MIC2871YMK-TR - MICROCHIP TECHNOLOGY

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One world. One KEMET

Benets

• Self-healing

• Low losses

• High ripple current

• High capacitance density

• High contact reliability

• Suitable for high frequency applications

Overview

The C4AE capacitors are polypropylene metallized lm, with

rectangular plastic box type lled with resin (white and grey

color) and 2 or 4 tinned copper wires.

Applications

Typical applications include DC ltering and energy storage.

Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC

for DC Link

Part Number System

C4 A E Q B W 5270 A 3 NJ

Series Type Application

Rated

Voltage

(VDC)

Case Terminals

Code

Capacitance

Code (pF) C-Spec

Lead

Diameter

(mm)

Size Code:

B x H x L (mm) Tolerance

C4 =

MKP

Power

Capacitors

A =

Box,

wire

terminals

E =

DC link

G = 450

H = 600

J = 700

O = 900

Q = 1,100

B =

Box,

plastic

case

U = 2 pins

W = 4 pins

Digits two –

four indicate

the rst three

digits of the

capacitance

value. First

digit indicates

the number

of zeros to be

added.

A =

Standard

grade

1 = 0.8

2 = 1.0

3 = 1.2

W = 11 x 20 x 31.5

X = 13 x 25 x 31.5

Y = 14 x 28 x 31.5

1 = 19 x 29 x 31.5

2 = 22 x 37 x 31.5

F = 20 x 40 x 42

J = 28 x 37 x 42

L = 30 x 45 x 42

M = 30 x 45 x 57.5

N = 35 x 50 x 57.5

J = 5%

K = 10%

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2© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard F3046_C4AE_RADIAL • 9/21/2018

Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com

Power and AC Film Capacitors – Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC, for DC Link

Dimensions – Millimeters

0.5

4pin

2pin

Size

Code

pp1 B H LLL d

Nominal Tolerance Nominal Tolerance Nominal Tolerance Nominal Tolerance Nominal Tolerance Nominal Tolerance Nominal Tolerance

W27.5 ±0.4 11 +0.3 20 +0.2 31.5 +0.5 6+0/−2 0.8 ±0.05

X27.5 ±0.4 13 +0.3 25 +0.2 31.5 +0.5 6+0/−2 0.8 ±0.05

Y27.5 ±0.4 14 +0.3 28 +0.2 31.5 +0.5 6+0/−2 0.8 ±0.05

127.5 ±0.4 19 +0.3 29 +0.2 31.5 +0.5 6+0/−2 0.8 ±0.05

227.5 ±0.4 22 +0.3 37 +0.2 31.5 +0.5 6+0/−2 0.8 ±0.05

F37.5 ±0.4 5.1/10.2 ±0.4 20 +0.4 40 +0.2 42.0 +0.6 6+0/−2 1.2 ±0.05

J37.5 ±0.4 10.2 ±0.4 28 +0.4 37 +0.2 42.0 +0.6 6+0/−2 1.2 ±0.05

L37.5 ±0.4 20.3 ±0.4 30 +0.4 45 +0.2 42.0 +0.6 6+0/−2 1.2 ±0.05

M52.5 ±0.4 20.3 ±0.4 30 +0.5 45 +0.3 57.5 +0.8 6+0/−2 1.2 ±0.05

N52.5 ±0.4 20.3 ±0.4 35 +0.5 50 +0.3 57.5 +0.8 6+0/−2 1.2 ±0.05

Qualications

Reference Standards IEC 61071, EN61071, VDE0560

Climatic Category 40/85/56 according to IEC

60068–1

3© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard F3046_C4AE_RADIAL • 9/21/2018

Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com

Power and AC Film Capacitors – Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC, for DC Link

