160R14W104KV4T [JOHANSON]
Ceramic Capacitor, Multilayer, Ceramic, 16V, 10% +Tol, 10% -Tol, X7R, 15% TC, 0.1uF, Surface Mount, 0603, CHIP;型号: | 160R14W104KV4T |
厂家: | JOHANSON TECHNOLOGY INC. |
描述: | Ceramic Capacitor, Multilayer, Ceramic, 16V, 10% +Tol, 10% -Tol, X7R, 15% TC, 0.1uF, Surface Mount, 0603, CHIP 电容器 |
文件: | 总81页 (文件大小:3530K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Ceramic
Component Solutions
AC Safety Certified
High Voltage SMT
High Capacitance
High Temperature
EMI Filters (X2Y®)
LICC Low ESL
SMPS Stacks
High Voltage Radials
Precision Power Resistors
Power Inductors
Planar Array
Discoidal
CapStrate®
Custom Solutions
Your
TechnologY
ParTner
The mission of the Johanson Companies is to
translate our customer needs into quality electronic
components, produced in factories that are models
of excellence, supported by innovative service. With
over 30 years of experience, Johanson Dielectrics
provides both standard and custom technology solu-
tions tailored to your specific electronic applications.
Our standard product range includes High Voltage
and AC Safety Capacitors providing solutions for
Lighting, IT and Business Equipment designs. Our
X2Y® Capacitor line provides advanced EMI fil-
tering and IC decoupling solutions and our High
Capacitance Tanceram® products provide the highest
capacitance values in the smallest cases sizes.
Customized solutions in the areas of High Tem-
perature and High AC power ceramic capacitors are
available to customers who require a partnered tech-
nology solution.
Johanson Dielectrics design and manufacturing
operations are located in Sylmar, California and
Zhoaqing, PRC. Our quality minded management
system utilizes continuous improvement programs
focused on increased product reliability, manufac-
turing through-put, and product performance. Our
broad experience, applications support, and respon-
sive service enhance our ability to drive down your
total cost of procurement and speed your time to
market.
HigH
Frequency
ceramic
SolutionS
Johanson Technology Inc., Camarillo CA. Products
include High Q Capacitors, Ceramic and Wire-
wound Chip Inductors, and a broad range of LTCC
based RF IPCs such as Antennas, Filters, Baluns,
Couplers, Matched Filter Baluns, etc.
www.johansontechnology.com
Johanson Dielectrics, Inc. reserves the right to make design and price changes without notice. All sales
are subject to the Johanson terms and conditions, including a limited warranty and remedies for non-
conforming goods or defective goods. Download the Johanson terms and conditions from our website at
https://www.johansondielectrics.com/terms-and-conditions.
2
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I
ndex of
ProducTs
SurFace
mount
ceramic
c
apacitorS
Ceramic Capacitor Prototyping Kits
High Voltage Capacitors 250 - 6,000 VDC
Safety Capacitors 250 VAC, Y2, X1, X2
EMI - X2Y® Filter & Decoupling Capacitors
Low Inductance Capacitors
4-5
6-7
8-9
10-13
14
Chip Feedthru Filter Capacitors
15
High Temperature - 200°C Capacitors
High Capacitance Tanceram® Capacitors
16-17
18-19
20-21
SMT Multi-layer Ceramic Capacitors 10 - 200 VDC
leaded
ceramic
capacitorS
SMPS Stacked Capacitors, 125°C & 200°C versions
Mini-SMPS Stacked Capacitors
22-23
24-25
26-27
28-29
30-31
BME Mini SMPS Capacitors
Switch-mode Radial Leaded Capacitors
High Voltage Radial Leaded Capacitors, 125°C, 200°C versions
preciSion
power
reSiStorS
Resistor Wirewound Precision
32-33
34-35
36-39
40-42
43-46
47-49
50-52
53-55
56-57
58-60
Resistor Wirewound Precision SMT
Resistor Wirewound High Power Rating
Resistor Wirewound Chassis Mount
Resistor Thin Film Precision
Resistor Metal Element Current Sense SMT
Resistor High Power Low Inductance
Resistor Thick Film, High Temperature
Resistor Metal Element Current Sense
Resistor Power Thin Film
p
ower nductorS
i
Semi-shielded (Coated) & Shielded
61-73
74-75
planar
capacitorS & cuStom
ceramic
SolutionS
Planar Array Capacitors
c
apStrate & cuStomer
c
eramic
S
olutionS
CapStrate® & Customer Ceramic Solutions
76-77
part
number, dielectric, packaging
SpeciFicationS
Capacitor General Electrical Characteristics and PN breakdown
78
79
Tape and Reel Packaging
3
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ceramIc
caPacITor
engIneerIng
desIgn
KITs
Johanson Dielectrics, Inc. offers a variety of multi-layer chip capacitor
sample kits for proto-type design work. Each kit is grouped by type,
size, or voltage and contains a selection of popular values and
tolerances. The chips are individually packaged in labeled plastic
compartments for easy access. The general range of kit contents
is described below. Specific part number details may be found at
www.johansondielectrics.com
0402 Ceramic Chip Capacitor Kit
P/N: S-0402
1400 piece sample assortment of selected values from 1.0pF to 0.22µF
Chip Size
0402
Voltage Rating
Dielectric
NP0, X7R
Capacitance Range
1.0pF to 0.22µF
Qty / Value
50 pcs
Total Qty
1400 pcs
50 VDC - 6.3 VDC
0603 Ceramic Chip Capacitor Kit
1400 piece sample assortment of selected values from 1.0pF to 0.22µF
P/N: S-0603
Chip Size
0603
Voltage Rating
Dielectric
NP0, X7R
Capacitance Range
10pF to 0.22µF
Qty / Value
50 pcs
Total Qty
1400 pcs
50 VDC - 16 VDC
0805 Ceramic Chip Capacitor Kit
1400 piece sample assortment of selected values from 1.0pF to 0.47µF
P/N: S-0805
Chip Size
0805
Voltage Rating
Dielectric
NP0, X7R
Capacitance Range
10pF to 0.47µF
Qty / Value
50 pcs
Total Qty
1400 pcs
100 VDC - 16 VDC
TANCERAM® HIGH CAPACITANCE Ceramic Chip Capacitor Kit
500 piece sample assortment of selected values from 1.0µF to 100µF
P/N: S-TAN-X5R
Chip Size
Voltage Rating
Dielectric
Capacitance Range
Qty / Value
Total Qty
500 pcs
0402, 0603, 0805
1206, 1210
25 VDC - 6.3 VDC
X5R
1.0µF - 100µF
10 - 25 pcs
500 VDC Ceramic Chip Capacitor Kit
400 piece sample assortment of selected values from 33pF to 0.1µF
P/N: S-500
Chip Size
Voltage Rating
500 VDC
Dielectric
NP0, X7R
Capacitance Range
33pF to 0.1µF
Qty / Value
10-20 pcs
Total Qty
400 pcs
0805 - 1812
1000 VDC Ceramic Chip Capacitor Kit
400 piece sample assortment of selected values from 22pF to 0.1µF
P/N: S-1KV
Chip Size
Voltage Rating
1000 VDC
Dielectric
NP0, X7R
Capacitance Range
22pF to 0.1µF
Qty / Value
10-20 pcs
Total Qty
400 pcs
0805 - 2225
Johanson may from time-time adjust actual kit contents based on design demand trends.
Check the Johanson web site for design kit updates and kit content changes.
4
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ceramIc
caPacITor
engIneerIng
desIgn
KITs
2000 VDC Ceramic Chip Capacitor Kit
300 piece sample assortment of selected values from 22pF to 0.022µF
P/N: S-2KV
Chip Size
Voltage Rating
2000 VDC
Dielectric
NP0, X7R
Capacitance Range
22pF to 0.022µF
Qty / Value
10-20 pcs
Total Qty
300 pcs
1206 - 2225
X2 SAFETY CERTIFIED Ceramic Chip Capacitor Kit
240 piece sample assortment of selected values from 10pF to 1500 pF
P/N: S-SY3
Chip Size
1808
Voltage Rating
Dielectric
NP0, X7R
Capacitance Range
10pF to 1500 pF
Qty / Value
20 pcs
Total Qty
240 pcs
3KV DC / 250 AC
X1/Y2 SAFETY CERTIFIED Ceramic Chip Capacitor Kit
200 piece sample assortment of selected values from 10pF to 2200 pF
P/N: S-SY2
Chip Size
Voltage Rating
Dielectric
NP0, X7R
Capacitance Range
10pF to 2200pF
Qty / Value
20 pcs
Total Qty
200 pcs
1808 - 2220
5KV DC / 250 AC
X2Y® EMI FILTER Capacitor Kit - 0402 Size
600 piece sample assortment of selected values from 1.0pF to 0.01µF
P/N: S-X07CBK
Chip Size
0402
Voltage Rating
10 - 50 VDC
Dielectric
NP0, X7R
Capacitance Range
1.0pF to 0.01µF
Qty / Value
50 pcs
Total Qty
600 pcs
X2Y® EMI FILTER Capacitor Kit - 0603 Size
700 piece sample assortment of selected values from 1.0pF to 0.01µF
P/N: S-X14CBK
Chip Size
0603
Voltage Rating
50 - 100 VDC
Dielectric
NP0, X7R
Capacitance Range
1.0pF to 0.01µF
Qty / Value
50 pcs
Total Qty
700 pcs
X2Y® POWER BYPASS Capacitor Kit - 0603 Size
300 piece sample assortment of selected values from 1.0nF to 1.0µF
P/N: S-X14-PBP
Chip Size
0603
Voltage Rating
6.3 - 100 VDC
Dielectric
X7R, X5R
Capacitance Range
1.0nF to 1.0µF
Qty / Value
20 pcs
Total Qty
300 pcs
X2Y® EMI FILTER Capacitor Kit - 0805 Size
300 piece sample assortment of selected values from 1.0pF to 0.01µF
P/N: S-X15-EMI
Chip Size
0805
Voltage Rating
50 - 100 VDC
Dielectric
NP0, X7R
Capacitance Range
1.0pF to 0.01µF
Qty / Value
20 pcs
Total Qty
300 pcs
X2Y® DC MOTOR FILTER Capacitor Kit
300 piece sample assortment of selected values from 0.10µF to 0.47µF
P/N: S-X2Y-MTR
Chip Size
Voltage Rating
100 VDC
Dielectric
X7R
Capacitance Range
0.10µF to 0.47µF
Qty / Value
30 pcs
Total Qty
300 pcs
1206 - 1812
Johanson may from time-time adjust actual kit contents based on design demand trends.
Check the Johanson web site for design kit updates and kit content changes.
5
www.johansondielectrics.com
hIgh
VolTage
surface
m
ounT mlcc
s
250 - 6,000 Vdc
These high voltage capacitors feature a special internal electrode
design which reduces voltage concentrations by distributing
voltage gradients throughout the entire capacitor.
This unique design also affords increased capacitance values in
a given case size and voltage rating. The capacitors are designed
and manufactured to the general requirement of EIA198 and
are subjected to a 100% electrical testing making them well
suited for a wide variety of telecommunication, commercial, and
industrial applications.
applicationS
• Analog & Digital Modems
• Lighting Ballast Circuits
• DC-DC Converters
• LAN/WAN Interface
• Voltage Multipliers
• Back-lighting Inverters
Polyterm® soft termination option for demanding environments &
processes available on select parts, please contact the factory.
caSe
Size
capacitance
Selection
NP0 DIELECTRIC
X7R DIELECTRIC
MINIMUM
RATED
JDI /EIA
INCHES
(MM)
VOLTAGE
MINIMUM
-
MAXIMUM
-
MAXIMUM
0.022 µF
0.010 µF
6800 pF
2700 pF
0.068 µF
0.033 µF
0.027 µF
0.010 µF
4700 pF
1000 pF
0.150 µF
0.068 µF
0.047 µF
0.015 µF
4700 pF
1000 pF
0.100 µF
0.047 µF
0.022 µF
0.010 µF
3300 pF
1800 pF
390 pF
1000 pF
1000 pF
1000 pF
100 pF
1000 pF
1000 pF
1000 pF
100 pF
100 pF
100 pF
1000 pF
1000 pF
1000 pF
100 pF
100 pF
100 pF
1000 pF
1000 pF
100 pF
100 pF
100 pF
100 pF
47 pF
250 VDC
500 VDC
630 VDC
1000 VDC
250 VDC
500 VDC
630 VDC
1000 VDC
2000 VDC
3000 VDC
250 VDC
500 VDC
630 VDC
1000 VDC
2000 VDC
3000 VDC
500 VDC
630 VDC
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
6000 VDC
L
.080 .010
.050 .010
.055 Max.
(2.03 .25)
(1.27 .25)
(1.40)
10 pF
10 pF
10 pF
-
680 pF
560 pF
390 pF
-
W
R15/0805
T
E/B .020 .010
(0.51 .25)
10 pF
10 pF
10 pF
10 pF
10 pF
-
1500 pF
1200 pF
1000 pF
220 pF
82 pF
R18/1206
S41/1210
R29/1808
L
W
T
.125 .010
.062 .010
.067 Max.
(3.18 .25)
(1.57 .25)
(1.70)
E/B .020 .010
(0.51 .25)
-
10 pF
10 pF
10 pF
10 pF
10 pF
10 pF
10 pF
1.0 pF
1.0 pF
1.0 pF
1.0 pF
1.0 pF
1.0 pF
3900 pF
2700 pF
1800 pF
560 pF
220 pF
4700 pF
3300 pF
2200 pF
820 pF
470 pF
180 pF
75 pF
L
W
T
.125 .010
.095 .010
.080 Max.
(3.18 .25)
(2.41 .25)
(2.03)
E/B .020 .010
(0.51 .25)
L
W
T
.185 .020
.080 .010
.085 Max.
(4.70 .51)
(2.03 .25)
(2.16)
E/B .020 .010
(0.51 .25)
75 pF
47 pF
150 pF
Available cap. values include these significant retma values and their multiples: 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2
( 1.0 = 1.0, 10, 100, 1000, etc.) Consult factory for non-retma values and sizes or voltages not shown.
6
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hIgh
VolTage
surface
m
ounT mlcc
s
250 - 6,000 Vdc
caSe
Size
capacitance
Selection
NP0 DIELECTRIC
X7R DIELECTRIC
RATED
JDI /EIA
INCHES
(MM)
VOLTAGE
MINIMUM
-
MAXIMUM
-
MINIMUM
MAXIMUM
0.470 uF
0.330 uF
0.120 µF
0.100 µF
0.010 µF
4700 pF
1200 pF
820 pF
0.010 µF
1000 pF
1000 pF
1000 pF
100 pF
100 pF
100 pF
100 pF
10 pF
250 VDC
500 VDC
630 VDC
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
6000 VDC
500 VDC
100 pF
100 pF
10 pF
10 pF
10 pF
10 pF
10 pF
10 pF
100 pF
100 pF
10 pF
10 pF
10 pF
10 pF
10 pF
10 pF
1000 pF
1000 pF
100 pF
100 pF
10 pF
10 pF
10 pF
10 pF
1000 pF
1000 pF
100 pF
100 pF
10 pF
10 pF
10 pF
10 pF
8200 pF
6800 pF
5600 pF
1800 pF
1000 pF
390 pF
S43 / 1812
L
.177 .012
.125 .010
.110 Max.
.025 .015
(4.50 .30)
(3.18 .25)
(2.80)
W
T
E/B
(0.64 .38)
150 pF
150 pF
330 pF
0.018 µF
0.015 µF
0.012 µF
5600 pF
2200 pF
1200 pF
390 pF
0.01 µF
0.01 µF
1000 pF
100 pF
100 pF
100 pF
100 pF
100 pF
0.01 µF
0.01 µF
1000 pF
1000 pF
100 pF
100 pF
100 pF
100 pF
0.01 µF
0.01 µF
1000 pF
1000 pF
100 pF
100 pF
100 pF
100 pF
0.390 µF
0.270 µF
0.180 µF
0.039 µF
8200 pF
2200 pF
1500 pF
820 pF
0.470 µF
0.270 µF
0.120 µF
0.039 µF
0.010 µF
2700 pF
1500 pF
820 pF
0.560 µF
0.390 µF
0.180 µF
0.056 µF
0.012 µF
3300 pF
2700 pF
1200 pF
630 VDC
S49 / 1825
S47 / 2220
S48 / 2225
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
6000 VDC
500 VDC
L
.180 .010
.250 .010
.140 Max.
.025 .015
(4.57 .25)
(6.35 .25)
(3.56)
W
T
E/B
(0.64 .38)
390 pF
0.018 µF
0.018 µF
0.015 µF
5600 pF
2700 pF
1500 pF
470 pF
630 VDC
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
6000 VDC
500 VDC
L
.225 .015
.200 .015
.150 Max.
.025 .015
(5.72 .38)
(5.08 .38)
(3.81)
W
T
E/B
(0.64 .38)
470 pF
0.027 µF
0.022 µF
0.018 µF
8200 pF
3300 pF
1800 pF
470 pF
630 VDC
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
6000 VDC
L
.225 .010
.255 .015
.160 Max.
.025 .015
(5.72 .25)
(6.48 .38)
(4.06)
W
T
E/B
(0.64 .38)
470 pF
Available cap. values include these significant retma values and their multiples: 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2
( 1.0 = 1.0, 10, 100, 1000, etc.) Consult factory for non-retma values and sizes or voltages not shown.
e
lectrical
c
HaracteriSticS
W
Meets the standard NP0 & X7R dielectric specifications listed on page 78
DIELECTRIC WITHSTANDING VOLTAGE DWV = 1.5 X rated WVDC for ratings 500-999 WVDC,
DWV = 1.2 X rated WVDC for ratings ≥ 1,000 WVDC
L
T
E/B
NOTE: Capacitors may require a surface coating to prevent external arcing. Solder mask should not be used beneath
capacitors. For more information see JDI Tech Note “Surface Arc Season”
P/N written: 202R18W102KV4E
How to
order
HigH
Voltage
SurFace
mount
202
R18
W
102
K
V
4
E
VOLTAGE
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
TERMINATION
MARKING
PACKING
501 = 500 V
631 = 630 V
102 = 1000 V
202 = 2000 V
302 = 3000 V
402 = 4000 V
502 = 5000 V
602 = 6000 V
R15 = 0805
R18 = 1206
R29 = 1808
S41 = 1210
S43 = 1812
S47 = 2220
S48 = 2225
S49 = 1825
N = NP0
W = X7R
1st two digits are signifi-
cant; third digit denotes
number of zeros.
J =
K =
M =
5%
10%
20%
V = NI Barrier with 100%
Sn Plating (Matte)
4 = Unmarked
6 = EIA Code
E
T
= Embossed 7”
= Punched 7”
F = Polyterm
flexible termination
No code = bulk
102 = 1000 pF
104 = 0.10 µF
Tape specs.
per EIA RS481
T = SnPb
7
www.johansondielectrics.com
ac safeTY
caPacITors
Johanson Dielectrics Type SC ceramic chip capacitors are
designed for AC voltage surge and lightning protection in line-
to-ground interface applications in computer networks, modem,
facsimile and other equipment.
Johanson’s safety capacitor offering includes four different case
sizes in NP0 and X7R dielectric materials.
These devices are surface mount ready with barrier terminations
and tape and reel packaging.
Information on capacitor safety ratings and certification details
may be found below.
Polyterm® soft termination
option for demanding
W
L
environments & processes
available on select parts,
please contact the factory.
T
E/B
SAFETY
RATING
VOLTAGE
RATING
WITHSTANDING
VOLTAGE
IMPULSE
VOLTAGE
CASE
SIZE
JOHANSON
ORDERING P/N
X2
250 VAC
1,500 VAC
2,500 V
1808
302R29______V3E-****-SC
STANDARDS: IEC/EN 60384-14:2013 EN 60950 2006 • UL 60384-14, UL 60950-01 CERTIFICATIONS: TUV R 50227900 & T 72140662 • UL File E472557 & E212609
X2
250 VAC
1,500 VAC
2,500 V
1812
302S43______V3E-****-SC
STANDARDS: IEC/EN 60384-14:2013 EN 60950 2006 • UL 60384-14, UL 60950-01 CERTIFICATIONS: TUV R 50227900 & T 72140662 • UL File E472557 & E212609
X1/Y2
250 VAC
1,500 VAC
5,000 V
1808
502R29______V3E-****-SC
STANDARDS: IEC/EN 60384-14:2013 EN 60950 2006 • UL 60384-14, UL 60950-01 CERTIFICATIONS: TUV R 50227900 & T 72140662 • UL File E472557 & E212609
X1/Y2
250 VAC
1,500 VAC
2,500 V
1812
502S43______V3E-****-SC
STANDARDS: IEC/EN 60384-14:2013 EN 60950 2006 • UL 60384-14, UL 60950-01 CERTIFICATIONS: TUV R 50227900 & T 72140662 • UL File E472557 & E212609
X1/Y2
250 VAC
1,500 VAC
5,000 V
2211
502R30______V3E-****-SC
STANDARDS: IEC/EN 60384-14:2013 EN 60950 2006 • UL 60384-14, UL 60950-01 CERTIFICATIONS: TUV R 50227900 & T 72140662 • UL File E472557 & E212609
X1/Y2
250 VAC
1,500 VAC
5,000 V
2220
502S47______V3E-****-SC
STANDARDS: IEC/EN 60384-14:2013 EN 60950 2006 • UL 60384-14, UL 60950-01 CERTIFICATIONS: TUV R 50227900 & T 72140662 • UL File E472557 & E212609
X Capacitors are defined as suitable for use in situations where failure of the capacitor would not lead to danger of electric shock.
Y Capacitors are defined as suitable for use in situations where failure of the capacitor could lead to danger of electric shock.
8
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ac safeTY
caPacITors
safeTY
c
erTIfIed
INCHES
(MM)
R29 / 1808
DIELECTRIC
L
W
.185 .015
.080 .010
.085 Max.
.020 .010
(4.70 .38)
(2.03 .25)
(2.16)
NP0
X7R
T
E/B
(0.51 .25)
X2
S43 / 1812
.175 .010
.125 .010
.115 Max.
.025 .015
(4.45 .25)
(3.18 .25)
(2.92)
L
W
T
(0.64 .38)
E/B
X2
R29 / 1808
L
W
T
.185 .015
.080 .015
.085 Max.
(4.70 .38)
(2.03 .38)
(2.16)
E/B .012 .015
(0.30 .38)
X1/Y2
S43 / 1812
.175 .010
.125 .010
.115 Max.
.025 .015
(4.45 .25)
(3.18 .25)
(2.92)
L
W
T
(0.64 .38)
E/B
X1/Y2
R30 / 2211
L
W
.225 .016
.110 .010
.115 Max.
.020 .010
5.72 .40)
(2.80 .25)
(2.92)
T
E/B
(0.51 .25)
X1/Y2
S47 / 2220
L
W
T
.225 .015
.200 .015
.150 Max.
(5.72 .38)
(5.08 .38)
(3.81)
E/B .025 .015
(0.64 .38)
X1/Y2
P/N written: 302R29W102MV3E-****-SC
How to
order ac SaFety
capacitorS
502
R29
W
102
M
V
3
E
-****-SC
VOLTAGE
SIZE
DIELECTRIC CAPACITANCE TOLERANCE TERMINATION
MARKING
PACKING
TYPE
302 = 250VAC
[2500V Impulse]
502 = 250VAC
[5000V Impulse]
R29=1808
R30=2211
S43=1812
S47=2220
AC2=2220
N = NP0
W = X7R
1st two digits are
significant; third digit
denotes number of
zeros, R = decimal.
102 = 1000 pF
J =
K =
M =
5%
10%
20%
V = NI Barrier with
100% Sn Plating
(Matte)
3 = Required E = Embossed 7”
Safety Mark U = Embossed 13”
SC = Safety
Certified
No code = bulk
F = Polyterm
flexible termination
Tape specs.
per EIA RS481
104 = 0.10 µF
5R0 = 5.0pF
9
www.johansondielectrics.com
®
x2Y fIlTer & decouPlIng
caPacITors
X2Y® filter capacitors employ a unique, patented low inductance design featuring two balanced capacitors
that are immune to temperature, voltage and aging performance differences.
These components offer superior decoupling and EMI filtering performance, virtually eliminate parasitics, and
can replace multiple capacitors and inductors saving board space and reducing assembly costs.
adVantageS
applicationS
• One device for EMI suppression or decoupling
• Replace up to 7 components with one X2Y
• Differential and common mode attenuation
• Matched capacitance line to ground, both lines
• Low inductance due to cancellation effect
• Amplifier Filter & Decoupling
• High Speed Data Filtering
• EMC I/O Filtering
• FPGA / ASIC / µ-P Decoupling
• DDR Memory Decoupling
EMI Filtering
(1 Y-Cap.)
Power Bypass
(2 Y-Caps.)
SIZE
NP0
50 50 50 50 50 50 50
0402 (X07)
X7R
NP0
X7R
X5R
NP0
X7R
NP0
X7R
X7R
X7R
X7R
50 50 50 50 50 50 16
100 100 100 100 100 50 50 50
100 100 100 100 100 100 100 100 50 25 25
16 10
10
0603 (X14)
16 10
10 10
100 100 100 100 100 100 100 50
0805 (X15)
1206 (X18
100 100 100 100 100 100 100 100 50 50
50 25 10
VOLTAGE
RATINGS
100
100 100 100
100 100
100
16 16
10
6.3 = 6.3 VDC
10 = 10 VDC
16 = 16 VDC
25 = 25 VDC
50 = 50 VDC
100 = 100 VDC
500 = 500 VDC
500
500
100 100
25 16
1210 (X41)
1410 (X44)
1812 (X43)
100
500
100
Contact factory for part combinations not shown.
Filtering capacitance is specified as Line-to-Ground ( Terminal A or B to G)
Power Bypass capacitance is specified Power-to-Ground (A + B to G)
Rated voltage is from line to ground in Circuit 1, power to ground in Circuit 2 .
o
rder X2y® capacitorS
P/N written: 101X14W102MV4T
How to
100
X14
W
102
M
V
4
T
VOLTAGE
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
TERMINATION
MARKING
PACKING
6R3 = 6.3 V
100 = 10 V
160 = 16 V
250 = 25 V
500 = 50 V
101 = 100 V
501 = 500 V
X07 = 0402
X14 = 0603
X15 = 0805
X18 = 1206
X41 = 1210
X44 = 1410
X43 = 1812
N = NP0
W = X7R
X = X5R
1st two digits are signifi-
cant; third digit denotes
number of zeros, R =
decimal.
M =
20%
V = NI Barrier with 100%
Tin Plating (Matte)
4 = Unmarked
(Not available)
E = Embossed 7”
T = Punched 7”
* D =
0.50 pF
*Values < 10 pF only
F = Polyterm
flexible termination
No code = bulk
102 = 1000 pF
Tape specs.
per EIA RS481
104 = 0.10 µF
5R6 = 5.6pF
T = SnPb
®
X2Y technology patents and registered trademark under license from X2Y ATTENUATORS, LLC
10
www.johansondielectrics.com
®
x2Y fIlTer & decouPlIng
caPacITors
Power Bypass S21
Power-to-Ground
EMI Filtering S21
Signal-to-Ground
Labeled capacitance values below follow the P/N order code (single Y cap value)
Effective capacitance measured in Circuit 2 is 2X of the labled single Y cap value.
