AIR CONDITIONING...TOSHIBA AIR CONDITIONING TOSHIBA Super Modular Multi System Heatpump Standard Specification MMY-AP4014HT8P-E 40 112.0 3 (16+12+12) 9 MMY-AP4214HT8P-E 42 118 3 (16+14+12)

TOSHIBA

AIR CONDITIONING

TOSHIBA Super Modular Multi System Heatpump Standard Specification

Introduction

The following specification describes the Toshiba 2-Pipe Heat pump Super Modular Multi

System ‘I’ (SMMSi) air conditioning system(s) to be installed at the below site:

(ADD SITE NAME)

The system(s) shall consist of the following components. It shall be the responsibility of the

nominated installer to supply and install these system components in accordance with Toshiba

Installation Guidelines.

1) Toshiba Super Modular Multi external air cooled condensing unit(s)

2) Toshiba Super Modular Multi compatible type indoor units

3) Interconnecting U1 & U2 control wiring from Outdoor Unit(s) to Indoor Units

4) Interconnecting U5 & U6 control wiring between Outdoor Units (if required)

5) Toshiba TCC Link Integrated Controls

6) Interconnecting refrigerant pipework from Outdoor Units to Indoor Units using Toshiba

Y-Branch Kits/Header Kits/Tee-Piece Kits.

System Operating Range

Mode of operation Cooling Heating

Max. Outdoor Air Temperature 0C db 43 21

Min. Outdoor Air Temperature 0C db -5 -15

Max. Indoor Air Temperature 0C db - 29

0C wb 28 -

Min. Indoor Air Temperature 0C db - 4

0C wb 15 -

Maximum indoor Humidity % RH 80

System Description

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AIR CONDITIONING


The installation shall provide an energy efficient R410A Variable Refrigerant Flow (VRF)

comfort air conditioning system(s) to the designated area(s)/Zone(s) as per the (insert either

equipment schedules, drawings, schematics etc) attached, utilising Toshiba 2-Pipe Super

Modular Multi system(s) and shall be installed in accordance with relevant codes of practice

and regulations.

The system(s) shall comprise of Toshiba 2-Pipe Heatpump Super Modular Multi outdoor

units connected to indoor fan coil units, via the most appropriate and cost efficient

combination of Y-Branch Kits/Header Kits/Tee-Piece Kits.

The system(s) shall be controlled with Toshiba’s TCC-Link controls system selected in

accordance with the specific control requirements detailed below:

(Insert controls requirements)

The total refrigerant pipework circuit can be a maximum linear distance of 150m between the

outdoor and the furthest heat pump indoor unit and incorporate a height difference of: -

50m - indoor unit below outdoor unit

40m - indoor unit above outdoor unit

The maximum elevation between the highest and lowest indoor units shall not exceed 30m, in

accordance with Toshiba Installation Guidelines. It shall not be necessary to include oil traps,

sight glasses, or external driers in any of the pipework.

It is recommended that the air conditioning installing contractor is a Refcom Certified Toshiba

Additions Member. Full details on our website: www.toshiba-aircon.co.uk. Customer Support.

DELETE WARRANTIES THAT DO NOT APPLY

All equipment supplied shall have a manufacturer’s warranty of at least 3-years on all parts

and labour in accordance with Toshiba’s warranty and installation guidelines. Equipment to

be installed by a Toshiba “Registered” installer or “Qualified or Accredited”

All equipment supplied shall have a manufacturer’s warranty of 5-years on all parts and

labour in accordance with Toshiba’s warranty and installation guidelines. Equipment to be

installed by a Toshiba Qualified or Accredited installer.

All equipment supplied shall have a manufacturer’s 7 year “Total Peace of Mind” (TPM)

warranty on all parts and labour in accordance with Toshiba’s warranty and installation

guidelines. Equipment to be installed by a Toshiba Accredited (TPM) installer.

Design Criteria

The air conditioning system(s) shall be designed and equipment selected to conform to the

following design criteria:

Internal Conditions

Summer 23°C db, 50% RH

Winter 22°C db

http://www.toshiba-aircon.co.uk/

TOSHIBA

AIR CONDITIONING


External Conditions

Summer 30°C db, 21.5°C wb

Winter -3°C db

System Specification

The system(s) shall be VRF 2-Pipe Heatpump Super Modular Multi and multiple indoor units

to provide heating & cooling. The system will use non-ozone depleting HFC refrigerant

R410A and be able to run with a minimum indoor cooling demand of 2.2 kW.

The air conditioning system must automatically adapt to the number of fan coil units turned

on by the room tenants. The system shall allow a user-driven operating environment to be

established where users can directly request their own choice of temperature and on/off

control etc.

The equipment must be suitable for operating on a 220-240 volt, single-phase, 50Hz supply

for indoor units and a 380-415 volt, three-phase, 50Hz supply for the outdoor units.

Outdoor Unit(s)

Toshiba Model References: - Standard Combinations

SMMSi - MMY-MAP0804HT8P-E, MMY-MAP1004HT8P-E, MMY-MAP1204HT8P-E,

MMY-MAP1404HT8P-E, MMY-MAP1604HT8P-E

Outdoor Unit(s)

Outdoor Unit(s)

Hp kW No. Of Outdoor

Modules

No. Of Inverter

Compressors

MMY-MAP0804HT8P-E 08 22.4 1 2

MMY-MAP1004HT8P-E 10 28.0 1 2

MMY-MAP1204HT8P-E 12 33.5 1 3

MMY-MAP1404HT8P-E 14 40.0 1 3

MMY-MAP1604HT8P-E 16 45.0 1 3

MMY-AP1814HT8P-E 18 50.4 2 (10+8) 4

MMY-AP2014HT8P-E 20 56.0 2 (10+10) 4

MMY-AP2214HT8P-E 22 61.5 2 (12+10) 5

MMY-AP2414HT8P-E 24 68.0 2 (12+12) 6

MMY-AP2614HT8P-E 26 73.0 2 (16+10) 6

MMY-AP2814HT8P-E 28 78.5 2 (16+12) 6

MMY-AP3014HT8P-E 30 85.0 2 (16+14) 6

MMY-AP3214HT8P-E 32 90.0 2 (16+16) 6

MMY-AP3414HT8P-E 34 96.0 3 (12+12+10) 8

MMY-AP3614HT8P-E 36 101.0 3 (12+12+12) 9

MMY-AP3814HT8P-E 38 106.5 3 (16+12+10) 9

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MMY-AP4014HT8P-E 40 112.0 3 (16+12+12) 9

MMY-AP4214HT8P-E 42 118 3 (16+14+12) 9

MMY-AP4414HT8P-E 44 123.5 3 (16+14+14) 9

MMY-AP4614HT8P-E 46 130.0 3 (16+16+14) 9

MMY-AP4814HT8P-E 48 135.0 3 (16+16+16) 9

The systems shall have minimum energy efficiency in heating and cooling as detailed below.

