The document discusses residential electrical systems, equipment, and services. It covers the purpose of electrical systems to distribute power safely throughout a building. It then describes various components of residential electrical systems including the main service panel, subpanels, wiring systems, circuit breakers, earthing systems, and common residential equipment. Electrical installations require planning, design, layout, approvals, testing, and connection to ensure safe and reliable power for residential buildings.
2. Introduction
• Purpose – Distribution of power safely to all the different
rooms and appliances.
• Electrical system provides the power needed to light the
building during the day and night.
• Highlight different electrical equipment and services available
for residential projects
3. Introduction
• The first use of electric
supply were established
in 1882 by Thomas
Edison, Thereafter there
have been constant
effort throughout the
world to set-up power
stations for more than
one purposes.
• The power generation in
India in 1947-48 was
only 1,300 MW and
today we generate more
than 4,00,000 MW.
5. Electricity Generation
• Electricity is generated from the stored energy of water that
makes turbine run and generate electricity.
• The other method includes fuels (Coal, diesel or gas) to fire
boilers and pass stream and generate electricity through
generators.
• Transformer step up several thousands of volts before it is
supplied to the transmission lines or cable.
• By transmitting electricity at high voltages less power is lost in
the cables.
• At the receiving end of voltage is stepped down by transforms
in local sub-stations to consumers at 240 volts.
7. Main service panel
Main Panel - The main
breaker panel is the mother
of all the panels in your
house. It regulates the circuit
breakers and the electricity
consumption within the
home.
It divides an electrical power
feed into subsidiary circuits,
while providing a protective
fuse or circuit breaker for
each circuit in a common
enclosure.
8. Subpanel
A sub-panel is a smaller
electrical panel that
services a specific area
of the home.
It holds separate circuit
breakers from the main
breaker panel.
This can prevent
overloading the
electrical system and
tripping circuit breakers
or melting fuses.
9. Service entrance cable and
meter
• In Urban areas electrical cables are Usually underground and are
brought up to entry point at ground level or into basement.
• Service cable cannot be bent to small radii and this should be borne
in mind when considering point of entry.
• In small buildings the cable run is kept as short as possible,
terminating in a distribution board at the first convenient position.
• In these buildings the distribution board will be fitted with a seal box
to prevent moisture from entering the insulation of the service
cable.
• The position chosen for the distribution board should be readily
accessible both for meter reading and for replacing fuses.
• In some cases special glasses are provided so that meter can be read
without entering the premises.
10. Domestic Supply
• Domestic electricity supply usually effected through
distribution system and describe as single and three phases.
• Normally small buildings are supplied with electricity by two
wires, one phase wire and the other neutral. This is known as
single phase supply and gives a voltage for the premises of
240 volts.
• The loading of the supply wiring is balanced between the
phases by using the phases in rotation so that each one
services every third building.
• In three phases, four wire bring 420/ 240 volts. The balancing
of load is then achieved by serving different areas of the
building by different phases. Electric motor are usually
designed for three phase operation.
13. Branch Circuit systems
• In most of the buildings electricity supply is divided into two
types of sub circuit: Lighting Load sub-circuit and power load
Sub Circuit.
• For operational purpose it is divided into three phases circuit-
lighting, socket outlets and fixed apparatus.
• The sub circuit which gives supply to lighting load points is
called lighting load sub circuit. This circuit includes lamps, fans,
tubes etc. As per Indian Electricity Rules. The following rating
should be assumed
Filament lamp 60W
Ceiling fan 60W
Socket for radio, table fan 60W
Fluorescent tube 40W
Mercury Vapor lamp 80W
14. Circuit Breaker
• A circuit breaker is defined as, switching device which
interrupts the faulty current and performs the function of a
switch thus protecting the electrical system from damage.
• Circuit breakers "trip", shut off, current flow after protective
relays detect a fault.
• Unlike fuses that were used previously, circuit breakers are not
usually damaged so they can be reset as opposed to being
replaced.
