Sierra-KD Product Line - Mouser · PDF fileHV Series - High Voltage SMPS Multilayer Ceramic - C0G (NP0), ... Sierra-KD Components has developed a design which is ideal for operation

© KEMET Electronics Corporation • PO Box 5928 • Greenville, SC 29606 • www.kemet.com

Sierra-KD Product Line

F3106 11/03

High Temperature Ceramic CapacitorsHigh Voltage Ceramic CapacitorsEMI/RFI Feed-thru FiltersStacked MLC Chips

1

2 © KEMET Electronics Corporation • PO Box 5928 • Greenville, SC 29606 • www.kemet.com

© KEMET Electronics Corporation • PO Box 5928 • Greenville, SC 29606 • www.kemet.com 3

Hig

h Te

mpe

ratu

reC

eram

ic C

apac

itors

Hig

h V

olt

age

Cer

amic

Cap

acit

ors

EM

I/RF

IF

eed

-th

ru F

ilter

sS

tack

edM

LC C

hips

High Temperature Ceramic CapacitorsHT/HP - Standard Series - 200°C Ceramic Capacitors C0G (NP0), X7R Dielectric . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4HV-High Voltage Series - 200°C Ceramic Capacitors C0G (NP0), X7R Dielectric . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5Ceramic Cased Capacitors C3 General Information, Applications, Installation, Performance Curves . . . . . . . . . . . . . . . . . .6-7SCR - C3 Standard (+125ºC) Axial & Radial Ceramic Capacitors - C0G (NP0) Dielectric . . . . . . . . . . . . . . . . . . . . . . . . . .8-9

SRR - C3 Standard (+125ºC) Axial & Radial Ceramic Capacitors - X7R Dielectric . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-11ACR - C3 High Temperature (+200°C) Axial & Radial Ceramic Capacitors - C0G (NP0) Dielectric . . . . . . . . . . . . . . . . . . 12-13ARR - C3 High Temperature (+200°C) Axial & Radial Ceramic Capacitors - X7R Dielectric . . . . . . . . . . . . . . . . . . . . . . . 14-15

TCR - C3 High Temperature (+260°C) Axial & Radial Ceramic Capacitors - C0G (NP0) Dielectric . . . . . . . . . . . . . . . . . . 16-17TRR - C3 High Temperature (+260°C) Axial & Radial Ceramic Capacitors - X7R Dielectric . . . . . . . . . . . . . . . . . . . . . . . 18-19

VCR - C3 High Temperature/High Voltage (+260°C) Axial & Radial Ceramic Capacitors - C0G (NP0) Dielectric . . . . . . . .20-21VRR - C3 High Temperature/High Voltage (+260°C) Axial & Radial Ceramic Capacitors - X7R Dielectric . . . . . . . . . . . . . 22-23

High Voltage Ceramic CapacitorsPerformance Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24HV Series, High Voltage, Radial Conformally Coated, KDA, C0G (NP0), X7R Dielectric . . . . . . . . . . . . . . . . . . . . . . . . . .25-27HV Series, High Voltage, Radial Conformally Coated, C0G (NP0) & X7R (BR, BZ)Dielectric (MIL-PRF-49467 Equiv) . . . .28-29HS Series, High Voltage, Radial Conformally Coated, Space Quality, C0G (NP0) & X7R Dielectric . . . . . . . . . . . . . . . . . . . .30 HV Series, High Voltage, Radial Conformally Coated, 200°C Operation, C0G (NP0), X7R Dielectric . . . . . . . . . . . . . . . . . . 31High Voltage, Ceramic Chip - C0G (NP0), X7R, KDA Dielectric . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32-33SM Series, High Voltage Surface Mount Ceramic Chip - C0G (NP0), X7R, KDA Dielectric . . . . . . . . . . . . . . . . . . . . . . . .34-35D Series, High Voltage Surface Mount Ceramic Disc - C0G (NP0), X7R, X5U Dielectric . . . . . . . . . . . . . . . . . . . . . . . . . 36-37High Voltage Disc Multilayer Stacks - C0G (NP0), X7R, X5U Dielectric . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .38Performance Curves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .39

EMI/RFI Feed-thru FiltersFilter Configurations and Part Numbering System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .40C, L, Pi, T Circuits (Feed-thru & Button), Coaxial Broadband EMI Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41-50 C, L, Pi, T Circuits (AC Line, 0-400 Hz), Coaxial Broadband EMI Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .51-52C, L, Circuits - 4-40 Bolt Style, Coaxial High Frequency EMI Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .53-54C, L, Pi Circuits - 8-32 Bolt Style, Coaxial High Frequency EMI Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .55-56C, L, Pi Circuits - 12-32 Bolt Style, Coaxial High Frequency EMI Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .57-58C, L, Circuits - 8-32 Solder-in Style, Coaxial High Frequency EMI Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .59-62Filter Test Level Screening Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63Filter Hardware, Installation Notes, Part Numbering Codes and Designations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64-66MIL-F-28861 and MIL-F-15733 Cross Reference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .67Filter Specification Sheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .68Coaxial Feed-thru Capacitors - EIA Characteristics: C0G (NP0), X7R Dielectric . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .69-70

Stacked MLC ChipsL Series Switch Mode Power Supply (Low ESR) MLC Chips . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71HV Series - High Voltage SMPS Multilayer Ceramic - C0G (NP0), X7R, KDA Dielectric. . . . . . . . . . . . . . . . . . . . . . . . . . . . .72KD Series - High Voltage SMPS Multilayer Ceramic - C0G (NP0), X7R, KDA Dielectric. . . . . . . . . . . . . . . . . . . . . . . . . .73-74


200ºC Ceramic Capacitors C0G (NP0), X7R Type

4

NOTE:1. Lowest standard tolerance available for X7R dielectric is

J (±5%) and for C0G (NPO) dielectric is F (±1%) to aminimum of ±0.5pF.

2. In the Dielectric Capacitance Ranges table below, for Conformal Coated types, change style number to HPXX,HP dimensions will be reduced slightly.

3. For higher capacitance values, voltages, or special packageconfigurations, please contact factory.

Features

Temperature Coefficient: N: C0G (NPO) 0±30 ppm/°CB/W: (X7R type) +15%,-40% from -55 to +200°C

Voltage Coefficient: NPO=zero, X7R type -20%at 100% WVDC

Voltage Rating: 100VDC -55°C/+125°Cderate to 50 VDC at +200°C

Insulation Resistance: 100Megohm or 1Megohm-µFat +200°C

Dissipation Factor: C0G (NPO): 0.1% maxK1200: 2.0% max

Flash Voltage: 2.5 x rated VDC @ +25°C2.0 x rated VDC @ +200°C

Temperature Range: -55°C to +200°C operatingLead Material: Nickel 22 ga. (0.025"),

(HT11/HT12): Ni 24 ga. (0.020”)Dielectric Absorption: NPO @ 0.001µF - 5mv max,

NPO @ 0.01µF - 35mv maxBoth after 50 volt charge

StyleSizes in Inches (Max.) Lead Spacing

±0.030 (S)Length (L) Height (H) Thickness (T)HT05 .200 .200 .100 .100HT55 .200 .200 .100 .200HT06 .300 .300 .150 .200HT08 .500 .500 .250 .400HT09 .700 .400 .200 .500

StyleSizes in Inches (Max.)

Length (L) Diameter (D)HT11 .170 .100HT13 .260 .135HT14 .400 .155HT15 .500 .200HT16 .750 .375

Size Information

Part Number

Dielectric Capacitance RangesC0G (NP0) at +125ºC

Dielectric Capacitance Ranges(X7R) at +125ºC

Molded (HT) and Conformal Coated (HP), Radial Lead Types Tubular Case, Axial Lead Types

Style100 VDC 200 VDC

Min. Max. Min . Max.

HT05 22pF .010µF 22pF 8200pF

HT55 22pF .010µF 22pF 8200pF

HT06 1000pF .033µF 1000pF .027µF

HT08 .010µF .100µF .010µF .082µF

HT09 .010µF .100µF .010µF .082µF

HT11 16pF 1000pF 16pF 820pF

HT13 16pF .010µF 16pF 8200pF

HT14 1000pF .033µF 1000pF .027µF

HT15 .010µF .047µF .010µF .039µF

HT16 .010µF .100µF .010µF .082µF

Style100 VDC 200 VDC

Min. Max. Min . Max.

HT05 1000pF .027µF 1000pF .018µF

HT55 1000pF .027µF 1000pF .018µF

HT06 .010µF .47µF .010µF .150µF

HT08 .100µF 1.0µF .100µF .390µF

HT09 .100µF 1.0µF .100µF .680µF

HT11 1000pF .022µF 1000pF .018µF

HT13 1000pF .10µF 1000pF .027µF

HT14 .010µF .18µF .015µF .056µF

HT15 .010µF .56µF .027µF .390µF

HT16 .100µF 1.0µF .100µF .680µF

Marking(HT05, HT55, HT11) (All other sizes)472K HT06AW472K KD KD

Date Code

For CONFORMAL COATED types, change style number to HP05, etc. HPdimensions will be reduced slightly.

For higher capacitance values, voltages or special package configurations,please contact the factory.

F=±1% (C0G/NP0 only)G=±2%(C0G/NP0 only)J=±5%K=±10%M=±20%P=GMVY= -10,+30%Z= -20,+80%

StyleHT =MoldedHP = Conformal Coated


High Voltage Ceramic Capacitors 200ºC Operation C0G (NP0), X7R Type

5

FeaturesVoltage Range: 500 to 4000 VDCVoltage Conditioning: 1000 VDC parts at +175ºC

2000 VDC parts at +150ºCInsulation Resistance: 100K Megohm or 1K megohm-µF,

whichever is less at +25ºC100 Megohm or 1megohm-µF,whichever is less at +200°C

Dissipation Factor: X7R: 1.5% max.C0G (NPO): 0.1% max.

Temperature Coefficient: X7R: +10%, -40% from -55 to +125°CC0G (NPO): 0±30ppm/°C from -55 to +125°C

Temperature Range: -55°C to +200°C operatingFlash Voltage: Under 1kV: rated VDC+500V

Above 1kV: rated VDC+1000V Lead Material: Nickel, 22 ga. (0.025")

StyleSizes - Inches (Max.) Lead Spacing (Inches)

±0.030 (S)Length (L) Height (H) Thickness (T)

HV10 .250 .220 .150 .170HV11 .320 .300 .250 .200

HV12 .420 .400 .250 .300HV13 .520 .500 .300 .400HV14 .620 .500 .300 .500

HV16 .720 .700 .300 .600HV17 .820 .700 .350 .700

Size Information

Maximum Capacitance Available

Style500 VDC 1k VDC 2k VDC 3k VDC 4k VDC

NP0 X7R NP0 X7R NP0 X7R NP0 X7R NP0 X7R

HV10 1500pF 8200pF 1000pF 2700pF 390pF 1400pF --- --- --- ---

HV11 2200pF .022µF 1800pF .010µF 1000pF 2700pF 470pF --- --- ---

HV12 3300pF .033µF 2700pF .018µF 1500pF 6800pF 1000pF --- --- ---

HV13 5600pF .082µF 4700pF .047µF 3300pF .018µF 2700pF 8200pF --- ---

HV14 8200pF .120µF 7500pF .056µF 3900pF .027µF 3300pF .012µF 2700pF .010µF

HV16 .010µF .150µF .010µF .068µF 4700pF .033µF 3900pF .018µF 2700pF .010µF

HV17 .015µF .270µF .015µF .120µF .012µF .056µF 8200pF .027µF 5600pF .012µF

Part Numbering Marking

(HV10, HV11) (All other sizes)472M HV12B472M KD 1kV Date Code KD

Date Code

Hig

h T

emp

erat

ure

Cer

amic

Cap

acit

ors

F=±1% (C0G/NP0 only)G=±2%(C0G/NP0 only)J=±5%K=±10%M=±20%P=GMVY= -10,+30%Z= -20,+80%

B = K 1200 (X7R)N = C0G (NP0)

© KEMET Electronics Corporation • PO Box 5928 • Greenville, SC 29606 • www.kemet.com6

General InformationMonolithic ceramic capacitors are capable of withstanding and operating at temperatures up to +260°C when properly designedand manufactured for this application. Sierra-KD Components has developed a design which is ideal for operation at these hightemperatures. This design is a Ceramic Cased Capacitor (C3) as described in PATENT #4,931,899.

The advantages of the C3 construction are:

• Uniform coefficient of linear expansion eliminates chip cracking during thermal shock. • No "pull-away" of epoxy potting from epoxy case at elevated temperatures. • Impervious to moisture penetration. • Elimination of the epoxy case allows for more capacitance in the same package size. • Improved terminal pull strength at +260ºC.

Applications and InstallationWhen using ceramic capacitors for high temperature applications such as oil well logging (down-hole), jet engine controls, or geo-physcial probes, certain characteristics must be taken into consideration — including capacitance change, insulation resistance,and dissipation factor. The typical characteristics for ceramics are shown here.

Radial C3 - One Lead Removed Radial C3 - Capacitor Internal Construction

Axial C3 - One Lead Removed

Capacitance vs. TemperatureC0G (NP0) Dielectric

Insulation Resistance vs. TemperatureC0G (NP0) & X7R Dielectric

Capacitance vs. TemperatureX7R Dielectric

Dissipation FactorC0G (NP0) & X7R Dielectric


Typical Characteristics Curves

7

Hig

h Te

mpe

ratu

reC

eram

ic C

apac

itors


Applications:Ceramic cased capacitors are a new, unique design conceptwhich eliminates potential problems associated with convention-al epoxy cased/epoxy potted capacitors.

• Uniform coefficient of linear expansion eliminates chip cracking during thermal shock.

• No cracking of case or potting at elevated temperatures. • Impervious to moisture penetration. • Superior volumetric efficiency.

C0G (NPO) capacitors which exhibit little change in capacitancewith variations in temperature, are used in RF oscillators, preci-sion timing circuits, wave filters and other circuits requiring apredicatable linear temperature coefficient.

Installation:Parts should be soldered using a heat sink between the solder-ing point and the part using a soldering iron rated between18-30 watts. Soldering temperature should not exceed +300°C.For wave soldering, the parts should be slowly heated to +150°Cand, after soldering, be allowed to cool down slowly to +90°C topreclude thermal shocking of the parts.

General Specifications:Temperature Coefficient: 0±30ppm/°C from -55°C to +125°C. Capacitance Tested at: 1MHz, 1.0Vrms for C<100pF.

1kHz, 1.0Vrms for C>100pF. Dissipation Factor (tan): 0.15% at same test condition as

capacitance measurement. Insulation Resistance:100K Megohms or 1,000 Megohm-µF min.

whichever is less, at +25°C.10K Megohms or 100 Megohm-µF min.

whichever is less, at +200°C. Dielectric Withstanding Voltage: 250% of rated dc voltage. Environmental and Mechanical Tests:Capable of meeting MIL-PRF-20 requirements.

Notes:1. In the table (next page), = COG (NPO)/BP Dielectric. 2. In the table (next page), indicates the sizes and capacitance ranges

specified in MIL-PRF-20, CC/CCR75, 76, 77, 78, 79 for axials and CC/CCR05,06 and 07for radials

3. Capacitor sizes and capacitance values shown in the table (next page) are standard. Other sizes and capacitance values are available upon request.

4. Capacitance Tolerances: ±1%, ±2%, ±5%, ±10%(±.25pF, ±.5pF available for 1.0pF to 10pF only)

Marking:Capacitance, Manufacturer's ID, Tolerance, Voltage, Lot/Date Code

Part Number and Ordering Information

TEST LEVELS = KEMET standard screeningA = MIL-PRF-20, Group A TestX = Special

LEAD MATERIALS PER MIL-STD-1276W = Copper clad steel, type W4 or W5N = Nickel, type N1G = Standard lead gold plated copper

clad steel, type N1

CAPACITANCE TOLERANCESF = ±1% M = ±20%G = ±2% Z = -20% +80%J = ±5% P = -0% +100%K = ±10% X = Special ToleranceC = ±.25pF D = ±.5pF

CAPACITANCE CODE3 Digit code system expressed inpicofarads (pF)103 = 10,000pF151 = 150pF6R8 = 6.8pF

PRODUCT FAMILYS = Standard Axial and

Radial Capacitors

TEMP. CHARACTERISTICC = C0G (NP0)

LEAD CONFIGURATIONA = AxialR = RadialS = Special

STYLECase Size.See data sheet for detail dimensions

S C R 05 B 103 K G S

VOLTAGE RATINGB = 50vdcD = 100vdcF = 200vdcS = Special

Standard (+125ºC) Axial and Radial Ceramic Cased Capacitors (C3)C0G (NP0)/BP Dielectric


Hig

h Te

mpe

ratu

reC

eram

ic C

apac

itors

Standard (+125ºC) Axial and Radial Ceramic Cased Capacitors (C3)C0G (NP0)/BP Dielectric

AXIAL(All Dimensions in Inches)

RADIAL(All Dimensions in Inches)

STYLE 16 25 39 50 69 05 06 07 08 09

DIM

EN

SIO

NS L .170 max .270 max .400 max .520 max .720 max .200 max .300 max .300 max .500 max .500 max

W .080 max .100 max .150 max .265 max .370 max .200 max .300 max .300 max .500 max .500 maxT .080 max .100 max .150 max .160 max .160 max .100 max .100 max .150 max .100 max .100 maxD .200 ±.030 .200 ±.030 .200 ±.030 .400 ±.030 .400 ±.030d .020 ±.002 .020 ±.002 .025 ±.002 .025 ±.002 .025 ±.002 .020 ±.002 .020 ±.002 .020 ±.002 .025 ±.002 .025 ±.002

WVDC 50 100 200 50 100 200 50 100 200 50 100 200 50 100 200 50 100 200 50 100 200 50 100 200 50 100 200 50 100 200

CA

PA

CIT

AN

CE

RA

NG

E

1.0 (pF)1.21.51.82.22.93.33.94.75.66.88.2101215182227333947566882100120150180220270330390470560680820100012001500180022002700330039004700560068008200.01 (µF).012.015.018.022.027.033.039.047.056.068.082.10.12.15.18

Notes:1. In the table (next page), = X7R and BX charateristics. 2. In the table (next page), = X7R characteristic only. 3. In the table (next page), indicates the sizes and capacitance range

specified in MIL-PRF-39014, CKR 11, 12, 14, 15 and 16 for axials andCKR 05 and 06 for radials.

4. Capacitor sizes and capacitance values shown in the table (next page) are standard. Other sizes and capacitance values are available upon request.

5. Capacitance Tolerances: ±5%, ±10%, ±20%

Marking:Capacitance, Manufacturer's ID, Tolerance, Voltage, Lot/Date Code.


Applications:Ceramic cased capacitors are a new unique design conceptwhich eliminates potential problems associated with convention-al epoxy cased/epoxy potted capacitors.


• No cracking of case or potting at elevated temperatures. • Impervious to moisture penetration. • Superior volumetric efficiency.

BX and X7R capacitors are used in coupling circuits (IF and RF);for bypassing and decoupling in computers and servo sytems;power supply line filtering and frequency discrimination.

Installation:Parts should be soldered using a heat sink between thesoldering point and the part using a soldering iron rated between18-30 watts. Soldering temperature should not exceed +300°C.For wave soldering, the parts should be slowly heated to +150°Cand, after soldering, be allowed to cool down slowly to +90°C topreclude thermal shocking of the parts.

General Specifications:Voltage Temperature Limits: From -55°C to +125°C.

Without DC bias: ±15% (X7R and BX).With rated DC voltage: +15%, -25% (BX only)

Capacitance Tested at: 1kHz, 1.0Vrms. Dissipation Factor (tan): 2.5% at 1kHz, 1.0VrmsInsulation Resistance:100K Megohm or 1K Megohm-µF, whichever is less, at +25°C. 10K Megohm or 100 Megohm-µF, whichever is less, at +125°C. Dielectric Withstanding Voltage: 250% of rated dc voltage. Environmental and Mechanical Tests:Capable of meeting MIL-PRF-39014 requirements.


LEAD MATERIALS PER MIL-STD-1276W = Copper clad steel, type W4 or W5N = Nickel, type N1G = Standard lead gold plated copper

clad steel, type N1

CAPACITANCE TOLERANCESJ = ±5% M = ±20%K = ±10% X = Special Tolerance


PRODUCT FAMILYS = Standard Axial and

Radial CapacitorsTEMP. CHARACTERISTIC

C = C0G (NP0)/BPR = X7RX = BX



S R R 05 B 103 K G S

VOLTAGE RATINGB = 50vdcD = 100vdcF = 200vdcS = Special

Standard (125ºC) Axial and Radial Ceramic Cased Capacitors (C3)BX and X7R Dielectric





Hig

h T

emp

erat

ure

Cer

amic

Cap

acit

ors

Standard Axial and Radial Ceramic Cased Capacitors (C3)BX and X7R Dielectric

STYLE 16 25 39 50 69 05 06 07 08 09

DIM

EN

SIO



WVDC 50 100 200 50 100 200 50 100 200 50 100 200 50 100 200 50 100 200 50 100 200 50 100 200 50 100 200 50 100 200

CA

PA

CIT

AN

CE

RA

NG

E

100(pF)120150180220270330390470560680820100012001500180022002700330039004700560068008200.01 (µF).012.015.018.022.027.033.039.047.056.068.082.10.12.15.18.22.27.33.39.47.56.68.821.01.21.51.82.22.73.33.94.75.66.88.2


Notes:1. In the table (next page), = C0G (NP0) dielectric.2. Capacitor sizes and capacitance values shown in the table (next page)

are standard. Other sizes and capacitance values are available upon request. 3. Capacitance Tolerances: ±1% ±2%, ±5%, ±10%, ±20%

(±25pF and ±5pF available for 1.0pF only).


Applications:High temperature eramic cased capacitors, with a new, uniquedesign concept are ideally suited for continuous operation up to+200ºC. Problems associated with epoxy cased/epoxy pottedcapacitors, such as material deterioration, cracks in cases andpotted areas, are nonexistent, even at +200ºC.


• No “pull-away” of epoxy potting from epoxy case at elevated temperatures.

• Impervious to moisture penetration. • Superior volumetric efficiency.

