Uploaded by Boniver Chato

RME-PEC-Reviewer

advertisement
TECHNICAL LECTURE
FOR
MASTER ELECTRICIAN
 Philippine Electrical
Code RME Reviewer
BY
ARNOLD C COMIA
REE_0023295
MEMBER_8653
COMPILED
ROEL B CALANO
LECTURER
INTRODUCTORY DEFINITION
PEC Part I – Consist of rules which regulates electrical installation or design done inside the
building
PEC Part II – Consist of rules which regulates electrical installation or design done outside the
building
Enforcement of the rules
The PEC is intended for mandatory application by the government bodies exercising legal
jurisdiction over electrical installation
Mandatory rules shall be characterized by the use of the terms shall or shall not
Permissive rules shall be characterized by the use of the terms shall be permitted or shall not
be required
Explanatory rules reference to other materials
Introduction
Coverage of PEC
Not Covered of PEC
Public and Private building
Aircrafts
Generating and industrial Plant
Motor Vehicle
Electric Substations, Industrial
Plants and Transformer Stations
Airfields
Switchyards
Recreational establishment
Quarries and mines
Offshore establishment
Mobile homes
etc.
Railways rolling stack
Branch Circuit Loading
Branch Circuit Loading

The floor area for each floor shall be computed from the outside dimensions of the building,
Apartment, or other area involved.

For dwelling unit(s), the computed floor area shall not include open porches, garages, or
unused or unfinished spaces not adaptable for future use.
Based on minimum load conditions

In dwelling units and guest rooms or guest suites of hotels and similar occupancies the
voltage shall not exceed 230 volts for ¼ hp load or 1440 VA

In all occupancies the minimum load for each outlet for general-use receptacles and outlets
not used for general illumination
Branch Circuit Loading

The minimum number of branch circuit shall be determined from the total calculated load,
size and rating of the circuit

For dwelling units there shall be two or more small appliance branch circuit

At least one 20 A branch circuit for Laundry circuit At least one 20 A to supply bathroom
receptacle outlet

For dwelling unit having a floor area of not more than 50 sq mm and shall not exceed 3680
VA – single 20 A branch circuit are permitted
Branch Circuit Loading

Outlet for specific appliance or other load except for a motor load = Ampere rating of
appliance or load served.

Outlet for motor load = Motor rating

An outlet supplying recessed lighting fixture(s) shall be the maximum volt-ampere rating
of the equipment and lamps for which the fixture(s) is rated.

Outlet for heavy-duty lamp holder = 600 volt-amperes

Other outlets = 180 volt-amperes per outlet

For receptacle outlets, each single or each multiple receptacle on one strap shall be
considered at not less than 180 volt-amperes.
General Lighting
Unit Load
Unit Load per
Type of Occupancy
Type of Occupancy
per sq m
sq m Area--VA
Area--VA
Armories Auditoriums
Banks
8
Lodge Rooms
12
28**
Office Buildings
28**
Barber Shop and Beauty Parlors
24
Restaurants
16
Churches
8
Schools
24
Clubs
16
Stores
24
Court Rooms
16
Warehouses (storage)
2
Dwelling Units
24
Garages – Commercial (storage)
4
Hospitals
16
In any of the above
occupancies except one-Family
dwelling and individual
dwelling units of Two-family
and of multifamily dwellings:
Assembly Halls and Auditoriums
8
Hotels and Motels, including
Halls, Corridors, Closets,
apartment houses Without
16
4
Stairways
provisions for coking by tenants
Industrial Commercial (Loft)
16
Building
Storage Spaces
2
Ampacity and Rating
Branch Circuit Rating = 100 % (Sum of Non Continuous Load) + 125 % (Sum of Continuous Load)
Additional receptacle if
more than 1700 mm
Receptacle – General Provision
Receptacle – General Provision

Receptacles shall be installed that no point measured horizontally along the floor line in
any wall space is more than 1800 mm from receptacle outlet

Receptacles in floors shall not be counted as part of the required number of receptacle
outlet unless located within 450 mm of the wall

Receptacle outlet shall be located above, but not more than 500 mm above, the countertop

