BUILDING ELECTRICAL SYSTEMS DESIGN & DRAFTING

BUILDING ELECTRICAL SYSTEMS DESIGN & DRAFTING

Engineer : AMJED OSMAN ELSAYED

INTRODUCTION design of the electrical installation in building used to be simple and straight forward . Such installations generally included electrical service from an electricity board company , power distribution within the building for sockets (receptacles ), air conditioniong and other electrical loads , lighting and few specialty system such as fire alram and telephone .

Generation , transmission and distributions of electrical energy

Transmission of Electricity  From power station to consumer

Power Station

High Voltage Distribution

Generation Primary Transmission

Secondary Transmission

11kV, 17kV,

330kV,

60kV,

11kV,

22kV, 23kV

500kV

132kV

33kV

Yard transformer

Regional Substation

Zone Substation

230/400V

Distribution Substation

Distribution of Power High Voltage and low voltage distribution system Consumer 1 and 2: 230V two wire Consumer 3 : 230/400V three wire

Bulk Supply Consumer

Consumer 4 : 230/400V four wire

1

2

3

4

Delta/Star transformer

Line 1(A) Line 2(B)

Three phase, high voltage distribution

Line 3(C) Neutral

Three Phase Star System

Three phase four wire distribution low voltage 230/400V

5

Types of phase: There are 3 phase types: 1. Red phase or phase (A) 2. Yellow phase or phase (B) 3. Blue phase or phase (C)

 Phase system: There are 3 types of phase system : 1. One ø system or 1 phase system 2. Tow ø system or 2 phase system 3.Three ø system or 3 phase system

ELECTRICAL CODES AND STANDARDS: Electrical codes :- the principles used in electrical design and installation are know as electrical codes.

Examples : UK- UAE- QATAR- OMAN- SUDAN:UK, UAE, Qatar ,Oman,Sudan follow B.S (British standards) know IEC(International Electrotechnical Commission)

USA-KSA:USA,KSA follow NEC codes (National electrical codes) which is chapter no 70 in NFPA book (National fire protection association )

European countries: European countries follow IEC standards (international electrical technical commission ).

Voltages and codes around the world  U.K → U.K follow B.S codes (also know as IEE regulation ) Normal voltages

230/400V 50Hz.

 USA→ USA follow NEC (NFPA 70) Normal voltage

110/220 220/380

60Hz 60Hz

 KSA→ KSA follow NEC (NFPA 70) Before 2010 KSA was having 2 voltages 127/220 V 60Hz 220/380 V 60 Hz In 2010 the ministry of electricity decided that new project after 2010 will have only one voltage through out KSA 220/380 60Hz

Voltages and codes around the world  UAE → UAE follow B.S

Normal voltage

230/400v

50 Hz

 SUDAN → Sudan follow B.S

Normal voltage

240/415v

50 Hz

 Qatar → Qatar follow B.S

Normal voltage 240/415v

50Hz

SWITCH  used for on or off purpose of small equipment like light – ceiling fan

–exhaust fan - socket – water heaters – washing machine – cooking range- window and split A/C – small water pumps.etc

 Rating of switch : the maximum current which can flow through switch safety without any damages for switch is know as rating of switch

Standard Rating of Switch  5A  10 A  15 A  20 A  25 A  30A or 32 A

Note  In Gulf we used 10 A switch for light only  In Gulf we used 20 A switch for W/H – W/M etc

Types of Switch  One way switch

 Two way switch

 Intermediate switch

back box In Gulf they are 2 standard back box size 1. 3×3 2. 6×3

Gang : represents no. of switch in back box 1 Gang

2 gang

3 gang

Gang four gang 4G

five gang 5G

six gang 6G

Sockets Types of S/O in BS (Sudan , Oman, Qatar, UAE )  3pin → 13A general s/o → 15A s/o for A/C → 45A flex outlet for W/H , W/M , C/R

 K.S.A : S/Os in NEC standard are know as receptacles Receptacles → 15A/20A , 220 V Receptacles →15A or 20A , 127 V

Sockets  Other classification

1. Single S/O outlet : The back box has only one s/o inside .the back box size is used 3×3.

2.Double or twin S/O outlet : The back box has two s/o , the back box size is used 6×3

3.Shaver outlet : (110_ 220 v)