15. Earthing system
In electricity supply systems, an earthing system or grounding
system is circuitry which connects parts of the electric circuit
with the ground, thus defining the electric potential of the
conductors relative to the Earth's conductive surface.
16. Applications of Earthing
system
• Protect human against lightning and earth fault condition
• Protect the premises against lightning and earth fault
condition
• Provide low resistance and safe path for lightning and fault
current
• All metallic enclosure and extraneous conductive parts are at
• equipotential
• LV System Earth
17. Basic Wiring System
• Wiring in buildings is run either on the surface or canceled in
the construction.
• Surface wiring is cheaper but its appearance limits its use.
• 2 types of wiring system available for use in buildings are
sheathed and conduit.
• Two or more wires consisting of metal conductors each having
its own insulation is enclosed in a protective sheath known as
TRSC tough rubber sheathed.
• Use of PVC for insulation and sheathing is preferred as it gives
smoother and neater cables. This type of wire are well suited
to surface use.
• For use in concealed wiring, conduit or metal channels should
provide to protect wiring.
19. Conduit Wiring
• In this type of wiring system VIR or PVC are carried through
steel or PVC tubes as conduit.
• In case of surface conduit wiring, the conduit is fitted on the
surface of the walls by means of saddles
• In case of concealed conduit wiring the conduit facilitates the
drawing of wires.
21. Electric Installations
Electric Installations
Electric Installations require necessary design, planning taking
into consideration the whole requirement of the activities to be
carried out in the building.
The following steps are suggested for the same..
- Planning & Designing
- Layout of working drawings
- Application to electric supply company for granting estimated low
supply and requirement of sub-stations/ transformers
- Laying conduit for underground supply lines before concreting and
completing the plinth work.
- Laying conduits in slabs and beam reinforcement, fixing of fan
hooks/ boxes in slabs reinforcement for main supply to consumer
units/ rooms
22. Electric Installations
- Physical marking of layout of wiring in all units/ rooms.
- Providing & laying complete wiring
- Fixing all fittings and fixtures and complete electrical
installations
- Testing of Installations
- Providing consumer meters.
- Submission of test reports to electric supply company for
supply connection after obtaining NOC from PWD in cases of
building exceeds 15m height.
- Checking of electrical installation by authorized officer of
electrical supply company before passing & sealing of meters.
- Permanent electric supply connection to buildings and
consumer thereof
23. Design of Electric System
• Total load requirement i.e. lights, fans, power etc.
• Anticipated future increase in power consumption.
• Layout of wiring installation, whether open conduit or
concealed
• Provision of sub-station, meter room, switch room, services
cable duct, rising mains and cables, opening and chases
required in floors and walls for intending electrical
installations.
24. Execution
• The execution of entire electrical Installation should be carried out
under the guidance and supervision of competent electrical
engineer/through licensed electrical contractor; in accordance to the
design and specification provided in the tender and strictly as per rules
and regulations of electrical supply.
• The electrical contractor should decide his sequence of work in
consultation with the architect in such a manner that it will not
affect/conflict with working of other agencies and it will allow other
service agencies to work smoothly and simultaneously without any
interruption.
25. Execution
• The electrical contractor should get approval for all materials
including fitting and fixtures to be used from the architect before
commencement of work.
• The contractor should arrange temporary electrical supply for
construction purpose; before proper work is commenced.
• At the end of work the electrical contractor should check and test
the entire electrical installation work and get it approved from the
electrical supply company.
• The electrical contractor should submit his test report and
completion certificate in required forms for consumer meter and
permanent electric supply connections to the buildings.
26. Staircase & Corridor lighting
The following provisions have been recommended under the
development control regulations.
• The staircase and corridor lighting should be on separate
circuit and should be independently connected so that they
could be operated by one switch installations.
• Stair case and corridor lighting should also be connected to
alternate supply as defined in sub regulation.
• Emergency lights should be provided in the staircase/Corridor
for multi-storied buildings.