Fuses are overcurrent protection devices that used for three primary purposes:
- To prevent damage to electronic and electrical equipment.
- To provide safety for equipment users and personnel.
- To isolate subsystems from the main system after an over current occurs.
Fuses are designed to allow electric currents to safely flow during normal operation
but will quickly open when an over-current situation develops.
There are typically two types of overcurrents; short circuits and
overloads. Overcurrents exist when the normal load for a circuit
An overload is any current flowing within the normal circuit path that
is higher than the circuit normal full load current.
A short circuit is an overcurrent which greatly exceeds the normal full load current of
the circuit. Also, as the name infers, a short circuit leaves the
normal current carrying path of the circuit and takes a "short-cut"
around the load and back to the power source.
Components and equipment can be severely damaged by both types
of overcurrents. Fuses are used not to prevent overcurrents but rather to
protect components, equipment and people when overcurrents do occur.
Fuses are classified by the different fuse characteristics. These defining
- Physical size
- Interrupting Ratings
- Opening Speed
- Electrical Ratings
- Safety Agency Approvals
Electronic fuses are available in a variety of sizes and shapes as predetermined by
the user's applications. The more popular fuse sizes include 1/4" x 1 1/4" (6.3 x 32.1 mm), 5 x 20 mm, 5 x 15 mm,
13/32" x 1 1/2" (10.3 x 38 mm) as well as special use fuses such as
surface mount, telecom indicating, and automotive type fuses.
Electronic fuses are constructed with many different material types.
The most cost effective of the materials is a glass tube, however,
when higher voltages or interrupting rating are desired, then stronger
materials such as ceramic or glass melamine tubes must be used.
Plastic housings are typically used in low voltage automotive fuse construction.
Typically each fuse has two different electrical ratings:
Voltage and Current.
The voltage rating of a fuse refers to the maximum voltage that a fuse
may be subjected to for safe operation. Fuses are typically marked
for A/C Voltage but may also carry a D/C Voltage rating as well.
The current rating of a fuse must be selected as to adequately protect a
circuit without causing "nuisance" openings. Generally, fuses should be
selected at 125% of the steady state RMS or DC current of the circuit at 25° C. Higher ambient temperatures may
cause the fuse to open prematurely; therefore fuse de-rating may be necessary in
those applications. Please consult the Optifuse factory for de-rating specifications.
Additional consideration must be given to circuits with potential "inrush
currents". Inrush currents are created by switching, capacitive loads
or in motor or transformer applications. This in-rush may be many
times the circuit's normal full load amperes. Time delay fuses should be selected for these applications.
Interrupting Ratings (Breaking Current)
The interrupting rating of the fuse is the maximum current that the
fuse can safely open at the rated voltage without rupturing or breaking the
fuse casing. Stronger materials such as ceramic or glass melamine offer
the greatest amount of interrupting capabilities.
When specifying fuses, careful consideration must be made for the protection of
the other circuit elements. Typically, the more sensitive the circuit, the
more protection will be necessary for adequate component protection. Fast acting fuses offer higher protection but
may not be suitable for circuit with in-rush currents. Circuits with in-
rush currents should be protected with time-delay fuses to prevent nuisance openings.
Worldwide safety agencies, such as Underwriter's Labs (U.L.), provide test
specifications and test fuses and fuse-accessories under these specifications.
Each worldwide safety agency will have its own specifications (such as the
test specifications used for testing 5 x 20 mm fuses).
At U.L., if a test specification is available and the fuse passes these
tests, then the fuse will be listed under this standard. If a test specification is
not available, then the fuse may still be tested (using the manufacturers specifications) by U.L. but will receive U.L.
recognition rather than U.L. listing.
International Electrotechnical Commission (IEC) writes the standards followed by many
European and Asian countries. Because the electrical characteristics of these fuses are so different, UL/CSA and
IEC rated fuses are not characteristically interchangeable.
All fuses must be mounted into a circuit either by directly soldering
them on a printed circuit board (PCB), or by using a fuseholder or fuseclips.
Directly soldering fuses to a PCB allows for some cost reduction while
using holders or clips allows for field replacements. Please consult
the OptiFuse factory for direct soldering specifications.