What is Fuse :- A fuse is an electrical safety device (a component) that
removes electrical current from an electrical circuit when the current in the
electrical circuit is too high. Almost all
electrical/ electronic appliances and equipment utilize it some way or the
other. This post will discuss what is a Fuse, why it is used, its symbols as
per standards, features, various types, applications, advantages and
disadvantages.
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| FUSE |
Fuse is an electrical safety device (or component) used from the early days of electrical engineering. It protects the circuit from overload. It is also called as the ‘Sacrificial Device’ in the circuit. Its working principle is based on the heating effect of the current. A fuse is a length of wire that melts (breaks or blows) when the current through it is above a certain level – the fuse rating. The 'fuse rating' is the electrical current that will blow the fuse, for instance 3 amps, 10 amps or 13 amps.
A fuse is a current sensitive piece of wire – when the fuse is working the wire is not broken, when the fuse has ‘blown’ the wire breaks.
With this whenever there is a sudden increase of current only the fuses will blow out. Make sure that the circuit’s current is 75% (generally) of your fuse’s current rating.
Current Circuit = 75% of Current
Rating of Fuse
I2T
Value of Fuse:- This is
the amount of energy which is carried by fuse element when there is an
electrical fault or some short circuit happens. It measures the heat
energy(energy due to current flow) of fuse & it is generated when fuse has
blown.
I2T Circuit = I2T DeviceInterrupting or Breaking Capacity:- It is the maximum rating of current without harm interrupt by the fuse is known as breaking or interrupting capacity of the fuse.
Breaking
capacity > maximum rated voltage
Breaking
capacity <short ckt current
Types of Fuse:- There are wide
variety of fuses available for variety of applications. The main types of fuses
are categorized into two broad categories based on the type of circuits they
are used in. They are:-
1. DC Fuses 2. AC Fuses
1.
DC Fuse:- AC
and DC fuses can be differentiated by their size. Since DC has a constant value
greater than zero volt (0v), there will be a chance of occurrence of an
electric arc between the melted wires. As it is difficult to avoid, the
electrodes are placed at larger distance compared to AC fuses. DC fuses have larger in
size.
2. AC Fuse:- AC fuses are smaller in size. They oscillated 50-60 times in
every second from minimum to maximum. So there is no chance of Arc between the
melted wires. Hence they can be packed in small size.
AC
Fuses are further categorized into two broad categories based on the amplitude
of applied voltage. They are
1.Low Voltage Fuses 2. High Voltage Fuses
2.1 Low Voltage Fuse:-
As the name
suggests, these are the fuses that are used in low voltages. Some of the Low
Voltage Fuses are listed below.
2.1.1 Rewireable Fuse:-
Rewireable fuses
(also known as Kit-Kat fuses) are of Low voltage type fuses. They are mainly
used in small scale industries and house wiring. It consists of 2 parts namely:- Fuse
Base: Contains in and
out terminal. It is made up of porcelain.
- Fuselink
Carrier: It holds
the main element and is made up of aluminium, copper or lead.
Fig. 5 – Rewireable (Kit-Kat) Fuse
2.1.2 Cartridge Fuse:-
Cartridge
Fuses are also known as Totally Enclosed type Fuses. The fuselinks are enclosed
in the glass container. By having this type of design, it helps to keep the
electric arc inside the container when it blows out.
Fig. 6 – Cartridge Type Fuses
They are
used in many electrical and electronics appliances. They not only protect the
device but also prevents fire caused by overheating of the circuits. These type
of fuses are used in both Low voltage and high voltage.Cartridge fuses are further classified into following two types:
- ‘D’ Type Fuses
- Link Type Fuses
2.1.2.1 ‘D’ Type Fuse:-
Diazed type
fuses are made of bottle shaped ceramic body with metal end caps. ‘These fuses
are highly reliable. It consists of cartridge, base, adapter ring and a cap.
The cartridge is fitted with a cap and inserted into the base using the adapter
ring.
Fig. 7 – ‘D’ Type Fuses
2.1.2.2 Link Type Fuse:-
Link type
fuses are also known as High Rupturing Cartridge (HRC) fuses. The current flows
under normal condition through the element. The body is made up of porcelain
and the chamber of main element is filled with silica sand.If short circuit occurs then the high current flows through it for some amount of time. If the fault is cleared then it will not blow out. But if the high current continues to flow for longer duration then it blows out by melting the element.
There are 2 types of HRC fuses namely,
- Blade Type Fuses
- Bolted Type Fuses
Fig. 8 – Link Type, ‘D’ Type and
Bolted Type Fuses
2.1.3 Switch Type Fuse:-
It encloses
a metal switch and the fuse. These types of fuses are used in low and medium
voltage levels.
2.2 High
Voltage Fuse:-
As the name
suggests, these are the fuses that are used in high voltages. Some of the High
Voltage Fuses are listed below.
2.2.1 Liquid Type HRC Fuse:-
Liquid type
HRC fuses are most commonly used in high voltage circuits. These types of fuses
are mainly used for transformer protection and circuits which have more than
400A.
Fig. 10 – Liquid Type HRC Fuses
Liquid type
HRC fuses are filled with carbon tetrachloride. When there is a short circuit,
the current passes through the element which melts and break. The liquid used
in the fuses extinguish the arc created by the short circuit.
2.2.2 Cartridge type HRC Fuse:-
These type
of fuses are similar to low voltage fuses. It is in the shape of a ring for
removing the corona effect. Two fuse elements are used in it which are placed
parallel to each other. The elements are made up of tungsten metal due to high
resistance property.
Fig. 11 – Cartridge Type HRC Fuses
2.2.3 Expulsion Type HRC Fuse:-
Expulsion
type of fuses are used to protect transformers and feeders. It is designed for
11kv and limit is up to 250 MVA. The fuse element is placed inside the cylinder
and the tops are linked to the equipment. These fuses have a cylinder designed
with synthetic resin bond paper.
Fig. 12 – Expulsion Type HRC Fuses
Applications of a Fuse:-
The
applications of Fuses include nearly all electrical/ electronic devices such
as:- Electrical
wiring at home.
- Appliances like
AC, Refrigerator, TV, Washing machine etc.
- Laptops.
- Mobile
chargers.
- Automobiles
(Cars, Trucks, Buses, etc).
Advantages of Fuses:-
The
advantages of Fuses includes:- Fuses are
cheapest form of protection available.
- No maintenance
is required.
- When compared
to circuit breakers, fuses require less time to react when circuit breaks.
- They are used in LCD
monitors, battery packs, etc.
Disadvantages of Fuses:-
The
disadvantages of Fuses includes:- Considerable
time is lost due to rewiring the fuses after operation.
- The current
time characteristics of fuses cannot be related with that of protected
apparatus.