General Technical Data

Dielectric Polypropylene metallized lm - non inductive self-healing property

Application DC ltering/DC-Link

Climatic Category 40/85/56 IEC 60068–1

Maximum Operating Temperature +105°C

Endurance Test 500 hours + 500 hours at 1.3 x VNDC at 85°C

Standard IEC 61071 – EN61071 – VDE0560

Protection

Solvent resistant plastic case UL94 V–0

Thermosetting resin sealing UL94 V–0 compliant

Installation Any position

Leads Tinned copper wires – standard lead wire length 6 (+0/−2) mm

Packaging Packed in cardboard trays with protection for the terminals

RoHS Compliant

Compliant with the restricted substance requirements of Directive

2011/65/EU

Electrical Characteristics

Rated Capacitance range 1 to 130 µF

Rated Voltage (VNDC) range 450 to 1,100 VDC

Capacitance Tolerance ±5% (J) or ±10% (K) measured at T = +25°C

Dissipation Factor PP typical

(tgδ0) ≤ 0.0002 at 10 kHz with T = 25°C (±5°C)

Surge Voltage 1.5 * VNDC for maximum 10 times in life time at 25°C

Overvoltage (IEC 61071) 1.15 * VNDC for maximum 30 minute - once per day

1.3 * VNDC for maximum 1 minute - once per day

Peak non Repetitive Current 1.5 * IPKR - maximum 1,000 times in life time

Insulation Resistance IR x C ≥ 30.000 seconds at 100 Vdc 1 minute (+25°C)

Capacitance deviation in operation ±1.5% maximum on capacitance value measured at T = +25°C

Temperature Storage −40 to +80°C

Storage time ≤ 36 months from the date marked on the label glued to the package

Permissible Relative Humidity -

Storage

Annual average ≤ 70%; 85% on 30 days/year randomly distributed

throughout the year. Dewing not admissible

4© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard F3046_C4AE_RADIAL • 9/21/2018

Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com

Power and AC Film Capacitors – Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC, for DC Link

Life Expectancy

Life expectancy 100.000 hours at VNDC at Hot spot temperature THS = +85°C

Capacitance drop at end of life −5% (typical)

Failure rate IEC 61709 ≤ 300 FIT at VNDC at Hot spot temperature THS = +85°C

Test Method

Test voltage between terminals 1.5 * VNDC for 10 seconds or 1.65 * VNDC for 2 seconds, at +25°C

Test voltage between terminals

and case 3.2 kVac 50 Hz for 2 seconds

Damp Heat IEC 60068–2–78

Change of temperature IEC 60068–2–14

Operative Voltage Derating

Voltage (VDC) Life Expectancy (hrs)

Operative Voltage at 70°C (THS)500 650 800 1,100 1,300 100,000

Rated Voltage at 85°C (THS)450 600 700 900 1,100 100,000

Operative Voltage at 105°C (THS)350 450 550 700 850 2,000

5© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard F3046_C4AE_RADIAL • 9/21/2018

Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com

Power and AC Film Capacitors – Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC, for DC Link

Lifetime Expectancy/Failure Quota Graphs

0.80

0.90

1.00

1.10

1.20

1.30

1.40

100 1,000 10,000

Lifetime Expectancy [h]

Voltage Ratio [V/VNDC]

100,000

Hot Spot

Temperature

[°C]

1,000,000

105

100

Lifetime Curve VNDC = 450 V-

0.80

0.90

1.00

1.10

1.20

1.30

1.40

100 1,000 10,000

Lifetime Expectancy [h]

Voltage Ratio [V/VNDC]

100,000

Hot Spot

Temperature

[°C]

1,000,000

105

100

Lifetime Curve VNDC = 900 V- and VNDC = 1,100 V-

0.80

0.90

1.00

1.10

1.20

1.30

1.40

100 1,000 10,000

Lifetime Expectancy [h]

Voltage Ratio [V/VNDC]

100,000

Hot Spot

Temperature

[°C]

1,000,000

105

100

Lifetime Curve VNDC = 600 V- and VNDC = 700 V-

0.5

100

1,000

10,000

100,000

0.6 0.7 0.90.8

V/V

NDC

FIT

1.0 1.1 1.2 1.3

Hot Spot

Temperature

[°C]

105

100

FIT at Hot Spot Temperatures

Notes:

THS = TAMB + ΔT

ΔT = ESR * Irms

2 * Rth

Irms should be limited to values granting ΔT ≤ 30°C

6© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard F3046_C4AE_RADIAL • 9/21/2018

Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com

Power and AC Film Capacitors – Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC, for DC Link

Environmental Compliance

As a leading global supplier of electronic components and an environmentally conscious company, KEMET continually works

to improve the environmental effects of the manufacturing process and our nished electronic components.