Outdoor Unit(s)

SEER ESEER SCOP ESCOP

MMY-MAP0804HT8P-E 7.3 7.68 5.84 6.08

MMY-MAP1004HT8P-E 6.65 6.99 5.43 5.65

MMY-MAP1204HT8P-E 6.37 6.71 4.88 5.09

MMY-MAP1404HT8P-E 6.51 6.88 5.18 5.39

MMY-MAP1604HT8P-E 6.39 6.78 4.86 5.09

MMY-AP1814HT8P-E 6.91 7.26 5.59 5.81

MMY-AP2014HT8P-E 6.65 6.99 5.41 5.63

MMY-AP2214HT8P-E 6.48 6.83 5.08 5.29

MMY-AP2414HT8P-E 6.28 6.62 4.79 5.0

MMY-AP2614HT8P-E 6.39 6.75 4.98 5.2

MMY-AP2814HT8P-E 6.35 6.71 4.82 5.03

MMY-AP3014HT8P-E 6.45 6.82 4.98 5.2

MMY-AP3214HT8P-E 6.41 6.79 4.86 5.08

MMY-AP3414HT8P-E 6.37 6.71 4.94 5.15

MMY-AP3614HT8P-E 6.33 6.68 4.84 5.05

MMY-AP3814HT8P-E 6.39 6.74 4.94 5.16

MMY-AP4014HT8P-E 6.35 6.7 4.81 5.02

MMY-AP4214HT8P-E 6.43 6.79 4.93 5.15

MMY-AP4414HT8P-E 6.37 6.74 4.82 5.04

MMY-AP4614HT8P-E 6.43 6.81 5.03 5.26

MMY-AP4814HT8P-E 6.32 6.69 4.86 5.08

Toshiba Model References: - High Efficiency Combinations

Outdoor Unit(s)

Outdoor Unit(s)

Hp kW No. Of Outdoor

Modules

No. Of Inverter

Compressors

MMY-AP1624HT8P-E 16 45.0 2(8+8) 4

MMY-AP2424HT8P-E 24 68.0 3(8+8+8) 6

MMY-AP2624HT8P-E 26 73.0 3(10+8+8) 6

MMY-AP2824HT8P-E 28 78.5 3(10+10+8) 6

MMY-AP3024HT8P-E 30 85.0 3(10+10+10) 6

MMY-AP3224HT8P-E 32 90.0 4(8+8+8+8) 8

MMY-AP3424HT8P-E 34 96.0 4(10+8+8+8) 8

MMY-AP3624HT8P-E 36 101.0 4(10+10+8+8) 8

MMY-AP3824HT8P-E 38 106.5 4(10+10+10+8) 8

MMY-AP4024HT8P-E 40 112.0 4(10+10+10+10) 8

MMY-AP4224HT8P-E 42 118 4(12+10+10+10) 9

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AIR CONDITIONING


MMY-AP4424HT8P-E 44 123.5 4(12+12+10+10) 9

MMY-AP4624HT8P-E 46 130.0 4(12+12+12+10) 9

MMY-AP4824HT8P-E 48 135.0 4(12+12+12+12) 9

The systems shall have minimum energy efficiency in heating and cooling as detailed below.

Outdoor Unit(s)

SEER ESEER SCOP ESCOP

MMY-AP1624HT8P-E 0.64 0.28 5.84 6.07

MMY-AP2424HT8P-E 0.58 0.22 5.75 5.99

MMY-AP2624HT8P-E 0.56 0.21 5.67 5.9

MMY-AP2824HT8P-E 0.54 0.2 5.53 5.75

MMY-AP3024HT8P-E 6.21 6.49 5.4 5.62

MMY-AP3224HT8P-E 0.56 0.2 5.83 6.06

MMY-AP3424HT8P-E 0.54 0.19 5.64 5.87

MMY-AP3624HT8P-E 0.53 0.18 5.6 5.82

MMY-AP3824HT8P-E 0.51 0.17 5.5 5.73

MMY-AP4024HT8P-E 0.5 0.17 5.39 5.61

MMY-AP4224HT8P-E 0.49 0.16 5.24 5.46

MMY-AP4424HT8P-E 0.48 0.16 5.13 5.35

MMY-AP4624HT8P-E 0.47 0.15 4.94 5.15

MMY-AP4824HT8P-E 0.46 0.15 4.86 5.06

Each outdoor unit shall be factory assembled, pre-wired, works tested, supplied with a

refrigerant pre-charge and complete with fully sealed pipework connections. The noise level

for each unit shall not be more than 59 dB(A) (for a single condenser) and 65 dB(A) (for the

maximum combination of four condensers) when measured 1m horizontally and 1m above

the base of the unit(s). The access panel shall be easily removable for servicing. The

condensing unit shall be fitted with its own electrical compartment with all necessary

electrical and control components. An oil management system is to be fitted, to allow oil

transfer between connected outdoor units, thereby ensuring that adequate lubrication is

provided to every compressor. Provision must be made to facilitate piping connections to the

front or bottom of the unit. The unit must consist of an individual compressor/condenser

section and condenser fan housed in a sturdy weatherproof casing manufactured from

Galvatite steel plate with a Silky shade (Munsell 1Y8.5/0.5) electrostatic spray finish

protected to IP X4 and shall contain the following components:

Dual & Triple Inverter Driven Twin Rotary Type Compressors

These are to be contained in a single housing with, medium pressure liquid, low-pressure gas

and oil transport connections and crankcase heater. Each compressor shall be of the twin

rotary type, contained in a single housing and driven by a High-Speed Calculation Vector

Control Inverter, creating seamless capacity control from 0.8hp upwards to match the

connected indoor cooling demand. Fixed speed compressors of any type are not to be used.

The compressor shall be mounted on springs and shock-absorbing rubber to minimise

vibration.

Heat Exchangers

Each outdoor unit shall be fitted with a main and a sub heat exchanger. The sub heat

exchanger is to increase efficiency by providing further sub-cooling to the refrigerant, when

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AIR CONDITIONING


appropriate. The two heat exchangers shall be factory constructed of rifled copper tubing,

mechanically bonded to aluminium fins. The aluminium fin material shall be coated with a

hydrophilic coating to prevent corrosion and to assist condensate dispersal. Each coil shall

have a large surface area to minimize noise and maximise heat transfer.