Receptacle outlet in bathroom shall be located within 900 mm from basin

Basement and garages – one receptacle outlet
Ampacity and Rating
Fastened in a place = 50 % Not Fastened in a place = 80 %
Ampacity and Rating
1. Other Loads -- All Occupancies. In all occupancies, the minimum load for each outlet for
general-use receptacles and outlets not used for general illumination be not less than the
following, the loads being based on nominal branch-circuit voltages. 1.Outlet for specific
appliance
2. Outlet for motor load
3. Recessed lighting
4. Outlet for heavy-duty lamp holder -660 VA for admedium type or not less than 750 for others
5. Track lighting
6. Sign and outline lighting—1200 W
7. Other outlets-180 volt-amperes per outlet.
Ampacity and Rating
Ampacity and Rating
Apply a demand factor of 75 % of the total Load for four or more dedicate loads connected in outlet
Ampacity and Rating
Fuses and Fixed-Trip Circuit Breakers. The standard ampere ratings for fuses and inverse time circuit
breakers shall be considered

15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100, 110, 125, 150, 175, 200,
225, 250, 300, 350, 400, 450, 500, 600, 700, 800,

1000, 1200, 1600, 2000, 2500,
3000, 4000,

5000, and 6000 amperes. Additional standard ampere ratings for fuses shall be 1, 3, 6, 10, and
601. The use of fuses and inverse time circuit breakers with nonstandard ampere ratings shall
be permitted.
Branch Circuit
Circuit Rating
Receptacle
Maximum Load
Amperes
Rating Amperes
Amperes
15 or 20
15
12
20
20
16
30
30
24
Over current
Circuit Rating
Maximum Load
Protection
15 A
15 A
15 A
20 A
20 A
30 A
30 A
30 A
40 A
40 A
40 A
50 A
50 A
50 A
20 A
Branch Circuit Rating = Receptacle (outlet) Rating = Size of the Protective Device = Ampacity of the serving conductor = Maximum Load
Branch Circuit
A. 15- and 20-Ampere Branch Circuits. A 15- or 20-ampere branch circuit shall be permitted to supply
lighting units or other utilization equipment, or a combination of both
1. Cord-and-Plug-Connected Equipment. The rating of any one cord-and-plug-connected utilization
equipment shall not exceed 80 percent of the branch-circuit ampere rating.
2. Utilization Equipment Fastened in Place. The total rating of utilization equipment fastened in
place, other than luminaires lighting fixtures, shall not exceed 50 percent of the branch-circuit
ampere rating where lighting units, cord-and-plug-connected utilization equipment not fastened
in place, or both, are also supplied.
Branch Circuit
B. 30-Ampere Branch Circuits. A 30-ampere branch circuit shall be permitted to supply fixed lighting
units with heavy-duty lamp holders in other than a dwelling units or utilization equipment in any
occupancy. A rating of any one cord-and-plug-connected utilization equipment shall not exceed 80
percent of the branch-circuit ampere rating.
C. 40- and 50-Ampere Branch Circuits. A 40- or 50-ampere branch circuit shall be permitted to supply
cooking appliances that are fastened in place in any occupancy. In other than dwelling units, such
circuits shall be permitted to supply fixed lighting units with heavy-duty lamp holders, infrared heating
units, or other utilization equipment.
Branch Circuit
D. Branch Circuits Larger Than 50 Amperes. Branch circuits larger than 50 amperes shall supply only
non-lighting outlet loads.
1. General Provisions. In every kitchen, family room, dining room, living room, parlor, library, den,
sunroom, bedroom, recreation room, or similar room or area of dwelling units, receptacle outlets
shall be installed
2. Spacing. Receptacles shall be installed so that no point measured horizontally along the floor line
in any wall space is more than 1800 mm from a receptacle outlet.
Branch Circuit
E. Bathrooms. In dwelling units, at least one wall receptacle outlet shall be installed in bathrooms within
900 mm of the outside edge of each basin. The receptacle outlet shall be located on a wall or partition
that is adjacent to the basin or basin countertop.
F.Outdoor Outlets. For a one-family dwelling and each unit of a two-family dwelling that is at grade
level, at least one receptacle outlet accessible at grade level and not more than 2000 mm above grade
shall be installed at the front and back of the dwelling
Branch Circuit
G. Laundry Areas. In dwelling units, at least one receptacle outlet shall be installed for the laundry.
H. Basements and Garages. For a one-family dwelling, at least one receptacle outlet, in addition to any
provided for laundry equipment, shall be installed in each basement and in each attached garage, and in
each detached garage with electric power.
I.Hallways. In dwelling units, hallways of 3000 mm more in length shall have at least one receptacle
outlet.
J. Show Window. At least one receptacle outlet shall be installed directly above a show window for each
3600 linear mm major fraction thereof of show window area measured horizontally at its maximum
width.
K. Heating, Air conditioning and Refrigeration – Receptacle located
within 7600 mm
Branch Circuit
Number of Branch Circuits. The minimum number of branch circuits shall be determined from the
total computed load and the size or rating of the circuits used. In all installations, the number of
circuits shall be sufficient to supply the load served.
Small Appliance Branch Circuits. Dwelling Unit. In addition to the number of branch circuits
determined in accordance with above, two or more 20-ampere small appliance branch circuits shall
be provided for all receptacle outlets for the small appliance loads.
Small Appliance Circuit load. Computed at 1500 VA
Electric Clothes Dryer. Computed at 5000 VA or nameplate rating whichever is larger
Branch Circuit
Laundry Branch Circuits Dwelling Unit. In addition to the number of branch circuits determined at
least one additional 20-ampere branch circuit shall be provided to supply the laundry receptacle
outlet(s) required. This circuit shall have no other outlets.
Load Evenly Proportioned Among Branch Circuits. Where the load is computed on a volt-amperes-permeter basis, the wiring system up to and including the branch-circuit panelboard(s) shall be provided to
serve not less than the calculated load. This load shall be evenly proportioned among multioutlet branch
circuits within the panelboard(s). Branch-circuit overcurrent devices and circuits need only be installed
to serve the connected load.
Feeder Loading

