S A M S U N G DV MT M Air Conditioner

SAMSUNG ELECTRONICS

I

I I

Overview

1.DVMsystemseries

2.DVMline-up

Control

system

1.Remotecontroller

2.Receiver&display unit (Duct type)

5.Assigningaddress

8.Indoor unit PCB option code

9.Building management system

Indoor

unit

1.Features

2.Specification

3.Functional parts and safety devices

4.Capacitytable

5.Dimension

IV V

6.Refrigerant system diagram (Cooling only & heat pump)

7.Electriccircuitdiagram

8.Noiselevel

9.Velocity of air flow & temperature distribution

10.Fanspecifications

11.Panel

12. Electronic expansion valve kit

13.Options

Outdoor

unit

1.Unit selection (with cooling load)

2.Specification

3.Functional parts and safety devices

4.Capacitytable

5.Dimension

6.Refrigerantsystemdiagram

7.Electriccircuitdiagram

8.Consideration for outdoor unit selection

8-1. Change of capacity depending

8-2. Condition of operating

9.Noiselevel

10.Options

Installation

1.Product

3.Connecting the indoor unit refrigerant pipe

4.Drainhoseinstallation 5.Drainpumpinstallation

7.Piping and refnet joint selection

8.Charge/recoveryofrefrigerant

9.Testingoperation

10.Cautionsforrefrigerant leaks

I. Overview

1. DVM system series

1-1. What is DVM?

The DVM(Digital Variable Multi) air conditioning system is operated by a variable-capacity compressor and is accommodated by multiple evaporators (indoor units). It is touted as the next-generation modular system in the world of high-efficiency air conditioning. lt has undoubtedly changed the face of cooling associated with high-storied buildings. It provides a broad range of different applications for settings such as offices, hotels and schools. With its easy installation and simple controlling system, the DVM will more than meet the demands of the air conditioning market.

Outdoor unit

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1-2. Features of DVM

(1)Customized air conditioner

1)Up to 16 indoor units can be connected to one outdoor unit.

2)Indoor units can be combined by various methods, according to each room???s use and shape.

3)There are several indoor units which can be applied; 1-way cassette type, 4-way cassette type, Ceiling, Duct (Low silhouette, Built-in, High pressure), Wall-mounted and Floor standing type.

(2)Comparison of DVM with conventional air conditioners

1)DVM air conditioner

??? Variable capacity (Energy Saving)

??? Competitive price (Compared with the Inverter type)

??? Can be installed in houses / commercial buildings

??? Versatile combination of indoor units

??? Various remote controls

2) Conventional air conditioners

??? Fixed capacity

??? Unfavorable in case of installing more than 3 units / system

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I. Overview

1. DVM system series

(3) Variable compressor

The world???s first PWM(Pulse Width Modulation) compressor controls the cooling & heating capacity automatically, depending on the load.

1) Principle of the digital compressor

??? Composition

The solenoid valve is installed for the compressor??s loading / unloading between the upper part of the fixed scroll and the suction pipe.

???Mechanism

a.When the solenoid valve is turned off, the fixed scroll is closed to the orbiting scroll (Loading),

b.When the solenoid valve is turned on, the fixed scroll is separated from the orbiting scroll (Unloading),

c.This process controls the On / Off times of the valve and the rotating refrigerants in the circle, thus adjusting the capacity.

d.The cooling capacity of the outdoor unit is controlled automatically,depending on the number of operating indoor unit(s).

Running ratio of compressor(%)

< 1 Compressor >

100

90

80

70

loading

60

50

40

30

20

unloading

10

0

Total capacity of operating indoor unit(s) (kcal/h)

Running ratio of compressor(%)

Total capacity of operating indoor unit(s) (kcal/h)

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2) PWM (Pulse Width Modulation) valve

PWM valve is the valve to take away the fixed scroll by lifting up through the difference of pressure after the digital scroll compress being connected to the outlet and inlet of suction. Therefore, the capacity of compressor is controlled automatically according to the operation status such as loading when the valve is closed or unloading when the valve is opened. PWM means the control of ON/OFF signal to the valve for loading/unloading.

Relationship between PWM valve and loading/unloading

compression

non-compression

(rotating in vain)

(4) Refrigerant flow rates control

Refrigerant flow rates through the electronic expansion valve are controlled by the 2 factors which are the temperature difference between inlet and outlet of evaporator and the difference between room and set temperature.

a.An electronic expansion valve optimally distributes refrigerant flow rates to each room and the fuzzy logic enables comfortable cooling more precisely; refer to the figure below.

b.The air conditioner senses the temperature difference between inlet and outlet of evaporator, plus the temperature difference between room and set temperature. And it calculates the superheat and the room temperature status, then adjusts refrigerant flow rates after deciding the opening steps of valve.

??????

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I. Overview

1. DVM system series

(5)Long & single piping system

1)Piping can be extended up to 100 meters; refer to the figure.

2)The outdoor unit is connected with each indoor unit by single refrigerant piping.

(6)Convenient centralized control

1)Every indoor unit has its own remote controller. In addition, a maximum of 16 indoor units

can be controlled with the centralized controller.

2)A maximum of 256 indoor units can be controlled by using the PC Control.

(7)Easy installation

Simple planning and installation during the early

stage of building construction or renovation.

(8) Minimizing operation costs

The cooling / heating capacity is adjusted automatically with the variable compressor, which reduces power consumption and running costs.

units) indoor between (Height 15m

50m(8 .0~10 .0HP), 30m(7 .5HP ???

(Height ) indoor between

outdoor and unit)

length) piping .(Max 100m

???The results are based on Samsung Lab., therefore there may be differences according to the condition of installation and the environment of the use.

???Heat loads : 90,000 kcal/h in Korea

???Total area : 750m2

???Running : 3 months in every summer and winter

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(9) Space Saving

The outdoor units connected with several indoor units do not require much space.

1) Conventional System

2) DVM System

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I. Overview

1. DVM system series

1-3. DVM vs VAV

(1) Excellent energy efficiency

???The results are based on Samsung Lab., therefore there may be differences according to the condition of installation and the environment of the use.

???Heat loads : 90,000 kcal/h in Korea. The SEER of the DVM is 8~75% higher than the VAV, and increasing

the zone control is different from decreasing the SEER.

??? Condition A : DB26.7/WB19.4??C, DB35/WB23.9??C

B : DB26.7/WB19.4??C, DB27.8/WB18.3??C

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(2) DVM test condition

Pipe (Copper)

??? Zone control conditions

(3) VAV test condition

Flexible hose

Air flow

Discharge duct

??? Zone control conditions

Outdoor unit : Fixed compressor(21kW)

??? The static pressure is equal to the maximum open position by adjusting the damper.

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I. Overview

2. DVM line-up

2-1. Numbering system of model

(1) Indoor unit and outdoor unit (Conventional model)

??? Semi-finished product

??? Classification of product

??? Capacity (Btu x 100)

??? Option

Function 0

Indoor unit

version 1

Recipro 0

Outdoor unit

PWM 1

??? Power supply

- Indoor unit

??? Version

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(2)Indoor unit and outdoor unit (New Model)

1)Indoor unit

Model

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I. Overview

2.DVM line-up

2)Outdoor unit

Model

??? Mode

??? Capacity (HP x 10, 3 digits)

Discharge

Refrigerant direction Classification

Upward A

R22

Onward B

Upward C

R407C

Onward D

Upward E

R410A

Onward F

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(3) Options

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I. Overview

2. DVM line-up

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I. Overview

2. DVM line-up

2-2. Combination

(1)Outdoor unit

1) Cooling only

??? The system enables the connection of indoor units with a total capacity of between 50 to 130% of that of the corresponding outdoor unit but where this capacity ratio exceeds 100% then the actual capacity of each indoor unit will fall a little short of its individual rated capacity when all the units are operated simultaneously. (Except Middle East models)

??? The specification of super cooler may differ, depending on the model.

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??? The system enables the connection of indoor units with a total capacity of between 50 to 130% of that of the corresponding outdoor unit but where this capacity ratio exceeds 100% then the actual capacity of each indoor unit will fall a little short of its individual rated capacity when all the units are operated simultaneously. (Except Middle East models)

??? The specification of super cooler may differ, depending on the model.

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I. Overview

2. DVM line-up

2) Heat pump

??? The system enables the connection of indoor units with a total capacity of between 50 to 130% of that of the corresponding outdoor unit but where this capacity ratio exceeds 100% then the actual capacity of each indoor unit will fall a little short of its individual rated capacity when all the units are operated simultaneously. (Except Middle East models)

??? The specification of super cooler may differ, depending on the model.

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??? The system enables the connection of indoor units with a total capacity of between 50 to 130% of that of the corresponding outdoor unit but where this capacity ratio exceeds 100% then the actual capacity of each indoor unit will fall a little short of its individual rated capacity when all the units are operated simultaneously. (Except Middle East models)

??? The specification of super cooler may differ, depending on the model.

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I. Overview

1. System line-up

(2) Indoor unit

??? The design and capacity of indoor unit are subject to change without notice.

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??? The design and capacity of indoor unit are subject to change without notice.

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II. Control System

1. Remote controller

1-1. Wireless remote controller

(1)1-way / 4-way cassette / Wall-mounted / Floor standing / Ceiling type

1)Cooling only (MR-AC01)

Automatic Cool

Dry Fan

Operating mode selection button

Temperature adjustment buttons

Filter Reset button

Fan speed adjustment button

Air flow direction adjustment button On timer button

Off timer button

On/Off & Timer set/cancel button

2) Heat pump

Operating mode

Automatic Cool

Dry Fan Heat

Operating mode selection button

Temperature adjustment buttons

Filter Reset button

Fan speed adjustment button

Air flow direction adjustment button On timer button

Off timer button

On/Off & Timer set/cancel button

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(2)Duct type

1)Cooling only

Automatic Cool

Dry Fan

2) Heat pump

Operating mode

Automatic Cool

Dry Fan Heat

Operating mode selection button

Temperature adjustment buttons

Filter Reset button

Fan speed adjustment button Timer Cancel button

On timer button Off timer button

On/Off & Timer set/cancel button

Operating mode selection button

Temperature adjustment buttons

Filter Reset button

Fan speed adjustment button Timer Cancel button

On timer button Off timer button

On/Off & Timer set/cancel button

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II. Control System

1. Remote controller

1-2. Wired remote controller

(1)1-way / 4-way cassette / Wall-mounted / Floor standing / Ceiling type

1)Cooling only

Temperature adjustment buttons

Operating mode

Automatic Cool

Dry Fan

On/Off & Timer set/cancel button

Operating indicator

Fan speed adjustment button

Air flow direction adjustment button

Filter Reset button

2) Heat pump

Temperature adjustment buttons

Operating mode

Automatic Cool

Dry Fan Heat

On/Off & Timer set/cancel button

Operating indicator

Fan speed adjustment button

Air flow direction adjustment button

Filter Reset button

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(2)Duct type

1)Cooling only

Operating mode

Automatic Cool

2) Heat pump

Operating mode

Automatic Cool

Dry Fan Heat

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II. Control System

1. Remote controller

1-3. Centralized controller

All Off button

On/off indicators

Individual On/Off button

Index

1-4. Function controller

Operating mode

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2. Receiver & display unit (Duct type)

2-1. Concealed type

(1) Cooling only

Filter sign indicator

Fan indicator

Timer indicator

Remote control sensor

On/Off button

(2) Heat pump

Filter sign indicator

Fan indicator

Timer indicator

Remote control sensor

On/Off button(Blue) & Removing frost indicator(Red)

???This receiver & display unit should be applied to duct type air conditioners when using the wireless remote controller, and the receiver & display unit wire kit must be purchased together.