C0G (NPO) capacitors which exhibit little change in capacitancewith variations in temperature, are used in RF oscillators, preci-sion timing circuits, wave filters and other circuits requiring apredicatable linear temperature coefficient.

Installation:Parts should be soldered using a heat sink between thesoldering point and the part using a soldering iron rated between18-30 watts. Soldering temperature should not exceed +300°C.

General Specifications:Voltage Rating: 50/100VDC at 200ºC.Temperature Coefficient:0, ±30ppm/°C from -55°C to +125°C Capacitance: 1MHz, 1.0Vrms for ≤ 100pF

1kHz, 1.0Vrms for > 100pFDissipation Factor (tan): 0.15% at same test conditions ascapacitance measurements.Insulation Resistance:100K Megohm or 1K Megohm-µF, whichever is less, at +25°C. 10K Megohm or 100 Megohm-µF, whichever is less, at +125°C. Dielectric Withstanding Voltage: 250% of rated dc voltage.


LEAD MATERIALS PER MIL-STD-1276W = Copper clad steel, type W4 or W5G = Standard lead gold plated copper

clad steel, type N1

CAPACITANCE TOLERANCESF = ±1% C = ±0.25pFG = ±2% M = ±20%J = ±5% X = Special ToleranceK = ±10% D = ±0.5pF


PRODUCT FAMILYA = High Temperature Axial

and Radial Capacitors

TEMP. CHARACTERISTICC = C0G (NP0)/BP



A C R 06 B 103 K G S

VOLTAGE RATINGB = 50vdcD = 100vdcS = Special

High Temperature (+200°C) Axial and Radial Ceramic Cased Capacitors (C3)C0G (NP0)/BP Dielectric



Hig

h Te

mpe

ratu

reC

eram

ic C

apac

itors




STYLE 16 25 39 50 69 05 06 07 08 09

DIM

EN

SIO



WVDC 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100

CA

PA

CIT

AN

CE

RA

NG

E

1.0 (pF)1.21.51.82.22.93.33.94.75.66.88.2101215182227333947566882100120150180220270330390470560680820100012001500180022002700330039004700560068008200.01 (µF).012.015.018.022.027.033.039.047.056.068.082.10.12



Notes:1. In the table (next page), = X7R dielectric.2. Capacitor sizes and capacitance values shown in the table (next page)

are standard. Other sizes and capacitance values are available upon request. 3. Capacitance Tolerances: ±5%, ±10%, ±20%


Applications:High temperature ceramic cased capacitors, with a new, uniquedesign concept, are ideally suited for continuous operation up to+200°C. Problems associated with epoxy cased-epoxy pottedcapacitors, such as material deterioration, cracks in cases andpotted areas, are nonexistent, even at +200°C.



• Impervious to moisture penetration.• Superior volumetric efficiency

Specially formulated X7R ceramic materials result in a retentionof 40% of the +25°C capacitance. Dissipation factor drops from1.8% at +25°C to 0.5% at +200°C. At +120°C the ceramicundergoes a transformation (crystalline inversion) resulting in thematerial changing from ferroelectric to paraelectric - no piezo-electric behavior.

Typical applications include oil well logging (down hole), jetengine controls, geophysical pressure probes and, in the future,SDI (Strategic Defense Initiative).


General Specifications:Voltage Rating: 50/100VDC at +200ºC.Temperature Coefficient: ±15% from -55°C to +125°C Capacitance: at 1kHz, 1.0Vrms.Dissipation Factor (tan): 2.5% at 1kHz, 1.0Vrms. Insulation Resistance:100K Megohm or 1K Megohm-µF, whichever is less, at +25°C. 10K Megohm or 100 Megohm-µF, whichever is less, at +125°C. Dielectric Withstanding Voltage: 250% of rated dc voltage.



clad steel, type N1

CAPACITANCE TOLERANCESJ = ±5%K = ±10%M = ±20%X = Special Tolerance


PRODUCT FAMILYA = High Temperature Axial


TEMP. CHARACTERISTICR = X7R



A R R 06 B 103 K G S


High Temperature (+200°C) Axial and Radial Ceramic Cased Capacitors (C3)X7R Dielectric


Hig

h T

emp

erat

ure

Cer

amic

Cap

acit

ors




STYLE 16 25 39 50 69 05 06 07 08 09

DIM

EN

SIO



WVDC 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100

CA

PA

CIT

AN

CE

RA

NG

E

100(pF)120150180220270330390470560680820100012001500180022002700330039004700560068008200.01 (µF).012.015.018.022.027.033.039.047.056.068.082.10.12.15.18.22.27.33.39.47.56.68.821.01.21.51.82.22.73.33.94.75.66.88.2




are standard. Other sizes and capacitance values are available upon request. 3. Capacitance Tolerances: ±1%, ±2%, ±5%, ±10%, ±20%

Marking:Capacitance, Manufacturer's ID, Tolerance, Voltage, Lot/Date Code,Red dot = +260°C.




• Impervious to moisture penetration.• Superior volumetric efficiency• Improved terminal pull strength at +260ºC.

COG (NPO) capacitors, which exhibit little change in capaci-tance with variations in temperature, are used in RF oscillators,precision timing circuits, wave filters, and other circuits requiringa predictable linear temperature coefficient.


General Specifications:Voltage Rating: 50/100VDC at +260ºC.Temperature Coefficient:0, ±30ppm/°C from -55°C to +125°C Capacitance: 1MHz, 1.0Vrms for ≤ 100pF

1kHz, 1.0Vrms for > 100pF4. Dissipation Factor (tan): 0.15% at same test conditions

as capacitance measurements. 5. Insulation Resistance:100K Megohm or 1K Megohm-µF, whichever is less, at +25°C. 10K Megohm or 100Megohm-µF, whichever is less, at +125°C. 6. Dielectric Withstanding Voltage: 250% of rated dc voltage.



clad steel, type N1

CAPACITANCE TOLERANCESF = ±1% C = ±0.25pFG = ±2% M = ±20%J = ±5% X = Special ToleranceK = ±10% D = ±0.5pF


PRODUCT FAMILYT = High Temperature Axial





T C R 06 B 103 K G S




Hig

h Te

mpe

ratu

reC

eram

ic C

apac

itors




STYLE 16 25 39 50 69 05 06 07 08 09

DIM

EN

SIO



WVDC 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100

CA

PA

CIT

AN

CE

RA

NG

E

1.0 (pF)1.21.51.82.22.93.33.94.75.66.88.2101215182227333947566882100120150180220270330390470560680820100012001500180022002700330039004700560068008200.01 (µF).012.015.018.022.027.033.039.047.056.068.082.10.12




are standard. Other sizes and capacitance values are available upon request. 3. Capacitance Tolerances: ±5%, ±10%, ±20%

Marking:Capacitance, Manufacturer's ID, Tolerance, Voltage, Lot/Date Code,Red dot = +260°C.




• Impervious to moisture penetration.• Superior volumetric efficiency • Improved terminal pull strength at +260ºC.

Specially formulated X7R ceramic materials result in a retentionof 40% of the +25°C capacitance at +200°C. Conventional X7Rmaterials lose up to 75% of the +25°C capacitance. Dissipationfactor drops from 1.8% at +25°C to 0.5% at +260°C. At +120°Cthe ceramic undergoes a transformation (crystalline inversion)resulting in the material changing from ferroelectric to paraelec-tric - no piezoelectric behavior. Typical applications include oil well logging (down hole), jetengine controls, geophysical pressure probes and, in the future,SDI (Strategic Defense Initiative).

Installation:Parts should be soldered using a heat sink between thesoldering point and the part using a soldering iron rated 18-30watts. Soldering temperature should not exceed +300°C.

General Specifications:Voltage Rating: 50/100VDC at +260ºC.Temperature Coefficient: ±15% from -55°C to +125°C Capacitance: at 1kHz, 1.0Vrms.Dissipation Factor (tan): 2.5% at 1kHz, 1.0Vrms Insulation Resistance:100K Megohm or 1K Megohm-µF, whichever is less, at +25°C. 10K Megohm or 100 Megohm-µF, whichever is less, at +125°C. Dielectric Withstanding Voltage: 250% of rated dc voltage.



clad steel, type N1

CAPACITANCE TOLERANCESJ = ±5% M = ±20%K = ±10% X = Special Tolerance


PRODUCT FAMILYT = High Temperature Axial





T R R 06 B 103 K G S




Hig

h T

emp

erat

ure

Cer

amic

Cap

acit

ors




STYLE 16 25 39 50 69 05 06 07 08 09

DIM

EN

SIO



WVDC 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100 50 100

CA

PA

CIT

AN

CE

RA

NG

E

100(pF)120150180220270330390470560680820100012001500180022002700330039004700560068008200.01 (µF).012.015.018.022.027.033.039.047.056.068.082.10.12.15.18.22.27.33.39.47.56.68.821.01.21.51.82.22.73.33.94.75.66.88.2



are standard. Other sizes and capacitance values are available upon request. 3. Capacitance Tolerances: ±5%, ±10%, ±20%, -20%/+80%


Applications:Ceramic cased capacitors, with a new, unique design conceptwhich eliminates potential problems associated with convention-al epoxy cased-epoxy potted capacitors.


• Impervious to moisture penetration.

Major application is high voltage power supplies. High voltagecapacitors are also utilized on high voltage meter multiplier andRF circuits.

Installation:Parts should be soldered using a heat sink between thesoldering point and the part using a soldering iron rated 18-30watts. Remove all traces of flux or other contamination resultingfrom the soldering operation. An intermittent conducting pathbetween the leads, at high voltage, could cause breakdown.Soldering temperature should not exceed +240°C.

General Specifications:Temperature Characteristic: C0G (NP0): ±30ppm/ºC(from -55ºC to +125ºC)Capacitance: at 1MHz, 1.0Vrms, for C<100pF

1kHz, 1.0Vrms, for C>100pFDissipation Factor (tan):(at same test condition as capacitance test)

C0G (NP0): 0.15%Insulation Resistance:(at rated DC voltage or 1kV, whichever is less)100K Megohm or 1K Megohm-µF, whichever is less, at +25°C. 10K Megohm or 100 Megohm-µF, whichever is less, at +125°C. Dielectric Withstanding Voltage:

200% of rated dc voltage - 500 and 1000VDC parts150% of rated dc voltage - 2000 - 5000VDC parts


LEAD MATERIALS PER MIL-STD-1276W = Copper clad steel, type W4 or W5G = Gold plated nickel, type N2

CAPACITANCE TOLERANCESF = ±1% (NP0 only) K = ±10%G = ±2% (NP0 only) M = ±20%J = ±5% Z = -20%/+80%


PRODUCT FAMILYV = High Voltage Radial

Capacitors


LEAD CONFIGURATIONR = Radial


V R R 40 M 102 K W A

VOLTAGE RATINGL = 500vdc V = 3000vdcM = 1000vdc W = 4000vdcT = 2000vdc X = 5000vdc

High Voltage (+200ºC) Radial Ceramic Cased Capacitors (C3)C0G (NP0)/BP

TEST LEVELS = KEMET standard screeningA = MIL-PRF-20, Group A TestX = SpecialZ = Additional screening waivered


High Voltage (+200ºC) Radial Ceramic Cased Capacitors (C3)C0G (NP0)/BP

Hig

h Te

mpe

ratu

reC

eram

ic C

apac

itors


STYLE 07 40 50 60 70 80

DIM

EN

SIO

NS L .300 max .350 max .450 max .550 max .650 max .750 max

W .300 max .400 max .500 max .600 max .700 max .800 maxT .150 max .275 max .300 max .375 max .375 max .375 maxD .200 .300 .400 .500 .600 .700d .025 ±.002 .032 ±.004 .032 ±.004 .032 ±.004 .032 ±.004 .032 ±.004

WVDC 500 1k 2k 500 1k 2k 3k 4k 500 1k 2k 3k 4k 5k 500 1k 2k 3k 4k 5k 500 1k 2k 3k 4k 5k 500 1k 2k 3k 4k 5k

CA

PA

CIT

AN

CE

RA

NG

E

10 (pF)1215182227333947566882100120150180220270330390470560680820100012001500180022002700330039004700560068008200.01 (µF).012.015.018.022.027.033.039.047.056

TEST LEVELS = KEMET standard screeningA = MIL-PRF-39014, Group A TestX = SpecialZ = Additional screening waivered



are standard. Other sizes and capacitance values are available upon request. 3. Capacitance Tolerances: ±5%, ±10%, ±20%, -20%/+80%


Applications:Ceramic cased capacitors, with a unique design concept whicheliminates potential problems associated with conventionalepoxy cased-epoxy potted capacitors.


• Impervious to moisture penetration.

Major application is high voltage power supplies. High voltagecapacitors are also utilized on high voltage meter multiplier andRF circuits.

Installation:Parts should be soldered using a heat sink between thesoldering point and the part using a soldering iron rated 18-30watts. Remove all traces of flux or other contamination resultingfrom the soldering operation. An intermittent conducting pathbetween the leads, at high voltage, could cause breakdown.Soldering temperature should not exceed +240°C.

General Specifications:Temperature Characteristic: X7R: ±15%(from -55ºC to +125ºC)Capacitance: at 1MHz, 1.0Vrms, for C<100pF

1kHz, 1.0Vrms, for C>100pFDissipation Factor (tan):(at same test condition as capacitance test)

X7R: 2.5%Insulation Resistance:(at rated DC voltage or 1kV, whichever is less)100K Megohm or 1K Megohm-µF, whichever is less, at +25°C. 10K Megohm or 100 Megohm-µF, whichever is less, at +125°C. Dielectric Withstanding Voltage:200% of rated dc voltage - 500 and 1000VDC parts150% of rated dc voltage - 2000 - 5000VDC parts


LEAD MATERIALS PER MIL-STD-1276W = Copper clad steel, type W4 or W5G = Gold plated nickel, type N2

CAPACITANCE TOLERANCESF = ±1% (NP0 only) K = ±10%G = ±2% (NP0 only) M = ±20%J = ±5% Z = -20%/+80%


PRODUCT FAMILYV = High Voltage Radial

Capacitors


LEAD CONFIGURATIONR = Radial


V R R 40 M 102 K W A

VOLTAGE RATINGL = 500vdc V = 3000vdcM = 1000vdc W = 4000vdcT = 2000vdc X = 5000vdc

High Voltage (+200ºC) Radial Ceramic Cased Capacitors (C3)X7R Dielectric


Hig

h T

emp

erat

ure

Cer

amic

Cap

acit

ors

High Voltage (+200ºC) Radial Ceramic Cased Capacitors (C3)X7R Dielectric


STYLE 07 40 50 60 70 80

DIM

EN

SIO

NS L .300 max .350 max .450 max .550 max .650 max .750 max

W .300 max .400 max .500 max .600 max .700 max .800 maxT .150 max .275 max .300 max .375 max .375 max .375 maxD .200 .300 .400 .500 .600 .700d .025 ±.002 .032 ±.004 .032 ±.004 .032 ±.004 .032 ±.004 .032 ±.004

WVDC 500 1k 2k 500 1k 2k 3k 4k 500 1k 2k 3k 4k 5k 500 1k 2k 3k 4k 5k 500 1k 2k 3k 4k 5k 500 1k 2k 3k 4k 5k

CA

PA

CIT

AN

CE

RA

NG

E

100(pF)120150180220270330390470560680820100012001500180022002700330039004700560068008200.01 (µF).012.015.018.022.027.033.039.047.056.068.082.10.12.15.18.22.27.33.39.47.56.68.821.01.2


Dielectric ComparisonsFeatures Ultra Stable Semi-Stable Semi-Stable Semi-Stable

High Voltage Low DF Hi-TempDielectric Type C0G (NPO) X7R KDA X7R type

Temperature Coefficient 0 ±30ppm/ºC ±15% +21/-24% +15/-40%Voltage Coefficient Zero See curves See curves See curves

Operating Temp. Range -55 to +200ºC -55 to +125ºC -55 to +115ºC -55 to +200ºCDissipation Factor 0.1% max. 2.5% max. 0.2% max. 2.0% max.

Aging Rate None -2.0% max/dec. hour None -2.0% max/dec. hourVoltage Range 25 to 10K VDC 50 to 10K VDC 50 to 10K VDC 25 to 4K VDC

Standard Tolerance J, K, M K, M, P, Z K, M, P, Z K, M, P, ZCoefficient of Thermal

Expansion @ 25ºC 9 X 10-6 IN/IN ºC 11 X 10-6 IN/IN ºC 9 X 10-6 IN/IN ºC 11 X 10-6 IN/IN ºC

Environmental LimitsCapacitance & Dissipation Factor (DF): Method 305 of MIL-STD-202 where applicable. Dielectric Withstanding Voltage (DWV): Method 301 of MIL-STD-202 where applicable.

Body Insulation: 1000 VDC per MIL-PRF-49467, MIL-PRF-39014where applicable.

Partial Discharge (Corona): AC test per MIL-PRF-49467. Resistance to Soldering Heat: Method 201 of MIL-STD-202 where applicable.

Insulation Resistance: Method 302 of MIL-STD-202. Solderability: Method 208 of MIL-STD-202.

Vibration: Method 204, Cond D (20 G's) of MIL-STD-202. Shock: Method 213, Cond I (100 G's) of MIL-STD-202.

Immersion: Method 104, Cond B of MIL-STD-202. Moisture Resistance: Method 106 of MIL-STD-202.

Fungus: Certification Available. Resistance to Solvents: Method 215 of MIL-STD-202.

Life: Method 108 of MIL-STD-202 where applicable. Low Temperature Storage: 8 hours at -65°C minimum.

Voltage Conditioning: 96 hours minimum at 125°C. Thermal Shock: Method 107 of MIL-STD-202, Condition A, Step 3 at +125ºC.

Terminal Strength: Method 211 of MIL-STD-202. Group A Inspection: MIL-PRF-49467, MIL-PRF-39014 where applicable.

As required by contract or specification.* Group B Inspection: MIL-PRF-49467, MIL-PRF-39014 where applicable.

As required by contract or specification.*

* Group A and Group B inspection lAW M49467/M39014 are also available when required by contract orcustomer specification.

Mechanical (Except as Noted)Density Typical High Voltage Capacitor Density of 80 grams/cubic inchDensity Typical SMPS Capacitor Density of 91 grams/cubic inch

High Voltage Multilayer Ceramic Capacitors


Low DF KDA, High Voltage MLC -55ºC to +115ºC1. Conformally coated, multilayer ceramic configuration. 2. DF 0.2% maximum.3. Non piezoelectric and very low hysteresis. 4. Low ESR over a wide frequency range. 5. Excellent performance for 400 Hz AC application. 6. VTC meets BR (-40%) at 75% rated voltage. 7. No IR degradation over life. 8. Group A and B screening available. 9. CSAM, SLAM and Partial Discharge (Corona) available.


±0.030 (S)Width (W) Height (H) Thickness (T)

HV20 .250 .220 .200 .170HV21 .320 .280 .250 .220HV22 .370 .300 .250 .275HV30 .450 .220 .200 .300HV23 .470 .400 .270 .375HV31 .550 .280 .250 .400HV24 .570 .500 .270 .475HV25 .670 .600 .270 .575HV26 .770 .720 .270 .675HV33 .850 .400 .270 .700HV34 1.050 .500 .270 .975HV35 1.250 .600 .270 1.175HV36 1.450 .720 .270 1.375

Size Information

KDA Dielectric Capacitance Ranges

Marking

(HV20, HV21) (All Other Sizes)103K HV24A103K1 kV 1 kVKD KDDate Code Date Code

Part Numbering

Style500 VDC 1k VDC 2k VDC 3k VDC 4k VDC 5k VDC 7k VDC 10k VDC

Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. Min. Max.

HV20 220pF .018µF 220pF .012µF 100pF 2200pF --- --- --- --- --- --- --- --- --- ---

HV21 390pF .047µF 390pF .033µF 180pF 6800pF 180pF 3900pF --- --- --- --- --- --- --- ---

HV22 390pF .068µF 390pF .039µF 220pF .010µF 220pF 4700pF --- --- --- --- --- --- --- ---

HV23 1000pF .15µF 1000pF .10µF 390pF .018µF 390pF .010µF 82pF 3900pF --- --- --- --- --- ---

HV24 1800pF .27µF 1800pF .18µF 820pF .039µF 820pF .022µF 150pF 6800pF 150pF 5600pF --- --- --- ---

HV25 3300pF .47µF 3300pF .27µF 1200pF .056µF 1200pF .033µF 220pF .01µF 220pF 8200pF --- --- --- ---

HV26 3900pF .68µF 3900pF .47µF 2200pF .10µF 2200pF .056µF 390pF .018µF 390pF .015µF --- --- --- ---

HV30 560pF .056µF 560pF .033µF 120pF 3900pF 120pF 2700pF 47pF 1000pF --- --- --- --- --- ---

HV31 820pF .10µF 820pF .068µF 220pF .01µF 220pF 5600pF 82pF 3300pF 82pF 2700pF --- --- --- ---

HV33 2700pF .39µF 2700pF .27µF 560pF .039µF 560pF .025µF 220pF 8200pF 220pF 6800pF 82pF 1800pF --- ---

HV34 3900pF .056µF 3900pF .39µF 1200pF .082µF 1200pF .047µF 390pF .018µF 390pF .015µF 180pF 3900pF 180pF 2200pF

HV35 5600pF 1.00µF 5600pF .56µF 1800pF .12µF 1800pF .082µF 680pF .027µF 680pF .022µF 270pF 5600pF 270pF 3300pF

HV36 8200pF 1.50µF 8200pF .82µF 2200pF .18µF 2200pF .12µF 1000pF .047µF 1000pF .039µF 390pF .010µF 390pF 5600pF

Hig

h V

olta

geC

eram

ic C

apac

itors

K = ±10%M = ±20%P = 0/+100%Z = -20%/+80%


High Voltage MLC Capacitor C0G (NP0) -55ºC to +115ºC1. Conformally coated. 2. DF 0.1% max. 3. MIL-PRF-49467 established reliability type 4. Zero temperature and voltage coefficient and capacitance aging. 5. Predictable temperature coefficient. 6. Excellent frequency characteristics. 7. DSCC drawing approvals: 87046 (1kV), 87114 (3kV),

87076 (4kV), 87077 (5kV). 8. No IR degradation over life. 9. Group A and Group B screening available.