Feeder conductors shall have sufficient ampacity to supply the load served

Where a feeder supplies continuous loads or any combination of continuous and noncontinuous
load, the rating of the overcurrent device shall not be less than the noncontinuous load plus 125
percent of the continuous load.

Where the assembly including the overcurrent devices protecting the feeder(s) are listed for
operating at 100 percent of their rating, neither the ampere rating of the overcurrent device nor
the ampacity of the feeder conductors shall be less than the sum of the continuous load plus the
noncontinuous load.
Feeder Loading

Permitted Reductions – A service or feeder supplying the household electric ranges, wall mounted
ovens, counter mounted cooking units and electric dryers are permitted to have as additional
demand factor of 70% for the portion of the unbalance load in excess of the 200 A load

Prohibited Reductions – There shall be no reduction of the neutral or grounded conductor
capacity applied to any portion of 3 wire circuit consisting of 2 phase and neutral of 4 wire, 3
phase wye connected system

Additional feeders capacity the load is in excess of 2000 A and the supply is 600 V
Feeder Demand Factors for General Lighting Load and Small Appliance Load
Type of Demand
Potion of Lighting Load to
Occupancy
Which DF Apply
DF
First 3,000 or less
100
From 3,001 to 120,000
35
Remainder Over 120,000
25
First 50,000 or Less
40
Remainder Over 50,000
20
Hotels and Motels –
First 20,000 or less
50
Including Apartment
From 20,001 to 100,000
40
House
Remainder Over 100,000
30
First 12,500 or less
100
Remainder Over 12,500
50
Total VoltAmpere
100
Dwelling Units
Hospitals
Warehouse
All Others
Conductors-Wires and Cables
No of strand = 3n2 - 3n +1
Factors that affect conductor sizes
1.
2.
3.
4.
5.
6.
7.
Continuous loads
Terminal temperature ratings
Conductor insulation
Conductor ampacity
Special application
System voltage
Number of conductors in raceways
Conductors-Wires and Cables
Operating Voltage
Outer Layer Covering
Wire Gauge
5.5 sq mm 600 V THHN
Ambient Temperature Level
Thermoplastic Insulation
Branch Circuit conductor that supply load shall have an ampacity not less than 2.0 sq mm
Conductors-Wires and Cables
C = Cotton
FEP = Fluorinated Ethylene Propylene MI = Mineral
magnesium oxide
PFA = Perfluoroalkoxy
R = Rubber sometimes Neoprene S = Silicone
"rubber"
SA = Silicone-asbestos T =
Thermoplastic
TA = Thermoplastic-asbestos
TFE = Polytetrafluoroethylene "Teflon" X = Cross-linked
synthetic polymer
Z = Modified ethylene tetrafluoroethylene
Conductors-Wires and Cables
Heat Rating
“no” H (ex TW, UF) = 60 degrees Celsius H = 75 degrees Celsius
HH = 90 degrees Celsius
Outer Covering Jacket
N = Nylon
Special Service Conditions
U = Underground
W = Wet
Conductors-Wires and Cables
Short Circuit Temperature
= 150 degrees Celsius
Conductors-Wires and Cables
Cu
Al
2.0 sq mm
2.0 sq mm
IAl = 84 % ICu
Cu
15 A
Acu = 84 % AAl
Roel B. Calano
Al
15 A
Conductor Correction Factor
Voltage Class
LV – 1kV and Below
120, 120/240, 208Y/120, 240, 347, 480Y/277, 480, 600Y/347, 600
MV – 1 kV to 34.5 kV
4.16 kV, 13.8 kV, 21 kV, 22 kV, 34.5 kV
HV – 34.5 kV to 230 kV
69 kV, 115 kV, 230 kV
Voltage Class
Electric Field
Magnetic Field
Voltage
Current
The higher the operating voltage the thicker the insulation requirement—BIL (Basic
Insulation Impulse Level)
Voltage Class
480 V
600 V
120 V
Conductors of Different systems can occupy the same raceway, cables, or enclosures
if the insulation voltage rating is not less than the maximum circuit voltage
Voltage Drop