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II. Control System

2. Receiver & display unit (Duct type)

2-2. Standard type

(1) Cooling only

Filter sign indicator

Remote control sensor

On/Off indicator

Fan indicator

On/Off button

Timer indicator

(2) Heat pump

Removing frost indicator

Filter sign indicator

Remote control sensor

On/Off indicator

Fan indicator

On/Off button

Timer indicator

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3. Transmitter

CN01

F1 F2

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II. Control System

4. Installation

4-1. Wireless remote controller

(1) Accessories

(2)Installation

Choose a position where:

??? The signal from the remote controller will not be blocked

(by a curtain for example)

??? The remote controller is not exposed to direct sunlight or heat

??? The wireless remote controller is at least one meter away from a television or stereo system to avoid generating any parasites

To attach the holder to the wall, proceed as follows.

1)With a pencil, mark the positions of the two holes on the wall where the holder is to be installed.

2)Drill the two holes and insert plugs as required for the type

of wall on which the holder is being installed.

3) Screw the holder into position.

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4-2. Wired remote controller

(1) Accessories

(2) Installation

1) Open the wired remote controller by using two grooves on its top.

2) Secure the rear cover of the wired remote controller on the wall with 2 screws.

3) Connect each F1, F2, V1, and V2 terminal on the wired remote controller PCB to the indoor unit.

4) Reassemble the wired remote controller.

5)In case of 1-way Cassette type, connect terminals with the main PCB of indoor unit as shown at the figure.

Note ??? Be careful about the cables so that they will not be mixed up.

Main PCB of indoor unit

Wired remote controller PCB

??? The wired remote controller must be installed by an installation specialist.

???Before installing the wired remote controller, ensure that you have turned off the main power.

???All wired remote controller cables should be installed according to the national wiring rules and you must install it in the wall not to be touched by users.

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2)Turn the arrow of RMC rotary switch(SW01) to the appropriate position.

Result : It is controlled by a wired remote controller which has the same address.

Wired remote controller PCB

1)Assign an address to the wired remote controller by turning the arrow of rotary switch.

Note ??? The address of wired remote controller and the RMC address of indoor units should be the same.

Rotary

Switch

DIP Switch

2)Adjust the DIP switch to appropriate position. Refer to the table below.

??? All indoor units you wish to control with wired remote controller must have the same RMC address.

???Indoor units controlled with the same wired remote controller should be connected to the same outdoor unit and must have different MAIN addresses.

???If you would like to use the wired remote controller and the centralized controller together, refer to page II-16.

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(4) Example of installing wired remote controller

Individual control

Means a wired remote controller controls only 1 indoor unit. In this case, the RMC address of the

indoor unit should be the same with the address of wired remote controller.

Indoor unit PCB

Outdoor unit

Address of wired remote controller

Each indoor unit is controlled with its own wired remote controller.

Individual & Group control

Means a wired remote controller controls more than 2 indoor units. In this case, the RMC address of all indoor units to be controlled by the wired remote controller should be the same with the address of wired remote controller.

Indoor unit PCB

K1 K2 K3 K4

Outdoor unit

Address of wired remote controller

An indoor unit is controlled with assigned ???0??? wired controller, the others are controlled as a group by assigned ???1??? wired remote controller.

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II. Control System

4. Installation

4-3. Centralized controller

(1) Accessories

Note ??? If you would like to install the centralized controller, you must install the optional transmitter in the outdoor unit.

(2) Wiring diagram

Each outdoor unit connected to the same centralized controller must have its own transmitter.

Outdoor unit 1

Transmitter 1

Centralized

controller

Outdoor unit 2

Transmitter 2

(3) Transmitter installation

Centralized

controller

Transmitter 2

Transmitter 3

AC power supply

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(4) Assigning address

Turn the arrow of rotary switch on the transmitter to appropriate position. Transmitters controlled with the same centralized controller must have different addresses.

(5) Setting up option switches

In case of installing centralized controller only

Adjust K2 DIP switch(SW03) on the indoor unit PCB to the

???OFF??? position. It means use of the centralized controller.

Note ??? The number of button on the centralized controller is decided by the RMC addresses of indoor units. Refer to the table below.

Note Individual control ;

Transmitter rotary switch

K1 K2 K3 K4

SW03

???Means a centralized controller controls only 1 indoor unit. In this case, you should assign the RMC address to the indoor unit.

Group control ;

???Means a centralized controller controls more than 2 indoor units. In this case, you should assign the RMC address to each indoor unit to be controlled by the centralized controller and cannot use a wireless remote controller.

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II. Control System

4. Installation

In Case of Installing wired remote controller together

1) Adjust K2 DIP switch(SW03) on the indoor unit PCB to the

???OFF??? position. It means use of the centralized controller.

K1 K2 K3 K4

SW03

Note ??? The number of button on the centralized controller is decided by the RMC addresses of indoor units. Refer to the table below.

3)Assign an address to the wired remote controller by turning the arrow of rotary switch.

Note ??? The address of wired remote controller and the RMC address of indoor units should be the same.

Example If an indoor unit???s RMC address is ???0???, the indoor unit will be operated by the address ???0??? wired remote controller and the address ???0??? centralized controller.

???A group is made up of indoor units controlled with the same wired remote controller.

???If the wired remote controller is installed for group controlling, you can install/use the centralized controller to control the same group.

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(6) Example of centralized controller & wired remote controller

Installation of 1 centralized controller, 4 outdoor units, and 12 indoor units

???6 indoor units connected to the outdoor unit 1 and 2 are controlled with their own wired remote controller and a centralized controller.

???3 indoor units connected to the outdoor unit 3 are controlled as a group by a wired remote controller and a centralized controller.

???2 indoor units connected to the outdoor unit 4 are controlled a wired remote controller and a centralized controller, the other indoor unit is only controlled by a wired remote controller.

Outdoor unit 1

Centralized controller

SW03 switch in indoor unit

Transmitter 1

SW03 switch in indoor unit

Transmitter 2

SW03 switch in indoor unit

Transmitter 3

Transmitter 4

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II. Control System

4. Installation

??? If there is installed the wired remote controller together, refer to the table below.

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4-4. Function controller

(1) Accessories

(2)Installation

1)Disassemble the function controller by using a groove on its top.

2) Secure the rear cover of the function controller on the wall with two screws.

3) Connect the C1 and C2 terminals in the function controller to the same terminals in the centralized controller.

4) Reassemble the function controller.

Centralized

controller

Adaptor

Rated input 220V-240V/50~60Hz

??? You must align the same terminal when connecting cables. If the cables are connected improperly, the function controller will not work.

???The adaptor is not supplied with the function controller. Keep the polarity below when connecting the adaptor. - V1 : DC +12V, V2 : DC Ground

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II. Control System

4.Installation

(3)Wiring diagram

???Install the transmitter, another optional accessory, in the outdoor unit which will be controlled by the centralized controller, then connect the function controller and the centralized controller to the transmitter.

???Each outdoor unit connected to the same centralized controller must have its own transmitter.

???Distance between the centralized controller and the last transmitter should be 1000 meters or less.

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4-5. Receiver & display unit - Concealed type

(1) Accessories

(2) Installation

1)Remove the receiver & display unit cover by using the tab on its bottom.

2)Open the receiver & display unit.

3)Connect the end of the connector wire to the receiver & display unit and connect the other end of the wire to the MAIN PCB (CN91) as shown in figure.

??? Do NOT keep the receiver & display unit cable with a 220V cable because the remote controller cables have low voltage.

4)Secure the receiver & display unit on the wall with two screws.

5)Reassemble the receiver & display unit cover.

??? The receiver & display unit must be installed by an installation specialist.

???Before installing the receiver & display unit, ensure that you have turned off the main power.

???All receiver & display unit cables should be installed according to the national wiring rules and you must install it in the wall not to be touched by users.

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II. Control System

4. Installation

4-6. Receiver & display unit - Standard type

(1) Accessories

(2) Installation

1)Remove the receiver & display unit cover by using the tab on its bottom.

2)Open the receiver & display unit.

3)Connect the end of the connector wire to the receiver & display unit and connect the other end of the wire to the MAIN PCB (CN91) as shown in figure.

??? Do NOT keep the receiver & display unit cable with a 220V cable because the remote controller cables have low voltage.

4)Close the receiver & display unit.

5)Secure the receiver & display unit on the wall with two screws.

6)Reassemble the receiver & display unit cover.

??? The receiver & display unit must be installed by an installation specialist.

???Before installing the receiver & display unit, ensure that you have turned off the main power.

???All receiver & display unit cable should be installed according to the national wiring rules and you must install it in the wall not to be touched by users.

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(2)Installation

???Attach the transmitter to the left side of the electrical component box in outdoor unit,

then connect the power and communication cable between the transmitter and the outdoor; refer to the figure below.

???If you install a transmitter to an outdoor unit, every indoor unit which is connected to an outdoor unit can be controlled simultaneously.

???Each outdoor unit connected to the same centralized controller has its own transmitter.

F1 F2

Communication cable

Outdoor unit

Electrical component box

??? Distance between the centralized controller and the last transmitter should be 1000 meters or less.

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II. Control System

4.Installation

(3)Wiring diagram

???Each outdoor unit connected to the same centralized controller has its own transmitter.

???Distance between the centralized controller and the last transmitter should be

1000 meters or less.

Outdoor unit 1

Transmitter 1

Centralized

controller

Outdoor unit 2

(5) Assigning address

??? Turn the arrow of rotary switch on the transmitter to appropriate position. Transmitters controlled with the same centralized controller must have different addresses.

Transmitter rotary switch

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5. Assigning address

5-1. Indoor unit

1)Before installing the indoor unit, assign an address to the indoor unit according to the air conditioning system plan.

2)The address of the indoor unit is assigned by adjusting MAIN(SW02) and RMC(SW01)

rotary switches.

Indoor unit PCB

SW02 MAIN SW01 RMC

3)The MAIN address is for communication between the indoor unit and the outdoor unit. Therefore, you must set it to operate the air conditioner properly.