10. CSAM, SLAM and Partial Discharge (Corona) available.




Size Information

C0G (NP0) Dielectric Capacitance Ranges

Marking

(HV20, HV21) (All Other Sizes)102K HV23N102K 1kV 1kV KD KD Date Code Date Code

Part Numbering



HV20 27pF 4700pF 27pF 1500pF 12pF 680pF 12pF 150pF --- --- --- --- --- --- --- ---

HV21 39pF 8200pF 39pF 3900pF 22pF 820pF 22pF 560pF --- --- --- --- --- --- --- ---

HV22 47pF .01µF 47pF 6800pF 27pF 1200pF 27pF 680pF --- --- --- --- --- --- --- ---


HV24 220pF .056µF 220pF .033µF 100pF 6800pF 100pF 3900pF 18pF 1500pF 18pF 1000pF --- --- --- ---



HV30 68pF .015µF 68pF 4700pF 15pF 1000pF 15pF 390pF 10pF 220pF --- --- --- --- --- ---

HV31 82pF .027µF 82pF .010µF 27pF 2200pF 27pF 820pF 10pF 560pF 10pF 390pF --- --- --- ---

HV33 330pF .120µF 330pF .068µF 68pF .01µF 68pF 4700pF 27pF 1500pF 27pF 1200pF 12pF 470pF --- ---

HV34 470pF .150µF 470pF .056µF 120pF .015µF 120pF 5600pF 47pF 3300pF 47pF 2200pF 18pF 1000pF 18pF 820pF

HV35 680pF .220µF 680pF .10µF 220pF .022µF 220pF .015µF 82pF 5600pF 82pF 3900pF 33pF 1800pF 33pF 1200pF

HV36 1000pF .330µF 1000pF .15µF 270pF .039µF 270pF .018µF 120pF 8200pF 120pF 5600pF 56pF 2700pF 56pF 5600pF

F = ±1%G = ±2%J = ±5%K = ±10%M = ±20%

N = C0G(NP0)


High Voltage MLC Capacitor X7R -55ºC to +125ºC1. Conformally coated. 2. Monolithic multilayer ceramic (MLC). 3. MIL-PRF-49467 established reliability type 4. Designed for the typical high voltage circuit application. 5. High density, low DF ceramic. 6. No IR degradation over life. 7. DSCC drawing approvals: 87043 (1kV), 87040 (3kV), 89044 (4kV),

87070 (5kV), 87081 (10kV). 8. MIL-PRF-49467 qualification pending. 9. Group A and Group B screening available.

10. CSAM, SLAM and Partial Discharge (Corona) available.




Size Information

X7R Dielectric Capacitance Ranges

Marking

(HV20, HV21) (All Other Sizes)103K HV24B103K 1 kV 1 kV KD KD Date Code Date Code

Part Numbering



HV20 680pF .082µF 680pF .022µF 270pF 3900pF --- --- --- --- --- --- --- --- --- ---



HV23 3300pF .560µF 3300pF .270µF 1200pF .033µF 1200pF .015µF 270pF 6800pF --- --- --- --- --- ---

HV24 6800pF 1.20µF 6800pF .470µF 2700pF .068µF 2700pF .033µF 470pF .010µF 470pF 6800pF --- --- --- ---

HV25 .010µF 1.80µF .010µF .680µF 3900pF .100µF 3900pF .390µF 680pF .015µF 680pF .010µF --- --- --- ---

HV26 .015µF 2.50µF .015µF 1.00µF 6800pF .180µF 6800pF .082µF 1200pF .027µF 1200pF .015µF --- --- --- ---



HV33 .010µF 1.50µF .010µF .680µF 1800pF .082µF 1800pF .270µF 680pF .012µF 680pF 8200pF 220pF 3300pF --- ---

HV34 .012µF 2.20µF .012µF 1.00µF 3300pF .150µF 3300pF .056µF 1200pF .027µF 1200pF .022µF 470pF 6800pF 470pF 3900pF

HV35 .018µF 3.90µF .018µF 1.50µF 5600pF .250µF 5600pF .082µF 2200pF .047µF 2200pF .027µF 820pF .010µF 820pF 5600pF

HV36 .027µF 5.60µF .027µF 2.20µF 8200pF .390µF 8200pF .120µF 3300pF .068µF 3300pF .390µF 1200pF .180µF 1200pF .010µF

Hig

h V

olt

age

Cer

amic

Cap

acit

ors

K = ±10%M = ±20%P = 0/+100%Z = -20%/+80%


High Voltage C0G (NP0)/BP & X7R (BR, BZ) MIL-PRF-49467 (Equivalent)1. Electrical characteristics and environmental information on these parts may be

obtained by referring to MIL-PRF-49467. 2. All parts are conformal coated multilayer ceramic. 3. Designed to provide excellent long-term reliability. 4. Parts are Group A screened to MIL-PRF-49467 which includes 100% Corona

testing and meet all other specification requirements. 5. Designed for surface, sea and airborne military and commercial high-reliability

applications. 6. No IR degradation over life. 7. BR (X7R) V/TC is -40% at rated voltage and BZ (X7R) V/TC is -40% at

60% rated voltage. 8. BX characteristic (-25%) on BR parts is approximately 52% rated voltage. 9. 100% Non-destructive test by means of CSAM or SLAM inspection available.



HV60 .250 .220 .200 .170HV61 .320 .280 .250 .220HV62 .370 .300 .250 .275HV63 .470 .400 .270 .375HV64 .570 .500 .270 .475HV65 .670 .600 .270 .575HV66 .770 .720 .270 .675HV68 1.300 .600 .270 1.175HV69 1.500 .720 .270 1.375

Size Information

C0G (NP0)/BP Dielectric Capacitance Ranges

Style600 VDC 1k VDC 2k VDC 3k VDC 4k VDC 5k VDC

Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. Min. Max.

HV60 27pF 5600pF 27pF 680pF 12pF 330pF --- --- --- --- --- ---

HV61 39pF .012µF 39pF 1800pF 22pF 820pF 22pF 470pF --- --- --- ---

HV62 47pF .015µF 47pF 2700pF 27pF 1200pF 27pF 680pF --- --- --- ---

HV63 120pF .039µF 120pF 4700pF 47pF 2200pF 47pF 1500pF 47pF 1000pF --- ---

HV64 220pF 0.68µF 220pF .01µF 100pF 4700pF 100pF 3300pF 100pF 1800pF 100pF 1200pF

HV65 --- --- 390pF .015µF 150pF 6800pF 150pF 4700pF 150pF 3300pF 150pF 2200pF

HV66 --- --- 470pF .027µF 270pF .01µF 270pF 6800pF 270pF 4700pF 270pF 3300pF

High Voltage C0G (NP0)/BP & X7R (BR, BZ) MIL-PRF-49467 (Equivalent) (Cont.)


Marking(HV60, HV61) (All Other Sizes)102K HV63R102K 1 kV 1 kV KD KD Date Code Date Code

Part Numbering

BR, BZ (X7R) Dielectric Capacitance Ranges

BR, BZ (X7R) Dielectric Capacitance Ranges (Continued)

Style

600 VDC 1k VDC 2k VDC 3k VDC

BR BZ BR BZ BR BZ BR BZ


HV60 680pF .027µF --- --- 680pF 4700pF 680pF .01µF 270pF 1500pF 270pF 2700pF --- --- --- ---

HV61 1200pF .082µF --- --- 1200pF .01µF 1200pF .015µF 560pF 3900pF 560pF 6800pF 560pF 1500pF 560pF 2700pF

HV62 1200pF .10µF --- --- 1200pF .015µF 1200pF .022µF 680pF 5600pF 580pF .01µF 680pF 2200pF 680pF 3900pF

HV63 3300pF .27µF --- --- 3300pF .039µF 3300pF .056µF 1200pF .015µF 1200pF .027µF 1200pF 6800pF 1200pF .012µF

HV64 6800pF .47µF --- --- 6800pF .10µF 6800pF .12µF 2700pF .033µF 2700pF .056µF 2700pF .012µF 2700pF .022µF

HV65 --- --- --- --- .10µF .15µF .10µF .18µF 3900pF .047µF 3900pF .082µF 3900pF .022µF 3900pF .033µF

HV66 --- --- --- --- .15µF .47µF --- --- 6800pF .10µF 680pF .15µF 6800pF .039µF 6800pF .056µF

HV68 --- --- --- --- --- --- --- --- --- --- --- --- 5600pF .056µF 5600pF .068µF

HV69 --- --- --- --- --- --- --- --- --- --- --- --- 8200pF .10µF --- ---

Style

4k VDC 5k VDC

BR BZ BR BZ

Min. Max. Min. Max. Min. Max. Min. Max.

HV63 27pF 4700pF 27pF 6800pF --- --- --- ---

HV64 470pF 6800pF 470pF .01µF 470pF 2200pF 470pF 6800pF

HV65 680pF .01µF 680pF .015µF 680pF 5600pF 680pF .01µF

HV66 1200pF .018µF 1200pF .027µF 1200pF 8200pF 1200pF .015µF

HV68 2200pF .027µF 2200pF .039µF 2200pF .015µF 2200pF .022µF

HV69 3300pF .047µF 3300pF .056µF 3300pF .022µF 3300pF .056µF

Hig

h V

olta

geC

eram

ic C

apac

itors


Space Quality - C0G (NP0), X7R High Voltage MLC -55 to +125ºC

1. Similar to NASA Spec. SSQ 21113 (1, 2 & 5kV). 2. Conforms to MIL-PRF-49467. (Group A Screening, Subgroup 1) 3. 100% Corona tested. 4. No IR degradation over life. 5. High density, low DF ceramic. 6. Conservative and proven design is recommended for non-repairable applications

such as spacecraft. 7. CSAM and SLAM inspections are available. CSAM is recommended for

space applications. 8. Burn-in in a non contaminating inert fluid available.



HS20 .250 .220 .200 .170HS21 .320 .280 .250 .220HS22 .370 .300 .250 .275HS30 .450 .220 .200 .300HS23 .470 .400 .270 .375HS31 .550 .280 .250 .400HS24 .570 .500 .270 .475HS25 .670 .600 .270 .575HS26 .770 .720 .270 .675HS33 .850 .400 .270 .700HS34 1.050 .500 .270 .975HS35 1.250 .600 .270 1.175HS36 1.450 .720 .270 1.375

Size Information


Space Quality - C0G (NP0), X7R High Voltage MLC (Continued)

C0G (NP0), X7R Dielectric Capacitance Ranges

Marking(HS20, HS211) (All Other Sizes)103K HS24B103K 1 kV 1 kV KD KD Date Code Date Code

Part Numbering

Style

500 VDC 1k VDC 2k VDC 3k VDC 4k VDC 5k VDC 7k VDC 10k VDC

C0G(NP0)

X7R C0G(NP0)

X7R C0G(NP0)

X7R C0G(NP0)

X7R C0G(NP0)

X7R C0G(NP0)

X7R C0G(NP0)

X7R C0G(NP0)

X7R

Max. Max. Max. Max. Max. Max. Max. Max. Max. Max. Max. Max. Max. Max. Max. Max.

HS20 4700pF .027µF 2200pF 6800pF 560pF 1200pF --- --- --- --- --- --- --- --- --- ---

HS21 .010µF .082µF 5600pF .022µF 1200pF 4700pF --- --- --- --- --- --- --- --- --- ---

HS22 .012µF .100µF 5600pF .027µF 1500pF 6800pF --- --- --- --- --- --- --- --- --- ---

HS23 .033µF .270µF .018µF .082µF 2700pF .015µF 1800pF 5600pF --- --- --- --- --- --- --- ---

HS24 .056µF .470µF .033µF .150µF 5600pF .027µF 3900pF .012µF 1000pF 4700pF 5600pF --- --- --- --- ---

HS25 .100µF .680µF .047µF .220µF .010µF .047µF 6800pF .022µF 1800pF 8200pF 1500pF 4700pF --- --- --- ---

HS26 .150µF 1.00µF .068µF .330µF .015µF .068µF .010µF .033µF 2700pF .012µF 2200pF 8200pF --- --- --- ---

HS30 .012µF .082µF 5600pF .018µF 560pF 3300pF 390pF 1200pF --- --- --- --- --- --- --- ---

HS31 .022µF .150µF .012µF .047µF 1200pF .010µF 820pF 3900pF 560pF 2200pF 2500pF --- --- --- --- ---

HS33 .082µF .680µF .047µF .220µF 3900pF .033µF 2700pF .015µF 1500pF 6800pF 1200pF 3900pF --- 4700pF --- ---

HS34 .100µF 1.00µF .068µF .270µF 8200pF .068µF 5600pF .027µF 3300pF .015µF 2200pF 8200pF 820pF 3300pF --- ---

HS35 .120µF 1.50µF .100µF .470µF .012µF .100µF 8200pF .047µF 4700pF .022µF 3900pF .012µF 1200pF .015µF 1000pF 3300pF

HS36 .180µF 2.20µF .150µF .680µF .018µF .150µF .012µF .068µF 8200pF .033µF .039µF .022µF 2200pF 8200pF 1500pF 5600pF

Hig

h V

olta

geC

eram

ic C

apac

itors

J = ±5% (NP0)K = ±10%M = ±20%P = 0/+100%Z = -20%/+80%

Inert Liquid(Burn-In)Std. for > 2kV;Add “F” if requiredfor 500V or 1k Vparts

B = X7RN = C0G (NP0)


High Voltage Ceramic Chip - C0G (NP0), X7R, KDA 125ºC

1. The ceramic chip capacitors described in this section are the types used in our other high voltage ceramic multilayer product lines.

2. MIL-PRF-49467 types BP, BR and BZ available. 3. Group A and B screening to MIL-PRF-49467 available. 4. Ceramic chip capacitors are extremely sensitive to thermal shock damage

during installation. Wherever possible, processes involving infrared orvapor phase soldering systems should be utilized.

5. For higher voltage contact factory. 6. Where nickel barrier termination is required, end band length dimensions

may exceed the standard dimension listed.

Style Length (L)mm (inches)

Width (W)mm (inches)

Thickness (T)mm (inches)

1515 3.81 ±.38 (.150 ±.015) 3.81 ±.38 (.150 ±.015) 3.55 (.140)1812 4.57 ±.51 (.180 ±.020) 3.05 ±.38 (.120 ±.015) 2.54 (.100)1825 4.57 ±.51 (.180 ±.020) 6.35 ±.51 (.250 ±.020) 4.07 (.160)2020 5.08 ±.51 (.200 ±.020) 5.08 ±.51 (.200 ±.020) 3.55 (.180)2225 5.59 ±.51 (.220 ±.020) 6.35 ±.51 (.250 ±.020) 5.08 (.200)2520 6.35 ±.51 (.250 ±.020) 5.08 ±.51 (.200 ±.020) 4.57 (.180)3333 8.38 ±.76 (.330 ±.030) 8.38 ±.76 (.330 ±.030) 5.59 (.220)3530 8.89 ±.76 (.350 ±.030) 7.62 ±.76 (.300 ±.030) 5.59 (.220)4040 10.2 ±.76 (.400 ±.030) 10.2 ±.76 (.400 ±.030) 5.59 (.220)4540 11.43 ±.76 (.450 ±.030) 10.2 ±.76 (.400 ±.030) 5.59 (.220)5440 13.7 ±.76 (.540 ±.030) 10.2 ±.76 (.400 ±.030) 5.59 (.220)5550 14.0 ±.76 (.550 ±.030) 12.7 ±.76 (.500 ±.030) 5.59 (.220)6560 16.5 ±.76 (.650 ±.030) 15.2 ±.76 (.600 ±.030) 5.59 (.220)

Size Information




1515 27pF 4700pF 27pF 1500pF 12pF 680pF 12pF 150pF --- --- --- ---




2225 47pF .012µF 47pF 8200pF 27pF 1200pF 27pF 680pF --- --- --- ---

2520 47pF .010µF 47pF 6800pF 27pF 1200pF 27pF 680pF --- --- --- ---

3333 120pF .015µF 120pF .012µF 47pF 2700pF 47pF 1200pF 27pF 680pF --- ---



4540 220pF .056µF 220pF .033µF 100pF 6800pF 100pF 3900pF 18pF 1500pF 18pF 1000pF


5550 390pF .068µF 390pF .047µF 150pF .010µF 150pF 6800pF 27pF 2200pF 27pF 2200pF

6560 470pF .100µF 470pF .068µF 270pF .022µF 270pF 8200pF 47pF 3900pF 47pF 2700pF


High Voltage Ceramic Chip - C0G (NP0), X7R, KDA (Continued)





1515 680pF .068µF 680pF .022µF 270pF 3900pF --- --- --- --- --- ---

1812 680pF .056µF 680pF .018µF 270pF 2500pF --- --- --- --- --- ---

1825 1200pF .180µF 1200pF .047µF 560pF 8200pF 560pF 2700pF --- --- --- ---


2225 1200pF .220µF 1200pF .068µF 680pF .015µF 680pF 4700pF --- --- --- ---


3333 3300pF .470µF 3300pF .250µF 1200pF .027µF 1200pF .012µF --- --- --- ---

3530 3300pF .560µF 3300pF .270µF 1200pF .033µF 1200pF .015µF 270pF 6800pF --- ---


4540 6800pF 1.20µF 6800pF .470µF 2700pF .068µF 2700pF .033µF 470pF .010µF 470pF 6800pF

5440 .010µF 1.50µF .010µF .680µF 3900pF .056µF 3900pF .012µF 680pF .010µF --- ---

5550 .010µF 1.80µF .010µF .820µF 3900pF .120µF 3900pF .039µF 680pF .015µF 680pF .010µF

6560 .015µF 2.50µF .015µF 1.00µF 6800pF .180µF 6800pF .082µF 1200pF .027µF 1200pF .015µF



1515 220pF .018µF 220pF .012µF 100pF 2200pF --- --- --- --- --- ---




4540 1800pF .27µF 1800pF .18µF 820pF .039µF 820pF .022µF 150pF 6800pF 150pF 5600pF

5550 3300pF .47µF 3300pF .27µF 1200pF .056µF 1200pF .039µF 220pF .01µF 220pF 8200pF

6560 3900pF .680µF 3900pF .47µF 2200pF .100µF 2200pF .056µF 3900pF .018µF 390pF .015µF

Marking

Not applicableAs required by customer only.

Part Numbering

Hig

h V

olta

geC

eram

ic C

apac

itors

J = ±5% C0G (NP0)

K = ±10%M = ±20%P = 0/+100%Z = -20%/+80%

P = PdAgS = AgN = Nickel

Barrier;Customer mustadvise finalfinish material

A = KDAB = X7RN = C0G

(NP0)

High Voltage Surface Mount Ceramic Capacitor (C0G (NP0), X7R, and KDA)


1. Silver plated copper alloy terminal for easy soldering. 2. Mounting tabs are designed to minimize the effect of thermal

stress introduced by the differences in coefficient of thermal expansion between the capacitor and the mounting surface.

3. High density low DF ceramic. 4. Low ESR. 5. High current discharge capability. 6. KDA types non-piezoelectric and very low hysteresis. 7. Group A and B screening to MIL-PRF-49467 available . 8. Standard lead configuration is 'A'. If lead configuration is left

out of part number the lead style is assumed to be 'A'.

StyleLength (L)

mm (Inches)Width (W)

mm (Inches)Thickness (T)mm (Inches)

Tab (A)mm (Inches)

SM20 3.81 ±.38 (.150 ±.015) 3.81 ±.38 (.150 ±.015) 3.30 (.130) 2.54 (.100)SM21 5.08 ±.51 (.200 ±.020) 5.08 ±.51 (.200 ±.020) 4.57 (.180) 2.54 (.100)SM22 6.35 ±.51 (.250 ±.020) 5.08 ±.51 (.200 ±.020) 4.57 (.180) 2.54 (.100)SM23 8.89 ±.76 (.350 ±.030) 7.62 ±.76 (.300 ±.030) 5.59 (.220) 5.08 (.200)SM24 11.43 ±.76 (.450 ±.030) 10.20 ±.76 (.400 ±.030) 5.59 (.220) 7.62 (.300)SM25 14.00 ±.76 (.550 ±.030) 12.70 ±.51 (.500 ±.030) 5.59 (.220) 10.2 (.400)SM26 16.50 ±.76 (.650 ±.030) 15.20 ±.76 (.600 ±.030) 5.59 (.220) 12.7 (.500)SM30 7.62 ±.76 (.300 ±.030) 3.81 ±.38 (.150 ±.015) 3.55 (.140) 2.54 (.100)SM31 10.20 ±.76 (.400 ±.030) 5.08 ±.51 (.200 ±.020) 3.30 (.130) 2.54 (.100)SM33 17.08 ±.76 (.700 ±.030) 7.62 ±.76 (.300 ±.030) 4.57 (.180) 5.08 (.200)SM34 22.90 ±.76 (.900 ±.030) 10.20 ±.76 (.400 ±.030) 5.59 (.220) 7.62 (.300)SM35 27.90 ±.76 (1.150 ±.030) 12.70 ±.51 (.500 ±.030) 5.59 (.220) 10.2 (.400)SM36 33.00 ±.76 (1.350 ±.030) 15.20 ±.76 (.600 ±.030) 5.59 (.220) 12.7 (.500)

Size Information



Min. Max. Min . Max. Min . Max. Min . Max. Min . Max. Min . Max. Min . Max. Min . Max.

