz
269 @ 100MHz
331 @ 100MHz
386 @ 100MHz
477 @ 50MHz
545 @ 25MHz
674 @ 25MHz
783 @ 25MHz
1000 @ 25MHz
1200 @ 25MHz
1500 @ 25MHz
Standard
Tolerance
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
Optional
Tolerance
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
Q2
(MIN)
80 @ 1500MHz
65 @ 1500MHz
40 @ 1500MHz
50 @ 1500MHz
50 @ 1000MHz
50 @ 1000MHz
50 @ 1000MHz
50 @ 500MHz
50 @ 500MHz
50 @ 500MHz
50 @ 500MHz
55 @ 500MHz
50 @ 500MHz
55 @ 500MHz
60 @ 500MHz
55 @ 500MHz
60 @ 500MHz
60 @ 500MHz
60 @ 500MHz
60 @ 500MHz
60 @ 500MHz
60 @ 500MHz
65 @ 500MHz
60 @ 500MHz
50 @ 250MHz
50 @ 250MHz
50 @ 250MHz
50 @ 250MHz
45 @ 250MHz
44 @ 250MHz
45 @ 250MHz
45 @ 250MHz
35 @ 250MHz
33 @ 100MHz
23 @ 50MHz
23 @ 50MHz
23 @ 50MHz
20 @ 50MHz
20 @ 50MHz
20 @ 50MHz
SRF 3
(MHz MIN)
>6000
>6000
6000
5500
5000
4500
4700
4100
4000
3400
3300
2600
2000
2500
2050
1700
2000
1650
1650
1550
1450
1300
1200
1200
1000
1100
920
870
850
690
650
600
560
375
340
188
215
200
200
200
RDC 4
IDC 5
(Ω MAX) (mA MAX)
0.06
600
0.06
600
0.08
600
0.10
600
0.11
600
0.14
600
0.12
600
0.14
600
0.15
600
0.17
600
0.20
600
0.22
500
0.22
500
0.25
500
0.27
500
0.27
500
0.29
500
0.34
500
0.31
500
0.34
500
0.38
500
0.42
400
0.44
400
0.46
400
0.48
400
0.51
400
0.56
400
0.64
400
0.70
400
1.00
350
1.00
350
1.40
310
1.50
290
1.76
250
1.90
230
2.20
190
2.35
180
3.60
150
4.10
120
5.00
100
***For other inductance values in 0805 size, please refer to 0805CM (page 12-13) and 0805FT (page 14-15).***
NOTES:
1. Inductance measured with HP4286A RF Impedance Analyzer. 4. RDC measured using a Valhalla Scientific model 4100 ATC
Digital Ohmmeter.
2. Q measured using a HP4291A RF Impedance Analyzer with a
5. Based on a 15oC maximum temperature rise.
HP16193A Test Fixture.
6. Sample Kit Part Number: PE-0805CDKIT-T
3. SRF measured using a HP8753C Network Analyzer.
USA 858 674 8100 • Germany 49 7032 7806 0 • Singapore 65 6287 8998 • Shanghai 86 21 62787060 • China 86 755 33966678 • Taiwan 886 3 4356768
www.pulseeng.com
10
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 0805CD SERIES
Typical Q vs Frequency
Typical Inductance vs Frequency
350
140
120
300
39 nH
68 nH
100
22 nH
120 nH
270 nH
80
12 nH
6.8 nH
220 nH
250
3.3 nH
200
Q
60
150
40
100
20
50
0
0
10
100
1000
10000
100 nH
39 nH
10
100
1000
15 nH
3.3 nH
10000
Frequency (MHz)
Frequency (MHz)
Mechanical
.030
0,76
A
.090
MAX
2,29
.066
MAX
1,68
.070
1,78
.040
.040
1,02
1,02
SUGGESTED PAD LAYOUT
Epoxy Cap
.062
MAX
1,58
2X
.020
0,51
.005/0,13
Weight . . . . . . . 0.012 grams
Tape & Reel . . . . . .2000/reel
Dimensions: Inches
mm
Unless otherwise specified
all tolerances are ± .010
Termination Pad
Front and
Back
2X Side
2X Inside
.080
2,03
USA 858 674 8100 • Germany 49 7032 7806 0 • Singapore 65 6287 8998 • Shanghai 86 21 62787060 • China 86 755 33966678 • Taiwan 886 3 4356768
www.pulseeng.com
11
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 0805CM SERIES
Wirewound ceramic core construction
High Q values and self resonant frequency
Industry standard 0805 (2012)
surface mount land pattern
See page 3 for Competition Cross Reference
Electrical Specifications @ 25°C
Part Number
Inductance 1
(nH)
Standard
Tolerance
Optional
Tolerance
Q2
(MIN)
SRF 3
(MHz MIN)
RDC 4
(Ω MAX)
IDC 5
(mA MAX)
PE-0805CM030KTT
PE-0805CM060KTT
PE-0805CM080KTT
PE-0805CM100KTT
PE-0805CM120KTT
PE-0805CM150KTT
PE-0805CM180KTT
PE-0805CM220KTT
PE-0805CM270KTT
PE-0805CM330KTT
PE-0805CM390KTT
PE-0805CM470KTT
PE-0805CM560KTT
PE-0805CM680KTT
PE-0805CM820KTT
PE-0805CM101KTT
PE-0805CM121KTT
PE-0805CM151KTT
PE-0805CM181KTT
PE-0805CM221KTT
PE-0805CM271KTT
PE-0805CM331KTT
PE-0805CM391KTT
PE-0805CM471KTT
PE-0805CM561KTT
PE-0805CM681KTT
PE-0805CM821KTT
3.3 @ 250MHz
6.8 @ 250MHz
8.2 @ 250MHz
10 @ 250MHz
12 @ 250MHz
15 @ 250MHz
18 @ 250MHz
22 @ 250MHz
27 @ 250MHz
33 @ 250MHz
39 @ 250MHz
47 @ 200MHz
56 @ 200MHz
68 @ 200MHz
82 @ 150MHz
100 @ 150MHz
120 @ 150MHz
150 @ 100MHz
180 @ 100MHz
220 @ 100MHz
270 @ 100MHz
330 @ 100MHz
390 @ 100MHz
470 @ 100MHz
560 @ 100MHz
680 @ 50MHz
820 @ 50MHz
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
37 @ 1500MHz
46 @ 1000MHz
47 @ 1000MHz
60 @ 500MHz
50 @ 500MHz
50 @ 500MHz
50 @ 500MHz
55 @ 500MHz
55 @ 500MHz
58 @ 500MHz
60 @ 500MHz
60 @ 500MHz
60 @ 500MHz
60 @ 500MHz
60 @ 500MHz
55 @ 500MHz
45 @ 250MHz
50 @ 250MHz
50 @ 250MHz
45 @ 250MHz
40 @ 100MHz
40 @ 100MHz
40 @ 100MHz
38 @ 100MHz
40 @ 100MHz
32 @ 50MHz
23 @ 50MHz
5000
5000
3900
3900
2900
2700
2600
2200
2000
1800
1600
1650
1300
1350
1300
1100
1100
900
875
800
800
775
725
600
600
550
215
0.08
0.15
0.13
0.10
0.13
0.15
0.13
0.13
0.23
0.18
0.23
0.25
0.16
0.18
0.36
0.36
0.56
0.56
0.69
0.85
0.90
1.28
1.70
3.25
3.10
3.50
2.35
600
600
600
600
600
600
600
500
500
500
500
500
500
500
400
400
350
350
300
300
300
300
300
240
240
240
200
NOTES:
1. Inductance measured using a HP4286A RF Impedance
Analyzer.