4)It is required to set the RMC address if you install the wired remote controller and/or the centralized controller.

5)If you install optional accessories such as the wired remote controller, centralized controller, etc. see an appropriate installation manual.

6)If an optional accessory is not installed, you do not have to set the RMC address. However, adjust K1 and K2 switches of the SW03 DIP switch to "ON" position in this case.

7)Set the MAIN address by adjusting the rotary switch(SW02) from 0 to F. Each indoor unit connected to the same outdoor unit

must have different address.

i.e. If an indoor unit does not have an optional accessory and its MAIN address is "4"

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II. Control System

5. Assigning address

5-2. Outdoor unit

Rotary switch

Outdoor unit PCB

You should display that how many indoor units are connected to the outdoor unit.

Refer to the table below, then turn the arrow to appropriate position.

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6. Indoor unit PCB option code

6-1. PCB option code input method (example : 021E31142285)

Be sure to input the option code suitable for the indoor unit by use of wireless remote controller after replacing the PCB of indoor unit.

Follow to do the following 15 steps sequentially.

??? Step 1

Method)

??? Remove the battery of remote controller.

??? Push the temperature adjustment button simultaneously.

??? Insert the battery.

Result)

When the display of remote controller is indicated as shown in the right, then go to the step 2.

??? Step 2

Method)

If the first digit of remote controller shows "0", go to the step 3.

??? If it shows 1, press the operation selection button one time to change it into 0 and then go to step 3.

??? Step 3

Method)

Input the second digit of option code by pressing the temperature adjustment button (up). example) 021E31142285

Result)

If 2 is displayed, go to the step 4 (whenever pressing the button, 1~9, A,B,C,D,E,F are lit in order.)

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II. Control System

6. Indoor unit PCB option code

??? Step 4

Method)

Input the third digit of option code by pressing the temperature adjustment button (down). example) 021E31142285

Result)

If 1 is displayed, go to the step 5.

??? Step 5

Method)

Input the fourth digit of option code by pressing the fan speed adjustment button.

example) 021E31142285

Result)

If E displays, go to step 6.

??? Step 6

Method)

Input the fifth digit of option code by pressing the On timer button. example) 021E31142285

Result)

If 3 displays, go to step 7.

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??? Step 7

Method)

Input the sixth digit by pressing the Off timer button.

example) 021E31142285

Result)

If 1 displays, go to step 8.

??? Step 8

Method)

After completion up to step 7, pressing mode button.

??? 1 ~ 7 steps are saved internally.

??? If the first number is 1 at the time, it is correct. So go to step 9.

??? If wanting to see the screen of 2 ~7 steps, press the mode button to make the first digit 0.

??? Step 9

Method)

Input the eighth digit by pressing the temperature adjustment button (up).

example) 021E31142285

Result)

If 4 displays, go to step 10.

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II. Control System

6. Indoor unit PCB option code

??? Step 10

Method)

Input the ninth digit by pressing the temperature adjustment button (down).

example) 021E31142285

Result)

If 2 displays, go to step 11.

??? Step 11

Method)

Input the tenth digit by pressing fan speed adjustment button. example) 021E31142285

Result)

If 2 displays, go to step 12.

??? Step 12

Method)

Input the 11st digit by pressing the

On timer button.

example) 021E31142285

Result)

If 8 displays, go to step 13.

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??? Step 13

Method)

Input the 12th digit by pressing the

Off timer button.

example) 021E31142285

Result)

If 5 displays, go to step 14.

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II. Control System

6. Indoor unit PCB option code

6-2. Option code

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II. Control System

7. S-Net

Rear of computer

1)Download S-NET program to your PC, then execute Setup.exe to install the program.

2)If the installation is completed successfully, connect RS-485 converter to COM1 or COM2 port on your computer.

3)Connect R1 and R2 terminals on the transmitter PCB to TX+ and TX- on the RS-485 converter.

4) Double-click DVMSNET 2.0 icon to open the program after completing the installation.

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8. Integrating power distribution system

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II. Control System

9. Building management system

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I. Indoor unit

1. Features

1-1. 1-Way cassette type

(1) Efficient cooling & stylish design

This type sends cool air from the ceiling to one direction; thus immediate cooling.

Even more, the stylish design blends with any interior design.

(2) Space saving

Installation in the ceiling translates to more available space in the room.

Body

Drain pan

Bio heat exchanger

Long-life air filter

Indicators & Remote control sensor

Panel

Washable front grille

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(3)Features of the 1-way cassette type

1)Long-life air filter

The long-life filter requires no maintenance

for up to 2,000 hours.

2) Bio heat exchanger & air filter

Samsung???s own heat exchanger and air filter prevent any penetration of fungi or bacteria into the system.

3) Double-insulated cabinet

Dual insulation of the the steel cabinet inhibits rust caused by dew.

4) Detachable front grille

Trouble-free cleaning of detachable front grill.

5) Indicator for filter cleaning

A filter cleaning indicator is displayed both

on the indoor unit and the wired remote controller.

6) Compact design

This unit does not require much space and can be installed into a shallow ceiling.

7) Lift-up drain pump

The drain pump can lift condensed water up to 750mm above the drain port.

This allows more flexibility in routing the tube through the ceiling space.

Insulating material (Foam PU) Insulating material EPS

Cabinet

Height : 180mm

max. 750mm

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I. Indoor unit

1. Features

1-2. 4-Way cassette type

(1) Powerful functions

The 4-way cassette type air conditioner has all the features of the 1-way cassette type; compact design, long-life air filter, bio heat exchanger, lift-up drain pump, etc.

(2) Higher & broader cooling

This type is used in applications where a high ceiling and open space is present, resulting in equal & wide-range cooling.

Slim & light body

Bio heat exchanger

Turbo fan

Easy-access electrical component box

Indicators & remote control sensor

Long-life filter

Washable & detachable front grille

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(3) Features of 4-way cassette type

3) Sub duct

A sub duct connected to the side of the cassette air conditioner allows the simultaneous cooling / heating of two separate rooms. (Must use an additional ventilation fan)

Sub duct pathway

4) Efficient cooling

Cool air is distributed in all directions from the ceiling, resulting in equal & fast cooling.

5) Compact design

Little space is required for installation into a shallow ceiling.

6) High performance drain pump

The drain pump can lift condensed water up to 750mm above the drain port, thus allowing more flexibility in piping the tube through the ceiling space.

Height : 242mm

max. 750mm

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I. Indoor unit

1. Features

1-3. Duct type

(1) Economic installation

Several diffusers branch off from an indoor unit, adjusting the room temperature, which makes many rooms to be air conditioned with only one indoor unit.

Looks of installed Duct (Built-in type)

(2) High external static pressure

Adjustable external static pressure allows ducts from the unit to be used more extensively. This facilitates convenient positioning of the air-outlet vents in optimum locations.

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(3)Features of Duct type

1)Application methods

2) Way of air intake & Inserting air filter

Air intake can be positioned either at the back or below the unit. Similarly, the air filter can be inserted either from the back or from the bottom of the unit.

min. 260mm

Air filter

Air filter

Air intake from belowAir intake from the back

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I. Indoor unit

1. Features

1-4. Wall-mounted type

(1) BIO-components

Samsung air conditioners ensure cleaner cooling than any other air conditioner. The components of our air conditioners (including the filters) have been treated with our unique antibacterial formula, which prevent the proliferation of fungi and bacteria within the unit, helping to keep the unit clean, and to block odors from developing. This process also extends product life span. Breathe with ease and enjoy the cool refresh- ing air provided by Samsung air conditioners with Bio-components.

(2)Features of wall-mounted type

1)Bio air cleaning system

Samsung air conditioners are equipped with 3-state filters for clean, fresh air.

???The bio pre-filter is the unit???s outermost filter, uniquely treated with antibacterial agents, catching most particles in the air such as dust.

???The bio pure air filter grabs smaller particles such as micro-organisms which may have

escaped the bio pre-filter.

???The bio deodorizing filter further cleans and deodorizes the air just before it enters the heat exchanger.

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2)Look at how well these filters perform

???Hydrocarbon analysis

-Test: A deodorizing filter is installed within the duct and its efficiency is tested.(at a wind speed of 0.35m3/min.)

-Method: Measure the removal efficiency by installing a filter inside the duct, fixing the density of toluene gas and measuring its density at the exit

point.-Tested by AFTL (U.S.A)

???Particle size vs. removal efficiency

-Test: When the size of dust is 5??m, the maximum removal efficiency is 75.6%. (at a wind speed of 1.42m3/min.)

-Method: The removal efficiency was tested by measuring the sizes of the particles removed and the amount of dust

in the front and back of the filter with a laser particle counter.

-Tested by AFTL (U.S.A)

???AFTL(Air Filter Testing Laboratories, Inc.)

4632 Old laGrange Road, 1 Chestwood, KY 40014 Tel/Fax:(502) 222-5729

3)Specially designed for easy installation

Our new air conditioners are extremely compact and much lighter than previous models, making them extremely easy to handle and install.

Additionally, with its stylish design, a Samsung air conditioner will be an attractive addition to any home or office.

???Bio deodorizing filter

Removal efficiency

Real time (min)

???Bio pure filter

Removal efficiency

Ambient atmospheric particle size ranges

Conventional

New

4) Easily detachable and washable front grille

Volume 28% Down

It is easy to clean as the grille can be pulled apart and easy to replace as it just slides in.

5) One-touch hanger plate

The main housing and the installation plate can be easily separated with a simple movement as shown in the diagram.

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I. Indoor unit

1. Features

1-5. Floor standing type

(1)Features of floor standing type

1)The auto shutter increased clean liness

The auto shutter protects the air conditioner from dust even without a cover and the air conditioner goes well with any home.

2) Using the control panel on the indoor unit

You can operate with indoor unit when you do not wish to or cannot operate the air conditioner with the remote control.

3) Using the remote control

All functions of the air conditioner can be controlled with the remote control.

Automatic operating mode/cooling mode/dry mode/3way(Turbo, Long, Sleep timer)/fan mode/adjusting the air flow direction vertically/setting the on timer/setting the off timer.

4) Flexibility of installation

This unit will sustain climate control in a large area. Suitable in commercial environments such as restaurants, shops, and offices to ensure the comfort of customers and staff.

These particularly stylish units, using only a small amount of floor space, will install in many places where conventional split systems will not fit.

The low-level pipe work connection makes this unit attractive in restaurants, offices or in the home. Available with a heating function or cooling only. Each model also has auto-louvers and a turbo function.

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5) Design

Air flow blades (up/down orientation)

Air flow blades (right/left orientation)

Automatic shutter

Air outlet

Air filter

Air inlet

??? Control panel

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I. Indoor unit

1. Features

1-6. Ceiling type

(1) Convenient installation

The ceiling type air conditioner can be easily installed into a corner of the ceiling even

if the ceiling is very narrow. This is especially useful when installation of an air conditioner in the center of the ceiling is impossible due to a structure such as a lighting fixture.