10.0Ω
1.00Ω
10.0Ω
1.00Ω
0.10Ω
0.01Ω
0.10Ω
0.01Ω
e
clHeacrtarcictaerliSticS
TEMPERATURE COEFFICIENT:
DIELECTRIC STRENGTH:
NP0
0 30ppm/°C (-55 to +125°C)
X7R
X5R
15% (-55 to +125°C)
15% (-55 to +85°C)
Vrated ≤100VDC: DWV = 2.5 X WVDC, 25°C, 50mA max.
25°C, 50mA max.
Vrated = 500VDC: DWV = 1.5 X WVDC,
WVDC ≥ 50 VDC: 2.5% max.
WVDC = 25 VDC: 3.5% max.
WVDC = 10-16 VDC: 5.0% max.
WVDC = 6.3 VDC: 10% max.
WVDC ≥ 50 VDC: 5% max.
WVDC ≤ 25 VDC: 10% max.
0.1% max.
DISSIPATION FACTOR:
INSULATION RESISTANCE
(MIN. @ 25°C, WVDC)
C≤ 0.047µF: 1000 ΩF or 100 GΩ, whichever is less
C> 0.047µF: 500 ΩF or 10 GΩ, whichever is less
C > 100 pF; 1kHz 50Hz; 1.0 0.2 VRMS
C ≤ 100 pF; 1Mhz 50kHz; 1.0 0.2 VRMS
1.0kHz 50Hz @ 1.0 0.2 Vrms
TEST CONDITIONS:
OTHER:
See page 92 for additional dielectric specifications.
Equivalent Circuits
A
Cross-sectional View
Dimensional View
CB
G
EB
L
A
G1
G2
T
W
B
G
B
caSe
Size
0402 (X07)
IN MM
0603 (X14)
IN MM
0805 (X15)
1206 (X18)
1210 (X41)
IN MM
1410 (X44)
IN MM
1812 (X43)
IN
MM
IN
MM
IN
MM
0.045
0.003
1.143
0.064
0.005
1.626
0.127
0.080
0.008
2.032
0.203
0.124
3.150
0.254
0.125
0.010
3.175
0.254
0.140
0.010
3.556
0.254
0.174
0.010
4.420
0.254
L
W
T
0.076
0.010
0.025
0.003
0.635
0.076
0.035
0.005
0.889
0.127
0.050
0.008
1.270
0.203
0.063
0.010
1.600
0.254
0.098
0.010
2.489
0.254
0.098
0.010
2.490
0.254
0.125
0.010
3.175
0.254
0.020
max
0.508
max
0.026
max
0.660
max
0.040
max
1.016
max
0.050
max
1.270
max
0.070
max
1.778
max
0.070
max
1.778
max
0.090
max
2.286
max
0.008
0.003
0.203
0.076
0.010
0.006
0.254
0.152
0.012
0.008
0.305
0.203
0.016
0.010
0.406
0.254
0.018
0.010
0.457
0.254
0.018
0.010
0.457
0.254
0.022
0.012
0.559
0.305
EB
0.012
0.003
0.305
0.076
0.018
0.004
0.457
0.102
0.022
0.005
0.559
0.127
0.040
0.005
1.016
0.127
0.045
0.005
1.143
0.127
0.045
0.005
1.143
0.127
0.045
0.005
1.143
0.127
CB
11
www.johansondielectrics.com
®
x2Y fIlTer & decouPlIng
caPacITors
®
tHe X2y deSign - a balanced, low eSl, “capacitor circuit”
The X2Y® capacitor design starts with standard 2 terminal MLC capacitor’s opposing electrode sets, A & B, and adds a third electrode set (G) which
surround each A & B electrode. The result is a highly vesatile three node capacitive circuit containing two tightly matched, low inductance capacitors
in a compact, four-terminal SMT chip.
emi Filtering:
The X2Y® component contains two shunt or “line-to-ground” Y capacitors. Ultra-low ESL (equivalent
series inductance) and tightly matched inductance of these capacitors provides unequaled high frequency
Common-Mode noise filtering with low noise mode conversion. X2Y® components reduce EMI emissions
far better than unbalanced discrete shunt capacitors or series inductive filters. Differential signal loss is
determined by the cut off frequency of the single line-to-ground (Y) capacitor value of an X2Y®.
power bypaSS / decoupling
For Power Bypass applications, X2Ys two “Y” capacitors are connected in parallel. This doubles the total
®
capacitance and reduces their mounted inductance by 80% or 1/5th the mounted inductance of similar sized
MLC capacitors enabling high-performance bypass networks with far fewer components and vias. Low ESL
delivers improved High Frequency performance into the GHz range.
gSm rFi attenuation in audio & analog
GSM handsets transmit in the 850 and 1850 MHz bands using a TDMA pulse
rate of 217Hz. These signals cause the GSM buzz heard in a wide range of audio
products from headphones to concert hall PA systems or “silent” signal errors
created in medical, industrial process control, and security applications. Testing
was conducted where an 840MHz GSM handset signal was delivered to the
inputs of three different amplifier test circuit configurations shown below whose
outputs were measured on a HF spectrum analyzer.
1) No input filter, 2 discrete MLC 100nF power bypass caps.
2) 2 discrete MLC 1nF input filter, 2 discrete MLC 100nF power bypass caps.
3) A single X2Y 1nF input filter, a single X2Y 100nF power bypass cap.
X2Y configuration provided a nearly flat response above the ambient and up to
10 dB imrpoved rejection than the conventional MLCC configuration.
ampliFier input Filter eXample
In this example, a single Johanson X2Y® component was used to filter noise at the input of a
DC instrumentation amplifier. This reduced component count by 3-to-1 and costs by over 70%
vs. conventional filter components that included 1% film Y-capacitors.
Parameter
X2Y®
10nF
Discrete
10nF, 2 @ 220 pF
Comments
DC offset shift
< 0.1 µV
91 dB
< 0.1 µV
92 dB
Referred to input
Common mode rejection
Source: Analog Devices, “A Designer’s Guide to Instrumentation Amplifiers (2nd Edition)” by Charles Kitchin and Lew Counts
12
www.johansondielectrics.com
®
x2Y fIlTer & decouPlIng
caPacITors
common mode cHoke replacement
Measured Common Mode Rejection
• Superior High Frequency Emissions Reduction
• Smaller Sizes, Lighter Weight
• No Current Limitation
• Vibration Resistant
• No Saturation Concerns
See our website for a detailed application note with component
test comparisons and circuit emissions measurements.
parallel capacitor Solution
A common design practice is to parallel decade capacitance values to
extend the high frequency performance of the filter network. This causes an
unintended and often over-looked effect of anti-resonant peaks in the filter
networks combined impedance. X2Y’s very low mounted inductance allows
designers to use a single, higher value part and completely avoid the anti-
resonance problem. The impedance graph on right shows the combined
mounted impedance of a 1nF, 10nF & 100nF 0402 MLC in parrallel in RED.
The MLC networks anti-resonance peaks are nearly 10 times the desired
impedance. A 100nF and 47nF X2Y are plotted in BLUE and GREEN. (The
total capacitance of X2Y (Circuit 2) is twice the value, or 200nF and 98nF in this
example.) The sigle X2Y is clearly superior to the three paralleled MLCs.
X2y HigH perFormance power bypaSS - improVe perFormance, reduce Space & ViaS
Actual measured performance of two high performance SerDes FPGA designs demonstrate how a 13 component X2Y bypass network
significantly out performs a 38 component MLC network.
For more information see https://johansondielectrics.com/downloads/JDI_X2Y_STXII.pdf
13
www.johansondielectrics.com
low
InducTance
chIP
caPacITors (lIcc)
LICC capacitors are specially designed to exhibit lower inductance by altering
the aspect ratio of the terminations. The smaller current loop length results in
Equivalent Series Inductance (ESL) that is typically 60% lower then standard MLCs
of the same size. This ESL improvement is extremely advantageous in the high
frequency power decoupling of high speed digital MPU, FPGA, DSP, etc..
FeatureS
• Low Inductance
• Surface Mount
• Small Size
• High Series Resonant Frequency
• Sn-Pb and Polyterm® Termination Options
• RoHS Compliant
STD
MLC
W
L
LICC
W
L
caSe
Size
aVailable
capacitance
JDI
EIA
MM DIELECTRIC 10nF
22nF
47nF
0.10uF 0.22uF 0.47uF 1.00uF
2.2uF
4.7uF
10uF
25V
50V
50V
25V
25V
25V
50V
16V
10V
25V
6.3V
10V
16V
X7R
X5R
X7R
X5R
X7R
X5R
B14 0306 0816
B15 0508 1220
B18 0612 1632
6.3V
6.3V
10V
16V
6.3V
6.3V
10V
6.3V
6.3V
10V
50V
50V
50V
25V
6.3V
10V
6.3V
6.3V
Please visit our website for complete specifications
P/N written: 160B14W104MV4T
How to
order licc capacitorS
160
B14
W
104
M
V
4
T
VOLTAGE
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
TERMINATION
MARKING
PACKING
6R3 = 6.3 V
100 = 10 V
160 = 16 V
250 = 25 V
500 = 50 V
B14 = 0306
B15 = 0508
B18 = 0612
W = X7R
X = X5R
1st two digits are signifi-
cant; third digit denotes
number of zeros
103 = 0.01 µF (10NF)
104 = 0.10 µF
M =
20%
V = NI Barrier with 100%
Tin Plating (Matte)
4 = Unmarked
(Not available)
E = Embossed 7”
T = Punched 7”
*Values < 10 pF only
T = SnPb
No code = bulk
Tape specs.
per EIA RS481
14
www.johansondielectrics.com
chIP
fIlTer / feed-Thru
caPacITors
Our Feed-Thru Capacitors provide excellent EMI, I/O & Power Line filtering
exhibiting much lower inductance than standard SMT capacitors which results in
broader frequency response. These are Precious Metal Electrode (PME) products
with higher current ratings than comparable Base Metal Electrode (BME) parts.
FeatureS
applicationS
• 1 Amp Current Rating
• DC Power Line EMI Filter
• RF Immunity FIlter
• Low Inductance, High SRF
• Surface Mount Non-polarized
• Sn-Pb and Polyterm® Options
• RF Amplifier Gain Filter
Inserꢀon Loss vs Frequency
0
-10
-20
-30
-40
-50
-60
-70
1nF
2.2nF
22nF
0
1
10
100
1,000
10,000
Frequency (MHz)
caSe
Size
aVailable
capacitance
DIELECTRIC 22pF 47pF 100pF 220pF 470pF 1.0nF 2.2nF 4.7nF 10nF 22nF 47nF 100nF 220nF
JDI
EIA
MM
50V
50V
50V
50V
NP0
X7R
NP0
X7R
NP0
X7R
F14 0603 1608
F15 0805 2012
F18 1206 3216
25V
100V 100V 100V 100V 100V
25V
50V
25V
50V
50V
25V
50V
50V
25V
50V
50V
25V
50V
50V
25V
50V
50V
50V
50V
100V 100V 100V 100V 100V 100V
50V
Please visit our website for complete specifications
P/N written: 250F14W103YV4E
How to
order
cHip
Filter / Feed-tHru
250
F14
W
103
Y
V
4
E
VOLTAGE
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
TERMINATION
MARKING
PACKING
250 = 25 V
500 = 50 V
101 = 100 V
201 = 200 V
F14 = 0603
F15 = 0805
F18 = 1206
N = NP0
W = X7R
1st two digits are signifi-
cant; third digit denotes
number of zeros.
K
M
=
=
=
10%
20%
V = Ni Barrier w/
100% Sn Plating
4 = Unmarked
(Not available)
E
T
=Embossed 7”
=Punched 7”
Y
+ 50% -20%
T = Ni Barrier w/
95%Sn/5%Pb Plating
No code = bulk
102 = 1000 pF
103 = 0.01 µF
104 = 0.10 µF
Tape specs.
per EIA RS481
15
www.johansondielectrics.com
hIgh
TemPeraTure
surface
m
ounT mlcc
s
200°c
Johanson’s high temperature MLCC series exhibit stable performance
across an extended operating temperature range of -55°C to +200°C.
Both Class I and Class II parts are available with DC voltage ratings of
50,100 and 200V satisfying a wide range of demanding applications.
FeatureS
applicationS
• Stable 200°C Operation
• Deep Hole Drilling Electronics
• High Temperature Modules
• Industrial Equipment
• Compact SMD Chip
• Polyterm® Termination Option
• Sn-Pb Termination Option
• Automotive • Avionics
electrical
cHaracteriSticS
NP0
X7R
-55 to +200°C
-55 to +200°C
OPERATING RANGE:
0 30ppm/°C
(-55to+125°C)
TEMPERATURE
COEFFICIENT:
0 15% (-55to+125°C)
-0.5% max.
0.001 (0.1%) max.
None
-45% max.
200°C CAP. DROP:
DISSIPATION FACTOR:
AGING RATE:
0.020 (2.0%) max.
<1.0% per decade
25°C IR >100GΩ or 1000ΩF (whichever
200°C IR >1ΩF or 100MΩ is less)
X7R Temp. Only
X7R Temp. & Rated Voltage (100%)
NP0 Temp. & Rated Voltage (100%)
INSULATION RESISTANCE:
WITHSTANDING VOLTAGE:
TEST CONDITIONS:
2.5 X WVDC for ratings ≤ 200 VDC
1.5 X WVDC for ratings 201-500 VDC
C > 100 pF; 1kHz 50Hz; 1.0 0.2 VRMS
C ≤ 100 pF; 1Mhz 50kHz; 1.0 0.2 VRMS
NP0 DIELECTRIC
X7R DIELECTRIC
RATED
m
ecHanical
c
HaracteriSticS
VOLTAGE
25 VDC
50 VDC
100 VDC
200 VDC
25 VDC
50 VDC
100 VDC
200 VDC
25 VDC
50 VDC
100 VDC
200 VDC
MINIMUM
MAXIMUM
MINIMUM
MAXIMUM
Inches
(mm)
10 pF
270 pF
100 pF
100 pF
10 pF
4700 pF
L
W
T
.040 .004 (1.02 .10)
.020 .004 (0.51 .10)
.025 Max.
T07/0402
10 pF
10 pF
10 pF
10 pF
10 pF
10 pF
10 pF
100 pF
100 pF
100 pF
10 pF
120 pF
82 pF
1500 pF
390 pF
(0.64)
E/B .008 .004
(.20 .10)
50 pF
10 pF
100 pF
Inches
(mm)
820 pF
330 pF
220 pF
120 pF
2200 pF
1500 pF
1000 pF
680 pF
1000 pF
1000 pF
100 pF
100 pF
1000 pF
1000 pF
1000 pF
100 pF
0.022 µF
0.010 µF
2200 pF
560 pF
L
W
T
.063 .008 (1.60 .20)
.032 .008 (0.81 .20)
.035 Max.
T14/0603
T15/0805
(0.89)
E/B .010 .005
(.25 .13)
0.100 µF
0.033 µF
0.010 µF
2200 pF
Inches
(mm)
L
W
T
.080 .010 (2.03 .25)
.050 .010 (1.27 .25)
.055 Max.
(1.40)
E/B .020 .010
(0.51 .25 )
16
www.johansondielectrics.com
hIgh
TemPeraTure
surface
m
ounT mlcc
s
200°c
NP0 DIELECTRIC
X7R DIELECTRIC
MINIMUM MAXIMUM
RATED
VOLTAGE
mecHanical
cHaracteriSticS
MINIMUM
MAXIMUM
Inches
(mm)
25 VDC
50 VDC
100 VDC
200 VDC
25 VDC
50 VDC
100 VDC
200 VDC
25 VDC
50 VDC
100 VDC
200 VDC
25 VDC
50 VDC
100 VDC
200 VDC
25 VDC
50 VDC
100 VDC
200 VDC
100 pF
100 pF
6800 pF
1000 pF
1000 pF
1000 pF
1000 pF
0.047 µF
0.047 µF
0.047 µF
0.0047 µF
0.047 µF
0.047 µF
0.047 µF
0.047 µF
0.10 µF
0.10 µF
0.10 µF
0.10 µF
0.10 µF
0.10 µF
0.10 µF
0.10 µF
0.220 µF
0.100 µF
0.022 µF
5600 pF
0.470 µF
0.220 µF
0.056 µF
0.015 µF
1.000 µF
0.470 µF
0.180 µF
0.047 µF
2.200 µF
1.000 µF
0.560 µF
0.150 µF
3.300 µF
1.500 µF
0.820 µF
0.220 µF
L
W
T
.125 .010
.062 .010
.067 Max.
(3.17 .25)
(1.57 .25)
(1.70)
T18/1206
3300 pF
2200 pF
1500 pF
0.015 µF
5600 pF
4700 pF
3300 pF
0.033 µF
0.012 µF
0.010 µF
8200 pF
0.033 µF
0.027 µF
0.022 µF
0.018 µF
0.100 µF
0.039 µF
0.033 µF
0.022 µF
100 pF
E/B .020 .010
(0.51 .25 )
100 pF
Inches
(mm)
1000 pF
1000 pF
100 pF
L
W
T
.125 .010
.095 .010
.090 Max.
(3.18 .25)
(2.41 .25)
(2.28)
T41/1210
T43/1812
T49/1825
T48/2225
E/B .020 .010
(0.51 .25 )
100 pF
Inches
(mm)
1000 pF
1000 pF
1000 pF
1000 pF
1000 pF
1000 pF
1000 pF
1000 pF
1000 pF
1000 pF
1000 pF
1000 pF
L
W
T
.175 .010 (4.45 .25)
.125 .010 (3.17 .25)
.110 Max.
(2.80)
(0.64 .38)
E/B .025 .015
Inches
(mm)
L
W
T
.180 .010 (4.57 .25)
.250 .010 (6.35 .25)
.140 Max.
(3.56)
(0.64 .38)
E/B .025 .015
Inches
(mm)
L
W
T
.225 .010 (5.72 .25)
.255 .015 (6.48 .38)
.160 Max.
(4.06)
(0.64 .38)
E/B .025 .015
W
L
T
E/B
P/N written: 500T14W103KV4E
How to
o
rder 200°c mlcc
S
500
T14
W
103
K
V
4
E
VOLTAGE
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
TERMINATION
MARKING
PACKING
250 = 25 V
500 = 50 V
101 = 100 V
201 = 200 V
T07 = 0402
T14 = 0603
T15 = 0805
T18 = 1206
T41 = 1210
T43 = 1812
T49 = 1825
T48 = 2225
N = NP0
W = X7R
1st two digits are signifi-
cant; third digit denotes
number of zeros.
V = Ni Barrier w/
100% Sn Plating (150
4 = Unmarked
(Not available)
E = Embossed 7”
T = Punched 7”
NP0
°C)
J
K
=
5%
=
10%
No code = bulk
T = Ni Barrier w/
95%Sn/5%Pb Plating (150
102 = 1000 pF
103 = 0.01 µF
104 = 0.10 µF
°C)
X7R
Tape specs.
per EIA RS481
K
M
=
=
10%
20%
E = Ni Barrier w/
100% Sn Plating (180
P = Palladium Silver Pd-Ag
(200 C)
°C)
°
17
www.johansondielectrics.com
T
anceram®
chIP
caPacITors
TANCERAM® chip capacitors can replace tantalum capacitors
in many applications and offer several key advantages over
traditional tantalums. Because TANCERAM® capacitors exhibit
extremely low ESR, equivalent circuit performance can often be
achieved using considerably lower capacitance values. Low
DC leakage reduces current drain, extending the battery life of
portable products. TANCERAM® high DC breakdown voltage
ratings offer improved reliability and eliminate large voltage
de-rating common when designing with tantalums.
adVantageS
• Low ESR
• Low DC Leakage
• Higher Surge Voltage
• Reduced CHIP Size
• Non-polarized Devices
• Improved Reliability
• Higher Insulation Resistance • Higher Ripple Current
applicationS
• Switching Power Supply Smoothing (Input/Output)
• Backlighting Inverters
• General Digital Circuits
• DC/DC Converter Smoothing (Input/Output)
How to
o
rder tanceram®
Part number written: 100R15X106MV4E
100
R15
X
106
M
V
4
E
VOLTAGE
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
TERMINATION
MARKING
PACKING
6R3 = 6.3 V
100 = 10 V
160 = 16 V
250 = 25 V
500 = 50 V
101 = 100 V
See Chart
W = X7R
X = X5R
1st two digits are
significant; third digit
denotes number of
zeros.
K = 10%
M = 20%
V = Nickel Barrier
with 100% Tin
Plating (Matte)
4 = Unmarked
Code
Type Reel
E
T
Plastic 7”
Paper 7”
Tape specifications
conform to EIA
RS481
T = SnPb*
(*available on
select parts)
105 = 1.00 µF
476 = 47.0 µF
107 = 100 µF
18
www.johansondielectrics.com
DIELECTRIC
W
L
anceram®
chIP
caPacITors
W (X7R)
X (X5R)
T
T
E/B
caSe
Size
capacitance
Selection
EIA / JDI
INCHES
(mm)
VDC 1.0 µF
2.2 µF
3.3 µF
4.7 µF
10 µF
22 µF
47 µF
100 µF
L
W
T
.040 .004
.020 .004
.025 Max.
(1.02 .10)
(0.51 .10)
(0.64)
16
10
6.3
25
16
10
0402
R07
EB .008 .004
(0.20 .10)
L
W
T
.063 .008
.032 .008
.035 Max.
(1.60 .20)
(0.81 .20)
(0.89)
0603
R14
EB .010 .005
(.25 .13)
6.3
50
L
W
T
.080 .010
.050 .010
.060 Max.
(2.03 .25)
(1.27 .25)
(1.52)
25
16
10
6.3
100
50
0805
R15
EB .020 .010
(0.51 .25 )
L
W
T
.125 .013
.062 .010
.070 Max.
(3.17 .35)
(1.57 .25)
(1.78)
35
25
16
10
1206
R18
EB .020 +.015-0.01 (0.51+.38-.25)
6.3
100
50
35
25
L
W
T
.126 .016
.098 .012
.110 Max.
(3.20 .40)
(2.50 .30)
(2.8)
1210
S41
16
10
EB .020 +.015-.010 (0.51+.38-.25)
6.3
100
50
25
16
L
W
T
.177 .016
.126 .015
.140 Max.
(4.50 .40)
(3.20 .38)
(3.55)
1812
S43
EB .035 .020
(0.89 0.51)
10
6.3
W
X
W
X
W
X
W
X
W
X
W
X
W
X
W
X
electrical
cHaracteriSticS
DIELECTRIC:
X7R
15% (-55 to +125°C)
X5R
15% (-55 to +85°C)
TEMPERATURE COEFFICIENT:
DISSIPATION FACTOR:
For ≥ 50 VDC: 5% max.
For ≤ 35 VDC: 10% max.
For ≥ 50 VDC: 5% max.
For ≤ 35 VDC: 10% max.
100 ΩF or 10 GΩ, whichever is less
2.5 X WVDC, 25°C, 50mA max.
INSULATION RESISTANCE (MIN. @ 25°C, WVDC)
DIELECTRIC STRENGTH:
Capacitance values ≤ 10 µF: 1.0kHz 50Hz @ 1.0 0.2 Vrms
Capacitance values > 10 µF: 120Hz 10Hz @ 0.5V 0.1 Vrms
TEST CONDITIONS:
OTHER:
See page 70 for additional dielectric specifications.
19
www.johansondielectrics.com
surface
m
ounT mlcc 10 - 200 Vdc
s
aVailable
capacitance
code
caSe
Size
JDI
Inches
(mm)
R05
R07
R14
0201
(0603)
L
W
T
.024 .001
.012 .001
.012 .001
(0.60 .03)
(0.30 .03)
(0.30 .03)
(0.15 .05)
25V
16V
10V
EB .006 .002
50V
0402
(1005)
(1.02 .10)
(0.51 .10)
(0.64)
L
W
T
.040 .004
.020 .004
.025 Max.
25V
16V
EB .008 .004
(0.20 .10)
10V
200V
100V
50V
0603
(1608)
(1.60 .20)
(0.81 .20)
(0.89)
L
W
T
.063 .008
.032 .008
.035 Max.
EB .010 .005
(.25 .13)
25V
16V
200V
100V
50V
R15
0805
(2012)
(2.03 .25)
(1.27 .25)
(1.27)
L
W
T
.080 .010
.050 .010
.050 Max.
EB .020 .010
(0.51 .25 )
25V
16V
200V
100V
50V
R18
S41
1206
(3216)
(3.17 .25)
(1.57 .25)
(1.27)
L
W
T
.125 .010
.062 .010
.050 Max.
25V
EB .020 .010
(0.51 .25)
200V
100V
50V
1210
(3224)
(3.18 .25)
(2.41 .25)
(1.65)
L
W
T
.125 .010
.095 .010
.065 Max.
NP0
X7R
X5R
W
EB .020 .010
(0.51 .25)
L
25V
16V
T
E/B
200V
100V
50V
S43
1812
(4532)
(4.45 .25)
(3.17 .25)
(2.16)
L
W
T
.175 .010
.125 .010
.085 Max.
EB .025 .015
(0.64 .38)
25V
Part number written: 100R07W104KV4E
How
to
order - SurFace
mount mlcc
100
R 07
W
104
K
V
4
E
VOLTAGE
SERIES/SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
TERMINATION
MARKING
PACKING
100 = 10 V DC
160 = 16 V DC
250 = 25 V DC
500 = 50 V DC
101 = 100 V DC
201 = 200 V DC
R05 = 0201
R07 = 0402
R14 = 0603
R15 = 0805
R18 = 1206
S41 = 1210
S43 = 1812
N = NP0
W = X7R
X = X5R
1st two digits are
significant; third
digit denotes
* B = 0.10 pF
* C = 0.25 pF
* D = 0.50 pF
* F = 1 %
V = Nickel Barrier 3 = Special
E = Embossed 7”
T = Punched 7”
U = Embossed 13”
R = Punched 13”
No code = bulk
with 100% Tin
Plating (Matte)
4 = Unmarked
6 = EIA Code*
number of zeros,
R = decimal.
T = SnPb
*Not available
on sizes
* G = 2%
* J = 5%
* K = 10%
* M = 20%
5R6 = 5.6 pF
100 = 10 pF
102 = 1,000 pF
474 = 0.47 µF
≤ 0402
Tape specifications
on page 48. Not all
tape styles are avail-
able on all parts.
*Values < 10 pF
only
20
www.johansondielectrics.com
surface
m
ounT mlcc 10 - 200 Vdc
s
aVailable
capacitance
code
c
SaizSee
25V
16V
NP0
X7R
X5R
0201
R05
10V
50V
25V
0402
R07
16V
10V
200V
100V
50V
0603
R14
25V
16V
200V
100V
50V
0805
R15
25V
See Tanceram High
Capacitance Series
for values ≥ 1.0µF
16V
200V
100V
50V
1206
R18
25V
200V
100V
50V
1210
S41
25V
16V
200V
100V
50V
1812
S43
25V
electrical
cHaracteriSticS
Please refer to page 78 of the catalog or www.johansondielectrics.com
21
www.johansondielectrics.com
sTacKed smPs ceramIc
caPacITors
Stacked Switch-Mode ceramic capacitors feature large
capacitance values and exhibit low ESR (equivalent series
resistance) and low ESL (equivalent series inductance) making
them well suited for high power and high frequency applications
where tantalum or aluminum electrolytic capacitors may not
be suitable. The P-Series feature mechanical and pin-out
configurations per DSCC 87106 and 88011 drawings while the
E-Series feature mechanical and pin-out configurations more
common in European design applications.
key
FeatureS
• P-Series Approved to DSCC Drawings 87106 & 88011
MIL-PRF-49470
• New T-Series 200°C for downhole tools and aircraft engine
control applications.