2. Q measured using a HP4291A RF Impedance Analyzer with
a HP16193A Test Fixture.
3. SRF measured using a HP8753C Network Analyzer.
4. RDC measured using a Valhalla Scientific model 4100 ATC
Digital Ohmmeter.
5. Based on a 15oC maximum temperature rise.
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12
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 0805CM SERIES
Typical Q vs Frequency
Typical Inductance vs Frequency
140
350
120
300
6.8 nH
100
120 nH
12 nH
39 nH
270 nH
80
Inductance (nH)
22 nH
3.3 nH
Q
68 nH
60
40
250
200
150
50
0
0
100
1000
100 nH
100
20
10
220 nH
10000
39 nH
10
100
Frequency (MHz)
1000
15 nH
3.3 nH
10000
Frequency (MHz)
Mechanical
.030
0,76
A
.090
MAX
2,29
.066
MAX
1,68
.070
1,78
.040
.040
1,02
1,02
SUGGESTED PAD LAYOUT
Epoxy Cap
.062
MAX
1,58
2X
.020
0,51
.005/0,13
Weight . . . . . . . 0.012 grams
Tape & Reel . . . . . .2000/reel
Dimensions: Inches
mm
Unless otherwise specified
all tolerances are ± .010
Termination Pad
Front and
Back
2X Side
2X Inside
.080
2,03
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13
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 0805FT SERIES
Wirewound ferrite core construction
High Q values and self resonant frequency
Industry standard 0805 (2012)
surface mount land pattern
See page 3 for Competition Cross Reference
Electrical Specifications @ 25°C
Part Number
Inductance 1
(µH)
Standard
Tolerance
Optional
Tolerance
Q2
(MIN)
SRF 3
(MHz MIN)
RDC 4
(Ω MAX)
IDC 5
(mA MAX)
PE-0805FT102KTT
1.0 @ 7.96MHz
±10% (K)
±5% (J)
15 @ 7.96MHz
63
1.20
245
PE-0805FT152KTT
1.5 @ 7.96MHz
±10% (K)
±5% (J)
15 @ 7.96MHz
60
1.45
225
PE-0805FT222KTT
2.2 @ 7.96MHz
±10% (K)
±5% (J)
15 @ 7.96MHz
58
1.80
200
PE-0805FT332KTT
3.3 @ 7.96MHz
±10% (K)
±5% (J)
15 @ 7.96MHz
50
2.30
175
PE-0805FT472KTT
4.7 @ 7.96MHz
±10% (K)
±5% (J)
15 @7.96MHz
43
2.80
140
PE-0805FT682KTT
6.8 @ 7.96MHz
±10% (K)
±5% (J)
15 @ 7.96MHz
36
3.40
115
PE-0805FT103KTT
10 @ 2.52MHz
±10% (K)
±5% (J)
10 @ 2.52MHz
30
4.70
98
PE-0805FT153KTT
15 @ 2.52MHz
±10% (K)
±5% (J)
10 @ 2.52MHz
23
6.50
80
PE-0805FT223KTT
22 @ 2.52MHz
±10% (K)
±5% (J)
10 @ 2.52MHz
20
8.00
68
PE-0805FT333KTT
33 @ 2.52MHz
±10% (K)
±5% (J)
10 @ 2.52MHz
17
10.70
60
PE-0805FT473KTT
47 @ 2.52MHz
±10% (K)
±5% (J)
10 @ 2.52MHz
14
13.80
55
PE-0805FT683KTT
68 @ 2.52MHz
±10% (K)
±5% (J)
8 @ 2.52MHz
11
17.50
49
NOTES:
1. Inductance measured using a HP4286A RF Impedance
Analyzer.
2. Q measured using a HP4291A RF Impedance Analyzer with
a HP16193A Test Fixture.
3. SRF measured using a HP8753C Network Analyzer.
4. RDC measured using a Valhalla Scientific model 4100 ATC
Digital Ohmmeter.
