BCCM6033SQ Cooper/Bussmann, BCCM6033SQ Datasheet - Page 215
BCCM6033SQ
Manufacturer Part Number
BCCM6033SQ
Description
FUSEBLOCK CLASS CC 13/32X1-1/2"
Manufacturer
Cooper/Bussmann
Series
BCCMr
Type
Blockr
Datasheet
1.BCCM6033SQ.pdf
(240 pages)
Specifications of BCCM6033SQ
Fuse Size
Class CC
Number Of Circuits
3
Mounting Type
Chassis Mount
Termination Style
Screw Terminal
Current Rating
20A
Product
Block
Fuse Size / Group
Class CC
Voltage Rating
600 Volts
Mounting Style
Screw
Body Material
Thermoplastic
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Voltage
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
instance, if a conductor is rated to carry 20A, a 20A fuse is the
largest that should be used. However, there are some specific
circumstances in which the ampere rating is permitted to be
greater than the current carrying capacity of the circuit. A typical
example is the motor circuit; dual-element fuses generally are
permitted to be sized up to 175% and non-time-delay fuses up
to 300% of the motor full-load amperes. As a rule, the ampere
rating of a fuse and switch combination should be selected at
125%
corresponds to the circuit capacity, which is also selected at
125% of the load current). There are exceptions, such as when
the fuse-switch combination is approved for continuous opera-
tion at 100% of its rating.
Interrupting Rating
A protective device must be able to withstand the destructive
energy of short-circuit currents. If a fault current exceeds the
capability of the protective device, the device may actually rup-
ture, causing additional damage. Thus, it is important when
applying a fuse or circuit breaker to use one which can sustain
the largest potential short-circuit currents. The rating which
defines the capacity of a protective device to maintain its integ-
rity when reacting to fault currents is termed its “interrupting
rating”. The interrupting rating of most branch-circuit, molded
case, circuit breakers typically used in residential service entrance
panels is 10,000A. (Please note that a molded case
circuit breaker’s interrupting capacity will typically be lower than
its interrupting rating.) Larger, more expensive circuit breakers
may have interrupting ratings of 14,000A or higher. In contrast,
most modern, current-limiting fuses have an interrupting rating of
200,000 or 300,000A and are commonly used to protect the
lower rated circuit breakers. The National Electrical Code,
Section 110-9, requires equipment intended to break current at
fault levels to have an interrupting rating sufficient for the current
that must be interrupted.
Selective Coordination – Prevention of Blackouts
The coordination of protective devices prevents system power
outages or blackouts caused by overcurrent conditions. When
only the protective device nearest a faulted circuit opens and
larger upstream fuses remain closed, the protective devices are
“selectively” coordinated (they discriminate). The word “selective”
is used to denote total coordination…isolation of a faulted circuit
by the opening of only the localized protective device.
This diagram shows the minimum ratios of ampere ratings of LOW-PEAK
YELLOW fuses that are required to provide “selective coordination”
(discrimination) of upstream and downstream fuses.
Fuse Technology
of
the
continuous
KRP-C
1200SP
2:1 (or more)
load
LPS-RK
600SP
2:1 (or more)
current
LPS-RK
200SP
(this
usually
Unlike electro-mechanical inertial devices (circuit breakers), it is a
simple matter to selectively coordinate fuses of modern design.
By maintaining a minimum ratio of fuse-ampere ratings between
an upstream and downstream fuse, selective coordination is
assured.
Current Limitation – Component Protection
A non-current-limiting protective device, by permitting a short-
circuit current to build up to its full value, can let an immense amount of
destructive short-circuit heat energy through before opening the circuit.
A current-limiting fuse has such a high speed of response that it cuts off a
short-circuit long before it can build up to its full peak value.
If a protective device cuts off a short-circuit current in less than
one-quarter cycle, before it reaches its total available (and highly
destructive) value, the device is a “current-limiting” device. Most
modern fuses are current-limiting. They restrict fault currents to
such low values that a high degree of protection is given to circuit
components against even very high short-circuit currents. They
permit breakers with lower interrupting ratings to be used. They
can reduce bracing of bus structures. They minimize the need of
other components to have high short-circuit current “withstand”
ratings. If not limited, short-circuit currents can reach levels of
30,000 or 40,000A or higher in the first half cycle (.008 seconds,
60 hz) after the start of a short-circuit. The heat that
can be produced in circuit components by the immense energy
of short-circuit currents can cause severe insulation damage or
even explosion. At the same time, huge magnetic forces
developed between conductors can crack insulators and distort
and destroy bracing structures. Thus, it is important that
a protective device limit fault currents before they reach their
full potential level.
Normal
load current
Initiation of
short-circuit
current
Fuse opens and clears
short-circuit in less
than
Areas within waveform
loops represent destructive
energy impressed upon
circuit components
Circuit breaker trips
and opens short-circuit
in about 1 cycle
cycle
Bussmann
211
®
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