In Europe (RoHS Directive) and in some other geographical areas such as China China RoHS), legislation has been enacted

to prevent the use of certain hazardous materials including lead (Pb) in electronic equipment. KEMET monitors changes in

legislation worldwide and endeavors to make any necessary changes to its electronic components, as necessary and/or

required by law.

For medical, defense, automotive, and some commercial applications, the use of lead in the termination is necessary and/

or required by design. KEMET is committed to communicating RoHS compliance to our customers. KEMET will provide

information related to RoHS compliance using specic identiers on the packaging labels.

All KEMET power lm capacitors are RoHS compliant.

Materials & Environment

The selection of raw materials used by KEMET for the production of its electronic components is the result of extensive

experience and with specic attention toward environmental protection. KEMET selects its suppliers according to ISO 9001

standards and performs statistical analysis on the raw materials purchased before acceptance for use in the manufacture of

our electronic components. All materials are, to the best of KEMET’s knowledge, non-toxic and free from cadmium, mercury,

chrome and compounds, polychlorine triphenyl (PCB), bromide and chlorinedioxins bromurate clorurate, CFC and HCFC,

and asbestos.

Insulation Resistance

As the capacitor temperature increases, the insulation resistance decreases. This is due to the increased electron activity.

Low insulation resistance can also be the result of moisture trapped in the windings, caused by a prolonged exposure to

excessive humidity.

Dissipation Factor

Dissipation factor is a complex function involved with the ineciency of the capacitor. The tgδ may change up and down

with increased temperature. For more information, please refer to Performance Characteristics.

7© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard F3046_C4AE_RADIAL • 9/21/2018

Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com

Power and AC Film Capacitors – Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC, for DC Link

Sealing

Hermetically Sealed Capacitors

As the temperature increases, the pressure inside the capacitor increases. If the internal pressure is high enough, it can

cause a breach in the capacitor, which can result in leakage, impregnation, lling uid or moisture susceptibility.

Resin Encased/Wrap & Fill Capacitors

The resin seals on resin-encased and wrap-and-ll capacitors will withstand short-term exposure to high humidity

environments without degradation. Resins and plastic tapes will form a pseudo-impervious barrier to humidity and

chemicals. These case materials are somewhat porous and through osmosis can cause contaminants to enter the capacitor.

The second area of contaminated absorption is the lead-wire/resin interface. Since resins cannot bond 100% to tinned wires,

there can be a path formed up to the lead wire into the capacitor section. Aqueous cleaning of circuit boards can aggravate

this condition.

Barometric Pressure

The altitude at which hermetically sealed capacitors are operated, controls the voltage rating of the capacitor. As the

barometric pressure decreases, the susceptibility to terminal arc-over increases. Non-hermetic capacitors can be affected by

internal stresses due to pressure changes. This can be in the form of capacitance changes, or dielectric arc-over, as well as

low insulation resistance. Heat transfer can also be affected by altitude operation. Heat, generated in an operation, cannot

be dissipated properly and can result in high RI2 losses and eventual failure.

Radiation

Radiation capabilities of capacitors must be taken into consideration. Electrical degradation in the form of dielectric

embitterment can take place causing shorts or opens.

8© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard F3046_C4AE_RADIAL • 9/21/2018

Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com

Power and AC Film Capacitors – Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC, for DC Link

Table 1 – Ratings & Part Number Reference

Cap

Value

(µF)

VDC Dimensions (mm) dV/dt

(V/µs)

Ipkr ESL

ESR Irms* Rth

PART NUMBER

70°C at

10 kHz

70°C at

10 kHz (HS/Amb)

B H LPP1 Apk nH mΩ Arms (°C/W)

5.6 450 11 20 31.5 27.5 \10 54 25 13.1 4.5 44 C4AEGBU4560A1WK

10 450 13 25 31.5 27.5 \10 96 25 8.1 6.5 36 C4AEGBU5100A1XK

12.5 450 14 28 31.5 27.5 \10 122 26 6.8 7.5 33 C4AEGBU5125A1YK

15 450 19 29 31.5 27.5 \10 147 26 68.5 29 C4AEGBU5150A11K

25 450 22 37 31.5 27.5 \10 245 28 4.5 11.5 23 C4AEGBU5250A12K

40 450 20 40 42 37.5 10.2 7262 30 3.5 13.5 20 C4AEGBW5400A3FK

50 450 28 37 42 37.5 10.2 7332 30 2.8 16 18 C4AEGBW5500A3JK

70 450 30 45 42 37.5 20.3 7464 30 2.1 20.5 15 C4AEGBW5700A3LK

100 450 30 45 57.5 52.5 20.3 4442 35 319 12 C4AEGBW6100A3MK

130 450 35 50 57.5 52.5 20.3 4581 35 2.4 23 10 C4AEGBW6130A3NK

3.3 600 11 20 31.5 27.5 \13 41 25 17 444 C4AEHBU4330A1WJ

5.6 600 13 25 31.5 27.5 \13 71 25 10.7 636 C4AEHBU4560A1XJ

7600 14 28 31.5 27.5 \13 88 26 9 7 33 C4AEHBU4700A1YJ

10 600 19 29 31.5 27.5 \13 127 26 6.8 8.5 29 C4AEHBU5100A11J

15 600 22 37 31.5 27.5 \13 190 28 5.3 10.5 23 C4AEHBU5150A12J

20 600 20 40 42 37.5 10.2 9172 30 5.3 11 20 C4AEHBW5200A3FJ

30 600 28 37 42 37.5 10.2 9255 30 3.6 14 18 C4AEHBW5300A3JJ

40 600 30 45 42 37.5 20.3 9344 30 2.8 18 15 C4AEHBW5400A3LJ

55 600 30 45 57.5 52.5 20.3 6319 35 4.1 16.5 12 C4AEHBW5550A3MJ

75 600 35 50 57.5 52.5 20.3 6435 35 3.1 20.5 10 C4AEHBW5750A3NJ

2.7 700 11 20 31.5 27.5 \19 51 25 18.3 444 C4AEJBU4270A1WJ

4700 13 25 31.5 27.5 \19 77 25 12.9 5.5 36 C4AEJBU4400A1XJ

5700 14 28 31.5 27.5 \19 96 26 10.7 633 C4AEJBU4500A1YJ

8700 19 29 31.5 27.5 \19 154 26 7.3 829 C4AEJBU4800A11J

12.5 700 22 37 31.5 27.5 \19 241 28 5.5 10 23 C4AEJBU5125A12J

15 700 20 40 42 37.5 5.1 13 196 30 6.2 10 20 C4AEJBW5150A3FJ

15 700 20 40 42 37.5 10.2 13196 30 6.2 10 20 C4AEJBW5150B3FJ

20 700 28 37 42 37.5 10.2 13 262 30 4.7 12.5 18 C4AEJBW5200A3JJ

30 700 30 45 42 37.5 20.3 13 389 30 3.2 16.5 15 C4AEJBW5300A3LJ

45 700 30 45 57.5 52.5 20.3 9389 35 4.4 16 12 C4AEJBW5450A3MJ

55 700 35 50 57.5 52.5 20.3 9485 35 3.6 19 10 C4AEJBW5550A3NJ

60 700 35 50 57.5 52.5 20.3 9530 35 3.4 19.5 10 C4AEJBW5600A3NJ

1.5 900 11 20 31.5 27.5 \24 36 25 26.3 3.5 44 C4AEOBU4150A1WJ

2.7 900 13 25 31.5 27.5 \24 65 25 15.3 536 C4AEOBU4270A1XJ

3.3 900 14 28 31.5 27.5 \24 79 26 12.9 5.5 33 C4AEOBU4330A1YJ

5900 19 29 31.5 27.5 \24 120 26 9.1 729 C4AEOBU4500A11J