5. Based on a 15oC maximum temperature rise.
6. Sample Kit Part Number: PE-0805FTKIT-T
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14
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 0805FT SERIES
Typical Inductance vs. Frequency
Typical Q vs. Frequency
25
40
33µH
22µH
35
2.2µH
3.3µH
4.7µH
1.0µH
1.5µH
30
INDUCTANCE(µH)
20
10µH
6.8µH
15
Q
15µH
10
15µH
25
20
15
10µH
10
5
6.8µH
33µH
22µH
4.7µH
5
3.3µH
0
0
1000
10000
100000
2.2µH
1.5µH
1.0µH
1000
FREQUENCY(kHz)
100000
10000
FREQUENCY(kHz)
PE-0805FT102FTT
PE-0805FT222JTT
PE-0805FT472JTT
PE-0805FT152JTT
PE-0805FT332JTT
PE-0805FT682JTT
PE-0805FT102JTT
PE-0805FT222JTT
PE-0805FT472JTT
PE-0805FT152JTT
PE-0805FT332JTT
PE-0805FT682JTT
PE-0805FT103JTT
PE-0805FT223JTT
PE-0805FT153JTT
PE-0805FT333JTT
PE-0805FT103JTT
PE-0805FT223JTT
PE-0805FT153JTT
PE-0805FT333JTT
Mechanical
.030
0,76
A
.090
MAX
2,29
.066
MAX
1,68
.070
1,78
.040
.040
1,02
1,02
SUGGESTED PAD LAYOUT
Epoxy Cap
.062
MAX
1,58
2X
.020
0,51
.005/0,13
Termination Pad
Weight . . . . . . . 0.012 grams
Tape & Reel . . . . . .2000/reel
Dimensions: Inches
mm
Unless otherwise specified
all tolerances are ± .010
Front and
Back
2X Side
2X Inside
.080
2,03
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15
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 1008CD SERIES
Wirewound ceramic core construction
High Q values and high self-resonant frequency
Industry standard 1008 (2520)
SMT land pattern
See page 3 for Competition Cross Reference
Electrical Specifications @ 25°C
Part Number
PE-1008CD090KTT
PE-1008CD100KTT
PE-1008CD120KTT
PE-1008CD140KTT
PE-1008CD150KTT
PE-1008CD180KTT
PE-1008CD210KTT
PE-1008CD220KTT
PE-1008CD260KTT
PE-1008CD270KTT
PE-1008CD320KTT
PE-1008CD330KTT
PE-1008CD380KTT
PE-1008CD390KTT
PE-1008CD450KTT
PE-1008CD470KTT
PE-1008CD540KTT
PE-1008CD560KTT
PE-1008CD650KTT
PE-1008CD680KTT
PE-1008CD790KTT
PE-1008CD820KTT
PE-1008CD960KTT
PE-1008CD101KTT
PE-1008CD121KTT
PE-1008CD141KTT
PE-1008CD151KTT
PE-1008CD161KTT
PE-1008CD171KTT
PE-1008CD181KTT
PE-1008CD211KTT
PE-1008CD221KTT
PE-1008CD261KTT
PE-1008CD271KTT
PE-1008CD311KTT
PE-1008CD331KTT
PE-1008CD361KTT
PE-1008CD391KTT
PE-1008CD451KTT
PE-1008CD471KTT
PE-1008CD541KTT
PE-1008CD561KTT
PE-1008CD591KTT
PE-1008CD621KTT
PE-1008CD641KTT
PE-1008CD681KTT
PE-1008CD711KTT
PE-1008CD751KTT
PE-1008CD771KTT
PE-1008CD821KTT
PE-1008CD851KTT
Inductance 1
(nH)
9,7 @ 50MHz
10 @ 50MHz
12 @ 50MHz
14,3 @ 50MHz
15 @ 50MHz
17,8 @ 50MHz
20,9 @ 50MHz
22 @ 50MHz
26,2 @ 50MHz
27 @ 50MHz
31,8 @ 50MHz
33 @ 50MHz
38,2 @ 50MHz
39 @ 50MHz
44,9 @ 50MHz
47 @ 50MHz
54 @ 50MHz
56 @ 50MHz
65 @ 50MHz
68 @ 50MHz
79 @ 50MHz
82 @ 50MHz
96,1 @ 25MHz
100 @ 25MHz
120 @ 25MHz
145,7 @ 25MHz
150 @ 25MHz
160 @ 25MHz
170,2 @ 25MHz
180 @ 25MHz
216 @ 25MHz
220 @ 25MHz
260,5 @ 25MHz
270 @ 25MHz
313,6 @ 25MHz
330 @ 25MHz
365 @ 25MHz
390 @ 25MHz
447 @ 25MHz
470 @ 25MHz
535 @ 25MHz
560 @ 25MHz
586 @ 25MHz
620 @ 25MHz
636 @ 25MHz
680 @ 25MHz
708,8 @ 25MHz
750 @ 25MHz
768 @ 25MHz
820 @ 25MHz
849.8 @ 25MHz
Standard
Tolerance
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
Optional
Tolerance
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
±5% (J), ±2% (G), ±1% (F)
Q2
(MIN)
50 @ 500MHz
50 @ 500MHz
50 @ 500MHz
50 @ 500MHz
50 @ 500MHz
50 @ 350MHz
55 @ 350MHz
55 @ 350MHz
55 @ 350MHz
55 @ 350MHz
60 @ 350MHz
60 @ 350MHz
60 @ 350MHz
60 @ 350MHz
65 @ 350MHz
65 @ 350MHz
65 @ 350MHz
65 @ 350MHz
65 @ 350MHz
65 @ 350MHz
60 @ 350MHz
60 @ 350MHz
60 @ 350MHz
60 @ 350MHz
60 @ 350MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
35 @ 50MHz
SRF 3
RDC 4
IDC 5
(MHz MIN) (Ω MAX) (mA MAX)
4100
0.09
1000
4100
0.09
1000
3300
0.09
1000
1850
0.10
1000
1850
0.10
1000
2500
0.11
1000
1800
0.12
1000
1800
0.12
1000
1500
0.13
1000
1500
0.11
1000
1600
0.16
1000
1600
0.14
1000
1400
0.15
1000
1400
0.12
1000
1200
0.16
1000
1200
0.08
1000
1150
0.18
1000
1150
0.12
1000
1100
0.20
1000
1100
0.07
1000
950
0.22
1000
950
0.14
1000
900
0.56
650
900
0.15
650
950
0.63
650
625
0.70
580
625
0.16
580
625
0.77
600
650
0.77