• E-Series Common European Lead Styles available to
MIL-PRF-49470 requirements.
• NP0 & X7R Dielectrics, 50 to 500 VDC Ratings
• Low ESR / Low ESL, Ideal for SMPS Filtering Applications
• Custom Sizes, Voltages, and Values Available
caSe
Size
STRAIGHT LEAD
L-LEAD
J-LEAD
D
E
.070" .010
.050" min
.050" min
A
B
F
.250" MIN
.010" .002
.010
.055"
.002
.020"
.100"TYP
C
.100" MAX
.025" MIN
How to
order
Stacked SmpS
Part number written: 201P03W275KJ4H
201
P03
W
275
K
J
4
H
VOLTAGE
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
TERMINATION
MARKING
PACKING
500
101
201
501
=
=
=
=
50 V
100 V
200 V
500 V
See Chart
N = NP0
B = BX
W = X7R
1st two digits are
significant; third digit
denotes number of
zeros.
J = 5%
K= 10%
L = 15%
J = “J” Leads
(formed in)
4 = Standard
3 = Specified
T = Tape and Reel
H
= High Reliability
K = “J” Leads with
reduced height of
.045” .010”
testing per customer
requirements
M = 20%
N = 30%
101 = 100 pF
102 = 1000 pF
103 = 0.01 µF
105 = 1.00 µF
Z = +80% -20%
P = +100% -0%
S = Special Part
L = “L” Leads
(formed out)
M = “L” Leads with
reduced height of
.045” .010”
N = Straight Lead
22
www.johansondielectrics.com
sTacKed smPs ceramIc
caPacITors
p-SerieS dScc Style X7r capacitance / Voltage
Selection
MECHANICAL SIZE RANGE (IN.)
X7R MAX CAPACITANCE (µF)
CASE
SIZE
CHIP
LEADS
/SIDE
LAYERS
LENGTH (D)
WIDTH (E)
TMAX (B)
50V
3.0
15
100V
2.2
11
200V
1.0
5.0
3.0
15
500V
0.50
2.5
1.5
7.5
4.7
23
P05
P55
P04
P54
P03
P53
P01
P51
P02
P52
P06
P56
1
5
1
5
1
5
1
5
1
5
1
5
.185
.715
.185
.715
.185
.715
.185
.715
.185
.715
.185
.715
3
0.275
0.425
1.075
2.075
1.535
2.075
0.300
9.0
45
6.5
32
4
0.440
0.500
0.500
0.870
1.350
28
20
9.5
47
10
20
15
20
140
50
100
40
19
9.4
46
250
75
200
55
95
25
14
370
160
800
270
110
550
125
50
70
25
250
125
Please refer to our website for complete offering including NP0 & BX capacitance ranges.
new 200°c t-SerieS
capacitance / Voltage
Selection
MECHANICAL SIZE RANGE (IN.)
MAX CAPACITANCE (µF)
CASE
SIZE
CHIP
LEADS
/SIDE
LAYERS
LENGTH (D)
WIDTH (E)
TMAX (B)
50V
100V
0.68
3.30
1.50
8.20
5.60
27.0
200V
T05
T55
T04
T54
T03
T53
1
5
1
5
1
5
.185
.715
.185
.715
.185
.715
1.20
5.60
2.70
15.0
10.0
47.0
0.33
1.50
0.82
3.90
2.70
12.0
3
4
0.275
0.425
1.075
0.300
0.440
0.500
10
Please refer to our website for complete offering including NP0 capacitance ranges.
e-SerieS
european
Style X7r capacitance / Voltage
Selection
MECHANICAL SIZE RANGE (MM)
X7R MAX CAPACITANCE (µF)
CASE
SIZE
CHIP
LEADS
/SIDE
LAYERS
LENGTH (D)
WIDTH (E)
TMAX (B)
50V
5.0
20
100V
4.0
16
200V
2.5
10
500V
E24
E54
E26
E56
E21
E51
E28
E58
E29
E59
1
4
1
4
1
4
1
4
1
4
3.8
14.8
3.
14.8
3.8
14.8
3.8
14.8
3.8
1.0
4.0
3.3
13
3
5
8.7
9.2
16
64
12
48
7.5
30
13.6
16.6
38.2
40.6
14.9
21.6
12.0
24.0
30
120
35
140
75
300
22
14
6.0
24
6
88
56
25
16
7.0
28
14
14
100
50
64
35
16
64
14.8
200
140
Please refer to our website for complete offering including NP0 & BX capacitance ranges.
23
www.johansondielectrics.com
m
InI-swITch-mode®
caPacITors
JDI’s Mini Switch-Mode® ceramic capacitors combine the
advantages of high capacitance found in tantalum capacitors
with very low ESR performance of ceramic capacitors. The “J”
and “L” lead configurations replace 1825 and 2225 SMT chips to
provide stress relief and prevent cracking due to thermal cycling
or mechanical board flexing. Another plus of the J-lead style is
that this configuration allows use of the same solder lands as
the SMT chips. See the Stacked Switch-Mode section for larger
values. See also the Technical Notes on soldering and handling
and suggested solder lands.
FeatureS
• High Capacitance, Small Size
• Low ESR/ESL
• Leadframe reduces thermal & mechanical stress due to
board flexure and TCE mismatch
a
pplicationS
• DC-DC Converters
• Power Supply Input & Output Filters
capacitance
Selection
NP0 Max Capacitance (uF)
X7R Max Capacitance (uF)
SIZE
EIA CHIP
CODE
SIZE
25V
0.056
0.11
0.16
0.22
0.068
0.13
0.20
0.27
50V
0.047
0.094
0.14
100V
0.039
0.078
0.11
200V
0.027
0.054
0.081
0.10
500V
0.018
0.036
0.054
0.07
25V
1.5
3.0
4.5
6.0
2.7
5.4
8.1
10
50V
1.2
2.4
3.6
4.8
2.2
4.4
6.6
8.8
100V
0.75
1.5
200V
0.56
1.1
500V
0.27
0.54
0.81
1.0
P09
P29
P39
P49
P08
P28
P38
P48
1825
1825
1825
1825
2225
2225
2225
2225
2.2
1.6
0.18
0.15
3.0
2.2
0.056
0.11
0.047
0.094
0.14
0.033
0.066
0.10
0.027
0.054
0.081
0.10
1.5
1.2
0.39
0.78
1.1
3.0
2.4
0.16
4.5
3.6
0.22
0.18
0.13
6.0
4.8
1.5
24
www.johansondielectrics.com
m
InI-swITch-mode®
caPacITors
caSe
Size
DIMENSIONS
APPLICABLE
TO ALL SIZES:
L
W
L
W
L
W
W
T
h
IN.
MM
.070 1.78
.100 2.54
.065 1.65
T
h
T
T
h
H
.010
h
C TYP.
.015
c
p
c
c
L
c
p
p
p
P
DIMENSIONS
P08
P09
MM
P28
MM
P29
MM
P38
P39
MM
P48
P49
MM
APPLICABLE
IN.
MM
IN.
IN.
IN.
IN.
MM
IN.
IN.
MM
IN.
TO SPECIFIC SIZES:
L MAX
W MAX
T MAX
.280 7.11 0.24 6.1 0.28 7.11 0.24 6.1 0.28 7.11 0.24 6.1 0.28 7.11 0.24 6.1
.270 6.86 0.27 6.86 0.27 6.86 0.27 6.86 0.27 6.86 0.27 6.86 0.27 6.86 0.27 6.86
.095 2.41 0.095 2.41 0.19 4.83 0.19 4.83 0.285 7.24 0.285 7.24 0.38 9.65 0.38 9.65
Note: J-Lead and L-Lead options are available on all sizes above
electrical
cHaracteriSticS
DIELECTRIC:
NP0
30ppm/°C (-55 to +125°C)
0.1% max.
X7R
15% (-55 to +125°C)
2.5% max.
TEMPERATURE COEFFICIENT:
DISSIPATION FACTOR:
0
AGING:
None
-2.5% per decade hour
500 ΩF or 50 GΩ, whichever is less
INSULATION RESISTANCE (MIN. @ 25°C, WVDC)
1000 ΩF or 100 GΩ, whichever is less
For 500V Ratings: 750VDC, 25ºC, 50mA max
DIELECTRIC STRENGTH:
For 200V Ratings: 2xWVDC, 25ºC, 50mA max
For 25-100V Ratings: 2.5xWVDC, 25ºC, 50mA max
TEST CONDITIONS:
OTHER:
1kHz 50Hz;1.0 0.2 VRMS
See page 78 for additional dielectric specifications.
®
How to
order - mini
SwitcHmode
Part number written: 500P28W395KJ4U
500
P28
SIZE
W
395
K
J
4
U
VOLTAGE
DIELECTRIC
CAPACITANCE
TOLERANCE
TERMINATION
MARKING
PACKING
250
500
101
201
501
=
=
=
=
=
25 V
50 V
100 V
200 V
500 V
See Chart
N = NP0
W = X7R
1st two digits are
significant; third digit
denotes number of
zeros.
J = 5%
K = 10%
J = “J” Leads
(formed in)
3 = Standard
4 = Unmarked
U = Tape and Reel
16mm, 13” Reel
NONE = Bulk pack
H = High Reliability
testing per customer
requirements
M = 20%
L = “L” Leads
(formed out)
Z = +80% -20%
103 = 0.01 μF
105 = 1.0 μF
106 = 10 uF
S = Special Part
25
www.johansondielectrics.com
Bme mInI-swITch-mode®
caPacITors
This new series of miniature switchmode power supply filter
capacitors uses BME (Base Metal Electrode) construction to
achieve 300-400% capacitance increases and component size
reductions compared to their PME (Precious Metal Electrode)
counterparts per the comparison examples below.
BME Size / Capacitance Comparison
Technology
Chips
Volts
Max. Cap.
PME
BME
PME
BME
1x 1825
1x 1812
2x 2225
2x 2220
50V
50V
1.2µF
4.7µF
4.4µF
10µF
100V
100V
F
eatureS
a
pplicationS
• DC-DC Converters
• Power Supply Input & Output Filters
• High Capacitance, Small SIze
• Low ESR/ESL
• Leadframe reduces thermal & mechanical stress
due to board flexure and TCE mismatch
• High Capacitance Applications Where Increased
Reliability is Required
• Green / ROHS Compliant
capacitance / Voltage
caSe
Size / part
number
CAPACITANCE
DC VOLTAGE
RATING
SIZE P0A
1812 SINGLE STACK
SIZE P07
2220 SINGLE STACK
SIZE P2A
1812 DOUBLE STACK
SIZE P27
2220 DOUBLE STACK
RATING
2.2 µF
4.7 µF
4.7 µF
10 µF
10 µF
22 µF
100V
50V
101P0AW225MJ4U+RC
500P0AW475MJ4U+RC
100V
50V
101P07W475MJ4U+RC
101P2AW475MJ4U+RC
500P07W106MJ4U+RC 500P2AW106MJ4U+RC
100V
50V
101P27W106MJ4U+RC
500P27W226MJ4U+RC
IN.
MM
5.5
4.0
3.0
IN.
MM
6.5
5.5
3.0
IN.
MM
5.5
4.0
6.0
IN.
MM
6.5
5.5
6.0
Dimensions
Applicable
to specific sizes:
L MAX:
0.217
0.157
0.118
0.256
0.217
0.118
0.217
0.157
0.236
0.256
0.217
0.236
W MAX:
H MAX:
Dimensions Applicable
to all sizes:
W
W
H
H
IN.
MM
h1
H1 TYP.
C TYP.
.059
.100
.020
.065
1.50
2.54
0.50
1.65
h1
p1
c
p2
p1
L
c
P1 TYP.
P2 0.02
p2
L
26
www.johansondielectrics.com
Bme mInI-swITch-mode®
caPacITors
typical
application: dc-dc conVerter
input & output
Filtering
Vout
Vin
Input
Filter
Output
Filter
Capacitor
Capacitor
Controller
electrical
cHaracteriSticS
OPERATING RANGE:
TEMPERATURE COEFFICIENT:
DISSIPATION FACTOR:
AGING RATE:
-55 to +125°C
X7R, 15%
0.020 (2.0%) max.
<2.5% per decade
25°C IR >100GΩ or 1000
ΩF
INSULATION RESISTANCE:
WITHSTANDING VOLTAGE:
TEST CONDITIONS:
whichever is less
2.5 X WVDC for 50 VDC
2.0 X WVDC for 100 VDC
1kHz 50Hz; 1.0 0.2 VRMS, 25°C
®
How to
order - bme mini
SwitcH-mode
Part number written: 500P07W106MJ4U+RC
500
P07
W
106
M
J
4
U
+RC
VOLTAGE
SIZE
DIELECTRIC CAPACITANCE TOLERANCE TERMINATION MARKING
PACKING
ROHS CODE
500 = 50 V
101 = 100 V
See Chart
W = X7R
1st two digits are
significant; third digit
denotes number of
zeros.
M = 20%
J = “J” Leads
(formed in)
4 = Unmarked
U = Embossed
Tape 13” Reel per
EIA RS481
+RC = RoHS
Compliant
225 = 2.2 μF
106 = 10 uF
27
www.johansondielectrics.com
swITch-mode
radIal
leaded
caPacITors
key
FeatureS
• Rated Working Voltages from 25 to 500 VDC
• Rugged Epoxy Coating Offers Increased Protection
• Hi-Rel Screened Versions Available
• Custom Sizes, Voltages, and Values Available
adVantageS
• Power Supplies
• Voltage Multipliers
• Data Isolation
• Surge Protection
• Industrial Control Circuits
• Custom Applications
c
aSe
Size
NP0 CAPACITANCE (MAX.)
X7R CAPACITANCE (MAX.)
RATED
VOLTAGE
IN.
(MM)
VALUE
.070 µF
.060 µF
.050 µF
.040 µF
.020 µF
.120 µF
.100 µF
.082 µF
.050 µF
.030 µF
.240 µF
.200 µF
.180 µF
.110 µF
.070 µF
.750 µF
.620 µF
.560 µF
.360 µF
.240 µF
CODE
703
603
503
403
203
124
104
823
503
303
244
204
184
114
703
754
624
564
364
244
VALUE
2.00 µF
1.60 µF
1.10 µF
.730 µF
.250 µF
5.10 µF
4.10 µF
2.70 µF
1.80 µF
.670 µF
8.70 µF
7.20 µF
4.80 µF
3.30 µF
1.10 µF
22.0 µF
17.0 µF
13.0 µF
8.00 µF
2.90 µF
CODE
205
165
115
734
254
515
415
275
185
674
875
725
485
335
115
226
176
136
805
295
25 VDC
50 VDC
W
H
T
.300 max.
.300 max.
.200 max.
.200 nom.
(7.62 max.)
(7.62 max.)
(5.08 max.)
(5.08 nom.)
(.510 nom.)
100 VDC
200 VDC
500 VDC
25 VDC
S
LD .020 nom.
H03
H04
H05
H06
W
H
T
.400 max.
.400 max.
.200 max.
.200 nom.
(10.2 max.)
(10.2 max.)
(5.08 max.)
(5.08 nom.)
(.510 nom.)
50 VDC
100 VDC
200 VDC
500 VDC
25 VDC
S
LD .020 nom.
W
H
T
.500 max.
.500 max.
.200 max.
.400 nom.
(12.7 max.)
(12.7 max.)
(5.08 max.)
(10.2 nom.)
(.635 nom.)
50 VDC
100 VDC
200 VDC
500 VDC
25 VDC
S
LD .025 nom.
W
H
T
.870 max.
.600 max.
.200 max.
.790 nom.
(22.1 max.)
(15.2 max.)
(5.08 max.)
(20.1 nom.)
(.813 nom.)
50 VDC
100 VDC
200 VDC
500 VDC
S
LD .032 nom.
28
www.johansondielectrics.com
swITch-mode
radIal
leaded
caPacITors
c
aSe
Size
NP0 CAPACITANCE (MAX.)
X7R CAPACITANCE (MAX.)
RATED
VOLTAGE
IN.
(MM)
VALUE
.680 µF
.560 µF
.470 µF
.330 µF
.200 µF
1.20 µF
1.10 µF
.820 µF
.470 µF
.300 µF
.450 µF
.360 µF
.330 µF
.240 µF
.180 µF
1.00 µF
.900 µF
.750 µF
.470 µF
.300 µF
CODE
684
564
474
334
204
125
115
824
474
304
454
364
334
244
184
105
904
754
474
304
VALUE
35.0 µF
28.0 µF
19.0 µF
13.0 µF
4.60 µF
70.0 µF
56.0 µF
37.0 µF
26.0 µF
8.70 µF
13.0 µF
10.0 µF
7.20 µF
5.00 µF
1.70 µF
38.0 µF
30.0 µF
20.0 µF
14.0 µF
5.80 µF
CODE
356
286
196
136
465
706
566
376
266
875
136
106
725
505
175
386
306
206
146
585
25 VDC
50 VDC
W
H
T
1.10 max.
.600 max.
.200 max.
.980 nom.
(27.9 max.)
(15.2 max.)
(5.08 max.)
(24.9 nom.)
(.813 nom.)
100 VDC
200 VDC
500 VDC
25 VDC
S
LD .032 nom.
H07
H08
H09
W
H
T
1.10 max.
.600 max.
.350 max.
.980 nom.
(27.9 max.)
(15.2 max.)
(8.89 max.)
(24.9 nom.)
(.813 nom.)
50 VDC
100 VDC
200 VDC
500 VDC
25 VDC
S
LD .032 nom.
W
H
T
.670 max.
.540 max.
.200 max.
.575 nom.
(17 max.)
(13.7 max.)
(5.08 max.)
(14.6 nom.)
(.635 nom.)
50 VDC
100 VDC
200 VDC
500 VDC
25 VDC
S
LD .025 nom.
W
H
T
.930 max.
.720 max.
.250 max.
.800 nom.
(23.6 max.)
(18.3 max.)
(6.35 max.)
(20.3 nom.)
(.813 nom.)
50 VDC
100 VDC
200 VDC
500 VDC
S
LD .032 nom.
H10
W
T
NOTE: Lead lengths are typically 1.25” for orders in bulk packaging. Leads are typically
1.00” for tape and reel packaging. Tape and reel packaging comes in 1000 piece reels.
H
Meniscus
Height
S
.050" Max
How to
order
SwitcH-mode
radialS
Part number written: 201H07W105KQ4
201
H07
W
105
K
Q
4
T
VOLTAGE
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
TERMINATION
MARKING
PACKING
250
500
101
201
501
=
=
=
=
=
25 V
50 V
100 V
200 V
500 V
See Chart
N
W
= NP0
= X7R
1st two digits are
significant; third digit
denotes number of
zeros.
J
K
M
Z
=
=
=
5%
Q = Leaded &
Encapsulated
4 = Standard
3 = Specified
T = Tape and Reel
H = High Rel Testing
per customer
10%
20%
= +80% -20%
requirements
101 = 100 pF
S = Special Part
102 = 1000 pF
103 = 0.01 µF
105 = 1.00 µF
RoHS available on request.
29
www.johansondielectrics.com
hIgh
VolTage
radIal
leaded
caPacITors
key
FeatureS
• Rated Working Voltages from 500 to 5000 VDC
• Rugged Epoxy Coating Offers Increased Protection
• Compact MLC Designs Smaller Than Film or Disc
• NEW 200°C Versions Available for Oil &
Geophysical Tool, Aircraft Engine Control Applications
• DSCC Drawing & Other Screened Versions Available
adVantageS
• Power Supplies
• Voltage Multipliers
• Data Isolation
• Surge Protection
• Industrial Control Circuits
• Custom Applications
caSe
Size
NP0 CAPACITANCE (MAX.)
X7R CAPACITANCE (MAX.)
RATED
VOLTAGE
IN.
(MM)
VALUE
CODE
VALUE
CODE
500 VDC
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
500 VDC
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
500 VDC
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
500 VDC
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
500 VDC
4700 pF
1500 pF
680 pF
330 pF
150 pF
472
152
681
331
151
101
223
332
152
681
331
221
563
472
332
152
102
471
104
103
682
332
222
102
154
153
103
472
332
222
.150 µF
.055 µF
9000 pF
2800 pF
630 pF
550 pF
.480 µF
.170 µF
.025 µF
.011 µF
1800 pF
940 pF
1.20 µF
.450 µF
.094 µF
.043 µF
.010 µF
4900 pF
2.20 µF
.804 µF
.240 µF
.073 µF
.028 µF
.013 µF
3.30 µF
1.20 µF
.440 µF
0.130 µF
.041 µF
.020 µF
154
553
902
282
631
531
484
174
253
113
182
941
125
454
943
433
103
492
225
804
244
733
283
133
335
125
444
134
413
203
W
H
0.250 Max
0.220 Max
0.270 Max
0.170 0.03 (4.32 0.76)
0.025 .002 (0.64 0.05)
(6.35 Max)
(5.59 Max)
(6.86 Max)
T
S
LD
H42
H47
H51
H62
H66
100 pF
.022 µF
3300 pF
1500 pF
680 pF
330 pF
220 pF
W
H
T
S
0.370 Max
0.300 Max
0.270 Max
0.275 0.03 (6.99 0.76)
0.025 .002 (0.64 0.05)
(9.40 Max)
(7.62 Max)
(6.86 Max)
LD
.056 µF
4700 pF
3300 pF
1500 pF
1000 pF
470 pF
.100 µF
.010 µF
6800 pF
3300 pF
2200 pF
1000 pF
.150 µF
.015 µF
.010 µF
4700 pF
3300 pF
2200 pF
W
H
T
S
0.470 Max
0.400 Max
0.320 Max
0.375 0.03 (9.53 0.76)
0.025 .002 (0.64 0.05)
(12.0 Max)
(10.2 Max)
(8.13 Max)
LD
W
H
T
S
0.570 Max
0.500 Max
0.320 Max
0.475 0.03 (12.1 0.76)
0.025 .002 (0.64 0.05)
(14.5 Max)
(12.7 Max)
(8.13 Max)
LD
W
H
T
S
0.670 Max
0.600 Max
0.320 Max
0.575 0.03 (14.6 0.76)
0.025 .002 (0.64 0.05)
(17.0 Max)
(15.2 Max)
(8.13 Max)
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
LD
30
www.johansondielectrics.com
hIgh
VolTage
radIal
leaded
caPacITors
caSe
Size
NP0 CAPACITANCE (MAX.)
X7R CAPACITANCE (MAX.)
RATED
VOLTAGE
IN.
(MM)
VALUE
CODE
VALUE
CODE
500 VDC
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
500 VDC
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
500 VDC
.220 µF
.022 µF
.015 µF
6800 pF
4700 pF
3300 pF
.330 µF
.100 µF
.056 µF
.033 µF
.010 µF
6800 pF
.470 µF
.150 µF
.082 µF
.047 µF
.015 µF
.010 µF
224
223
153
682
472
332
334
104
563
333
103
682
474
154
823
473
153
103
5.70 µF
2.10 µF
.620 µF
.190 µF
.054 µF
.026 µF
7.30 µF
2.80 µF
.800 µF
.250 µF
.080 µF
.041 µF
12.0 µF
4.60 µF
1.20 µF
.390 µF
.130 µF
.068 µF
575
215
624
194
543
263
735
285
804
254
803
413
126
465
125
394
134
683
W
H
T
0.770 Max
0.720 Max
0.320 Max
(19.6 Max)
(18.3 Max)
(8.13 Max)
S
0.675 0.03 (17.1 0.76)
LD 0.025 .002 (0.64 0.05)
H70
H72
H80
W
H
T
0.870 Max
0.750 Max
0.320 Max
(22.1 Max)
(19.1 Max)
(8.13 Max)
S
0.775 0.03 (19.7 0.76)
LD 0.025 .002 (0.64 0.05)
W
H
T
1.450 Max
0.720 Max
0.320 Max
(36.8 Max)
(18.3 Max)
(8.13 Max)
1000 VDC
2000 VDC
3000 VDC
4000 VDC
5000 VDC
S
1.375 0.03 (34.9 0.76)
LD 0.025 .002 (.064 0.05)
t-SerieS 200°c
W
T
Johanson also offers two different series of high temperature radial leaded
capacitors for 200°C. These components feature rugged premolded cases
with Hi-Temp epoxy fill. The 200°C line is offered in voltage ratings of 25V to
4KV and maximum capacitance loss of -0.5% in NP0 and -45% in X7R. The
line is offered in voltage ratings of 50V & 100V with maximum capacitance
loss of -1.5% in NP0 and -55% in X7R. Please visit our website for complete
component selection & specifications
H
Meniscus
Height
.050" Max
S
a
pplicationS
NOTE: Lead lengths are
typically 1.25” for orders in
bulk packaging. Leads are
typically 1.00” for tape and
reel packaging. Tape and
reel packaging comes in
1000 piece reels.
• Oil Well Logging (Downhole)
• Geophysical Probes
• Jet Engine Controls
How to
order
HigH
Voltage
radialS
Part number written: 102H42W101KQ4
102
H42
W
101
K
Q
4
T
VOLTAGE
SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
TERMINATION
MARKING
PACKING
501
=
500 V
1000 V
2000 V
3000 V
4000 V
5000 V
See Chart
N = NP0
W = X7R
1st two digits are
significant; third digit
denotes number of
zeros.
J = 5%
K = 10%
Q = Leaded &
Encapsulated
4 = Standard
3 = Specified
T = Tape and Reel
H = High Rel Testing
per customer
102
202
302
402
502
=
=
=
=
=
M = 20%
Z = +80% -20%
requirements
102 = 1000 pF
103 = 0.01 µF
S = Special Part
105 = 1.00 µF
31
www.johansondielectrics.com
resIsTor
wIrewound
PrecIsIon
rwP serIes
key
FeatureS
• Temperature Coefficients of 2ppm/ꢀC
• Temperature Range -55°C to +145°C
• Resistance to 6 Mega-Ohms
• Resistance Tolerance starting at 0.005%
• Long Term Stability / 100ppm/year
• High TCR Available - Platinum & Balco Wire
• Matched Resistance Sets to 0.001 and 0.5 ppm/ꢀC
• 100% Acceptance Tested
• Options available: Wide TCR Range, High Stability and Fast
Rise Time
applicationS
• Smart Grid Metering
• Engine Sensors
• Power Inverters
• Temperature Sensors
product
Summary
PRODUCT SERIES RESISTANCE POWER RATING
TEMPERATURE
TEMPERATURE
RANGE 1
TOLERANCE 1
(RWP)
(Ω)
(W)
COEFFICIENT
>100Ω : 10ppm/°C
10Ω to100Ω :
Radial
Up to 1M
0.125 to 0.500
0.005ꢀ to
1ꢀ
- 55ºC to + 145ºC
20ppm/°C
Axial
Up to 6M
0.06 to 2.00
<10Ω : 30ppm/°C
1 See Power Derating Curve
a
•
Vailable
o
ptionS (Consult Factory)
Power Derating Curve
Wide TCR Range: Low and High TC
configurations from -20ppm/ºC to +6000ppm/ºC.
Down to 1ppm/ºC available.
180
160
140
120
100
80
•
•
High Stability: High stability version with maximum
resistance change of 20ppm/year under normal
conditions.
Fast Rise Time: Low reactance design for fast rise
60
time and extended frequency response.