WIRES AND CABLES: Wire : conductor + insulation (small size)  Cables : conductor + insulation + sheath (large size )  Bare conductor : only conductor (no insulation). Ex, over head lines in Sudan Units of wires and cables :  mm² → Sudan and B.S countries (UAE, K.SA,Qatar)

OR  AWG →(American Wire Gnage )  mm² : it is cross sectional area of conductor without insulation

Equivalent of mm² to AWG MM² 1.0 mm² 1.5 mm² 2.5 mm² 4 mm² 6 mm² 10 mm² 16 mm² 25 mm² 35 mm² 50 mm² 70 mm² 95 mm² 120 mm² 150 mm² 185 mm² 240 mm² 300 mm²

AWG 18 AWG 16 AWG 14 AWG 12 AWG 10 AWG 8 AWG 6 AWG 4 AWG 2 AWG 1 1/0 AWG 2/0 AWG 3/0 AWG 4/0 AWG 250 kc MIL 350 kc MIL 400 kc MIL 500 kc MIL

REMARK AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA AWG For KSA

CORE OF CABLES Core (c) represents the numbers of conductors in the cable , there are two types of the cable based on the cores of cables

1. Single core cable (1c)

2. Multi core cable (a) 2 core cable (2c)

CORE OF CABLES (b) Three core cable (3c)

(c)Four core cable (4c)

(d)3 ½ core or 3.5 core

Run of cable:Run of cable represents the no .of single core or multi core  Always the earth is separate run and 1c only . no multi core for earth

wire  We prefer multi core cables above 6mm², avoid single cables above 6mm² 1.5 mm² → single core (1c) 2.5 mm² → single core (1c) 4 mm² → single core (1c) 6 mm² → single core (1c) 10 mm² → (2c ,3c , 4c, 3.5c) 16 mm² → (2c ,3c , 4c, 3.5c) 25 mm² → (2c ,3c , 4c, 3.5c) : : 300 mm² → (2c,3c , 4c, 3.5c)

Earth wire sizing Earth wire is dependent on phase size Wire or cable size for phase and N

Earth wire or cable size

1.0mm²

1.0 mm²

1.5 mm²

1.5 mm²

2.5 mm²

2.5 mm²

4 mm²

4 mm²

6 mm²

6 mm²

10 mm²

10 mm²

16 mm²

16 mm²

25 mm²

16 mm²

35 mm²

16 mm²

50 mm²

25 mm²

70 mm²

35 mm²

95 mm²

50 mm²

120 mm²

70 mm²

150 mm²

95 mm²

185 mm²

95 mm²

240 mm²

120 mm²

300 mm²

150 mm²

Conductor materials :

1. Copper (cu)

2. Aluminum (al)

Insulation materials 1. PVC :(Poly-Viny Chloride) PVC insulated wires are used for smaller loads like light , fans , s/o , w/m , w/h , c/r  They can with stand up to 60 C,

 2. LSOH : Low Smoke zero Holagen LSOH insulated wires are used for smaller loads like lights , fans , s/o , w/h , w/m . c/r .

Insulation materials  XLPE : cross linked polyethylene  XLPE insulated cables are used as main

feeder cable (service wire) for DB OR SMDB OR MCC OR T/F etc. and for heavy mechanical load like chiller – AHU – Boilers  XLPE cables can with stand up to 90º c

 FR : Fire Retardant or MICC (Mincal Insulated Cable Conductor ) FR cable are professed for emergency load like lights fire fighting pumps , emergency lights ,fire alarms cables

Types power cable : 1.Un armoured cable

2. Armoured cable

c)

SWA (Steel Wire Armour ) AWA(Aluminum Wire Armour) SSA (Steel Strip Armour )

d)

ASA (Aluminum Strip Armour)

a) b)

Voltage classification :H.V → High Voltage (above 1000 v) 2. M.V → Medium Voltage (250 to 1000v) 3. L.V → Low Voltage (30 to 250 v) 4. ELV → Extra Low Voltage (voltage less than 30 ac or 54 v dc) Grade of cable :  means the with stand voltage whether the cable is for LV or MV or HV. 1.

