Project Technical Specification

 

1.  Studio City

CABLE INSTALLATION

(a) General Requirement

This section of the specification covers the general requirements for the supply, installation, testing and

commissioning of all cables that are required for the complete installation of the electrical system.

All the power cables and busducts involved in this Sub-contract shall be of copper conductor which are shown on

the drawings and This Sub-contractor shall provide all the necessary cable trays, conduits, supports, glands,

shrouds, end boxes, clamps, compounds, specialist tools, etc., necessary to install, terminate and connect the

cables in accordance with good engineering practice.

All cables shall be provided with identification labels at each end.

Where multi-core cables are for indication, protection and control applications, each core shall have an

identification number and This Sub-contractor shall in addition to the cable identification labels provide engraved

ferrules over the cable tails. The ferrules shall be numbered according to a wiring diagram approved by the

Engineer. All wires shall be terminated with an approved type of clamp connector.

Cables running horizontally at high level shall be supported by perforated cable trays unless otherwise

specified.

The tray design and strength and/or the tray supports shall be spaced at such intervals, to ensure that tray sag

is not noticeable when installed with all cables.

Where cables are clipped to wall or ceiling, they shall be secured by means of space saddles at centres. The

space saddles shall be of the galvanised steel deep spacer type fixed to the surface by means of "rawlplugs" or

other equal method. Each cable shall be fixed by a saddles fixed to bases by two cadmium plated fixing screws.

This Sub-contractor shall be responsible for the off loading and handling of the cables on site and shall ensure

that cables are new and delivered to site on new drum and properly protected against mechanical damage and

loss with manufacturer's seals still intact.

(b) M.I.C.C. & S. Cables

Mineral insulated copper conductor, copper sheathed and PVC sheathed cable (M.I.C.C. & S.) shall be provided

for the installation in accordance with the drawings.

M.I.C.C. & S. cables shall be installed in accordance with the requirements of the latest edition of the I.E.E.

Regulations. Proper tools shall be employed as recommended by the manufacturer during the installation work.

M.I.C.C. and cable accessories shall comply with BS EN 60702 and shall be light duty type 600V grade for lighting

and small power outlets and heavy duty type 1000V grade for power supplied to equipment.

Cable terminations, etc., shall be made by means of cold compound screw-on pot-type seals and in conjunction

with compression ring type universal glands. Brass locknuts with serrated washers shall be used. For

termination of single core cables, a piece of nonferrous plate must be used. Screw on cable lugs shall be

provided for the cable connections. All cable glands shall be covered with PVC shroud.

Jointing of M.I.C.C. & S. cables shall not be allowed unless authorised by the Engineer in writing. Proper jointing

material shall be used as recommended by the manufacturer when jointing is allowed.

All joints and termination joints shall be of approved manufacture and carried out strictly in accordance with the

manufacturer's recommendations.

Where M.I.C.C. & S. cables are fixed directly to the structure, This Sub-contractor shall provide PVC covered

metal space saddles. Multiple runs shall be limited to a maximum of four cables. Brass round head screws with

minimum length of 25mm and of suitable size shall be used. PVC served space saddles securing single cables

shall be of one fixing screw pattern. Two screw patterns shall be used for multiple cable runs. Spacing of cable

saddle fixings shall be of manufacturer's recommendation.

Multiple cable runs (exceeding four cables) shall be supported with PVC strips secured to perforated cable tray.

This Sub-contractor shall keep all cables entirely separate from pipework associated with other services. No

direct contact shall be permitted between the cables and such pipes.

This Sub-contractor shall satisfy the Engineer that all labour employed in the installation of M.I.C.C. & S. cables

shall be competent and have been properly trained in the methods of installation as recommended by the cable

manufacturers.

Final cable termination to the motor or equipment shall be coiled in order to avoid excessive vibration being

transmitted to the cable termination.

All cables shall be properly run and arranged to reduce the eddy currents to a minimum in the circuits.

(c) PVC/PVC Cable

PVC insulated PVC sheathed copper cables (PVC/PVC) shall be of single core or multicore with full neutral and

shall be 600V/1000V grade complying with B.S. 6346. The cores of these cables shall be high annealed copper

conductors complying with B.S. 6360.

The PVC insulated cores shall be colour coded and shall be sheathed with PVC.

The minimum bending radius shall be not less than eight times the overall cable diameter.

Where cables run horizontally, they shall be properly supported on perforated cable trays and cleated at

intervals of not exceeding 2m directly on the tray. Where cables are installed vertically, they shall be cleated at

distances not exceeding 1m.

(d) XLPE/SWA/PVC Copper Cable

600/1000V cross-linked polyethylene (XLPE) insulated, PVC sheathed copper cables with armour, single-core,

two-core, three-core or four-core, suitable for conductor operating temperature not exceeding 90°C – IEC

60502-1.

Conductors of power cables shall be of high-conductivity copper and all meet the requirements of IEC 60228 and

IEC 60228A. Copper conductors shall be circular stranded. The neutral conductor shall not be less than that of

the phase conductors, unless otherwise specified.

The armour shall be of galvanised steel single with for multi-core cables. Single core cables shall be provided

with non-ferrous sheathing and shall be without steel armour. The armour of the cable shall be covered with

extruded PVC oversheath.

Cables shall be terminated in a gland fitted with an armour clamp. The gland body shall be provided with an

internal conical seating to receive the armour clamping cone and a clamping nut which shall secure the armour

clamping cone firmly to the armour wires, ensuring that the armour wires shall be tightly clamped between the

armour cone and conical armour seating. The spigot on the gland body shall be threaded to suit standard

conduit accessories. A PVC shroud shall be fitted to cover the entire gland body.

