The document provides a detailed overview of various electrical installations components, primarily focusing on switchgear, including types such as miniature circuit breakers (MCBs), earth leakage circuit breakers (ELCBs), and molded case circuit breakers (MCCBs). It further discusses types of wires and cables, electrical earthing, and the classification of batteries into primary and secondary types, highlighting their characteristics and applications. Overall, it serves as a comprehensive guide to important electrical devices and their functionalities.

1. UNIT-V
ELECTRICAL INSTALLATIONS

2. Components of LT switch gear
 The apparatus used for switching, controlling and
protecting the electrical circuits and equipment is
known as switchgear.
 The term ‘switchgear’ is a generic term
encompassing a wide range of products like
circuit breakers, switches, switch fuse units, off-
load isolators, HRC fuses, contactors, earth
leakage circuit breakers (ELCBs), etc...

3.  A switchgear essentially consists of
switching and protecting devices such as
switches, fuses, isolators, circuit breakers,
relays, control panels, lightning arrestors,
current transformers, potential
transformers, and various associated
equipments.

4. SWITCH FUSE UNIT (SFU)
 It is Switched Fuse Unit. It has one switch unit and one
 fuse unit. When we operate the breaker, the contacts will
 get close through switch and then the supply will passes
 through the fuse unit to the output.
 Whereas in Fuse Switch Unit there is no separate switch and
 fuse unit. There is only fuse unit which act itself as a
 switch. When we operate the fuse unit will close the input
 and output of the breaker.

5. MCB
 A miniature circuit breaker automatically switches off electrical
circuit during abnormal condition of the network means in over load
condition as well as faulty condition. Nowadays we use an MCB in
low voltage electrical network instead of fuse. The fuse may not
sense it but the miniature circuit breaker does it in a more reliable
way. MCB is much more sensitive to over current than fuse.
 Handling a MCB is electrically safer than a fuse. Quick restoration of
supply is possible in case of fuse as because fuses must be re-
wireable or replaced for restoring the supply. Restoration is easily
possible by just switching it ON. Let’s look at the working of the
miniature circuit breaker.

7. ELCB
 Early earth leakage circuit breakers are voltage detecting
devices, which are now switched by current sensing
devices (RCD/RCCB). Generally, the current sensing devices
termed as RCCB and voltage detecting devices named as
Earth Leakage Circuit Breaker (ELCB).
 An ECLB is one kind of safety device used for installing an
electrical device with high earth impedance to avoid shock.
These devices identify small stray voltages of the electrical
device on the metal enclosures and intrude the circuit if a
dangerous voltage is identified. The main purpose of Earth
leakage circuit breaker (ECLB) is to stop damage to humans
& animals due to electric shock.

8.  An ELCB is a specific type of latching relay that has a
structure’s incoming mains power associated
through its switching contacts so that the circuit
breaker detaches the power in an unsafe condition.
 The ELCB notices fault currents of human or animal
to the earth wire in the connection it guards. If ample
voltage seems across the ELCB’s sense coil, it will
turn off the power, and remain off until manually
rearrange. A voltage sensing ELCB doesn’t detect
fault currents from human or animal to the earth.

10. MCCB
 Molded case circuit breakers are a type of
electrical protection device that is
commonly used when load currents exceed
the capabilities of miniature circuit
breakers. They are also used in applications
of any current rating that require
adjustable trip settings, which are not
available in plug-in circuit breakers and
MCBs.

11.  A molded case circuit breaker, abbreviated MCCB, is a
type of electrical protection device that can be used
for a wide range of voltages, and frequencies of both
50 Hz and 60 Hz. The main distinctions between
molded-case and miniature circuit breaker are that
the MCCB can have current ratings of up to 2,500
amperes, and its trip settings are normally
adjustable. An additional difference is that MCCBs
tend to be much larger than MCBs. As with most
types of circuit breakers, an MCCB has three main
functions:

12.  Protection against overload – currents above the rated value
that last longer than what is normal for the application.
 Protection against electrical faults – During a fault such as a
short circuit or line fault, there are extremely high currents
that must be interrupted immediately.
 Switching a circuit on and off – This is a less common function
of circuit breakers, but they can be used for that purpose if
there isn’t an adequate manual switch.
 The wide range of current ratings available from molded-case
circuit breakers allows them to be used in a wide variety of
applications. MCCBs are available with current ratings that
range from low values such as 15 amperes, to industrial
ratings such as 2,500 amperes. This allows them to be used in
both low-power and high-power applications.

15. Types of wires and cables
 Wire is a single electrical conductor,
whereas a cable is a group of wires swathed
in sheathing.

17. Triplex Wires :
Main Feeder Wires :
Panel Feed Wires :
Non-Metallic Sheathed Wires :
Single Strand Wires :

18.  Non-Metallic Sheathed Cable
 Underground Feeder Cable :
 Metallic Sheathed Cable :
 Multi-Conductor Cable :
 Coaxial Cable :
 Unshielded Twisted Pair Cable
 Ribbon Cable :
 Direct-Buried Cable :
 Twin-Lead Cable :
 Twin axial Cable :
 Paired Cable :
 Twisted Pair :

19. Electrical Earthing
 The process of transferring the immediate discharge of the
electrical energy directly to the earth by the help of the low
resistance wire is known as the electrical earthing. The
electrical earthing is done by connecting the non-current
carrying part of the equipment or neutral of supply system to
the ground.
 Mostly, the galvanized iron is used for the earthing. The
earthing provides the simple path to the leakage current. The
short circuit current of the equipment passes to the earth
which has zero potential. Thus, protects the system and
equipment from damage.

21. Types of batteries
 Batteries are the most common power source for
basic handheld devices to large scale industrial
applications. A battery can be defined as; it is a
combination of one or more electrochemical cells
that are capable of converting stored chemical
energy into electrical energy.

22.  2 Types of Batteries
 1) Primary Batteries:
 As the name indicates these batteries are meant for
single usage. Once these batteries are used they
cannot be recharged as the devices are not easily
reversible and active materials may not return to
their original forms. Battery manufacturers
recommend against recharge of primary cells.
 Some of the examples for the disposable batteries are
the normal AA, AAA batteries which we use in wall
clocks, television remote etc. Other name for these
batteries is disposable batteries.

24.  2) Secondary Batteries:
 Secondary batteries are also called as rechargeable batteries.
These batteries can be used and recharges simultaneously.
They are usually assembled with active materials with active
in the discharged state. Rechargeable batteries are recharged
by applying electric current, which reverses the chemical
reactions that occur during discharge. Chargers are devices
which supply the required current.
 Some examples for these rechargeable batteries are the
batteries used in mobile phones, MP3 players etc. Devices
such as hearing aids and wristwatches use miniature cells and
in places such as telephone exchanges or computer data
centre’s, larger batteries are used.

26.  Types of Secondary (rechargeable) Batteries:
 Sealed maintenance free (SMF),
 Lead Acid battery,
 Lithium battery
 Nickel cadmium (Ni-cd)
 Lithium ion battery