Fan and Motor

The fan shall be a three-blade, flash-wing, low noise type and shall be both dynamically and

statically balanced to produce minimum noise and vibration. The fan shall be directly coupled

and driven by a drip proof, permanently lubricated variable speed high-efficiency inverter

controlled motor. The outdoor fan speed shall be matched automatically to the energy

demands of the heat exchanger. The fan shall have a factory set external static resistance

capability of 15Pa. However, the fan must be able to be boosted by a simple adjustment to the

PCB to overcome a resistance of 35Pa with no loss of performance. A maximum external

static resistance of 45Pa must be achievable with no more than 3% reduction in performance.

Suction Line Accumulator

The cylindrical accumulator shall be fabricated from press formed mild steel plates. The

accumulator shall have sufficient capacity to prevent any liquid refrigerant from flowing back

into the compressor section. The accumulator must be fitted with a heater.

Additional Features & Safety Devices

4-way reversing valve; solenoid valves; pulse motor valves; liquid receiver; strainer; dryer;

service valves with gauge ports; high and low pressure transducers; high pressure switch,

fuses, over current relay; thermal protectors for compressor and fan motor; recycling guard

timer; over-current sensor; compressor suction and discharge temperature sensor and a 3-

phase and neutral isolator protected to IP65 containing mains power input, terminals, internal

wiring and controls.

Indoor Units

Each indoor unit shall be from Toshiba’s R410A VRF range of units and must operate on

220-240 volt, single-phase, 50Hz supply. It must be fully compatible with all TCC-Link

network systems, including a self-diagnostic TCC-Link remote controller or TCC-Link

central controller with LCD to set mode, room temperature, timer, louvre (as applicable), fan

speed and on/off functions. In the event of a fault, a hexadecimal malfunction code will be

displayed.

Each indoor unit address is to be automatically set by the system and retained in memory in

the event of a power failure. An option to manually set the address must also be available.

Electrical isolation of any indoor unit must not affect the operation of the remaining

components in the system.

An auxiliary 12V DC output is to be available using the CN32 connection. This can be used

to operate a ventilation fan via a relay (RBC-SMFI) when the indoor unit is operated.

The heat exchanger shall be factory constructed of rifled copper tubing, mechanically bonded

to aluminium fins. The aluminium fin material shall be coated with a hydrophilic coating to

prevent corrosion and to assist condensate dispersal. The coil shall have a large surface area

to minimize noise and maximise heat transfer. An electronic expansion valve shall be factory

brazed to the inlet of the coil. It shall modulate the refrigerant volume continuously in

response to load variations in the room to maintain a precise constant temperature to within

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+/-0.5°C. A fully insulated condensate drip tray must be fitted, which spans the full width of

the coil connections and complete with a drain connection point.

All indoor units are provided with a return air temperature sensor.

The heat exchanger will be protected against excessive temperatures both low and high.

The evaporator fan shall be of the multi-blade type, performance matched to the coil. The fan

shall be statically and dynamically balanced to ensure low noise and vibration free operation

and be driven by a permanently lubricated motor fitted with maintenance free sealed-for-life

sleeve bearings.

4-Way Cassette

Toshiba Model References:

MMU-AP0094HP-E, MMU-AP0124HP-E, MMU-AP0154HP-E, MMU-AP0184HP-E,

MMU-AP0244HP-E, MMU-AP0274HP-E, MMU-AP0304HP-E, MMU-AP0364HP-E,

MMU-AP0484HP-E, MMU-AP0564HP-E

The unit will be manufactured from galvanised steel sheet, insulated with closed cell

expanded polyurethane foam. Knockouts are to be incorporated into the main chassis of the

unit: One to provide a fresh-air intake facility to allow up to 10% fresh air (un-tempered) to

be introduced into the conditioned space; Three further discharge ports (2 on one side and 1

on the opposite side) are to enable a maximum of 2 spur ducts to be fitted to supply improved

air distribution characteristics in irregular shaped rooms or to provide nominal cooling to

adjacent areas. An integral condensate lift pump is to be provided with a 640mm lift

capability from the drain outlet.

The cassette facia panel is to be manufactured from ABS plastic, finished in Moon White

(Munsell 2.5GY 9.0/0.5) and complete with four synchronised, motor driven, fully adjustable

discharge louvers. The airflow from the unit is to be configurable from the remote controller

to compensate for high ceilings. The central return air grille must be fitted with a washable,

long life air filter. An optional kit shall be made available (ref: TCB-BC1602UE)

incorporating blockers to allow up to two air discharge ports to be closed to create a 2, or 3-

way discharge pattern as required.

An optional infrared remote control kit (ref: RBC-AX32U(W)-E) is to be available.

Compact (600 x 600) 4-Way Cassette


MMU-AP0054MH-E, MMU-AP0074MH-E, MMU-AP0094MH-E, MMU-AP0124MH-E,

MMU-AP0154MH-E,

MMU-AP0184MH-E.




be introduced into the conditioned space; Two further discharge ports (1 on each side) are to

enable a maximum of 2 spur ducts to be fitted to supply improved air distribution

characteristics in irregular shaped rooms or to provide nominal cooling to adjacent areas. An

integral condensate lift pump is to be provided with a 627 mm lift capability from the drain

outlet.

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The cassette fascia panel is to be manufactured from ABS plastic, finished in Moon White

(Munsell 2.5GY 9.0/0.5) and complete with four synchronised, motor driven, fully adjustable

discharge louvres. Each corner of the panel shall be removable to provide access to the drop

rods to enable precise height adjustment. The airflow from the unit is to be configurable from

the remote controller to compensate for high ceilings. The central return air grille must be

fitted with a washable, long life air filter.

An optional infrared remote control kit with inclusive temperature sensor (ref: TCB-AX32E2)

is to be available.

2-Way Cassette


MMU-AP0072WH, MMU-AP0092WH, MMU-AP0122WH, MMU-AP0152WH,

MMU-AP0182WH, MMU-AP0242WH, MMU-AP0272WH, MMU-AP0302WH, MMU-

AP0362WH, MMU-AP0482WH, MMU-AP0562WH.




be introduced into the conditioned space; two further discharge ports (1 on each side) are to

enable a maximum of 2 spur ducts to be fitted to supply improved air distribution

characteristics in irregular shaped rooms or to provide nominal cooling to adjacent areas. An

integral condensate lift pump is to be provided with a 160mm lift capability from the drain

outlet.

The cassette facia panel is to be manufactured from ABS plastic, finished in Light Ivory

(Munsell 10Y 9/0.5) and complete with two synchronised, motor driven, fully adjustable

discharge louvres. The central return air grille must be fitted with a washable, long life air

filter.

