MITSUBISHI ELECTRIC MXZ-SM36 Air Conditioners Outdoor Unit Instruction Manual
- June 17, 2024
- Mitsubishi Electric
Table of Contents
- MITSUBISHI ELECTRIC MXZ-SM36 Air Conditioners Outdoor Unit
- Product Information
- Product Usage Instructions
- Safety precautions
- **Before installation
- Installation location
- Installing the outdoor unit
- Installing the refrigerant piping
- Installing the refrigerant piping
- Drainage piping work
- Electrical work
- Test run
MITSUBISHI ELECTRIC MXZ-SM36 Air Conditioners Outdoor Unit
Product Information
Specifications
- Model: MXZ-SM36/48/60NAM2, MXZ-SM36/42/48NAMHZ2
- Refrigerant: HFC R410A
- Language: English, French, Spanish
Product Usage Instructions
Safety Precautions
Before installing the unit, make sure to read all safety precautions
provided in the manual. Obtain consent from the supply authority before
connecting to the system.
Before Installation
Ensure proper drainage around the outdoor unit to prevent condensation
damage. Avoid placing the unit near high-frequency medical or radio equipment
as it may cause malfunctions.
Before Installation (Relocation)
Use caution when handling the unit, as it is heavy. Do not grasp packaging
bands and wear protective gloves to avoid injury when moving the unit.
Installation Location
Choose a suitable location for installing the outdoor unit ensuring proper
ventilation and access for maintenance.
Installing the Outdoor Unit
Follow the step-by-step instructions provided in the manual for installing
the outdoor unit securely.
Installing the Refrigerant Piping
Properly install the refrigerant piping as per the guidelines to ensure
efficient operation of the air-conditioner.
Drainage Piping Work
Set up drainage piping to manage condensation effectively and prevent water
damage.
Electrical Work
Complete the necessary electrical connections following the instructions to
ensure safe and proper functioning of the unit.
Test Run
Conduct a test run after installation to verify that the unit operates
correctly.
Special Functions
Explore and understand any special functions of the air-conditioner unit
for enhanced usability.
Frequently Asked Questions (FAQ)
-
Q: What should I do if the air conditioner malfunctions?
A: In case of malfunction, refer to the troubleshooting section of the Operation Manual or contact a qualified technician for assistance. -
Q: How often should I clean the air-conditioner filters?
A: It is recommended to clean the filters every 1-2 months to maintain optimal performance and air quality.
FOR INSTALLER
For safe and correct use, please read this Installation Manual thoroughly
before installing the air-conditioner unit.
Confirmation of parts attached
In addition to this manual, the following part is supplied with the outdoor
unit. It is used for grounding the S terminal of transmission terminal block
TB7. For detail refer to “6. Electrical work”.
Safety precautions
- Before installing the unit, make sure you read all the “Safety precautions”.
- Please report to or take consent by the supply authority before connection to the system.
Warning :
Describes precautions that must be observed to prevent danger of injury or
death to the user.
Caution:
Describes precautions that must be observed to prevent damage to the unit.
After installation work has been completed, explain the “Safety Precautions”
use, and maintenance of the unit to the customer according to the information
in the Operation Manual and perform the test run to ensure normal operation.
Both the Installation Manual and Operation Manual must be given to the user
for keeping. These manuals must be passed on to subsequent users.
: Indicates a part that must be grounded.
Warning:
Carefully read the labels affixed to the main unit.
Warning:
-
The unit must not be installed by the user. Ask a dealer or an authorized technician to install the unit. If the unit is installed incorrectly, water leakage, electric shock, or fire may result.
-
For installation work, follow the instructions in the Installation Manual and use tools and pipe components specifically made for use with R410A refrigerant.
-
This appliance is not intended for use by persons (including children) with reduced physical, sensory or mental capabilities, or lack of experience and knowledge unless they have been given supervision or instruction concerning use of the appliance by a person responsible for their safety.
-
Children should be supervised to ensure that they do not play with the appliance.
-
The R410A refrigerant in the HFC system is pressurized 1.6 times the pres-sure of usual refrigerants. If pipe components not designed for R410A refrigerant are used and the unit is not installed correctly, the pipes may burst and cause damage or injuries. In addition, water leakage, electric shock, or fire may result.
-
When installing the unit, use appropriate protective equipment and tools for safety. Failure to do so could cause injuries.
-
The unit must be installed according to the instructions in order to minimize the risk of damage from earthquakes, typhoons, or strong winds. An incorrectly installed unit may fall and cause damage or injuries.