Voltage Drop depends on the load current, conductor size,
distance of load to supply and temperature
Conduit Fill
4 -6
80
7-9
70
10-20
50
21-30
45
31 -40
40
41 and above
35
Ampacity Derating Factor
600 mm
Color Coding
White or Gray – Neutral
Red and/or Black – Hot
Green - Grounding
Color Coding
Conductor Size and Support
Size for span less than
Size for span less than
15 m
15 m
Voltage Application
600
Volts or less
5.5 sq mm Copper
8.0 sq mm Copper
600
Volts or less
8.0 sq mm Aluminum
14.0 sq mm Aluminum
600
Volts or more
14.0 sq mm Copper
8.0 sq mm Cable
Copper
14.0 sq mm Cable
600
Volts or more
22.0 sq mm Aluminum
Aluminum
Festoon Lighting – Overhead conductor shall not be smaller than 3.5 sq mm copper unless the conductor is
supported by a messenger wire. In span exceeding 12 m there shall be messenger wire.
Service Entrance
Service Entrance
Service Entrance

600 Volts, Nominal, or Less. Conductors of 600 volts, nominal, or less, shall comply with the
spacing provided in PEC

Over 600 Volts, Nominal. Conductors of over 600 volts, nominal, shall comply with the spacing provided
in PEC

Separation from Other Circuits. Open conductors shall be separated from open conductors of other
circuits or systems by not less than 100 mm.
Service Entrance
Conductors on Poles. Conductors on poles shall have a separation of not less than 300 mm where not placed on
racks or brackets. Conductors supported on poles shall provide a horizontal climbing space not less than
the following:
1. Power conductors below communications conductors — 760 mm
2. Power conductors alone or above communications conductors: a. 300 volts or less — 600 mm.
b. Over 300 volts — 760 mm.
3. Communications conductors below power conductors — same as power conductors
4. Communications conductors alone — no requirement
Service Drop
Overhead spans of open conductors and open multi-conductor cables of not over 600 volts, nominal, shall
conform to the following:
3000 mm — above finished grade, sidewalks, or from any platform or projection from which they might be
reached where the voltage does not exceed 150 volts to ground and accessible to pedestrians only
3600 mm — over residential property and driveways, and those commercial areas not subject to truck traffic
where the voltage does not exceed 300 volts to ground
4500 mm — for those areas listed in the 3700 m classification where the voltage exceeds 300 volts to
ground
5500 mm — over public streets, alleys, roads, parking areas subject to truck traffic, driveways on other
than residential property, and other land traversed by vehicles, such as cultivated, grazing, forest, and
orchard
Service Drop
Above Roofs. Conductors shall have a vertical clearance of not less than 2500 mm from the roof surface.
The vertical clearance shall be maintained for a distance not less than 900 mm in all directions from the
edge of the roof.
Horizontal Clearances. Clearances shall not be less than 1000 mm
Clearance from Windows. Final spans to the building they supply, or from which they are fed, shall be
permitted to be attached to the building, but they shall be kept not less than 900 mm from windows that
are designed to be opened, and from doors, porches, balconies, ladders, stairs, fire escapes, or similar
locations.
Zone for Fire Ladders. Where buildings exceed three stories or 15 meters in height, overhead lines shall
be arranged, where practicable, so that a clear space (or zone) at least 1800 mm wide will be left either
adjacent to the buildings or beginning not over 2500 mm from them to facilitate raising of ladders when
necessary for fire fighting.
Service Equipment