8900 22 37 31.5 27.5 \24 193 28 6.6 9.5 23 C4AEOBU4800A12J

12 900 20 40 42 37.5 10.2 16 190 30 6.3 10 20 C4AEOBW5120A3FJ

14 900 28 37 42 37.5 10.2 16 229 30 5.4 11.5 18 C4AEOBW5140A3JJ

20 900 30 45 42 37.5 20.3 16 321 30 3.9 15 15 C4AEOBW5200A3LJ

30 900 30 45 57.5 52.5 20.3 11 324 35 5.2 15 12 C4AEOBW5300A3MJ

40 900 35 50 57.5 52.5 20.3 11 428 35 418 10 C4AEOBW5400A3NJ

11100 11 20 31.5 27.5 \28 28 25 33.1 344 C4AEQBU4100A1WJ

1.8 1100 13 25 31.5 27.5 \29 52 25 19.1 4.5 36 C4AEQBU4180A1XJ

2.2 1100 14 28 31.5 27.5 \29 63 26 16 533 C4AEQBU4220A1YJ

3.3 1100 19 29 31.5 27.5 \29 95 26 11.2 6.5 29 C4AEQBU4330A11J

51100 22 37 31.5 27.5 \29 145 28 8.2 8.5 23 C4AEQBU4500A12J

81100 20 40 42 37.5 10.2 20 157 30 7.9 920 C4AEQBW4800A3FJ

10 1100 28 37 42 37.5 10.2 20 196 30 6.3 11 18 C4AEQBW5100A3JJ

12 1100 30 45 42 37.5 20.3 20 235 30 5.3 13 15 C4AEQBW5120A3LJ

20 1100 30 45 57.5 52.5 20.3 13 262 35 6.5 13 12 C4AEQBW5200A3MJ

25 1100 35 50 57.5 52.5 20.3 13 331 35 5.2 16 10 C4AEQBW5250A3NJ

27 1100 35 50 57.5 52.5 20.3 13 354 35 4.9 16.5 10 C4AEQBW5270A3NJ

Cap Value

(µF) VDC B H LPP1 dV/dt

(V/µs) Ipkr ESL ESR Irms Rth Part Number

(*) Current value that leads to a ΔT of ~ 15°C in the Hot spot → THS = TAMB + ΔT = 70°C + 15°C = 85°C

For Packaging quantities not listed contact KEMET

9© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard F3046_C4AE_RADIAL • 9/21/2018

Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com

Power and AC Film Capacitors – Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC, for DC Link

Soldering Process

The implementation of the RoHS directive has resulted in the selection of SnAgCu (SAC) alloys or SnCu alloys as primary solder.

This has increased the liquidus temperature from that of 183°C for SnPb eutectic alloy to 217 – 221°C for the new alloys. As a

result, the heat stress to the components, even in wave soldering, has increased considerably due to higher pre-heat and wave

temperatures. Polypropylene capacitors are especially sensitive to heat (the melting point of polypropylene is 160 – 170°C).

Wave soldering can be destructive, especially for mechanically small polypropylene capacitors (with lead spacing of 5 mm to

15 mm), and great care has to be taken during soldering. The recommended solder proles from KEMET should be used. Please

consult KEMET with any questions. In general, the wave soldering curve from IEC Publication 61760–1 edition 2 serves as a solid

guideline for successful soldering. Please see Figure 1.

Reow soldering is not recommended for through-hole lm capacitors. Exposing capacitors to a soldering prole in excess of the

above the recommended limits may result in degradation or permanent damage to the capacitors.