-
The unit must be securely installed on a structure that can sustain its weight. If the unit is mounted on an unstable structure, it may fall and cause damage or injuries.
-
If the air conditioner is installed in a small room, measures must be taken to prevent the refrigerant concentration in the room from exceeding the safety limit in the event of refrigerant leakage. Consult a dealer regarding the appropriate measures to prevent the allowable concentration from being exceeded. Should the refrigerant leak and cause the concentration limit to be exceeded, hazards due to lack of oxygen in the room may result.
-
Ventilate the room if refrigerant leaks during operation. If refrigerant comes into contact with a flame, poisonous gases will be released.
-
All electric work must be performed by a qualified technician according to local regulations and the instructions given in this manual. The units must be powered by dedicated power lines and the correct voltage and circuit breakers must be used. Power lines with insufficient capacity or incorrect electrical work may result in electric shock or fire.
-
Be sure to connect the power supply cords and the connecting wires for the indoor units, outdoor units, and Branch boxes directly to the units (no intermediate connections).
Intermediate connections can lead to communication errors if water enters the cords or wires and causes insufficient insulation to ground or poor electrical contact at the intermediate connection point. -
Use C1220 copper phosphorus, for copper and copper alloy seamless pipes, to connect the refrigerant pipes. If the pipes are not connected correctly, the unit will not be properly grounded, and electric shock may result.
-
Use only specified cables for wiring. The wiring connections must be made securely with no tension applied on the terminal connections. Also, never splice the cables for wiring (unless otherwise indicated in this document). Failure to observe these instructions may result in overheating or a fire.
-
The terminal block cover panel of the outdoor unit must be firmly attached. If the cover panel is mounted incorrectly and dust and moisture enter the unit, electric shock or fire may result.
-
When installing or relocating, or servicing the outdoor unit, use only the specified refrigerant (R410A) to charge the refrigerant lines. Do not mix it with any other refrigerant and do not allow air to remain in the lines.
If air is mixed with the refrigerant, then it can be the cause of abnormal high pres-sure in the refrigerant line, and may result in an explosion and other hazards. The use of any refrigerant other than that specified for the system will cause mechanical failure or system malfunction or unit breakdown. In the worst case, this could lead to a serious impediment to securing product safety. -
Do not perform pump-down work when there is a gas leak. The intake of air or other gases causes abnormally high pressure in the refrigeration cycle, which may cause an explosion or injury.
-
Use only authorized accessories and ask a dealer or an authorized technician to install them. If accessories are incorrectly installed, water leakage, electric shock, or fire may result.
-
Do not alter the unit. Consult a dealer for repairs. If alterations or repairs are not performed correctly, water leakage, electric shock, or fire may result.
-
The user should never attempt to repair the unit or transfer it to another location. If the unit is installed incorrectly, water leakage, electric shock, or fire may result. If the air conditioner must be repaired or moved, ask a dealer or an authorized technician.
-
After installation has been completed, check for refrigerant leaks. If refrigerant leaks into the room and comes into contact with the flame of a heater or portable cooking range, poisonous gases will be released.
-
When opening or closing the valve below freezing temperatures, the refrigerant may spurt out from the gap between the valve stem and the valve body, resulting in injuries.
**Before installation
Caution:**
- Do not use the unit in an unusual environment. If the air conditioner is installed in areas exposed to steam, volatile oil (including machine oil), or sulfuric gas, areas exposed to high salt content such as the seaside, or areas where the unit will be covered by snow, the performance can be significantly reduced and the internal parts can be damaged.
- Do not install the unit where combustible gases may leak, be produced, flow, or accumulate. If combustible gas accumulates around the unit, fire or explosion may result.
- The outdoor unit produces condensation during the heating operation. Make sure to provide drainage around the outdoor unit if such condensation is likely to cause damage.
- When installing the unit in a hospital or communications office, be prepared for noise and electronic interference. Inverters, home appliances, high-frequency medical equipment, and radio communications equipment can cause the air conditioner to malfunction or break down. The air conditioner may also affect medical equipment, disturbing medical care, and communication equipment, harming the screen display quality.
- Follow the instructions below to prevent abrasive components contained in sandpaper and cutting tools from entering the refrigerant circuit because those components can cause failures of the compressor and valves.
- To deburr pipes, use a reamer or other deburring tools, not sandpaper.
- To cut pipes, use a pipe cutter, not a grinder or other tools that use abrasive materials.