Service Equipment – Enclosed or Guarded. Energized parts of service equipment shall be enclosed as
specified below,

Enclosure - Energized parts shall be enclosed so that they will not be exposed to accidental contact
or guarded Guarded - Energized parts that are not enclosed shall be installed on a switchboard,
panelboard, or control board and guarded. Such an enclosure shall be provided with means for locking
or sealing doors giving access to energized parts

Grounding and Bonding - Service equipment, raceways, cable armor, cable sheaths, etc., and any
service conductor that is to be grounded shall be grounded
Lighting Equipment on Poles or Other Structure

Common Neutral -The ampacity of the neutral conductor shall not be less than the maximum net
computed load current between the neutral and all ungrounded conductors connected to any one
phase of the circuit.

277 Volts to Ground - Circuits exceeding 250 volts nominal, between conductors and not exceeding
277 volts nominal, to ground shall be permitted to supply lighting fixtures for illumination of outdoor
areas of industrial establishments, office building, institutional, stores, and other commercial or
public buildings where the fixtures are not less than 900 mm from windows, platforms, fire escapes,
and the like.

600 Volts Between Conductors - Circuits exceeding 277 volts nominal, to ground and not exceeding
600 volts nominal, between conductors shall be permitted to supply the auxiliary equipment of
electric-discharge lamps
Lighting Equipment on Poles or Other Structure
Wiring on Buildings - The installation of outside wiring on surfaces of buildings shall be permitted for
circuits of not over 600 volts nominal as open wiring on insulators, as multiconductor cable, as Type MC
cable, as Type MI cable, as messenger supported wiring, in rigid metal conduit, in intermediate metal
conduit, in rigid nonmetallic conduit, in cable trays, as cablebus, in wireways, in auxiliary gutters, in
electrical metallic tubing, in flexible metal conduit, in liquid-tight flexible metal conduit, liquid-tight
flexible nonmetallic conduit, and in busways.
Open-Conductor Supports - In spans exceeding 12 metres, the conductors shall be supported by a
messenger wire; and the messenger wire shall be supported by strain insulators. Conductors or messenger
wires shall not be attached to any fire escape, downspout, or plumbing equipment
Service Entrance
Service Entrance
Service Entrance
Rating of Disconnect

One Circuit Installation – For a limited load the rating shall not be less than 15 A

Dwelling Unit – With a single branch circuit the disconnect shall not be smaller than
20 A

Two Circuit Installation – For not more than two 2 wire branch circuit the disconnect shall have a
rating of not less than 30 A

One Family Dwelling – The feeder disconnecting means shall have a rating of not less than 60 A

All Others shall not have a rating of not less than 30 A
Methods of Grounding

Grounding can be divided into two areas: system grounding and equipment grounding.

These two areas are kept separate from each other except at the point where they receive their
source of power, such as at the service equipment or at a separately derived system.

Grounding is the intentional connection of a current-carrying conductor to ground or something
that serves in place of ground.

