947C161K122CAMS Cornell Dubilier Electronics (CDE), 947C161K122CAMS Datasheet - Page 6

947C161K122CAMS

Manufacturer Part Number

947C161K122CAMS

Description

CAP FILM 160UF 1200V POST TERM

Manufacturer

Cornell Dubilier Electronics (CDE)

Series

947Cr

Datasheet

1.947C321K122CDMS.pdf (8 pages)

Specifications of 947C161K122CAMS

Capacitance

160µF

Tolerance

±10%

Lead Spacing

1.772" (45.00mm)

Voltage - Dc

1200V (1.2kV)

Dielectric Material

Polypropylene, Metallized

Esr (equivalent Series Resistance)

1.8 mOhm

Operating Temperature

-40°C ~ 85°C

Mounting Type

Chassis Mount

Package / Case

Radial, Can - Screw Terminals

Size / Dimension

3.543" Dia (90.00mm)

Height

3.819" (97.00mm)

Termination

Screw Terminals

Features

General Purpose

Voltage Rating

1.2 KVolts

Esr

1.8 mOhms

Termination Style

Screw

Dimensions

92 mm Dia. x 97 mm L

Operating Temperature Range

- 40 C to + 85 C

Current Rating

62 Amps

Product

DC Link Film Capacitors

Capacitor Dielectric Type

Polypropylene

Capacitance Tolerance

Â± 10%

Life Time @ Temperature

5000 Hours @ 85Â°C

Capacitor Case Style

CAN

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Ac

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

338-1392

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Type 947C Polypropylene, DC Link Capacitors

High Current, High Capacitance for Inverter Applications

To use the Expected Lifetime curves calculate Va ⁄Vr and core

temperature T. Start by estimating:

Units:

NOTE: The temperature rise in the 947C is I²(ESR) times the

thermal resistance θ. The ESR is mainly the metal resistance;

the metal resistance is the 10 kHz ESR. For operation below 10

kHz add the dielectric resistance. It is the dielectric dissipation

factor—no more than 0.0002—times the capacitive reactance,

i.e., 0.0002 ⁄(2πfC). That’s equal to 31.83 ⁄(fC).

Expected Lifetime Predictions

CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830

Applied dc voltage Va

Ripple Current I

Ripple Frequency f

Ambient Temperature Ta

Airflow speed v

A=m²

C=µF

ESR=mW

f=kHz

I=A

1.7

1.6

1.5

1.4

1.3

1.2

1.1

0.9

0.8

As an illustration at 50 °C the expected lifetime is 100,000 h with the 24-hour Va ∕ Vr.

Expected lifetime can be calculated for varying exposure to overvoltage transients.

Expected Lifetime vs Core Temperature and Applied DC Voltage

The expected lifetime predictions assume no exposure to overvoltage transients.

100

T, Ta & Tc=°C

θ, θca & θcc =°C/W

v=m/s

Va &Vr=Vdc

For applications with more severe 24-hour profiles, contact us.

COPY & PASTE A CDE PART NUMBER TO CHECK STOCK ONLINE:

1000

Va / Vr

1.67

1.50

1.30

1.10

1.00

Expected Lifetime (h)

10000

1. Start with the 10 kHz ESR from the Ratings table. If frequency is

less than 10 kHz, add 31.83 ⁄(fC).

2. Compute total thermal resistance θ as the sum of core-to-case

thermal resistance θcc and case-to-ambient thermal resistance

θca.

θcc is for 10 kHz or less. For frequency > 10 kHz multiply θcc

For moving air use the capacitor surface area A and airflow speed

v to calculate θca = 1 ⁄[A(5+17(v+0.1)

3. Compute Va ⁄Vr and the core temperature T.

4. Look up estimated lifetime from the Expected Lifetime curves.

5. If you want a longer expected lifetime, choose a capacitor with

higher voltage rating or consider using multiple capacitors in

parallel to share the ripple current.

85ºC

70ºC

50ºC

60ºC

Duration

T = Ta + I²(ESR)θ

100 ms

11.9 h

Both are in the Ratings table but θca is for still air and

9.6 h

2.5 h

5 m

[1+(f –10)/100], e.g., for 75 kHz multiply θcc by 1.65.

100000

0.66

1000000

)].

947C161K122CAMS Cornell Dubilier Electronics (CDE), 947C161K122CAMS Datasheet - Page 6

947C161K122CAMS

Specifications of 947C161K122CAMS

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