620
650
0.77
620
625
0.84
500
625
0.84
500
525
0.91
500
525
0.91
500
500
1.05
450
500
1.05
450
500
1.12
470
475
1.12
470
450
1.19
420
450
1.19
420
415
1.33
310
415
1.33
310
375
1.40
300
375
1.40
300
375
1.47
230
375
1.47
230
360
1.54
200
350
1.61
200
325
1.61
180
325
1.61
180
320
1.68
150
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16
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 1008CD SERIES
Electrical Specifications @ 25°C (continued)
Inductance 1
Part Number
Standard
Tolerance
(nH)
PE-1008CD911KTT
PE-1008CD102KTT
PE-1008CD112KTT
PE-1008CD122KTT
PE-1008CD142KTT
PE-1008CD152KTT
PE-1008CD182KTT
PE-1008CD212KTT
PE-1008CD222KTT
PE-1008CD262KTT
PE-1008CD272KTT
PE-1008CD322KTT
PE-1008CD332KTT
PE-1008CD372KTT
PE-1008CD392KTT
PE-1008CD452KTT
PE-1008CD472KTT
PE-1008CD562KTT
PE-1008CD682KTT
PE-1008CD822KTT
909,5 @ 25MHz
1000 @ 25MHz
1184 @ 7.9MHz
1200 @ 7.9MHz
1470 @ 7.9MHz
1500 @ 7.9MHz
1792.9 @ 7.9MHz
2154.5 @ 7.9MHz
2200 @ 7.9MHz
2646.8 @ 7.9MHz
2700 @ 7.9MHz
3207.6 @ 7.9MHz
3300 @ 7.9MHz
3758.2 @ 7.9MHz
3900 @ 7.9MHz
4526.2 @ 7.9MHz
4700 @ 7.9MHz
5600 @ 7.9MHz
6800 @ 7.9MHz
8200 @ 7.9MHz
Q2
(MIN)
Optional
Tolerance
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
±5% (J), ±2%
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
(G), ±1% (F)
SRF 3
RDC 4
IDC 5
(MHz MIN) (Ω MAX) (mA MAX)
35 @ 50MHz
35 @ 50MHz
35 @ 50MHz
35 @ 50MHz
28 @ 50MHz
28 @ 50MHz
28 @ 50MHz
28 @ 50MHz
28 @ 50MHz
22 @ 25MHz
22 @ 25MHz
22 @ 25MHz
22 @ 25MHz
20 @ 25MHz
20 @ 25MHz
20 @ 25MHz
20 @ 25MHz
20 @ 25MHz
18 @ 7.9MHz
18 @ 7.9MHz
290
260
250
250
200
200
160
80
80
90
90
40
40
35
35
25
25
60
40
25
1.75
1.90
2.00
2.00
2.30
2.30
2.60
2.80
2.80
3.20
3.20
3.40
3.40
3.60
3.60
4.00
4.00
5.40
4.90
6.00
150
120
310
310
330
330
300
280
280
290
290
290
290
260
260
260
260
240
200
160
***For other inductance values in 1008 size, please refer to 1008CM (pages 18-19) and 1008CQ (pages 20-21)***
Notes:
1. Inductance measured using a HP4286A RF Impedance Analyzer.
2. Q measured using a HP4291A RF Impedance Analyzer with a
HP16193A Test Fixture.
3. SRF measured using a HP8753C Network Analyzer.
4. RDC measured using Valhalla Scientific model 4100 ATC Digital
Ohmmeter.
5.
6.
7.
8.
Based on a 15oC maximum temperature rise.
Sample Kit Part Number: PE-1008CDKIT-T
Component Weight: 0.032 grams typical.
These components are 0.055" in height.
Typical Q vs Frequency
100
Mechanical
90
12 nH
80
70
330 nH
60
100 nH
750 nH
50
40
1800 nH
30
.045
1,14
.115
MAX
2,92
040
Q
47 nH
20
10
0
10
100
1000
.040
1,02
SUGGESTED PAD LAYOUT
2X
Epoxy Cap
10000
Frequency (MHz)
.090
MAX
2,29
Typical Inductance vs Frequency
1000
900
750 nH
2X
800
Inductance (nH)
.100
2,54
.110
MAX
2,79
.020 ±.004
0,51 ± 0,10
Termination Pad
700
600
Front and
Back
500
400
330 nH
300
2X Side
2X Inside
200
100 nH
100
0
10
100
47 nH
1000
Frequency (MHz)
12 nH
10000
Dimensions: Inches
mm
Unless otherwise specified, all tolerances are ± .010
0,25
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17
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 1008CM SERIES
Wirewound ceramic core construction
High Q values and self-resonant frequency
Industry standard 1008 (2520)
surface mount land pattern
See page 3 for Competition Cross Reference
Electrical Specifications @ 25°C
Part Number
Inductance 1
(nH)
Standard
Tolerance
Optional
Tolerance
Q2
(MIN)
SRF Min 3
(MHz MIN)
RDC 4
(Ω MAX)
IDC 5
(mA MAX)
PE-1008CM100KTT
PE-1008CM120KTT
PE-1008CM150KTT
PE-1008CM180KTT
PE-1008CM220KTT
PE-1008CM270KTT
PE-1008CM330KTT
PE-1008CM390KTT
PE-1008CM470KTT
PE-1008CM560KTT
PE-1008CM680KTT
PE-1008CM820KTT
PE-1008CM101KTT
PE-1008CM121KTT
PE-1008CM151KTT
PE-1008CM161KTT
PE-1008CM181KTT
PE-1008CM201KTT
PE-1008CM221KTT
PE-1008CM271KTT
PE-1008CM331KTT
PE-1008CM371KTT
PE-1008CM391KTT
PE-1008CM401KTT
PE-1008CM471KTT
PE-1008CM561KTT
PE-1008CM621KTT
PE-1008CM681KTT
PE-1008CM751KTT
PE-1008CM821KTT
PE-1008CM911KTT
PE-1008CM102KTT
PE-1008CM122KTT
PE-1008CM152KTT
PE-1008CM182KTT
PE-1008CM222KTT
PE-1008CM272KTT