(2) Bio tech for fresh air and advanced function

Antibiotic bio-components control the spreading of bacteria throughout the system.

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(3)Features of ceiling type

1)Long life filter with antibacterial treatment

The detachable filter can be cleaned easily,

thus controlling the propagation of fungi & bacteria.

2) Drain water lift-up mechanism (Optional)

The ???Drain water lift-up??? mechanism offers more

flexible installation.

3) Double auto swing

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I. Indoor unit

2. Specification

2-1. 1-way cassette type

(1) 50Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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(2) 60Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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I. Indoor unit

2. Specification

2-2. 4-way cassette type

(1) 50Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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(2) 60Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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I. Indoor unit

2. Specification

2-3. Duct type (Low silhouette)

(1) 50Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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(2) 60Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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I. Indoor unit

2. Specification

2-4. Duct type (Built-in)

(1) 50Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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I. Indoor unit

2. Specification

(2) 60Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

I 23

I. Indoor unit

2. Specification

2-5. Duct type (High pressure)

(1) 50Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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(2) 60Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

I 25

I. Indoor unit

2. Specification

2-6. Wall-mounted type

(1) 50Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

I 27

I. Indoor unit

2. Specification

(2) 60Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

I 29

I. Indoor unit

2. Specification

2-7. Floor standing type

(1) 50Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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(2) 60Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

I 31

I. Indoor unit

2. Specification

2-8. Ceiling type

(1) 50Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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(2) 60Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

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I. Indoor unit

3. Functional parts and safety devices

3-1. 1-way cassette type

3-2. 4-way cassette type

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3-3. Duct type (Low silhouette)

I 35

I. Indoor unit

3. Functional parts and safety devices

3-4. Duct type (Built-in)

3-5. Duct type (High pressure)

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3-6. Wall-mounted type

I 37

I. Indoor unit

3. Functional parts and safety devices

3-7. Floor standing type

I 38

4. Capacity table

4-1. 50Hz

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I. Indoor unit

4. Capacity table

TC : Total capacity

I 40

TC : Total capacity

I 41

I. Indoor unit

4. Capacity table

I 42

TC : Total capacity

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I. Indoor unit

4. Capacity table

TC : Total capacity

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4-2. 60Hz

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I. Indoor unit

4. Capacity table

TC : Total capacity

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TC : Total capacity

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I. Indoor unit

4. Capacity table

I 48

TC : Total capacity

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I. Indoor unit

4. Capacity table

TC : Total capacity

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5. Dimension

5-1. 1-way cassette type

Unit : mm

??? Check the position of remote control sensor and indicators before installing the unit.

??? If you want to install optional parts, refer to an appropriate installation manual.

I 51

I. Indoor unit

5. Dimension

5-2. 4-way cassette type

(1) 5.2kW ~ 7.2kW

Unit : mm

??? Check the position of remote control sensor and indicators before installing the unit.

??? If you want to install optional parts, refer to an appropriate installation manual.

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(2) 10.5kW

Unit : mm

??? Check the position of remote control sensor and indicators before installing the unit.

??? If you want to install optional parts, refer to an appropriate installation manual.

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I. Indoor unit

5. Dimension

5-3. Duct type (Low silhouette)

Unit : mm

??? If you want to install optional parts, refer to an appropriate installation manual.

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5-4. Duct type (Built-in)

(1) 2.0kW ~ 4.0kW

Unit : mm

??? If you want to install optional parts, refer to an appropriate installation manual.

I 55

I. Indoor unit

5. Dimension

(2) 5.2kW ~ 7.2kW

Unit : mm

??? If you want to install optional parts, refer to an appropriate installation manual.

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5-5. Duct type (High pressure)

Unit : mm

??? If you want to install optional parts, refer to an appropriate installation manual.

I 57

I. Indoor unit

5. Dimension

5-6. Wall-Mounted type

(1) 2.0kW ~ 4.0kW

Unit : mm

??? If you want to install optional parts, refer to an appropriate installation manual.

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(2) 5.2kW ~ 7.2kW

Unit : mm

??? If you want to install optional parts, refer to an appropriate installation manual.

I 59

I. Indoor unit

5. Dimension

5-7. Floor standing type

312mm

1850mm

1016mm

600mm

Unit : mm

??? If you want to install optional parts, refer to an appropriate installation manual.

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5-8. Ceiling type

Unit : mm

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I. Indoor unit

5. Dimension

5-9. Wireless remote controller / Receiver

(1)For 1-way cassette / 4-way cassette / Wall-mounted / Floor standing / Ceiling type (AVMK??? / AVMC??? / AVMW??? / AVMP??? / AVMF???)

???MR-AC01

??? MR-AH01

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??? AVMKC???

MGKC118IE0

MGKC118IM0

MGKC118IA0

MGKC118IC0

Remote control sensor

Timer indicator

On/off indicator

??? AVMKH???

MGKH118IE0

MGKH118IM0

MGKH118IA0

MGKH118IC0

Remote control sensor

Timer indicator

On/off(Green) & Removing

frost(Red) indicator

Fan indicator

Filter sign indicator

Fan indicator

Filter sign indicator

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I. Indoor unit

5. Dimension

??? AVMCC???

MGCC095IE0

MGCC095IM0

MGCC095IA0

MGCC095IC0

??? AVMCH???

MGCH095IE0

MGCH095IM0

MGCH095IA0

MGCH095IC0

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??? AVMWC???

Timer indicator

On/off indicator

On/off button

??? AVMWH???

Timer indicatorRemote control sensor

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I. Indoor unit

5. Dimension

??? AVMPC???

??? AVMPH???

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??? AVMFC???

??? AVMFH???

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I. Indoor unit

5.Dimension

(2)For duct type (AVMD??? / AVMB??? / AVMH???)

???MR-AC00

??? MR-AH00

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???MRK-B00(concealed type)

???MRW-10A(wire kit)

???MRK-A00(standard type)

???MRW-10A(wire kit)

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I. Indoor unit

5. Dimension

5-10. Wired remote controller

(1)For 1-way cassette / 4-way cassette / Wall-mounted / Floor standing / Ceiling type (AVMK??? / AVMC??? / AVMW??? / AVMP??? / AVMF???)

???MWR-AC01

Wiring hole

??? MWR-AH01

Wiring hole

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(2)For duct type (AVMD??? / AVMB??? / AVMH???)

???MWR-AC00

Wiring hole

??? MWR-AH00

Wiring hole

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I. Indoor unit

5. Dimension

5-11. Option controller

(1) Centralized controller

(2) Function controller

Wiring hole

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6. Refrigerant system diagram(Cooling only & heat pump)

6-1. Refrigerant system diagram

electronic expansion valve kit

fan

temperature sensor

motor

strainer

strainer

heat exchanger

temperature sensor

temperature sensor

6-2. Main parts status

(1) Temperature sensor (EIS, Evaporator Inlet Sensor)

The means to measure the refrigerant temperature at the inlet of heat exchanger which is used as the data for control of electronic expansion valve.

(2) Temperature sensor (EOS, Evaporator Outlet Sensor)

The means to measure the refrigerant temperature at the outlet of heat exchanger which is used as the data for control of electronic expansion valve.

(3) Temperature sensor (IATS, Indoor Air Temperature Sensor)

The means to measure the indoor temperature which is used as the data for operation method of indoor and outdoor unit.

(4) Electronic expansion valve (EEV) kit

For the MICOM of indoor unit to control the opening of electronic expansion valve by comparing the temperatures of inlet and outlet of heat exchanger for the optimum control of refrigerant flow.

(5) Strainer

It has the structure in which the filter is inserted and it removes the foreign material from the piping inside.

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I. Indoor unit

7. Electric circuit diagram

7-1. 1-way cassette type

(1) Cooling only (AVMKC???)

(2) Heat pump (AVMKH???)

I. Indoor unit

7. Electric circuit diagram

7-2. 4-way cassette type

(1) Cooling only (AVMCC???)

(2) Heat pump (AVMCH???)

I. Indoor unit

7. Electric circuit diagram

(2) Heat pump (AVMDH??? / AVMBH??? / AVMHH???)

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I. Indoor unit

7. Electric circuit diagram

7-4. Wall-mounted type

(1) Cooling only (AVMWC???)

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(2) Heat pump (AVMWH???)

I. Indoor unit

7. Electric circuit diagram

7-5. Floor standing type

(1) Cooling only (AVMPC???)

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(2) Heat pump (AVMPH???)

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I. Indoor unit

7. Electric circuit diagram

7-6. Ceiling type

(1) Cooling only (AVMFC???)

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(2) Heat pump (AVMFH???)

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I. Indoor unit

8. Noise level

8-1. Overall

??? Duct type(Built-in)

1.5m

Microphone

230V/50Hz 220V/60Hz

Model

High Low High Low

??????020?????? 37.0 34.0 37.0 34.0

??????026/032?????? 40.0 37.0 40.0 37.0

??????035/040?????? 40.0 38.0 40.0 38.0

??????052?????? 40.0 38.0 40.0 38.0

??????070/072?????? 42.0 40.0 42.0 40.0

??? 4-way cassette type

1.5m

Microphone

230V/50Hz 220V/60Hz

Model

High Low High Low

High Low High Low

??????105?????? 43.0 45.0 43.0 45.0

??????128?????? 42.0 44.0 42.0 44.0

High Low High Low

??????052?????? 35.0 32.0 35.0 32.0

??????070/072?????? 38.0 36.0 38.0 36.0

??? Wall-mounted type

1m

1m

Microphone

230V/50Hz 220V/60Hz

Model

High Low High Low

??????020?????? 29.0 28.0 29.0 28.0

??????026/032?????? 34.0 30.0 34.0 30.0

??????035/040?????? 38.0 35.0 38.0 35.0

??????052?????? 41.0 37.0 41.0 37.0

??????070/072?????? 44.0 41.0 44.0 41.0

??? These test results are based on the standard installation condition.

??? Actual noise level may differ, depending on the room structure, etc. since these noise values are from an anechoic room.