- When cutting or deburring pipes, do not allow cutting chips or other foreign matters to enter the pipes.
- If cutting chips or other foreign matters enter pipes, wipe them off the inside of the pipes.
Before installation (relocation)
Caution:
- Be extremely careful when transporting the units. 2 or more persons are needed to handle the unit, as it weighs 20 kg (44 lbs) or more. Do not grasp the packaging bands. Wear protective gloves to remove the unit from the packaging and to move it, as you can injure your hands on the fins or the edge of other parts.
- Be sure to safely dispose of the packaging materials. Packaging materials, such as nails and other metal or wooden parts may cause stabs or other injuries.
- The base and attachments of the outdoor unit must be periodically checked for looseness, cracks or other damage. If such defects are left uncorrected, the unit may fall and cause damage or injuries.
- Do not clean the air conditioner unit with water. Electric shock may result.
- Tighten all flare nuts to specification using a torque wrench. If tightened too much, the flare nut can break after an extended period and refrigerant can leak out.
Before electric work
Caution:
- Be sure to install circuit breakers. If not installed, electric shock may result.
- Please follow applicable federal, state, or local codes to prevent potential leakage/electric shock. Or install a ground fault interrupt for the prevention of leakage and electric shock.
- For the power lines, use standard cables of sufficient capacity. Otherwise, a short circuit, overheating, or fire may result.
- When installing the power lines, do not apply tension to the cables. If the connections are loosened, the cables can snap or break and overheating or fire may result.
- Be sure to ground the unit. Do not connect the ground wire to gas or water pipes, lightning rods, or telephone grounding lines. If the unit is not properly grounded, an electric shock may result.
- Use circuit breakers (ground fault interrupter, isolating switch (+B fuse), and molded case circuit breaker) with the specified capacity. If the circuit breaker capacity is larger than the specified capacity, breakdown or fire may result.
Before starting the test run
- Turn on the main power switch more than 12 hours before starting operation. Starting operation just after turning on the power switch can severely damage the internal parts. Keep the main power switch turned on during the operation season.
- Before starting operation, check that all panels, guards, and other protective parts are correctly installed. Rotating, hot, or high-voltage parts can cause injuries.
- Do not touch any switch with wet hands. Electric shock may result.
- Do not touch the refrigerant pipes with bare hands during operation. The refrigerant pipes are hot or cold depending on the condition of the flowing refrigerant. If you touch the pipes, burns or frostbite may result.
- After stopping operation, be sure to wait at least 5 minutes before turning off the main power switch. Otherwise, water leakage or breakdown may result.
Using R410A refrigerant air conditioners
Caution:
-
Use C1220 copper phosphorus, for copper and copper alloy seamless pipes, to connect the refrigerant pipes. Make sure the insides of the pipes are clean and do not contain any harmful contaminants such as sulfuric compounds, oxidants, debris, or dust. Use pipes with the specified thickness. (Refer to page 6) Note the following if reusing existing pipes that carried R22 refrigerant.
-
Replace the existing flare nuts and flare the flared sections again.
-
Do not use thin pipes. (Refer to page 6)
Store the pipes to be used during installation indoors and keep both ends of the pipes sealed until just before brazing. (Leave elbow joints, etc. in their packaging.) If dust, debris, or moisture enters the refrigerant lines, oil deterioration or compressor breakdown may result. -
Use ester oil, ether oil, and alkylbenzene oil (small amount) as the refrigeration oil applied to the flared sections. If mineral oil is mixed in the refrigeration oil, oil deterioration may result.
-
Do not use refrigerant other than R410A refrigerant. If another refrigerant is used, the chlorine will cause the oil to deteriorate.
-
Be sure to use the correct tools. If dust, debris, or moisture enters the refrigerant lines, refrigeration oil deterioration may result.
-
Do not use a charging cylinder. If a charging cylinder is used, the composition of the refrigerant will change and the efficiency will be lowered
Installation location
Refrigerant pipe
Refer to Fig. 4-1.
Choosing the outdoor unit installation location
- Avoid locations exposed to direct sunlight or other sources of heat.
- Select a location from which noise emitted by the unit will not inconvenience neighbors.
- Select a location permitting easy wiring and pipe access to the power source and indoor unit.
- Avoid locations where combustible gases may leak, be produced, flow, or accumulate.
- Note that water may drain from the unit during operation.
- Select a level location that can bear the weight and vibration of the unit.