PE-1008CM332KTT
PE-1008CM392KTT
PE-1008CM472KTT
10 @ 50MHz
12 @ 50MHz
15 @ 50MHz
18 @ 50MHz
22 @ 50MHz
27 @ 50MHz
33 @ 50MHz
39 @ 50MHz
47 @ 50MHz
56 @ 50MHz
68 @ 50MHz
82 @ 50MHz
100 @ 25MHz
120 @ 25MHz
150 @ 25MHz
160 @ 25MHz
180 @ 25MHz
200 @ 25MHz
220 @ 25MHz
270 @ 25MHz
330 @ 25MHz
370 @ 25MHz
390 @ 25MHz
400 @ 25MHz
470 @ 25MHz
560 @ 25MHz
620 @ 25MHz
680 @ 25MHz
750 @ 25MHz
820 @ 25MHz
910 @ 25MHz
1000 @ 25MHz
1200 @ 10MHz
1500 @ 10MHz
1800 @ 10MHz
2200 @ 10MHz
2700 @ 10MHz
3300 @ 10MHz
3900 @ 10MHz
4700 @ 10MHz
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±10% (K)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
±5% (J), ±2% (G)
50 @ 500MHz
65 @ 500MHz
55 @ 500MHz
55 @ 350MHz
55 @ 350MHz
60 @ 350MHz
60 @ 350MHz
70 @ 350MHz
70 @ 350MHz
60 @ 350MHz
70 @ 350MHz
65 @ 350MHz
65 @ 350MHz
60 @ 350MHz
50 @ 100MHz
50 @ 100MHz
50 @ 100MHz
50 @ 100MHz
50 @ 100MHz
45 @ 100MHz
50 @ 100MHz
50 @ 100MHz
50 @ 100MHz
50 @ 100MHz
50 @ 100MHz
50 @ 100MHz
45 @ 100MHz
45 @ 100MHz
45 @ 100MHz
40 @ 100MHz
40 @ 50MHz
40 @ 50MHz
40 @ 50MHz
40 @ 50MHz
40 @ 50MHz
30 @ 25MHz
30 @ 25MHz
25 @ 15MHz
20 @ 15MHz
16 @ 15MHz
4500
2300
1850
2200
1800
1500
1800
1400
1200
1150
1100
950
900
825
625
625
650
630
625
525
500
490
475
470
450
425
375
375
350
325
300
300
250
200
150
80
90
40
35
25
0.09
0.09
0.19
0.06
0.09
0.11
0.18
0.12
0.08
0.12
0.07
0.14
0.15
0.22
0.16
0.25
0.25
0.24
0.28
0.50
0.80
0.80
0.75
0.75
0.70
0.80
1.90
2.30
1.60
3.30
2.10
1.80
3.00
4.00
5.09
5.85
7.70
7.80
8.30
6.00
1000
1000
1000
1000
1000
1000
800
1000
1000
1000
1000
950
650
650
580
600
600
580
500
500
450
430
425
420
350
350
200
200
200
200
200
200
200
150
150
150
150
150
135
150
Notes:
1. Inductance measured using a HP4191A RF Impedance Analyzer.
2. Q measured using a HP4291A RF Impedance Analyzer with a
HP16193A Test Fixture.
3. SRF measured using a HP8753C Network Analyzer.
4. RDC measured using a Valhalla Scientific model 4100 ATC
Digital Ohmmeter.
5. Based on a 15oC maximum temperature rise.
6. Component Weight: 0.032 grams typical.
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18
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 1008CM SERIES
Typical Q vs Frequency
Typical Inductance vs Frequency
120
1000
110
900
750 nH
12 nH
100
800
80
47 nH
70
Q
Inductance (nH)
90
100 nH
330 nH
750 nH
60
50
1800 nH
40
700
600
500
330 nH
400
300
30
200
20
10
0
100 nH
100
10
100
1000
0
10000
47 nH
12 nH
10
100
Frequency (MHz)
1000
10000
Frequency (MHz)
Mechanical
.045
1,14
040
.115
MAX
2,92
.100
2,54
.110
MAX
2,79
.040
1,02
SUGGESTED PAD LAYOUT
2X
Epoxy Cap
Dimensions: Inches
mm
.090
MAX
2,29
2X
.020 ± .004
0,51 ± 0,10
Unless otherwise specified
all tolerances are ± .010
0,25
Termination Pad
Front and
Back
2X Side
2X Inside
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19
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 1008CQ SERIES
Wirewound ceramic core construction
High Q values and Idc values
High self-resonant frequency
Industry standard 1008 (2520)
surface mount land pattern
See page 3 for Competition Cross Reference
Electrical Specifications @ 25°C
Part Number
Inductance
(nH)
1
Standard
Tolerance
PE-1008CQ4N1KTT
4.1 @ 50MHz
±10% (K)
PE-1008CQ100KTT
10 @ 50MHz
±10% (K)
PE-1008CQ120KTT
12 @ 50MHz
±10% (K)
PE-1008CQ180KTT
18 @ 50MHz
±10% (K)
PE-1008CQ220KTT
22 @ 50MHz
±10% (K)
PE-1008CQ330KTT
33 @ 50MHz
±10% (K)
PE-1008CQ390KTT
39 @ 50MHz
±10% (K)
PE-1008CQ470KTT
47 @ 50MHz
±10% (K)
PE-1008CQ560KTT
56 @ 50MHz
±10% (K)
PE-1008CQ680KTT
68 @ 50MHz
±10% (K)
PE-1008CQ820KTT
82 @ 50MHz
±10% (K)
PE-1008CQ101KTT
100 @ 50MHz
±10% (K)
PE-1008CQ121KTT
120 @ 50MHz
±10% (K)
PE-1008CQ151KTT
150 @ 50MHz
±10% (K)
PE-1008CQ181KTT
180 @ 50MHz
±10% (K)
PE-1008CQ221KTT
220 @ 50MHz
±10% (K)
PE-1008CQ271KTT
270 @ 50MHz
±10% (K)
PE-1008CQ331KTT
330 @ 50MHz
±10% (K)
PE-1008CQ391KTT
390 @ 50MHz
±10% (K)
Notes:
1. Inductance measured using a HP4191A RF Impedance Analyzer.
2. Q measured using a HP4291A RF Impedance Analyzer with a
HP16193A Test Fixture.
