KAC-1 COOPER [Cooper Bussmann, Inc.], KAC-1 Datasheet - Page 3

KAC-1

Manufacturer Part Number

KAC-1

Description

High Speed Fuses

Manufacturer

COOPER [Cooper Bussmann, Inc.]

Datasheet

1.KAC-1.pdf (20 pages)

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1. Screw in studs: 5 N•m Max, 3 N•m Min

2. Attachment of the fuse to buss-bar by means of nut and

1. Overloads longer than one second

2. Overloads less than one second termed “impulse” loads.

Parallel Connection

When fuses are connected in parallel it is recommended that

the applied voltage does not exceed 0.9 U N (the rated volt-

age of the fuse). This is due to the fact that the energy

released within the fuses may be unevenly shared between

the parallel connected barrels.

When fuses are connected in parallel, one must take into

account that the current sharing is not necessarily equal.

And it must be checked, that the maximum load current is

not exceeded.

Series Connection

Fuses in series may not equally divide the applied voltage. It

is recommended that series connected fuses should only be

operated at fault currents that yield melting times less than

10 ms and a recovery voltage per fuse of less than or equal

to 0.9 U N (the rated voltage of the fuse).

Mounting Guidance

The recommendations below have to be followed when

mounting a Cooper Bussmann fuse with end plate threaded

holes.

Overloads

The design of Cooper Bussmann

can be operated under rather severe operating conditions

imposed by overloads (any load current in excess of the

maximum permissible load current).

In applications, there will be a maximum overload current,

Imax, which can be imposed on the fuse with a

corresponding duration and frequency of occurrence.

Time durations fall into two categories:

The following table gives general application guidelines

which, in the expression Imax < (% factor) x I t . I t is the melt-

ing current corresponding to the time “t” of the overload dura-

tion as read from the time-current curve of the fuse. The

guidelines in the table below determine the acceptability of

the selected fuses for a given I max .

washer:

High Speed Fuses

General applications

Thread

Configuration

*1 N•m = 0.7375 lb-ft

⁄

1 6

” – 16, M10

” – 24

” – 13, M12

” – 20

” – 18, M8

For product data sheets, visit www.cooperbussmann.com/products/datasheet.asp

Torque (N•m)*

Max

Min

fuses is such that they

Frequency of Occurrence

Less than once per month

Less than twice per week

Several times per day

When impulse loads are an intrinsic/normal parameter of the

load current either as single pulse or in trains of pulses or

when their level is higher than the melting current at 0.01

seconds (per time-current curve), contact Cooper Bussmann

for application assistance.

In addition to the parameters set forth in the preceding table,

the RMS value of the load current as calculated for any

period of 10 minutes or more should not exceed the maxi-

mum permissible load current.

Furthermore, it is important that a fuse should not be applied

in the non-continuous/dashed portion of the associated

time-current curve.

Any time-current combination point which falls in the

non-continuous/dashed portion of the time-current curve is

beyond the capability of the fuse to operate properly.

DC Operation

Depending upon the short-circuit time constant and the mag-

nitude of the prospective short-circuit current, the dc voltage

at which a fuse can be applied may be less than its ac rating.

Long time constants require a lower dc voltage. Conversely,

however, higher available prospective short-circuit currents

result in faster fuse openings and thus permit a fuse to be

operated at a higher dc voltage.

Consult Cooper Bussmann for additional information and

application assistance when fuses have to operate under dc

conditions.

Load Current Versus

Conductor Cross

Section

Reduction of permissible

load current when the

conductor cross section is

less than that given in IEC

Publication 269-1 & 4

valid for Cooper

Bussmann semiconductor

fuses.

Application Assistance

If you have application problems or need a fuse outside our

standard program, please contact the nearest Cooper

Bussmann representative. Phone numbers are shown on the

back cover.

Overloads (> 1 sec)

I max < 80% x I t

I max < 70% x I t

I max < 60% x I t

1.0

0.9

0.8

0.5 0. 6

Reduction Factor

≈ (IEC cross section)

0. 7 0.8

Impulse Loads (< 1 sec)

I max < 70% x I t

I max < 60% x I t

—

0.9

1.0

KAC-1 COOPER [Cooper Bussmann, Inc.], KAC-1 Datasheet - Page 3

KAC-1

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