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8-2. Octave band level

(1) 1-way cassette type

Octave band center freqency(Hz)

Octave band center freqency(Hz)

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I. Indoor unit

8. Noise level

Octave band center freqency(Hz)

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(2) 4-way cassette type

Octave band center freqency(Hz)

Octave band center freqency(Hz)

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I. Indoor unit

8. Noise level

Octave band center freqency(Hz)

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(3) Duct type (Low silhouette)

Octave band center freqency(Hz)

Octave band center freqency(Hz)

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I. Indoor unit

8.Noise level

(4)Duct type (Built-in)

Octave band center freqency(Hz)

Octave band center freqency(Hz)

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Octave band center freqency(Hz)

Octave band center freqency(Hz)

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I. Indoor unit

8. Noise level

Octave band center freqency(Hz)

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(5) Duct type (High pressure)

Octave band center freqency(Hz)

Octave band center freqency(Hz)

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I. Indoor unit

8.Noise level

(6)Wall-mounted type

Octave band center freqency(Hz)

Octave band center freqency(Hz)

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Octave band center freqency(Hz)

Octave band center freqency(Hz)

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I. Indoor unit

8. Noise level

Octave band center freqency(Hz)

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(7) Floor standing type

Octave band center freqency(Hz)

Octave band center freqency(Hz)

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I. Indoor unit

8. Noise level

Octave band center freqency(Hz)

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(8) Ceiling type

Octave band center freqency(Hz)

Octave band center freqency(Hz)

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I. Indoor unit

9. Velocity of air flow & temperature distribution

9-1. 1-way cassette type

(1)AVMKH035???

1)Velocity of air flow

1.5

2.0m/sec

1

1.5m/sec

1.0m/sec

0.5

2)Heating temperature distribution

1.535C

32C

0 0.5 1 1.5 2 2.5 3 3.5 4 4.5

Note ??? If a ceiling is high, you can apply a 1-way cassette type air conditioner.

??? The standard ceiling height is 3 meters and those values are tested at the standard height.

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9-2. 4-way cassette type

(1)AVMCH070???

1)Velocity of air flow

1.5m/sec

1.5

1.0m/sec

1

0.5m/sec

0.5

2) Heating temperature distribution

I 103

I. Indoor unit

9.Velocity of air flow & temperature distribution

(2)AVMCH105???

1)Velocity of air flow

2.0m/sec

1.5

1.5m/sec

1

1.0m/sec

0.5m/sec

0.5

2) Heating temperature distribution

35 C

1.5

32 C

1

29 C

26 C

0.5

Note ??? The standard ceiling height is 2.7 meters and those values are tested at the standard height.

I 104

9-3. Wall-mounted type

(1)AVMWH035???

1)Velocity of air flow

1.5

0.5m/sec

0.5

2) Heating temperature distribution

32 C

1

29 C

0.5

Note ??? The standard ceiling height is 2.7 meters and those values are tested at the standard height.

I 105

I. Indoor unit

9. Velocity of air flow & temperature distribution

(2)AVMWH070???

1)Velocity of air flow

1.0m/sec

0.5m/sec

0.5

2) Heating temperature distribution

1.5

35 C

29 C

26 C

0.5

Note ??? The standard ceiling height is 2.7 meters and those values are tested at the standard height.

I 106

9-4. Ceiling type

(1)AVMFH070???

1)Velocity of air flow

1.5

1

0.5

2.0m/sec

1.0m/sec

0.5m/sec

2) Heating temperature distribution

1.5

35 C

1

29 C

0.5

Note ??? The standard ceiling height is 2.7 meters and those values are tested at the standard height.

I 107

I. Indoor unit

10. Fan specifications

10-1. Duct type (Low silhoutte)

(1) ??????052??????

Fan Speed (CMM)

10-2. Duct type (Built-in)

(1) ??????020??????

Fan speed (m3/min)

(2) ??????026/032??????

Fan speed (m3/min)

I 108

(3) ??????035/040??????

Fan speed (m3/min)

(5) ??????070/072??????

Fan speed (m3/min)

(4) ??????026/032??????

Fan speed (m3/min)

I 109

I. Indoor unit

10. Fan specifications

10-3. Duct type (High pressure)

(1) ??????105??????

20

Air flow (m3/min)

(2) ??????128??????

Air flow (m3/min)

I 110

11. Panel

11-1. 1-way cassette type

(1) Design

(2) Status

I 111

I. Indoor unit

11. Panel

11-2. 4-way cassette type

(1) Design

(2) Status

I 112

12. Electronic expansion valve kit

12-1. Design

A

B

C

12-2. Status depending on the combination

??? An electronic expansion valve can be applied to 1~3 indoor units. If you want to install more indoor units, separate it properly.

I 113

I. Indoor unit

13. Options

Note ??? For specifications of panel and electronic expansion valve, refer to pages 111~113 at this chapter.

???In case of the wireless remote controller, which is the option for duct type, wireless remote controller, receiver & display unit wire and receiver & display unit should be purchased together.

I 114

Note ??? For specifications of panel and electronic expansion valve, refer to pages 111~113 at this chapter.

???In case of the wireless remote controller, which is the option for duct type, wireless remote controller, receiver & display unit wire and receiver & display unit should be purchased together.

I 115

I 116

8. Consideration for outdoor unit selection

9. Noise level

10 Options

IV. Outdoor unit

1. Unit selection (with cooling load)

1-1. Indoor unit selection

Select the nearest load capacity indoor unit with given load after finding indoor and outdoor temperature using indoor unit capacity table. (The indoor unit capacity should larger than given load.)

??? The described capacity may be different to each indoor unit according to combination. So, the real capacity should be calculated with outdoor unit capacity table.

1-2. Outdoor unit selection

The allowable combination is described on the indoor unit combination total capacity index table.

For the standard of indoor unit and outdoor unit combination, select the nearest value that the total indoor unit capacity index is less than a 100% outdoor unit combination capacity index.

??? Indoor unit combination total capacity index

??? Indoor unit capacity index

- 50Hz

- 60Hz

1-3. Real function data

(1)Select the exact table according to outdoor unit model and combination rate using outdoor unit capacity table. According to given indoor and outdoor temperature, find outdoor unit capacity and power input using the table. Each indoor unit capacity (power input) is calculated as follow.

IUC=AUC x INX/TNX

IUC: Each indoor unit capacity (power input)

OUC: Outdoor unit capacity (power input)

INX: Each indoor unit capacity index

TNX: Total capacity index

(2)According to pipe length, change the indoor unit capacity.

If the changed capacity is smaller than load, change it to larger capacity indoor unit and repeat the selecting progress.

IV 2

1-4. Example for unit selection with cooling load

(1)Given condition

1)Design condition <Cooling: Indoor 20??C(WB), Outdoor 33??C(DB)>

2)Cooling load

3)Power supply unit: 3 Phase 380V 50Hz

4)Pipe length: 30m

(2)Indoor unit selection

Select the suitable capacity for condition of 'Indoor 20??C(WB), Outdoor 33??C(DB)' using indoor unit capacity table. The selected result is as follow.

(3) Outdoor unit selection

1) Assume the indoor unit and outdoor unit combination as follow.

Outdoor unit: RVMH100GBM0

Indoor unit: AVMKH026EA0 x 2,AVMKH035EA0 x 2,AVMCH052EA0 x 1,AVMCH070EA0 x 1

2) Indoor unit combination total capacity index

26x2 + 35x2 + 52x1 + 70x1 = 244, (244/280) x 100% = 87%

3)Result: Because it is within 50~100%, it is 'Right' selection.

(4)Real function data with indoor unit combination

1)For the 87% combination, calculate the cooling capacity of outdoor unit (RVMH100GBM0).

27.14kW ??? 90% (Indoor temperature: WB 20??C, Outdoor temperature: DB 33??C)

24.12kW ??? 80% (Indoor temperature: WB 20??C, Outdoor temperature: DB 33??C)

Therefore, 26.23 = 24.12 + {(27.14-24.12)/10}x7: Calculated in 87%

2) Outdoor unit (RVMH100GBM0) cooling capacity: 26.23kW ??? 87% (Indoor temperature: WB 20??C, Outdoor temperature: DB 33??C)

3)Capacity change factor with pipe length (30m): 0.95(30m).

4)Each cooling capacity

AVMKH026EA0: 26.23 x 26/244 x 0.95 = 2.66(kW)

AVMKH035EA0: 26.23 x 35/244 x 0.95 = 3.57(kW)

AVMCH052EA0: 26.23 x 52/244 x 0.95 = 5.31(kW)

AVMCH070EA0: 26.23 x 70/244 x 0.95 = 7.15(kW)

IV 3

IV. Outdoor unit

2. Specification

2-1. 50Hz

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

IV 4

???1) Indoor temperature : 27??C DB, 19??C WB / Outdoor temperature : 35??C DB, 24??C WB / Piping length : 10m, difference : 0m

???2) Indoor temperature : 20??C DB, 19??C WB / Outdoor temperature : 7??C DB, 6??C WB / Piping length : 10m, difference : 0m

???3) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

IV 5

IV. Outdoor unit

2. Specification

2-2. 60Hz

???3) Indoor temperature : 29??C DB, 19??C WB / Outdoor temperature : 46??C DB, 24??C WB / Piping length : 10m, difference : 0m

???4) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

IV 6

???3) Indoor temperature : 29??C DB, 19??C WB / Outdoor temperature : 46??C DB, 24??C WB / Piping length : 10m, difference : 0m

???4) Actual noise level may differ, depending on the room structure, etc, since these noise values are from an anechoic room.

IV 7

IV. Outdoor unit

3. Functional parts and safety devices

3-1. Outdoor unit

IV 8

Functional parts
Safety devices
Compressor

IV 9

IV. Outdoor unit

3. Functional parts and safety devices

IV 10

IV 11

IV. Outdoor unit

3. Functional parts and safety devices

IV 12

3-2. Super cooler

IV 13

IV. Outdoor unit

4. Capacity table

4-1. 50Hz

(1) Cooling

IV 14

TC : Total capacity, PI : Power input

IV 15

IV. Outdoor unit

4. Capacity table

IV 16

TC : Total capacity, PI : Power input

IV 17

IV. Outdoor unit

4. Capacity table

(2) Heating

IV 18

IV 19

IV. Outdoor unit

4. Capacity table

4-2. 60Hz

(1) Cooling

IV 20

TC : Total capacity, PI : Power input

IV 21

IV. Outdoor unit

4. Capacity table

IV 22

TC : Total capacity, PI : Power input

IV 23

IV. Outdoor unit

4. Capacity table

IV 24

TC : Total capacity, PI : Power input

IV 25

IV. Outdoor unit

4. Capacity table

IV 26

TC : Total capacity, PI : Power input

IV 27

IV. Outdoor unit

4. Capacity table

(2) Heating

IV 28

IV 29

IV. Outdoor unit

4. Capacity table

IV 30

5. Dimension

5-1. Upward (2-FAN)

Unit : mm

IV 31

IV. Outdoor unit

5. Dimension

5-2. Onward

Unit : mm

5-3. Upward (1-FAN)

Unit : mm

IV. Outdoor unit

5. Dimension

5-4. Upward(Super cooler)

Unit : mm

6. Refrigerant system diagram

IV 35

IV. Outdoor unit

6.Refrigerant system diagram

(2)??????080/100??????

fan

motor

solenoid valve

(HGBV)

capillary tube

temperature sensor

valve (LBV)

solenoid valve (VBV)

accumulator

low pressure switch

flow direction of refrigerant

bypass flow of protection actuated

IV 36

(3) Main parts status

1) Digital scroll compressor

The variable capacity type compressor to control the capacity up to 10 ~ 100% with 19 steps.