3. SRF measured using a HP8753C Network Analyzer.
Optional
Tolerance
Q2
(MIN)
SRF Min 3
(MHz MIN)
RDC 4
(Ω MAX)
IDC 5
(mA MAX)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
±5% (J)
75 @ 1500MHz
60 @ 500MHz
70 @ 500MHz
62 @ 350MHz
62 @ 350MHz
75 @ 350MHz
75 @ 350MHz
75 @ 350MHz
75 @ 350MHz
80 @ 350MHz
80 @ 350MHz
62 @ 350MHz
62 @ 350MHz
60 @ 350MHz
40 @ 350MHz
35 @ 350MHz
35 @ 350MHz
35 @ 100MHz
35 @ 350MHz
6000
3600
2800
2700
2050
1700
1300
1450
1230
1150
1060
820
800
750
720
680
600
550
500
0.05
0.06
0.06
0.07
0.07
0.09
0.09
0.12
0.12
0.13
0.16
0.16
0.17
0.21
0.23
0.29
0.55
0.60
0.82
1600
1600
1500
1400
1400
1300
1300
1200
1200
1100
1100
1000
1000
950
920
900
600
550
470
4. RDC measured using a Valhalla Scientific model 4100 ATC
Digital Ohmmeter.
5. Based on a 15oC maximum temperature rise.
6. Component Weight: 0.032 grams typical.
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20
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 1008CQ SERIES
Typical Q vs Frequency
Typical Inductance vs Frequency
140
1000
120
180
100
Inductance (nH)
100
330
Q
220
80
120
390
60
560
40
470
100
390
220
120
100
10
20
0
1
100
1000
1
2000
1
5
10
Frequency (MHz)
100
500
1000
1800
Frequency (MHz)
Mechanical
.045
1,14
040
.115
MAX
2,92
.100
2,54
.110
MAX
2,79
.040
1,02
SUGGESTED PAD LAYOUT
2X
Epoxy Cap
.090
MAX
2,29
2X
.020 ±.004
0,51 ±0,10
Dimensions: Inches
mm
Unless otherwise specified
all tolerances are ± .010
0,25
Termination Pad
Front and
Back
2X Side
2X Inside
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21
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 1206CD SERIES
Wirewound ceramic core construction
High Q values and self-resonant frequency
Industry standard 1206 (3216) SMT land pattern
See page 3 for Competition Cross Reference
Electrical Specifications @ 25°C
Part Number
Inductance
(nH)
1
Standard
Tolerance
Optional
Tolerance
Q2
(MIN)
SRF Min 3
(MHz MIN)
RDC 4
(Ω MAX)
IDC 5
(mA MAX)
±10% (K)
±5% (J), ±2% (G)
30 @ 300MHz
6200
0.05
1000
PE-1206CD030KTT
3.3 @ 100MHz
PE-1206CD060KTT
6.8 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
30 @ 300MHz
5500
0.07
1000
PE-1206CD100KTT
10 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
40 @ 300MHz
4000
0.08
1000
PE-1206CD120KTT
12 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
40 @ 300MHz
3200
0.08
1000
PE-1206CD150KTT
15 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
40 @ 300MHz
3200
0.10
1000
PE-1206CD180KTT
18 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
50 @ 300MHz
2800
0.10
1000
PE-1206CD220KTT
22 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
50 @ 300MHz
2200
0.10
1000
PE-1206CD270KTT
27 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
50 @ 300MHz
1800
0.11
1000
PE-1206CD330KTT
33 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
55 @ 300MHz
1800
0.11
1000
PE-1206CD390KTT
39 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
55 @ 300MHz
1800
0.12
1000
PE-1206CD470KTT
47 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
55 @ 300MHz
1500
0.13
1000
PE-1206CD560KTT
56 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
55 @ 300MHz
1450
0.14
1000
PE-1206CD680KTT
68 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
55 @ 300MHz
1200
0.26
900
PE-1206CD820KTT
82 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
55 @ 300MHz
1200
0.21
900
PE-1206CD101KTT
100 @ 100 MHz
±10% (K)
±5% (J), ±2% (G)
55 @ 300MHz
1100
0.26
850
PE-1206CD121KTT
120 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
60 @ 300MHz
1100
0.26
800
PE-1206CD151KTT
150 @ 100MHz
±10% (K)
±5% (J), ±2% (G)
60 @ 300MHz
950
0.31
750
PE-1206CD181KTT
180 @ 50MHz
±10% (K)
±5% (J), ±2% (G)
60 @ 300MHz
900
0.43
700
PE-1206CD221KTT
220 @ 50MHz
±10% (K)
±5% (J), ±2% (G)
60 @ 300MHz
760
0.50
670
PE-1206CD271KTT
270 @ 50MHz
±10% (K)
±5% (J), ±2% (G)
55 @ 300MHz
730
0.56
630
PE-1206CD331KTT
330 @ 50MHz
±10% (K)
±5% (J), ±2% (G)
45 @ 150MHz
650
0.62
590
PE-1206CD391KTT
390 @ 50MHz
±10% (K)
±5% (J), ±2% (G)
45 @ 150MHz
600
0.75
530
PE-1206CD471KTT
470 @ 50MHz
±10% (K)
±5% (J), ±2% (G)
45 @ 150MHz
550
1.30
490
PE-1206CD561KTT
560 @ 35MHz
±10% (K)
±5% (J), ±2% (G)
45 @ 150MHz
470
1.34
460
PE-1206CD621KTT
620 @ 35MHz
±10% (K)
±5% (J), ±2% (G)
45 @ 150MHz
470
1.58
430
PE-1206CD681KTT
680 @ 35MHz
±10% (K)
±5% (J), ±2% (G)
45 @ 150MHz
450
1.58
430
PE-1206CD751KTT
750 @ 35MHz
±10% (K)
±5% (J), ±2% (G)
45 @ 150MHz
440
2.25
400
PE-1206CD821KTT
820 @ 35MHz
±10% (K)
±5% (J), ±2% (G)
45 @ 150MHz
420
1.82
400
PE-1206CD911KTT
910 @ 35MHz
±10% (K)
±5% (J), ±2% (G)
45 @ 150MHz
410
2.95
400
PE-1206CD102KTT
1000 @ 35MHz
±10% (K)
±5% (J), ±2% (G)
45 @ 150MHz
400
2.80
320
PE-1206CD122KTT
1200 @ 35MHz
±10% (K)
±5% (J), ±2% (G)
45 @ 150MHz
380
3.20
300
Notes:
1. Inductance measured using a HP4286A RF Impedance Analyzer.
2. Q measured using a HP4291A RF Impedance Analyzer with a HP16193A Test
Fixture.