SM20 27pF 4700pF 27pF 1500pF 12pF 680pF 12pF 150pF --- --- --- --- --- --- --- ---

SM21 39pF 8200pF 39pF 3900pF 22pF 820pF 22pF 560pF --- --- --- --- --- --- --- ---

SM22 47pF .010µF 47pF 6800pF 27pF 1200pF 27pF 680pF --- --- --- --- --- --- --- ---

SM23 120pF .022µF 120pF .018µF 47pF 3300pF 47pF 1500pF 27pF 680pF --- --- --- --- --- ---

SM24 220pF .056µF 220pF .033µF 100pF 6800pF 100pF 3900pF 18pF 1500pF 27pF 1000pF --- --- --- ---

SM25 390pF .082µF 390pF .047µF 150pF .010µF 150pF 6800pF 27pF 2200pF 18pF 2200pF --- --- --- ---


SM30 68pF .015µF 68pF 4700pF 15pF 1000pF 15pF 390pF 10pF 220pF --- --- --- --- --- ---

SM31 82pF .027µF 82pF .010µF 27pF 2200pF 27pF 820pF 10pF 560pF 10pF 390pF --- --- --- ---

SM33 330pF .120µF 330pF .068µF 68pF .010µF 68pF 4700pF 27pF 1500pF 27pF 1200pF 12pF 470pF --- ---

SM34 470pF .150µF 470pF .056µF 120pF .015µF 120pF 5600pF 47pF 3300pF 47pF 2200pF 18pF 1000pF 18pF 680pF

SM35 680pF .220µF 680pF .10µF 220pF .022µF 220pF .015µF 82pF 5600pF 82pF 3900pF 33pF 1800pF 33pF 1200pF

SM36 1000pF .330µF 1000pF .15µF 270pF .039µF 270pF .018µF 120pF 8200pF 120pF 5600pF 56pF 2700pF 56pF 2200pF




Min. Max. Min . Max. Min . Max. Min. Max. Min . Max. Min . Max. Min . Max. Min . Max.

SM20 680pF .082µF 680pF .022µF 270pF 3900pF --- --- --- --- --- --- --- --- --- ---

SM21 1200pF .180µF 1200pF .068µF 560pF 8200pF 560pF 3900pF --- --- --- --- --- --- --- ---

SM22 1200pF .220µF 1200pF .082µF 680pF .018µF 680pF 5600pF --- --- --- --- --- --- --- ---

SM23 3300pF .560µF 3300pF .270µF 1200pF .033µF 1200pF .015µF 270pF 6800pF --- --- --- --- --- ---

SM24 6800pF 1.20µF 6800pF .470µF 2700pF .068µF 2700pF .033µF 470pF .010µF 470pF 6800pF --- --- --- ---

SM25 .010µF .180µF .010µF .820µF 3900pF .120µF 3900pF .039µF 680pF .015µF 680pF .010µF --- --- --- ---

SM26 .015µF 2.50µF .015µF 1.00µF 6800pF .180µF 6800pF .082µF 1200pF .027µF 1200pF .015µF --- --- --- ---



SM33 .010µF 1.50µF .010µF .560µF 1800pF .082µF 1800pF .027µF 680pF .012µF 680pF 6800pF 220pF 3300pF --- ---

SM34 .012µF 2.20µF .012µF .820µF 3300pF .150µF 3300pF .047µF 1200pF .027µF 1200pF .022µF 470pF 6800pF 470pF 3900pF

SM35 .018µF 3.90µF .018µF 1.20µF 5600pF .250µF 5600pF .082µF 2200pF .039µF 2200pF .027µF 820pF 8200pF 820pF 4700pF

SM36 .027µF 5.60µF .027µF 1.80µF 8200pF .390µF 8200pF .120µF 3300pF .056µF 3300pF .039µF 1200pF .018µF 1200pF .010µF



Min . Max. Min . Max. Min . Max. Min . Max. Min . Max. Min . Max. Min . Max. Min . Max.

SM20 220pF .018µF 220pF .012µF 100pF 2200pF --- --- --- --- --- --- --- --- --- ---

SM21 390pF .047µF 390pF .033µF 180pF 6800pF 180pF 3900pF --- --- --- --- --- --- --- ---

SM22 390pF .068µF 390pF .039µF 220pF .010µF 220pF 4700pF --- --- --- --- --- --- --- ---

SM23 1000pF .15µF 1000pF .10µF 390pF .018µF 390pF .010µF 82pF 3900pF --- --- --- --- --- ---

SM24 1800pF .27µF 1800pF .18µF 820pF .039µF 820pF .022µF 150pF 6800pF 150pF 5600pF --- --- --- ---

SM25 3300pF .47µF 3300pF .27µF 1200pF .056µF 1200pF .033µF 220pF .010µF 220pF 8200pF --- --- --- ---

SM26 3900pF .680µF 3900pF .47µF 2200pF .100µF 2200pF .056µF 390pF .018µF 390pF .015µF --- --- --- ---



SM33 2700pF .39µF 2700pF .270µF 560pF .039µF 560pF .025µF 220pF 8200pF 220pF 6800pF 82pF 1800pF --- ---

SM34 3900pF .056µF 3900pF .39µF 1200pF .082µF 1200pF .047µF 390pF .018µF 390pF .012µF 180pF 3300pF 180pF 1800pF

SM35 5600pF 1.00µF 5600pF .56µF 1800pF .12µF 1800pF .082µF 680pF .027µF 680pF .022µF 270pF 5600pF 270pF 2700pF

SM36 8200pF 1.50µF 8200pF .82µF 2200pF .18µF 2200pF .12µF 1000pF .047µF 1000pF .033µF 390pF 8200pF 390pF 4700pF

Marking

Not applicableAs required by customer only.

Part Numbering

Hig

h V

olta

geC

eram

ic C

apac

itors

J = ±5% (NP0)K = ±10%M = ±20%P = 0/+100%Z = -20%/+80%

A = KDAB = X7RN = C0G

(NP0)

Thickness (max, inches): 3kV = 0.15 Lead Type: Solder plated, copper-clad steel (CCFE)-5kV = 0.20 D30, D40: 0.025” (22GA)

7.5kV = 0.28 D50 & Larger: 0.032” (20GA)10kV = 0.3515kV = 0.4520kV = 0.5530kV = 0.9540kV = 1.2050kV = 1.50

Disc ceramic capacitors made under strict quality control procedures are a reli-able component. Special attention is given to the ceramic pressing operation toassure high and uniform ceramic density. These parts are manufactured for the quality conscious customer. Parts areavailable screened to MIL-PRF-49467 established reliability specification. X7Rtype approved to DSCC drawings 87125 (15kV) and 89087 (20kV).

Higher-voltage parts may require further encapsulation to prevent surface breakdown. Parts should be cleaned and oven dried at85°C before further encapsulation. Silicone rubbers or an epoxy may be used. De-airing of encapsulants is recommended. Werecommend that a heat sink be attached to the lead between the soldering iron and the capacitor during installation soldering.Testing of higher-voltage parts before encapsulation may be done in a suitable dielectric fluid such as Freon.

High Voltage Surface Mount Ceramic Capacitor (C0G (NP0), X7R, and X5U)

Installation

Dielectric ComparisonCERAMIC TYPE C0G (NP0) X7R X5U

Disspation Factor 0.1% 2.5% 2.5%

Temperature Coefficient ±30ppm/ºC ±15% +22 -56%

Voltage Coefficient 0 -20% N/A

Dielectric withstanding Voltage Test

3 to 15kV at 1.5x rated,20 to 50kV at rated +10kV



Insulation Resistance (25ºC)

100k megohms or100 megohms-µF,whichever is less

10k megohms-µF,whichever is less

10k megohms or100 megohms-µF,whichever is less

Operating Temperature Range (rated voltage) -55ºC to +125ºC -55ºC to +125ºC -55ºC to +125ºC

Part Numbering

Marking(D30) (All Other Sizes)122M D50W122M 3kV 3kV KD KD Date Code Date Code


J = ±5% (NP0)K = ±10%M = ±20%P = 0/+100%Z = -20%/+80%

N = C0G(NP0)

W = X7RY = X5U

DiscStyle

DMax.

S±.030

C0G (NP0) X7R X5UMin. Max. Min. Max. Min. Max.

D30 .30 .250 7.8pF 9.6pF 250pF 300pF 520pF 700pF

D40 .40 .250 20pF 25pF 630pF 770pF 1300pF 1800pF

D50 .50 .375 36pF 44pF 1100pF 1400pF 2400pF 3200pF

D75 .75 .375 80pF 98pF 2500pF 3100pF 5300pF 7200pF

D90 .90 .500 123pF 150pF 3800pF 4700pF 8200pF 11000pF

D100 1.00 .500 145pF 178pF 4600pF 5600pF 9700pF 13000pF

D120 1.20 .500 193pF 236pF 6000pF 7400pF 12900pF 17300pF

DiscStyle

DMax.

S±.030

30kVDC 40kDVC 50kVDCX7R X7R X7R

Min. Max. Min. Max. Min. Max.

D30 .30 .250 20pF 30pF 18pF 22pF 10pF 20pF

D40 .40 .250 60pF 80pF 50pF 60pF 40pF 50pFD50 .50 .375 110pF 140pF 80pF 100pF 70pF 80pF

D75 .75 .375 250pF 310pF 190pF 230pF 150pF 180pF

D90 .90 .500 380pF 470pF 290pF 350pF 230pF 280pF

D100 1.00 .500 460pF 560pF 340pF 420pF 270pF 330pF

D120 1.20 .500 600pF 740pF 450pF 550pF 360pF 440pF

D30 .30 .250 4.7pF 5.7pF 150pF 180pF 310pF 420pFD40 .40 .250 12pF 15pF 380pF 460pF 810pF 1100pF

D50 .50 .375 21pF 26pF 670pF 820pF 1400pF 1900pF

D75 .75 .375 48pF 59pF 1500pF 1800pF 3200pF 4300pF

D90 .90 .500 74pF 90pF 2300pF 2800pF 4900pF 6600pF

D100 1.00 .500 87pF 107pF 2700pF 3300pF 5800pF 7800pF

D120 1.20 .500 116pF 141pF 3600pF 4400pF 7700pF 10400pF

D30 .30 .250 3.1pF 3.8pF 100pF 120pF 210pF 280pF

D40 .40 .250 8.1pF 9.9pF 250pF 310pF 540pF 720pF

D50 .50 .375 14pF 17pF 450pF 550pF 9950pF 1300pF

D75 .75 .375 32pF 39pF 1000pF 1200pF 2100pF 2900pF

D90 .90 .500 49pF 60pF 1500pF 1900pF 3300pF 4400pF

D100 1.00 .500 58pF 71pF 1800pF 2200pF 3900pF 5200pF

D120 1.20 .500 77pF 94pF 2400pF 3000pF 5100pF 6900pF

D30 .30 .250 2.4pF 2.9pF 70pF 90pF 160pF 210pF

D40 .40 .250 6.1pF 7.4pF 190pF 230pF 400pF 540pF

D50 .50 .375 10.7pF 13.1pF 330pF 410pF 710pF 960pF

D75 .75 .375 24pF 29pF 750pF 920pF 1600pF 2200pF

D90 .90 .500 37pF 45pF 1200pF 1400pF 2500pF 3300pF

D100 1.00 .500 44pF 53pF 1400pF 1700pF 2900pF 3900pF

D120 1.20 .500 58pF 71pF 1800pF 2200pF 3900pF 5200pF

D30 .30 .250 1.6pF 1.9pF 50pF 60pF 100pF 140pF

D40 .40 .250 4.0pF 4.9pF 130pF 150pF 270pF 360pF

D50 .50 .375 7.1pF 8.7pF 220pF 270pF 480pF 640pF

D75 .75 .375 16pF 20pF 500pF 610pF 1100pF 1400pF

D90 .90 .500 25pF 30pF 770pF 940pF 1600pF 2200pF

D100 1.00 .500 29pF 36pF 910pF 1100pF 1900pF 2600pF

D120 1.20 .500 39pF 47pF 1200pF 1500pF 2600pF 3500pF

D30 .30 .250 1.2pF 1.4pF 37pF 45pF 80pF 110pF

D40 .40 .250 3.0pF 3.7pF 100pF 120pF 200pF 270pF

D50 .50 .375 5.3pF 6.5pF 170pF 200pF 360pF 480pF

D75 .75 .375 12pF 15pF 380pF 460pF 800pF 1100pF

D90 .90 .500 18pF 22pF 580pF 700pF 1200pF 1600pF

D100 1.00 .500 22pF 27pF 680pF 830pF 1500pF 2000pF

D120 1.20 .500 29pF 35pF 910pF 1100pF 1900pF 2600pF

3kVDC

5kVDC

7.5kVDC

10kVDC

15kVDC

20kVDC

30k, 40k, & 50kVDC

Hig

h V

olta

geC

eram

ic C

apac

itors



1. Special lead configurations available. 2. Contact factory for custom designs.

D dimension - See page 37 for capacitance/voltagedesired and resulting diameter.

High Voltage Disk Multiplier Stacks

L Dimension (max)Number ofSelections

Voltage per Section5k VDC 7.5k VDC 10k VDC 15k VDC 20k VDC

2 .40 .50 .60 .90 1.003 .55 .70 .85 1.15 1.554 .70 .85 1.10 1.45 1.905 .80 1.10 1.30 1.80 2.306 .95 1.30 1.55 2.15 2.75

S ±0.030 .13 .18 .23 .33 .43

Marking(D30) (All Other Sizes)122M 4XD50W122M 3kV 3kV KD KD Date Code Date Code

Part Numbering

J = ±5% (NP0)K = ±10%M = ±20%P = 0/+100%Z = -20%/+80%

N = C0G(NP0)

W = X7RY = X5U


*Voltage Coefficient is a function of voltage stress between plates of a capacitor and the type of ceramic used. As stress and/ordielectric constant increase, voltage coefficient increases. If required, a low-voltage coefficient capacitor may be specified byrequesting this feature. In most applications voltage coefficient is of minor concern. When a specific capacitor is tested in a circuit,the resultant voltage coefficient is part of the circuit performance result. If the capacitace is low for the desired circuit performance,a higher value should be tried, thus reducing the voltage coefficient effect.

*

Hig

h V

olta

geC

eram

ic C

apac

itors


Feed-Thru Configurations

Part Numbering System (Pi Circuit)See page 65-66 for Voltage, Terminal/Threads, Finish and Test Level descriptions

5250 - D B 4 - 502 S

C Circuit Pi Circuit

T Circuit

EMI Filters (Feed-thru Filters)

Number

Voltage

Terminal/Thread Finish

Test Level

Capacitance (pF)3rd Digit = Number of Zerose.g. 502 = 5000pF

L2 Circuit (Thread)

L1 Circuit (Thread)

© KEMET Electronics Corporation • PO Box 5928 • Greenville, SC 29606 • www.kemet.com 41© KEMET Electronics Corporation • PO Box 5928 • Greenville, SC 29606 • www.kemet.com

ApplicationsC-Section feed-thru filters are used where circuit source and load impedance are high. Primary applications are for by-passing RFto ground, decoupling, feed-back prevention between circuits, and other applications where internal capacitor inductance must beat a minimum. The capacitance values listed will have a resonant dip between 3-16 MHz and is reflected in the insertion loss val-ues specified at 1 and 10 MHz.

General SpecificationsOperating Temperature: -55°C to +125°C. Rated Current: 15 amperes, maximum. Capacitance Tolerance: -0, +100%. Dissipation Factor: 3.0% maximum. Voltage and Temperature Limits of Capacitance:

+15, -40% Insulation Resistance:1K Megohm-µF or 10K Megohm minimum, whichever isless, at +25°C. +125°C = 10% of +25°C requirements. Voltage Drop: .075 volt maximum. DC Resistance: .005 ohm, maximum. Temperature Rise: +25°C maximum Dielectric Withstanding Voltage: 2.5 x rated DC voltage for 5 seconds ± 1 second. 50 mA maximumcharging current.Notes: 1. For complete part number designations and codes see pages 65-66.

2. Standard finish is code 2 - Electro-tin.Tin-lead, gold & silver are also available.

3. Imperfect thread or undercut optional .050 inches maximum. 4. One imperfect thread allowed .035 inches maximum.

KEMET Part Number Fig.Working Voltage

(DC)

Min.Cap.(µF)

Max.Rdc(Ω)

Minimum Full Load Insertion Loss-55ºC to +125ºC per MIL-STD-220 (dB)

30 KHz 100 KHz 150 KHz 300 KHz 1MHz 10 MHz 1 GHz

3723-B *2-504S 1 50 .5 .005 --- 16 20 26 36 45 70

3723-B *2-754S 1 50 .75 .005 10 20 24 30 40 40 70

3723-B *2-145S 1 50 1.4 .005 15 25 28 34 40 40 70

3723-D *2-504S 1 100 .5 .005 --- 16 20 26 36 45 70

3723-D *2-754S 1 100 .75 .005 10 20 24 30 40 40 70

3723-F *2-104S 1 200 .1 .005 --- --- 5 11 21 41 60

3723-F *2-154S 1 200 .15 .005 --- 6 10 16 26 40 70

3723-F *2-304S 1 200 .3 .005 4 11 15 21 31 40 70

3723-N *2-753S 1 125VAC, 0-400Hz .075 .005 --- --- --- 8 18 36 60

3723-N *2-154S 1 125VAC, 0-400Hz .15 .005 --- 6 10 16 26 40 70

3724-B *2-105S 2 50 1.0 .01 12 21 25 31 40 40 70

3724-B *2-155S 2 50 1.5 .01 15 25 28 34 40 40 70

3724-B *2-285S 2 50 2.8 .01 20 30 34 40 40 50 70

3724-D *2-105S 2 100 1.0 .01 12 21 25 31 40 40 70

3724-D *2-155S 2 100 1.5 .01 15 25 28 34 40 40 70

3724-F *2-205S 2 200 2.0 .01 --- 8 12 18 28 40 70

3724-F *2-305S 2 200 3.0 .01 4 11 15 21 31 40 70

3724-F *2-405S 2 200 4.0 .01 6 14 18 24 34 40 70

3724-N *2-205S 2 125VAC, 0-400Hz 2.0 .01 --- 8 12 18 28 40 70

3724-N *2-305S 2 125VAC, 0-400Hz 3.0 .01 4 11 15 21 31 40 70

FIG. 1

FIG. 2

C-Circuit

Coaxial Broadband EMI Filters - C-Circuit (Feed-thru)

EM

I/RFI

Fee

d-t

hru

Filt

ers


ApplicationsL-Section button filters are used in circuits which require maximum series impedance above 10 MHz. The ferrite bead material offers2-3µH inductance from 100 KHz to 1 MHz. Z over this frequency range varies from 2 - 12 ohms. At 15 MHz the inductance equals0 and Z equals 40 ohms. Application of DC current will saturate the bead and result in lower impedance values. At 5.0 amps Z equals0 and insertion loss performance is equal to a C-Section feed-thru. MIL Specs now reflect this as the filters are rated at 15.0 amps.

General SpecificationsOperating Temperature: -55°C to +125°C. Rated Current: 15 amperes, maximum. Capacitance Tolerance: 0, +100%. Dissipation Factor: 3.0% maximum. Voltage and Temperature Limits of Capacitance:

+15, -40% Insulation Resistance: 1K Megohm-µF or 10K Megohm minimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements. Voltage Drop: .075 volt maximum. DC Resistance: .005 ohm, maximum. Temperature Rise: +25°C maximum Dielectric Withstanding Voltage: 2.5 x rated DC voltage for 5 seconds ± 1 second. 50 mA maximumcharging current.Notes: 1. For complete part number designations and codes see pages 65-66.

2. Standard finish is code 2 - Electro-tin. Tin-lead, gold & silver are also available.



(DC)

Min.Cap.(µF)


30 kHz 100 kHz 150 kHz 300 kHz 1MHz 10 MHz 1 GHz

3720-B *2-504S 1 50 .5 --- 16 20 26 36 40 70

3720-B *2-754S 1 50 .75 10 20 24 30 40 40 70

3720-B *2-145S 1 50 1.4 15 25 28 34 40 40 70

3720-D *2-504S 1 100 .5 --- 16 20 26 36 40 70

3720-D *2-754S 1 100 .75 10 20 24 30 40 40 70

3720-N *2-753S 1 125VAC, 0-400Hz .075 --- --- --- 8 18 36 60

3720-N *2-154S 1 125VAC, 0-400Hz .15 --- 6 10 16 26 40 70

3721-B *2-504S 2 50 .5 --- 16 20 26 36 40 70

3721-B *2-754S 2 50 .75 10 20 24 30 40 40 70

3721-B *2-145S 2 50 1.4 15 25 28 34 40 40 70

3721-D *2-504S 2 100 .5 --- 16 20 26 36 40 70

3721-D *2-754S 2 100 .75 10 20 24 30 40 40 70

3721-N *2-753S 2 125VAC, 0-400Hz .075 --- --- --- 8 18 36 60

FIG. 1Hermetic Seal

FIG. 2Epoxy Seal

L2-Circuit

Coaxial Broadband EMI Filters - L-Circuit (Button)


ApplicationsC-Section feed-thru filters are used where circuit source and load impedance are high. Primary applications are for by-passing RFto ground, decoupling, feed-back prevention between circuits, and other applications where internal capacitor inductance must beat a minimum. The capacitance values listed will have a resonant dip between 3-16 MHz and is reflected in the insertion loss val-ues specified at 1 and 10 MHz.

General SpecificationsOperating Temperature: -55°C to +125°C. Rated Current: 15 amperes, maximum. Capacitance Tolerance: -0, +100%. Dissipation Factor: 3.0% maximum. Voltage and Temperature Limits of Capacitance:

+15, -40% Insulation Resistance: 1K Megohm-µF or 10K Megohmminimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements. Voltage Drop: .075 volt maximum. DC Resistance: .005 ohm, maximum. Temperature Rise: +25°C maximum Dielectric Withstanding Voltage: 2.5 x rated DC voltagefor 5 seconds ± 1 second. 50 mA maximum charging current.Notes: 1. For complete part number designations and codes see pages 65-66.