Color codes of cable PHASE

In sudan or gulf New color code countries in europe

Phase (A) or (1) Red

Brown

Phase (B) or (2) Yellow

Black

Phase (C) or (3) Blue

Grey

Neutral

Black

Blue

Earth

Green or Y/G

Y/G

Final representation of cables : 1×4c×10mm² ,XLPE/SWA/PVC.Cu,0.6/1kv + 1×1c×10mm², pvc /pvc ,cu Y/G

               

1 → run 4c→ core 10mm²→size XLPE → insulation SWA→ armour PVC→ sheath Cu → conductor material 0.6/1kv → M.V /L.V grade Earth 1 → run 1c→ core 10mm²→ size PVC → insulation PVC→ sheath Cu → conductor material Y/G → Earth

Electrical faults  Types of electrical faults : Over load Short circuit Earth –fault or shock Over voltage Under voltage

1. Over load Over load mean current more than rated current of equipment  Ex : 10 A rated switch 2A→ safe 6A→ safe 10A→ safe 11A→ un safe (over load current)  When over load current passes then the s/w gets damage.

2. Short circuit  When any phase of neutral or any two phase meet

each other then infinite current flows through them. Usually thousands of current in 1 ms (KA of current in 1ms ), this increase the temperature is know as short- circuit condition

3.Earth – fault or shock  When any phase meet earth wire or any conducting materials eg

(metals – human body – water – etc. ) some a mount of current passes in to ground through the earth wire or any conducting material  This current passing to earth from phase wire is know as earth – leakage current and the fault is know as earth – fault . Good conductor

Bad conductor

Silver (best)

wood

Cu and AL

Rubber

All metals expect few semi- conductor

Plastic – paper – glass

Human body

porcelain

Water

Air

Summary  P + N → Short circuit  P – P → Short circuit  P – E or human body → earth fault – shock  N – E or human body → No effect  E – human body → No effect

Productive devices The devices which protected from electrical faults are knows as protective devices

Types of protective devices 1. Fuse → protective from over load only 2. Circuit breaker → protects from over load and s.c faults 3. RCB or ELCB or GFCI→ protects from earth faults or

shock 4. RCBO or RCCB → protects from over load , s.c and earth faults 5. UVR (Under Voltage Relay)→ protects from under voltage

Circuit Breaker : The CB is protective devices which can be operated manually and automatically it trips in case of over load and short- circuit condition

Standard C.B Rating 5 A to 40 A MCB (Miniature circuit breaker )

50 A to 600 A MCCB (Modulate Case circuit breaker ) 800 A to 3500 A ACB (Air Circuit Breaker)

Standard short – circuit rating of C.B : 1. 6KA 2. 10KA 3. 6KA 4. 25KA 5. 35KA 6. 50KA Example

TYPES OF C.B 1.MCB → Miniature Circuit Breaker 2.MCCB→ Modulate Case Circuit Breaker 3.ACB → Air Circuit Breaker

other breaker used in H.V (power plants and s/s ) 4.VCB → Vacuum C.B 5. OCB → Oil C.B 6.SF6

Types of MCB  B curve MCB

 C curve MCB

 D curve MCB

Application of B,C,D curve MCB 1. B curve MCB is preferred for lighting circuit. 2. C curve MCB is preferred for small heavy like W/H – W/M – C/R 3.D curve MCB is preferred for machine like (backing machine ).

MCCB(Modulate Case circuit breaker )  Rating 50 to 600A

Types of MCCB

1. Adjustable MCCB: here we can set the tripping value normally

2. Fixed

or un adjustable MCCB

ACB : Air Circuit Breaker Rating 800 to 3500A

1.Motorized with drawable ACB : Here the start and stop push buttons are operated by a motor which is required to be energized and after it is off we can with draw the ACB to avoid are flash

2.Motorized non_ with draw able ACB Here the start and stop push buttons are operated by a motor which is required to be energized and after it is off/on we need to with raw ACB

RCD or ELCB or GFCI  B.S (Sudan and UAE,Qatar)

→RCD (Residual Current Devices )

→ELCB (Earth Leakage Circuit Breaker)

 NEC (KSA)

→ GFCI : Ground fault Circuit Breaker

Working principle of RCD  The RCD continuously monitors the current difference

between phase and neutral . if the leakage current is equal to sensitivity of RCD then the RCD is trip

 Recommended sensitivity of RCD :  For lights use 100mA RCD (0.1A)  For sockets use 30 Ma RCD (0.03A)  For W/H- W/M- C/R use 30 ma (0.03A)  For A/C use 100ma RCD (0.1A)  For under water lighting use 10ma RCD (0.001A)

Note: the RCD is provide with a test buttons to verity that RCD is working propyl