- Avoid locations where the unit can be covered by snow. In areas where heavy snowfall is anticipated, special precautions such as raising the installation location or installing a hood on the air intake must be taken to prevent the snow from blocking the air intake or blowing directly against it. This can reduce the airflow and a malfunction may result.
- Avoid locations exposed to oil, steam, or sulfuric gas.
- Use the transportation handles of the outdoor unit to transport the unit. If the unit is carried from the bottom, hands or fingers may be pinched.
Outline dimensions (Outdoor unit) (Fig. 2-1)
Constraints on Indoor Unit Installation
You should note that indoor units that can be connected to this outdoor unit
are the following constraints.
- Indoor units with model numbers 04-72 can be connected.
- When using the Branch box, Indoor units with model numbers 06-36 can be connected.
- Refer to Table 1 below for possible room, and indoor unit combinations.
Verification
The rated capacity should be determined by observing the table below. The
unit’s quantities are limited as shown in the following Table 2. For the next
step, make sure that the total rated capacity selected will stay in a range of
50% – 130% of the outdoor unit capacity.
- MXZ-SM36 18 – 46 kBtu/h
- MXZ-SM42 21 – 54 kBtu/h
- MXZ-SM48 24 – 62 kBtu/h
- MXZ-SM60 30 – 78 kBtu/h
Table 1-1: City Multi indoor units (P·FY series)
Indoor unit type| P04| P05| P06| P08| P12| P15| P18| P24| P30| P36| P48| P54|
P72
---|---|---|---|---|---|---|---|---|---|---|---|---|---
Rated capacity
(Cooling) (kBtu/h)
|
4
|
5
|
6
|
8
|
12
|
15
|
18
|
24
|
30
|
36
|
48
|
54
|
72
When connecting PEFY-P*NMHU to MXZ-SM36/42/48/60, the maximum external static
pressure allowable is 0.8 in.wg (200 Pa).
Table 1-2: M series, P series, S series
Model No. | 06 | 09 | 12 | 15 | 18 | 24 | 30 | 36 |
---|---|---|---|---|---|---|---|---|
Rated capacity (Cooling) (kBtu/h) | 6 | 9 | 12 | 15 | 18 | 24 | 30 | 36 |
Combinations in which the total capacity of indoor units exceeds the capacity of the outdoor unit will reduce the cooling capacity of each indoor unit below their rated cooling capacity. Thus, combine indoor units with an outdoor unit within the outdoor unit’s capacity, if possible.
Table 2: Connectable indoor units quantities
- City Multi indoor units
SM36 | 1-11 |
---|---|
SM42 | 1-12 |
SM48 | 1-12 |
SM60 | 1-12 |
- Branch box system (M, S, P series indoor units via Branch box)
SM36 | 21 – 4 (3) units 2 3 4 |
---|---|
SM42 | 21 – 5 (4) units 2 3 4 |
SM48 | 21 – 8 (6) units 2 3 4 |
SM60 | 21 – 8 (6) units 2 3 5 |
- Only 1 unit connection is possible with the SVZ-series unit.
- The number enclosed in parentheses is the maximum number of units that can be connected when 1 or more PLA-A·EA or PAA-A·A units is connected.
- When connecting an SVZ-series unit(s), set additional constraints as follows. For connections other than those specified below, consult your dealer.
Number of connecting
SVZ-series unit
| Constraints
(For each connected Branch box)
---|---
2| Any indoor units other than SVZ-series units are not
connectable.
1
| • The total rated capacity (cooling) should be 100% or below including the SVZ-series unit (only SM60).
• Only 1 SEZ or 1 PEAD can be included in the connection.
- A Branch box can connect to a maximum 3 of the SEZ/PEAD-series units.
- A Branch box can connect to a maximum 2 of the SEZ/PEAD-series units.
When connecting with 1 and over 1 of the SEZ/PEAD-series units, the total rated capacity (cooling) including of the SEZ/PEAD is 100% and below 100%For connections other than those specified in 1 and 2, including connections with SVZ-series units, consult a dealer.
Ventilation and service space
Note :
The dimensions given along the arrows above are required to guarantee the air
conditioner’s performance. Install the unit in as wide a place as possible for
later service or repairs.
Windy location installation
When installing the outdoor unit on a rooftop or other location unprotected
from the wind, situate the air outlet of the unit so that it is not directly
exposed to strong winds. Strong wind entering the air outlet may impede the
normal airflow and a malfunction may result.
The following shows 3 examples of precautions against strong winds.