40
•
•
Special Testing Requirements
Special Pulse Requirements
20
0
0
20
40
60
80
100
120
140
160
Ambient Temperature (°C)
How to
order
RWP
A01
W
038K0
F
S
RESISTOR WIREWOUND PACKAGE CODE, TEMPERATURE COEFFICIENT
RESISTANCE
TOLERANCE
PACKING
PRECISION
WATTS, VOLTAGE
OF RESISTANCE (TCR)
Radial
W = 10ppm/ºC
U = 20ppm/ºC
S = 30ppm/ºC
Z = special
0R038 = 0.038Ω
003K8 = 3.8KΩ
038K0 = 38.0KΩ
V = 0.005%
T = 0.01%
Q = 0.02%
A = 0.05%
B = 0.1%
F = 1.0%
S = Bulk
T = Tape & Reel
B01, 0.125W, 150Vmax
B02, 0.250W, 150Vmax
Axial
380K0 = 380.0KΩ
003M8 = 3.8MΩ
A01, 0.06W, 75Vmax
A02, 0.08W, 100Vmax
See Table
Letter denotes decimal place.
3
6
R = decimal., “K” 10 , “M” 10
Remaining 4 digits are
significant or placeholders
For Tin/Lead coated leads, add “-Pb” to part number.
Standard Termination Finish: Matte Tin(Sn)
Example P/N: RWPA01W038K0FS is Resistor Wirewound Precision 0.06W, 75V, 10ppm/°C 38.0KΩ, 1.0ꢀ, bulk
32
www.johansondielectrics.com
resIsTor
wIrewound
PrecIsIon
rwP serIes
r
adial
Radial Dimensions
Package Code
B01
500k
150
B02
750k
150
B03
500k
150
B04
1M
Max Resistance (Ω)
Max Working Voltage (V)
Power Rating (W)
150
0.125
0.250
0.300
0.500
Width
0.010ꢁ
[ 0.25mmꢂ
0.140
[3.56ꢂ
0.150
[3.81ꢂ
0.102
[2.59ꢂ
0.160
[4.06ꢂ
Height
0.250
[6.35ꢂ
0.270
[6.86ꢂ
0.320
[8.13ꢂ
0.525
[13.34ꢂ
0.025ꢁ
Dimensions
Inches [mm]
[ 0.64mmꢂ
Length
0.010ꢁ
0.270
[6.86ꢂ
0.540
[13.72ꢂ
0.300
[7.62ꢂ
0.585
[14.86ꢂ
[ 0.25mmꢂ
1
Lead Length 1.00” [25.40mm] Min
Lead Diam-
eter 1
0.032
[0.81ꢂ
0.032
[0.81ꢂ
0.025
[0.64ꢂ
0.032
[0.81ꢂ
Axial Dimensions
0.002ꢁ
[ 0.05mmꢂ
Lead Spacing
0.015ꢁ
[ 0.4mmꢂ
0.125
[3.18ꢂ
0.250
[6.35ꢂ
0.150
[3.81ꢂ
0.400
[10.16ꢂ
Moisture Sensitivity Level: MSL-1
Xial
a
2
Lead Length 1.50” [38.10mm] Min
Package Code
A01
75k
75
A02
A03
150k
100
A04
250k
100
A05
250k
100
A06
A07
500k
150
A08
500k
100
A09
A10
750k
200
A11
1M
A12
1M
Max Resistance (Ω)
Max Working Voltage (V)
Power Rating (W)
150k
100
400k
150
750k
200
200
0.20
200
0.20
0.06
0.08
0.08
0.10
0.10
0.12
0.15
0.15
0.175
0.20
Length
±±0±2ꢀ5
[±±0.6mmꢁ
0.210
[5.33ꢂ
0.260
[6.60ꢂ
0.260
[6.60ꢂ
0.375
[9.53ꢂ
0.312
[7.92ꢂ
0.250
[6.35ꢂ
0.295 0.250 0.375
[7.49ꢂ
0.450
0.375
0.375
[9.53ꢂ
[6.35ꢂ [9.53ꢂ [11.43ꢂ [9.53ꢂ
Diameter
±±0±±ꢀ5
[±±0ꢂ1mmꢁ
0.100
[2.54ꢂ
0.125
[3.18ꢂ
0.125
[3.18ꢂ
0.125
[3.18ꢂ
0.156
[3.96ꢂ
0.187
[4.75ꢂ
0.187 0.250 0.187
[4.75ꢂ [6.35ꢂ [4.75ꢂ
0.187
[4.75ꢂ
0.250
[6.35ꢂ
0.250
[6.35ꢂ
Dimensions
Inches [mm]
Lead
Diameter
0.020
[0.51ꢂ
0.020
[0.51ꢂ
0.025
[0.64ꢂ
0.020
[0.51ꢂ
0.020
[0.51ꢂ
0.025
[0.64ꢂ
0.025 0.025 0.025
0.025
[0.64ꢂ
0.032
[0.81ꢂ
0.025
[0.64ꢂ
2
[0.64ꢂ
[0.64ꢂ [0.64ꢂ
±±0±±25
[±±0±ꢀmmꢁ
Package Code
A13
1M
A14
1.2M
300
A15
1.2M
300
A16
2.5M
400
A17
A18
A19
A20
6M
A21
A22
A23
6M
Max Resistance (Ω)
Max Working Voltage (V)
Power Rating (W)
2.5M
400
3.8M
300
3.8M
400
6M
800
1.00
6M
900
1.50
250
0.25
600
0.75
1000
2.00
0.25
0.25
0.33
0.33
0.40
0.50
Length
0.025ꢁ
[ 0.64mmꢂ
0.465
0.500
0.500
0.750
[19.05ꢂ
0.750
[19.05ꢂ
0.500
[12.70ꢂ
0.750
[19.05ꢂ [25.40ꢂ
1.000
1.000
[25.40ꢂ
1.500
[38.10ꢂ
2.000
[50.80ꢂ
[11.81ꢂ [12.70ꢂ [12.70ꢂ
Diameter
0.210
[5.33ꢂ
0.250
[6.35ꢂ
0.250
[6.35ꢂ
0.250
[6.35ꢂ
0.250
[6.35ꢂ
0.375
[9.53ꢂ
0.375
[9.53ꢂ
0.375
[9.53ꢂ
0.500
[12.70ꢂ
0.500
[12.70ꢂ
0.500
[12.70ꢂ
Dimensions
Inches [mm]
0.005ꢁ
[ 0.13mmꢂ
Lead
Diameter 2
0.002ꢁ
0.025
[0.64ꢂ
0.032
[0.81ꢂ
0.025
[0.64ꢂ
0.032
[0.81ꢂ
0.025
[0.64ꢂ
0.032
[0.81ꢂ
0.032
[0.81ꢂ
0.032
[0.81ꢂ
0.032
[0.81ꢂ
0.032
[0.81ꢂ
0.032
[0.81ꢂ
[ 0.05mmꢂ
Moisture Sensitivity Level: MSL-1
This datasheet is subject to change without notice0
33
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resIsTor
wIrewound
PrecIsIon smT
rwf serIes
key
FeatureS
• Resistance from 0.005 to 50kOhms
• Precision, Flame Proof and Pulse Withstanding
• Tolerance to 0.01%
• High Power to 4 Watts
• Flame Resistant UL 94V-0
• Superior Surge Handling Capability
• High Temperature Rating up to 275ꢀ
• Low Temperature Coefficient to 20ppm/ꢀC
• Non-Inductive Windings available
applicationS
• Motor Control
• Power Supplies
• Braking Systems
• Pressure Transducers
p
roduct
S
ummary
PRODUCT
SERIES
(RWF)
POWER
RESISTANCE RATING (W) DIELECTRIC
TEMPERATURE
TEMPERATURE INSULATION
RANGE (Ω) 1
0.01 to 400
0.005 to 3k
0.01 to 15k
0.01 to 25k
0.01 to 50k
0.005 to 0.05
@ 70 ꢀC
STRENGTH TOLERANCE
COEFFICIENT
RANGE
RESISTANCE
C1
C2
C3
C4
C5
D1
0.5
1
>10Ω : 20ppm/°C
0.01ꢀ
to
5ꢀ
1Ω to 10Ω :
50ppmºC
2
1000 VAC
- 55°C
to
+ 275°C
>1000
MOhms / Dry
3
<1Ω : Call Factory
4
0.1ꢀ
to
5ꢀ
1
200ppm/°C
Call Factory For Lower
500 VAC
D2
0.005 to 0.07
2
1 For non-inductive windings, divide max resistance by 2
Power Derating Curve
120
100
80
60
40
20
0
Maximum Working Voltage =
a
•
Vailable
o
ptionS (Consult Factory)
Special Testing Requirements
Special Pulse Requirements
•
0
50
100
150
200
250
300
350
Ambient Temperature (ºC)
How to
order
RWF
N
C4
U
380R0
B
E
RESISTOR
WIREWOUND SMT
WINDINGS
PACKAGE CODE,
WATTS, RESISTANCE
TEMPERATURE COEFFICIENT
OF RESISTANCE (TCR)
RESISTANCE
TOLERANCE
PACKING
S = Standard C1, 0.5W, [0.01 to 400]Ω
U = 20ppm/ºC
Q= 50PPM/ºC
L = 200ppm/ºC
Z = special
0R038 = 0.038Ω
003K8 = 3.8KΩ
038K0 = 38.0KΩ
T = 0.01% E = Embossed
N = Non-
Inductive
Q = 0.02%
A = 0.05%
B = 0.1%
F = 1.0%
J = 5.0%
Tape & Reel
C2, 1.0W, [0.005 to 3k]Ω
C3, 2.0W, [0.01 to 15k]Ω
C4, 3.0W, [0.01 to 25k] Ω
C5, 4.0W, [0.01 to 50k]Ω
380K0 = 380.0KΩ
003M8 = 3.8M Ω
Letter denotes decimal place.
3
6
D1, 1.0W, [0.005 to 0.05]Ω
D2, 2.0W, [0.005 to 0.07]Ω
R = decimal., “K” 10 , “M” 10
Remaining 4 digits are
significant placeholders
For Tin/Lead coated leads, add “- Pb” to part number.
Standard Termination Finish: Electroless Tin
Example P/N: RWFNC4U380R0BE is Resistor Wirewound Precision SMT Non-Inductive, 3.0W, 20ppm/°C, 380Ω, 0.1ꢀ, embossed tape &
reel
34
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wIrewound
PrecIsIon smT
rwf serIes
mecHanical
cHaracteriSticS
Lead Thickness ±0±±. [0±ꢂꢀmmꢁ Tolerances 0.002ꢁ [ 0.05mmꢂ
Package Code
C1
C2
C3
C4
C5
D1
D2
0.190
[4.83ꢂ
0.260
[6.60ꢂ
0.450
[11.43ꢂ
0.625
[15.83ꢂ
0.260
[6.60ꢂ
A (Tolerances)
0.015ꢁ [ 0.4mmꢂ
0.820 [20.83ꢂ
0.450 [11.43ꢂ
0.130[
3.30ꢂ
0.155
[3.94ꢂ
0.155
[3.94ꢂ
B (Tolerances)
0.250 [6.35ꢂ 0.270[6.86ꢂ 0.295 [7.49ꢂ
0.180 [4.57ꢂ 0.250 [6.35ꢂ 0.305 [7.75ꢂ
0.250 [6.35ꢂ
0.100 [2.54ꢂ
0.120 [3.05ꢂ
0.100 [2.54ꢂ
0.190 [4.83ꢂ
0.005 [0.13ꢂ
0.150 [3.81ꢂ
0.200 [5.08ꢂ
0.540 [13.72ꢂ
0.015ꢁ [ 0.4mmꢂ
Dimensions
Inches [mm]
0.110
[2.79ꢂ
0.125
[3.18ꢂ
0.100
[2.54ꢂ
C (Tolerances)
0.015ꢁ [ 0.4mmꢂ
0.060
[1.52ꢂ
0.070
[1.78ꢂ
D (Tolerances)
0.015ꢁ [ 0.4mmꢂ
0.070[1.78ꢂ 0.120 [3.05ꢂ 0.120 [3.05ꢂ 0.150 [3.81ꢂ
0.040
[1.02ꢂ
0.070
0.070
[1.78ꢂ
F (Tolerances)
0.015ꢁ [ 0.4mmꢂ
0.100 [2.54ꢂ 0.135 [3.43ꢂ 0.190 [4.83ꢂ
[1.78ꢂ
0.100
[2.54ꢂ
0.120
0.120
[3.05ꢂ
E (Tolerances)
0.015ꢁ [ 0.4mmꢂ
0.190 [4.83ꢂ 0.150 [3.81ꢂ 0.245 [6.22ꢂ
[3.05ꢂ
Stand-Off
Inches [mm]
0.005
[0.13ꢂ
0.005
0.005
[0.13ꢂ
Height (Tolerances)
0.005ꢁ[ 0.13mmꢂ
0.005 [0.13ꢂ 0.005 [0.13ꢂ 0.005 [0.13ꢂ
[0.13ꢂ
0.062
[1.57ꢂ
0.096
0.096
[2.44ꢂ
Width (Tolerances)
0.015ꢁ [ 0.4mmꢂ
0.150 [3.81ꢂ 0.200 [5.08ꢂ 0.220 [5.59ꢂ
[2.44ꢂ
Solder Pad
Inches [mm]
0.100
[2.54ꢂ
0.150
0.150
[3.81ꢂ
Height (Tolerances)
0.015ꢁ [ 0.4mmꢂ
0.200 [5.08ꢂ 0.220 [5.59ꢂ 0.250 [6.35ꢂ
[3.81ꢂ
0.250
[6.35ꢂ
0.337
[8.56ꢂ
0.540
0.700
0.337
[8.56ꢂ
Length (Tolerances)
0.015ꢁ [ 0.4mmꢂ
0.900 [22.86ꢂ
[13.72ꢂ
[17.78ꢂ
enVironmental
perFormance
Environmental Performance (MIL-STD 202)
DR Maximum
1ꢀ + 0.05 Ω
Load Life
Moisture Resistance
Dielectric
0.5ꢀ + 0.05 Ω
0.5ꢀ + 0.05 Ω
Storage
Shock
Thermal Shock
5X Overload (5s)
Resistance to Heat Solder (260C, 10s)
p
ackaging nFormation
i
Package Code
C1
12
C2
16
C3
C4
C5
D1
D2
24
Reel/Tape Width [mm]
Small
24
24
32
16
650
3000
600
2000
250
125
500
180
500
600
250
1000
Large
1000
2000
Humidity Packaging Notes:
Moisture Barrier Bags (MBB) are used to package surface mount components0 These bags include a dessicant and a Humidity
Indicator Card to monitor humidity levels0 All bags are marked with Moisture-Sensitive Identification Labels0
A Moisture Sensitivity Level (MSL) rating of 2 (ꢂ-year floor life) applies to the Johanson RWF Series0
This datasheet is subject to change without notice0
35
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resIsTor
wIrewound
hIgh
Power
raTIng
rwh serIes
key
FeatureS
• Excellent Pulse Handling
• Resistance Tolerances to 0.01%
• Resistance from 0.02 to 260kOhms
• MIL-R-26 / MIL-R-39007 Power Ratings
• Low TCR: 20ppm/ ꢀC Standard
• Non-Inductive Windings available
applicationS
• HDVC Systems
• Braking Systems
• Power Supplies
• Fluid Heater
product
Summary
PRODUCT SERIES
(RWH)
POWER RATING
(W)
DIELECTRIC
STRENGTH
TEMPERATURE
COEFFICIENT
TEMPERATURE
RANGE
TOLERANCE
500 VAC:
E01, E02, E03,
E04, E05, E06
Miniature Axial
1 to 15
-55°C to + 250°C
>10Ω : 20ppm/°C
1Ω to 10Ω : 50ppm/°C
<1Ω : Call Factory
1000 VAC:
All Others
0.01ꢀ
to
10ꢀ
500 VAC:
F01, F02, F03,
F04, F05, F06, F07
Characteristic U:
-55°C to + 275°C
(1ꢀ Standard)
Axial
0.1 to 15
Characteristic V:
-55°C to + 350°C
1000 VAC:
All Others
How to
order
RWH
S
E02
T
U
003K8
F
S
RESISTOR
WIREWOUND
HIGH POWER
WINDINGS
PACKAGE CODE,
WATTS, RESISTANCE TEMPERATURE
OPERATING
TEMPERATURE
COEFFICIENT OF
RESISTANCE (TCR)
RESISTANCE
TOLERANCE PACKING
S = Standard
N = Non-
Inductive
Miniature Axial
T = -55ºC to +250ºC
U = -55ºC to +275ºC
V = -55ºC to +350ºC
U = 20ppm/°C
Q = 50ppm/°C
Z = Special
0R038 = 0.038Ω
003K8 = 3.8KΩ
038K0 = 38.0KΩ
380K0 = 380.0KΩ
003M8 = 3.8MΩ
T= 0.01%
Q= 0.02%
A= 0.05%
B= 0.1%
F= 1.0%
J= 5.0%
K= 10.0%
S = Bulk
T = Tape &
Reel
E01, 1.0W, 33Vmax
E02, 1.0W, 33Vmax
Axial
F01, 0.1W, 8.5Vmax
F02, 0.4W, 20Vmax
Letter denotes
decimal place.
3
6
R = decimal.,“K” 10 ,“M” 10
See Table
Remaining 4 digits
are significant or
placeholders.
For Tin/Lead coated leads, add "- Pb" to part number.
Standard Termination Finish: Matte Tin (Sn)
Example P/N: RWHSE02TU003K8FS is Resistor Wirewound High Power, Standard, 1.0W, 33V, -55ºC to +250ºC, 20ppm/ºC, 3.8KΩ, 1.0ꢀ, bulk
36
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wIrewound
hIgh
Power
raTIng
rwh serIes
miniature
aXial
Package Code
E01
3.4k
33
E02
3.4k
33
E03
7.5k
42
E04
7.5k
42
E05
10k
80
E06
10k
80
E07
12.5k
135
3
E08
25k
162
4
E09
32k
194
5
Max Resistance (Ω) 1
Max Working Voltage (V)
Power Rating (W)
1
1
1.5
1.5
2
2
A
0.250
[6.35ꢂ
0.250
[6.35ꢂ
0.312
[7.92ꢂ
0.312
[7.92ꢂ
0.406
[10.31ꢂ
0.406
[10.31ꢂ
0.350
[8.89ꢂ
0.560
[14.22ꢂ
0.500
[12.70ꢂ
0.062ꢁ
[ 1.57mmꢂ
B
Dimensions
0.031ꢁ
0.085
[2.16ꢂ
0.085
[2.16ꢂ
0.078
[1.98ꢂ
0.078
[1.98ꢂ
0.094
[2.39ꢂ
0.094
[2.39ꢂ
0.156
[3.96ꢂ
0.187
[4.75ꢂ
0.218
[5.54ꢂ
Inches [mm]
[ 0.79mmꢂ
C 2
0.002ꢁ
[ 0.05mmꢂ
0.020
[0.51ꢂ
0.025
[0.64ꢂ
0.020
[0.51ꢂ
0.025
[0.64ꢂ
0.025
[0.64ꢂ
0.020
[0.51ꢂ
0.032
[0.81ꢂ
0.032
[0.81ꢂ
0.040
[1.02ꢂ
RW-81
RWR-81
RW-81
RWR-81
RW-80
RWR-80
RW-80
RWR-80
MIL-R-26 / MIL-R-39007
RWR-82
RWR-82
Package Code
E10
E11
E12
E13
Max Resistance (Ω) 1
50k
95k
150k
260k
1050
15
Power Derating Curve
120
100
80
Max Working Voltage
(V)
258
6
425
7
607
10
Power Rating (W)
A
0.625
[15.88ꢂ
0.875
[22.23ꢂ
1.220
[30.99ꢂ
1.780
[45.21ꢂ
60
0.062ꢁ
[ 1.57mmꢂ
40
B
Dimensions
0.031ꢁ
0.250
[6.35ꢂ
0.312
[7.92ꢂ
0.312
[7.92ꢂ
0.375
[9.53ꢂ
20
Inches [mm]
[ 0.79mmꢂ
0
0
C 2
-50
0
50
100
150
200
250
300
0.040
[1.02ꢂ
0.040
[1.02ꢂ
0.040
[1.02ꢂ
0.040
[1.02ꢂ
0.002ꢁ
[ 0.05mmꢂ
Ambient Temperature (°C)
MIL-R-26 / MIL-
R-39007
RW-84
1
2
For non-inductive windings / divide maximum resistance by 2
Lead Diameter:
18 AWG = 0.040" / 20 AWG = 0.032ꢁ /22 AWG = 0.025" / 24 AWG = 0.020"
37
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raTIng
rwh serIes
aXial
Package Code
F01
500
8.5
F02
F03
2.5k
20
F04
7.5k
29
F05
F06
10k
52
F07
10k
52
F08
12.5k
60
F09
22k
130
2.5
F10
22k
140
3.0
1
Max Resistance (Ω)
2.5k
20
7.5k
29
Max Working Voltage (V)
U
V
A
0.1
0.4
0.5
0.4
0.5
0.75
0.9
0.75
0.9
1.0
1.5
1.0
1.5
1.5
Power
Rating (W)
0.25
2.0
3.0
3.75
0.150
[3.81ꢂ
0.250
[6.35ꢂ
0.250
[6.35ꢂ
0.330
[8.38ꢂ
0.330
[8.38ꢂ
0.406
[10.31ꢂ
0.406
[10.31ꢂ
0.350
[8.89ꢂ
0.500
[12.70ꢂ [14.22ꢂ
0.560
0.062ꢁ
[ 1.57mmꢂ
B
Dimensions
Inches [mm]
0.078
[1.98ꢂ
0.094
[2.39ꢂ
0.094
[2.39ꢂ
0.094
[2.39ꢂ
0.094
[2.39ꢂ
0.094
[2.39ꢂ
0.094
[2.39ꢂ
0.156
[3.96ꢂ
0.187
[4.75ꢂ
0.187
[4.75ꢂ
0.031ꢁ
[ 0.79mmꢂ
2
C
0.018
[0.45ꢂ
0.020
[0.51ꢂ
0.025
[0.64ꢂ
0.020
[0.51ꢂ
0.025
[0.64ꢂ
0.020
[0.51ꢂ
0.025
[0.64ꢂ
0.032
[0.81ꢂ
0.032
[0.81ꢂ
0.032
[0.81ꢂ
0.002ꢁ
[ 0.05mmꢂ
MIL-R-26 / MIL-R-39007
RW-70
RW-70
RW-69 RW-79
Package Code
F11
F12
F13
F14
F15
F16
F17
65k
390
5.0
F18
F19
150k
650
7.0
F20
100k
590
7.0
1
Max Resistance (Ω)
40k
140
3.0
4.0
40k
140
3.0
4.0
30k
140
3.0
3.5
45k
210
4.0
5.5
45k
210
4.0
5.5
91k
360
5.0
6.5
95k
504
5.0
6.5
Max Working Voltage (V)
U
V
A
Power
Rating (W)
6.5
9.0
9.0
0.500
[12.70ꢂ
0.500
[12.70ꢂ
0.500
[12.70ꢂ
0.675
[17.15ꢂ
0.675
[17.15ꢂ
0.875
[22.23ꢂ
0.970
[24.64ꢂ
1.025
[26.04ꢂ
1.375
[34.93ꢂ
1.400
[35.56ꢂ
0.062ꢁ
[ 1.57mmꢂ
B
Dimensions
Inches [mm]
0.250
[6.35ꢂ
0.250
[6.35ꢂ
0.200
[5.08ꢂ
0.270
[6.68ꢂ
0.270
[6.68ꢂ
0.312
[7.92ꢂ
0.250
[6.35ꢂ
0.312
[7.92ꢂ
0.375
[9.52ꢂ
0.312
[7.92ꢂ
0.031ꢁ
[ 0.79mmꢂ
2
C
0.040
[1.02ꢂ
0.032
[0.81ꢂ
0.032
[0.81ꢂ
0.040
[1.02ꢂ
0.032
[0.81ꢂ
0.040
[1.02ꢂ
0.032
[0.81ꢂ
0.040
[1.02ꢂ
0.040
[1.02ꢂ
0.032
[0.81ꢂ
0.002ꢁ
[ 0.05mmꢂ
MIL-R-26 / MIL-R-39007
RW-74
RW-67
1
2
For non-inductive windings / divide maximum resistance by 2
Lead Diameter:
18 AWG = 0.040" / 20 AWG = 0.032ꢁ / 22 AWG = 0.025" /
24 AWG = 0.020" / 25 AWG = 0.018"
Package Code
F21
154k
620
7.0
F22
260k
850
10
F23
320k
1500
15
1
Max Resistance (Ω)
Max Working Voltage (V)
U
Power Derating Curve
Power
Rating (W)
120
V
9.0
13
-
100
80
60
40
20
0
A
1.200
[30.99ꢂ
1.780
[45.21ꢂ
1.810
[45.95ꢂ
0.062ꢁ
[ 1.57mmꢂ
B
Dimensions
0.031ꢁ
0.312
[7.92ꢂ
0.375
[9.52ꢂ
0.510
[12.95ꢂ
Inches [mm]
[ 0.79mmꢂ
2
C
0.040
[1.02ꢂ
0.040
[1.02ꢂ
0.050
[1.27ꢂ
0.002ꢁ
[ 0.05mmꢂ
0
50
100
150
200
250
300
350
400
MIL-R-26 / MIL-R-39007
RW-78
Ambient Temperature (°C)
38
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raTIng
rwh serIes
e
nVironmental
p
erFormance
DR
Environmental Performance
(MIL-STD 202)
Miniature Axial
Axial - Characteristic U
Axial - Characteristic V
Vibration
0.1 ꢀ + 0.05 Ω
0.1ꢀ + 0.05 Ω
0.2ꢀ + 0.05 Ω
To 1ꢀ Depending on
Resistance Value and
Size
Load Life
1ꢀ + 0.05 Ω
3ꢀ + 0.05 Ω
Moisture Resistance
Dielectric
0.2 ꢀ + 0.05 Ω
0.2 ꢀ + 0.05 Ω
0.2 ꢀ + 0.05 Ω
0.1 ꢀ + 0.05 Ω
0.2 ꢀ + 0.05 Ω
0.2 ꢀ + 0.05 Ω
0.2ꢀ + 0.05 Ω
0.2ꢀ + 0.05 Ω
0.2ꢀ + 0.05 Ω
0.1ꢀ + 0.05 Ω
0.2ꢀ + 0.05 Ω
0.2ꢀ + 0.05 Ω
2ꢀ + 0.05 Ω
0.2ꢀ + 0.05 Ω
2ꢀ + 0.05 Ω
0.2ꢀ + 0.05 Ω
2ꢀ + 0.05 Ω
2ꢀ + 0.05 Ω
Storage
Shock
Thermal Shock
5X Overload (5s)
CONSTRUCTION NOTES:
Centerless ground ceramic core
Tinned copper or copperweld leads
All welded terminations
High Temperature / trivalent / inorganic silicone coating
p
ackaging nFormation
i
MINIATURE AXIAL: Bulk Only
AXIAL:
Package Code
Bulk
F01
F02
1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000
2000 2000 2000 2000 2000 2000 2000 500 500 500 500 500
F03
F04
F05
F06
F07
F08
F09
F10
F11 F12
F13
Bulk
Only.