1-Way Cassette (Y Series)


MMU-AP0074YH-E, MMU-AP0094YH-E, MMU-AP0124YH-E,


expanded polyurethane foam. An integral condensate lift pump is to be fitted.

The cassette facia panel is to be manufactured from ABS plastic, finished in Silky Shade

(Munsell 1Y8.5/0.5) and complete with a single, motor driven, fully adjustable discharge

louvre. The return air grille must be fitted with a washable, long life air filter.


is to be available.

1-Way Cassette (S Series)

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MMU-AP0154SH-E, MMU-AP0184SH-E, MMU-AP0244SH-E.



unit: One at the rear to provide a fresh-air intake facility to allow up to 10% fresh air (un-

tempered) to be introduced into the conditioned space; One at the front to facilitate a ducted

discharge capability. An integral condensate lift pump is to be provided.

The cassette facia panel is to be manufactured from ABS plastic, finished in Silky Shade

(Munsell 1Y8.5/0.5) and complete with a single, motor driven, fully adjustable discharge

louvre. The return air grille must be fitted with a washable, long life air filter.


is to be available.

Standard Ducted


MMD-AP0076BHP-E, MMD-AP0096BHP-E, MMD-AP0126BHP-E, MMD-AP0156BHP-E,

MMD-AP0186BHP-E, MMD-AP0246BHP-E, MMD-AP0276BHP-E, MMD-AP0306BHP-E,

MMD-AP0366BHP-E, MMD-AP0486BHP-E, MMD-AP0566BHP-E.


expanded polyurethane foam. An extra high fan speed setting is to be available, allowing a

maximum external static resistance of 100 Pa to be overcome. The airflow from the unit is to

be configurable from the remote controller to compensate for high ceilings. Air is to return to

the unit at the rear via a washable, long life air filter. A knockout is to be provided to allow up

to 10% fresh air (un-tempered) to be introduced into the conditioned space. An integral

condensate lift pump is to be provided with a 271mm lift capability from the drain outlet.

An optional infrared remote control kit (ref: TCB-AX32E2) is to be available.

Slim Ducted


MMD-AP0054SPH-E, MMD-AP0074SPH-E, MMD-AP0094SPH-E, MMD-AP0124SPH-E,

MMD-AP0154SPH-E,

MMD-AP0184SPH-E, MMD-AP0244SPH-E, MMD-AP0274SPH-E.

The unit must be no more that 210 mm high and manufactured from galvanised steel sheet,

insulated with closed cell expanded polyurethane foam. The DC fan motor will be

configurable, allowing a maximum external static resistance of 50 Pa to be overcome. The

airflow from the unit is to be configurable from the remote controller to compensate for high

ceilings. Air is to return to the unit at the rear via a washable, long life air filter. A knockout is

to be provided to allow up to 10% fresh air (un-tempered) to be introduced into the

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conditioned space. An integral condensate lift pump is to be provided with a 687 mm lift

capability from the drain outlet.

An optional infrared remote control kit (ref: TCB-AX32E2) is to be available.

High Static Ducted


MMD-AP0184H-E, MMD-AP0244H-E, MMD-AP0274H-E, MMD-AP0364H-E, MMD-

AP0484H-E, MMD-AP0724H-E, MMD-AP0964H-E.


expanded polyurethane foam. Each unit is to allow a maximum external static resistance of

196 Pa to be overcome. Air is to return to the unit at the rear.

Ceiling Suspended


MMC-AP0157HP-E, MMC-AP0187HP-E, MMC-AP0247HP-E,

MMC-AP0277HP-E, MMC-AP0367HP-E, MMC-AP0487HP-E, MMC-AP0567HP-E.


expanded polyurethane foam and encased in an ABS plastic shell, finished in White (Munsell

10Y 9.3/0.4). A front mounted, motor driven, fully adjustable louvre is to be fitted to allow air

to be discharged horizontally for maximum cooling. Primary, manually set louvres are to be

incorporated to assist the air spread given by the motorised louvre. Return air is to flow

through washable, long life air filters mounted within the intake grilles on the underside of the

unit. A rear knockout is to be incorporated into the main chassis of the unit to allow up to

10% fresh air (un-tempered) to be introduced into the conditioned space.

An optional infrared remote control kit (ref: RBC-AX33E2) is to be available.

High-Wall


MMK-AP0073H, MMK-AP0093H, MMK-AP0123H,

MMK-AP0153H, MMK-AP0183H, MMK-AP0243H.


expanded polyurethane foam and encased in an ABS plastic shell, finished in Silky Mist

(Munsell IY8.9/0.5). A lower front mounted, motor driven, fully adjustable louvre is to be

fitted. Primary, manually set louvres are to be incorporated to assist the air spread given by

the motorised louvre. Return air is to flow through washable, long life air filters mounted

within the intake grilles on the upper front of the unit.

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Compact High-Wall


MMK-AP0074MH-E, MMK-AP0094MH-E, MMK-AP0124MH-E


expanded polyurethane foam and encased in an ABS plastic shell, finished in Moon White.

A lower front mounted, motor driven, fully adjustable louvre is to be fitted. Primary,

manually set louvres are to be incorporated to assist the air spread given by the motorised

louvre. Return air is to flow through washable, long life air filters mounted within the intake

grilles on the upper front of the unit.

Chassis


MML-AP0074BH-E, MML-AP0094BH-E, MML-AP0124BH-E,

MML-AP0154BH-E, MML-AP0184BH-E, MML-AP0244BH-E.


expanded polyurethane foam and be suitable for concealing behind a facia. It must be

complete with a removable flange plate to allow the option of either top, or front discharge.

Return air is to flow through washable, long life air filters mounted on the underside of the

unit.

Floor Standing


MML-AP0074NH-E, MML-AP0094NH-E, MML-AP0124NH-E,

MML-AP0154NH-E, MML-AP0184NH-E.

The unit will be manufactured from galvanised steel sheet and finished in Silky Shade

(Munsell IY8.5/0.5). A removable discharge grille is to be fitted to allow the option of either

top, or front discharge. Return air is to flow through washable, long life air filters mounted

within the intake grilles on the lower front of the unit.

Cabinet


MMF-AP0154H-E, MMF-AP0184H-E, MMF-AP0244H-E, MMF-AP0274H-E, MMF-

AP0364H-E, MMF-AP0484H-E, MMF-AP0564H-E

The unit will be manufactured from galvanised steel sheet and finished in Silky Shade

(Munsell IY8.5/0.5). Supply air is to be discharged forward at the top of the unit through

motorised louvres. Return air is to flow through washable, long life air filters mounted within

the intake grilles on the lower front of the unit.