2) Accumulator

To prevent the incoming of the liquid refrigerant to the compressor (prevention of liquid back).

3) Receiver

To reduce the noise by flowing the high pressure liquid refrigerant to the high pressure pipe and to control the amount of refrigerant during the individual operation of indoor unit.

4) Solenoid valve (PWM)

It is installed at the top of digital scroll compressor and at the low pressure pipe, which is used for operating the digital scroll compressor.

When the valve is open, the digital scroll compressor keeps the state of unloading.

5) Solenoid valve (HGBV)

When the low pressure gets lower, the valve is open by the low pressure safety device. The valve is open in order to reduce the load at the start of compressor and when the system stops and then keep the balance of low pressure.

6) Solenoid valve (LBV)

When the compressor is overheated, it actuates to lower the temperature of compressor for stable operation.

7) Solenoid valve (VBV)

The valve is open in order to reduce the load at the start of compressor and when the system stops and then keeps the balance of low pressure.

8) High pressure switch

To stop the system for the system protection when the high pressure exceeds the set value.

9) Low pressure switch

To stop the system for the system protection when the low pressure falls below the set value.

10) Temperature sensor (DTS, Discharge Temperature Sensor)

It is the means to measure the refrigerant temperature of compressor outlet which is used as the data for control of compressor.

11) Temperature sensor (CMS, Condenser Mid Sensor)

It is the detection means to do the optimum control of outdoor fan, which is used as the data for each protection or initial startup.

12) Temperature sensor (COS, Condenser Out Sensor)

It is used as the detection for calculation of over-cooling at the condenser outlet which is referred for the adjustment of refrigerant during refrigerant charging.

13) Temperature sensor (OATS, Outdoor Air Temperature Sensor)

To measure the outdoor temperature which is used for the determination of start method.

14) Fixed scroll compressor

The fixed capacity type compressor.

15) Temperature sensor (FDTS, Fixed Discharge Temperature Sensor)

It is the means to measure the refrigerant temperature of compressor outlet which is used as the data for control of fixed compressor.

IV 37

IV. Outdoor unit

6. Refrigerant system diagram

flow direction of refrigerant

bypass flow of protection actuated

IV 38

(2) ??????080/100??????

fan

motor

solenoid valve (HGBV)

capillary tube

accumulator

flow direction of refrigerant

bypass flow of protection actuated

IV 39

IV. Outdoor unit

6.Refrigerant system diagram

(3)Main parts status

1) Digital scroll compressor

The variable capacity type compressor to control the capacity up to 10 ~ 100% with 19 steps

2) Accumulator

To prevent the incoming of the liquid refrigerant to the compressor (prevention of liquid back).

3) Receiver

To reduce the noise by flowing the high pressure liquid refrigerant to the high pressure pipe and to control the amount of refrigerant during the individual operation of indoor unit.

4) Solenoid valve (PWM)

It is installed at the top of digital scroll compressor and at the low pressure pipe, which is used for operating the digital scroll compressor. When the valve is open, the digital scroll compressor keeps the state of unloading.

5) Solenoid valve (HGBV)

When the low pressure gets lower, the valve is open by the low pressure safety device. The valve is open in order to reduce the load at the start of compressor and when the system stops and then keep the balance of low pressure.

6) Solenoid valve (LBV)

When the compressor is overheated, it actuates to lower the temperature of compressor for stable operation.

7) Solenoid valve (VBV)

The valve is open in order to reduce the load at the start of compressor and when the system stops and then keeps the balance of low pressure.

8) High pressure switch

To stop the system for the system protection when the high pressure exceeds the set value.

9) Temperature sensor (DTS, Discharge Temperature Sensor)

It is the means to measure the refrigerant temperature of compressor outlet which is used as the data for control of compressor.

10) Temperature sensor (COS, Condenser Out Sensor)

When heating, used for defrost control by sensing outdoor heat exchanger temperature.

IV 40

11) Temperature sensor (OATS, Outdoor Air Temperature Sensor)

To measure the outdoor temperature which is used for the determination of start method.

12) Fixed scroll compressor

The fixed capacity type compressor.

13) 4-way valve (4-W/V)

It enables the change between cooling and heating by reversing the flow direction of refrigerant.

14) Electronic expansion valve (EEV)

By sensing suction temperature and low pressure, controls the suction super heat and mass flow of r efrigerant.

15) Check valve (C/V)

To reduce the loss of pressure at the electronic expansion valve while cooling and to prevent the over-load of the compressor.

16) SUC.S (Suction sensor)

To control EEV for optimized suction super heat to control over-heating at the electronic expansion valve by the temperature of the compressor suction part when heating.

17) OIL.S (Oil sensor)

To control EEV against liquid back and low dilution of oil to protect the compressor by measuring the tem- perature of oil used for controling SUMP at low temperature in cooling / heating mode.

18) Temperature sensor (FDTS, Fixed Discharge Temperature Sensor)

It is the means to measure the refrigerant temperature of compressor outlet which is used as the data for control of fixed compressor.

IV 41

IV. Outdoor unit

7. Electric circuit diagram

(2) ??????080/100??????

IV 43

IV. Outdoor unit

7. Electric circuit diagram

IV. Outdoor unit

8. Consideration for outdoor unit selection

8-1. Change of capacity depending on refrigerant piping length

(1) Change of cooling capacity

(2) Change of heating capacity

Example of a mark :

???

IV 46

8-2. Condition of operating restriction

(1) Cooling

(2) Heating

(3) Cautions for characteristics of heating capacity

IV 47

IV. Outdoor unit

9. Noise level

Octave band center freqency(Hz)

Octave band center freqency(Hz)

IV 48

Octave band center freqency(Hz)

Octave band center freqency(Hz)

IV 49

IV. Outdoor unit

10. Options

??? The discharge duct shall be bought suitable for the quantities of Fan.

IV 50

VInstallation

V. Installation

1. Product

1-1. Preparation for installation

When deciding on the location of the air conditioner with the owner, the following restrictions must be

taken into account.

(1) General

Do NOT install the air conditioner in a location where it will come into contact with the following elements:

???Combustible gases

???Saline air

???Machine oil

???Sulphide gas

???Special environmental conditions

If you must install the unit in such conditions, first consult your dealer.

(2) Moving the outdoor unit by wire rope

Fasten the outdoor unit by two 8m or longer wire ropes as shown at the figure. To protect damage or scratches, insert a piece of cloth between the outdoor unit and rope, then move the unit.

V 2

1-2. Deciding on where to install the air conditioner.

(1)Indoor unit

???There must be no obstacles near the air inlet and outlet.

???Install the indoor unit on a ceiling that can support its weight.

???Maintain sufficient clearance around the indoor unit.

???Make sure that the water dripping from the drain hose runs away correctly and safely.

???The indoor unit must be installed in this way, that they are out of public access. (Not touchable by the users)

(2)Outdoor unit

???The outdoor unit must NEVER be placed on its side or upside down, as the compressor lubrication oil will run into the cooling circuit and seriously damage the unit.

???Choose a location that is dry and sunny, but not exposed to direct sunlight or strong winds.

???Do not block any passageways or thoroughfares.

???Choose a location where the noise of the air conditioner when running and the discharged air do not disturb any neighbours.

???Choose a position that enables the pipes and cables to be easily connected to the indoor unit.

???Install the outdoor unit on a flat, stable surface that can support its weight and does not generate any unnecessary noise and vibration.

???Position the outdoor unit so that the air flow is directed towards the open area.

???Maintain sufficient clearance around the outdoor unit, especially from a radio, computer,

stereo system, etc.

???If the outdoor unit is installed at a height, ensure that its base is firmly fixed in position.

???Make sure that the water dripping from the drain hose runs away correctly and safely.

??? This device must be installed according to the national electrical rules.

V 3

V. Installation

1. Product

1-3. Space requirements for the air conditioner

(1) Indoor unit

more or 1500mm

2) 4-way cassette type

3) Duct type (Low silhouette)

5mm min

You must have 5mm or more space between the ceiling and the bottom of indoor unit. Otherwise, the noise from the vibration of indoor unit may bother the user.

V 4

4) Duct type (Built-in)

more or 1500mm

more or 1500mm

5mm min

You must have 5mm or more space between the ceiling and the bottom of indoor unit. Otherwise, the noise from the vibration of indoor unit may bother the user.

5) Duct type (High pressure)

ore m or m 1500m

more or 1500mm

You must have 5mm or more space between the ceiling and the bottom of indoor unit. Otherwise, the noise from the vibration of indoor unit may bother the user.

6) Wall-mounted type

V 5

V. Installation

1.Product

7)Floor standing type

8) Ceiling type

V 6

(2)Outdoor unit

1)If there is no obstacle around the outdoor unit...

Unit : mm

???Max. height of obstacle

-Front side : 1500mm or less

-Air inlet side : 500mm or less

-Right/Left side : No limit

2)If there is an obstacle around the outdoor unit...

???If an obstacle in front of the outdoor unit is higher than 1500mm, the half of additional height should be added to the S1.

???If an obstacle behind the outdoor unit is higher than 500mm, the half of additional height should be added to the S2.

V 7

V. Installation

1. Product

1-4. Accessories

(1) 1-way cassette type

(2) 4-way cassette type

(3) Duct type (Low silhouette)

V 8

(4) Duct type (Built-in)

(5) Duct type (High pressure)

(6) Wall-mounted type

V 9

V. Installation

1.Product

(7)Floor standing type

(6) Ceiling type

V 10

1-5. Installation

(1) Indoor unit (Example; 4-way cassette type)

1)Place the pattern sheet on the ceiling at the spot where you want to install the indoor unit.

Note ??? Since the diagram is made of paper, it may shrink or stretch slightly due to temperature or humidity. For this reason, before drilling the holes maintain the correct dimensions between the markings.

2)Insert bolt anchors, use existing ceiling supports or construct a suitable support as shown in figure.

IMPORTANT ??? Ensure that the ceiling is strong enough to support the weight of the indoor unit. Before hanging the unit, test the strength of each attached suspension bolt.

???If the length of suspension bolt is more than 1.5m, it is required to prevent vibration.

3)Install the suspension bolts depending on the ceiling type.

4)Screw eight nuts to the suspension bolts making space for

hanging the indoor unit.

IMPORTANT You must install the suspension bolts more than four when installing the indoor unit.

5) Hang the indoor unit to the suspension bolts between two nuts.

Note ??? Piping must be laid and connected inside the ceiling when suspending the unit. If the ceiling is already constructed, lay the piping into position for connection to the unit before placing the unit inside the ceiling.

Ceiling support

6)Screw the nuts to suspend the unit. Cut a pad stopper and place it on the bracket at this time.

7)Adjust the unit to the appropriate position considering the installation area for the front panel.