Working principle of RCD  No .of poles : Since neutral is compulsory in RCD we have

1. Two poles RCD

2. Four poles RCD Examples

RCCB or RCBO :  RCCB

Residual Current Circuit Breaker

 RCBO

Residual CB with over current protection (over load & S.C)  Note  RCCB or RCBO protects from all 3 faults (over load , S.C and

earth fault)Since this technology is now they are very less used

RCCB or RCBO  Ex : (C 40A - 100ma

- 10KA)

C → type of MCB 40 A→ rating of RCBO 100ma → sensitivity of MCBO 10KA→ short- circuit rating  Note  In UAE they have both CB and RCD for all lights and W/H. S/O , A/C  In Qatar RCD are minatory for S/O , W/H , W/M only not require for lights and A/C.  In KSA RCD are not used GFCI are minatory only for equipment inside bath room and kitchen.

Isolator or disconnect switch (D/S):  Isolator or D/S is not a protective devices is it doesn’t trip in case of

any fault it is only meant for on and off purpose  It can look similar to CB with handle side handle or rotary handle Important note :  In sudan and B.S countries the isolator is used as main breaker knows as (main isolator ) inside the DB or final DB  Always install D/S near to every heavy mechanical equipment such as chiller , AHU , Motor and pumps , lights for maintains and repair purpose

STANDARD ISOLATOR RATING  NO .OF POLES FOR ISOLATOR DB:

2P

4P

 No.of poles D/S near the heavy mechanical equipment  SPN for single phase equipment

 TPN for three phase equipment

Wires and cables insulation methods  Majorly the wires of cables are said to be installed in two methods  Cable in air No

(2) Cable in ground

1

Methods for cable in Air Free in Air

2

conduit

3 4 5

Cable trunking Cable tray Cable ladder

Methods for cable in ground Directly buried or directly laid under ground cable Duct bank or electrical ducts Cable tranch

Conduit: (electrical pipe)  Material of conduit :  PVC

 Metallic

 GI/GS→ Galvanized Iron/

Galvanized Steel

Conduit: (electrical pipe)  Material of conduit :  EMT→ Electrical Metallic Tubes

 RGS/RGI →Rigid Galvanized Steel/

Rigid Galvanized Iron

 Note  PVC conduits are used as connected conduit inside the wall , slabs ,

and floor screed.  GI/GS or RGI/RGS are used as exposed conduits or the wall , or slab in India and B.S countries (Qatar , UAE ,Oman)  EMT conduits are used as exposed conduits on the wall or slab in KSA

Standard size of conduits  ½ ´´ → 16 mm  ¾´´ → 20 mm  1´´ → 25mm  1¼´´→ 32 mm  2´´ → 50 mm  3´´ → 75 mm  4´´ → 100 mm  Note  ½ ´´ conduits are not recommended  ¾´´ (20 mm) 0r 1´´ (25 mm) conduit can be use for wiring

lighting  1´´ (25 mm) or (32mm) conduit can be used for wiring of s/o , w/h , w/m , c/r , pumps and low current system like fire alarms wires , CCTV telephone and TV wires.

Conduits accessories:  Coupler : coupler used to join 2conduts

 Bends : In gulf countries bends are made

at site in the same coduit using PVC bending

 Junction box (JB) or pull box (PB) :  There are 2 types of JB

1. Circular JB (used mostly in Sudan and BS) 2. Octagonal JB (used in KSA)

circular JB is fixed near to every light point , ceiling and exhaust and smoke electors

 Types of JB circular JB  One way

two way through

two way angle

two way U

three way

four way

Junction box  octagonal JB

 back bax : are used for s/o flex outlet etc

 adapter : use for fixing conduit to the back box

Standard mounting heights of wiring accessories  All switches → 1250 mm AFFL (After Finish Floor

Level) Light , fan , w/h , w/m .  Sockets →450 mm AFFL  Tel/sockets →450 mm AFFL  Sockets in kitchen → 250 mm above kitchen plat form  s/o for w/h , w/m , A/C , near the equipment

conduiting  laying of conduit is knows as coduiting there are three stages for

conduiting .  conduiting in slab

 conduiting in wall

 conduiting in floor

Cable trunking  Cable trunking is used to carry branch of wires (many wires )

 Materials' :