(DC)

Min.Cap.(µF)



3710-B *2-103S 1 50 .01 --- --- --- --- --- 22 45

3710-B *2-504S 1 50 .5 --- 16 20 26 36 45 70

3710-B *2-754S 1 50 .75 10 20 24 30 40 40 70

3710-B *2-145S 1 50 1.4 15 25 28 34 40 40 70

3710-D *2-103S 1 100 .01 --- --- --- --- --- 22 45

3710-D *2-504S 1 100 .5 --- 16 20 26 36 45 70

3710-D *2-754S 1 100 .75 10 20 24 30 40 40 70

3710-F *2-154S 1 200 .15 --- 6 10 16 26 40 70

3710-N *2-753S 1 125VAC, 0-400Hz .075 --- --- --- 8 18 36 60

3710-N *2-104S 1 125VAC, 0-400Hz .1 --- --- 5 11 21 41 60

3710-N *2-145S 1 125VAC, 0-400Hz .15 --- 6 10 16 26 40 70

3711-B *2-103S 2 50 .01 --- --- --- --- --- 22 45

3711-B *2-504S 2 50 .5 --- 16 20 26 36 45 70

3711-B *2-754S 2 50 .75 10 20 24 30 40 40 70

3711-B *2-145S 2 50 1.4 15 25 28 34 40 40 70

3711-D *2-103S 2 100 .01 --- --- --- --- --- 22 45

3711-D *2-504S 2 100 .5 --- 16 20 26 36 45 70

3711-D *2-754S 2 100 .75 10 20 24 30 40 40 70

3711-F *2-154S 2 200 .15 --- 6 10 16 26 40 70

3711-N *2-753S 2 125VAC, 0-400Hz .075 --- --- --- 8 18 36 60

C-Circuit

Coaxial Broadband EMI Filters - C-Circuit (Feed-thru)

EM

I/RF

IF

eed

-th

ru F

ilter

s

FIG. 1Hermetic Seal

FIG. 2Epoxy Seal


ApplicationsStandard L filters are used where circuit source impedance is lowand the circuit load impedance is high. The inductor faces thesource and the capacitor faces the load. Typical interfering sourcelow impedances (voltage generator) are relay and switch con-tacts, SCR controls and rectifiers. Typical load high impedances(voltage sensitive) are voltage sensitive relays and solenoids,long signal lines, line stabilization networks and transformer pow-ered equipment. Reversed L filters are used when the circuitsource impedance is high and the circuit load impedance is low.The inductor faces the load and the capacitor faces the source.Typical interfering source high impedances (current generator)are AC induction motors, relay coils, series DC motors, long ACpower lines, and power supply-transformer inputs. Typical loadlow impedances (current sensitive) are current sensitive relays,solenoids and high current resistive or capacitive loads.

General SpecificationsOperating Temperature: -55°C to +125°C. Rated Current: 15 amperes, maximum. Capacitance Tolerance: 0, +100%. Dissipation Factor: 3.0% maximum. Voltage and Temperature Limits of Capacitance:

+15, -40% Insulation Resistance: 1K Megohm-µF or 10K Megohmminimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements. Voltage Drop: .075 volt maximum. DC Resistance: .005 ohm, maximum. Temperature Rise: +25°C maximum Dielectric Withstanding Voltage: 2.5 x rated DC =voltage for 5 seconds ± 1 second. 50 mA maximumcharging current.Notes: 1. For complete part number designations and codes see pages 65-66..



L2-Circuit

Coaxial Broadband EMI Filters - L-Circuit


(DC)

Min.Cap.(µF)

Max.Rdc(Ω)



3723-B *2-504S 1 50 .5 .005 --- 16 20 26 36 45 70

3723-B *2-754S 1 50 .75 .005 10 20 24 30 40 40 70

3723-B *2-145S 1 50 1.4 .005 15 25 28 34 40 40 70

3723-D *2-504S 1 100 .5 .005 --- 16 20 26 36 45 70

3723-D *2-754S 1 100 .75 .005 10 20 24 30 40 40 70

3723-F *2-104S 1 200 .1 .005 --- --- 5 11 21 41 60

3723-F *2-154S 1 200 .15 .005 --- 6 10 16 26 40 70

3723-F *2-304S 1 200 .3 .005 4 11 15 21 31 40 70

3723-N *2-753S 1 125VAC, 0-400Hz .075 .005 --- --- --- 8 18 36 60

3723-N *2-154S 1 125VAC, 0-400Hz .15 .005 --- 6 10 16 26 40 70

3724-B *2-105S 2 50 1.0 .01 12 21 25 31 40 40 70

3724-B *2-155S 2 50 1.5 .01 15 25 28 34 40 40 70

3724-B *2-285S 2 50 2.8 .01 20 30 34 40 40 50 70

3724-D *2-105S 2 100 1.0 .01 12 21 25 31 40 40 70

3724-D *2-155S 2 100 1.5 .01 15 25 28 34 40 40 70

3724-F *2-205S 2 200 2.0 .01 --- 8 12 18 28 40 70

3724-F *2-305S 2 200 3.0 .01 4 11 15 21 31 40 70

3724-F *2-405S 2 200 4.0 .01 6 14 18 24 34 40 70

3724-N *2-205S 2 125VAC, 0-400Hz 2.0 .01 --- 8 12 18 28 40 70

3724-N *2-305S 2 125VAC, 0-400Hz 3.0 .01 4 11 15 21 31 40 70


ApplicationsStandard L filters are used where circuit source impedance is lowand the circuit load impedance is high. The inductor faces thesource and the capacitor faces the load. Typical interfering sourcelow impedances (voltage generator) are relay and switch con-tacts, SCR controls and rectifiers. Typical load high impedances(voltage sensitive) are voltage sensitive relays and solenoids,long signal lines, line stabilization networks and transformer pow-ered equipment. Reversed L filters are used when the circuitsource impedance is high and the circuit load impedance is low.The inductor faces the load and the capacitor faces the source.Typical interfering source high impedances (current generator)are AC induction motors, relay coils, series DC motors, long ACpower lines, and power supply-transformer inputs. Typical loadlow impedances (current sensitive) are current sensitive relays,solenoids and high current resistive or capacitive loads.

General SpecificationsOperating Temperature: -55°C to +125°C.Rated Voltage: 100VDCRated Current: 15 amperes, maximum. Capacitance Tolerance: 0, +100%. Dissipation Factor: 3.0% maximum. Voltage and Temperature Limits of Capacitance:

+15, -40% Insulation Resistance: 1K Megohm-µF or 10K Megohmminimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements. Voltage Drop: .075 volt maximum. DC Resistance: .005 ohm, maximum. Temperature Rise: +25°C maximum Dielectric Withstanding Voltage: 2.5 x rated DCvoltage for 5 seconds ± 1 second. 50 mA maximumcharging current.

Notes: 1. For complete part number designations and codes see pages 65-66. 2. Standard finish is code 2 - Electro-tin.

Tin-lead, gold & silver are also available. 3. Imperfect thread or undercut optional .050 inches maximum. 4. One imperfect thread allowed .035 inches maximum.

L1-Circuit L2-CircuitCoaxial Broadband EMI Filters - L-Circuit

KEMET PartNumber

Circuit Working Voltage(DC)

Min.Cap.(µF)

Max.Idc(Α)

Max.Rdc(Ω)

Minimum Full Load Insertion Loss -55ºC to +125ºC per MIL-STD-220 (dB)


3730-B *2-03S L2 50 1.4 .1 5 32 52 58 60 60 60 70

3731-B *2-03S L1 50 1.4 .1 5 32 52 58 60 60 60 70

3730-B *2-09S L2 50 1.4 1.0 .25 14 26 33 44 60 60 70

3731-B *2-09S L1 50 1.4 1.0 .25 14 26 33 44 60 60 70

3730-B *2-13S L2 50 1.4 5.0 .015 14 23 28 34 45 60 70

3731-B *2-13S L1 50 1.4 5.0 .015 14 23 28 34 45 60 70

3730-B *2-15S L2 50 1.4 10.0 .005 14 23 28 34 44 44 70

3731-B *2-15S L1 50 1.4 10.0 .005 14 23 28 34 44 44 70

3730-D *2-03S L2 100 .75 .1 5 26 46 54 60 60 60 70

3731-D *2-03S L1 100 .75 .1 5 26 46 54 60 60 60 70

3730-D *2-09S L2 100 .75 1.0 .25 10 23 28 40 60 60 70

3731-D *2-09S L1 100 .75 1.0 .25 10 23 28 40 60 60 70

3730-D *2-13S L2 100 .75 5.0 .015 8 18 22 28 40 60 70

3731-D *2-13S L1 100 .75 5.0 .015 8 18 22 28 40 60 70

3730-D *2-15S L2 100 .75 10.0 .005 10 20 24 30 40 40 70

3731-D *2-15S L1 100 .75 10.0 .005 10 20 24 30 40 40 70

3730-F *2-03S L2 200 .25 .1 5 18 36 44 56 60 60 70

3731-F *2-03S L1 200 .25 .1 5 18 36 44 56 60 60 70

3730-F *2-09S L2 200 .25 1.0 .25 --- 14 20 30 52 60 70

3731-F *2-09S L1 200 .25 1.0 .25 --- 14 20 30 52 60 70

3730-F *2-13S L2 200 .25 5.0 .015 --- 10 12 18 30 55 70

3731-F *2-13S L1 200 .25 5.0 .015 --- 10 12 18 30 55 70

3730-F *2-15S L2 200 .25 10.0 .005 --- 10 12 18 30 40 70

3731-F *2-15S L1 200 .25 10.0 .005 --- 10 12 18 30 40 70

EM

I/RF

IF

eed

-th

ru F

ilter

s


ApplicationsPi filters are used where circuit source and load impedances arehigh, or vary from low to high. Typical interfering source highimpedances (current generator) are AC induction motors, relaycoils, series DC motors, conventional long AC power lines, andpower supply-transformer input. Typical load high impedances(voltage sensitive) are voltage sensitive relays and solenoids,transformer powered equipment, long signal lines, and linestabilization networks. CAUTION: Do not use Pi filters where arcing (contacts) or hightransient waveforms are present. Passband attenuation may gopositive making the noise problems more severe than withoutthe filter present. This is called "ringing" and is caused by thetendency of the filter to actually produce voltage oscillations.

General SpecificationsOperating Temperature: -55°C to +125°C.Rated Voltage: See tableRated Current: See table Capacitance Tolerance: 0, +100%. Dissipation Factor: 3.0% maximum. Voltage and Temperature Limits of Capacitance:

+15, -40% Insulation Resistance: 1K Megohm-µF or 10K Megohmminimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements. Voltage Drop: Rated Current x Rdc DC Resistance: .See table Temperature Rise: +25°C maximum Dielectric Withstanding Voltage: 2.5 x rated DCvoltage for 5 seconds ± 1 second. 50 mA maximumcharging current.



Pi-CircuitCoaxial Broadband EMI Filters - Pi-Circuit

KEMET Part Number Working Voltage(DC)

Min.Cap.(µF)

Max.Current

(A)

Max.Rdc(Ω)



3740-B *2-03S 50 2.8 .1 5.0 50 80 80 80 80 80 80

3740-B *2-08S 50 2.8 .5 .65 36 65 70 80 80 80 80

3740-B *2-09S 50 2.8 1.0 .25 24 59 69 80 80 80 80

3740-B *2-10S 50 2.8 2.0 .05 --- 44 56 72 80 80 80

3740-B *2-11S 50 2.8 3.0 .03 --- 36 46 64 80 80 80

3740-B *2-13S 50 2.8 5.0 .015 --- 10 35 56 80 80 80

3740-B *2-15S 50 2.8 10.0 .005 --- --- 30 54 70 80 80

3740-D *2-03S 100 1.5 .1 5.0 40 70 80 80 80 80 80

3740-D *2-08S 100 1.5 .5 .65 22 54 66 80 80 80 80

3740-D *2-09S 100 1.5 1.0 .25 6 46 56 70 80 80 80

3740-D *2-10S 100 1.5 2.0 .05 --- 34 44 62 80 80 80

3740-D *2-11S 100 1.5 3.0 .03 --- 18 34 54 80 80 80

3740-D *2-13S 100 1.5 5.0 .015 --- --- --- 46 76 80 80

3740-D *2-15S 100 1.5 10.0 .005 --- --- --- 36 70 80 80

3740-F *2-03S 200 .5 .1 5.0 24 54 64 78 80 80 80

3740-F *2-08S 200 .5 .5 .65 --- 36 46 65 80 80 80

3740-F *2-09S 200 .5 1.0 .25 --- 28 40 58 80 80 80

3740-F *2-10S 200 .5 2.0 .05 --- --- 23 44 74 80 80

3740-F *2-11S 200 .5 3.0 .03 --- --- --- 34 65 80 80

3740-F *2-13S 200 .5 5.0 .015 --- --- --- 18 58 80 80

3740-F *2-15S 200 .5 10.0 .005 --- --- --- --- 52 80 80

Pi


ApplicationsC-Section feed-through filters are used where circuit source andload impedance are high. Primary applications are for by-pass-ing RF to ground, decoupling, feed-back prevention between cir-cuits, and other applications where internal capacitor inductancemust be at a minimum. The capacitance values listed will have aresonant dip between 3-16 MHz which is reflected in the inser-tion loss values specified at 1 and 10 MHz.

General SpecificationsOperating Temperature: -55°C to +125°C.Rated Current: 15 amperes, maximum Capacitance Tolerance: 0, +100%. Dissipation Factor: 3.0% maximum. Voltage and Temperature Limits of Capacitance:

+15, -40% Insulation Resistance: 1,000 Megohm-µF or 10,000

Megohm minimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements.

Voltage Drop: 0.12 volt, maximum DC Resistance: .0.008 ohm, maximum Temperature Rise: +25°C maximum Dielectric Withstanding Voltage: 2.5 x rated DC voltage for 5 seconds ± 1 second. 50 mA maximumcharging current.Equivalent to MIL-F-28861/1Notes: 1. For complete part number designations and codes see pages 65-66.



C-Circuit L2-Circuit

Coaxial Broadband EMI Filters - C and L-Circuits

KEMET Part Number CircuitMin.Cap.(µF)

Rated Voltage Minimum Full Load Insertion Loss -55ºC to +125ºC per MIL-STD-220 (dB)

DC Volts AC1/Volts 30 kHz 150 kHz 300 kHz 1MHz 10 MHz 100 MHz 1 GHz

4120-B *2-125S L2 1.2 50 --- 15 28 33 40 40 70 70

4110-B *2-125S C 1.2 50 --- 15 28 33 40 40 70 70

4120-C *2-704S L2 0.7 70 --- 10 24 30 40 40 64 70

4110-C *2-704S C 0.7 70 --- 10 24 30 40 40 64 70

4120-D *2-454S L2 0.45 100 --- 6 19 25 36 40 60 70

4110-D *2-454S C 0.45 100 --- 6 19 25 36 40 60 70

4120-E *2-254S L2 0.25 150 --- --- 14 20 31 40 56 70

4110-E *2-254S C 0.25 150 --- --- 14 20 31 40 56 70

4120-N *2-154S L2 0.15 200 125 --- 10 16 26 40 52 70

4110-N *2-154S C 0.15 200 125 --- 10 16 26 40 52 70

C

1/ 0-400Hz

EM

I/RF

IF

eed

-th

ru F

ilter

s


ApplicationsCStandard L filters are used where circuit source impedance is low and the circuit load impedance is high. The inductor faces thesource, and the capacitor faces the load. Typical interfering source low impedances (voltage generator) are relay and switch con-tacts, SCR controls, and rectifiers. Typical load high impedances (voltage sensitive) are voltage sensitive relays and solenoids,long signal lines, line stabilization networks, and transformer powered equipment. Reversed L filters are used when the circuitssource impedance is high, and the circuit load impedance is low. The inductor faces the load, and the capacitor faces the source.Typical interfering source high impedances (current generator) are AC induction motors, relay coils, series DC motors, long ACpower lines, and power supply-transformer inputs. Typical load low impedances (current sensitive) are current sensitive relays andsolenoids, and high current resistive or capacitive loads. Pi filters are used where circuit source and load impedances are high, or vary from low to high. Typical interfering source highimpedances (current generator) are AC induction motors, relay coils series DC motors, conventional long AC power lines, andpower supply/transformer input. Typical load high impedances (voltage sensitive) are voltage sensitive relays and solenoids,transformer powered equipment, long signal lines, and line stabilization networks. CAUTION: Do not use Pi filters where arcing (contacts) or high transient waveforms are present. Passband attenuation may gopositive making the noise problems more severe than without the filter present. This is called "ringing" and is caused by the ten-dency of the filter to actually produce voltage oscillation.


Tin-lead, gold and silver are also available. 3. Imperfect thread or undercut optional .050 inches maximum. 4. One imperfect thread allowed .035 inches maximum.

L1-Circuit

Rated Voltage: 100VDCEquivalent to MIL-F-28861/2

L2-Circuit Pi-Circuit

Coaxial Broadband EMI Filters - L and Pi-Circuits

KEMET Part Number CircuitMax.

Current(A)

Min.Cap.(µF)

Max.Rdc(Ω)


30 kHz 150 kHz 300 kHz 1MHz 10 MHz 100 MHz 1 GHz

4135-D *2-05S L1 .25 .45 1.5 30 38 50 60 60 60 70

4134-D *2-05S L2 .25 .45 1.5 30 38 50 60 60 60 70

4141-D *2-05S Pi .25 .90 1.5 54 64 80 80 80 80 80

4135-D *2-09S L1 1.0 .45 .25 15 23 34 55 60 60 70

4134-D *2-09S L2 1.0 .45 .25 15 23 34 55 60 60 70

4141-D *2-09S Pi 1.0 .90 .25 40 52 70 80 80 80 80

4135-D *2-11S L1 3.0 .45 .05 14 18 27 45 60 60 70

4134-D *2-11S L2 3.0 .45 .05 14 18 27 45 60 60 70

4141-D *2-11S Pi 3.0 .90 .05 --- 25 51 80 80 80 80

4135-D *2-13S L1 5.0 .45 .015 14 17 24 36 60 60 70

4134-D *2-13S L2 5.0 .45 .015 14 17 24 36 60 60 70

4141-D *2-13S Pi 5.0 .90 .015 --- --- 38 75 80 80 80


+15, -40% Insulation Resistance: 1K Megohm-µF or 10K Megohmminimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements. Voltage Drop: Rated Current x Rdc DC Resistance: .See table Temperature Rise: +25°C maximum Dielectric Withstanding Voltage: 2.5 x rated DCvoltage for 5 seconds ± 1 second. 50 mA maximumcharging current.


Coaxial Broadband EMI Filters - L and Pi-Circuits (Continued)

KEMET PartNumber

CircuitMax.

Current(A)

Min.Cap.(µF)

Max.Rdc(Ω)


30 kHz 150 kHz 300 kHz 1MHz 10 MHz 100 MHz 1 GHz

4131-E *2-03S L1 0.1 .25 1.7 32 39 51 60 60 60 70

4130-E *2-03S L2 0.1 .25 1.7 32 39 51 60 60 60 70

4140-E *2-03S Pi 0.1 .50 1.7 49 60 70 80 80 80 80

4131-E *2-06S L1 0.3 .25 .77 25 30 44 60 60 60 70

4130-E *2-06S L2 0.3 .25 .77 25 30 44 60 60 60 70

4140-E *2-06S Pi 0.3 .50 .77 43 53 70 80 80 80 80

4131-E *2-08S L1 0.5 .25 .36 20 26 39 59 60 60 70

4130-E *2-08S L2 0.5 .25 .36 20 26 39 59 60 60 70

4140-E *2-08S Pi 0.5 .50 .36 37 48 66 80 80 80 80

4131-E *2-09S L1 1.0 .25 .14 12 16 26 48 60 60 70

4130-E *2-09S L2 1.0 .25 .14 12 16 26 48 60 60 70

4140-E *2-09S Pi 1.0 .50 .14 28 40 58 80 80 80 80

4131-E *2-11S L1 3.0 .25 .05 11 15 20 36 60 60 70

4130-E *2-11S L2 3.0 .25 .05 11 15 20 36 60 60 70

4140-E *2-11S Pi 3.0 .50 .05 --- --- 38 70 80 80 80

4131-E *2-13S L1 5.0 .25 .015 8 12 20 32 60 60 70

4130-E *2-13S L2 5.0 .25 .015 8 12 20 32 60 60 70

4140-E *2-13S Pi 5.0 .50 .015 --- --- 20 63 80 80 80

Rated Voltage: 150VDC Equivalent to MIL-F-28861/3

EM

I/RF

IF

eed

-th

ru F

ilter

s

KEMET PartNumber Circuit

Max.Current

(A)

Min.Cap.(µF)

Max.Rdc(Ω)


30 kHz 100 kHz 150 kHZ 300 kHz 1MHz 10 MHz 1 GHz

4131-C *2-03S L1 0.1 .70 1.7 20 41 48 60 70 70 70

4130-C *2-03S L2 0.1 .70 1.7 20 41 48 60 70 70 70

4140-C *2-03S Pi 0.1 1.4 1.7 36 69 79 80 80 80 80

4131-C *2-06S L1 0.3 .70 .77 15 35 42 54 70 70 70

4130-C *2-06S L2 0.3 .70 .77 15 35 42 54 70 70 70

4140-C *2-06S Pi 0.3 1.4 .77 29 62 73 80 80 80 80

4131-C *2-08S L1 0.5 .70 .36 12 29 36 48 69 70 70

4130-C *2-08S L2 0.5 .70 .36 12 29 36 48 69 70 70

4140-C *2-08S Pi 0.5 1.4 .36 21 56 67 80 80 80 80

4131-C *2-09S L1 1.0 .70 .14 11 21 26 36 55 70 70

4130-C *2-09S L2 1.0 .70 .14 11 21 26 36 55 70 70

4140-C *2-09S Pi 1.0 1.4 .14 --- 46 57 75 80 80 80

4131-C *2-11S L1 3.0 .70 .05 10 20 24 31 45 70 70

4130-C *2-11S L2 3.0 .70 .05 10 20 24 31 45 70 70

4140-C *2-11S Pi 3.0 1.4 .05 --- 17 36 51 80 80 80

4131-C *2-13S L1 5.0 .70 .015 --- 14 17 24 36 60 70

4130-C *2-13S L2 5.0 .70 .015 --- 14 17 24 36 60 70

4140-C *2-13S Pi 5.0 1.4 .015 --- --- 16 38 75 80 80

Rated Voltage: 70VDC Equivalent to MIL-F-28861/4

KEMET PartNumber

CircuitMax.