- Face the air outlet towards the nearest available wall about 20″ (500 mm) away from the wall. (Fig. 2-2)
- Install an optional wind baffle if the unit is installed in a location where strong winds from a typhoon, etc. may directly enter the air outlet. (Fig. 2-3)
- A Wind baffle
- Position the unit so that the air outlet blows perpendicularly to the seasonal wind direction, if possible. (Fig. 2-4) B Wind direction
When installing a single outdoor unit
Minimum dimensions are as follows, except for Max., meaning Maximum
dimensions, indicated.
Refer to the figures for each case.
- Obstacles at rear (Fig. 2-5)
- Obstacles at the rear and above (Fig. 2-6)
- Obstacles at the rear and sides (Fig. 2-7)
- Obstacles at the front (Fig. 2-8)
- When using the optional air outlet guides, the clearance is 20″ (500 mm) or more. 5. Obstacles at front and rear (Fig. 2-9)
- When using the optional air outlet guides, the clearance is 20″ (500 mm) or more.
6. Obstacles at rear, sides, and above (Fig. 2-10)
Do not install the optional air outlet guides for upward airflow.
When installing multiple outdoor units
Leave 1″ (25 mm) space or more between the units.
- Obstacles at rear (Fig. 2-11)
- Obstacles at rear and above (Fig. 2-12)
- No more than 3 units must be installed side by side. In addition, leave space as shown.
- Do not install the optional air outlet guides for upward airflow.
- Obstacles at front (Fig. 2-13)
-
- When using the optional air outlet guides, the clearance is 40″ (1000 mm) or more.
-
- Obstacles at front and rear (Fig. 2-14)
-
- When using the optional air outlet guides, the clearance is 40″ (1000 mm) or more.
-
- Single parallel unit arrangement (Fig. 2-15)
- When using the optional air outlet guides installed for upward airflow, the clearance is 40″ (1000 mm) or more. 6. Multiple parallel unit arrangement (Fig. 2-16)
- When using the optional air outlet guides installed for upward airflow, the clearance is 60″ (1500 mm) or more.
7. Stacked unit arrangement (Fig. 2-17)
- The units can be stacked up to 2 units high.
- No more than 2 stacked units must be installed side by side. In addition, leave space as shown.
Installing the outdoor unit
Be sure to install the unit in a sturdy, level surface to prevent rattling
noises during operation. (Fig. 3-1)
< Foundation specifications>
Foundation bolt | M10 (3/8″) |
---|---|
Thickness of concrete | 120 mm (4-23/32″) |
Length of bolt | 70 mm (2-3/4″) |
Weight-bearing capacity | 320 kg (705 lbs) |
- Make sure that the length of the foundation bolt is within 30 mm (1-3/16″) of the bottom surface of the base.
- Secure the base of the unit firmly with 4-M10 foundation bolts in sturdy locations.
Installing the outdoor unit
- Do not block the vent. If the vent is blocked, the operation will be hindered and a breakdown may result.
- In addition to the unit base, use the installation holes on the back of the unit to attach wires, etc., if necessary to install the unit. Use self-tapping screws (ø5 × 15 mm, ø13/16″ × 19/32″ or less) and install on site.
Warning:
- The unit must be securely installed on a structure that can sustain its weight. If the unit is mounted on an unstable structure, it may fall and cause damage or injuries.
- The unit must be installed according to the instructions to minimize the risk of damage from earthquakes, typhoons, or strong winds. An incorrectly installed unit may fall and cause damage or injuries.
Caution:
- Install the unit on a rigid structure to prevent excessive operation sound or vibration.
Installing the refrigerant piping
Precautions for devices that use R410A refrigerant
- Refer to page 2 for precautions not included below on using air conditioners with R410A refrigerant.
- Use ester oil, ether oil, and alkyl benzene oil (small amount) as the refrigeration oil applied to the flared sections.
- Use C1220 copper phosphorus, for copper and copper alloy seamless pipes, to connect the refrigerant pipes. Use refrigerant pipes with the thicknesses specified in the table to below. Make sure the insides of the pipes are clean and do not contain any harmful contaminants such as sulfuric compounds, oxidants, debris, or dust.
Warning:
When installing or relocating, or servicing the outdoor unit, use only the
specified refrigerant (R410A) to charge the refrigerant lines. Do not mix it
with any other refrigerant and do not allow air to remain in the lines.
If air is mixed with the refrigerant, then it can be the cause of abnormal
high pressure in the refrigerant line, and may result in an explosion and
other hazards.