3. SRF measured using a HP8753C Network Analyzer.
4. RDC measured using a Valhalla Scientific model 4100 ATC Digital Ohmmeter.
5. Based on a 15oC maximum temperature rise.
6. Sample Kit Part Number: PE-1206CD KIT-T
7. Component Weight: 0.035 grams typical.
8. These components are 0.060” in height.
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22
WC701.L (4/10)
WIRE-WOUND RF CHIP
INDUCTORS - 1206CD SERIES
Typical Q vs Frequency
Q FACTOR
120
150
030
100
80
60
151
150
330
330
40
331
331
681
20
0
030
10
100
681
151
1000
10000
FREQUENCY(MHz)
Typical Inductance vs Frequency
INDUCTANCE(nH)
10000
122
1000
561
151
470
100
180
10
030
1
1
10
100
1000
10000
FREQUENCY(MHz)
Mechanical
.060
1,52
.140 MAX
3,56
.085 MAX
2,16
.070
1,78
121
.076
1,93
Part Code
(Typical)
.005/0,13
2X
.040
1,02
BOTTOM VIEW
Dimensions: Inches
mm
2X
Unless otherwise specified
all tolerances are ± .010
0,25
.020 ±.003
0,51 ±0,08
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23
WC701.L (4/10)
WIRE-WOUND
RF CHIP INDUCTORS
Application Notes
The Basics of Wire-Wound Chip Inductors
Pulse currently supplies high quality magnetic products to companies such as 3COM, Cisco, Ericsson, Intel, Marconi,
Nokia and Nortel and has been active in the field of RF engineering, since the launch of its first wire-wound 1008
chip product in 1982. Pulse now offers seven ranges of wire-wound chip from 0402 to 1206 (see table 1.0 below):
the "CD Range" with 100% compatibility to other market leaders, and the "CM and CQ ranges" with improved
electrical performance or alternative inductance values with a ceramic core construction; the FT series with a
Ferrite core construction.
In recent years, Pulse has leveraged its strength within the Telecoms and Networking industry to extend its product
range to encompass RF products for the Cable Modem, CATV, MMDS and TETRA markets. Pulse now also offers
Wide Bandwidth RF Transformers, Splitter Combiners, Couplers, Diplexers, Low Pass Filters and High Power
Impedance Matching Transformers. To explore the complete range of RF products, visit the Pulse website:
http://www.pulseeng.com./Products/finder/rf_hfc_cable.htm for cable products and
http://www.pulseeng.com/scripts/finder/rfind/mcis.cfm for RF chip inductors.
Pulse
Part No.
PE-0402CD
PE-0603CD
PE-0805CD
PE-0805CM
PE-0805FT
PE-1008CD
PE-1008CM
PE-1008CQ
PE-1206CD
Inductance
Range (nH)
1.0 ~ 120
1.6 ~ 390
2.8 ~ 1500
3.3 ~ 820
1000 ~ 68000
4.0 ~ 8200
4.7 ~ 4700
3.0 ~ 390
3.3 ~ 1200
Number
of Values
48
55
40
27
12
71
40
19
31
Tolerance Range
Availability
2, 5 & 10%
2, 5 & 10%
1, 2, 5 & 10%
2, 5 & 10%
5 & 10%
1, 2, 5 & 10%
2, 5 & 10%
5 & 10%
2, 5 & 10%
In Mass Production
In Mass Production
In Mass Production
In Mass Production
In Mass Production
In Mass Production
In Mass Production
In Mass Production
In Mass Production
Table 1.0 Pulse Chip Inductor Product Range
Competing Chip Inductor Types
Capacitor and resistors are available in a wide variety of sizes and component values and it is possible to purchase
almost any value, tolerance or other rating. Inductors, on the other hand, are not so readily available and engineers
may find it necessary to wind their own inductors to get a specific value of inductance.
There are mainly 3 varieties of inductor in common use today and they are wire-wound, multi-layer and drum core
chip inductors. The primary differences between these competing types are the core material used to enhance the
inductance of coil and the construction method. Wire is wound around a ceramic or ferrite bobbin or in the case of
multi-layer the coil is formed by interconnecting layers of conductive material printed on a ceramic substrate.
Table 2.0 indicates that the performance merits of wire-wound inductors versus the alternative multi-layer and drum
core platforms. If price were the only consideration then, of course, there would be no market available for wire-wound
chip inductors. But price is not the only consideration, since RF engineers must also consider the needs of the
application in terms of Q factor, Idc (maximum current carrying capacity). Rdc (resistance at dc), Tolerance and
SRF (self-resonant or series resonant frequency).
Material
SMT
Technology
Q Factor
SRF
Idc
Tolerance
Substrate
Chip Inductor
Wire-wound
Ceramic
High
High
High
Good
Chip Inductor
Wire-wound
Ferrite
Low
Low
High
Poor
Multi-layer
Printed
Ceramic
Low
Low
Low
Poor
Drum Core
Wire-wound
Ferrite
Low
Low
Low
Poor
Table 2.0 Summary of Chip Inductor Relative Performance
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RF CHIP INDUCTORS
Application Notes
The Inductor Basics
An inductor is formed by winding a wire around a ceramic or ferrite core to increase the magnetic flux linkage between
the turns of the coil. The majority of high frequency inductors above 50MHz are formed on a ceramic bobbin or substrate. Nonmagnetic cores (ceramic cores) have the opposite effect to a magnetic core in that they reduce instead of
increase the inductance of the coil. Ceramic cores are mainly used to reduce the RF core losses as the high frequency
currents mainly flow near the surface of the conductor. The resistance that a conductor offers to the high frequency
alternating current is much greater than the resistance of the same conductor to direct current (dc) and is known as the
skin effect. The skin effect is a characteristic of conductors that carry alternating current and is much more pronounced
in coils than in straight conductors.
Skin effect causes the current in the conductor to be much denser near the surface of the conductor than at its centre.
Consequentially, as the instantaneous value of the alternating current changes the inductance of a conductor in its
interior is much greater than the instantaneous inductance near its surface. The result is more current flows near the
surface or "skin" of the conductor than at its centre. Since the inductance of the coil increases proportionally to the
increasing frequency, the skin effect also increases as the frequency is increased.
Another source of loss is the dielectric material used to form the body of the inductor. There is no perfect insulator and
so dielectric losses can not be avoided at very high frequencies. Dielectric losses, like skin effect also tend to increase
the effective resistance of a coil at high frequencies.