The minimum bending radius shall be not less than eight times the overall cable diameter.

Where cables run horizontally, they shall be properly supported on perforated cable trays and cleated at

intervals of not exceeding 2m directly to the tray. Where cables are installed vertically, they shall be cleated at

distance not exceeding 1m.

(e) PVC Copper Cables

The cables shall consist of copper conductors insulated with PVC complying to B.S. 6004. Cables for three phase

and single phase circuits shall be 450V/750V grade.

The cables shall be enclosed in PVC conduits. Joints or connectors shall not be allowed in any such cable length,

except that connectors may be used in accessible positions within fittings.

Only cables of the same circuit shall be accommodated in a single conduit in accordance with the DSSOPT

regulations.

For copper cables terminations, compression type cable connectors/lugs shall be used for all switchgears over

and equal to 160A, all MCCB units, main gas/water bondings and all equipotential bondings. If for any practical

reason different termination method is used, prior endorsement must be obtained from the Engineer.

Connections to fixed electrical equipment shall be by means of PVC cables in conduits, with the final connection

being made by PVC pliable conduit, and suitable adapter. In fire-protective area, club house or the area

requested by F.S.D., metallic flexible conduit shall be used instead of PVC pliable conduit. A separate PVC copper

cable earth continuity conductor in accordance with I.E.E. Regulations and B.S. 6004 of not less than 2.5mm2

shall be provided outside the flexible tube and solidly connected at each tube termination.

(f) XLPE/PVC Copper Cable

XLPE insulated PVC sheathed copper cables (XLPE/PVC) shall be of single core or multi-core with full neutral and

shall be 600/1000V grade complying with BS 5467. The cores of these cables shall be high annealed copper

conductors complying with BS EN 60228BS 6360.

The XLPE insulation shall be able to operate continuously at a conductor temperature of 90oC.

The minimum bending radius shall be not less than eight times the overall cable diameter.

Where cables run horizontally, they shall be properly supported on perforated cable trays and cleated at

intervals of not exceeding 2m directly on the tray. Where cables are installed vertically, they shall be cleated at

distances not exceeding 1m.

(g) XLPE/PVC cable with Branchmatic XLPE/PVC Copper Cable

The specification or this type of cable shall be the same as the XLPE/PVC copper cable plus the following

particular requirement.

The cable T-off/joint shall be factory prefabricated. Injection mould shall be adopted for insulating the branch off

portion. Factory test shall be carried out regarding the connection between the main feeder and branch off

portion, and the water tightness of the PVC moulding. Type test certificates to verify the short time rating and

short-circuit withstanding capacity of the cable joint to be not less than that of the main cable riser shall be

submitted for Project Manager’s approval.

(h) Flexible Cords

Flexible cords shall be PVC sheathed with copper conductors of 300V/500V grade to B.S. 6500. Minimum size of

cord shall be 1.5mm2.

(i) Fire Resistant Power Cables

The fire resistance cables shall be low smoke and zero halogen compound outer sheathed overall and rated at

600/1000V complying with BS 6387 and shall be able to carry the rated current at rated voltage under fire

condition.

The cable shall be of F.S.D./F.O.C. approved type and relevant certificate shall be submitted by This Sub-

contractor to the Project Manager for approval.

The cable shall be flame-retardant to BS 4066 Part 1 and reduced flame propagation to BS EN 50266.

(j) 11kV Cable (Not applicable)

11kV cross-linked polyethylene (XLPE) insulated, PVC sheathed copper cables with armour, three-core, suitable

for conductor operating temperature not exceeding 90°C, manufactured to IEC 502.

Copper conductors shall be circular stranded.

The armour shall be of galvanised steel single with for multi-core cables. The armour of the cable shall be

covered with extruded PVC oversheath.

The minimum bending radius shall be not less than twelve times the overall cable diameter.

Where cables run horizontally, they shall be properly supported on perforated cable trays and cleated at

intervals of not exceeding 2m directly to the tray. Where cables are installed vertically, they shall be cleated at

distance not exceeding 1m.

D4. CABLE TRAY

(a) Cable trays shall be of a perforated pattern formed from minimum 1.2mm thick minimum plain steel sheet and

galvanized overall. Cable trays shall be galvanized after perforation.

(b) Cable tray shall be provided with returned edges.

(c) Trays shall be supported from the soffit of structural slabs and beams by mild steel rods not less than 6mm

dia. and/or mild steel underslung angle brackets fixed on side wall. A sample of the supporting bracket shall be

submitted for approval.

(d) Tray supports shall be spaced according to the number and size of cables being carried on the tray, but

nowhere shall they be at greater than 1.2m intervals.

(e) Cables mounted on the trays shall be laid after installation of the tray and spaced in accordance with the

I.E.E. Regulations to avoid derating of the cables. Cables shall be grouped in circuits and individually clipped,

cleated or tied at intervals of not less than 2m lengths on horizontal runs and 1m lengths on vertical runs, using

PVC strip or equal and approved fixing. Single core cables shall however be fixed non-ferrous materials.

(f) Notwithstanding the minimum gauge of metalwork specified, gauges shall be of sufficient strength to prevent

sagging between supports.

(g) Cables leaving cable trays shall be installed properly without damage to cables by cutting edges of trays and

rubber pads shall be inserted to underside of cables.

(h) Site fabricated fittings and manufacturer’s standard fittings are both accepted. The sample of site fabricated

fittings shall be submitted for approval. Cable trays shall be supported at either sides of junction.

(i) Where trays are exposed to the weather, they shall be coated with epoxy resin before painting. PVC coating

is not acceptable.