The use of any refrigerant other than that specified for the system will cause
mechanical failure or system malfunction or unit breakdown. In the worst case,
this could lead to a serious impediment to securing product safety.
ø6.35 mm (1/4 in), ø9.52 mm (3/8 in),
ø12.7 mm (1/2 in)
| Thickness 0.8 mm (1/32 in)
---|---
ø15.88 mm (5/8 in), ø19.05 mm (3/4 in)| Thickness 1.0 mm (5/128 in)
- Do not use pipes thinner than those specified above.
- The thicknesses listed in the table above are based on Japanese standards. Use pipes with a maximum working pressure of 4.15 MPa [601 psig] or higher ac-cording to local standards.
Caution:
Follow the instructions below to prevent abrasive components contained in
sandpaper and cutting tools from entering the refrigerant circuit because
those components can cause failures of the compressor and valves.
- To deburr pipes, use a reamer or other deburring tools, not sandpaper.
- To cut pipes, use a pipe cutter, not a grinder or other tools that use abrasive materials.
- When cutting or deburring pipes, do not allow cutting chips or other foreign matters to enter the pipes.
- If cutting chips or other foreign matters enter pipes, wipe them off the inside of the pipes.
Pipe length and height difference
Connection without Branch box (Fig. 4-1)When PKFY-P06NBMU, PKFY-P08NHMU,
PKFY-P04/06/08/12NLMU, PFFYP06/ 08/12NEMU, or PFFY-P06/08/12NRMU is included,
use within 30 m [98 ft].
When PKFY-P06NBMU, PKFY-P08NHMU, PKFY-P04/06/08/12NLMU, PFFYP06/ 08/12NEMU, or PFFY-P06/08/12NRMU is included, use within 30 m [98 ft].
Conversion formula
1/4 F | ø6.35 (1/4) |
---|---|
3/8 F | ø9.52 (3/8) |
1/2 F | ø12.7 (1/2) |
5/8 F | ø15.88 (5/8) |
3/4 F | ø19.05 (3/4) |
Piping preparation
- The table below shows the specifications of pipes commercially available.
- Ensure that the 2 refrigerant pipes are insulated to prevent condensation.
Outside diameter| Insulation thickness| Insulation material
---|---|---
mm (in)| mm (in)
ø6.35 (1/4)| 8 (5/16)| ****
Heat resisting foam plastic 0.045
specific gravity
ø9.52 (3/8)| 8 (5/16)
ø12.7 (1/2)| 8 (5/16)
ø15.88 (5/8)| 8 (5/16)
ø19.05 (3/4)| 8 (5/16)
3. The refrigerant pipe bending radius must be 4″ (100 mm) or more.
Caution:
Be sure to use insulation of a specified thickness. Excessive thickness may
cause incorrect installation of the indoor unit and lack of thickness may
cause dew drippage.
Warning:
When pumping down the refrigerant, stop the compressor before disconnecting
the refrigerant pipes. The compressor may burst and cause injury if any
foreign substance, such as air, enters the system.
Connection with Branch box (Fig. 4-2)
- This unit has flared connections on each indoor unit and Branch box and outdoor unit sides.
- Remove the valve cover of the outdoor unit, then connect the pipe.
- Refrigerant pipes are used to connect the Branch box and outdoor unit.
Permissible length
(one-way)
| Total piping length| c1 + b1 + b2 + a1 + a2 + a3 + a4 + a5 + a6 + a7 + a8 ≤
150 m (492 ft.)
---|---|---
Farthest piping length (L) *1| c1 + b2 + a8 ≤ 80 m (262 ft.)
Piping length between outdoor unit and Branch boxes| c1 + b1 + b2 ≤ 55 m (180
ft.)
Farthest Branch box from the first joint (b2)| b2 ≤ 30 m (98 ft.)
Farthest piping length after Branch box (R)| a8 ≤ 25 m (82 ft.)
Total piping length between Branch boxes and indoor units| a1 + a2 + a3 + a4 +
a5 + a6 + a7 + a8 ≤ 95 m (311 ft.)
Permissible height difference (one-way)
| In indoor/outdoor section (H) *2| H ≤ 50 m (164 ft.) (In case of the outdoor
unit is set higher than the indoor unit)
H ≤ 40 m (131 ft.) (In case of the outdoor unit is set lower than the indoor
unit)
In the Branch box/indoor unit section (h1)| h1 + h2 ≤ 15 m (49 ft.)
In each branch unit (h2)| h2 ≤ 15 m (49 ft.)
In each indoor unit (h3)| h3 ≤ 12 m (39 ft.)