Current(A)

Min.Cap.(µF)

Max.Rdc(Ω)


30 kHz 150 kHz 300 kHz 1MHz 10MHz 100 MHz 1 GHz

4135-N *2-05S L1 .25 .15 1.5 22 28 40 60 60 60 70

4134-N *2-05S L2 .25 .15 1.5 22 28 40 60 60 60 70

4141-N *2-05S Pi .25 .30 1.5 34 44 62 80 80 80 80

4135-N *2-09S L1 1.0 .15 .25 8 13 24 45 60 60 70

4134-N *2-09S L2 1.0 .15 .25 8 13 24 45 60 60 70

4141-N *2-09S Pi 1.0 .30 .25 18 32 40 80 80 80 80

4135-N *2-11S L1 3.0 .15 .05 5 8 16 30 60 60 70

4134-N *2-11S L2 3.0 .15 .05 5 8 16 30 60 60 70

4141-N *2-11S Pi 3.0 .30 .05 --- --- 19 59 80 80 80

4135-N *2-13S L1 5.0 .15 .015 5 8 14 26 55 55 70

4134-N *2-13S L2 5.0 .15 .015 5 8 14 26 55 55 70

4141-N *2-13S Pi 5.0 .30 .015 --- --- --- 51 80 80 80

Rated Voltage: 200VDC/125VAC 0-400Hz Equivalent to MIL-F-28861/5


Coaxial Broadband EMI Filters - L, Pi and T-Circuits

KEMET Part Number CircuitMax.Idc(A)

Max.Rdc(Ω)


75 kHz 150 kHz 300 kHz 1MHz 10 MHz 1 GHz

6930-DR2-08S L2 .5 .3 35 48 60 70 70 70

6931-DR2-08S L1 .5 .3 35 48 60 70 70 70

6930-DR2-09S L2 1.0 .21 30 40 52 70 70 70

6931-DR2-09S L1 1.0 .21 30 40 52 70 70 70

6930-DR2-11S L2 3.0 .03 20 29 37 55 70 70

6931-DR2-11S L1 3.0 .03 20 29 37 55 70 70

6930-DR2-13S L2 5.0 .007 20 29 34 47 70 70

6931-DR2-13S L1 5.0 .007 20 29 34 47 70 70

6940-DR2-08S Pi .5 .3 55 75 80 80 80 80

6940-DR2-09S Pi 1.0 .21 52 69 80 80 80 80

6940-DR2-11S Pi 3.0 .03 26 48 66 80 80 80

6940-DR2-13S Pi 5.0 .02 15 38 58 80 80 80

6950-DR2-10S T 2.0 .16 16 40 50 70 70 70

General SpecificationsOperating Temperature: -55°C to +125°C.Rated Voltage: 100VDCRated Current: See table Insulation Resistance: 700 Megohms, minimum,

at +25°C. +125°C = 10% of +25°C requirements. Voltage Drop: Rated Current x Rdc DC Resistance: .See table Temperature Rise: +25°C maximum Dielectric Withstanding Voltage:

2.5 x rated DC voltage for 5 seconds ± 1 second.50 mA maximum charging current.

Equivalent to MIL-F-15733/67Notes: 1. For complete part number designations and codes see pages 65-66.

2. Standard finish is code 2 - Electro-tin.Tin-lead, Gold & silver are also available.


L1-Circuit L2-Circuit Pi-Circuit T-Circuit

Pi T

ApplicationsStandard L filters are used where circuit source impedance is low and the circuit load impedance is high. The inductor faces thesource, and the capacitor faces the load. Typical interfering source low impedances (voltage generator) are relay and switch con-tacts, SCR controls, and rectifiers. Typical load high impedances (voltage sensitive) are voltage sensitive relays and solenoids,long signal lines, line stabilization networks, and transformer powered equipment. Reversed L filters are used when the circuitssource impedance is high, and the circuit load impedance is low. The inductor faces the load, and the capacitor faces the source.Typical interfering source high impedances (current generator) are AC induction motors, relay coils, series DC motors, long ACpower lines, and power supply-transformer inputs. Typical load low impedances (current sensitive) are current sensitive relays andsolenoids, and high current resistive or capacitive loads. Pi filters are used where circuit source and load impedances are high, orvary from low to high. Typical interfering source high impedances (current generator) are AC induction motors, relay coils seriesDC motors, conventional long AC power lines, and power supply/transformer input. Typical load high impedances (voltage sensi-tive) are voltage sensitive relays and solenoids, transformer powered equipment, long signal lines, and line stabilization networks. CAUTION: Do not use Pi filters where arcing (contacts) or high transient waveforms are present. Passband attenuation may gopositive making the noise problems more severe than without the filter present. This is called "ringing" and is caused by the ten-dency of the filter to actually produce voltage oscillation.T-Section filters are selected instead of Pi-Section filters when the circuitsource and load impedance are low and Pi filter performance is desired.


Coaxial Broadband EMI Filters - C, L, Pi and T-Circuits - AC Line, 0-400Hz


Max.Idc(A)

Min.Cap(µF)

MaxL

(in)

Max.Rdc(Ω)

Max. VoltageDrop (Volts)


ac(rms) dc 100 kHz 150 kHz 300 kHz 1 MHz 10 MHz 100 MHz 1 GHz

6910-RR2-154S C 15.0 .15 .700 .008 .14 .12 7 10 16 26 40 52 70

6933-RR2-08S L1 .5 .15 1.060 .33 .47 .165 18 24 32 50 60 60 70

6932-RR2-08S L2 .5 .15 1.060 .33 .47 .165 18 24 32 50 60 60 70

6933-RR2-09S L1 1.0 .15 1.060 .15 .47 .15 12 19 30 46 60 60 70

6932-RR2-09S L2 1.0 .15 1.060 .15 .47 .15 12 19 30 46 60 60 70

6933-RR2-11S L1 3.0 .15 1.060 .026 .32 .078 7 11 19 36 60 60 70

6932-RR2-11S L2 3.0 .15 1.060 .026 .32 .078 7 11 19 36 60 60 70

6933-RR2-13S L1 5.0 .15 1.060 .013 .21 .065 7 10 16 28 54 60 70

6932-RR2-13S L2 5.0 .15 1.060 .013 .21 .065 7 10 16 28 54 60 70

6933-RR2-15S L1 10.0 .15 1.060 .088 .12 .08 7 10 16 25 48 60 70

6932-RR2-15S L2 10.0 .15 1.060 .008 .12 .08 7 10 16 25 48 60 70

6941-RR2-08S Pi .5 .20 1.205 .33 .47 .165 24 34 52 80 80 80 80

6941-RR2-09S Pi 1.0 .20 1.205 .15 .47 .15 16 27 46 74 80 80 80

6941-RR2-11S Pi 3.0 .20 1.205 .026 .32 .078 --- --- 30 60 80 80 80

6941-RR2-13S Pi 5.0 .20 1.205 .013 .21 .065 --- --- 12 50 80 80 80

6941-RR2-15S Pi 10.0 .20 1.205 .008 .12 .08 --- --- --- 30 80 80 80

6951-RR2-09S T 1.0 .15 1.400 .052 .21 .052 6 12 25 46 60 60 70

6951-RR2-10S T 2.0 .15 1.400 .038 .22 .076 6 10 18 38 58 60 70

6951-RR2-12S T 4.0 .15 1.400 .026 .32 .104 6 10 16 30 50 60 70



C-Circuit L1-Circuit L2-Circuit Pi-Circuit

T-Circuit

PiC

T


+15, -40% Insulation Resistance: 1K Megohm-µF or 10K Megohmminimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements. Voltage Drop: See table DC Resistance: .See table Temperature Rise: +25°C maximum Dielectric Withstanding Voltage:


Rated Voltage: 400VDC/230VAC 0-400Hz

Equivalent to MIL-F-28861/16

EM

I/RF

IF

eed

-th

ru F

ilter

s


Coaxial Broadband EMI Filters - C, L, Pi and T-Circuits - AC Line, 0-400Hz


Max.Idc(A)

Min.Cap(µF)

MaxL

(in)

Max.Rdc(Ω)

Max. VoltageDrop (Volts)


ac(rms) dc 100 kHz 150 kHz 300 kHz 1 MHz 10 MHz 100 MHz 1 GHz

6910-PR2-304S C 15.0 .30 .700 .008 .14 .12 13 16 22 32 40 58 70

6933-PR2-08S L1 .5 .30 1.060 .33 .47 .165 23 28 40 60 60 60 70

6932-PR2-08S L2 .5 .30 1.060 .33 .47 .165 23 28 40 60 60 60 70

6933-PR2-09S L1 1.0 .30 1.060 .15 .47 .15 18 24 37 56 60 60 70

6932-PR2-09S L2 1.0 .30 1.060 .15 .47 .15 18 24 37 56 60 60 70

6933-PR2-11S L1 3.0 .30 1.060 .026 .32 .078 13 17 24 42 60 60 70

6932-PR2-11S L2 3.0 .30 1.060 .026 .32 .078 13 17 24 42 60 60 70

6933-PR2-13S L1 5.0 .30 1.060 .013 .21 .065 13 16 22 34 60 60 70

6932-PR2-13S L2 5.0 .30 1.060 .013 .21 .065 13 16 22 34 60 60 70

6933-PR2-15S L1 10.0 .30 1.060 .008 .12 .08 13 16 20 30 56 60 70

6932-PR2-15S L2 10.0 .30 1.060 .008 .12 .08 13 16 20 30 56 60 70

6941-PR2-08S Pi .5 .36 1.205 .33 .47 .165 34 44 62 80 80 80 80

6941-PR2-09S Pi 1.0 .36 1.205 .15 .47 .15 26 37 56 80 80 80 80

6941-PR2-11S Pi 3.0 .36 1.205 .026 .32 .078 --- 18 40 70 80 80 80

6941-PR2-13S Pi 5.0 .36 1.205 .013 .21 .065 --- --- 25 60 80 80 80

6941-PR2-15S Pi 10.0 .36 1.205 .008 .12 .08 --- --- --- 50 80 80 80

6951-PR2-09S T 1.0 .30 1.400 .052 .21 .052 13 18 28 48 60 60 70

6951-PR2-10S T 2.0 .30 1.400 .038 .22 .076 12 16 22 37 56 60 70

6951-PR2-12S T 4.0 .30 1.400 .026 .32 .104 12 16 20 34 54 60 70

Notes: 1. For complete part number designations and codes see pages 65-66.2. Standard finish is code 2 - Electro-tin.


C-Circuit L1-Circuit L2-Circuit Pi-Circuit

T-Circuit

PiC

T


+15, -40% Insulation Resistance: 1K Megohm-µF or 10K Megohmminimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements. Voltage Drop: See table DC Resistance: .See table Temperature Rise: +25°C maximum Dielectric Withstanding Voltage:


Rated Voltage: 300VDC/230VAC 0-400Hz



Coaxial High Frequency EMI Filters - C and L-Circuits 4-40 Bolt Style

KEMET Part Number CircuitWorkingVoltage

(dc)

Min.Cap(µF)


1 MHz 10 MHz 100 MHz 200 MHz 1 GHz 10 GHz

5020-BE4-102S C 50 .001 --- 4 20 25 40 50

5040-BE4-102S L 50 .001 --- 4 20 25 40 50

5020-BE4-103S C 50 .01 4 21 35 40 55 60

5040-BE4-103S L 50 .01 4 21 35 40 55 60

5020-BE4-503S C 50 .05 15 35 44 50 70 70

5040-BE4-503S L 50 .05 15 35 44 50 70 70

5020-DE4-102S C 100 .001 --- 4 20 25 40 50

5040-DE4-102S L 100 .001 --- 4 20 25 40 50

5020-DE4-152S C 100 .0015 --- 5 24 30 44 50

5040-DE4-152S L 100 .0015 --- 5 24 30 44 50

5020-DE4-453S C 100 .045 14 34 44 50 70 70

5040-DE4-453S L 100 .045 14 34 44 50 70 70

5020-FE4-102S C 200 .001 --- 4 20 25 40 50

5040-FE4-102S L 200 .001 --- 4 20 25 40 50

5020-FE4-153S C 200 .015 6 24 40 45 55 60

5040-FE4-153S L 200 .015 6 24 40 45 55 60

Notes: 1. For complete part number designations and codes see pages 65-66. 2. Standard finish is code 4 - Silver-plate.

Electro tin fused and gold are also available. 3. Standard lead is 0.018±0.002 silver plated alloy 52 material.4. One and one-half imperfect threads allowed 0.030 inches maximum. 5. One imperfect thread allowed 0.030 inches maximum.


C

General SpecificationsOperating Temperature: -55°C to +125°C.Rated Voltage: See TableRated Current: 3 Amperes, maximum Capacitance Tolerance: 0, +100%. Dissipation Factor: 3.0% maximum. Voltage and Temperature Limits of Capacitance:

+15, -40% Insulation Resistance: 1K Megohm-µF or 10K Megohmminimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements. Voltage Drop: .06 volt, maximum DC Resistance: 0.02 ohm, maximum Temperature Rise: +25°C maximum Dielectric Withstanding Voltage:



ApplicationsC-section filters are used in circuits where both source and loadimpedances are high. Use on low impedance circuits will signifi-cantly reduce the filter's performance. L-section filters are used when the interfering source has a lowor varying impedance. The discoidal multi-layer constructioncompletely isolates the input from the output, making these fil-ters effective at very high frequencies. Typical applications are communication equipment, measuringand test equipment, microwave repeaters, and for RF bypassingto ground. Capacitance values up to 1500pF are ideal for MHzhigh speed switching applications.

EM

I/RF

IF

eed

-th

ru F

ilter

s


Coaxial High Frequency EMI Filters - C and L-Circuits 4-40 Bolt Style


(dc)

Min.Cap(µF)



5010-DB4-273S C 100 .027 8 28 39 44 64 70

5030-DB4-273S L 100 .027 8 28 39 44 64 70

5030-DB4-453S L 100 .045 14 34 44 50 70 70

5010-FB4-102S C 200 .001 --- 4 20 25 40 50

5010-FB4-502S C 200 .005 --- 15 34 40 45 50

5010-FB4-103S C 200 .01 4 21 35 40 55 60

5030-FB4-103S L 200 .01 4 21 35 40 55 60


C

General SpecificationsOperating Temperature: -55°C to +125°C.Rated Voltage: See TableRated Current: 5 Amperes, maximum Capacitance Tolerance: 0, +100%. Dissipation Factor: 3.0% maximum. Voltage and Temperature Limits of Capacitance:

+15, -40% Insulation Resistance: 1K Megohm-µF or 10K Megohmminimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements. Voltage Drop: 0.1 volt, maximum DC Resistance: 0.02 ohm, Maximum Temperature Rise: +25°C maximum Dielectric Withstanding Voltage:



ApplicationsC-section filters are used in circuits where both source and loadimpedances are high. Use on low impedance circuits will signifi-cantly reduce the filter's performance. L-section filters are used when the interfering source has a lowor varying impedance. The discoidal multi-layer constructioncompletely isolates the input from the output, making these fil-ters effective at very high frequencies. Typical applications are communication equipment, measuringand test equipment, microwave repeaters, and for RF bypassingto ground. Capacitance values up to 1500pF are ideal for MHzhigh speed switching applications.

Notes: 1. For complete part number designations and codes see pages 65-66. 2. Standard finish is code 4 - Silver-plate.

Electro tin fused and gold are also available. 3. Standard lead is 0.026±0.002 silver plated copper.

Other lead diameters available upon request.4. One and one-half imperfect threads allowed 0.030 inches maximum. 5. One imperfect thread allowed 0.030 inches maximum.


ApplicationsC-section filters are used in circuits where both source and load impedances are high. Use on low impedance circuits will signifi-cantly reduce the filter's performance. L-section filters are used when the interfering source has a low or varying impedance. Thediscoidal multi-layer construction completely isolates the input from the output, making these filters effective at very high frequen-cies. Typical applications are communication equipment, measuring and test equipment, microwave repeaters, and for RF bypass-ing to ground. Capacitance values up to 1500pF are ideal for MHz high speed switching applications. Pi-section bolt style filtersare the most effective when used on high source and load impedance circuits. The discoidal multilayer construction completelyisolates the input from the output, making these filters effective at very high frequencies. Typical applications include radar, ampli-fiers, telemetry, telecommunications, satellite communications transmissions, and RF switches. Pi filters using discoidal ceramicsexhibit normal network resonance in the 10-30 MHz range, whereas tubular ceramics experience parallel resonances from 50MHz to 500 MHz.

Coaxial High Frequency EMI Filters - C, L and Pi-Circuits 8-32 Bolt Style


(dc)

Min.Cap(µF)



5210-BB4-503S C 50 .05 15 35 42 50 70 70

5230-BB4-503S L 50 .05 15 35 42 50 70 70

5250-BB4-323S Pi 50 .032 12 30 60 70 70 70

5210-DB4-103S C 100 .01 4 21 35 40 55 60

5230-DB4-103S L 100 .01 4 21 35 40 55 60

5250-DB4-123S Pi 100 .012 --- 12 60 70 70 70

5210-DB4-273S C 100 .027 8 28 39 44 64 70

5230-DB4-273S L 100 .027 8 28 39 44 64 70

5250-DB4-203S Pi 100 .02 4 24 60 70 70 70

5210-FB4-102S C 200 .001 --- 4 20 25 40 50

5230-FB4-102S L 200 .001 --- 4 20 25 40 50

5250-FB4-202S Pi 200 .002 --- 8 42 58 70 70

5210-FB4-502S C 200 .005 --- 15 34 40 45 50

5230-FB4-502S L 200 .005 --- 15 34 40 45 50

5250-FB4-502S Pi 200 .005 --- 10 55 70 70 70

NOTES:1. For complete part number designations and codes see pages 65-66. 2. Standard finish is code 4 - silver plate.

Electro-tin fused and gold plate also available.3. Standard lead is 0.032 ±0.002 silver plated copper.

Other lead diameters and materials available upon request.4. Imperfect thread or undercut 0.040 inches maximum. 5. One imperfect thread allowed 0.040 inches maximum.

C-Circuit L2-Circuit Pi-Circuit

Epoxy Seal

C

General SpecificationsOperating Temperature: -55°C to +125°C.Rated Current: 3 Amperes, maximum Capacitance Tolerance: 0, +100%. Dissipation Factor: 3.0% maximum. Voltage and Temperature Limits of Capacitance:

+15, -40% Insulation Resistance: 1K Megohm-µF or 10K Megohmminimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements. Voltage Drop: 0.1 volt, maximum DC Resistance: 0.01 ohm, maximum Temperature Rise: +25°C maximum Dielectric Withstanding Voltage:



Pi

EM

I/RF

IF

eed

-th

ru F

ilter

s



Electro-tin fused and gold plate also available.3. Standard lead is 0.032 ±0.002 silver plated copper.


Hermetic Seal



(dc)

Min.Cap(µF)



5220-BB4-503S C 50 .05 15 35 42 50 70 70

5240-BB4-503S L 50 .05 15 35 42 50 70 70

5260-BB4-323S Pi 50 .032 12 30 60 70 70 70

5220-DB4-103S C 100 .01 4 21 35 40 55 60

5240-DB4-103S L 100 .01 4 21 35 40 55 60

5260-DB4-123S Pi 100 .012 --- 12 60 70 70 70

5220-DB4-273S C 100 .027 8 28 39 44 64 70

5240-DB4-273S L 100 .027 8 28 39 44 64 70

5260-DB4-203S Pi 100 .02 4 24 60 70 70 70

5220-FB4-102S C 200 .001 --- 4 20 25 40 50

5240-FB4-102S L 200 .001 --- 4 20 25 40 50

5260-FB4-202S Pi 200 .002 --- 8 42 58 70 70

5220-FB4-502S C 200 .005 --- 15 34 40 45 50

5240-FB4-502S L 200 .005 --- 15 34 40 45 50

5260-FB4-502S Pi 200 .005 --- 10 55 70 70 70


+15, -40% Insulation Resistance: 1K Megohms-µF or 10K Megohmsminimum, whichever is less, at +25°C.+125°C = 10% of +25°C requirements. Voltage Drop: 0.1 volt, maximum DC Resistance: 0.01 ohm, maximum Temperature Rise: +25°C maximum Dielectric Withstanding Voltage:





CPi




(dc)

Min.Cap(µF)



5510-BB4-204S C 50 .2 26 36 52 60 70 70

5530-BB4-204S L 50 .2 26 36 52 60 70 70

5550-BB4-124S Pi 50 .12 20 34 60 70 70 70

5510-DB4-104S C 100 .10 20 38 48 53 70 70

5530-DB4-104S L 100 .10 20 38 48 53 70 70

5550-DB4-753S Pi 100 .075 8 33 60 70 70 70

5510-DB4-503S C 100 .05 15 35 42 50 70 70

5530-DB4-503S L 100 .05 15 35 42 50 70 70

5550-DB4-503S Pi 100 .05 10 28 60 70 70 70

5510-FB4-502S C 200 .005 --- 15 34 40 45 50

5530-FB4-502S L 200 .005 --- 15 34 40 45 50

5550-FB4-123S Pi 200 .012 --- 12 60 70 70 70

5510-NB4-102S C 200/125vac .001 --- 4 20 25 40 50

5530-NB4-102S L 200/125vac .001 --- 4 20 25 40 50

5510-NB4-103S C 200/125vac .01 4 21 35 40 55 60

5530-NB4-103S L 200/125vac .01 4 21 35 40 55 60


+15, -40% Insulation Resistance: 1K Megohm-µF or 10K Megohmminimum, whichever is less, at +25°C.

+125°C = 10% of +25°C requirements. Voltage Drop: 0.1 volt, maximum DC Resistance: 0.01 ohm, maximum Temperature Rise: +25°C maximum Dielectric Withstanding Voltage:





Gold plate also available.3. Standard lead is 0.032 ±0.002 silver plated copper.



CPi

Epoxy Seal

EM

I/RF

IF

eed

-th

ru F

ilter

s




(dc)

Min.Cap(µF)



5520-BB4-204S C 50 .2 26 36 52 60 70 70

5540-BB4-204S L 50 .2 26 36 52 60 70 70

5560-BB4-124S Pi 50 .12 20 34 60 70 70 70

5520-DB4-104S C 100 .10 20 38 48 53 70 70

5540-DB4-104S L 100 .10 20 38 48 53 70 70

5560-DB4-753S Pi 100 .075 8 33 60 70 70 70

5520-DB4-503S C 100 .05 15 35 42 50 70 70

5540-DB4-503S L 100 .05 15 35 42 50 70 70

5560-DB4-503S Pi 100 .05 10 28 60 70 70 70

5520-FB4-502S C 200 .005 --- 15 34 40 45 50

5540-FB4-502S L 200 .005 --- 15 34 40 45 50

5560-FB4-123S Pi 200 .012 --- 12 60 70 70 70

5520-NB4-102S C 200/125vac .001 --- 4 20 25 40 50

5540-NB4-102S L 200/125vac .001 --- 4 20 25 40 50

5520-NB4-103S C 200/125vac .01 4 21 35 40 55 60

5540-NB4-103S L 200/125vac .01 4 21 35 40 55 60







Gold plate also available.3. Standard lead is 0.032 ±0.002 silver plated copper.