Do not place the polypropylene capacitor through an adhesive curing oven to cure resin for surface mount components. Insert

through-hole parts after the curing of surface mount parts. Consult KEMET to discuss the actual temperature prole in the oven,

if through-hole components must pass through the adhesive curing process. A maximum two soldering cycles is recommended.

Please allow time for the capacitor surface temperature to return to a normal temperature before the second soldering cycle.

Manual Soldering Recommendations

The following is the recommendation for

manual soldering with a soldering iron.

The soldering iron tip temperature should

be set at 350°C (+10°C) maximum with the

soldering duration not to exceed more than 3

seconds.

Recommended Soldering Temperature

100

150

200

250

300

350

400

012345678

Soldering time (seconds)

Soldering iron bit temperature (°C)

Wave Soldering Recommendations

100

150

200

250

300

120

160

200

240

Temperature (°C)

Time (s)

ca 2°C/second

ca 3.5°C/second typical

ca 5°C/second

Cooling

2 +3 seconds maximum

115 °C max

preheat

∆T < 150°C

100 °C

Preheating

Typical

First wave

Second wave

260°C

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Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com

Power and AC Film Capacitors – Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC, for DC Link

Soldering Process cont'd

Wave Soldering Recommendations cont'd

1. The table indicates the maximum set-up temperature of the soldering process

Figure 1

Dielectric

Film Material

Maximum Preheat

Temperature

Maximum

Peak Soldering

Temperature

Capacitor

Pitch

≤ 10 mm

Capacitor

Pitch

= 15 mm

Capacitor

Pitch

> 15 mm

Capacitor

Pitch

≤ 15 mm

Capacitor

Pitch

> 15 mm

Polyester 130°C 130°C 130°C 270°C 270°C

Polypropylene 100°C 110°C 130°C 260°C 270°C

Paper 130°C 130°C 140°C 270°C 270°C

Polyphenylene

Sulphide 150°C 150°C 160°C 270°C 270°C

2. The maximum temperature measured inside the capacitor:

Set the temperature so that inside the element the maximum temperature is below the limit:

Dielectric Film Material Maximum temperature

measured inside the element

Polyester 160°C

Polypropylene 110°C

Paper 160°C

Polyphenylene Sulphide 160°C

Temperature monitored inside the capacitor.

Selective Soldering Recommendations

Selective dip soldering is a variation of reow soldering. In this method, the printed circuit board with through-hole

components to be soldered is preheated and transported over the solder bath as in normal ow soldering without touching

the solder. When the board is over the bath, it is stopped and pre-designed solder pots are lifted from the bath with molten

solder only at the places of the selected components, and pressed against the lower surface of the board to solder the

components.

The temperature prole for selective soldering is similar to the double wave ow soldering outlined in this document,

however, instead of two baths, there is only one bath with a time from 3 to 10 seconds. In selective soldering, the risk of

overheating is greater than in double wave ow soldering, and great care must be taken so that the parts are not overheated.

11© KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard F3046_C4AE_RADIAL • 9/21/2018

Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com

Power and AC Film Capacitors – Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC, for DC Link

Construction

Detailed Cross Section

Self-Extinguish-

ing Resin

Molded Plastic

Case

Molded Plastic

Case

Leads

Metal

Contact

Layer

Metal

Contact

Layer

Margin

Single-sided Metallized

Polypropylene Film

(Second Layer)

Single-sided Metallized

Polypropylene Film

(First Layer)