Whilst there is no perfect component compared to a resistor or capacitor, inductors are probably the component most
prone to changing its performance over frequency. Figure 1.0 illustrates what a real world inductor looks like at RF frequencies and the resultant equivalent circuit.
Cd
Rs
Cd
L
Rs
Fig. 1.0 A
Distributed Capacitance and
Series Resistance in an Inductor
Cd
Fig. 1.0 B
Equivalent Circuit of an Inductor
Fig. 1.0 A shows how capacitive coupling (Cd) can occur between two wires, when the wires are placed in close proximity to one another and only separated by a dielectric. The resistance (Rs) is a representation of the wire resistance
that exists in a wire. Fig. 1.0 B shows a representation of the lumped resistive, capacitive and inductive component
elements of an inductor.
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Application Notes
The Inductor Basics (continued)
The effect of Cd can have a dramatic effect upon the impedance of the inductor as illustrated in Fig 2.0, because
"fringe" effects become dominant at high frequencies. At low frequencies the inductor's reactance parallels that of an
ideal inductor. With increasing frequency the reactance of the inductor departs from the ideal curve and increases at a
much faster rate until it reaches a peak value at the inductor's parallel resonant frequency (Fr). Above Fr the inductor's
reactance begins to decrease with increasing frequency and thus the inductor begins to look like a capacitor. The
series resistance (Rs) of the coil prevents the impedance of the inductor from reaching infinity at resonance (Fr).
Another effect of Rs is to broaden the resonant peak of the impedance curve at Fr.
Comparisons made between inductors at near to Fr will produce an inaccurate representation of the inductor's performance. This can lead to problems in the end application since the performance of one inductor to another may vary
quite markedly since the performance of the inductor is dominated by the parasitic content (distributed capacitance Cd)
of the inductor.
Quality Factor (Q)
Fr
S.R.F
Frequency (Hz)
Impedance (XL)
Ideal Inductor
Inductive
Capacitive
S.R.F
Frequency (Hz)
Fig. 2.0 Impedance and Inductance Characteristic of a Real World Inductor
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Application Notes
Q factor / SRF
The ratio of an inductor's reactance (XL) to its series resistance (Rs) is often used as measure of the quality factor of
the inductor. The larger the ratio, the better the inductor. The quality factor of an inductor is often referred to as the Q
of the inductor. If the inductor were constructed from a perfect conductor (zero loss), its Q would be infinite. Of course
this is impossible, and so the Q of an inductor will always have some finite value.
The Q factor, Fr and SRF of an inductor are directly linked to one another. If the test frequency is near Fr or SRF, the
inductor results may be misleading by very wide margins, since the result is dominated by distributed capacitance
reactance. To overcome this problem, the test frequency of the inductor is normally located at a point on the inductor's
curve where the reactance of the inductor approaches that of an ideal inductor, so that component to component
variations are kept to a minimum since the parasitic contribution is also at a minimum. To overcome this problem, RF
engineers should select an inductor with the highest test frequency possible to guarantee the quality of the inductor.
At low frequencies, the Q of an inductor is very good because the only resistance in the winding is the dc resistance of
the wire which is very small (Fig. 2.0). As mentioned earlier, as the frequency increases, the skin effect increases to
degrade the Q of the inductor. At low frequencies, the Q increases directly inline with the reactance (XL) since the skin
effect has not become noticeable. The Q continues to rise, but as the frequency approaches Fr, the skin effect starts to
become a dominant, reducing the rate of increase. At Fr, the series resistance and reactance are increasing at the
same rate. Above Fr, the distributed capacitance Cd and skin effect of the winding combine together to decrease the
Q of the inductor to zero at SRF.
Understanding Inductor Curves
RF design engineers require inductors to meet the following requirements:
1. Low cost
2. Compatibility to the competition
• Q, SRF and useable frequency range => competition
3. Component to component variation small
4. Performance approachs that of an ideal inductor
• High Q (low series resistance)
• High SRF (low distributed capacitance)
Ideal Inductor
Distributed Capacitance
Series resistor
Real World Inductor
Cd = 0
Infinite SRF
Cd = Min
High SRF
High Fr
Rs = 0
Infinite Q
Rs = Min
High Q
High Fr
3.0 Characteristics of a Real World Inductor Vs Ideal Inductor
Determining the Inductor Equivalent Circuit
To determine the inductor equivalent circuit, an RF engineer must deduce the value of Rs and Cd from the curves supplied by the inductor manufacturer. To do this, the following equations can be used. Of course, the values deduced
only apply at one specific frequency. The recommended frequency at which the inductor is used within the application
should be an order of magnitude (÷ 10) below the SRF, and preferably not near than ½ Fr.
Equation 1: Fc<
SRF and/or < FR
10
2
Equation 2: Rs = XL =
Q
2 * π * Fc * L
Q
Equation 3: Cd
1
(2 * π * SRF)2 * L
=
Where:
Fc = Centre frequency of application / intended operation
SRF = Series resonant or self resonant frequency of the inductor
π
= 3.14159
L
= Inductor value
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Sales Offices
Pulse Worldwide
Headquarters
12220 World Trade Dr.
San Diego, CA 92128
U.S.A.
www.pulseeng.com
Tel: 858 674 8100
Pulse Europe
Einsteinstrasse
1D-71083 Herrenberg
Germany
Tel: 49 7032 7806 0
Pulse China Headquarters
B402, Shenzhen Academy of
Aerospace Technology Bldg.
10th Kejinan Rd.
High-Tech Zone
Nanshan District
Shenzen, PR China 518057
TEL: 86 755 33966678
Pulse North China
Room 1503
XinYin Building
No. 888 YiShan Rd.
Shanghai 200233
China
Pulse South Asia
135 Joo Seng Rd.
#03-02
PM Industrial Bldg.
Singapore 368363
Pulse North Asia
No. 26, Kao Ching Rd.
Yang Mei Chen
Taoyuan Hsien
Taiwan
R. O. C.
Tel: 86 21 54643211/2
TEL: 65 6287 8998
Tel: 886 3 4643715
Performance warranty of products offered on this data sheet is limited to the parameters specified. Data is subject to change without notice. Other brand and product
names mentioned herein may be trademarks or registered trademarks of their respective owners.
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