In most instances, this connection is made at the supply source, such as a transformer, and at the
main service disconnecting means of the premises using the energy.
Methods of Grounding
There are three basic reasons for grounding:

To limit the voltages caused by lightning or by accidental contact of the supply
conductors with conductors of higher voltage

To stabilize the voltage under normal operating conditions (which maintains the voltage at one
level relative to ground, so that any equipment connected to the system will be subject only to
that potential difference)

To facilitate the operation of overcurrent devices, such as fuses, circuit breakers, or
relays, under ground-fault conditions
Grounding System
On AC premises wiring systems, the conductor to be grounded shall be as specified in the
following:
1.
2.
Single-phase, 2-wire — one conductor
Single-phase, 3-wire — the neutral conductor
3. Multiphase systems having one wire common to all phases — the common conductor
4. Multiphase systems where one phase is grounded — one phase conductor
5. Multiphase systems in which one phase is used as in 2
— the neutral conductor
Grounding System
Used green color as grounding conductor
Grounding System
Used green color as grounding conductor
Grounding System
Grounding System
The grounding rod resistance should
be 25 ohms or less
Roel B. Calano
Grounding System
On AC premises wiring systems, the conductor to be grounded shall be as specified in the
following:
1.
2.
3.
Single-phase, 2-wire — one conductor
Single-phase, 3-wire — the neutral conductor
Multiphase systems having one wire common to all phases — the common conductor
4.
Multiphase systems where one phase is grounded — one phase conductor
5.
Multiphase systems in which one phase is used as in 2 — the neutral conductor
Neutral Conductor
Raceway Methods and Materials
Cable Trays - Are open raceway like assemblies made of steel aluminum or a suitable non-metallic
material they are used in buildings to route cables and support them out of the way of normal
building activities
Trough Type Trays - Protect cables from damages and give good support and ample ventilation
through straight sections
Ladder Trays - Provide maximum ventilations to power cables and other heat-producing cables
** Cables suitable for use in cable trays are marked CT (Cable Tray) on the outside of the jacket
Electrical System Protection – Basic
Components

Voltage transformers and current transformers : To monitor and give accurate feedback
about the healthiness of a system.

Relays: To convert the signals from the monitoring devices, and give instructions to open a
circuit under faulty conditions or to give alarms when the equipment being protected, is
approaching towards possible destruction.

Fuses: Self-destructing to save the downstream equipment being protected.
Electrical System Protection – Basic
Components

Circuit breakers: These are used to make circuits carrying enormous currents, and also to break the
circuit carrying the fault currents for a few cycles based on feedback from the relays.

DC batteries: These give uninterrupted power source to the relays and breakers that is
independent of the main power source being protected
Motor Installation
Motor Installation
Multiple Motor Installation
Feeder Rating = 125 % HFLA in a group + 100 % sum of Other FLA in a group
Multiple Motor Installations
Inverse Time Setting = 250 % HFLA in a group + 100 %
sum of Other FLA
in a group
Motor Installation
Wiring Methods
Drives, Excitation and Regulation
Automatic Control
Excitation
System
Power
Drives
DC Generator
AC Motor
Exciter
Generator Operation

The Generator Spins above synchronous speed

Mechanical Energy is Transformed into Kinetic Energy and is Converted into Electrical Energy

Delivers Active Power to the Electrical System

The Electrical System must provide Reactive Power for the creation of Magnetic Field

High Engine speeds produced greater electrical output
Load
Generator
Prime Mover
Exciter
Generator Operation

The Generator size is affected by the rating, enclosure and the application

Typical prime mover is a diesel engine Power Rating is expressed in
Watts

Generator exciter provides residual magnetism

As the load of Generator increases the frequency decreases
Load
Generator
Prime Mover
Exciter
Power Measurement
Wattmeter
Ammeter
Voltmeter
Load
Generator
Exciter
Surge Arrester Selection

Circuits of Less Than 1000 Volts. The rating of the surge arrester shall be equal to or greater than
the maximum continuous phase-to-ground power frequency voltage available at the point of
application.

Surge arresters installed on circuits of less than 1000 volts shall be listed for the purpose.

Circuits of 1 kV and Over — Silicon Carbide Types. The rating of a silicon carbide-type surge
arrester shall be not less than 125 percent of the maximum continuous phase-to-ground voltage
available at the point of application.
Connecting Surge Arrester

Installed at Services of Less Than 1000 Volts. Line and ground connecting conductors shall not
be smaller than 14 AWG copper or 12 AWG aluminum. The arrester grounding conductor
shall be connected to one of the following:

Grounded service conductor Grounding electrode conductor Grounding
electrode for the service

Equipment grounding terminal in the service equipment
Surge Arrester Selection

Line and ground connecting conductors shall not be smaller than 14 AWG copper or 12 AWG
aluminum.