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Refrigerant Pipework

All pipework shall be manufactured using de-oxidised, refrigerant quality copper to BS EN

1057:1996, and must be heat-treated as follows:

6.4mm (1/4”) OD to 15.9mm (5/8”) OD - Soft, Half Hard or Hard Tempered

19.1mm (3/4”) OD to 41.3mm (1 5/8”) OD - Half Hard or Hard Tempered

When 15/8” tube is used, it must be 16 gauge.

The length/height difference parameters and outside diameter of all piping is to be in

accordance with the appropriate Toshiba manuals.

All pipework will be purged with oxygen-free nitrogen when brazing and capped at all other

times. The system will be leak tested with oxygen-free nitrogen at a pressure of between 490

and 540 psig for a period of at least 8 hours. The oil balance pipe (if used) will be pressurised

separately. The system will be de-hydrated by creating a vacuum deeper than 4 Torr – before

the vacuum pump is isolated for a period of no less than 30 minutes. If the vacuum falls

during this time, oxygen free nitrogen will be added and the dehydration process repeated

until the vacuum is maintained for 30 minutes. Virgin refrigerant (R410A) will be added in

liquid form in accordance with Toshiba’s requirements.

All interconnecting refrigerant pipework from Outdoor Units to Indoor Units is to utilise

Toshiba joint kits to create the most practical refrigerant piping network. The range consists

of:

Y Connector Kit

Toshiba Model Reference:

RBM-BT14E

RBM-BT24E

This kit is to be used when two, or more condensers are to be connected together. It shall

consist of components to create tee-pieces for the gas pipe, liquid pipe and oil balance pipe

for all possible pipe sizes required for Super Modular Multi outdoor units.

Y-Branch Kits


RBM-BY55E

RBM-BY105E

RBM-BY205E

RBM-BY305E

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AIR CONDITIONING


These kits are to consist of a gas pipe branch, liquid pipe branch and related pre-formed

thermal insulation pieces. The branch pieces are to come complete with sockets of varying

dimensions to accommodate all potential sizes of refrigerant pipe.

Header Branching Kits


RBM-HY1043E

RBM-HY2043E

RBM-HY1083E

RBM-HY2083E

These kits are to consist of a gas pipe branch header (with four, or eight inlets/outlets), liquid

pipe branch header (with four, or eight outlets/inlets) and related pre-formed thermal

insulation pieces. The header pieces are to come complete with sockets of varying dimensions

to accommodate all potential sizes of refrigerant pipe.

Interconnecting Controls Wiring

The nominated installer shall be responsible for the following interconnecting controls wiring:

2-core, non-polar = Indoor units to Remote Controller (A, B)

2-core, twisted, screened, non-polar = Local Area Network (U1, U2, U5, U6)

2-core, twisted, screened, non-polar = External Controls Network (U3, U4 and/or X, Y)

All electrical wiring, bonding and earthing shall be in accordance with the current edition of

BS7671: 2008. The single and three phase voltages stated are EC harmonised voltages, but

the equipment shall be suitable for 200-240 volts single phase and 380-415 volts three phase

as appropriate.

Controls

The 2-Pipe VRF Super Modular Multi Heatpump system(s) shall be complete with the

following TCC-Link controls.

Simplified TCC-Link Remote Controller


RBC-AS41E

The remote controller(s) shall be surface mounted and hard wired to the indoor unit(s) via the

AB connections, to provide the user with either local individual control of the air-conditioned

space. The controller shall be manufactured in ABS plastic with a liquid crystal display

(LCD). A temperature sensor is to be incorporated within the casing to allow the user to set

the sensing point at the controller, or at the indoor unit. The controller shall display an

alphanumeric fault code in the event of system malfunction. The controller shall provide

control of the following primary functions:

Start/stop.

Operating mode (auto, cool, heat, dry, fan only).

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Temperature set point (18°C to 29°C).

Fan speed (high, medium, low & auto).

Louvre position (where applicable).

Filter check.

Test run (heating & cooling).

Standard TCC-Link Remote Controller


RBC-AMT32E



space, or group control of up to 8 indoor units. The controller shall be manufactured in ABS

plastic with a liquid crystal display (LCD). A temperature sensor is to be incorporated within

the casing to allow the user to set the sensing point at the controller, or at the indoor unit. The

controller shall enable the user to interrogate the system and display an alphanumeric fault

code in the event of system malfunction. The controller shall be able to provide control or

indicate status of the following functions:

Start/stop.





Individual Louvre Control (where applicable).

Filter check.


Minimum and maximum temperature settings in each mode

Dead band between heating and cooling.

Stratification control.

Central control address.

Auto-restart.

Temperature sensor in use.

High ceiling compensation.

Elapsed timer lock.

Sensor data available from all associated indoor and outdoor units

Integral elapsed timer

Standard TCC-Link Remote Controller with 24 Hour, Seven Day Timer


RBC-AMS41E





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Start/stop.





Individual Louvre Control (where applicable).

Filter check.






Auto-restart.



Elapsed timer lock.


Integral 24 Hour, Seven Day Timer.

The Lite – Vision Plus Remote Controller


RBC-AMS51E-ES









Start/stop.





Filter check.


Save mode (dependant on model & system)

Schedule 7 day timer operation (Operation time, start/stop, temp setting &

restriction)

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Timer operation (Countdown timer)





Auto-restart.



Elapsed timer lock.


Unique Energy Saver Function

Menu based operational strategy

Weekly timer function with multi – programmable settings

Fully compatible with Toshiba DI / SDI and VRF systems

Programmable button restrictions

Individual registering of the room name

Illuminated display

Option to display service providers name and telephone number

Full ventilation options when used in conjunction with Toshiba’s new VN-M air to

air heat exchanger unit(s)

TCC-Link Central Controller


TCB-SC642TLE2

A central controller shall be recess mounted and hard wired to the outdoor unit(s) via the U3,

U4 network, to provide the user with individual control of up to 64 master indoor units. The

controller shall be manufactured in ABS plastic with a liquid crystal display. It shall be

supplied from a 220-240 V ac 50 Hz power source. A maximum of 10 central control devices

must be able to be fitted to a single control network (U3, U4). It must be possible to switch

the controller on and off from a remote source via a volt-free contact connected across the A

series terminals. The B series terminals must provide operation and general fault outputs. The

controller shall enable the user to interrogate the system and display a hexadecimal fault code

for each master indoor unit in the event of system malfunction.

The central controller shall display status and provide control of the following primary

functions for each master indoor unit:

Start/stop.





Filter check.