7-1 Place the pattern sheet on the indoor unit.

7-2 Adjust a space between the ceiling and the indoor unit by using the gauge of dimensions.

7-3 Fix the indoor unit securely after adjusting level of the unit by using a leveler.

7-4 Remove the pattern sheet, connect the other cables and install the front panel.

Note ??? For installation of another indoor unit, refer to an appropriate installation manual.

Ceiling

17mm

Gauge of

Dimensions

V 11

V. Installation

1.Product

(2)Outdoor unit

The outdoor unit must be installed on a rigid and stable base to avoid any increase in the noise level and vibration, particularly if the outdoor unit is to be installed in a location exposed to strong winds or at a height, the unit must be fixed to an appropriate support(wall or ground).

1) Fix the outdoor unit with anchor bolts.

Note ??? The anchor bolt must be 20mm or higher from the base surface.

To prevent the unit against a wild animal or something, cover part after connecting the pipe.

Piping

V 12

2. Panel

2-1. 1-way cassette type

(1) Accessories

M4x12 M5x16 bolt (4) tapped screw

(6)

(2)Installation

1) Open the front grille by pushing tabs on the grille.

2) Remove safety clips to open the grille completely.

3) Attach the panel to the indoor unit temporarily with 6 screws, then adjust it not to leave a gap between the ceiling and the panel.

V 13

V. Installation

2. Panel

4)Install the air flow blade.

4-1 Fix the right part of the blade to the indoor unit.

4-2 Fix the other side of the blade.

IMPORTANT ??? If the direction is incorrect, the blade will not be inserted smoothly. Check that prominence of the right side has a small rectangular groove.

4-3 Fix the middle part of the blade by pushing slightly the middle tab in the indoor unit.

5)Open the electrical component box by removing screws, then connect cables between the electrical component box and the panel.

IMPORTANT ??? Be careful about the color of cables not so that they will be mixed up.

6) Fix the panel by fastening 4 bolts; the bolt can be fastened up to 15mm.

Indoor unit

Standard length:20mm

Panel

??? If there is a gap between the panel and the ceiling, adjust the height of the indoor unit. Unless adjust the height, dew may form and drip from the gap.

7) Reinstall the front grille.

V 14

2-2. 4-way cassette type

(1) Accessories

(2)Installation

1)Open the electrical component box cover removing the screws.

2)Install the panel using two hooks on the both sides of the indoor unit.

3)Connect the cables of the panel to the PCB as shown in figure.

4)Close the electrical component box cover and secure the screws.

5)Secure the panel to the indoor unit using the bolts(4EA).

???There are four kinds of air blocking kits. Fill up the air outlet(s) with one or more kits depending on the situation, then install the insulation to block air completely.

Panel fixing holes

Eye

Air blocking kit

V 15

V. Installation

2. Panel

2-3. Duct type (Built-in)

(1) Accessories

Tapped screw Fixing bracket

(6)(1 or 2)

(2)Installation

1)Separate the front grille from the panel.

1-1 Push the lever of front grille right and left to lift it up and then open it.

1-2 Take out the safety clip at the both sides of front grille and separate the front grille.

2)Insert panel fixing screws(4EA or 5EA) and tighten them temporarily. Leave space of approx. 7~8mm between the screw and the indoor unit to insert the panel. Do not insert the screw into the rest of one or two hole(s) yet.

??????020/026/035??????

???Tighten 5 screws except one hole for fixing a bracket.

??????052/070??????

???Tighten 4 screws except two holes on right and left.

V 16

3)Attach the panel to the indoor unit, then push it to right or left to secure the panel. Narrow side of hole on the panel must be inserted between the screw and the indoor unit.

4)Adjust the location of panel so that there is no gap between the panel and ceiling, then tighten the screw completely.

5)Install the fixing bracket. Each air filter needs its own bracket.

??????020/026/035??????

???Fix 1 bracket to the rest hole on the panel with a supplied screw.

??????052/070??????

???Fix 2 brackets to two holes on right and left side of the panel with screws.

6)Reinstall the front grille.

??? The installation of front grille is in the reverse order of disassembly.

V 17

V. Installation

3. Connecting the indoor unit refrigerant pipe

There are two refrigerant pipes of differing diameters:

???A smaller one for the liquid refrigerant

???A larger one for the gas refrigerant

???The inside of copper pipe must be clean & has no dust.

1)Remove the pinch pipe on the pipes and connect the assembly pipes to each pipe, tightening the nuts, first manually and then with a wrench, a spanner applying the following torque.

Note ??? If the pipes must be shortened refer to page 19.

2)Must use insulator which is thick enough to cover the refrigerant pipe to protect the condensate water on the outside of pipe falling onto the floor and the efficiency of the unit will be better.

3)Cut off any excess foam insulation.

4)Be sure that there must be no crack or wave on the bended area.

5)It would be necessary to double the insulation thickness (10mm or more) to prevent condensation even on the insulator when if the installed area is warm and humid.

6)Shape an oil trap as shown in figure. The oil trap must be formed every level difference of 10m.

When the indoor unit is above the outdoor unit

When the outdoor unit is above the indoor unit

Outdoor unit

Oil trap

(Must be installed every 10m)

Indoor unit

Radius 5cm

Oil trap (suction tube)

V 18

Cutting/Flaring the Pipes

1) Make sure that you have the required tools available (pipe cutter, reamer, flaring tool and pipe holder).

2) If you wish to shorten the pipes, cut it with a pipe cutter, taking care to ensure that the cut edge remains at a 90?? angle with the side of the pipe. Refer to the illustrations below for examples of edges cut correctly and incorrectly.

3)To prevent any gas from leaking out, remove all burrs at the cut edge of the pipe, using a reamer.

4)Slide a flare nut on to the pipe and modify the flare.

5)Check that the flaring is correct, referring to the illustrations below for examples of incorrect flaring.

6)Align the pipes and tighten the flare nuts first manually and then with a wrench, applying the following torque.

??? In case of welding the pipe, you must weld with nitrogen gas blowing.

V 19

V. Installation

4. Drain hose installation (Example;4-way cassette type)

Care must be taken when installing the drain hose for the indoor unit to ensure that any condensate water is correctly drained outside.

1) Insert the flexible hose to the drain hose port.

Note ??? Attach the drain hose to the drain hose port with an adhesive for PVC and tape to prevent water leaks, then secure the hose with a band etc..(The band is not supplied with the air conditioner.)

2)Install the drain hose so that its length can be as short as possible. Internal diameter of the drain hose should be the same or slightly bigger than the external diameter of the drain hose port.

??? Inner diameter of the drain hose

32mm(Outer diameter)

Note ??? Give a slightly slant to the drain hose for proper drainage of condensate.

???Secure the drain hose with an adhesive for PVC and tape not to be separated from the unit.

3)Wrap the drain hose with the insulation drain as shown in figure and secure it.

Drain hose port

CAUTION

Must fit tightly against body without any gap.

No gap

CAUTION

Check that the indoor unit is level with the ceiling by using the leveler.

Install air ventilation to drain condensate water smoothly.

If it is necessary to increase the height of the drain hose somewhat, the portion directly after 30cm. If it is raised higher than 50cm, there can be water leaks.

Air ventilation

Band joint

Ceiling

Flexible hose

Ceiling

Do not give the hose and upward gradient after the connection port.

This will cause water to flow backwards when the unit is stopped, resulting in water leaks.

Upward gradient

Do not apply force to the piping on the unit side when connecting the drain hose. The hose should not be allowed to hang loose from its connection to the unit. Fasten the hose to a wall, frame or other support as close to the unit as possible.

Support pieces

1/100 or more

V 20

Note ??? If a concentrated drain hose is installed, refer to the figure below.

Concentrated drain hose

Testing the drainage

You should test the drainage after completing the installation.

Prepare a little water about 2.0 liter.

1)Remove two screws on the cover water supply intake and pull out the cover.

Cover water supply intake

2) Pour water into the indoor unit as shown in figure.

Note ??? If you do not pour water inside the water supply intake, water may spill from the indoor unit.

3) Confirm that the water flows out through the drain hose.

Note ??? You can check the drainage only when the air conditioner is in cool mode.

4) Reassemble the cover drain pump and the screws.

Note ??? For installation of another drain hose, refer to an appropriate installation manual.

V 21

V. Installation

5. Drain pump installation-optional

(Example;Low-silhouette duct type)

5-1. Accessories

5-2. Accessories

(1) Connect the cable to the electrical component box as shown at the figure.

Note ??? Connect the drain pump cable to yellow terminal(CN74) and the float switch to black terminal(CN51).

V 22

6. Wiring

???Caution

???All wiring and parts shall be the rated ones.

???For details of wiring, refer to the circuit diagram attached onto the outdoor unit.

???The electrical work shall be performed by the qualified electrical worker.

???The circuit diagram for wiring shows only the concept and so the details for actual work is not described.

???This air conditioner is consist of 3 phase 4 wire system and so the main circuit breaker to block the power shall be installed in the integrated manner.

???Be sure to install the circuit breaker and fuse on power cable of each equipment.

???Connect the wires to the terminals without excessive force and arrange the wires with the cover or other parts so that it may not be loosened. If it is loosened, it may cause the overheating, electrical shock and fire.

6-1. Overall system configuration (example)

V 23

V. Installation

6. Wiring

6-2. Cable specification for outdoor unit

6-3. Connection cord specification

??? The power supply cable shall be connected to the power supply terminal and shall be fixed with clamp as in the following figure.

???The unbalance of power shall be within 2% of power supply rating.

-If the power supply unbalance is great, the lifetime of condenser is shortened.

-If the power supply unbalance exceeds 4%, the indoor unit stops and error mode displays.

6-4. Wiring diagram

indoor unit

V 24

6-5. Connection cord wiring diagram

Outdoor unit

??? The communication cable shall be wired as follows:

???When the communication cable exceeds the specified length, the operation of air conditioner may be impossible due to the trouble of communication between indoor and outdoor unit.

-Maximum wire length : less than 120 m

-Total wiring length : less than 240 m

-Maximum communication branch cable: 10 branches

6-6. Power wiring and communication wiring configuration

???Be sure to run the power supply cable and communication cable through the electrical conduit as shown in the right side figure.

???Select the power supply cable from the left and

??? Be sure to install the power supply cable with the separation distance from the communication cable.

??? Take care that the pipe and wire do not contact each other.