No
10" Reel
12" Reel
14" Reel
3000 3000 3000 3000 3000 3000 3000 1500 1500 1000 1000 1000
5000 5000 5000 5000 5000 5000 5000 3000 3000 1500 1500 1500
T&R
Package Code
Bulk
F14
F15
F16
F17
F18
F19
F20
F21
F22
1000 1000 1000 1000 1000 1000 1000 1000 1000
10" Reel
12" Reel
14" Reel
N/A
500
N/A
500
N/A
500
500
N/A
500
N/A
500
750
N/A
500
750
N/A
500
750
N/A
500
750
1000
1000 1000 1000 1500 1000
Moisture Sensitivity Level: MSL-1
aVailable
optionS (Consult Factory)
•
Special Testing Requirements
•
Special Pulse Requirements
This datasheet is subject to change without notice0
39
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resIsTor
wIrewound
chassIs
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rwc serIes
key
FeatureS
• Resistances from 0.005 to 250kOhms
• Tolerance to 0.01%
• High Temperature: -55ꢀC to +275ꢀC
• Low TCR: 20ppm/ ꢀC
• Power Rating 5 to 300 Watts
• Excellent Pulse Handling
• Non-Inductive windings available
• Four Terminal Versions Available (Call Factory)
applicationS
• Motor Control
• Braking Systems
• Welding
• X-Ray
product
Summary
POWER RATING
(W @ 25ꢀC)
PRODUCT
SERIES
(RWC)
RESISTANCE
RANGE (Ω)
FREE
AIR
DIELECTRIC
TEMPERATURE
COEFFICIENT
TEMPERATURE
RANGE
1
COMMERCIAL MIL
STRENGTH
1500 VAC
1500 VAC
2500 VAC
3500 VAC
G1
G2
G3
G4
0.01 to 22K
0.01 to 47K
0.01 to 90K
0.01 to 250K
4.5
7.5
12
7.5 a
12.5 a
25 b
5 a
10 a
20 b
30 c
>10Ω: 20ppm/ºC
1Ω to 10Ω: 50ppm/ºC
<1Ω: Call Factory
- 55ºC to + 275ºC
20
50 c
1 For non-inductive windings, divide maximum resistance by 2
TOLERANCE: 0.01 to 10ꢀ (1ꢀ Standard)
a Heatsink required: 0.040 [1.0ꢂ Aluminum Plate, 129 in2 [832 cm2ꢂ or equiv.
b Heatsink required: 0.040 [1.0ꢂ Aluminum Plate, 167 in2 [1077 cm2ꢂ or
equiv.
c Heatsink required: 0.059 [1.5ꢂ Aluminum Plate, 291 in2 [1877 cm2ꢂ or
equiv.
a
•
Vailable
o
ptionS (Consult Factory)
Special Testing Requirements
Special Pulse Requirements
•
d Heatsink required: 0.125 [3.2ꢂ Aluminum Plate, 294in2 [1896cm2ꢂ or equiv.
e Heatsink required: 0.125 [3.2ꢂ Aluminum Plate, 895 in2 [5780 cm2ꢂ or
equiv.
How to
order
N
RWC
G1
U
003K8
F
S
RESISTOR WIRE-
WOUND CHASSIS
MOUNT
WINDINGS
PACKAGE CODE,
WATTS (COMMERCIAL),
RESISTANCE
TEMPERATURE
COEFFICIENT OF
RESISTANCE (TCR)
RESISTANCE
TOLERANCE PACKING
S = Standard
N = Non-Inductive
G1, 7.5W, [0.01 to 22k]Ω
G2, 12.5W, [0.01 to 47k]Ω
G3, 25.0W, [0.01 to 90k]Ω
G4, 50.0W, [0.01 to 250k]Ω
U = 20ppm/°C
Q = 50ppm/°C
Z = Special
038R0 = 38Ω
003K8 = 3.8KΩ
038K0 = 38.0KΩ
380K0 = 380.0KΩ
003M8 = 3.8MΩ
Letter denotes
decimal place.
T= 0.01%
Q= 0.02%
A= 0.05%
B= 0.1%
F= 1.0%
J= 5.0%
K= 10.0%
S = Bulk
3
6
R = decimal., “K” 10 , “M” 10
Remaining 4 digits are
significant or placeholders.
For Tin/Lead coated leads, add "- Pb" to part number.
Standard Termination Finish: Matte Tin (Sn)
Example P/N: RWCNG1U003K8FS is Resistor Wirewound Chassis Mount, Non-Inductive, 7.5W, 20ppm/ºC, 3.8KΩ, 1.0ꢀ, bulk
40
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chassIs
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cHaracteriSticS
Package Code
G1
G2
G3
G4
A (Tolerances)
0.005 [ 0.13 mmꢂ
0.444 [11.28ꢂ
0.562 [14.27ꢂ
0.625 [15.88ꢂ
0.750 [19.05ꢂ
1.320 [33.53ꢂ
0.430 [10.92ꢂ
0.800 [20.32ꢂ
0.400 [10.16ꢂ
0.075 [1.91ꢂ
0.190 [4.83ꢂ
0.093 [2.36ꢂ
0.093 [2.36ꢂ
0.102 [2.60ꢂ
0.080 [2.03ꢂ
0.312 [7.93ꢂ
0.312 [7.92ꢂ
0.098 [2.49ꢂ
0.719 [18.26ꢂ
0.781 [19.84ꢂ
1.062 [26.97ꢂ
1.870 [47.50ꢂ
0.530 [13.46ꢂ
1.080 [27.43ꢂ
0.560 [14.22ꢂ
0.085 [2.16ꢂ
0.260 [6.60ꢂ
0.172 [4.37ꢂ
0.125 [3.18ꢂ
0.125 [3.18ꢂ
0.080 [2.03ꢂ
0.438 [11.13ꢂ
0.391 [9.93ꢂ
0.098 [2.49ꢂ
1.563 [39.70ꢂ
0.844 [21.44ꢂ
1.968 [49.99ꢂ
2.760 [70.10ꢂ
0.615 [15.62ꢂ
1.140 [28.96ꢂ
0.615 [15.62ꢂ
0.085 [2.16ꢂ
0.300 [7.62ꢂ
0.196 [4.98ꢂ
0.125 [3.18ꢂ
0.125 [3.18ꢂ
0.080 [2.03ꢂ
0.438 [11.13ꢂ
0.422 [10.72ꢂ
0.098 [2.49ꢂ
B (Tolerances)
0.005 [ 0.13 mmꢂ
0.490 [12.45ꢂ
0.600 [15.24ꢂ
1.125 [28.58ꢂ
0.334 [8.48ꢂ
0.646 [16.41ꢂ
0.320 [8.13ꢂ
0.065 [1.65ꢂ
0.140 [3.56ꢂ
0.078 [1.98ꢂ
0.093 [2.36ꢂ
0.078 [1.98ꢂ
0.050 [1.27ꢂ
0.266 [6.76ꢂ
0.245 [6.22ꢂ
0.051 [1.30ꢂ
C (Tolerances)
0.031 [ 0.79 mmꢂ
D (Tolerances)
0.062 [ 1.57 mmꢂ
E (Tolerances)
0.015 [ 0.38 mmꢂ
F (Tolerances)
0.015 [ 0.38 mmꢂ
G (Tolerances)
0.015 [ 0.38 mmꢂ
H (Tolerances)
0.010 [ 0.25 mmꢂ
J (Tolerances)
0.010 [ 0.25 mmꢂ
Dimensions
Inches [mm]
K (Tolerances)
0.010 [ 0.25 mmꢂ
L (Tolerances)
0.005 [ 0.13 mmꢂ
M (Tolerances)
0.015 [ 0.38 mmꢂ
N (Tolerances)
0.006 [ 0.15 mmꢂ
O (Tolerances)
0.062 [ 1.57 mmꢂ
P (Tolerances)
0.031 [ 0.79 mmꢂ
Q (Tolerances)
0.002 [ 0.05 mmꢂ
R (Tolerances)
0.031 [ 0.79 mmꢂ
0.085 [2.16ꢂ
0.160 [4.06ꢂ
0.185 [4.70ꢂ
0.185 [4.70ꢂ
MIL-R-39009 / MIL-R-18546
RER-60 / RE-60
RER-65 / RE-65
RER-70 / RE-70
RER-75 / RE-75
41
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enVironmental
perFormance
Environmental Performance (MIL-STD 202)
Vibration
DR
0.1 ꢀ + 0.05 Ω
1ꢀ + 0.05 Ω
Load Life
Moisture Resistance
Dielectric
0.2 ꢀ + 0.05 Ω
0.2 ꢀ + 0.05 Ω
0.2 ꢀ + 0.05 Ω
0.1 ꢀ + 0.05 Ω
0.2 ꢀ + 0.05 Ω
0.2 ꢀ + 0.05 Ω
Storage
Shock
Thermal Shock
5X Overload (5s)
CONSTRUCTION NOTES:
Centerless ground ceramic core
Tinned copper or copperweld leads
All welded terminations
High Temperature epoxy molding compound
Anodized aluminum housing
Moisture Sensitivity Level: MSL-1
Power Derating Curve
120
100
80
60
40
20
0
Free-Air Derating:
G1, G2, G3, G4
G1 & G2
G3
G4
0
50
100
150
200
250
300
350
Ambient Temperature (°C)
This datasheet is subject to change without notice0
42
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resIsTor
ThIn
fIlm
PrecIsIon
rnP serIes
key
FeatureS
• Resistances from 1 Ohm to 3M Ohms
• Resistance Tolerances to 0.01%
• Power Rating 0.06 to 0.75 watts
• TCR’s up to 5ppm/ꢀC
• Operating Temperature: - 55ꢀC to 155ꢀC
• Available in sizes 0402,0603, 0805, 1206, 2010, 2512
applicationS
• Motor Control
• Precision Scales
• Smart Grid Metering
• Temperature Sensors
product
Summary
STANDARD POWER RATING (PAGE 44)
HIGH POWER RATING (PAGE 45)
PACKAGE
SIZE
RESISTANCE RANGE
(Ω)
POWER RATING (W) RESISTANCE RANGE POWER RATING (W)
AT 70ꢀC
0.0625
0.0625
0.100
(Ω)
AT 70ꢀC
0402
0603
0805
1206
2010
2512
1 - 511K
1 - 1M
-
-
4.7 - 1M
1 - 1M
4.7 - 1M
4.7 - 1M
1 - 2K
0.100
0.125
0.250
0.333
0.750
1 - 2M
1 - 2.49M
1 - 3M
0.125
0.250
1 - 3M
0.500
Power Derating Curve
100
80
60
40
20
0
a
•
Vailable
o
ptionS (Consult Factory)
Special Testing Requirements
155
0
20
40
60
70
80
100
120
140
Ambient Temperature (°C)
How to
order
14
H
RNP
W
003K8
B
T
RESISTOR THIN FILM
PRECISION
PACKAGE
CODE
POWER RATING
TEMPERATURE
COEFFICIENT OF
RESISTANCE (TCR)
RESISTANCE
TOLERANCE PACKING
07 = 0402
14 = 0603
15 = 0805
18 = 1206
19 = 2010
20 = 2512
S = Standard
H = High Power
X = 5ppm/°C
W = 10ppm/°C
V = 15ppm/ºC
T = 25ppm/ºC
Q = 50ppmºC
038R0 = 38Ω
003K8 = 3.8KΩ
038K0 = 38.0KΩ
380K0 = 380.0KΩ
003M8 = 3.8MΩ
Letter denotes
T = 0.01%
A = 0.05%
B = 0.1%
C = 0.25%
D = 0.5%
F = 1.0%
T = Paper
Tape
decimal place.
3
6
R = decimal., “K” 10 , “M” 10
Remaining 4 digits are
significant or placeholders.
Standard Termination Finish: Nickel Tin Alloy
Example P/N:
RNP14HW003K8BE is Resistor Thin Film Precision, 0603 size, high power rating, 10ppm/ºC, 3.8KΩ, 0.1ꢀ, embossed tape & reel
43
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resIsTor
ThIn
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PrecIsIon
rnP serIes
Standard
power
rating
SpeciFicationS
Standard
Package Size
Size 0402
(RNP07S)
Size 0603
(RNP14S)
Size 0805
(RNP15S)
Max Working
Voltage (V) 1
25V
50V
50V
100V
200V
0.100
Max Overload
Voltage (V) 2
100V
Power Rating (W)
at 70ꢀC
0.0625
15
0.0625
15
5
10
25
50
5
10
25
50
5
10
15
25
50
TCR PPM/°C
0.01%
-
24.9Ω to 100KΩ
4.7Ω to 332KΩ
4.7Ω to 1MΩ
-
24.9Ω to 200KΩ
-
Tolerance
49.9Ω to
12KΩ
4.7Ω to
1MΩ
0.05%
Tolerance
49.9Ω to 12KΩ
10Ω to 255KΩ
4.7Ω to
2MΩ
0.1%
Tolerance
Resistance
Range
49.9Ω
to
4.99KΩ
24.9Ω
to
15KΩ
24.9Ω
to
30KΩ
4.7Ω
to
1MΩ
0.25%
Tolerance
(Ω)
49.9Ω
4.7Ω
to
49.9Ω
to
to
1Ω
to
1Ω
to
0.5%
Tolerance
69.8KΩ
60KΩ
511KΩ
4.7Ω to 511KΩ
1Ω to 2MΩ
1MΩ
1MΩ
1%
Tolerance
Standard
Package Size
Size 1206
(RNP18S)
Size 2010
(RNP19S)
Size 2512
(RNP20S)
Max Working
Voltage (V) 1
150V
300V
150V
300V
0.250
150V
300V
0.500
Max Overload
Voltage (V) 2
Power Rating (W)
at 70ꢀC
0.125
15
5
10
25
50
5
10
15
25
50
5
10
15
25
50
TCR PPM/°C
0.01%
Tolerance
24.9Ω to 499KΩ
-
24.9Ω to 499KΩ
-
24.9Ω to 499KΩ
-
4.7Ω to
1MΩ
4.7Ω to
1MΩ
0.05%
Tolerance
4.7Ω to 1MΩ
4.7Ω to
3MΩ
4.7Ω to
3MΩ
0.1%
Resistance
Range
4.7Ω to 2.49MΩ
24.9Ω
to
49.9KΩ
24.9Ω
to
100KΩ
24.9Ω
to
100KΩ
Tolerance
0.25%
Tolerance
4.7Ω to 1MΩ
4.7Ω to 1MΩ
4.7Ω to 1MΩ
(Ω)
1Ω to
3MΩ
0.5%
Tolerance
1Ω to 2.49MΩ
1Ω to 3MΩ
1%
Tolerance
1
2
( P * R )
Working Voltage =
or MAX Listed, whichever is lower.
( P * R )
Overload Voltage = 2.5 *
or MAX Listed, whichever is lower.
44
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rnP serIes
HigH
power
ratingS
SpeciFicationS
High Power
Package Size
Size 0603
(RNP14H)
Size 0805
(RNP15H)
Size 1206
(RNP18H)
Max Working
Voltage (V) 1
75V
150V
0.100
150V
300V
200V
400V
0.250
Max Overload
Voltage (V) 2
Power Rating (W)
at 70ꢀC
0.125
15
5
10
15
25
50
5
10
25
50
5
10
15
25
50
TCR PPM/°C
0.01%
24.9Ω to 100KΩ
24.9 to 200K
4.7Ω to 511KΩ
24.9Ω to 499KΩ
Tolerance
4.7Ω to
332KΩ
0.05%
Tolerance
0.1%
Resistance
Range
4.7Ω to1 MΩ
24.9Ω
to
15KΩ
24.9Ω
to
30KΩ
24.9Ω
to
49.9KΩ
Tolerance
4.7Ω
to
511KΩ
0.25%
Tolerance
4.7Ω to 332KΩ
4.7Ω to 1MΩ
(Ω)
4.7Ω
to
1MΩ
4.7Ω to 1MΩ
0.5%
Tolerance
1Ω to 1MΩ
1%
Tolerance
High Power
Package Size
Size 2010
(RNP19H)
Size 2512
(RNP20H)
Max Working
Voltage (V) 1
200V
200V
400V
0.750
Max Overload
Voltage (V) 2
400V
Power Rating (W)
at 70ꢀC
0.333
15
5
10
25
50
10
15
25
50
TCR PPM/°C
0.01%
Tolerance
24.9Ω to 499KΩ
24.9Ω to 2KΩ
0.05%
Tolerance
4.7Ω to 2KΩ
1Ω to 2KΩ
0.1%
Tolerance
Resistance
Range
24.9Ω
to
0.25%
Tolerance
49.9KΩ
4.7Ω to 1MΩ
(Ω)
0.5%
Tolerance
1%
Tolerance
1 Working Voltage =
or MAX Listed, whichever is lower.
or MAX Listed, whichever is lower.
( P * R )
2 Overload Voltage = 2.5 *
( P * R )
45
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PrecIsIon
rnP serIes
mecHanical
cHaracteriSticS
Dimensions
L (Length)
Inches [mm]
W (Width)
Inches [mm]
T (Thickness)
Inches [mm]
EB (End Band)
Inches [mm]
Package Size
0402
0.04 [1.02ꢂ
0.06 [1.52ꢂ
0.08 [2.03ꢂ
0.12 [3.05ꢂ
0.19 [4.83ꢂ
0.25 [6.35ꢂ
0.02 [0.51ꢂ
0.03 [0.76ꢂ
0.05 [1.27ꢂ
0.06 [1.52ꢂ
0.09 [2.29ꢂ
0.12 [3.05ꢂ
0.012 [0.30ꢂ
0.018 [0.46ꢂ
0.022 [0.56ꢂ
0.022 [0.56ꢂ
0.022 [0.56ꢂ
0.022 [0.56ꢂ
0.007 [0.18ꢂ
0.012 [0.30ꢂ
0.012 [0.30ꢂ
0.016 [0.41ꢂ
0.023 [0.58ꢂ
0.023 [0.58ꢂ
0603
0805
1206
2010
2512
enVironmental
cHaracteriSticS
Requirement
Tolerance
Tolerance
Test
<0.05%
>0.05%
Conditions
Bending Strength
DR 0.05ꢀ
DR 0.2ꢀ
Bending amplitude 3mm for 10 seconds
260 5°C for 10 seconds
Resistance to Soldering Heat
Thermal Shock
Insulation Resistance
TCR
DR 0.05ꢀ
DR 0.05ꢀ
DR 0.2ꢀ
DR 0.25ꢀ
-55°C~150°C, 100 cycles
Apply 100VDC for 1 minute
+25/-55/+25/+125/+25°C
245 5°C for 3 seconds
>1000 MΩ
As Spec.
Solderability
95ꢀ min coverage
DR 0.05ꢀ DR 0.3ꢀ
40 2°C, 90~95ꢀ R.H. Max. working voltage for
1000 hrs with 1.5 hrs “ONꢁ and 0.5 hrs “OFFꢁ
Damp Heat With Load
Load Life
DR 0.5ꢀ
(For High Power Rating)
DR 0.05ꢀ
DR 0.2ꢀ
70 2°C, Max. working voltage for
1000 hrs with 1.5 hrs“ONꢁ and 0.5 hrs “OFFꢁ
>7kΩD R 0.5ꢀ
DR 0.5ꢀ
(For High Power Rating)
DR 0.05ꢀ
DR 0.2ꢀ
Low Temperature Operation
1 hour, -65°C, followed by 45 minutes of RCWV
DR 0.5ꢀ
(For High Power Rating)
DR 0.05ꢀ
DR 0.2ꢀ
RCWV*2.5 or Max. overload voltage for 5 sec-
onds
Short Time Overload
DR 0.2ꢀ
(For High Power Rating)
Moisture Sensitivity Level: MSL-1
This datasheet is subject to change without notice.
46
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resIsTor
meTal
elemenT
currenT
sense smT
rnc serIes
key
FeatureS
• Resistances from 0.5 mOhms to 15 mOhms
• Resistance Tolerances to 1%
• Customized Resistance available
• Power Rating up to 3 Watts
• TCR’s to 50 ppm/ ꢀC
• Available in sizes 1206 / 2010 / 2512
applicationS
• Engine Sensors
• Data Recorders
• Surge Protection
• Temperature Sensors
p
roduct
PRODUCT
SERIES
(RNC)
S
ummary
POWER
RATING
(W) at 80ꢀC
PACKAGE
SIZE
RESISTANCES
TCR
TEMPERATURE
(mΩ)
(ppm/ꢀC)
TOLERANCES
RANGE
50
RNC18A
RNC19B
1206
2010
1
0.5 - 10
200 (0.5 mΩ)
50
1.5
0.5 - 10
100 (0.5 mΩ)
0.5, 0.75, 1, 1.5, 2, 11, 12, 13,
14, 15
50
75
1
6, 6.5, 7
4, 5, 10
2.5, 3
RNC20A
RNC20C
2512
2512
1
2
100
150
1ꢀ
3ꢀ
5ꢀ
-55ºC to +170ºC
0.5, 0.75, 1, 1.5, 2, 6.5, 7, 8,
9, 10
50
75
2
6, 6.5, 7
4, 5, 10
100
150
50
2.5, 3
3
3
RNC20D
RNC20E
2512
2512
2.5
3
4, 4.5, 5, 6
0.5, 0.75
100
50
1, 1.5, 2, 2.5, 3, 3.5
1 11, 12, 13, 14, 15 mΩ - coating is green
2 6.5, 7, 8, 9, 10 mΩ at 50ppm - coating is green
3 All values contain green coating
Maximum Operating Voltage =
ow to rder
H
o
20
RNC
E
N
R00075
F
E
Resistor Metal Element
Current Sense SMT
PACKAGE POWER RATING,
TEMPERATURE
COEFFICIENT OF
RESISTANCE (TCR)
RESISTANCE
TOLERANCE PACKING
CODE
WATTS
18 = 1206
19 = 2010
20 = 2512
A = 1.0W
B = 1.5W
C = 2.0W
D = 2.5W
E = 3.0W
Q = 50ppm/°C
P = 75ppm/°C
N = 100ppm/ºC
M = 150ppm/ºC
L = 200ppm/ºC
R00075 = 0.00075Ω (0.75mΩ)
0R0005 = 0.0005Ω (0.5mΩ)
00R001 = 0.001Ω (1mΩ)
F = 1.0%
H = 3.0%
J = 5.0%
E = Embossed
Tape & Reel
0R0015 = 0.0015Ω (1.5mΩ)
Letter denotes decimal place.
3
6
R = decimal., “K” 10 , “M” 10
Remaining 5 digits are
significant or placeholders.
Standard Termination Finish: Nickel Tin Alloy
Example P/N: RNC20ENR00075FT is Resistor Metal Element Current Sense SMT, size 2512, 3.0W, 100ppm/ºC, 0.00075Ω (0.75mΩ), 1.0ꢀ, embossed tape & reel
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electrical & mecHanical
cHaracteriSticS
Power Rating
Resistance
Value (Ω)
L (Length)
[mm]
W (Width)
[mm]
T (Thickness)
[mm]
EB (End Band)
[mm]
Package Code
(W)
0.5
0.75
1, 4, 5, 6
2, 3, 10
7, 8, 9
0.5
3.20 0.25
3.20 0.25
3.20 0.25
3.20 0.25
3.20 0.25
5.08 0.25
5.08 0.25
5.08 0.25
5.08 0.25
5.08 0.25
5.08 0.25
5.08 0.25
6.35 0.254
6.35 0.254
6.35 0.254
6.35 0.254
6.35 0.254
6.35 0.254
6.35 0.254
6.35 0.254
6.35 0.254
6.35 0.254
6.35 0.254
6.35 0.254
6.35 0.254
6.35 0.25
6.35 0.25
6.35 0.25
6.35 0.25
6.35 0.25
6.35 0.25
6.35 0.25
1.60 0.10
1.60 0.10
1.60 0.10
1.60 0.10
1.60 0.10
2.54 0.15
2.54 0.15
2.54 0.15
2.54 0.15
2.54 0.15
2.54 0.15
2.54 0.15
3.18 0.254
3.18 0.254
3.18 0.254
3.18 0.254
3.18 0.254
3.18 0.254
3.18 0.254
3.18 0.254
3.18 0.254
3.18 0.254
3.18 0.254
3.18 0.254
3.18 0.254
3.00 0.20
3.00 0.20
3.00 0.20
3.00 0.20
3.00 0.20
3.00 0.20
3.00 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
1.25 0.20
0.75 0.20
0.65 0.20
0.45 0.20
0.35 0.20
0.65 0.20
0.55 0.20
0.45 0.20
0.35 0.20
0.32 0.20
0.30 0.20
0.27 0.20
0.25 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
0.60 0.20
1.35 0.25
1.23 0.25
1.10 0.25
0.60 0.25
0.90 0.25
2.17 0.25
2.04 0.25
1.84 0.25
1.54 0.25
1.04 0.25
1.84 0.25
1.29 0.25
1.30 0.38
1.30 0.38
1.30 0.38
1.30 0.38
1.30 0.38
1.30 0.38
1.30 0.38
1.30 0.38
1.30 0.38
1.30 0.38
1.30 0.38
1.30 0.38
1.30 0.38
2.68 0.25
2.48 0.25
1.93 0.25
1.43 0.25
1.18 0.25
2.18 0.25
1.18 0.25
RNC18
(Size1206)
1
0.75
1
RNC19
(Size 2010)
1.5
2, 6, 7, 8
3
4, 5
9, 10
0.5
0.75
1
1.5
2
2.5
RNC20
(Size 2512)
1
3
4
5
6
6.5
7
10
0.5
0.75
1, 5, 6
1.5, 6.5, 7
2, 3
4, 4.5
8 to 15
RNC20
w/Green
Coating
1 to 3
(Size 2512)
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Power Derating Curve
120
100
80
60
40
20
0
0
20
40
60
80
100
120
140
160
180
Ambient Temperature (°C)
SpeciFicationS
Specification
Black Coating Green Coating
95ꢀ min. coverage
Test
Test Method
Solderability
245 5°C for 3 seconds
+25/-55/+25/+125/+25°C
at +170°C for 1000 hrs
Temperature Coefficient
of Resistance
As Spec.
Dry Heat
1.0ꢀ
1.0ꢀ
0.5ꢀ
0.5ꢀ
1.0ꢀ
1.0ꢀ
1.0ꢀ
1.0ꢀ
70 2°C, Max. working voltage for 1000 hrs with
1.5 hrs “ONꢁand 0.5 hrs “OFFꢁ
Load Life
Short Time Overload
5x rated power for 5 seconds
Resistance to Soldering
Heat
260 5°C for 10 seconds
(0.5ꢀ +
0.05Ω)
Thermal Shock
0.5ꢀ
-55°C ~ 150°C, 100 cycles
Note: Green coating cannot be used in solder bath
p
ackaging nFormation
i
RNC18
(Reel Size 1206)
RNC19
(Reel Size 2010)
RNC20
(Reel Size 2512)
Package Code
Quantity
2000
Type
Embossed Tape
Moisture Sensitivity Level: MSL-1
a
•
Vailable
o
ptionS (Consult Factory)
Special Testing Requirements
This datasheet is subject to change without notice.