CPi

Epoxy Seal


KEMET Part Number Circuit FigureWorkingVoltage

(dc)

Min.Cap(pF)


1 MHz 10 MHz 100 MHz 1 GHz 10 GHz

1210-BE7-153S C 1 50 15000 7 25 40 60 60

1230-BE7-153S L 2 50 15000 7 25 40 60 60

1210-BE7-103S C 1 50 10000 4 20 35 50 60

1230-BE7-103S L 2 50 10000 4 20 35 50 60

1210-DE7-502S C 1 100 5000 --- 15 30 50 60

1230-DE7-502S L 2 100 5000 --- 15 30 50 60

1210-DE7-272S C 1 100 2700 --- 10 25 50 60

1230-DE7-272S L 2 100 2700 --- 10 25 50 60

1210-FE7-102S C 1 200 1000 --- 4 20 40 55

1230-FE7-102S L 2 200 1000 --- 4 20 40 55

1210-FE7-501S C 1 200 500 --- --- 15 34 50

1230-FE7-501S L 2 200 500 --- --- 15 34 50

1210-FE7-101S C 1 200 100 --- --- 3 20 40

1230-FE7-101S L 2 200 100 --- --- 3 20 40

1210-FE7-100S C 1 200 10 --- --- --- 5 20

1230-FE7-100S L 2 200 10 --- --- --- 5 20

FIG. 2 - L1-Circuit

Coaxial High Frequency EMI Filters - C and L-Circuits Solder-in Styles

FIG. 1 - C-Circuit

For glass seal at flange end:1. Substitute 1212 for 1210 in part number for "C" filters. 2. Substitute 1232 for 1230 in part number for "L" filters.


C

General SpecificationsOperating Temperature: -55°C to +125°C.Rated Current: 5 Amperes, maximum

(10 amperes current rating available upon request) Capacitance Tolerance: Guarantee min. value Dissipation Factor: 0.2% maximum 10pF-100pF.

3.0% maximum over 100pF Voltage and Temperature Limits of Capacitance:




ApplicationsFor high frequency solder-in applications where glass seal hermeticity is required on one end only. Excellent EMI suppressionfrom 10MHz to 10GHz.

NOTES:1. For complete part number designations and codes, see pages 65-66. 2. Standard finish is code 7 - gold plate per MIL-G-45204, Type III, Class 1.

Silver plate per QQ-S-365, Type III, Grade B also available

EM

I/RF

IF

eed

-th

ru F

ilter

s



(dc)

Min.Cap(µF)


1 MHz 10 MHz 100 MHz 1 GHz 10 GHz

1610-BE7-503S C 1 50 .05 15 34 42 70 70

1630-BE7-603S L 2 50 .05 15 34 42 70 70

1610-BE7-273S C 1 50 .027 8 28 39 64 70

1630-BE7-273S L 2 50 .027 8 28 39 64 70

1610-DE7-153S C 1 100 .015 7 25 40 60 60

1630-DE7-153S L 2 100 .015 7 25 40 60 60

1610-FE7-103S C 1 200 .01 3 20 35 50 60

1630-FE7-103S L 2 200 .01 3 20 35 50 60

1610-FE7-502S C 1 200 .005 --- 15 30 50 60

1630-FE7-502S L 2 200 .005 --- 15 30 50 60

1610-FE7-102S C 1 200 .001 --- 4 20 40 55

1630-FE7-102S L 2 200 .001 --- 4 20 40 55

FIG. 2 - L1-Circuit


FIG. 1 - C-Circuit





C

General SpecificationsOperating Temperature: -55°C to +125°C.Rated Current: 5 Amperes, maximumCapacitance Tolerance: Guarantee min. value Dissipation Factor: 3% maximum Voltage and Temperature Limits of Capacitance:




ApplicationsFor high frequency solder-in applications where glass seal hermeticity is required on one end only. These filters, with improvedrealiability, will operate at +150ºC and will withstand +300ºC installation temperature. Excellent EMI suppression from 10MHz to10GHz.



(dc)

Min.Cap(µF)


500 kHz 1 MHz 10 MHz 100 MHz 1 GHz 10 GHz

2510-BE7-254S C 1 50 .25 21 31 40 55 70 70

2530-BE7-254S L 2 50 .25 21 31 40 55 70 70

2510-BE7-154S C 1 50 .15 17 24 38 50 70 70

2530-BE7-154S L 2 50 .15 17 24 38 50 70 70

2510-DE7-104S C 1 100 .10 14 20 38 48 70 70

2530-DE7-104S L 2 100 .10 14 20 38 48 70 70

2510-FE7-503S C 1 100 .05 8 15 35 42 70 70

2530-FE7-503S L 2 100 .05 8 15 35 42 70 70

2510-FE7-223S C 1 200 .022 2 8 26 35 60 70

2530-FE7-223S L 2 200 .022 2 8 26 35 60 70

2510-FE7-153S C 1 200 .015 --- 7 25 34 55 60

2530-FE7-153S L 2 200 .015 --- 7 25 34 55 60

2510-HE7-103S C 1 300 .01 --- 3 20 35 50 60

2530-HE7-103S L 2 300 .01 --- 3 20 35 50 60

2510-HE7-502S C 1 300 .005 --- --- 15 30 50 60

2530-HE7-502S L 2 300 .005 --- --- 15 30 50 60

FIG. 2 - L1-Circuit


FIG. 1 - C-Circuit





C

General SpecificationsOperating Temperature: -55°C to +125°C.Rated Current: 10 Amperes, maximumCapacitance Tolerance: 0, 100% Dissipation Factor: 3% maximum Voltage and Temperature Limits of Capacitance:




ApplicationsFor high frequency solder-in applications where glass seal hermeticity is required on one end only. These filters, with improvedrealiability, will operate at +150ºC and will withstand +300ºC installation temperature. Excellent EMI suppression from 500kHz to10GHz.

EM

I/RF

IF

eed

-th

ru F

ilter

s



(dc)

Min.Cap(µF)


500 kHz 1 MHz 10 MHz 100 MHz 1 GHz 10 GHz

4010-BE7-754S C 1 50 .75 30 38 40 62 70 70

4030-BE7-754S L 2 50 .75 30 38 40 62 70 70

4010-BE7-125S C 1 50 1.2 33 38 40 70 70 70

4030-BE7-125S L 2 50 1.2 33 38 40 70 70 70

4010-DE7-704S C 1 100 .70 30 36 40 60 70 70

4030-DE7-704S L 2 100 .70 30 36 40 60 70 70

4010-DE7-504S C 1 100 .50 26 34 40 58 70 70

4030-DE7-504S L 2 100 .50 26 34 40 58 70 70

4010-FE7-154S C 1 200 .15 17 24 38 50 70 70

4030-FE7-154S L 2 200 .15 17 24 38 50 70 70

4010-FE7-103S C 1 200 .01 --- --- 21 35 50 70

4030-FE7-103S L 2 200 .01 --- --- 21 35 50 70

4010-PE7-503S C 1 300/115VAC .05 7 15 34 42 70 70

4030-PE7-503S L 2 300/115VAC .05 7 15 34 42 70 70

4010-PE7-103S C 1 300/115VAC .01 --- --- 21 35 50 70

4030-PE7-103S L 2 300/115VAC .01 --- --- 21 35 50 70

FIG. 2 - L1-Circuit


FIG. 1 - C-Circuit




C-Circuit

C

General SpecificationsOperating Temperature: -55°C to +125°C.Rated Current: 15 Amperes, maximumCapacitance Tolerance: 0, 100% Dissipation Factor: 3% maximum Voltage and Temperature Limits of Capacitance:




ApplicationsFor high frequency solder-in applications where glass seal hermeticity is required on one end only. These filters, with improvedrealiability, will operate at +150ºC and will withstand +300ºC installation temperature. Excellent EMI suppression from 500kHz to10GHz.

L1-Circuit


“S” Test Level Screening1. Capacitance and Dissipation Factor (DF): 100% per MIL-STD-202, Method 305. 2. Dielectric Withstanding Voltage (DWV): 100% at 2.5 x rated dc voltage for 5 seconds ±1

second (50mA maximum charging current). 3. Insulation Resistance (IR):

100% per MIL-STD-202, Method 302, at rated dc voltage at +25ºC. 4. Direct Current Resistance (DCR): Per MIL-STD-202, Method 303, only for broadband filters

with a current rating of 5 amperes or less. 5. Visual (10x) and Mechanical: Per MIL-STD-105, 1.0% AQL, Inspection Level II.

Test Levels A, D, E, F, S

“A” Test Level Screening1. Thermal Shock:

100%, 5 cycles from -55ºC to +125ºC per MIL-STD-202, Method 107, Test Condition A. 2. Voltage Conditioning: 100%, 100 hours at 1.4 x rated dc voltage at +125ºC. 3. Capacitance and Dissipation Factor (DF): 100% per MIL-STD-202, Method 305. 4. Dielectric Withstanding Voltage (DWV): 100% at 2.5 x rated dc voltage for 5 seconds ±1

second (50mA maximum charging current). 5. Insulation Resistance (IR):

100% per MIL-STD-202, Method 302, rated dc voltage, at +25ºC. 6. Direct Current Resistance (DCR): Per MIL-STD-202, Method 303, only for broadband filters

with a current rating of 5 amperes or less. 7. Insertion Loss: At full load per MIL-STD-220. Sample per MIL-STD-105, 1.0% AQL, Special

Inspection Level S-2. 8. Seal Test:

100% per MIL-STD-202, Method 112, Test Condition D (hermetic sealed filters only).9. Visual and Mechanical: Per MIL-PRF-15733, Paragraph 4.6.1.

“D” Test Level = MIL-F-15733 Groups A and B

“E” Test Level = MIL-F-28861 Group A Class B

“F” Test Level = MIL-F-28861 Group A Class S

EM

I/RF

IF

eed

-th

ru F

ilter

s


Filter Hardware and Installation Notes

Installation Notes-Filters and Coaxial CapacitorsConsidering installation, filters and coaxial capacitors are in the same category as any other sensitive device,such as semiconductors. It is necessary to protect these products from excessively rapid temperature changesduring the soldering process, and excessive mechanical stress.

FILTERS:1. Maximum filter performance depends on good grounding during installation to create a ground path for the

noise interference. 2. Do not use pliers or any other grasping tool on the filter body as excessive pressure could crack the ceramic

capacitor and/or the glass seal. Bending of axial leads should be avoided for the same reasons. 3. Soldering tips:

a. Use a heat sink between soldering point and filter body.b. Iron tip temperature should not exceed +240ºC (60/40 solder is recommended)c. Limit iron contact to 5 to 10 seconds and use an iron rated between 18 to 30 watts.

COAXIAL CAPACITORS:*1. Slowly pre-heat the assembly to +200ºC. After soldering assembly, allow it to cool slowly to +90ºC.

CAUTION: Excessively rapid temperature changes through the Curie point of the ceramic will cause a large percentage of ceramic cracking. The Curie point can vary from +100ºC to +125ºC depending on theformulation.

2. Soldering temperature should not exceed +240ºC at the OD and +345ºC at the ID. Silver bearing solders are recommended such as Sn62 for the OD and Sn10 for the ID.

3. If soldering to the ID utilizes an iron, use one rated between 18 and 30 watts. Get on and off quickly as extended heat at either termination could result in leaching.

*Too fast a temperature rise and too fast a temperature cool down through the Curie point of the ceramic willcause a large percentage of ceramic cracking. The Curie point can vary from +100°C to +125°C--depending onthe formulation.

Thread SizeHex Nut Lock Washer Suggested Mounting

TorqueA B C D E4-40UNC-2B .188/.178 .067/.057 .225/.215 .020/.010 .125/.115 36 oz-in maximum

8-32UNC-2B .255/.240 .083/.063 .285/.275 .025/.015 .175/.165 68 oz-in maximum

12-32UNEF-2B .250/.241 .098/.088 .383/.372 .025/.015 .225/.215 68 oz-in maximum

1/4-28UNF-2B .332/.302 .098/.088 .408/.395 .025/.015 .266/.256 68 oz-in maximum

5/16-24UNC-2B .385/.365 .098/.088 .440/.420 .025/.015 .323/.313 68 oz-in maximum

1. Hardware supplied with all filters. 2. Material: Hex nut is Brass, QQ-B-626, Alloy 360, half hard. Lock washer is Phosphor-Bronze, QQ-B-750, Composition

A, hard. 3. Hardware plating matches filter body plating. 4. Bulkhead mounting without hardware (using a threaded hole) necessitates reducing the above listed mounting torque

by 50%.

Hex Nut and Internal Tooth Lock Washer


Filter Part Numbering Codes and Designations

Broadband Filters .385 “L” .410 “L” .690 “L”

C-Section 3710 .230 4110 .410 6910 .7003711 .110 --- --- --- ---3723 .230 --- --- --- ---

3724 .550 --- --- --- ---L-Section (Button) 3720 .230 4120 .410 --- ---

3721 .110 --- --- --- ---3725 .230 --- --- --- ---

L-Section 3730 .730 4130 .630 6930 .905

3731 .730 4131 .630 6931 .905--- --- 4134 .793 6932 1.060--- --- 4135 .793 6933 1.060

Pi-Section 3740 .730 4140 .730 6940 1.180--- --- 4141 .793 6941 1.205

T-Section --- --- --- --- 6950 1.180--- --- --- --- 6951 1.400

Bolt Style Filters 4-40 8-32 12-32

C-Section 5010 Epoxy 5210 Epoxy 5510 Epoxy5020 Hermetic 5220 Hermetic 5520 Hermetic

L-Section 5030 Epoxy 5230 Epoxy 5530 Epoxy5040 Hermetic 5240 Hermetic 5540 Hermetic

Pi-Section ------------------- 5250 Epoxy 5550 Epoxy5260 Hermetic 5560 Hermetic

Solder-In Style Filters .128 OD .165 OD .250 ODF .400 OD

C-Section Standard 1210 1610 2510 4010

C-Section Glass at Flange 1212 1612 2512 4012

L-Section Standard 1230 1630 2530 4030

L-Section Glass at Flange 1232 1632 2532 4032

Voltage Codes Current Codes (amps) Terminal/Thread Codes

B = 50vdc 03 = .10 A = Standard - No optionC = 70vdc 05 = .25 B = Standard CopperD = 100vdc 06 = .30 E = Alloy 52 (axial)E = 150vdc 08 = .50 F = .190 thread; .050 x .070 slotF = 200vdc 09 = 1.0 G = .312 thread; .050 x .070 slot

N = 200vdc/125vac, 0-400 Hz 10 = 2.0 M = .190 thread; axialP = 300vdc/125vac, 0-400 Hz 11 = 3.0 N = .312 thread; axialR = 400vdc/230vac, 0-400 Hz 12 = 4.0 R = .312 thread; .062 x .125 slot

S = Special13 = 5.015 = 10.016 = 15.0

EM

I/RF

IF

eed

-th

ru F

ilter

s


Filter Part Numbering Codes and Designations

Finish Codes2 = Electro-tin per MIL-T-10727, Type 13 = Tin-lead per MIL-P-817284 = Silver per QQ-S-365, Type III, Grade B5 = Gold per MIL-G-45204, Type I, Class 16 = Gold per Mil-G-45204, Type II, Class 17 = Gold per MIL-G-45204, Type III, Class 1

Test Level CodesA = KEMET 100% Screening

(See page 63 for details)D = Per MIL-F-15733, Groups A and BE = Per MIL-F-28861, Group A (Class B)F = Per MIL-F-28861, Group A (Class S)S = Standard KEMET Product Screening

(See page 63 for details)

Using the codes and designations on pages 65 and 66;here is an example of how to construct a Pi Filter part number.

Part Numbering System (Pi-Circuit)

5250 - D B 4 - 502 S

Number

Voltage

Terminal/Thread Finish

Test Level

Capacitance (pF)3rd Digit = Number of Zerose.g. 502 = 5000pF

© KEMET Electronics Corporation • PO Box 5928 • Greenville, SC 29606 • www.kemet.com 67© KEMET Electronics Corporation • PO Box 5928 • Greenville,SC 29606 • www.kemet.com

Cross Reference - MIL-F-28861 and MIL-F-15733Military Part Number KEMET Part Number

M28861/12-001GB 1231-BE7-153EPM28861/12-002GB 1211-BE7-153EPM28861/12-003GB 1231-DE7-272EPM28861/12-004GB 1211-DE7-272EPM28861/12-005GB 1231-DE7-502EPM28861/12-006GB 1211-DE7-502EPM28861/12-007GB 1231-FE7-100EPM28861/12-008GB 1211-FE7-100EPM28861/12-009GB 1231-FE7-250EPM28861/12-010GB 1211-FE7-250EPM28861/12-011GB 1231-FE7-101EPM28861/12-012GB 1211-FE7-101EPM28861/12-013GB 1231-FE7-501EPM28861/12-014GB 1211-FE7-501EPM28861/12-015GB 1231-FE7-102EPM28861/12-016GB 1211-FE7-102EPM28861/12-017GB 1233-BE7-153EPM28861/12-018GB 1213-BE7-153EPM28861/12-019GB 1233-DE7-272EPM28861/12-020GB 1213-DE7-272EPM28861/12-021GB 1233-DE7-502EPM28861/12-022GB 1213-DE7-502EPM28861/12-023GB 1233-FE7-100EPM28861/12-024GB 1213-FE7-100EPM28861/12-025GB 1233-FE7-250EPM28861/12-026GB 1213-FE7-250EPM28861/12-027GB 1233-FE7-101EPM28861/12-028GB 1213-FE7-101EPM28861/12-029GB 1233-FE7-501EPM28861/12-030GB 1213-FE7-501EPM28861/12-031GB 1233-FE7-102EPM28861/12-032GB 1213-FE7-102EPM28861/12-033GB 1231-BE7-103EPM28861/12-034GB 1211-BE7-103EPM28861/12-035GB 1233-BE7-103EPM28861/12-036GB 1213-BE7-103EP

M28861/05-001TB 4135-NF2-05EPM28861/05-002TB 4134-NF2-05EPM28861/05-003TB 4141-NF2-05EPM28861/05-004TB 4135-NF2-09EPM28861/05-005TB 4134-NF2-05EPM28861/05-006TB 4141-NF2-09EPM28861/05-007TB 4135-NF2-11EPM28861/05-008TB 4134-NF2-11EPM28861/05-009TB 4141-NF2-11EPM28861/05-010TB 4135-NF2-13EPM28861/05-011TB 4134-NF2-13EPM28861/05-012TB 4141-NF2-13EPM28861/05-013TB 4135-NG2-05EPM28861/05-014TB 4134-NG2-05EPM28861/05-015TB 4141-NG2-05EPM28861/05-016TB 4135-NG2-09EPM28861/05-017TB 4134-NG2-09EPM28861/05-018TB 4141-NG2-09EPM28861/05-019TB 4135-NG2-11EPM28861/05-020TB 4134-NG2-11EPM28861/05-021TB 4141-NG2-11EPM28861/05-022TB 4135-NG2-13EPM28861/05-023TB 4134-NG2-13EPM28861/05-024TB 4141-NG2-13EP

Military Part Number KEMET Part Number

M28861/01-003TB 4120-CF2-704EPM28861/01-004TB 4110-CF2-704EPM28861/01-009TB 4120-NF2-154EPM28861/01-010TB 4110-NF2-154EPM28861/01-013TB 4120-CG2-704EPM28861/01-014TB 4110-CG2-704EPM28861/01-019TB 4120-NG2-154EPM28861/01-020TB 4110-NG2-154EP

M28861/06-004SB 5011-FB4-102EPM28861/06-005SB 5011-FB4-502EPM28861/06-006SB 5011-FB4-103EPM28861/06-007SB 5031-FB4-103EP

M15733/26-0001 4133-SF2-09DPM15733/26-0002 4141-SF2-09DPM15733/26-0003 4132-SF2-09DPM15733/26-0004 4133-SF2-11DPM15733/26-0005 4141-SF2-11DPM15733/26-0006 4132-SF2-11DPM15733/26-0007 4133-SF2-13DPM15733/26-0009 4141-SF2-13DPM15733/26-0010 4132-SF2-13DPM15733/26-0011 4141-SF2-05DPM15733/26-0013 4133-SG2-09DPM15733/26-0014 4141-SG2-09DPM15733/26-0015 4132-SG2-09DPM15733/26-0016 4133-SG2-11DPM15733/26-0017 4141-SG2-11DPM15733/26-0018 4132-SG2-11DPM15733/26-0019 4133-SG2-13DPM15733/26-0021 4141-SG2-13DPM15733/26-0022 4132-SG2-13DPM15733/26-0023 4141-SG2-05DP

EM

I/RF

IF

eed

-th

ru F

ilter

s


Name _________________________________________________________________Dept. _________________

Company ____________________________________________________________________________________

Address______________________________________________________________________________________

City ________________________________________________State ______________Zip ___________________

Telephone ____________________Fax ___________________Email ____________________________________

Similar to: ____________________________________________________________________________________

Circuit Ratings Maximum Voltage Group

Filter Amps VDC VAC VAC Hz At Maximum Frequency

Filter Amps VDC VAC VAC Hz

Reliability Level

Commercial Flight Space Other Program Name

Insertion Loss Requirements, per MIL-STD-220

Frequency Insertion Loss Comments

Filter Specification Sheet

Circuit ConfigurationRequired (if known)

LTPi

C

Other

Environmental Requirements

Temperature Range MIL-F-15733_____________ MIL-F-28861______________

Mechanical ConfigurationSketch should indicate overall dimensions (if critical), type and arrangement of mounting, type and arrangement ofterminal or input Connectors. (If additional space is required, please use reverse side).

Special Requirements


Applications:Coaxial freed-thru capacitors of multilayer construction exhibit very low impedance to ground resulting in optimum EMI suppre-sion. The alternate layered construction (see figure 1) provides very low series resistance inductance which allows for the lowimpedance at high frequencies. Chassis or bulkhead mounted, either individually or in a cylindrical can (C, L, Pi or T filters), pro-vides very good isolation of the input signal from the output of the capacitor or filter.


