Chapter 5

CIRCUIT ARRANGEMENT(Note: All the mentioned tables in this course refer to, unless otherwise specified, Low Voltage Electrical Installation Handbook, by Johnny C.F. Wong, Edition 2004) Chapter 5

Introduction • Every installation shall be divided into circuits to • avoid danger in case of fault • facilitate safe operation, inspection, testing and maintenance • Examples • at least 2 lighting circuits should be provided • separate final circuits shall be provided for lighting and power • exclusive final circuits for fixed appliances in kitchen • 1Ф loads should be evenly and reasonably distributed among the phases

Circuit Segregation • Categories of Circuits • Category 1: A low voltage circuit (exclude cat. 3 cct) • Category 2: An extra-low voltage circuit (exclude cat. 3 cct) • Category 3: A circuit for emergency or fire services (exclude that for self-contained battery luminaires) • Category 4: A high voltage circuit • Circuit Segregation • Circuits having different insulation voltages and for different purposes shall be segregated from one another to prevent danger and electrical interference.

Control & Protection of Circuits • Every circuit shall be provided with: • means of interrupting the supply on load • means of isolation for electrical servicing and testing without affecting other circuits • means of interrupting the supply in any fault conditions

Control & Protection of Circuits

Final Circuit • Final circuits are generally divided in the following • Conventional socket outlet final circuits • Conventional cooker final circuits in household premises • Lighting and small appliance final circuits • Large power final circuits

Socket Outlet Final Circuits

Final Circuit feeding Socket Outlets to BS546 • Refer to Fig. 5.4, 5.5 & 5.6

Final Circuits feeding Socket Outlets to BS1363 • Refer to Fig. 5.7, 5.8, 5.9 & 5.10

BS1363 Ring Circuit

BS1363 Radial Circuit

Final Circuits feeding Socket Outlets to BS196 • Not popular in Hong Kong

Final Circuit feeding Socket Outlets to BSEN 60309-2/ IEC 60309-2

Final Circuit feeding Socket Outlets to BSEN 60309-2 / IEC 60309-2 • Refer to Fig. 5.16 & 5.17 for details. 16A Socket >= 32A Socket

Cooker Final Circuits in Household Premises • Separate circuits should be used for supply to electrical equipment in kitchen other than luminaires. • Every cooking appliance with more than one boiling or cooking surfaces and with total current rating > 15A should be fed from exclusive radial final circuit and controlled by a double-pole switch within 2m from the appliance.

Cooker Final Circuits in Household Premises

Lighting & Small Appliance Final Circuits • Lighting and small appliance can share the same final circuit • General light switches controlling discharge lighting circuits should have a nominal rating ≥ 2 times the total steady current • Switches specifically intended for a.c. inductive circuits or fluorescent lamp circuits are marked with an ‘X’, e.g. 10AX

Lighting & Small Appliance Final Circuits

Large Power Final Circuits • For a single-phase circuit exceeding 15A, an separate radial final circuit should be used and should be controlled by a double-pole switch in a readily accessible position near the appliance • Each fixed equipment, except for fixed lightings, shall be connected permanently to an exclusive radial final circuit controlled by a switch placed in a readily accessible position

Large Power Final Circuits Large power final circuit

Other Final Circuit Requirements • Transformers • Equipment in bathrooms • Air-conditioners and space-heaters • Electric heaters/boilers for liquids or other substances • Fluorescent and gas discharge lamps

Transformers • When an auto-transformer is connected to a circuit having a neutral conductor, the common terminal of the winding should be connected to the neutral conductor • Where a step-up transformer is used, a linked switch should be provided for disconnecting the transformer from all live conductors (i.e. phase and neutral conductors) of the supply

Transformers

Equipment in Bathrooms • This part will be covered in the topic ‘ Protection against Electric Shock’

Air-conditioners and Space-heaters • Each air-conditioner or space heater of any rating shall be fed by a separate radial final circuit • If the circuit exceeds 15A, 1-phase, then double pole switch is required

Air-conditioners and Space-heaters

Electric heaters/boilers for liquids or other substances • All metal parts (other than current-carrying parts) which are in contact with water shall be solidly connected to a metal supply water-pipe which in turn is connected to the main earthing terminal by separate cpc • Double pole switch must be used

Fluorescent and gas discharge lamps • Without exact information, the demand in VA is taken as the rated lamp watts multiplied by 1.8

Minimum fire resisting cable requirements for fire services installation • Should follow and comply requirements laid down in FSD’s CoP and Circular Letters • For selection of appropriate types of cable, refer to Circular Letter No. 1/2003

Neutral Conductor • The wiring of each final circuit shall be electrically separate from that of every other final circuit, to prevent indirect energisation of the final circuit to be isolated • The neutral conductor of a 1-phase circuit shall not be shared with any other circuit • For a 3-phase 4-wire circuit, the neutral conductor shall only be shared with its related phases

Neutral ConductorAn Lighting Track Example

Cables in Parallel • Need for connecting cables in parallel • Less cost • Smaller bending radius • Even the largest cable has limited CCC • Cables in parallel should be • of same construction • have the same material & cross-sectional area • of approximately the same length • have no branch circuits throughout their length

Chapter 5

Chapter 5

Presentation Transcript

Chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5 5

chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5

CHAPTER 5

Chapter 5

CHAPTER 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5