A surge arrester shall be permitted to be connected between any two conductors —
ungrounded conductor(s), grounded conductor, grounding conductor

The grounded conductor and the grounding conductor shall be interconnected only by the normal
operation of the surge arrester during a surge.
Surge Arrester Selection
Circuits of 1 kV and Over — Surge-Arrester Conductors.

The conductor between the surge arrester and the line and the surge arrester and the grounding
connection shall not be smaller than 6 AWG copper or aluminum.
Lightning Arrester
Lightning arresters are protective devices for limiting surge voltages due to lightning strikes or equipment
faults or other events, to prevent damage to equipment and disruption of service.
Cable Wiring Methods and Materials

Armored Cable ( AC, ACT, and ACL ) - fabricated assembly of insulated conductors enclosed
in a flexible metal sheath used both in exposed and concealed work for branch circuit and
feeders in both exposed and concealed work and in cable tray where identified for such use.

Metal Clad Cable ( MC ) - factory assembled cable of one or more conductors, each
individually insulated and enclosed in a metallic sheath interlocking tape, or a smooth or
corrugated tube, used specifically for services, feeders, branch circuit, either exposed or
concealed, and for indoor or outdoor work.

Metal Insulated Cable, Metal Sheathed Cable ( MI ) - factory assembled cable of one or more
conductors insulated with highly compressed refractory mineral insulation and enclosed in a
liquid tight and gas tight continuous copper sheath, used in a dry , wet, or continuously moist
location as in service, feeders, or branch circuits, indoors or outdoors, exposed or concealed.
Cable Wiring Methods and Materials

Non-metallic Sheated Cable (NM and NMC) - factory assembled two or more insulated conductors
having a moisture resistant, flame retardant and non-metallic outer sheath. used specifically for one
or two family dwellings, multifamily dwellings and other structure

Shielded Non-metallic Sheated Cable (SNM) - A factory assembled two or more insulated conductors in
an extruded core of moisture resistant and flame resistant non-metallic, covered with an overlapping
spiral metal tape and wire shield and jacketed with an extruded moisture, flame, oil, corrosion, fungus
and sunlight resistant non-metallic material. Used where operating temperature do not exceed the
rating worked on the cable

Service Entrance Cable (SE & USE) - A single or multi-conductor assembly provided with or without an
overall covering, primarily and for services. Used for installation in cable trays, raceways or where
supported by a messenger wire.
Cable Wiring Methods and Materials

Underground Feeder and Branch Circuit Cable (UF) - A moisture resistant cable. Used for
underground, including direct burial in the earth, as feeder or branch circuit cable

Power & Control Tray cable (TC) – A factory assembled two or more insulated conductors with or
without associated bare or covered grounded conductor under nonmetallic sheath.

Flat Cable Assemblies (FC)- An assembly of parallel conductors formed integrally with an
insulating material web specially designed for field installation in metal surface raceway. Used
for branch circuit not exceeding 30 amperes and in locations where they will not be exposed to
severe physical damage.
Cable Wiring Methods and Materials

Flat Conductor Cable (FCC) - Consists of three or more flat copper conductor placed edge to
edge & separated and enclose within an insulating assembly. Used for general purpose and
appliance branch circuits and for individual branch circuits specifically in hard, smooth,
continuous floor surfaces specially for under carpet (up to 914 mm 2) wiring to floor outlets
(floor mounted type FCC).

Medium Voltage Cables (MV) - single or multi-conductor solid dielectric insulated cable rated at
2,001 or higher. Used for power system up to 35,000 volts nominal, in wet or dry locations, in
raceway, cable trays.

Integrated Gas Spacer Cable (IGS) - A factory assembled cable of one or more conductors, each
individually insulated and enclosed in a loose fit nonmetallic flexible conduit rated 0 to 600 V.
Cable Wiring Methods and Materials

Integrated Gas Spacer Cable (IGS) - A cable and conduit system for underground use, including
direct burial in the earth, as service-entrance conductors or as feeder or branch circuit
conductors advantages include low material and installation cost, eliminate field pulling or cables
into conduit and eliminates the cost of assembly of conduit in the field. Uses SF6 (sulfuric
hexafluoride gas) insulation.
Raceway Methods and Materials

Raceways - The raceways wiring accessories or channels designed for holding wires cables,
or busbars which are either made of metal or any insulating material. They provided
mechanical protection to conductors while keeping them accessible for wiring changes:
conduits connectors, conduit, coupling, clamps, hangers etc. cable trays, bus metal raceway,
non-metal raceways.