1. PVC cable trunking 2. Metallic cable trunking

Standard size of cable trunking 1. 50mm ×50mm (5cm×5cm) 2. 100mm ×100mm (10cm×10cm) 3. 150mm ×150mm (15cm×15cm) 4. 200mm ×200mm (20cm×20cm) 5. 250mm ×250mm (25cm×25cm) 6. 300mm ×300mm (30cm×30cm) 7. 400mm ×400mm (40cm×40cm) 8. 500mm ×500mm (50cm×50cm) Note: other combination are also available ex : 300mm×100mm

Installation methods of cable trunking  The cable trunking can be installed is three method as per

requirements  On the surface of the wall

 Hanging from slab

 Under floor trunking

CABLE TRAY Cable tray is used to carry heavy cable

 Types of cable tray:

1. Perforated cable tray : is preferred for carraying power cables

2. Plain cable tray : can be used for low current system like TV , CCTV ,FF

Materials of cable tray: 1. No PVC 2. Metallic (a) Galvanized cable tray

(b) Hot dip galvanized cable

Standard cable tray size 50mm ×50mm (5cm×5cm) 150mm ×150mm (15cm×15cm) 200mm ×100mm (20cm×10cm) 250mm ×100mm (25cm×10cm) 300mm ×100mm (30cm×10cm) 400mm ×100mm (40cm×10cm) 500mm ×100mm (50cm×10cm) 600mm×100mm (60cm×10cm) 800mm×100mm (80cm×10cm) 900mm×100mm (90cm×10cm) Note: if more than 900mm cable tray is required then use two cable tray parally 1) 2) 3) 4) 5) 6) 7) 8) 9) 10)

Cable tray installation  Cable tray can be installed in three methods : 1. On the surface of wall

2. Hanging from cable

3.Floor mounted (on the floor )

Cable laying methods on cable tray  There are three methods of cable laying on cable tray  Flat formation – touching  Flat formation – spacing  Trefoil formation (only for single core cables )

Cable ladder  Cable ladder are preferred only for vertical installation only in

electrical shaft or riser

 Cable installation in ground :

there are three methods of cable tray installation in ground 1.Directly buried or directly laid under ground 2.Duct bank or electrical duct 3.Cable trench

Coordination with mechanical system 1. HAVC (Heating Ventilation and Air Conditioning ) 2. Plumbing

water supply b) drainage 3. Fire fighting 4. Conveyors like ,lifts scalolar 5. Swimming pool. a)

Types of HVAC system 1. Window A/C

2. Split A/C

3.VRV or VRF system

Types of HVAC system 4. Package A/C

5. Central A/C – VAV system

6. Chilled water system

Plumbing system 1. Water supply

2. Central hot water system

3. Drainage system

Plumbing system  Fire fighting system

 Duty and stand by pumps

Plumbing system Lift :  The installation works of lift etc is done by separate contractor know as lift contractor  The elect.engineer has to provide a D/S inside the lift room for supply to the lift system  Summing pool : are usually done by separate contractor knows as swimming pool contractor .  Sometimes the elec. Engineer has to supply electricity to under water lights which is done at voltage not greater than 30 v a.c the lights shall be provide with 10ma RCD.

Panel board  An enclosure with protection devices such as C.B and RCD knows as panel board .  Ex : DB – SMDB – MCC – MDB (All are panel board)  Switch gear : a panel board including instruments is knows as switch gear.  Ex : MDB – MCC

MCC (motor control center )  MCC is a panel board to which major mechanical motors or loads are connected.  MCC has measuring indicating remote start indicates.  Ex : MCC panel has ammeter voltmeter frequency meter power factor meter , phase indicators motor run off trip indicating lamps auto , manual selector switch CB and motor starters with remote terminal blocks.

Panel board The panel board and switch gear (DB- SMDB – MDB – MCC ) are manufactured in separate factories knows as switch gear manufacturing company and these panel boards are delivered at site for installation Well – know switch gear companys : 1. ABB 2. Schneider electric 3. Mitsubishi 4. Merlin gerin 5. Siemens 6. L&T

Bus duct system  Note : bus duct has a housing with bus bar insulated , bus bar is used

to carry current of very high ratings , ex : above 600A only  STANDARD BUS DUCT RATING:  600A  800A  1000A  1230A  1500A  2000A  2500A  3000A  3500A  Bus way or bus duct riser : is used for power distribution inside the high building for each house