49
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l
ow nducTance
I
rhx serIes
key
FeatureS
• Resistances from 51k Ohms
• High Stability Film Resistance Elements
• Rated Power of 35, 50 and 100 Watts
• TO-220 and TO-247 Housing
• Resistance tolerance of 0.1% or 1%
• Low Inductance of < 10nH for RHXH1 and RHXH2,
<50nH for RHXH3
applicationS
• Power Inverters
• Engine Sensors
• Power Supplies
• Temperature Sensors
product
Summary
RESISTANCE RANGE (Ω) 3
POWER RATING (W)
PRODUCT SERIES
(RHX)
THERMAL
RESISTANCE
MIN
MAX
HEATSINK 1
FREE AIR 2
TOLERANCES
1ꢀ ( R≥0.1Ω )
RHXH1
RHXH2
RHXH3
0.02
51K
35
1
1
3
3.3ºC/W
5ꢀ
1ꢀ ( R≥0.1Ω )
0.02
0.02
51K
51K
50
2.3°C/W
1.3°C/W
5ꢀ
1ꢀ ( R≥0.10Ω )
100
5ꢀ
1 Power Rating based on 25ºC Flange Temperature
2 Power Rating based on 25ºC Ambient Temperature
3 Contact Factory for Higher or Lower Values
a
Vailable
Special Testing Requirements
o
ptionS (Consult Factory)
TEMPERATURE COEFFICIENTS:
•
50ppm/°C ( R≥10Ω )
100ppm/°C ( 0.1Ω ≤ R < 10Ω )
250ppm/°C ( R < 0.1Ω )
How to
order
H2
RHX
Q
038K0
F
4
RESISTOR HIGH POWER PACKAGE CODE TEMPERATURE COEFFICIENT
RESISTANCE
TOLERANCE
PACKING
LOW INDUCTANCE
OF RESISTANCE (TCR)
H1, 35W, TO-220
H2, 50W, TO-220
H3, 100W, TO-247
Q = 50ppm/°C
N = 100ppm/ºC
K = 250ppm/ºC
0R038 = 0.038Ω
003K8 = 3.8KΩ
F = 1.0% (R ≥ 0.1Ω)
J = 5.0%
4 = Tube
038K0 = 38.0KΩ
380K0 = 380.0KΩ
003M8 = 3.8MΩ
Letter denotes decimal place.
3
6
R = decimal., “K” 10 , “M” 10
Remaining 4 digits are
significant or placeholders.
Tin/Lead coated leads, add "- Pb" on part number.
Standard Termination Finish: Matte Tin (Sn)
Example P/N: RHXH2Q038K0F4 is Resistor High Power Low Inductance, 50W TO-220, 50ppm/ºC, 38.0KΩ, 1.0ꢀ, tube
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enVironmental
cHaracteriSticS
Electrical Characteristics
RHXH1 & RHXH2 Values
RHXH3 Value
Maxiumum Current
25A
-
Inductance
<10nH ( At the Standoff )
>1000 Megohm
2000 VAC
-
Insulation Resistance
Dielectric Strength
Temperature Range
>1000 Megohm
2500 VAC
-55°C to +155°C
-55°C to +155°C
Maximum Working Volt-
age
(500V MAX) 700 V or
, whichever is less
Power Derating Curve
120
100
80
60
40
20
0
-25
0
25
50
75
100
125
150
175
Backplate Temperature (°C)
RHXH1 & RHXH2 POWER RATING NOTES:
RHXH3 POWER RATING NOTES:
H1 and H2 High Power Low Inductance Resistors must
be attached to a suitable heatsink. Without a heatsink,
the maximum power rating is 1W.
H3 High Power Low Inductance Resistors must be
attached to a suitable heatsink.
The maximum internal resistor temperature is 155°C.
The maximum internal resistor temperature is 155°C.
Use the following formula to specify appropriate
heatsink:
Use the following formula to specify an appropriate
heatsink:
Where:
R
R
T
= Thermal Resistance of Heatsink ( °C/W )
= Thermal Resistance of Resistor ( °C/W )
= Maximum Temperature of Resistor ( °C )
qH
qR
MAX
T = Ambient Temperature of Heatsink ( °C )
A
P = Power Through Resistor ( W )
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InducTance
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cHaracteriSticS
RHXH1 & RHXH2
MOUNTING NOTES:
H1 and H2 High Power Low Inductance Resistors
must
be attached to a suitable heatsink.
Use thermal grease to mount resistor to a clean, flat
surface.
Use a compression washer to provide 150 to 300
pounds ( 665 to 1330N ) of mounting force.
Torque mounting screw to 8 in-lbs ( 0.9 N-m ).
Mounting tab is isolated from both pins.
RHXH3
MOUNTING NOTES:
H3 High Power Low Inductance Resistors must be
attached to a suitable heatsink.
Use thermal grease to mount resistor to a clean,
flat surface.
Use a compression washer to provide 150 to
300 pounds ( 665 to 1330N ) of mounting force.
Torque mounting screw to 8 in-lbs ( 0.9 N-m ).
Back plate is isolated from both pins.
enVironmental
cHaracteriSticS
DR
Environmental Performance
RHXH1
RHXH2
RHXH3
Test Conditions
Humidity Resistance
Load Life
1ꢀ + 0.05Ω
1ꢀ + 0.05Ω
40°C, 90-95ꢀ RH, DC 0.1W, 1000 hr
25°C, 90 min ON, 30 min OFF, 1000 hr
-55°C for 30 min, +155°C for 30 min, 1000
hr
Temperature Cycle
0.25ꢀ + 0.05Ω
Vibration
0.25ꢀ + 0.05Ω
0.1ꢀ + 0.05Ω
IEC60068-2-6
+350°C, 3s
Solder Heat
Moisture Sensitivity Level: MSL-1
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energy
capability
This datasheet is subject to change without notice.
53
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TemPeraTure
rKs serIes
key
FeatureS
• Resistances from 10M to 1TOhms
• Resistance Tolerances to 0.25%
• Power Rating 0.05 to 2 Watts
• Non-Magnetic
• TCR’s to 25ppm/ꢀC
• Special High Temperature Version to 300ꢀC
• High Value Thick Film Resistance Element
• Available in sizes 0420, 0603, 0805, 1206, 1210, 2512, 4020
applicationS
• Engine Sensors
• Data Recorders
• Surge Protection
• Temperature Sensors
product
Summary
WORKING VOLTAGE (VAC)
PRODUCT SERIES
(RKS)
POWER RATING
(W) 1
TEMPERATURE
RANGE 2
TRIMMED
SIZE
UNTRIMMED (> 5%)
60
RKS07
RKS14
RKS15
RKS18
RKS41
RKS20
RKS21
0402
0.050
0.1
30
0603
0805
1206
1210
2512
4020
75
150
200
- 55°C to + 155°C
(Standard Version)
0.125
0.25
0.35
1.00
2.00
100
200
400
- 55°C to + 300°C
(High Temperature Version
TCR valid + 25°C to + 125°C )
300
600
1500
4000
2000
6000
1 Solder Pads must have sufficient heat conduction
2 See Power Derating Curve
Power Derating Curve
120
100
80
60
40
20
0
TEMPERATURE COEFFICIENT: 25ppm/ºC to 3000ppm/ºC
TOLERANCE RANGE: 0.25ꢀ to 30ꢀ
a
Vailable
Special Testing Requirements
o
ptionS (Consult Factory)
•
0
50
100
150
200
250
300
350
Ambient Temperature (°C)
How to
order
21
RKS
W
N
038M0
K
E
RESISTOR
THICK FILM
PACKAGE
CODE
OPERATING
TEMPERATURE
TEMPERATURE
COEFFICIENT OF
RESISTANCE (TCR)
RESISTANCE
TOLERANCE PACKING
07 = 0402
14 = 0603
15 = 0805
18 = 1206
41 = 1210
20 = 2512
21 = 4020
S = -55ºC to + 155ºC
W = -55ºC to + 300ºC
T = 25ppm/ºC
Q = 50ppm/°C
N = 100ppm/ºC
K = 250ppm/ºC
J = 500ppm/ºC
H = 1000ppm/ºC
G = 2000ppm/ºC
F = 3000ppm/ºC
038M0= 38.0MΩ
380M0 = 380MΩ
00368 = 3.86Ω
03860 = 386Ω
001T0 = 1.0TΩ
C = 0.25% E = Embossed
D = 0.50%
F = 1.0%
G = 2.0%
J = 5.0%
Tape & Reel
K = 10.0%
M = 20.0%
N = 30.0%
Letter denotes decimal place.
6
9
12
“M” 10 , “G” 10 , “T” 10
Remaining 4 digits are significant or placeholders.
Silver Termination Finish: Plat/Silver
Example P/N: RKS21WN038M0KE is Resistor Thick Film, size 4020, -55ºC to + 300ºC, 100ppm/ºC, 38.0MΩ, 10.0ꢀ, embossed tape &
reel
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rKs serIes
electrical
cHaracteriSticS
Tolerances Available ( % )
Temperature Coefficients Available ( ppm/°C ) 2
Voltage Coefficients Available ( ppm / V ) 2
Resistance Ranges ( W )
Package
Size
10M - 100M
>100M - 500M
>500M - 1G
>1G - 10G
>10G - 100G
>100G - 1T
5 to 20ꢀ
50, 100
500ppm/V
5ꢀ to 20ꢀ
100, 250
1000ppm/V
5ꢀ to 20ꢀ
250, 500
1000ppm/V
10ꢀ to 30ꢀ
1000, 2000
2000ppm/V
10ꢀ to 30ꢀ
2000, 3000
5000ppm/V
Contact Factory
0402
0603
0805
1206
1210
2512 1
1 to 20ꢀ
50, 100
500ppm/V
2ꢀ to 20ꢀ
100, 250
500ppm/V
5ꢀ to 20ꢀ
250, 500
1000ppm/V
5ꢀ to 30ꢀ
500, 1000
2000ppm/V
10ꢀ to 30ꢀ
2000, 3000
5000ppm/V
Contact Factory
0.5 to 20ꢀ
50, 100
500ppm/V
2ꢀ to 20ꢀ
100, 250
500ppm/V
5ꢀ to 20ꢀ
250, 500
500ppm/V
5ꢀ to 20ꢀ
500, 1000
1000ppm/V
10ꢀ to 30ꢀ
1000, 2000
3000ppm/V
-
-
0.5ꢀ to 20ꢀ
25, 50, 100
250ppm/V
2ꢀ to 20ꢀ
50, 100, 250
500ppm/V
5ꢀ to 20ꢀ
100, 250
500ppm/V
5ꢀ to 20ꢀ
500, 1000
500ppm/V
10ꢀ to 30ꢀ
1000, 2000
1000ppm/V
0.5ꢀ to 20ꢀ
25, 50, 100
25ppm/V
2ꢀ to 20ꢀ
50, 100, 250
250ppm/V
5ꢀ to 20ꢀ
100, 250
250ppm/V
5ꢀ to 20ꢀ
250, 500
250ppm/V
5ꢀ to 20ꢀ
500, 1000
500ppm/V
10ꢀ to 30ꢀ
1000, 2000
2000ppm/V
0.5ꢀ to 20ꢀ
25, 50, 100
25ppm/V
1ꢀ to 20ꢀ
25, 50, 100
50ppm/V
1ꢀ to 20ꢀ
100, 250
50ppm/V
2ꢀ to 20ꢀ
100, 250
100ppm/V
5ꢀ to 20ꢀ
250, 500
250ppm/V
10ꢀ to 30ꢀ
500, 1000
1000ppm/V
0.25ꢀ to
10ꢀ
25, 50, 100
10ppm/V
0.5ꢀ to 20ꢀ
25, 50, 100
25ppm/V
1ꢀ to 20ꢀ
25, 50, 100
25ppm/V
2ꢀ to 20ꢀ
50, 100
50ppm/V
5ꢀ to 30ꢀ
100, 250
100ppm/V
10ꢀ to 30ꢀ
500, 1000
500ppm/V
4020 1
1 TCR in ppm/K; +25°C to +125°C; TCR below standard TCR (highest value) and values >100G; +25°C to +85°C
2 VCR: typical values, all negative, not for all TCR values available
enVironmental
cHaracteriSticS
Specification
Value
Solderability
250°C, 3s
260°C, 10s
55 / 155 / 56
Max Soldering Temperature
Climatic Category
Max DR
1 G W - 10 G W
<2ꢀ
Long Term Stability
<1 G W
<1ꢀ
>10 G W
Storage 125°C, 1000h
Load Life 70°C, 1000h
Maximum Voltage, 1000h
<5ꢀ
<2ꢀ
<2ꢀ
<0.5ꢀ
<0.5ꢀ
<1ꢀ
<1ꢀ
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Dimensions
L (Length)
Inches [mm]
W (Width)
Inches [mm]
T (Thickness)
Inches [mm]
EB (End Band)
Inches [mm]
Package Size
0.004 +0.004 /
-0.002
[ 0.1 +0.10 / -0.05 ꢂ
0.037 0.002
[ 0.95 0.05 ꢂ
0.018 0.002
[ 0.48 0.10 / -0.05 ꢂ
0.012 0.002
[ 0.3 0.05 ꢂ
0402
0.008 +0.008 /
-0.004
[ 0.2 +0.2 / -0.1 ꢂ
0.060 +0.006 / -0.002
[ 1.5 +0.15 / -0.05 ꢂ
0.030 +0.008 / -0.002
[ 0.8 +0.15 / -0.05 ꢂ
0.016 +0.006 / -0.002
[ 0.4 +0.15 / -0.05 ꢂ
0603
0805
0.012 +0.008 /
-0.004
[ 0.3 +0.2 / -0.1 ꢂ
0.080 +0.006 / -0.002
[ 2.0 +0.15 / -0.05 ꢂ
0.050 +0.006 / -0.002
[ 1.25 +0.15 / -0.05 ꢂ
0.016 +0.006 / -0.002
[ 0.4 +0.15 / -0.05 ꢂ
0.012 +0.008 /
-0.004
[ 0.3 +0.2 / -0.1 ꢂ
0.126 +0.006 / -0.002
[ 3.2 +0.15 / -0.05 ꢂ
0.060 +0.008 / -0.002
[ 1.5 +0.2 / -0.05 ꢂ
0.016 +0.006 / -0.002
[ 0.4 +0.15 / -0.05 ꢂ
1206
1210
2512
4020
0.126 +0.006 / -0.002
[ 3.2 +0.15 / -0.05 ꢂ
0.098 +0.008 / -0.002
[ 2.5 +0.2 / -0.05 ꢂ
0.020 +0.006 / -0.002
[ 0.5 +0.15 / -0.05 ꢂ
0.032 0.008
[ 0.8 0.2 ꢂ
0.250 +0.006 / -0.002
[ 6.3 +0.15 / -0.05 ꢂ
0.138 +0.008 / -0.002
[ 3.5 +0.2 / -0.05 ꢂ
0.024 +0.006 / -0.002
[ 0.6 +0.15 / -0.05 ꢂ
0.035 0.008
[ 0.9 0.2 ꢂ
0.400 +0.006 / -0.002
[ 10.2 +0.15 / -0.05 ꢂ
0.200 +0.008 / -0.002
[ 5.1 +0.2 / -0.05 ꢂ
0.024 +0.006 / -0.002
[ 0.6 +0.15 / -0.05 ꢂ
0.035 0.008
[ 0.9 0.2 ꢂ
p
ackaging
i
nFormation
Bulk or Blistertape to IEC 60286-3
Tape width 8mm / Reel Diameter 180 or 330mm
Minimum quantity Bulk / 100 pieces per value (30 pieces per value for sizes 4020 and 2512)
Minimum quantity Tape & Reel / 500 pieces per value
(Note: Except size 0402 / 1000 pieces per value)
Moisture Sensitivity Level: MSL-1
This datasheet is subject to change without notice.
56
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rmc serIes
key
FeatureS
• Resistances from 0.005 to 0.100 Ohms
• Low Inductance (<10nH)
• Tolerances to 1%
• Resistance Wire TCR: 20ppm/ꢀC
• For Current Sensing and Shunt Applications
• All Welded Construction
• Economical Bare Metal Element
applicationS
• Base Station
• Current Sensing
• Power Inverters
• Lightning Pulse Survival
product
Summary
PRODUCT SERIES
(RMC)
POWER RATING @ 85ꢀC
(W)
1
RESISTANCE (Ω)
TOLERANCES
J1
J2
J3
1
3
5
0.005, 0.01, 0.02, 0.025, 0.03, 0.04, 0.05, 0.1
1ꢀ / 5ꢀ
1ꢀ / 5ꢀ
1ꢀ / 5ꢀ
0.005, 0.01, 0.015, 0.02, 0.025, 0.03, 0.04,
0.05, 0.1
0.005, 0.01, 0.015, 0.02, 0.025, 0.03, 0.05, 0.1
1 Contact Factory for other resistances
Power Derating Curve
120
100
80
60
40
20
0
a
Vailable
Special Testing Requirements
o
ptionS (Consult Factory)
•
0
50
100
150
200
250
300
350
Ambient Temperature (°C)
How to
order
J2
RMC
U
0R005
F
S
RESISTOR METAL
ELEMENT CURRENT CODE, WATTS
SENSE
PACKAGE
TEMPERATURE COEFFICIENT
OF RESISTANCE (TCR)
RESISTANCE
TOLERANCE PACKING
J1, 1.0W
J2, 3.0W
J3, 5.0W
U = 20ppm/ºC
0R005 = 0.005Ω (5mΩ)
0R025 = 0.025Ω (25mΩ)
00R05 = 0.05Ω (50mΩ)
000R1 = 0.1Ω (100mΩ)
F = 1.0%
J = 5.0%
S = Bulk
Letter denotes decimal place.
3
6
R = decimal., “K” 10 , “M” 10
Remaining 4 digits are significant or placeholders.
For Tin/Lead coated leads, add "- Pb" to part number.
Standard Termination Finish: Matte Tin (Sn)
Example P/N: RMCJ2U0R005FS is Resistor Metal Element Current Sense, 3.0W, 20ppm/ºC, 0.005Ω, 1.0ꢀ, bulk
57
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resIsTor
meTal
elemenT
currenT
sense
rmc serIes
mecHanical
cHaracteriSticS
Package Code
J1
J2
J3
0.200 [5.08ꢂ
(Tolerances) 0.100" [ 2.54mmꢂ
H
1.0 [25.40mmꢂ Max
1.0 [25.40mmꢂ Max
L (Tolerances)
+0.040 / -0.020ꢁ [+1.02 / 0.51mmꢂ
0.450 [11.43mmꢂ
0.600 [15.24mmꢂ
0.040 [1.02mmꢂ
0.065 [1.65mmꢂ
0.125 [3.18mmꢂ
0.800 [20.32mmꢂ
0.040 [1.02mmꢂ
0.065 [1.65mmꢂ
0.125 [3.18mmꢂ
D (Tolerances)
0.002ꢁ [ 0.05mmꢂ
Dimensions
Inches [mm]
0.040 [1.02mmꢂ
0.065 [1.65mmꢂ
0.125 [3.18mmꢂ
W (Tolerances)
+0.010 / -0.005 [+0.25 / -0.13mmꢂ
A (Tolerances)
0.030ꢁ [ 0.8mmꢂ
packaging
inFormation
Package Code
J1
J2
J3
Standard Package Quantities
250 (Bulk Only)
Moisture Sensitivity Level: MSL-1
This datasheet is subject to change without notice.
58
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resIsTor
Power
ThIn
fIlm
rhf serIes
key
FeatureS
• Resistances from 0.01 Ohm to 51K Ohms
• Low Stability to 1%
• Resistance Tolerances to 1%
• TCR to 50ppm/ꢀC
• Power Rating to 35 Watt
• Solder Reflow Secure at 260ꢀC / 20s
• TO-263 Housing (D-Pak)
• Isolated Back Plate
applicationS
• Power Inverters
• Braking Systems
• Lighting (LED)
• Power Supplies
product
range
Summary
OPERTING
TEMPERATURE
RANGE
1
RESISTANCE
RANGE (Ω)
POWER RATING
(with heatsink)
TEMPERATURE
COEFFICIENT
TOLERANCE
2
RANGE
0.01 to 0.099 Ω
0.1 to 9.9 Ω
± 250 ppm/ºC
± 100 ppm/ºC
± 50 ppm/ºC
± 5%
35 W
± 1% / ± 5%
± 1%
-55ºC to+155ºC
10 to 51K Ω
1
2
2W on simple solder pad
Consult factory for other tolerances not listed
How
to
order
Q
RHF
H4
038K0
F
E
RESISTOR
POWER THIN FILM
PACKAGE CODE
WATTS
TEMPERATURE
COEFFICIENT OF
RESISTANCE (TCR)
RESISTANCE
TOLERANCE
PACKING
RHF
H4, 35W, TO-263
Q = 50 ppm/ºC
N = 100 ppm/ºC
F = 1.0%
J = 5.0%
E = Embossed Tape & Reel
0R038 = 0.038
003K8 = 3.8KΩ
038K0 = 38.0KΩ
Ω
K = 250 ppm/ºC
For Tin/Lead coated leads, add “-Pb” to part numbers.
Standard Termination Finish: Matte Tin (Sn)
Example P/N: RHFH4Q038K0FE is Resistor Power Thin, 35W, 50ppm/ºC, 38.0KΩ, 1.0%, embossed tape & reel
59
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resIsTor
Power
ThIn
fIlm
rhf serIes
mecHanical
cHaracteriSticS
Dimensions
F
Units
A
B
C
D
E
G
H
J
K
L
mm
10.3
0.2
10.1
0.2
15.3
1.0
5.08
0.1
1.5
0.75
2.2
4.5
0.5
2.5
5.0
tol. ( mm)
inches
0.05
0.060
0.002
0.05
0.2
0.2
0.05
0.020
0.002
0.5
1.0
0.405
0.008
0.400
0.008
4.54
0.04
0.200
0.004
0.030
0.002
0.087
0.008
0.177
0.008
0.10
0.02
0.20
0.04
tol. ( inches)
SpeciFicationS
Specifications
Resistor Material
Terminals
Values
Thin Film
2
Power Rating (with heatsink)
Inductance
35 W ( 2W on Simple Solder Pad )
8.4 nH
Resistance Range
0.01 to 0.099Ω
250 ppm/°C
5%
0.1 to 9.9Ω
100 ppm/°C
1% / 5%
-55°C to 155°C
3.3 K/W
10 to 51KΩ
50 ppm/°C
1%
Temperature Coefficient
Tolerances (contact factory for other values)
Operating Temperature
Thermal Resistance Rthj-c
Max Operating Voltage
500V
Voltage Proof
2.0kV DC
Insulation Resistance
Over 1,000 MΩ
Load Life
1%
1%
90 min ON, 30 min OFF, 1000 hrs @ 25ºC
90-95% RH, 0.1W, 1000 hrs @ 40ºC
-55ºC for 30 min, +155ºC for 30 min, 5 cycles
350ºC 5C for 3 seconds
Humidity
Temperature Cycle
Solder Heat
Vibration
0.25%
0.1%
0.25%
IEC60068-2-6
Reflow soldering
Lead-free soldering 260°C / 20s
Moisture Sensitivity Level: MSL-1
60
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resIsTor
Power
ThIn
fIlm
rhf serIes
POWER RATING NOTES:
RHF Resistors must be attached to a suitable heatsink.
The maximum internal resistor temperature is 175°C.
Use the following formula to specify appropriate heatsink:
Power Derating Curve
120
100
80
60
40
20
0
Where:
RqH = Thermal Resistance of Heatsink ( K/W )
RqR = Thermal Resistance of Resistor ( K/W )
TMAX = Maximum Temperature of Resistor ( °C )
TA = Ambient Temperature of Heatsink ( °C )
P = Power Through Resistor ( W )
25
50
85 100 115 130 145 155
Temperature of the Backplate (°C)
Load life test will be necessary in actual equipment
This datasheet is subject to change without notice.
61
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P
ower InducTors, semI-shIelded (coaTed
)
lPc serIes
The Semi-shielded Power Inductor LPC Series are low profile
and high current power inductors. Several dimensions are
offered.
key
FeatureS
• High Current Performance
• Small and Low Profile Inductors
• Magnetic shielding
• Available for automatic mounting in tape and reel package
applicationS
• DC/DC Converter
• Power Supplies
• Industrial
• Data Storage Devices
• Consumer Electronics
product
range
Summary
OPERTING1
TEMPERTURE
RANGE
RATED CURRENT RATED CURRENT
DC
SIZE INDUCTANCE
RANGE
RANGE
RESISTANCE
RANGE
CODE
RANGE
BASED ON
BASED ON
INDUCTANCE CHANGE
TEMPERATURE RISE
2410
3010
3012
3015
4018
4025
5040
6045
0.68 - 22.0 μH
1.00 - 100.0 μH
1.00 - 47.0 μH
1.00 - 100.0 μH
0.82 - 220.0 μH
1.00 - 220.0 μH
1.50 - 47.0 μH
1.00 - 220.0 μH
0.40 - 2.60 A
0.15 - 2.30 A
0.23 - 1.90 A
0.25 - 2.30 A
0.30 - 4.70 A
0.20 - 3.00 A
1.10 - 6.00 A
0.55 - 8.60 A
0.40 - 2.50 A
0.18 - 2.30 A
0.35 - 1.71 A
0.30 - 2.30 A
0.28 - 4.00 A
0.20 - 3.00 A
0.90 - 3.60 A
0.50 - 6.50 A
60 mΩ - 1470 mΩ -25ºC to +120ºC
50 mΩ - 5.00 Ω
45 mΩ - 1250 mΩ
28 mΩ - 2100 mΩ
16 mΩ - 2960 mΩ -40ºC to +125ºC
12 mΩ - 2300 mΩ
15 mΩ - 270 mΩ
10 mΩ - 920 mΩ
1
Consult Factory for values not listed in the product range
Including self-generated heat
Electrical Schematic: No Polarity
TEST FREQUENCY: 100KHz, 1V
STORAGE TEMPERATURE: -10ºC to +40ºC, humidity 30 to 70% R.H.