Automatic or manual central control addressing – with the further option to provide

this from the controller.

In addition the central controller shall facilitate the use of remote controllers (RBC-AMT32E,

RBC-AMS41E, RBC-AMS51E or RBC-AS41E) to provide the user with localised control of

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the air-conditioned space. When standard remote controllers are used, each master unit must

have the capability to control up to 7 slave units if required (all will operate to the same

conditions as the master unit).

The central controller can restrict the operation of local controllers, preventing changes being

made to:

On /off settings.

On/off, mode and temperature settings.

Mode and temperature settings.

Mode settings.

When used in conjunction with a weekly timer (RBC-EXW21E) the following configurable

relationships must be available:

Indoor units are turned on/off with the weekly timer and remain open to local

override for one time period.

Indoor units are turned off with the weekly timer and rely on local override to operate

for one time period.

Indoor units have on/off control disabled with the weekly timer and rely on local

override to operate for one ON time period.

Indoor units are stopped and have on/off control disabled with the weekly timer and

rely on local override to operate for one ON time period.

Indoor units have all functions disabled with the weekly timer and rely on local


Indoor units are stopped and have all functions disabled with the weekly timer and


TCC-Link Central Compliant Manager Controller (Low Specification Model)


BMS-CM1280TLE

A Compliant Manager central controller shall be recess mounted and hard wired to the

outdoor unit(s) via the U3, U4 network, to provide the user with individual control of up to

128 indoor units. The controller shall be manufactured in ABS plastic with a liquid crystal

display. It shall be supplied from a 220-240 V ac 50 Hz power source. A maximum of 10

central control devices must be able to be fitted to a single control network (U3, U4).

The Controller shall allow the possibility of switching the system(s), to which it is connected,

on and off from a remote source via a volt-free (or pulse) contact connected at the rear of the

wiring panel. It must also provide the facility to shut the entire system(s), to which it is

connected, via a suitable signal (volt free or pulse) from a local fire detection panel. A manual

restart of the systems after the ‘all clear’ is given by the local fire alarm panel will be required

by the user.

The Controller shall also provide operation and general fault outputs, via a closed contact

circuit (for both ‘system running’ & ‘system stop fault’), also at the rear of the wiring panel.

The controller shall enable the user to interrogate the system and display a hexadecimal fault

code for each master indoor unit in the event of system malfunction.


functions for each master indoor unit or group :

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Start/stop.





Filter check.








The Compliant Manager central controller can restrict the operation of local controllers,

preventing changes being made to:

On /off settings.



Mode settings.

When used in conjunction with a schedule timer (TCB-EXS21TLE) the following

configurable relationships must be available:

Indoor units are turned on/off with the weekly timer and remain open to local

override for one time period.

Indoor units are turned off with the weekly timer and rely on local override to operate

for one time period.

Indoor units have on/off control disabled with the weekly timer and rely on local


Indoor units are stopped and have on/off control disabled with the weekly timer and


Indoor units have all functions disabled with the weekly timer and rely on local


Indoor units are stopped and have all functions disabled with the weekly timer and


High Specification Smart Manager


BMS-SM1280HTLE

A Smart Manager central controller shall be recess mounted and hard wired to the outdoor

unit(s) via the U3, U4 network, to provide the user with individual control of up to 128 indoor

units. The controller comes complete with a power pack that requires a 220-240v AC 50Hz

power source which connects directly to the mains input terminals on the rear of the device.

The controller shall be manufactured in ABS plastic with a liquid crystal display. A maximum

of 10 central control devices must be able to be fitted to a single control network (U3, U4).

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The controller shall allow the possibility of remotely connecting to a PC. The PC shall be able

to control all functions of the controller via a suitable Web browser, including 24 hour / 7 day

timer schedules.

The Controller shall allow connection of suitable energy monitoring kits (RBC-EM1-PE), via

a relay interface (BMS-IFWH5E). – Up to 4 No. relay interfaces will be connected to a single

compliant manager controller. The controller shall also allow for the connection of a Digital

Input/Output Relay Interface for the connection of ancillary equipment.

The Controller shall allow the possibility of switching the system(s), to which it is connected,

on and off from a remote source via a volt-free (or pulse) contact connected at the rear of the

wiring panel. It must also provide the facility to shut down the entire system(s), to which it is

connected, via a suitable signal (volt free or pulse) from a local fire detection panel. A manual

restart of the systems after the ‘all clear’ is given by the local fire alarm panel, will be

required by the user.

The Controller shall also provide operation and general fault outputs, via a closed contact

circuit (for both ‘system running’ & ‘system stop fault’), also at the rear of the wiring panel.

The controller shall enable the user to interrogate the system and display a hexadecimal fault

code for each master indoor unit in the event of system malfunction.


functions for each master indoor unit or group :

Start/stop.





Filter check.








The Smart Manager central controller can restrict the operation of local controllers,

preventing changes being made to:

On /off settings.



Mode settings.

Network Adaptor


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TCB-PCNT20E

To facilitate the connection of Digital Inverter, Super Digital Inverter, or VRF Fan coil to a

X/Y network, a network adaptor must be fitted to each master indoor unit.

Network Adaptor


TCB-PCNT30TLE2

To facilitate the connection of Digital Inverter or Super Digital Inverter split systems to a

U3/U4 network, a network adaptor must be fitted to each master indoor unit.

TCC-Link Schedule & Weekly Timer


TCB-EXS21TLE

The schedule / weekly timer shall be wall mounted and manufactured in ABS plastic with an

LCD display. The controller shall provide 3 on/off periods per day in a 7-day cycle with a day

omit capability. In addition the controller shall be able to auto-restart the whole system after a

power failure and have 100 hours backup memory.

(Weekly Timer Mode)

A weekly timer shall be connected to either the central controller, compliant manager

controller, and/or each standard remote controller. It should be connected via a dedicated

4-core lead supplied with the timer.

(Schedule Timer Mode)

A schedule timer shall be connected to either the central controller, compliant manager

controller or a local standard remote controller for its power ONLY. It shall be connected

to the air conditioning systems via the U3/U4 network for its communication.

Fault Monitoring & Control Interface


RBC-FDP3-PE

Fault detection and control is to be provided via the AB network with, or without a remote

controller. Each FDP3 detects any fault generated by the system and provide an output for

appropriate action to be taken by the user. Red and green LEDs are to be fitted to the unit to

indicate the fault/no fault condition. The detection of a fault code must illuminate the red

LED and close the internal volt-free contacts. A locking function can be initiated to provide

pre-set conditions of: Cooling 19ºC; Auto 21ºC; Heat 23ºC. These pre-sets are to be selectable

by switches on the FDP3 unit. It must be possible to control 8 indoor units with a single FDP3

and connect 16 FDP3 units together on a D-Bus network to allow a single remote controller to

group control up to 128 indoor units.