TB = Termination Bands - 0.005 TYPOD = Outside DiameterID = Inside DiameterT = Thickness

A-A View

Coaxial Feed-thru Capacitors - EIA Characteristics: C0G, X7R

ID Codes(inches)

Voltage Codes Temperature Coefficients Capacitance Tolerance

B = .020 ± .003 B = 50 vdc C = C0G (NP0/BP) J = ±5% (NP0 only)C = .025 ± .003 C = 70vdc R = X7R K = ± 10%D = .032 ± .003 D = 100vdc M = ±20%H = .036 ± .003 E = 150vdc Terminations P = - 0% + 100%J = .040 ± .003 N = 200vdc/125vac

0-400 HzP = Paladium silver Z = - 20% + 80%

K = .045 ± .005 S = SilverM = .056 ± .005 P = 300vdc/125vac

0-400 HzR = .065 ± .005 Test LevelsS = .070 ± .005 R = 400vdc/230vac

0-400 HzS = Standard product screeningA = KEMET 100% screening

X = Special to customerspecification

Example: CF10 = 0.100 OD; D = 0.032 ID; D = 100vdc; R = X7R; 501 - 500 pF; M - ±20%; P = palladium silver; S = test level.1. Test level S: items 1, 2, 4 and 5 are performed. Dissipation Factor: 2.5% maximum for X7R and 0.15% maximum

for C0G (NP0).2. Test level A: items 1, 3, 4, 6, 7, 8 and 11 are performed. Dissipation Factor: 2.5% maximum for X7R and .15% maximum

for C0G (NP0).

EM

I/RF

IF

eed

-th

ru F

ilter

s


Coaxial Feed-thru Capacitors - EIA Characteristics: C0G (NP0) and X7R

Size (In inches) and Capacitance Range - C0G (NP0)KEMET Style CF04 CF10 CF13 CF19 CF26 CF34 CF37 CF64

OD ±0.005 .080 .100 .130 .190 .265 .345 .370 .645

ID’s Available B,C D,J D,J,M K,S S J,K,R J,K,R R

Maximum Thickness .040 .045 .060 .065 .070 .080 .080 .15050vdc Min. Cap.

Max.Cap.10pF300pF

14pF1000pF

27pF3000pF

56pF9600pF

100pF.017µF

330pF.06µF

380pF.066µF

690pF.088µF

70vdc Min. Cap.Max. Cap.

10pF200pF

14pF900pF

27pF2600pF

56pF7600pF

100pF.015µF

330pF.055µF

380pF.06µF

690pF.088µF


10pF130pF

14pF800pF

27pF2200pF

56pF7000pF

100pF.013µF

330pF.04µF

380pF.044µF

690pF.088µF

150vdc Min. Cap.Max. Cap. ---- 14pF

160pF27pF700pF

56pF2400pF

100pF4000pF

330pF.022µF

380pF.024µF

690pF.062µF

200vdc/ Min. Cap.125vac0-400Hz Max. Cap.

----

----

----

----

----

----

56pF

1000pF

100pF

2500pF

330pF

.012µF

380pF

.013µF

690pF

.052µF


----

----

----

----

----

----

----

----

100pF

1500pF

330pF

5400pF

380pF

5900pF

690pF

.034µF


----

----

----

----

----

----

----

----

----

----

330pF

2700pF

380pF

2900pF

690pF

7600pF

Size (In inches) and Capacitance Range - X7RKEMET Style CF04 CF10 CF13 CF19 CF26 CF34 CF37 CF64

OD ±0.005 .080 .100 .130 .190 .265 .345 .370 .645

ID’s Available B,C D,J D,J,M K,S S J,K,R J,K,R R

Maximum Thickness .040 .045 .060 .065 .070 .080 .080 .150

50vdc Min. Cap.Max.Cap.

390pF.017µF

560pF.034µF

100pF.12µF

2200pF.39µF

3900pF.66µF

3300pF1.8µF

4700pF1.98µF

.027µF4.2µF


390pF.012µF

560pF.022µF

100pF.10µF

2200pF.32µF

3900pF.52µF

3300pF1.8µF

4700pF1.98µF

.027µF3.6µF


390pF.012µF

560pF.022µF

100pF.10µF

2200pF.32µF

3900pF.52µF

3300pF1.5µF

4700pF1.65µF

.027µF3.2µF

150vdc Min. Cap.Max. Cap. ---- 560pF

.0075µF100pF..025µF

2200pF..12µF

3900pF.14µF

3300pF.70µF

4700pF.77µF

.027µF2.6µF


----

----

----

----

----

----

2200pF

.033µF

3900pF

.06µF

3300pF

.30µF

4700pF

.30µF

.027µF

1.2µF*


----

----

----

----

----

----

----

----

3900pF

.03*µF

3300pF

.30µF

4700pF

.30µF

.027µF

1.2µF*


----

----

----

----

----

----

----

----

----

----

3300pF

.10µF

4700pF

.12µF

.027µF

.50µF*

*125vac, 0-400Hz application max. cap is 0.030µF and for 230vac, 0-400Hz applications max. cap is 0.15µF.Cap values above these result in reactive currents greater than 100mA causing excessive heating

EM

I/RF

IF

eed

-th

ru F

ilter

s


Switch Mode Power Supply (Low ESR) Multilayer Ceramic CapacitorsApplicationsLow ESR multilayer ceramic capacitors are used in switch mode power supplies as output filtering devices. As your circuit fre-quency requirements increase, ceramic offers distinct advantages over tantalum and electrolytic capacitors. KEMET’s capacitorsare manufactured in accordance with DSCC drawings 87106 and 88011.

CaseCode

A(max)

B(max)

C±.025

D±.025

E(max)

Leadsper Side

10 .650 .710 .450 2.050 .500 2020 .650 .710 .800 1.510 .870 1530 .650 .710 .450 1.050 .500 1040 .650 .710 .400 .400 .440 450 .650 .710 .250 .250 .300 360 .650 .710 1.250 2.050 1.350 20

Case Code - Dimensions (In inches)


Maximum Capacitance (µF) available per Case Size and Temperature Characteristics

TEST LEVELS = StandardC = MIL-PRF-39014 Grp. AX = Special

CAPACITANCE TOLERANCEJ = ±5%K = ±10%M = ±20%

CAPACITANCE(2 Significant digits plus # of zeros)105 = 1µF106 = 10µF

VOLTAGE CODEB = 50VDCD = 100VDCF = 200VDCL = 500VDC

PRODUCT FAMILYL1 - Uncoated

TEMP. CHARACTERISTICC = C0GR = X7RZ = Z5U

LEAD TYPEN = Normal/Straight PinL = Formed L-LeadJ = Formed J-Lead

CASE CODESee data sheet for detail dimensions

L1 R N 20 L 106 K S

Case Code 10 20 30

WVDC 50 100 200 500 50 100 200 500 50 100 200 500C0G 4.7 3.3 1.8 .82 5.6 4.7 2.7 1.2 2.2 1.8 1.0 .39X7R 100.0 56.0 27.0 12.0 150.0 82.0 39.0 18.0 47.0 27.0 12.0 5.6Z5U 200.0 112.0 56.0 24.0 300.0 164.0 78.0 36.0 94.0 56.0 24.0 11.2

Case Code

40 50 60

WVDC 50 100 200 500 50 100 200 500 50 100 200 500C0G .56 .47 .27 .12 .27 .22 .1 .047 15.0 12.0 5.6 2.2X7R 15.0 8.2 3.9 1.8 5.6 3.3 1.5 .68 270.0 180.0 120.0 39.0Z5U 30.0 16.4 7.8 3.6 11.2 6.6 3.0 1.4 500.0 330.0 210.0 78.0

Sta

cked

MLC

Chi

ps


High Voltage SMPS Multilayer Ceramic CapacitorsSMPS Multilayer Ceramic Capacitors are high-capaci-tance, high-voltage, high-current devices which were origi-nally developed for applications in switch mode powersupplies. The multilayer ceramic construction achievesextremely low values of ESR, making them logicalreplacements for higher value electrolytics in output filterapplications where small size and high reliability areimportant. Low inductance permits effective filtering at highfrequencies.Other important applications include snubbers, input filters,and resonant (tank circuit) capacitors, all of which utilizethe high-current capabilities of these devices.NOTES:1. Dimensions are in inches. 2. Group A and B inspection available.

Part Number

Maximum Capacitance by Style

Case Code Dimensions (In inches)

Marking(HV1, HV2, HV3, HV6) (HV4, HV5)HV1B475MN 475M 1kV 1kV KD KD Date Code Date Code

StyleHV1 HV2

1kV 2kV 3kV 4kV 5kV 1kV 2kV 3kV 4kV 5kV

X7R 4.7µF 1.0µF .27µF .10µF .039µF 8.2µF 1.5µF .47µF .18µF .10µF

COG (NPO) 1.2µF .27µF .18µF .039µF .027µF 1.8µF .39µF .27µF .082µF .068µF

KDA 3.9µF 1.2µF .39µF .12µF .10µF 6.8µF 1.5µF .68µF .33µF .18µF

StyleHV3 HV4


X7R 2.7µF .47µF .15µF .047µF .022µF .82µF .15µF .056µF .015µF ---

COG (NPO) .68µF .15µF .10µF .018µF .015µF .22µF .047µF .033µF 5600pF 4700pF

KDA 2.2µF .56µF .22µF .068µF .047µF .82µF .18µF .068µF .022µF ---

StyleHV5 HV6


X7R .33µF .068µF .22µF --- --- 15.0µF 2.7µF 1.2µF .56µF .22µF

COG (NPO) .010µF .018µF .012µF --- --- 3.9µF 1.0µF .68µF .18µF .15µF

KDA .33µF .068µF .027µF --- --- 12.0µF 3.3µF 1.5µF .82µF .39µF

C0G (NP0) Dielectric ComparisonTemperature Coefficient 0±30ppm/ºC, -55º to +125ºCCapacitance Test 25ºC Measured at 1Vrms@1KHz(MIL-STD-202 Method 305)Dissipation Factor, 25ºC .15% max@1KHz, 1Vrms maxInsulation Resistance, 25ºC 100K megohm or 1K megohm-µF,

whichever is lessInsulation Resistance, 125ºC 10K megohm or 100 megohm-µF,

whichever is lessDielectric Withstanding 1.5 X rated to 1250VVoltage 1.2 X rated above 1250V

X7R Dielectric ComparisonTemperature Coefficient ±15%, -55º to +125ºCCapacitance Test 25ºC Measured at 1Vrms@1KHz(MIL-STD-202 Method 305)Dissipation Factor, 25ºC 2.5% max@1KHz, 1VRMS maxInsulation Resistance, 25ºC 100K megohm or 1K megohm-µF,


whichever is lessDielectric Withstanding 1.5 X rated to 1250VVoltage 1.2 X rated above 1250V

Case Code A (max) B (max) C ±.025D

E (max)Number ofLeads per

Side(min) (max)

1 .650 .715 .450 1.95 2.075 .500 20

2 .650 .715 .800 1.45 1.535 .870 15

3 .650 .715 .450 .95 1.075 .500 10

4 .650 .715 .400 .350 .425 .440 4

5 .650 .715 .250 .224 .275 .300 3

6 .650 .715 1.250 1.95 2.075 1.35 20

N = C0G (NP0)

B = X7RA = KDA


CSMPS Low ESR Multilayer Ceramic Capacitors

CSMPS Capacitors are high-capacitance and high-currentdevices which were originally developed for applications inswitch mode power supplies. The multilayer ceramic con-struction achieves extremely low values of ESR, makingthem logical replacements for higher value electrolytics inoutput filter applications where small size and high reliabilityare important. Low inductance permits effective filtering athigh frequencies.Other important applications include snubbers, input filters,and resonant (tank circuit) capacitors, all of which utilize thehigh-current capabilities of these devices.DSCC has published two drawings which describe highreliability versions of SMPS capacitors for military procure-ment. These are: 87106 (X7R) and 88011 (C0G). All valuesand sizes listed on the DSCC drawings are consistent withthe KEMET (Sierra-KD) catalog values.

NOTES:1. Dimensions are in inches. 2. Unless otherwise specified, tolerances are ±.010 (0.25mm). 3. Dimension 'A' shown in table for Case Code Dimensions are listed as

maximums. See table for capacitance values to determine actual 'A' dimension for a specific capacitance value/case code size.

C0G (NP0) Dielectric ComparisonTemperature Coefficient 0±30ppm/ºC, -55º to +125ºCCapacitance Test 25ºC Measured at 1Vrms@1KHz(MIL-STD-202 Method 305)Dissipation Factor, 25ºC .15% max@1KHz, 1VRMS maxInsulation Resistance, 25ºC 100K megohm or 1K megohm-µF,


whichever is lessDielectric Withstanding 2.5 X rated, 25ºC, 50m A max 5 sec.Voltage (500V unit @ 1.5 times Vr)

X7R Dielectric ComparisonTemperature Coefficient ±15%, -55º to +125ºCCapacitance Test 25ºC Measured at 1Vrms@1KHz(MIL-STD-202 Method 305)Dissipation Factor, 25ºC 2.5% max@1KHz, 1VRMS maxInsulation Resistance, 25ºC 100K megohm or 1K megohm-µF,


whichever is lessDielectric Withstanding 2.5 X rated, 25ºC, 50m A max 5 sec.Voltage (500V unit @ 1.5 times Vr)

CapValue(µF)

50V 100V 200V 500V EIACodeSeries A

(max)Series A

(max)Series A

(max)Series A

(max).10 104

.15

KD5

.120 154.18

.240

184

.22 224

.27 274

.33.360

334.39 394.47

KD5

.240474

.56 .480 564

.68

KD5

.120.360

.650 684

.82.240

KD4

.360824

1.0

KD5

.120 .480105

1.2 1251.5

.240.360

.650 .480 1551.8

KD4

.360.650 185

2.2.480

KD3

.240 2252.7

.360 .480.360

275

3.3 .650 3353.9

.480

KD4

.360.650 395

4.7

KD3

.240.480 475

5.6 .650.480

ContactFactory

565

6.8

KD4

.360 .360685

8.2 .650 82510.0

.480

KD3

.240.480 106

12.0

ContactFactory

12615.0 .650

.360156

18.0

KD3

.240 18622.0

.360

.480 226

27.0

ContactFactory

27633.0 336

39.0 .480 39647.0 .650 47656.0

ContactFactory

566

68.0 68682.0 826

100.0 107120.0 127

150.0 157180.0 187220.0 227

270.0 277

Marking (KD1, KD2, KD3, KD6) (KD4, KD5) KD3B106MN 106M 500V KD KD Date CodeDate Code

Part Number

X7R Dielectric

N = C0G (NP0)

B = X7RA = KDA

Sta

cked

MLC

Chi

ps


CapValue(µF)

50V 100V 200V 500VEIA

CodeSeriesA

(max) SeriesA

(max) SeriesA

(max) SeriesA

(max).010

KD5

.120 103.012

.240

123

.015 153

.018 183

.022

KD5

.120.360

223

.027.240

273.033

.480333

.039 393

.047

KD5

.240.360

.650 473

.056

KD5

.120

KD4

.360563

.068

.240.480

683

.082.480

823.10

.360.650 104

.12.360

KD4

.360.650 124

.15.480

KD3

.240154

.18.480 .480

184

.22 .650.360

224.27 .650

KD4

.360 .650 274

.33

KD4

.360.480

KD3

.240.480 334

.39.480 .650

394

.47.650 .360

474.56 .650

ContactFactory

564.68

KD3

.240

KD3

.240 .480 684

.82.360 .650

8241.0

.360105

1.2.480

ContactFactory

1251.5

.480155

1.8 .650 1852.2 .650

ContactFactory

2252.7

ContactFactory

275

3.3 3353.9 395

4.7 4755.6 565

6.8 6858.2 825

10.0 10612.0 12615.0 156

CapValue(µF)

50V 100V 200V 500V EIACodeSeries A

(max)Series A

(max)Series A

(max)Series A

(max).047

KD5

.120

KD5

.240KD5

.120 473

.056

.240

563.068 683

.082 823.10

KD5

.120

104

.12.360

124.15 154.18

.480184

.22

.240

224.27

.240

KD4

.240 274

.33.360

.360 334.39

.480

394

.47 .360.480

474.56

.360 .480564

.68

KD4

.360

684

.82.480

.650.650

8241.0

KD4

.360105

1.2

KD4

.240.480

KD3

.360 1251.5

.360 .480 .480155

1.8.650

1852.2

.480 .650 .650225

2.7

KD3

.360275

3.3.650

KD3

.360

ContactFactory

3353.9

.480395

4.7

KD3

.360.480

4755.6

.480.650

565

6.8.650

6858.2

ContactFactory

825

10.0.650

ContactFactory

10612.0 126

15.0

ContactFactory

15618.0 18622.0 226

27.0 27633.0 336

39.0 39647.0 476

56.0 56668.0 686

C0G (NP0) Dielectric KDA Dielectric

Case Code A (max) B (max) C ±.025D

E (max)Number ofLeads per

Side(min) (max)

1 .650 .715 .450 1.95 2.075 .500 20

2 .650 .715 .800 1.45 1.535 .870 15

3 .650 .715 .450 .95 1.075 .500 10

4 .650 .715 .400 .350 .425 .440 4

5 .650 .715 .250 .224 .275 .300 3

6 .650 .715 1.250 1.95 2.075 1.35 20

Case Code Dimensions (In inches)


KEMET Electronics Corporation444 Washington Street, Suite 510Woburn, MA 01801Phone: 781-933-1010Fax: 781-376-0929

KEMET Electronics Corporation8445 Freeport Parkway, Suite 320Irving, TX 75063Phone: 972-870-9530Fax: 972-870-9537

KEMET Electronics Ltd.Waterfront House, 55/61 South St.Bishop’s StortfordHertfordshire, CM23 3ALUnited KingdomPhone: 44-1279-757343Fax: 44-1279-757188

KEMET Electronics SAVia Gaetano Ermoli225C, F Int. 11Rome, L-00155, ItalyPhone: 39-06-23231718Fax: 39-06-23239519

KEMET Electronics Marketing PTE Ltd.8-2-04, Sunny Point KompleksJalan Batu Uban, 11700 PenangPenang, MalaysiaPhone: 60-4-6595200Fax: 60-4-6595220

KEMET Electronics Marketing PTE Ltd.101 Thomson Road, #23-03United SquareSingapore, 307591, SingaporePhone: 65-6353-6636Fax: 65-6353-6656

KEMET Electronics CorporationTaiwan Branch, 3-4F, No. 148, Section 4Chung-Hsaio E. Rd.Taipei, Taiwan ROCPhone: 886-2-27528585Fax: 886-2-27213129

KEMET Electronics Canada Ltd.105-7145 West Credit Ave., Bldg. #2Mississauga, L5N 6J7, ONCanadaPhone: 905-542-7930Fax: 905-542-7949

KEMET Electronics Canada Ltd.65 boul. Brunswick, Suite 214Dollard-des-Ormeaux, H9B-2N4 QCCanadaPhone: 514-685-3773Fax: 514-685-4077

KEMET Electornics S.A.R.L.ZAC Paris Rive Gauche118-122, avenue de France75013 Paris, FrancePhone: 01-33-01-464-61009Fax: 01-33-01-464-61599

WesTech Electronics & System Co. Ltd302/12 Central CondominumLadproa Soil, Ladproa RoadLadyao, JatujakBangkok, Thailand 109000Phone: 662-939-3482-6Fax: 662-939-3481

Crusader Electronics Pty. Ltd.Unit 3, 92 Bryant StreetPadstow, NSW 2211, AustraliaPhone: 612-9792-3922Fax: 612-9792-1446

Unicom International Corporation702 Shinhwa Bldg., Mapo-GuSeoul, 121050, KoreaPhone: 82-2712-5821Fax: 82-2712-5823

World Sales HeadquartersP.O. Box 5928 • Greenville, SC 29606 • www.kemet.com

Phone: (864) 963-6300 • Fax: (864) 963-6521

KEMET Electronics Corporation26 Corporate Plaza, Suite 170Newport Beach, CA 92660Phone: 949-640-9320Fax: 949-720-9807

KEMET Electronics Corporation2350 Mission College Blvd., Suite 972Santa Clara, CA 95054Phone: 408-986-0424Fax: 408-986-1442

KEMET Electronics CorporationSchaumburg Corporate CenterSuite 350, 1515 Woodfield RoadSchaumburg, IL 60173Phone: 847-517-1030Fax: 847-517-1037

KEMET Electronics S.A.1-3, Avenue de la PaixP.O.B. 76CH-1211 Geneva 20,SwitzerlandPhone: 41-22-715-0100Fax: 41-22-715-0170

KEMETElectronics GmbHEliszbethstrasse 89-91Munich D80797, GermanyPhone: 49-89-5908-2054Fax:: 49-89-5908-1304

KEMET Electronics (Shanghai) Co., Ltd.2/F, No. 7 Bldg., 330 Xiya Rd.Waigaoqiao Free Trade ZonePudong, Shanghai 200137, ChinaPhone: 86-21-5046-0983Fax: 86-21-5046-0981

KEMET Electronics Asia Ltd.Rm 605, Citic Bldg.No. 19 Jian Guo Men Wai Da JieBeijing, 100004, ChinaPhone: 8610-8526-3628Fax: 8610-8526-3626

KEMET Electronics Asia Ltd.30 Canton Rd., Room 1512Silvercord Tower IITsimshatshui, Kowloon Bay, Hong KongPhone: 852-2305-1168Fax: 852-2759-0345

NOTICE: Place 011 in front of the above Phone and Fax numbers for Europe and Asia, when dialing from a United States exchange.Note: KEMET reserves the right to modify minor details of internal and external construction at any time in the interest of product improvement. KEMET does not

assume any responsibility for infringement that might result from the use of KEMET Capacitors in potential circuit designs. © “KEMET” is a registered trademark of KEMET Electronics Corporation. © KEMET Electronics Corporation

11/03

USA/Canada Locations

Europe Locations

Asia Locations

Documents

Sierra-KD Product Line - Mouser · PDF fileHV Series - High Voltage SMPS Multilayer Ceramic - C0G (NP0), ... Sierra-KD Components has developed a design which is ideal for operation