Cooper Bussmann BRICK 6125TD User Manual

Title: Engineering Product Specification Telecom Circuit Protector

Revision: L

Printed on: 7/14/2003

Sheet

17

of

18

This bulletin is intended to clearly present comprehensive product data and provide technical information that will help the end user with design
applications. Bussmann reserves the right, without notice, to change design or construction of any products and to discontinue or limit distribution of
any products. Bussmann also reserves the right to change or update, without notice, any technical information contained in this bulletin. Once a
product has been selected, it should be tested by the user in all possible applications.

13.5 Thermal Shock Test:

MIL-STD-202, Method 107D, air-to-air except:

13.5.1 Samples are placed in a temperature chamber and subjected to 200 air-to-air cycles of the

following:

1) Hold -55

°

C+2

°

C for 30+5 minutes

2)

Transfer

to

125

°

C+2

°

C within 0.5 minutes

3) Hold 125

°

C

±

2

°

C for 30

±

5 minutes

4) Transfer to -55

°

C

±

2

°

C within 0.5 minutes

5) Repeat cycle 200 times

13.5.2 At completion of 200 cycles, resistance readings taken after temperature stabilization (25

°

C

±

5

°

C

for 15 minutes minimum to 24 hours maximum)

13.5.3 Samples divided into two equal lots of twenty

13.5.4 One set is tested to the non-destructive 100% current carry test. After completion, the samples

are subjected to the Time Current Characteristic Curve Generation.

13.5.5 The other set is subjected to the destructive Current Overload Test.

13.6 Maximum Current Carry Test

13.6.1 Performed after the non-destructive Load Humidity and 100% Current Carry Tests (same samples

used)

13.6.2 At the completion of the 100% Current Carry Test, the current is increased by 10% of the current

rating of the fuse. Increase occurs every 15 minutes until the fuse opens. Temperature is

monitored

constantly.

13.7 Case Resistance Test

EIS/IS-722

13.8 Resistance to Dissolution of Metallization Test

ANSI J-STD-002, Test D

13.9 Mechanical Shock Test

MIL-STD-202, Method 213B, Test Condition A, except:

13.9.1 Test boards mounted to a shock test fixture, which in turn was mounted to the table of the shock

machine.

13.9.2 Shock machine calibrated for the required shock pulse.

13.9.3 Samples subjected to eighteen impacts, three impacts in each of the three mutually

perpendicular axis. Each shock pulse approximated a half-sine wave shape with a magnitude

of 50 g’s for 11

±

1 milliseconds.

13.9.4 High frequency vibration test is performed after the mechanical shock test is completed.

After the high-frequency vibration test, the samples undergo the 100% current carry test and the

Current overload tests.