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Run and standby control of two groups of indoor units is to be provided. In the event of a

fault on the running group, both groups will be activated. The FDP3 is able to be configured

for load sharing and customised control options are available from Toshiba.

Start/Stop and Fault Interface


TCB-IFCB-4E2

Each indoor unit (master unit if grouped) is to be fitted with an interface to allow each indoor

unit to be externally switched on and off by means of any volt-free external terminals. The

interface shall be linked to the indoor unit using CN61 on the PCB. This device must also

have the capability of providing a positive indication of the operation of the indoor unit and

signal any errors (system and indoor unit stopping faults) via externally fitted volt-free

contacts. The interface shall be fitted in position near the relevant indoor unit.

External switching components can include:

Time switch

BMS

Passive infra-red occupation sensor

Auto restart

Frost thermostat

Fire alarm

Outdoor Unit Control Board


TCB-PCM04E

An additional PCB is to be fitted to each master outdoor unit to provide one of the following

functions:

a) Mode selection – allows an external switch to determine the choice of operating mode.

b) Snowfall Fan Control

When activated the outdoor unit fan will run independently of the compressor to prevent

snow from settling on the unit when not in normal operation.

c) On/Off

External master start, or stop signals can enable, or disable each system.

d) Set-Back

When activated, the compressor and fan will be restricted in speed to provide a reduction in

sound pressure level for a single unit from 59 dB(A) to 50 dB(A).

Lon Works® Interface


TCB-IFLN642TLE

A Lon Works® Interface shall be hard wired to each header outdoor unit via the U3 & U4

network, to enable the user to individually control up to 64 indoor units. Multiple interfaces

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AIR CONDITIONING


may be connected to a Lon Works® network to enable the user to monitor and adjust indoor

units alongside any other integrated building services from a single PC.

The interface shall enable the PC to display status, diagnostics by unit number and provide

control of the following primary functions for each master indoor unit: -

Mode of Operation (Auto, Cool, Heat, Fan Only)

Temperature Set Point (18°C to 29°C)

Fan Speed (High, Medium, Low & Auto)

Louvre Position (Where applicable)

On/Off

The interface shall permit the user to access the control of the system remotely via the use of

a modem connection. In addition, the interface shall facilitate the use of Remote Controllers

(RBC-AMT32E, RBC-AMS41E, RBC-AMS51E or RBC-AS41E) to provide the user with local

control of the air-conditioned space. When standard remote controllers are used, each master

unit must have the capability to control up to 7 slave units if required (all will operate to the

same conditions as the master unit).

Trend compatible BMS Interface


TCB-IFLN642TLE

(LTX-VCI) – Supplied by RealTime Controls

(LTX-21) – Supplied by RealTime Controls

(TCB-PCNT30TLE2) – For any DI / SDI Spilt Systems

This combination of a Lon Works® interface and RealTime Controls LTX-21 shall allow the

Toshiba air conditioning systems to communicate with a Cylon BMS. A TCB-

IFLN642TLE/LTX-VCI/LTX-51 combination shall be hard wired to each indoor unit via the

U3/U4 terminals on each indoor unit (or protocol converter TCB-PCNT30TLE2), to enable

the user to individually control up to 16 master indoor units when connected to a single

system.

Multiple LTX-21 interfaces may be connected to single LTX-VCI and multiple interfaces

may be connected to a Cylon / Modbus network to enable the user to monitor and adjust

indoor units alongside any other integrated building services from a single PC.

The LTX-21 connects directly to the modbus port on a UCC4 to permit all functions and

settings to be modified. All of the system fault codes can be passed back through to the BMS

that will allow the faults to be managed by the BMS alarm supervisor.


a modem connection. In addition the interface shall facilitate the use of Remote Controllers





Cylon (or other Modbus compatible) BMS Interface


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AIR CONDITIONING


TCB-IFLN642TLE

(LTX-VCI) – Supplied by RealTime Controls

(LTX-51) – Supplied by RealTime Controls

(TCB-PCNT30TLE2) – For any DI / SDI Spilt Systems

This combination of a Lon Works® interface and RealTime Controls LTX-51 shall allow the

Toshiba air conditioning systems to communicate with a Cylon BMS. A TCB-

IFLN642TLE/LTX-VCI/LTX-51 combination shall be hard wired to each indoor unit via the

U3/U4 terminals on each indoor unit (or protocol converter TCB-PCNT30TLE2), to enable

the user to individually control up to 16 master indoor units when connected to a single

system.

Multiple LTX-51 interfaces may be connected to single LTX-VCI and multiple interfaces

may be connected to a Cylon / Modbus network to enable the user to monitor and adjust

indoor units alongside any other integrated building services from a single PC.

The LTX-51 connects directly to the modbus port on a UCC4 to permit all functions and

settings to be modified. All of the system fault codes can be passed back through to the BMS

that will allow the faults to be managed by the BMS alarm supervisor.


a modem connection. In addition the interface shall facilitate the use of Remote Controllers





Crestron BMS Interface


RBC-LG1/LTX-21

TCB-PCNT20E

A combination of a Lon Works® interface and RealTime Controls LTX-21 shall allow the

Toshiba air conditioning systems to communicate with a Trend BMS. An RBC-LG1/LTX-21

combination shall be hard wired to each indoor unit via the XY terminals on each protocol

converter (TCB-PCNT20E), to enable the user to individually control up to 16 indoor units

when connected to a single system. Each master indoor unit is to be fitted with a protocol

converter. Multiple interfaces may be connected to a Crestron network to enable the user to

monitor and adjust indoor units alongside any other integrated building services from a single

PC.

The LTX-21 connects directly to the Crestron system to permit all functions and settings to be

modified. All of the system fault codes can be passed back through to the BMS that will allow

the faults to be managed by the BMS alarm supervisor.

NOTE : Each air conditioning system connected to a single RBC-LG1 must have no more

than 16 indoor units connected to it.

Windows® Package & Windows® Gateway


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AIR CONDITIONING


RBC-WP1-PE

TCB-IFLN642TLE

A Windows® Package (RBC-WP1-PE) shall be used in conjunction with a Gateway (TCB-

IFLN642TLE). Each Gateway shall have the capability of individually controlling up to 64

master indoor units. Up to 16 Gateways can be connected to each Windows® package. Each

Windows® Gateway is then linked to the PC via the AB terminals. If Digital / Super Digital

Inverter units are to be added a Network Adaptor (TCB-PCNT30TLE2) is required for each

master indoor unit with the exception of the High Wall models.