Margin

Single-sided

Metallized

Polypropylene

Film

FILM WINDING SCHEME OPTIONS

1 Section

Single-sided

Metallized

Polypropylene

Film

Single-sided

Metallized

Polypropylene

Film

Single-sided

Metallized

Polypropylene

Film

Single-sided Metallized Polypropylene Film

2 Sections

3 Sections 4 Sections

Single-sided

Metallized

Polypropylene

Film

Polypropylene

Film Dielectric

1 Section

Double-sided Metallized Polyester Film

3 Sections

Double-sided

Metallized

Polyester

Carrier

Film

Polypropylene

Film Dielectric

Double-sided

Metallized

Polyester

Carrier

Film

2 Sections

Polypropylene

Film Dielectric

Double-sided

Metallized

Polyester Carrier

Film

Single-sided

Metallized

Polypropylene

Film

4 Sections

Polypropylene

Film Dielectric

Double-sided

Metallized

Polyester Carrier

Film

Polypropylene

Film Dielectric

1 Section

Polypropylene Film/Foil

2 Sections

Metal Foil Metal Foil

Single-sided

Metallized

Polypropylene

Film

Polypropylene

Film Dielectric

Metallized Polyphenyl-

ene Sulfide Film with

Vacuum-Evaporated

Aluminum Electrodes

1 Section

Metallized Polyphenylene

Sulfide Film (SMR)

Metallized

Impregnated

Paper

1 Section

Metallized Impregnated Paper

Single-sided

Metallized

Polyester

Film

1 Section

Single-sided Metallized Polyester Film

Polypropylene

Film Dielec-

tric

1 Section

AXIAL - Polypropylene Film/Foil

2 Sections

Metal Foil

Single-sided

Metallized

Polypropylene

Film

Polypropylene

Film Dielectric

Metal Foil

Single-sided

Metallized

Polypropylene

Film

2 Sections

Polypropylene

Film Dielectric

Double-sided

Metallized

Polyester Carrier

Film

Single-sided

Metallized

Polypropylene

Film

1 Section

AXIAL - Single-sided Metallized

Polypropylene Film

Single-sided

Metallized

Polyester

Film

1 Section

AXIAL - Single-sided Metallized

Polyester Film

AXIAL - Double-sided

Metallized Polyester Film

Winding Scheme

Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com

Power and AC Film Capacitors – Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC, for DC Link

Marking

Manufacturer’s

Logo Capacitance, Tolerance

Rated Voltage

Climatic Category

Internal Use

Self-Healing

Dielectric

Date Code

Dielectric Type, Series

Manufacturing Date Code (IEC–60062)

Y = Year, Z = Month

Year Code Month Code

2010

January

2011

February

2012

March

2013

April

2014

May

2015

June

2016

July

2017

August

2018

September

2019

October

2020

November

2021

December

2022

2023

2024

2025

2026

2027

2028

2029

2030

Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com

Power and AC Film Capacitors – Printed Circuit Board Mount Power Film Capacitors

C4AE, Radial, 2 or 4 Leads, 450 – 1,100 VDC, for DC Link

KEMET Electronics Corporation Sales Oﬃ ces

For a complete list of our global sales o ces, please visit www.kemet.com/sales.

Disclaimer

All product speci cations, statements, information and data (collectively, the “Information”) in this datasheet are subject to change. The customer is responsible for

checking and verifying the extent to which the Information contained in this publication is applicable to an order at the time the order is placed. All Information given

herein is believed to be accurate and reliable, but it is presented without guarantee, warranty, or responsibility of any kind, expressed or implied.

Statements of suitability for certain applications are based on KEMET Electronics Corporation’s (“KEMET”) knowledge of typical operating conditions for such

applications, but are not intended to constitute – and KEMET speci cally disclaims – any warranty concerning suitability for a speci c customer application or use.

The Information is intended for use only by customers who have the requisite experience and capability to determine the correct products for their application. Any

technical advice inferred from this Information or otherwise provided by KEMET with reference to the use of KEMET’s products is given gratis, and KEMET assumes

no obligation or liability for the advice given or results obtained.

Although KEMET designs and manufactures its products to the most stringent quality and safety standards, given the current state of the art, isolated component

failures may still occur. Accordingly, customer applications which require a high degree of reliability or safety should employ suitable designs or other safeguards

(such as installation of protective circuitry or redundancies) in order to ensure that the failure of an electrical component does not result in a risk of personal injury

or property damage.

Although all product–related warnings, cautions and notes must be observed, the customer should not assume that all safety measures are indicted or that other

measures may not be required.

KEMET is a registered trademark of KEMET Electronics Corporation.