MOISTURE SENSITIVITY LEVEL: MSL - 1
How to
order
LPC
3015
2R2
M
E
INDUCTOR
SIZE CODE
INDUCTANCE
TOLERANCE
PACKING
POWER SEMI-SHIELDED
LPC
(Coated)
2410
3010
3012
3015
4018
4025
5040
6045
M = 20%
N = 30%
E = Embossed Tape & Reel
R68 = 0.68 μH
2R2 = 2.2 μH
220 = 22 μH
221 = 220 μH
See chart
Standard Termination Finish: Matte Tin(Sn)
Example P/N: LPC30152R2ME is semi-shielded power inductor 2.2 μH, 3015 size, 20%, embossed tape & reel
62
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Power InducTors, semI-shIelded (coaTed)
lPc serIes
2410 Size
Units Inches
mm
2.40
0.10
2.40
0.10
Not marked
Part
Material
0.094
1
2
3
Ferrite Core
Copper Wire
Termination
Adhesive
Ni-Zn Ferrite
Cu / P180 Grd 1
Ag / Ni / Sn
L
0.004
0.094
0.004
W
Silicon Base Resin
T
4
0.039
1.00
Magnetic Powder Ni-Zn Ferrite
See page 68 for footprint
max
*1
*2
Part
Number
Inductance
@ 100KHz, 1V
Rated Current Based
Rated Current Based
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
on Inductance Change
LPC2410R68NE
LPC24101R0NE
LPC24101R5ME
LPC24102R2ME
LPC24103R3ME
LPC24104R7ME
LPC24106R8ME
LPC2410100ME
LPC2410150ME
LPC2410220ME
60 mΩ
0.68 μH, ±±30
1.0 μH, ±±30
1.5 μH, ±230
2.2 μH, ±230
±.± μH, ±230
4.7 μH, 20%
6.8 μH, 20%
13.3 μH, 20%
15.3 μH, 20%
22.3 μH, 20%
2.63 A
2.33 A
1.53 A
1.±3 A
1.35 A
3.92 A
2.53 A
±±30
±±30
±230
±230
±230
±230
±230
±230
±230
±230
70 mΩ
1.93 A
110 mΩ
140 mΩ
220 mΩ
290 mΩ
410 mΩ
690 mΩ
1020 mΩ
1470 mΩ
1.53 A
1.23 A
1.33 A
3.93 A
0.75
0.60
0.50
0.40
A
A
A
A
3.65 A
0.55
0.45
0.40
A
A
A
3010 Size
Units Inches
Not marked
mm
3.00
0.10
3.00
0.10
Part
Ferrite Core
Material
0.118
1
Ni-Zn Ferrite
L
0.004
2
3
Copper Wire
Termination
Adhesive
Cu / P180 Grd 1
Ag / Ni / Sn
0.118
0.004
W
Silicon Base Resin
T
4
0.039
1.00
Magnetic Powder Ni-Zn Ferrite
See page 68 for footprint
max
*1
*2
Part
Inductance
Rated Current Based
Rated Current Based
DC
DC Resistance
Tolerance
Number
@ 100KHz, 1V
on Inductance Change
on Temperature Rise
Resistance
50 mΩ
62 mΩ
LPC30101R0NE
LPC30101R2NE
LPC30101R5NE
LPC30102R2ME
LPC30103R3ME
LPC30104R7ME
LPC30106R8ME
LPC3010100ME
LPC3010150ME
LPC3010220ME
LPC3010330ME
LPC3010470ME
LPC3010101ME
±
±
±
25%
30%
30%
1.0 μH, ±±30
1.2 μH, ±±30
1.5 μH, ±±30
2.2 μH, ±230
3.3 μH, ±230
4.7 μH, 20%
6.8 μH, 20%
10.0 μH, 20%
15.0 μH, 20%
22.0 μH, 20%
33.0 μH, 20%
47.0 μH, 20%
100.0 μH, 20%
2.±3 A
1.93 A
1.65 A
1.±3 A
1.35 A
3.85 A
2.±3 A
2.13 A
70 mΩ
2.33 A
80 mΩ
±
±
±
±
±
±
±
±
±
±
20%
20%
20%
20%
20%
20%
20%
20%
20%
20%
1.93 A
130 mΩ
175 mΩ
260 mΩ
350 mΩ
510 mΩ
780 mΩ
1.10 Ω
1.83 A
1.73 A
0.70
0.60
0.50
0.40
0.32
0.28
0.15
A
A
A
A
A
A
A
1.±3 A
0.90
0.80
0.70
0.50
0.35
0.18
A
A
A
A
A
A
1.60 Ω
5.00 Ω
*1. Idc1: Based on inductance change (ΔL/Lo: ≤ -30%)
*2. Idc2: Based on temperature rise (ΔT: 40ºC TYP.)
Notes: Inductance is measured in HP-4285A Precision LCR Meter.
RDC measured in DU-5011 milli ohm meter (or equivalent).
63
Power InducTors, semI-shIelded (coaTed)
lPc serIes
3012 Size
Units
Inches
0.118
0.004
mm
3.00
0.10
3.00
0.10
Part
Material
Not marked
1
2
3
Ferrite Core
Copper Wire
Terminals
Ni-Zn Ferrite
Cu / P180 Grd 1
Ag / Ni / Sn
L
0.118
0.004
W
Adhesive
Silicon Base Resin
T
4
0.047
1.20
Magnetic Powder Ni-Zn Ferrite
See page 68 for footprint
max
*1
*2
Inductance
@ 100KHz, 1V
Rated Current Based
Rated Current Based
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
Part Number
on Inductance Change
LPC30121R0NE
LPC30121R5NE
LPC30122R2ME
LPC30122R7ME
LPC30123R3ME
LPC30124R7ME
LPC30126R8ME
LPC3012100ME
LPC3012150ME
LPC3012220ME
LPC3012330ME
LPC3012470ME
45 mΩ
55 mΩ
1.0 μH, ±±30
1.5 μH, ±±30
2.2 μH, ±230
2.7 μH, ±230
3.3 μH, ±230
4.7 μH, ±230
6.8 μH, ±230
10.0 μH, ±230
15.0 μH, ±230
22.0 μH, ±230
33.0 μH, ±230
47.0 μH, ±230
1.93 A
1.71 A
1.63 A
1.±7 A
1.±3 A
1.21 A
1.36 A
3.89 A
3.72 A
3.57 A
3.53 A
±230
±230
±230
±230
±230
±230
±230
±230
±230
±230
±230
±230
1.53 A
60 mΩ
1.25 A
90 mΩ
1.23 A
90 mΩ
1.35 A
150 mΩ
190 mΩ
270 mΩ
450 mΩ
550 mΩ
900 mΩ
1250 mΩ
3.93 A
3.73 A
3.63 A
3.53 A
3.43 A
0.30
0.23
A
A
0.41
0.35
A
A
3015 Size
Part
Material
Units Inches
mm
Not marked
1
2
3
Ferrite Core
Copper Wire
Termination
Adhesive
Ni-Zn Ferrite
3.00
0.10
3.00
0.10
0.118
L
0.004
Cu / P180 Grd 1
Ag / Ni / Sn
0.118
0.004
W
Silicon Base Resin
4
T
0.059
1.50
Magnetic Powder Ni-Zn Ferrite
See page 68 for footprint
max
*2
*1
Inductance
@ 100KHz, 1V
Rated Current Based
on Inductance Change
Rated Current Based
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
Part Number
LPC30151R0NE
LPC30151R5NE
LPC30152R2ME
LPC30152R7ME
LPC30153R3ME
LPC30154R7ME
LPC30155R6ME
LPC30156R8ME
LPC3015100ME
LPC3015150ME
28 mΩ
37 mΩ
1.0 μH, ±±30
1.5 μH, ±±30
2.2 μH, ±230
2.7 μH, ±230
3.3 μH, ±230
4.7 μH, ±230
5.6 μH, ±230
6.8 μH, ±230
10.0 μH, ±230
15.0 μH, ±230
2.±3 A
2.13 A
1.62 A
1.53 A
1.±5 A
1.23 A
1.33 A
3.97 A
3.83 A
3.65 A
2.±3 A
2.13 A
2.33 A
1.95 A
1.83 A
1.63 A
1.43 A
1.±3 A
1.13 A
1.33 A
±±30
±±30
±230
±230
±230
±230
±230
±230
±230
±230
58 mΩ
60 mΩ
75 mΩ
100 mΩ
120 mΩ
150 mΩ
220 mΩ
300 mΩ
*1. Idc1: Based on inductance change (ΔL/Lo: ≤ -30%)
*2. Idc2: Based on temperature rise (ΔT: 40ºC TYP.)
Notes: Inductance is measured in HP-4285A Precision LCR Meter.
RDC measured in DU-5011 milli ohm meter (or equivalent).
64
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P
ower InducTors, semI-shIelded (coaTed
)
lPc serIes
3015 Size (continued
)
*2
*1
Inductance
Rated Current Based
Rated Current Based
on Temperature Rise
DC
DC Resistance
Tolerance
Part Number
LPC3015180ME
LPC3015220ME
LPC3015330ME
LPC3015390ME
LPC3015470ME
LPC3015680ME
LPC3015820ME
LPC3015101ME
@ 100KHz, 1V
18.0 μH, ±230
22.0 μH, ±230
33.0 μH, ±230
39.0 μH, ±230
47.0 μH, ±230
68.0 μH, ±230
82.0 μH, ±230
100.0 μH, ±230
on Inductance Change
Resistance
410 mΩ
475 mΩ
650 mΩ
850 mΩ
1100 mΩ
1700 mΩ
1900 mΩ
2100 mΩ
3.57 A
3.93 A
3.83 A
3.73 A
3.53 A
3.45 A
3.±5 A
3.±2 A
3.±3 A
±230
±230
±230
±230
±230
±230
±230
±230
3.55 A
3.45 A
3.43 A
3.±5 A
3.±3 A
3.27 A
3.25 A
4018 Size
Units
Inches
mm
Part
Material
Marked
4.00
0.20
4.00
0.20
1
2
3
Ferrite Core Ni-Zn Ferrite
0.157
0.008
L
Copper
Cu / P180 Grd 1
Wire
0.157
0.008
W
Termination Ag / Ni / Sn
Adhesive
Silicon Base Resin
(R82-2R7) 0.074
(3R3-221) 0.071
1.88
1.80
T
4
Magnetic
Powder
Ni-Zn Ferrite
max
See page 68 for footprint
*2
*1
Inductance
Rated Current Based
Rated Current Based
on Temperature Rise
DC
Resistance
DC Resistance
Part Number
LPC4018R82NE
LPC40181R0NE
LPC40181R2NE
LPC40181R5NE
@ 100KHz, 1V on Inductance Change
Tolerance
±±30
±±30
±±30
±±30
±230
±230
±230
±230
±230
±230
±230
±230
±230
±230
±230
±230
±230
±230
Marking
R82
1R3
1R2
1R5
2R2
2R7
±R±
4R7
6R8
100
16 mΩ
0.82 μH, ±±30
1.0 μH, ±±30
1.2 μH, ±±30
1.5 μH, ±±30
2.2 μH, ±230
2.7 μH, ±230
3.3 μH, ±230
4.7 μH, ±230
6.8 μH, ±230
10.0 μH, ±230
15.0 μH, ±230
22.0 μH, ±230
33.0 μH, ±230
47.0 μH, ±230
68.0 μH, ±230
100.0 μH, ±230
150.0 μH, ±230
220.0 μH, ±230
4.23 A
4.73 A
4.33 A
±.53 A
±.33 A
2.43 A
2.±3 A
2.33 A
1.63 A
4.33 A
±.73 A
±.53 A
±.13 A
2.93 A
2.±3 A
2.23 A
1.93 A
1.53 A
19 mΩ
21 mΩ
27 mΩ
LPC40182R2ME
LPC40182R7ME
LPC40183R3ME
LPC40184R7ME
LPC40186R8ME
LPC4018100ME
LPC4018150ME
LPC4018220ME
LPC4018330ME
LPC4018470ME
LPC4018680ME
LPC4018101ME
LPC4018151ME
LPC4018121ME
37 mΩ
43 mΩ
55 mΩ
70 mΩ
98 mΩ
150 mΩ
220 mΩ
290 mΩ
460 mΩ
650 mΩ
940 mΩ
1330 mΩ
2000 mΩ
2960 mΩ
1.40
1.10
0.95
0.75
0.62
0.50
0.45
0.35
0.30
A
A
A
A
A
A
A
A
A
1.30
1.00
0.90
0.70
0.60
0.50
0.42
0.32
0.28
A
A
A
A
A
A
A
A
A
150
220
330
470
680
101
151
221
*1. Idc1: Based on inductance change (ΔL/Lo: ≤ -30%)
*2. Idc2: Based on temperature rise (ΔT: 40ºC TYP.)
Notes: Inductance is measured in HP-4285A Precision LCR Meter.
RDC measured in DU-5011 milli ohm meter (or equivalent).
65
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P
ower InducTors, semI-shIelded (coaTed
)
lPc serIes
4025 Size
Marked
Units Inches
mm
4.00
0.20
4.00
0.20
Part
Material
1
2
3
Ferrite Core
Copper Wire
Terminals
Adhesive
Ni-Zn Ferrite
Cu / P180 Grd 1
Ag / Ni / Sn
0.157
L
0.008
0.157
0.008
W
Silicon Base Resin
4
T
0.098
2.50
Magnetic Powder Ni-Zn Ferrite
See page 68 for footprint
max
*1
*2
Inductance
Rated Current Based
Rated Current Based
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
Part Number
@ 100KHz, 1V on Inductance Change
Marking
1R3
1R2
2R2
±R±
4R7
6R8
133
153
223
330
LPC40251R0NE
LPC40251R2NE
LPC40252R2NE
LPC40253R3ME
LPC40254R7ME
LPC40256R8ME
LPC4025100ME
LPC4025150ME
LPC4025220ME
LPC4025330ME
LPC4025470ME
LPC4025680ME
LPC4025101ME
LPC4025151ME
LPC4025221ME
12 mΩ
18 mΩ
1.0 μH, ±±30
1.2 μH, ±±30
2.2 μH, ±±30
3.3 μH, ±230
4.7 μH, ±230
6.8 μH, ±230
10.0 μH, ±230
15.0 μH, ±230
22.0 μH, ±230
33.0 μH, ±230
47.0 μH, ±230
68.0 μH, ±230
100.0 μH, ±230
150.0 μH, ±230
220.0 μH, ±230
±.33 A
2.75 A
2.13 A
1.63 A
1.43 A
1.23 A
3.97 A
3.77 A
3.67 A
±.33 A
2.75 A
2.13 A
1.63 A
1.43 A
1.23 A
3.97 A
3.77 A
3.67 A
±±30
±±30
±±30
±230
±230
±230
±230
±230
±230
±230
±230
±230
±230
±230
±230
22 mΩ
30 mΩ
40 mΩ
70 mΩ
85 mΩ
120 mΩ
195 mΩ
305 mΩ
495 mΩ
710 mΩ
1000 mΩ
1600 mΩ
2300 mΩ
0.50
0.40
0.35
0.30
0.22
0.20
A
A
A
A
A
A
0.50
0.40
0.35
0.30
0.22
0.20
A
A
A
A
A
A
470
680
101
151
121
5040 SerieS
Marked
Units Inches
mm
Part
Material
5.00
0.20
5.00
0.20
1
2
3
Ferrite Core
Copper Wire
Termination
Adhesive
Ni-Zn Ferrite
0.197
L
0.008
Cu / P180 Grd 1
Ag / Ni / Sn
0.197
0.008
W
Silicon Base Resin
4
T
.157
4.00
Magnetic Powder Ni-Zn Ferrite
See page 68 for footprint
max
*1
*2
Inductance
Rated Current Based
Rated Current Based
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
Part Number
LPC50401R5NE
LPC50402R2NE
LPC50403R3ME
LPC50404R7ME
LPC50406R8ME
LPC50408R2ME
LPC5040100ME
@ 100KHz, 1V on Inductance Change
Marking
1R5
15 mΩ
17 mΩ
22 mΩ
29 mΩ
49 mΩ
54 mΩ
56 mΩ
1.5 μH, ±±30
2.2 μH, ±±30
3.3 μH, ±230
4.7 μH, ±230
6.8 μH, ±230
8.2 μH, ±230
10.0 μH, ±230
6.33 A
4.63 A
±.83 A
±.±3 A
2.63 A
2.43 A
2.±3 A
±.63 A
±.53 A
±.±3 A
±.13 A
2.±3 A
2.23 A
2.13 A
±230
±230
±230
±230
±230
±230
±230
2R2
3R3
4R7
6R8
8R2
133
Notes: Inductance is measured in HP-4285A Precision LCR Meter.
RDC measured in DU-5011 milli ohm meter (or equivalent).
*1. Idc1: Based on inductance change (ΔL/Lo: ≤ -30%)
*2. Idc2: Based on temperature rise (ΔT: 40ºC TYP.)
66
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P
ower InducTors, semI-shIelded (coaTed
)
lPc serIes
5040 Size (continued
)
*1
*2
Inductance
Rated Current Based
Rated Current Based
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
Part Number
LPC5040150ME
LPC5040220ME
LPC5040270ME
LPC5040330ME
LPC5040470ME
@ 100KHz, 1V on Inductance Change
Marking
153
80 mΩ
126 mΩ
165 mΩ
180 mΩ
270 mΩ
15.0 μH, ±230
22.0 μH, ±230
27.0 μH, ±230
33.0 μH, ±230
47.0 μH, ±230
2.33 A
1.63 A
1.43 A
1.±3 A
1.13 A
1.83 A
1.43 A
1.±3 A
1.23 A
3.93 A
±230
±230
±230
±230
±230
223
273
±±3
473
6045 Size
Units Inches
mm
Part
Material
Marked
6.00
0.20
6.00
0.20
1
2
3
Ferrite Core
Copper Wire
Terminals
Ni-Zn Ferrite
0.236
L
0.008
Cu / P180 Grd 1
Ag / Ni / Sn
0.236
0.008
W
Adhesive
Silicon Base Resin
4
T
0.177
4.50
Magnetic Powder Ni-Zn Ferrite
See page 68 for footprint
max
*1
*2
Inductance
Rated Current Based
Rated Current Based
on Temperature Rise
DC
Resistance
DC Resistance
Tolerance
Part Number
LPC60451R0NE
LPC60451R3NE
LPC60451R8NE
LPC60452R2NE
LPC60453R0NE
LPC60453R3NE
LPC60454R5NE
LPC60454R7NE
LPC60455R6NE
LPC60456R3NE
LPC60456R8NE
LPC60458R2NE
LPC6045100ME
LPC6045150ME
LPC6045220ME
LPC6045330ME
LPC6045470ME
LPC6045560ME
LPC6045680ME
LPC6045101ME
LPC6045221ME
@ 100KHz, 1V on Inductance Change
Marking
1R0
1R3
1R8
2R2
3R0
3R3
4R5
4R7
5R6
6R3
6R8
8R2
10 mΩ
11mΩ
1.0 μH, ±±30
1.3 μH, ±±30
1.8 μH, ±±30
2.2 μH, ±±30
3.0 μH, ±±30
3.3 μH, ±±30
4.5 μH, ±±30
4.7 μH, ±±30
5.6 μH, ±±30
6.3 μH, ±±30
6.8 μH, ±±30
8.2 μH, ±±30
10.0 μH, ±230
15.0 μH, ±230
22.0 μH, ±230
33.0 μH, ±230
47.0 μH, ±230
56.0 μH, ±230
68.0 μH, ±230
100.0 μH, ±230
220.0 μH, ±230
8.63 A
8.33 A
7.33 A
6.13 A
5.33 A
4.53 A
4.±3 A
4.33 A
±.83 A
±.83 A
±.63 A
±.23 A
±.13 A
2.±3 A
1.93 A
1.53 A
1.±3 A
1.23 A
1.33 A
3.93 A
3.55 A
6.53 A
6.33 A
5.±3 A
5.33 A
4.83 A
4.53 A
±.83 A
±.73 A
±.63 A
±.63 A
±.53 A
±.13 A
±.33 A
2.±3 A
1.93 A
1.53 A
1.±3 A
1.23 A
1.33 A
3.93 A
3.53 A
±±30
±±30
±±30
±±30
±±30
±±30
±±30
±±30
±±30
±±30
±±30
±±30
±230
±230
±230
±230
±230
±230
±230
±230
±230
12 mΩ
13 mΩ
17 mΩ
17 mΩ
23 mΩ
23 mΩ
26 mΩ
26 mΩ
34 mΩ
41 mΩ
45 mΩ
80 mΩ
112 mΩ
170 mΩ
210 mΩ
270 mΩ
325 mΩ
460 mΩ
920 mΩ
133
153
223
±±3
473
563
683
131
221
*1. Idc1: Based on inductance change (ΔL/Lo: ≤ -30%)
*2. Idc2: Based on temperature rise (ΔT: 40ºC TYP.)
Notes: Inductance is measured in HP-4285A Precision LCR Meter.
RDC measured in DU-5011 milli ohm meter (or equivalent).
67
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Power InducTors, semI-shIelded (coaTed)
lPc serIes
e
nVironmental
perFormance
SPECIFICATION
TEST PARAMETERS
VIBRATION
ΔL/Lo : ≤ 10%
There shall be no
mechanical damage
Solder specimen inductor on the test printed circuit board. Apply vibrations in
each of the x, y and z directions for 2 house for a total of 6 hours.
Frequency : 10 to 50 Hz Amplitude : 1.5mm
SOLDERABILITY
The metalized area must
have 90% minimum
solder coverage.
Dip pads in flux and dip in solder pot (NP303) at 240ºC 5ºC
HIGH
TEMPERATURE
RESISTANCE
ΔL/Lo : ≤ 10%
The sample shall be left for 96 hours in an atmosphere with a temperature of
85 2ºC and a normal humidity. Upon completion of the test, the measurement
shall be made after the sample has been left in a normal temperature and
normal humidity for 1 hour.
There shall be no
mechanical damage or
electrical damage.
LOW
TEMPERATURE
ΔL/Lo : ≤ 10%
The sample shall be left for 96 hours in an atmosphere with a temperature of
–30 2ºC. Upon completion of the test, the measurement shall be made after
the sample has been left in a normal temperature and normal humidity for 1
hour.
There shall be no
mechanical damage or
electrical damage.
MOISTURE
STORAGE
ΔL/Lo : ≤ 10%
There shall be no
mechanical damage
The sample shall be left for 96 hours in a temperature of 40 2ºC and a
humidity(RH) of 90~95%. Upon completion of the test, the measurement shall
be made after the sample has been left in a normal temperature and normal
humidity more than 1 hour.
SUBSTRATE
BENDING
ΔL/Lo : ≤ 10%
The sample shall be soldered onto the printed circuit board and a load applied
until the figure in the arrow direction is made approximately 3mm (keep time 5
1 seconds).
There shall be no
mechanical damage or
electrical damage
THERMAL SHOCK ΔL/Lo : ≤ 10%
The sample shall be subject to 5 continous cycles, such as shown in the
There shall be no damage following temperature cycle. Measure the test items after leaving the inductors
or problems.
at room temperature and humidity for 1 hour.
COMPONENT
ADHESION
(PUSH TEST)
10N Min (LPC 2410, 3010) The device should be reflow soldered (245 5ºC for 10 seconds) to a
copper substrate a dynamometer force gauge should be applied to the side
12N Min (LPC 3012, 3015,
of the component the device must withstand a minimum force of 10N or 12N
4018, 4025, 5040, 6045)
without failure of the termination attached to the component.
68
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Power InducTors, semI-shIelded (coaTed)
lPc serIes
S
oldering nFormation
i
RECOMMENDED FOOTPRINT:
SIZE CODES
Dimensions Units 2410 3010
3012
3015
4018
4025
5040
6045
In
mm
In
0.031 0.031 0.031 0.031 0.059 0.059 0.059 0.063
0.800 0.800 0.800 0.800 1.500 1.500 1.500 1.600
A
B
C
0.079
2.000 2.000 2.700 2.700 3.600 3.600 4.000 5.700
0.098 0.098 0.087 0.087 0.179 0.179 0.201 0.248
2.500 2.500 2.200 2.200 4.550 4.550 5.100 6.300
0.079 0.106 0.106 0.142 0.142 0.157 0.244
mm
In
mm
RECOMMENDED SOLDER ATTACHMENT: REFLOW SOLDERING
Reflow: 2 times max
Peak Temperature: 255ºC
Max Time Above 217ºC: 90 sec max
If hand soldering must be used, follow these precautions:
Use solder iron of less than 30W when soldering.
Do not allow soldering iron tip to directly touch the ferrite body outside of the terminal electrode.
2 seconds maximum at 280ºC.
* This datasheet is subject to change without notice
69
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Power
InducTors, shIelded
lPm serIes
The Shielded Power LPM Series are low profile, surface-mount
inductors. They are designed for power applications or high
current applications.
key
FeatureS
• High reliability and easy surface mount assembly
• Low loss due to design of low DC resistance
• Low profile with max thickness 3.0 mm
• Frequency Application Up to 3MHz
• Suitable for reflow soldering
• 100% Lead Free
applicationS
• Low profile and high current power supplies
• DC/DC Converters
product
range
Summary
RATED CURRENT RATED CURRENT
DC RESISTANCE
RANGE
OPERTING
TEMPERATURE
RANGE
SIZE
CODE
INDUCTANCE
RANGE
RANGE
RANGE
BASED ON
BASED ON
(TYPICAL)
INDUCTANCE CHANGE
TEMPERATURE RISE
0520
0530
0630
1.00 - 10.0 μH
0.60 - 5.6 μH
0.47 - 22 μH
2.10 - 8.00 A
4.00 - 18.00 A
2.50 - 20.50 A
2.30 - 7.50 A
4.00 - 9.80 A
2.50 - 16.50 A
16.80 mΩ - 140.00 mΩ
11.00 mΩ - 55.00 mΩ -55ºC to+125ºC
3.50 mΩ - 152.00 mΩ
Consult Factory for values not listed in the product range
How
to
order
E
LPM
0520
LR
1R0
M
INDUCTOR
POWER SHIELDED
SIZE CODE
APPLICATION
TYPE
INDUCTANCE
TOLERANCE
PACKING
LPM
(Shielded)
0520
0530
0630
LR = Power
application with lower DC
resistance and lower power
loss design requirement
HI = High performance
application with high
saturation current
M = 20%
E = Embossed Tape & Reel
1R0 = 1.00 μH
See chart
requirement
Standard Termination Finish: Matte Tin(Sn)
Example P/N: LPM0520LR1R0ME is shielded power inductor, size 0520 for low power applications, 1.00μH, 20%, embossed tape & reel
Note: See our website for Saturation Current and Heat Rating Current Performance graphs.
70
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Power
InducTors, shIelded
lPm serIes
0520 Size
Units
Inches
mm
Marked
L
0.220 0.001
0.205 0.008
0.079 0.004
0.039 0.016
0.059 0.004
0.079 0.012
0.098 0.008
5.60 0.35
5.20 0.20
2.00 0.10
1.00 0.40
1.50 0.10
2.00 0.30
2.50 0.20
W
H
Application
Type
Marking
A
LR
LR
HI
A’
B
1R0
1R0
B’
*1
*2
Rated Current Based
DC Resistance
Part
Rated Current Based
on Inductance Change
SRF
Number
Inductance
1.00 μH, ±230
1.50 μH, ±230
2.20 μH, ±230
3.30 μH, ±230
4.70 μH, ±230
5.60 μH, ±230
10.00 μH, ±230
10.00 μH, ±230
on Temperature Rise
(Typ)
Typ
Max
Marking
LR 1R0
LR 1R5
LR 2R2
LR 3R3
LPM0520LR1R0ME
LPM0520LR1R5ME
LPM0520LR2R2ME
LPM0520LR3R3ME
LPM0520LR4R7ME
LPM0520LR5R6ME
LPM0520LR100ME
LPM0520HI100ME
65 MHz
46 MHz
38 MHz
34 MHz
27 MHz
22 MHz
16.8 mΩ
19.0 mΩ
33.0 mΩ
45.0 mΩ
52.0 mΩ
65.0 mΩ
18.5 mΩ
24.0 mΩ
36.0 mΩ
50.0 mΩ
58.0 mΩ
75.0 mΩ
8.33 A
6.83 A
5.33 A
4.23 A
±.73 A
±.±3 A
2.10 A
4.00 A
7.53 A
5.83 A
5.53 A
4.53 A
±.73 A
LR 4R7
LR 5R6
LR 100
100
±.53 A
17 MHz 130.0 mΩ 145.0 mΩ
16 MHz 140.0 mΩ 150.0 mΩ
±.33 A
2.30 A
0530 Size
Units
L
Inches
mm
Marked
0.220 0.001
0.205 0.008
0.118
5.60 0.35
5.20 0.20
3.00 (max)
1.00 0.40
1.50 0.10
2.00 0.30
2.50 0.20
W
H
Application
Type
Marking
A
0.039 0.016
0.059 .004
0.079 0.012
0.098 0.079
LR
LR
HI
A’
B
1R0
1R0
B’
*1
*2
DC Resistance
SRF
Part
Rated Current Based
on Inductance Change
Rated Current Based
on Temperature Rise
Number
Inductance
0.60 μH, ±230
0.68 μH, ±230
0.82 μH, ±230
1.00 μH, ±230
1.20 μH, ±230
1.50 μH, ±230
(Typ)
Typ
Max
Marking
R63
LPM0530HIR60ME
LPM0530HIR68ME
LPM0530HIR82ME
LPM0530HI1R0ME
LPM0530HI1R2ME
LPM0530HI1R5ME
84 MHz
63 MHz
53 MHz
52 MHz
48 MHz
44 MHz
30 MHz
11.0 mΩ
11.0 mΩ
14.0 mΩ
13.0 mΩ
15.5 mΩ
20.0 mΩ
29.0 mΩ
12.0 mΩ
12.0 mΩ
15.0 mΩ
14.0 mΩ
16.5 mΩ
25.0 mΩ
35.0 mΩ
20.0 mΩ
18.33 A
16.33 A
12.53 A
14.33 A
1±.33 A
13.33 A
9.33 A
9.83 A
9.53 A
9.33 A
7.33 A
6.83 A
6.33 A
5.53 A
8.33 A
R68
R82
1R0
1R2
1R5
LPM0530HI2R2ME 2.20 μH, 20%
LPM0530LR1R5ME 1.50 μH, 20%
2R2
44 MHz 18.50 mΩ
7.33 A
LR 1R5
Notes: Inductance is measured in HP-4284A Precision LCR Meter.
