TH4 Datasheet, PDF(14/15 Page) Vishay Siliconix – Operating temperature up to 175°C with 50% voltage derating

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TH4 Datasheet, PDF (14/15 Pages) Vishay Siliconix – Operating temperature up to 175°C with 50% voltage derating

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Typical Performance Characteristics

Vishay Sprague

ENVIRONMENTAL PERFORMANCE CHARACTERISTICS

ITEM

CONDITION

POST TEST PERFORMANCE

High temperature

exposure (storage)

MIL-STD-202, method 108ï

1000 h, at maximum rated temperature,

unpowered

Capacitance changeï

Dissipation factorï

Leakage currentï

ESR

Within Â± 20 % of initial valueï

Initial specified limitï

Initial specified limit

Operational life test

at +125 Â°C

AEC-Q200ï

1000 h application 2/3 of rated voltage

Capacitance changeï

Dissipation factorï

Leakage currentï

ESR

Within Â± 20 % of initial valueï

Initial specified limitï

Shall not exceed 10 times the initial limitï

Initial specified limit

Operational life test

at +150 Â°C (for TH3)

and at +175 Â°Cï

(for TH4)

AEC-Q200ï

1000 h application 1/2 of rated voltage

Capacitance changeï

Dissipation factorï

Leakage currentï

ESR

Within Â± 20 % of initial valueï

Shall not exceed 3 times the initial limitï

Shall not exceed 10 times the initial limitï

Shall not exceed 3 times the initial limit

Surge voltage

MIL-PRF-55365:ï

1000 successive test cycles at 85 Â°C of surge

voltage (as specified in the table above), in

series with a 33 ï resistor at the rate ofï

30 s ON, 30 s OFF

Capacitance changeï

Dissipation factorï

Leakage currentï

ESR

Within Â± 30 % of initial valueï

Shall not exceed 1.5 times the initial limitï

Shall not exceed 2 times the initial limitï

Shall not exceed 1.5 times the initial limit

Biased humidity test

AEC-Q200ï

At 85 Â°C / 85 % RH, 1000 h, ï

with rated voltage applied

Capacitance changeï

Dissipation factorï

Leakage currentï

ESR

Within Â± 20 % of initial valueï

Shall not exceed 3 times the initial limitï

Shall not exceed 10 times the initial limitï

Shall not exceed 3 times the initial limit

Temperature cycling AEC-Q200 / JESD22, method JA-104ï

-55 Â°C / +125 Â°C, for 1000 cycles

Capacitance changeï

Dissipation factorï

Leakage currentï

ESR

Within Â± 20 % of initial valueï

Initial specified limitï

Initial specified limit

MECHANICAL PERFORMANCE CHARACTERISTICS

ITEM

CONDITION

Vibration

MIL-STD-202, method 204: 10 Hz to 2000 Hz, 5 g ï

peak for 20 min, 12 cycles each of 3 orientationsï

(total 36 cycles), at rated voltage

Mechanical shock

MIL-STD-202, method 213, condition F, 1500 g peak,

0.5 ms, half-sine

Resistanceï

to solder heat

Resistance to

solvents

MIL-STD-202, method 210, condition Dï

Solder dip 260 Â°C Â± 5 Â°C, 10 s

MIL-STD-202, method 215

Solderability

Terminal strength /ï

Shear force test

Flammability

AEC-Q200 / J-STD-002

AEC-Q200-006ï

Apply a pressure load of 17.7 N (1.8 kg) for 60 sï

horizontally to the center of capacitor side bodyï

Exception: for case size 0603 pressure load is 5N

Encapsulation materials meet UL 94 V-0 with an

oxygen index of 32 %

POST TEST PERFORMANCE

Capacitance changeï

Dissipation factorï

Leakage current

Within Â± 20 % of initial valueï

Initial specified limitï

Initial specified limit

There shall be no mechanical or visual damage to

capacitors post-conditioning.

Capacitance changeï

Dissipation factorï

Leakage current

Within Â± 20 % of initial valueï

Initial specified limitï

Initial specified limit

There shall be no mechanical or visual damage to

capacitors post-conditioning.

Capacitance changeï

Dissipation factorï

Leakage current

Within Â± 20 % of initial valueï

Initial specified limitï

Initial specified limit

Capacitance changeï

Dissipation factorï

Leakage current

Within Â± 20 % of initial valueï

Initial specified limitï

Initial specified limit

There shall be no mechanical or visual damage to

capacitors post-conditioning. ï

Body marking shall remain legible.

Electrical test not required

Part should not be sheared off the pads and no body

cracking post-conditioning. Electrical test not required.

n/a

Revision: 11-May-15

Document Number: 40215

For technical questions, contact: tantalum@vishay.com

THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT

ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000

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