Number of bends| | c1 + b1 + a1 |, | c1 + b1 + a2 |, | c1 + b1 + a3 |, | c1 +
b1 + a4 |, | c1 + b1 + a5 |, | c1 + b2 + a6 |, | c1 + b2 + a7 |, | c1 + b2 +
a8 | ≤ 15
-
The piping specification table does not provide a minimum line set length. However, indoor units with connected piping length less than 16 ft. (5 m) could produce intermit-tent noise during normal system operation in very quiet environments. Please be aware of this important information when installing and locating the indoor unit within the
conditioned space. -
The branch box should be placed within the level between the outdoor unit and indoor units.
Installing the refrigerant piping
In the case of using a 1-branch box
Flare connection employed. (No. brazing)
In case of using 2-Branch boxes
Refrigerant pipe flared connection of Branch box
mm (in)
| To indoor unit| To outdoor unit
---|---|---
A| B| C| D| E
Liquid pipe| ø6.35 (1/4)| ø6.35 (1/4)| ø6.35 (1/4)| ø6.35 (1/4)| ø6.35 (1/4)|
ø9.52 (3/8)
Gas pipe| ø9.52 (3/8)| ø9.52 (3/8)| ø9.52 (3/8)| ø9.52 (3/8)| ø12.7 (1/2)|
ø15.88 (5/8)
Conversion formula
1/4 F | ø6.35 (1/4) |
---|---|
3/8 F | ø9.52 (3/8) |
1/2 F | ø12.7 (1/2) |
5/8 F | ø15.88 (5/8) |
3/4 F | ø19.05 (3/4) |
2-branch pipe (Joint): Optional parts (According to the connection method, you can choose the favorite one.)
Model name | Connection method |
---|---|
MSDD-50AR-E | flare |
MSDD-50BR-E | brazing |
Installation procedure (2 branches pipe (Joint))
Refer to the Installation Manuals of MSDD-50AR-E and MSDD-50BR-E.
Pipe size
A
| Liquid pipe| Gas pipe
---|---|---
SM36| ****
ø9.52 (3/8)
| ****
ø15.88 (5/8)
SM42
SM48
SM60| ø19.05 (3/4)
B
- SM36/42/48
Liquid pipe | Gas pipe |
---|---|
ø9.52 (3/8) | ø15.88 (5/8) |
- SM60
Total capacity of indoor units | Liquid pipe | Gas pipe |
---|---|---|
– 54 kBtu/h | ø9.52 (3/8) | ø15.88 (5/8) |
54 kBtu/h – | ø9.52 (3/8) | ø19.05 (3/4) |
C
The piping connection size differs according to the type and capacity of
indoor units. Match the piping connection size of Branch box with indoor unit.
If the piping connection size of Branch box does not match the piping
connection size of indoor unit, use optional different-diameter (deformed)
joints to the Branch box side. (Connect deformed joint directly to the Branch
box side.)
*Pipe size (Branch box-Indoor unit) Case of M series or S series Indoor unit**
Indoor unit type | (Btu/h) | 06 | 09 | 12 | 15 | 18 | 24 | 30 | 36 |
---|
Pipe size (mm (in))
| Liquid| ø6.35
(1/4)
| ø6.35
(1/4)
| ø6.35
(1/4)
| ø6.35
(1/4)
| ø6.35
(1/4)
| ø9.52
(3/8)
| ø9.52 (3/8)| ø9.52 (3/8)
Gas| ø9.52
(3/8)
| ø9.52
(3/8)
| ø9.52
(3/8)
| ø12.7
(1/2)
| ø12.7
(1/2)
| ø15.88
(5/8)
| ø15.88 (5/8)| ø15.88 (5/8)
*Pipe size (Branch box-Indoor unit) Case of P series indoor unit**
Indoor unit type | (Btu/h) | 09 | 12 | 15 | 18 | 24 | 30 | 36 |
---|
Pipe size (mm (in))
| Liquid| ø6.35
(1/4)
| ø6.35
(1/4)
| ø6.35
(1/4)
| ø6.35
(1/4)
| ø9.52 (3/8)| ø9.52
(3/8)
| ø9.52
(3/8)
Gas| ø9.52
(3/8)
| ø12.7
(1/2)
| ø12.7
(1/2)
| ø12.7
(1/2)
| ø15.88 (5/8)| ø15.88
(5/8)
| ø15.88
(5/8)
When both of the following bullets are satisfied gas piping diagram size shall be in-creased by one size.