IP PROTECTION  IP →Ingress Protection or International Protection IP is the number assigned to the electrical equipment and motors installed outside the building or in wall areas to protection from water and dust and object No 0 1 2 3 4 5 6 7 8

Protection form object and Protection form water dust Not protect Not protect Hand protect Vertical water Finger protect 15º Tool protect 60º Wire protect Splashing of water Dust protect Low jets of water Complete protect High jets of water Immession Complete submersible

TRANSFORMES  Types of transformer 1. steps up transformer 2. step down transformer

Types base on phase system  single phase  three phase Types of transformer base on poling  oil cooled transformer  air cooled transformer

TRANSFORMES  Note: for indoor transformer use air cooled transformer for outdoor transformer use oil cooled transformer in gulf countries the transformer are indoor type

installed in separate room ex substation room or transformer room  oil cooled transformer are not referred inside the building .  air cooled transformer are used inside building  unit of transformer is KVA

TRANSFORMES

 STANDARD RATING OF TRANSFORMER 1) 50 KVA 2) 60KVA 3) 80KVA 4) 100KVA 5) 150KVA 6) 250KVA 7) 315KVA 8) 500KVA 9) 630KVA 10) 800KVA 11) 1000KVA 12) 1500KVA 13) 2000KVA 14) 2500KVA 15) 3000KVA 16) 3500KVA

TRANSFORMES  Need of transformer Gulf countries Transformer is not require for building whose total max demand less than 400kva If the total max demand is greater than 400kVA then we require transformer Max permit transformer size 2500kVA Sometimes is 3000kVA

TRANSFORMES  Steps to calculate the transformer size :

1.Consider Total max demand of MDB = KW 2.Total max demand of MDB in KVA = KW/cosø = KVA 3.Add 10% as future load Total max demand with future load in KVA = kVA ×1.10 4. Transformer size = Total max demand with future load in KVA Transformer load (90%)

Then select the standard size

TRANSFORMES  Ex : calculate the Transformer size for project inside whose max demand is

100kw  Solution : Total max demand of MDB = 100 KW 1.Total max demand of MDB in KVA = KW/cosø = 100/0.8=125KVA 2. Add 10% as future load 3. Total max demand with future load in KVA =125 kVA ×1.10=137.5KVA 4. Transformer size = Total max demand with future load in KVA Transformer load (90%) = 137.5Kva/.90 = 157.7Kva  Standard T/F size = 250KVA / oil cooled  11kv/440v / outdoor T/F  Y/▲ / z% = 5%  3ø, 4 wires 50 Hz

Capacitor bank  Types of load:

1.Resistive load: current is in phase with voltage 2.Inductive load: current lags voltage 3.Capacitive load: current leads voltage  Phase angle: angle between voltage and current  Note: All loads in our daily life are resistive – inductive loads, ex (tube light,bulb, motor and pumps ,w/h, w/m , r/c). Hence capacitor bank are required which are connected to MDB ,which improves the over all power factor of the system .  Sudan PF = 0.80 (low PF)  Final PF = .98 or .96 (improve p.f)

Capacitor bank Note  Capacitor bank is not require for single phase equipment or for

small project  Capacitor bank required for project involving three phase equipment or here phase motors or MCC panels and this capacitor bank is connected to MDB.  Unity of capacitor bank: KVAR (Kilo – Volt – Ampere – Reactive)

Formula to calculate capacitor bank:     

Capacitor bank (KVAR) Max demand of MDB in KW {tan(cos-¹ø1) – tan (cos-¹ø2)} Where Ø1 → initial power factor = 0.8 Ø2 → final power factor = 0.98

Capacitor bank standard capacitor bank  Types of capacitor bank:

1.Fixed capacitor bank 2.APFC (Automatic Power Factor Corrector)  APFC: in this types the capacitor are automatic , they become on and off depending on the load  Ex: If full load then all capacitor are on If half load then few capacitor are on If no load then very few capacitor on

EMERGENCY BACK UP SYSTEM  UPS / Inverter

(Un interrupted Power Supply)

 DG (Disel Generator )

or stand by generator

UPS / Inverter  UPS →Un interrupted Power Supply  UPS is used for back up of electronic equipment

,ex(computer, CCTV)  Inverter is used for back up of electrical and

electronic equipments  Ex → electrical (fans – lights w/m )  Ex → electronic (computer – CCTV )  Unit of UPS/Inverter → KVA (Kilo – Volt – Ampere )