V 25

V. Installation

6. Wiring

6-7. Communication cable connection

(1) Correct connection

Outdoor unit

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

V 26

(2)Typical wiring error

1)Star wiring connection to some of the indoor units

Outdoor unit

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

V 27

V. Installation

6. Wiring

2) Star wiring connection to every indoor units

Outdoor unit

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

V 28

3) Reverse wiring between indoor and outdoor units

Outdoor unit

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

V 29

V. Installation

6. Wiring

4) Disconnection between indoor and outdoor units

Outdoor unit

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

V 30

5) Reverse wiring between indoor units

Outdoor unit

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

V 31

V. Installation

6. Wiring

6) Disconnection between indoor units

Outdoor unit

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

Disconnection

F1 F1

F2 F2

F1 F1

F2 F2

F1 F1

F2 F2

V 32

7. Piping and refnet joint selection

7-1. Refrigerant piping system diagram

Example) in case of 6 indoor units installation

7-2. Piping selection

???distance between the farther indoor unit and outdoor unit :

V 33

V. Installation

7. Piping and refnet joint selection

7-3. Refnet joint selection

(1) Selection method of first refnet joint from the outdoor unit

The first refnet joint (joint A) from the outdoor unit shall be selected according to the outdoor unit model.

(2) Other refnet joint selection method

The refnet joint except the first one shall be selected according to the capacity of indoor unit installed.

V 34

8. Charge/recovery of refrigerant

8-1. Refrigerant charging

(1)Outdoor unit is charged with refrigerant when being delivered but additional refrigerant shall be charged for some part of system.

(2)After completion of vacuum, keep the following instructions to fill the refrigerant into the service port.

1)Check whether the stop valve of liquid and gas side are completely closed.

2)Fill the specified amount of refrigerant from the liquid stop valve service port at the compressor stopped.

??? If the length of refrigerant piping is longer than specified, be sure to charge the refrigerant.

???Do not charge the refrigerant from the gas side service port.

???If the refrigerant charging is not done in the above method, press the refrigerant charging button (key2) on outdoor unit PCB to operate the unit. After approximately 30 minutes, charge the specified amount of refrigerant to the service port of gas stop valve. If unavoidable, check the pressure table as per the outdoor temperature to charge the refrigerant.

Outdoor unit

gas side stop valve (service port)

liquid side stop valve (service port)

R

22

V 35

V. Installation

8. Charge/recovery of refrigerant

8-2. Additional refrigerant amount calculation method

(1)The amount of refrigerant filled in the outdoor when the product is delivered (on the base of piping 10 m)

(2)Additional amount of refrigerant as per the pipe diameter and length (liquid pipe based)

(3) Additional refrigerant amount calculation method

Additional refrigerant amount = 12.70 (liquid pipe /high pressure pipe diameter) x 120g/m

+9.52 (liquid pipe /high pressure pipe diameter ) x 80g/m

+6.35 (liquid pipe /high pressure pipe diameter ) x 50g/m

(4)Example of additional refrigerant amount calculation

??? Additional amount of refrigerant = additional amount of refrigerant as per the total pipe length

??? Arrangement: liquid pipe diameter -gas pipe diameter - pipe length

14400W

21600W

Additional amount of refrigerant =(??12.70 liquid pipe lengthX120g/m)+(??9.52 liquid pipe lengthX80g/m)+

(??6.35 liquid pipe lengthX50g/m)

=(20mX120g/m)+(25mX80g/m)+(25mX50g/m) =5650g-??

V 36

8-3. Recovery of refrigerant

(1)Close the service valve of liquid side and then press the refrigerant recovery button on outdoor PCB.

(2)When the low pressure is getting lower enough, close the service valve to press the refrigerant recovery button again or press key 3. Pressing the button stops the compressor.

(3)When total amount of refrigerant in the pipe is more than 15kg, the refrigerant may not be recovered completely even though the refrigerant recovery (pump down) is performed. So care must be taken.

(4)The pump down time shall not exceed 5 minutes.

V 37

V. Installation

9.Testing operation

???Cautions for operation

???Put the power 6 hours before initial operation so that the crank case heater may be heated.

???When doing the retry of initial operation after main power off, start the operation 2 and half hours after power on.

???If the heater is not heated, the operation can not be started for 2 hours after power on for the protection of compressor. (Ch displays on the PCB display part at the time.)

(1)Check the power between outdoor unit and distribution board. (3 phase tester recommended)

???Compressor power : L1(R) L2(S) L3(T) - red white black (Care must be taken so that the color and order may not be changed.)

???220V power: L N

(2)Check the indoor unit

??? Check whether the power source of each indoor unit and the communication cables are correctly connected.

(Communication cable marked as F1, F2)

-If the communication cable is changed each other with the power cable, it might cause the damage to PCB.

-There is no color marking on the power supply cable but be sure to check the color of communication cable since the cable has the polarity.

???Check whether the addresses are correctly assigned to each indoor unit.

-The address switch is available from ???0???.

-The address of each indoor unit shall be assigned differently.

???Check whether the connections for temperature sensor, electronic expansion valve and drain pumps are all connected.

(3)Check the outdoor unit

??? Set the numbers of indoor unit on the outdoor unit PCB.

-If there are all 3 outdoor units, set so that the arrow mark is shown on ???3???.

???Check on the outdoor unit PCB whether the outdoor unit capacity code and Dip switch are correct. (It is delivered with the setting in factory and so there is not necessary to set separately).

(4)Once the check of power supply, indoor and outdoor unit is completed, connect to the outdoor unit the PC in which the A/S program is installed, and then put the power of the outdoor unit on.

(5)Once the power is on to the outdoor unit, the outdoor performs the tracking to check the connected indoor unit and options.

-At the time the left side of outdoor unit PCB display part shows the detection of communication response with 0 - F address and if there comes the response, the address of indoor unit responded displays on the right side display.

(6)Once the tracking of approximately 20 seconds is completed, the following steps are proceeded when comparing the numbers of indoor units set in PCB and those responded through communication, if they are same, but if they are not same, E2 Error displays on the PCB display.

-For E2 error, check whether the indoor unit set switch on PCB is correct or whether the installation and address setting is correct if there is an indoor unit not responding.

-Press Key3 after check and retry the Tracking.

V 38

(7)If Ch displays on the PCB display after tracking, it is the state of compressor not preheated, which means the operation is possible after 2 and half hours. (Supply the power and preheat the compressor).

(8)If the preheating of compressor is completed, the communication is performed between indoor unit connected and options. It is the normal at the time when the address on the right display is shown as many as shown on the left side display.

(9)Check through the PC connected with outdoor unit whether the data is correct from temperature sensor and electronic expansion valve.

(10)Once the above process is all completed, press the test operation button on PCB.

-Check before pressing key whether all the service valves are open.

(11)Check the high and low pressure through the manifold gauge .

-Refer to the pressure table separately provided as per the outdoor temperature and piping length.

-Since the high pressure and low pressure varies at the initial operation, take the input data 20 minutes after the start of compressor at least.

-Since the compressor may reciprocate if there is loud noise or if the low and high pressure do not vary, check the power L1(R)-L2(S)-L3(T) from (1). If there is not trouble in the power but the problems continues to occur, check the wire connected to the compressor.

???Neglect the RCS on the compressor power incoming and check the order of T1-L1(R)-red, T2-L2(S)-white, T3-L3(T)-black.

(12)Check through the PC connected to the outdoor unit.

-Check the temperature, RPM, power and opening of electronic expansion valve for each indoor unit.

-Check whether the compressor discharge, condenser outlet temperature, outdoor fan are operated.

(13)During the test operation, check whether error is shown on the outdoor PCB.

-Test operation shall be continued for more than 2 hours continuously at least.

-After the long initial operation of outdoor unit, check whether the condensate is well treated.

(14)Press again the test button to complete the test operation. (Operation completion of whole rooms)

(15)If the test operation mode is completed, operate one indoor unit only in cooling mode.

-The operation shall be continued for more than 30 minutes for one unit and then check the temperature of indoor unit connected through PC to check the leak of electronic expansion valve. If there is no problem, put off the indoor unit which is operating and operate another indoor unit to check the electronic expansion valve leak as in the above manner.

V 39

V. Installation

10. Cautions for refrigerant leaks

10-1. Introduction

The DVM system, like most other air conditioning systems, uses R-22 as its refrigerant. R-22 itself is an entirely safe non-toxic, non-combustible refrigerant but care must nevertheless be taken to ensure that the air conditioning facilities are installed in a room which is sufficiently large to avoid a *dangerous concentration of refrigerant gas in the unlikely event of a serious leak in the system.

* Dangerous concentration

Dangerous concentration means the maximum concentration of CFC gas which can be dealt quickly and with without damage to the person in the case of a leak of refrigerant into the air. The unit of measurement of the dangerous concentration is kg/m3 (the weight in kg of CFC gas in 1m3 of air) for ease of calculation.

Dangerous concentration of R-22: 0.3kg/m3

Indoor unit

Room where refrigerant leak has occurred (Outflow of all the refrigerant in System No. 1)

V 40

10-2. Procedure for checking dangerous

??? Concentration

Check the dangerous concentration in accordance with steps 1~4 below and take whatever action is necessary.

(1) Calculate the amount of refrigerant(kg) charged to each system separately.

(Amount of refrigerant in a single indoor unit system)

Amount of refrigerant with which the system is charged before leaving the factory

+ (Additional charging amount) =

Amount of refrigerant added locally in accordance with the length or diameter of the refrigerant piping

Total amount of refrigerant(kg) in the system

Note ??? Where a single refrigerant facility is divided into 2 entirely independent refrigerant systems then use the amounts of refrigerant with which each separate system is charged.

(2)Calculate the smallest room volume(m3)

In a case like the following calculate the volume of (1), (2) as a single room or as the smallest room. 1) Where there are no smaller room divisions

Outdoor unit

Indoor unit

2)Where there is a room division but there is an opening between the rooms sufficiently large to permit a free flow of air back and forth. (Where there is an opening without a door or where there are openings above and below the door which are each equivalent in size to 0.15% or more of the floor area.)

Outdoor unit

Indoor unit

Opening between rooms

Partition

V 41

V. Installation

10. Cautions for refrigerant leaks

3)Where there is a gas leak detection alarm device linked to a mechanical ventilator in the smallest room then the next smallest room will become the measurement target.

Outdoor unit

Ventilator

Indoor unit

(3)Calculate the refrigerant density using the results of the calculations in steps 1 and 2 above.

If the result of the above calculation exceeds the dangerous concentration level then make similar calculations for the second the third smallest room and so on until the result falls short of the dangerous concentration level.

V 42

(4)Dealing with situations where the result exceeds the dangerous concentration level.

Where the installation of a facility results in a concentration in excess of the dangerous concentration level then it may be necessary to revise the system design to some extent or else take one of the fol- lowing courses of action:

<Action 1> Making openings which will allow the air to flow freely into the room.

Make openings above and below the door which are each equivalent in size to 0.15% or more of the floor area or make a doorless opening.

<Action 2> Fit a mechanical ventilator linked to a gas leak detection alarm device.

Action 2

Gas leak detection alarm device

Mechanical ventilator

Indoor unit

Action 1

Make openings sufficiently large to permit a free flow of air

V 43

DB98-03759A(1)

2002.03.