RDC measured in HP 4338B milliohm meter ( or equivalent)
*1. Isat: Based on inductance change (ΔL/Lo: -20% TYP.)
*2. Irms: Based on temperature rise (ΔT: 40ºC TYP.)
71
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Power
InducTors, shIelded
lPm serIes
0530 Size (continued
)
*1
*2
Rated Current Based
DC Resistance
Part
Rated Current Based
SRF
(Typ)
Number
Inductance
2.20 μH, ±230
3.30 μH, ±230
4.70 μH, ±230
5.60 μH, ±230
on Inductance Change
on Temperature Rise
Typ
Max
Marking
LR 2R2
LR 3R3
LR 4R7
LR 5R6
LPM0530LR2R2ME
LPM0530LR3R3ME
LPM0530LR4R7ME
LPM0530LR5R6ME
38 MHz
28 MHz
25 MHz
19 MHz
24.0 mΩ
32.0 mΩ
54.0 mΩ
55.0 mΩ
26.0 mΩ
36.0 mΩ
60.0 mΩ
65.0 mΩ
5.53 A
5.33 A
4.53 A
4.33 A
7.33 A
6.53 A
4.53 A
4.53 A
0630 Size
Units
L
Inches
mm
Marked
0.283 0.012
0.262 0.008
0.119
7.20 0.30
6.65 0.20
3.00 (max)
1.60 0.40
2.00 0.10
3.00 0.30
3.40 0.20
W
H
Application
Type
Marking
A
0.063 0.016
0.079 0.004
0.119 0.013
0.134 0.008
LR
LR
HI
A’
B
1R0
1R0
B’
*1
*2
DC Resistance
Part
Number
Rated Current Based
on Inductance Change
Rated Current Based
on Temperature Rise
SRF
(Typ)
Inductance
0.47 μH, ±230
0.56 μH, ±230
0.68 μH, ±230
0.82 μH, ±230
1.00 μH, ±230
1.50 μH, ±230
2.20 μH, ±230
3.30 μH, ±230
4.70 μH, ±230
5.60 μH, ±230
6.80 μH, ±230
10.00 μH, ±230
15.00 μH, ±230
22.00 μH, ±230
1.00 μH, ±230
1.50 μH, ±230
2.20 μH, ±230
3.30 μH, ±230
4.70 μH, ±230
6.80 μH, ±230
8.20 μH, ±230
10.00 μH, ±230
Typ
Max
Marking
LR R47
LR R56
LR R68
LR R82
LR 1R0
LR 1R5
LR 2R2
LR 3R3
LR 4R7
LR 5R6
LR 6R8
LPM0630LRR47ME
LPM0630LRR56ME
LPM0630LRR68ME
LPM0630LRR82ME
LPM0630LR1R0ME
LPM0630LR1R5ME
LPM0630LR2R2ME
LPM0630LR3R3ME
LPM0630LR4R7ME
LPM0630LR5R6ME
LPM0630LR6R8ME
LPM0630LR100ME
LPM0630LR150ME
LPM0630LR220ME
LPM0630HI1R0ME
LPM0630HI1R5ME
LPM0630HI2R2ME
LPM0630HI3R3ME
LPM0630HI4R7ME
LPM0630HI6R8ME
LPM0630HI8R2ME
LPM0630HI100ME
79 MHz
61 MHz
68 MHz
49 MHz
52 MHz
30 MHz
30 MHz
24 MHz
19 MHz
17 MHz
16 MHz
13 MHz
3.5 mΩ
4.1 mΩ
5.0 mΩ
6.5 mΩ
7.5 mΩ
9.0 mΩ
12.0 mΩ
18.5 mΩ
28.0 mΩ
35.0 mΩ
35.5 mΩ
60.0 mΩ
68.0 mΩ
23.33 A
18.33 A
17.33 A
16.33 A
15.33 A
14.33 A
13.33 A
13.33 A
6.53 A
16.53 A
15.53 A
14.33 A
12.53 A
12.33 A
13.33 A
8.33 A
6.53 A
5.53 A
6.33 A
4.53 A
4.33 A
±.33 A
2.53 A
11.33 A
9.33 A
8.33 A
6.83 A
5.53 A
4.53 A
4.33 A
±.33 A
4.7 mΩ
6.0 mΩ
7.0 mΩ
8.5 mΩ
10.5 mΩ
16.0 mΩ
25.0 mΩ
32.5 mΩ
32.5 mΩ
54.0 mΩ
62.0 mΩ
5.33 A
6.33 A
5.53 A
LR 133
LR 153
LR 220
1R0
12 MHz 110.0 mΩ 120.0 mΩ
8 MHz 152.0 mΩ 167.0 mΩ
5.33 A
2.53 A
40 MHz
35 MHz
29 MHz
22 MHz
17 MHz
15 MHz
16 MHz
9.0 mΩ
14.0 mΩ
18.0 mΩ
28.0 mΩ
37.0 mΩ
54.0 mΩ
64.0 mΩ
10.00mΩ
15.0 mΩ
20.0 mΩ
30.0 mΩ
40.0 mΩ
60.0 mΩ
68.0 mΩ
23.53 A
17.33 A
14.33 A
1±.53 A
13.33 A
8.33 A
1R5
2R2
3R3
4R7
6R8
8R2
7.53 A
14 MHz 102.0 mΩ 105.0 mΩ
7.33 A
133
*1. Idc1: Based on inductance change
ΔL/Lo: -30% for LR ΔL/Lo: -20% for HI
*2. Idc2: Based on temperature rise (ΔT: 40ºC TYP.)
Notes: Inductance is measured in HP-4285A Precision LCR Meter under 100KHz, 0.25V
RDC measured in HP 4338B milliohm meter (or equivalent).
72
www.johansondielectrics.com
Power
InducTors, shIelded
lPm serIes
enVironmental
perFormance
SPECIFICATION
TEST PARAMETERS
VIBRATION
ΔL/Lo : ≤ 5%
There shall be no
mechanical damage
Solder specimen inductor on the test printed circuit board. Apply vibrations in
each of the x, y and z directions for 2 house for a total of 6 hours.
Frequency : 10~55~10Hz in 60sec as a period Amplitude : 1.5mm
SOLDERABILITY
The metalized area must
have 90% minimum
solder coverage.
Preheating at 160 10ºC 90sec.
245ºC 5ºC for 2 1sec.
HIGH
TEMPERATURE
STORAGE
ΔL/Lo : ≤ 5%
The sample shall be left for 96 hours in an atmosphere with a temperature of
85 2ºC and a normal humidity. Upon completion of the test, the measurement
shall be made after the sample has been left in a normal temperature and
normal humidity for 1 hour.
There shall be no
mechanical damage or
electrical damage.
LOW
TEMPERATURE
STORAGE
ΔL/Lo : ≤ 5%
The sample shall be left for 96 hours in an atmosphere with a temperature of
–40 2ºC. Upon completion of the test, the measurement shall be made after
the sample has been left in a normal temperature and normal humidity for 1
hour.
There shall be no
mechanical damage or
electrical damage.
MOISTURE
STORAGE
ΔL/Lo : ≤ 5%
There shall be no
mechanical damage
The sample shall be left for 96 hours in a temperature of 40 2ºC and a
humidity(RH) of 90~95%. Upon completion of the test, the measurement shall
be made after the sample has been left in a normal temperature and normal
humidity more than 1 hour.
SUBSTRATE
BENDING
ΔL/Lo : ≤ 5%
The sample shall be soldered onto the printed circuit board and a load applied
until the figure in the arrow direction is made approximately 2mm (keep time 5
1 seconds).
There shall be no
mechanical damage or
electrical damage
THERMAL SHOCK ΔL/Lo : ≤ 5%
The sample shall be subject to 10 continous cycles, such as shown in the
There shall be no damage following temperature cycle. Measure the test items after leaving the inductors
or problems.
at room temperature and humidity for 1 hour.
73
www.johansondielectrics.com
Power
InducTors, shIelded
lPm serIes
Soldering
inFormation
RECOMMENDED FOOTPRINT:
SIZE CODES
0530
Dimensions
Units
In
0520
0.236
5.990
0.098
2.500
0.087
2.200
0630
0.331
8.400
0.134
3.400
0.146
3.700
0.236
A
mm
In
5.990
0.098
B
C
mm
In
2.500
0.087
mm
2.200
RECOMMENDED SOLDER ATTACHMENT: REFLOW SOLDERING
Peak Temperature: 260ºC max
Max Peak Temperature: -5ºC: 30sec max.
Max Time above 217ºC: 60sec ~150 sec max.
If hand soldering must be used, follow these precautions:
Use solder iron of less than 30W when soldering.
Do not allow soldering iron tip to directly touch the ferrite body outside of the terminal electrode.
2 seconds maximum at 260ºC.
* This datasheet is subject to change without notice
74
www.johansondielectrics.com
Planar
caPacITor
arraYs for emI fIlTerIng
Johanson Dielectrics is the premier supplier of Planar Capacitor
EMI Filter Arrays to the Filtered Connector Industry.
Planar Capacitors are the fundamental building block for filtered
connectors in Aerospace, Biomedical, Military, Satellite, Indus-
trial and Communication electronics.
Johanson offers high value Arrays in standard and custom solu-
tions to fit your needs.
circular
arrayS
PHYSICAL
LAYOUT
DIELECTRIC
MATERIAL
AVAILABLE
CAPACITANCE
WORKING
VOLTAGE
DWV
VOLTAGE
MIL-1560
MIL-1554
MIL-1669
MIL-1651
MIL-1698
MIL-33702
MIL-AUDIO
X7R
&
NP0
47 pF
to
800 nF
Up to
2,000
VDC
Up to
3,000
VDC
rectangular
arrayS (arinc 404/600)
PHYSICAL
LAYOUT
DIELECTRIC
MATERIAL
AVAILABLE
CAPACITANCE
WORKING
VOLTAGE
DWV
VOLTAGE
AR-010
Through
AR-150
X7R
&
47 pF
to
Up to
1,330
VDC
Up to
2,000
VDC
NP0
940 nF
d-Subminature
rectangular
a
rrayS
PHYSICAL
LAYOUT
DIELECTRIC
MATERIAL
AVAILABLE
CAPACITANCE
WORKING
VOLTAGE
DWV
VOLTAGE
Full Size
47pF - 210nF
47pF - 100nF
47pF - 22.5nF
47pF - 3.0nF
47pF - 6.0nF
47pF - 120nF
47pF - 50nF
≤ 2,400
≤ 1,000
≤ 680
≤ 200
≤ 800
≤ 680
≤ 300
≤ 3,600
≤ 1,500
≤ 1,020
≤ 500
Mini-D
Micro-D
Nano-D
Combo-D
Power-D
Special
X7R
&
NP0
≤ 1,200
≤ 1,020
≤ 750
75
www.johansondielectrics.com
Planar
caPacITor
arraYs for emI fIlTerIng
cuStom
arrayS
Johanson Dielectrics’s design expertise and CNC manufactur-
ing process enable broad custom array capability. Many shapes,
configurations and geometries are possible. Share your require-
ments and we will create a solution!
diScoidal
capacitorS
Johanson Discoidal Feed-through Capacitors are the functional element
in widely used EMI feed-through filters. This capacitor configuration of-
fers very low impedance and inductance. Discoidal capacitors are ideal
for by-pass, filtering, coupling, single line EMI/RFI suppression, and high
frequency applications.
• Capacitance values from 10 pF to 11.2 μF
• Test standards and procedures per MIL-STD-202 and MIL-C-123
• Voltage ratings from 50 to 3000 VDC and 50 to 240 VAC
• Low ESR and ESL, non-polar designs
Call us to discuss your special requirements!
NOMINAL
O.D. (IN.)
DIELECTRIC
MATERIAL
AVAILABLE
CAPACITANCE
INSIDE
DIAMETER (IN.)
THICKNESS (IN.)
RATED VOLTAGE
0.100 .005
0.150 .005
0.335 .005
0.345 .005
0.376 .005
0.643 .005
0.840 .005
10 pF – 66 nF
10 pF – 200 nF
10 pF – 2.8 µF
10 pF – 6.0 µF
10 pF – 8.0 µF
10 pF – 15 µF
10 pF – 20 µF
0.025 0.048
0.037 0.058
0.034 0.088
0.040 0.085
0.050 0.075
0.063 0.080
0.050 0.075
0.025 0.070
0.025 0.070
0.040 0.110
0.055 0.110
0.065 0.125
0.055 0.150
0.080 0.130
Up to 200 VDC
Up to 200 VDC
Up to 500 VDC
Up to 750 VDC
Up to 750 VDC
Up to 750 VDC
Up to 1000 VDC
X7R
&
NP0
76
www.johansondielectrics.com
caPs
TraTe®
caPacITor
suBsTraTes
Johanson CapStrate® products integrate bulk capaci-
tance into a ceramic substrate eliminating large discrete
capacitive components which saves critical space and
simplifies the assembly process. Our design and manu-
facturing expertise in large format, custom geometries
provides innovative solutions that economically solve a
wide variety of your design challenges.
Discrete
Circuit
a
dVantageS
®
CapStrate
Circuit
• Major Size & Weight Reduction
• Fewer Solder Joints
• Lower Assembly Cost
• Circuit Assembly Available
key
FeatureS
• Integrated Capacitance in The Substrate
• Rated Working Voltages from 50V to 5,000V
• Temperature ranges: -55°C to 125°C (specials to 200°C and 250°C)
• Compact Designs Utilizing Military Grade Ceramics
• Custom Sizes, Values, and Voltages Available
Size / capacitance
capability
eXampleS
NP0
50V
NP0
NP0
NP0
X7R
50V
X7R
X7R
X7R
SUBSTRATE SIZE
CapStrate 4
LENGTH WIDTH
THICK
0.120
100V
200V
500V
100V
200V
500V
In
mm
In
0.400
10.2
0.400
0.22µF
0.70µF
1.40µF
2.00µF
4.00µF
0.15µF
0.50µF
1.00µF
1.40µF
2.80µF
0.12µF
0.07µF
0.22µF
0.44µF
0.60µF
1.20µF
9.0µF
28.0µF
50.0µF
75.0µF
6.0µF
20.0µF
40.0µF
55.0µF
3.0µF
9.0µF
1.5µF
4.7µF
9.4µF
14.0µF
10.2
1.00
25.4
2.00
50.8
1.50
38.1
2.00
50.8
3.1
0.120
3.1
0.450
11.43
0.450
11.4
CapStrate 3
CapStrate 1
CapStrate 2
CapStrate 6
0.39µF
0.75µF
1.00µF
2.00µF
mm
In
0.120
3.1
18.0µF
25.0µF
50.0µF
mm
In
0.800
20.3
0.120
3.1
mm
In
1.250
31.8
0.120
3.1
150.0µF 110.0µF
28.0µF
9 -10
mm
1.3 -1.6 0.9 -1.1 0.7 -0.8 50 - 62 µF 35 - 45 µF 18 - 20 µF 1.3 -1.6
µF / In
Circular CapStrate® Capacitance Formula
2
2
2
2
2
2
2
2
µF / In
µF / In
/ In
/ In
/ In
µF / In
µF / In
This chart is intended to provide capability examples. Not all possibilities are shown and we invite application specific inquiries. Circular
CapStrate® example lists available capacitance per area.
77
www.johansondielectrics.com
cusTom
caPacITor
soluTIons
Johanson’s extensive experience in design and
manufacture of large format, custom geome-
tries allows us to develop unique and innovative
solutions which successfully solve a wide vari-
ety of our customer’s design challenges.
We’ll work pro actively with you to fully under-
stand your requirements and recommend the
best solution possible.
key
FeatureS
• Custom shapes to fit specific requirements
• Multiple capacitors in a single assembly
• NP0/COG and X7R solutions from -55°C to +125°C
• Multiple pin, lead-frame, and flying wire options
• Bare ceramic, epoxy coated, potted solutions
Variable
pitcH
aSSemblieS
Another custom approach is our variable pitch
design. No longer are you limited to a vendor’s
standard catalogue offering or only square or
rectangular custom designs. We let you be-
come your own capacitor designer by not only
telling us the desired capacitance and voltage,
but also the size, shape, and location of leads!
This process helps insure that the resulting
capacitor satisfies every aspect of your design
requirements.
on-line
productS
200°C Radial Leaded Capacitors
Large Size MLC Capacitors
High Power AC Capacitors
78
www.johansondielectrics.com
caPacITor
general
elecTrIcal
characTerIsTIcs & Pn BreaKdown
electrical
cHaracteriSticS
PARAMETER
NP0
X7R
X5R
TEMPERATURE
COEFFICIENT:
0
30 ppm/°C
-55 to +125°C
15%
-55 to +125°C
15%
-55 to +85°C
20%
0%
20%
20%
0%
0%
-20%
-40%
-60%
-80%
-20%
-40%
-60%
-80%
-20%
-40%
-60%
-80%
-55°C
-25°C
0°C
25°C
50°C
75°C
100°C
125°C
-55°C
-25°C
0°C
25°C
50°C
75°C
100°C
125°C
-55°C
-25°C
0°C
25°C
50°C
75°C
100°C
125°C
DISSIPATION
FACTOR:
.001 (0.1%) max
WVDC ≥ 50 VDC, DF = 2.5% max
WVDC = 25 VDC, DF = 3.0% max For Vrated ≤ 25 VDC: DF = 10% max
WVDC = 16 VDC, DF = 3.5% max
For Vrated ≥ 50 VDC, DF = 5% max
AGING:
None
2.5% / decade hour
2.5 % / decade hour
INSULATION
RESISTANCE:
1000ΩF or 100GΩ
whichever is less @ 25°C, WVDC
500ΩF or 50GΩ
whichever is less @ 25°C, WVDC
100ΩF or 10GΩ
whichever is less @ 25°C, WVDC
DIELECTRIC
STRENGTH:
For Vrated = 6 - 200 VDC, DWV = 2.5 X WVDC, 25°C, 50mA max.
For Vrated = 201 - 499 VDC, DWV = 2.0 X WVDC, 25°C, 50mA max.
For Vrated = 500 - 999 VDC, DWV = 1.5 X WVDC, 25°C, 50mA max.
For Vrated = 1000+ VDC, DWV = 1.2 X WVDC, 25°C, 50mA max.
DWV = 2.5 X WVDC, 25°C, 50mA
max.
TEST
PARAMETERS:
C > 100 pF; 1kHz 50Hz;1.0 0.2
VRMS
1kHz 50Hz;1.0 0.2 VRMS
1kHz 50Hz; 0.5 0.2 VRMS
C ≤ 100 pF 1Mhz 50kHz; 1.0 0.2
VRMS
NOTES:
Tanceram IR = 100 ΩF or 10 GΩ
Tanceram DF for Vrated ≥ 50 VDC = 5% max.
Tanceram DF for Vrated ≤ 25 VDC, DF = 10% max
Part number written: 502R29W102KV3E-****-SC
part
number
breakdown - SurFace
mount
502
R 29
W
102
K
V
3
E
VOLTAGE
SERIES/SIZE
DIELECTRIC
CAPACITANCE
TOLERANCE
TERMINATION
MARKING
PACKING
6R3 = 6.3 V DC
100 = 10 V DC
160 = 16 V DC
250 = 25 V DC
500 = 50 V DC
101 = 100 V DC
201 = 200 V DC
251 = 250 V DC
301 = 300 V DC
501 = 500 V DC
631 = 630 V DC
102 = 1000 V DC
202 = 2000 V DC
302 = 3000 V DC*
402 = 4000 V DC
502 = 5000 V DC*
ACJ = 250 VAC
A_ _ = ARRAY
B_ _ = LICC
N = NP0
W = X7R
X = X5R
1st two digits are
significant; third
digit denotes
* B = 0.10 pF
* C = 0.25 pF
* D = 0.50 pF
* F = 1 %
V = Nickel Barrier 3 = Special
E = Embossed 7”
T = Punched 7”
with 100% Tin
Plating (Matte)
4 = Unmarked
6 = EIA Code*
F_ _ = F-T FILTER
R_ _ = MLCC
U = Embossed 13”
R = Punched 13”
number of zeros,
R = decimal.
F = Polyterm
*Not available
on sizes
S_ _ = MLCC
T_ _ = HI TEMP MLCC
X_ _ = X2Y
* G = 2%
flexible termination
No code = bulk
pack
* J = 5%
* K = 10%
* M = 20%
* Y = +50 -20%
* Z = +80 -20%
5R6 = 5.6 pF
100 = 10 pF
102 = 1,000 pF
474 = 0.47 µF
475 = 4.7 µF
106 = 10 µF
≤ 0402
G = Gold
T = SnPb
P = PdAg
Tape specifications
conform to EIA
RS481
_05=0201
_07=0402
_14=0603
_15=0805
_18=1206
_41=1210
_29=1808
_30=2211
_43=1812
_44=1410
_47=2220
_49=1825
_48=2225
*Values < 10 pF
only
Not all tape styles
are available on all
parts.
-****- SC
PART NUMBER MODIFIER
* For Safety Caps
with -****-SC
P/N suffix only:
302 = 250VAC
[2500V Impulse]
Used on select parts such as Safety Certified or
for customer specific requirements.
502 = 250VAC
[5000V Impulse]
PLEASE NOTE: Not all combinations of JDI P/Ns are valid. Please refer to the “How to Order” detail section of the specific product or contact
your Sales Representative if you need assistance.
79
www.johansondielectrics.com
TaPe and
reel
PacKagIng
Johanson capacitors are available taped per EIA
standard 481. Tape options include 7” and 13”
diameter reels. Johanson uses high quality, dust free,
punched 8mm paper tape and plastic embossed 8mm
tape for thicker MLCCs. Quantity per reel ranges are
listed in the tables below and are dependent on chip
thickness. Inductors are available in 7” diameter reels
for smaller sizes, and 13” diameter reels for larger sizes
7” DIAMETER REEL
13” DIAMETER REEL
COMPONENT
REEL QTY
TAPE TYPE
WIDTH / PITCH CODE
REEL QTY
TAPE TYPE
WIDTH / PITCH
CODE
R05 / 0201 MLCC
R07 / 0402 MLCC
R14 / 0603 MLCC
R15 / 0805 MLCC
R18 / 1206 MLCC
S41 / 1210 MLCC
R29 / 1808 MLCC
R30 / 2211 MLCC
S43 / 1812 MLCC
S47 / 2220 MLCC
S49 / 1825 MLCC
S48 / 2225 MLCC
X07 / 0402 X2Y
15000
10000
4000
Paper
Paper
Paper
8mm/2mm
8mm/2mm
8mm/4mm
8mm/4mm
8mm/4mm
8mm/4mm
12mm/4mm
12mm/4mm
12mm/8mm
12mm/8mm
12mm/8mm
12mm/8mm
8mm/2mm
8mm/4mm
8mm/4mm
8mm/4mm
8mm/4mm
8mm/4mm
12mm/8mm
8mm/4mm
8mm/4mm
8mm/4mm
8mm/4mm
T
T
T
T / E
T / E
E
E
E
E
E
E
E
T
T
E
E
E
E
N/A
N/A
10000
10000
N/A
N/A
Paper
N/A
N/A
R
R / U
R / U
U
U
U
U
U
U
U
R
R
U
U
8mm/4mm
8mm/4mm
8mm/4mm
8mm/4mm
12mm/4mm
12mm/4mm
12mm/8mm
12mm/8mm
12mm/8mm
12mm/8mm
8mm/2mm
8mm/4mm
8mm/4mm
8mm/4mm
Paper / Embossed
Paper / Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
Paper
Paper / Embossed
Paper / Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
Paper
4000 / 3000
4000 / 3000
2000 - 4000
2000
1000 - 2000
500 - 1000
250 - 1000
250 - 1000
250 - 1000
4000
4000
4000
3000 - 4000
2000 - 3000
1000 - 2000
1000
10000
5000-10000
5000 - 8000
2000 - 5000
3000 - 5000
2000 - 5000
2000 - 4000
2000 - 4000
10000
X14 / 0603 X2Y
X15 / 0805 X2Y
X18 / 1206 X2Y
Paper
10000
10000
10000
Paper
Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
X41 / 1210 X2Y
X44 / 1410 X2Y
X43 / 1812 X2Y
E
E
E
E
2410 LPC INDUCTOR
3010 LPC INDUCTOR
3012 LPC INDUCTOR
3015 LPC INDUCTOR
4018 LPC INDUCTOR
4025 LPC INDUCTOR
5040 LPC INDUCTOR
6045 LPC INDUCTOR
0520 LPM INDUCTOR
0530 LPM INDUCTOR
0630 LPM INDUCTOR
RNP RESISTORS
1206 RNC RESISTORS
2010 RNC RESISTORS
2512 RNC RESISTORS
RHF RESISTORS
2000
2000
2000
2000
E
3000
3000
1000
1000
2000
2000
1500
Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
Embossed
12mm/4mm
12mm/4mm
12mm/4mm
16mm/4mm
12mm/4mm
12mm/4mm
16mm/4mm
E
E
E
E
E
E
E
5000
2000
2000
2000
Paper
8mm/4mm
8mm/4mm
12mm/4mm
12mm/4mm
T
E
E
E
Embossed Plastic
Embossed Plastic
Embossed Plastic
500
Embossed Plastic
24mm/4mm
E
Actual reel quantities based on part thickeness and tape type. Contact sales for reel quantities of specific part numbers.
See our website for detailed tape and reel packaging and dimensions.
80
www.johansondielectrics.com
Your Technology Partner
High Voltage
High Capacitance
AC Safety
EMI Filters (X2Y®)
High Temperature AC Power
Precision Power
Low ESL
Resistors
SMPS &
Power Inductors
Leaded
Planar Arrays &
Discodials
Custom Solutions
EUROPE:
UNITED STATES:
HONG KONG:
JOHANSON EUROPE, LTD.
Flackwell Heath,
Bucks, England HP10 9NR
HEADQUARTERS
15191 Bledsoe St.,
Sylmar, California 91342
JOHANSON HONG KONG, LTD.
Unit 812, Heng Ngai Jewelry Ctr.,
44 Hok Yuen Street East, Hunghom,
Kowloon, Hong Kong
TEL +44 1628 531154 • FAX +44 1628 532703
eurosales@johansondielectrics.com
TEL (818) 364 9800 • FAX (818) 364 6100
https://www.johansondielectrics.com
TEL +852 2334 6310 • FAX +852 2334 8858
asiasales@johansondielectrics.com
© 2017 Publication JD1102717
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