The Windows® Package shall enable the user to control up to 1024 individual indoor units,

and via the Gateway be capable of adjusting, managing and displaying all the following

control functions:

Mode of Operation (Auto, Cool, Heat, Fan Only)

Temperature Set Point (18°C to 29°C)

Fan Speed (High, Medium, Low & Auto)

Louvre Position (Where applicable)

On/Off

Fault Code Diagnostics

Sensor Data

Indoor Unit Locked Off

On/Off Control Only

Multiple Time Scheduling

In addition local control may be provided to any or all zones by the use of Remote Controllers

(RBC-AMT32E, RBC-AMS41E, RBC-AMS51E or RBC-AS41E). When remote controllers are

used, each master unit must have the capability to control up to 7 slave units if required (all

will operate to the same conditions as the master unit).

The controls software shall also enable the user to display unit locations via site specific floor

plans and transmit system alarms via the following media types: -

Fax, SMS, Modems, E-mail and Pager.

To enable the Windows® Package to be installed the following minimum system

requirements shall be provided either by the end-user or the installer: -

PIV or Greater Processor

512MB RAM

Hard Drive with 50MB Free Space

16bit High Colour 800 x 600 SVGA or Greater Display (Not shared graphics card)

Win®NT, Version 4.0 or Later (Service Pack 3.0 or Greater)

Win 2K

Win XP

(Not Suitable for Windows Vista)

Energy Monitoring Kit


RBC-EM1-PE

TOSHIBA

AIR CONDITIONING


Energy Monitoring kit(s) shall be fitted and used in conjunction with the Windows® Package

and Lonworks Interface(s) to provide a means of calculating total power consumption of the

air-conditioning system, broken down by indoor unit. Using this data the Windows® Package

can generate bill reports to specific requirements and export data to billing software or an

external site. Each kit consists of a power meter and a set of current transformers that are to

be placed on the supply cables of up to six outdoor units.

Refrigerant Leak Detection (To be used in combination with a WP1)


RBC-RD3

RBC-RD6

RBC-RD3

The system shall operate via wall mounted concentration sensors located within the areas to

be protected. It interfaces with the VRF range of indoor units. It shall work by sampling the

room air and detecting increase levels of refrigerant gas. On activation a visible and audible

indication are given via a flashing LED and buzzer located within the RBC-RD3. This shuts

down the indoor unit, closes the PMV and a L30 alarm will be displayed on the local or/and

the central control devices. The sensor shall meet the requirements of BSEN378 2012

regarding raising both an audible and visual alarm within an occupied space.

RBC-RD6

The system shall operate by monitoring the low side pressure using an additional Toshiba 0-5

volt pressure sensor installed in the VRF outdoor unit. The sensor data shall be fed back to a

CPU located in the panel. The RD6 incorporates 4 discharge line temperature sensors. On

activation an audible and visual signal shall be received at the panel (and remotely if

required).

The outdoor unit shall be enabled and set to cooling mode, the liquid pipe isolated and pump

down commences. The pump down duration is controlled via the CPU and on termination the

suction line is isolated.

Please note the addition of the sensors allows the CPU to detect the increased temperatures

associated with gradual refrigerant loss.

RBC-RD7

In conjunction with RBC-RD3, RBC-RCS1 or RBC-RCS2 room sensors, via the RBC-RD7

isolate individual bedrooms, or occupied space. Utilising this set up prevents the need to fully

shut down the air conditioning system, therefore enabling the remaining indoor units on the

system to be operational, maintaining comfort levels within the building.

Leak Detection Set up

The leak detection system shall operate via sensors which shall detect changes in the

refrigerant pressure. This will signify a decrease in the levels of refrigerant gas. An audible

and visual alarm shall operate and the system shall pump down the refrigerant and isolate the

system using a set of motorised ball valves installed onto the suction and liquid pipes.

TOSHIBA

AIR CONDITIONING


RBC-AIP1 Remote indication of alarm 8No RBC-RD6/RBC-RP1 panels

Windows Interactive Software & Interfaces

The following interactive software provides a means for the Leak Detection and overall

control of the VRF systems to be monitored & controlled from a central point. The format and

visual appearance of the software can be set up to however the end user wishes to view this

with the following levels of access to be set.

The software is linked to the RD6.

Level 1 - Monitoring all areas only with no ability to change

Level 2 - View all areas and enable changes to be made

Level 3 - Administration or Engineering Access Level – Full ability to monitor, change and

see recorded data regarding the performance of the system

Listed below is a general specification for the remote PC, for the software to sit on. To enable

the Windows® Package to be installed the following minimum system requirements shall be

provided either by the end-user or the installer: -

PIV or Greater Processor

512MB RAM

Hard Drive with 50MB Free Space

16bit High Colour 800 x 600 SVGA or Greater Display (Not shared graphics card)

Win®NT, Version 4.0 or Later (Service Pack 3.0 or Greater)

Win 2K

Win XP

Toshiba Controls Reference

RBC-WP1 Interactive Software 1No per 1024 Indoor Units

TCB-IFLN642TLE Lonswork Gateway 1No per 64No Indoor Units

(Typically to help with system addressing I would apply 1No Interface per floor)

Note:-

To cover the customisation set up of the Interactive Software as an initial cost please allow

the following sub for software configuration. This allows for 1 ½ days to cover the time

required to set up the WP1.

Software Configuration £1,000 Exc VAT

(Any additional time to be charged at £620 per day).

Hotel Bedroom Room Indicator (RBC-RI1)

The following room indicators are required where a hotel stipulates the requirement for an

alarm to be raised with in the bedroom but not based on sensing the concentration of

refrigerant.


RBC-RI1 Room Indicator 1No per Bedroom

Detection Alarm Repeater Panel (RBC-RP1)

The RBC-RP1 repeater panel is designed to work in conjunction with the RBC-RD6

refrigerant pump down panel and the RBC-RI1 room indicators. When activated by the RD6

panel a signal is sent out to the room indicators to give an audiable and visual indication in

the bedroom.

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AIR CONDITIONING


Please Note that the negative sign to this type of control over having a room concentration

sensor is that the alarm signal will be sent to all those rooms connected to that Repeater Panel.


RBC-RP1 Repeater Panel 1No per RD6 panel or VRF system

Documents

AIR CONDITIONING...TOSHIBA AIR CONDITIONING TOSHIBA Super Modular Multi System Heatpump Standard Specification MMY-AP4014HT8P-E 40 112.0 3 (16+12+12) 9 MMY-AP4214HT8P-E 42 118 3 (16+14+12)