Conduits - Either pipes or tubing, which are either flexible or rigid for electric wires. The most
common electrical raceways.

Fittings - Accessories such as locknuts, bushing couplers, adapters nipples and connectors or
other part wiring system that is intended primarily to perform a mechanical rather than function.

Connectors - A metal sleeve, usually made of copper, that is slipped over and secure to the
butted ends conductors in making a joint. Also called a splicing sleeve.
Raceway Methods and Materials

Intermediate Metal Conduit (IMC) - A metal raceway of circular cross-section with integral or
associated couplings, connectors and fittings approved for the installation of electrical
conductors has wall thickness less than rigid metal conduit but greater than EMT used in all
atmospheric conditions and occupancies, or areas subject to severe corrosive influences when
protected by corrosion protection

Rigid Metal Conduit - Similar to that of IMC and when installed in concrete or in contact with
coil, it does not generally require supplementary corrosion protection unless subject to severe
corrosive influences

Rigid Non-metallic Conduit - Resistant to moisture and chemical atmospheres underground
materials, fiber, soapstone, rigid polvinyl chloride (PVC), fiberglass, epoxy, and high density
polyethylene, above ground (PVC)
Raceway Methods and Materials

Electrical Metallic Tubing - General purpose raceway of the same nature as rigid metal conduit
and IMC used for both exposed and concealed work where it will not be subjected to severe
physical damage or (unless suitably protected) to corrosive agents

Flexible Metallic Tubing - Circular in cross-section, flexible, metallic and liquidtight
without a nonmetallic jacket used in dry locations, in accessible locations when protected
from physical damage or concealed such as above suspended ceilings and branch circuits

Surface Metal Raceway - Used for exposed wiring where the possibility of severe physical
damage is not a problem restricted to dry locations and voltages under 300 volts its principal use
is for rewiring or extending existing electrical system.
Raceway Methods and Materials

Under Floor Raceways - Called under floor ducts, consist of separate duct system buried in
the concrete floor or flush with surface of the floor it come complete with junction boxes and
fittings to provide access along the length of the duct for receptacles and telephone outlets
may consists of single, double, or triple ducts run parallel to provide telephone signal and power
raceways.

Wire ways - Ducts with square or rectangular cross-section made of sheet metal and the
standard length of each ducts is 10 feet where the wiring is readily accessible through cover
plates, which make up one of the walls of the ducts, is 10 feet cover plates may be hinged or
unhinged, screwed in place, or merely snapped into place cannot be buried, concealed in walls or
exposed to corrosives atmosphere for in general they are mounted exposed outdoors and may
carry systems rated at 600 volts.
Raceway Methods and Materials

Cellular Floor Raceways - Maybe metal or concrete, where cells of the cellular floor system is
assigned with particular usage for power or signal wiring, and a header ducts tap into the cells
and a carry the wiring to the necessary panel board or boxes.

Busways - An approved completely assembled metal troughing and fitting when contain bare
conductors intended for use as feeders, the conductors being suitably supported of insulators.
Factory made systems of copper of aluminum bars, rods, or tubes designed to carry heavy
currents from 50 to 6,000 amp conductors can be solid bars, square or rectangular hollow tube
hollow ovals or solid 1 – beams. Can be mounted horizontally or vertically and can be also used as
service entrance feeders.
Raceway Methods and Materials

Continuous plug in Busways - used to serve equipment that may be relocated periodically, such
as in wood working shops. Have regularly spaced openings that permitted plugging of switches or
circuit breakers and conduit or flexible cable is then run from devices to the equipment being
served.

Trolley Busways - Permits travelling equipment to be connected to a power source a rolling
power takeoff in contact with the busways conductors as the equipment moves, the trolley
contact on the conductor.

Cablebus - An approved assembly of insulated conductors with fittings and conductor
terminations in a completely enclosed, ventilated protective metal housing
Electrical System Design
Receptacle spacing = 1800 mm from the door
Riser Diagram/Distribution System
Download