UPS / Inverter Standard of UPS /Inverter Step to calculate UPS/inverter size:

1.Calculate the total load in KW 2.Calculate the total load in KVA 3. UPS/Inverter size = total load in KVA UPS/Inverter loading = total load in KVA 0.80 (80% or 85% loading) 4. select the standard size

UPS / Inverter  Wattages of load: 1. Tube lights = 40 w 2. Ceiling fans = 80 w 3. Computer (a)CRT computer = 300 w (b)LCD computer = 200 w (c)LED computer = 160 w 4. printer = 200 w 5. router = 50 w 6. (6) EPBAX = 50 w 7. (7) CCTV = 50 w

Diesel generator The diesel generator can be connected in two methods

1.C.O.S (Change Over Switch ) manually operated switching 2. A.T.S (Auto Transformer Switch ) automatic switching Units of generator → KVA

Diesel generator Standard generator size Step to calculate generator size:

1. Calculate the total load in kw = (SMDB Comm) 2. Total load in KVA = kw /cosø = KVA 3. Generator size = = total load in KVA generator loading (0.80) 4. Select the standard generator size

Electrical instruments (testing and commission): 1. Voltmeter 2. Ammeter 3. Energy meter or Kwh meter 4. P.F meter 5. Frequency 6. Phase indicators 7. Multi meter

Earthing and lighting protection system  Earthing : connection of wire to the ground is knows as

earthing  Types of earthing conductor: 1.Earth continuity conductor (ECC) or protection earth conductor 2.Main earth conductor 3.Equipment bonding conductor 1.Earth continuity conductor (ECC) or protection earth conductor:  The earth wire passing to final loads and DB to SMDB or MDB is knows as ECC. 2.Main earth conductor:  The earth wire connected to ground is knows as main earth conductor usually it is connected to MDB.

Earthing and lighting protection system 3.Equipmential bonding conductor:  Every metallic part in the electrical installation shall be connected to ground (earth)  Types of earth pits: 1.Pipe earthing 2.Electrode earthing 3.Plate earthing

Lighting protection system  lighting protection system is building above 15 meter  lighting system:  lamp → any device which gives light is knows as lamp  types of lamp:

1.Incandescent lamps

2.Fluorescent lamps a) CFL (compact Fluorescent lamps) b)tube

Types of lamp 3.Mercury vapor lamps 4.Metal halide lamps

5.HPS(High Pressure Sodium)

6.Halogen lamps

Types of lamp Note:  Incandescent lamps are not recommended as their efficiency is very low (high input current , low output current  For indoor purpose the best lamps are fluorescent lampsas their efficiency is very good (less input current or power high out put light  The M.V lamps and metal ,HPS lamps are preferred for out door street light. Lamp input: is measured in watts  Ex : tube light(40w,36w) or CFL (24w , 36w) Lamp output: lamp output is measured in lumens .

Luminaire or lighting fixture  Lamp fixed on a frame or reflectors is knows as luminaire Illumination:

The lumen output of any luminaire falling on asq.meter room area is knows as illumination  It is measured is 1.Lux (Lx) if the room dimensions are in meter 2.Foot candle (F.C) if the room dimension are in feets Relation between LUX and F.C: 1 LUX = 0.1 F.C 1F.C = 10 LUX

Recommended lux level for different rooms by IENSNA  IENSNA: Illumination Engineer Society North America     

Bedroom = 50 lux = 5 FC Hall = 150 lux = 15 FC Kitchen = 300 lux = 30 FC Bathroom =100 lux = 10 FC Coefficient of utilization (Cu): The Cu depends on the reflection factors of ceiling wall and floor colors . also it depends on the work plane height Note:  for manual calculation consider cu= 0.45%

Lamp lumen factor (LLF)  Lamp lumen factor (LLF) or lumen loss factor(LLF)

or maintenance factor (MF):  Ex : tube light (40 w)  Today → 2450 lumens  After 3 years→ less than 2450 lumens  The LLF depends on cleaning of luminaire Note  For manual calculation for 3 years maintence consider LLF= 0.67

Formula  Formula to calculate no.of luminaire in room: No.of luminaires = illumination (lux or FC)× room area ( No .of lamps /luminaire )×(luminaire×cu×LLF)

 Cu = .45  LLF = 0.67

Arrangement of luminaire: (x=2x)  X → distance from wall to luminaire  2X→distance between luminaire to luminaire