- Indoor units which connected are all of A-COIL type (PAA-A).
- Total piping length is 33 ft (10 m) or less.
The lineup of a connectable indoor unit depends on a
district/areas/country.
Different-diameter joint (optional parts) (Fig. 4-4)
Model name | Connected pipes diameter | Diameter A | Diameter B |
---|---|---|---|
mm (in) | mm (in) | mm (in) | |
MAC-A454JP-E | ø9.52 (3/8) | → | ø12.7 (1/2) |
MAC-A455JP-E | ø12.7 (1/2) | → | ø9.52 (3/8) |
MAC-A456JP-E | ø12.7 (1/2) | → | ø15.88 (5/8) |
PAC-493PI | ø6.35 (1/4) | → | ø9.52 (3/8) |
PAC-SG76RJ-E | ø9.52 (3/8) | → | ø15.88 (5/8) |
PAC-SG75RJ-E | ø15.88 (5/8) | → | ø19.05 (3/4) |
Piping preparation
- The table below shows the specifications of pipes commercially available.
Outside diameter| Insulation thickness| Insulation material
---|---|---
mm (in)| mm (in)
ø6.35 (1/4)| 8 (5/16)|
Heat resisting foam plastic 0.045
specific gravity
ø9.52 (3/8)| 8 (5/16)
ø12.7 (1/2)| 8 (5/16)
ø15.88 (5/8)| 8 (5/16)
ø19.05 (3/4)| 8 (5/16)
2. Ensure that the 2 refrigerant pipes are insulated to prevent condensation.
3. The refrigerant pipe bending radius must be 4” (100 mm) or more.
Caution:
Be sure to use insulation of specified thickness. Excessive thickness may
cause incorrect installation of the indoor unit and Branch box, and lack of
thickness may cause dew drippage.
A (Fig. 4-6)
Copper pipe O.D.
mm (in)
| Flare dimensions
øA dimensions mm (in)
---|---
ø6.35 (1/4)| 8.7 – 9.1 (5/16 – 3/8)
ø9.52 (3/8)| 12.8 – 13.2 (1/2 – 33/64)
ø12.7 (1/2)| 16.2 – 16.6 (41/64 – 21/32)
ø15.88 (5/8)| 19.3 – 19.7 (49/64 – 25/32)
ø19.05 (3/4)| 23.6 – 24.0 (15/16 – 61/64)
Copper pipe O.D.
mm (in)
| Flare nut O.D.
mm (in)
| Tightening torque
N·m* (ft·lbs)
---|---|---
ø6.35 (1/4)| 17 (43/64)| 14 – 18 (10 – 13)
ø6.35 (1/4)| 22 (7/8)| 34 – 42 (25 – 30)
ø9.52 (3/8)| 22 (7/8)| 34 – 42 (25 – 30)
ø9.52 (3/8)| 26 (1-3/64)| 49 – 61 (35 – 44)
ø12.7 (1/2)| 26 (1-3/64)| 49 – 61 (35 – 44)
ø12.7 (1/2)| 29 (1-9/64)| 68 – 82 (49 – 59)
ø15.88 (5/8)| 29 (1-9/64)| 68 – 82 (49 – 59)
ø15.88 (5/8)| 36 (1-27/64)| 100 – 120 (71 – 87)
ø19.05 (3/4)| 36 (1-27/64)| 100 – 120 (71 – 87)
Connecting pipes (Fig. 4-5) (Fig. 4-6)
[Fig. 4-5]
-
Conduct sufficient anti-condensation and insulation work to prevent water from dripping from the refrigerant piping. (liquid pipe/gas pipe)
-
Increase insulation depending on the environment where the refrigerant piping is installed, or condensation may occur on the surface of the insulation material. (Insulation material Heat-resistant temperature: 120°C [248°F], Thickness: 15 mm (5/8 inch) or more)
-
- When the refrigerant piping is used in locations subject to high temperature and humidity such as in the attic, further addition of insulation may be required.
-
To insulate the refrigerant piping, apply heat-resistant polyethylene foam between the indoor unit and insulation material as well as to the net between the insulation material filling all gaps.
(Condensation forming on the piping may result in condensation in the room or burns when contacting the piping.) -
The indoor parts of the drain pipe should be wrapped with polyethylene foam insulation materials (specific gravity of 0.03, thickness of 9 mm (3/8 inch) or more).[Fig. 4-6]
-
Apply a thin layer of refrigerant oil to pipe and joint seating surface before tightening the flare nut. A
-
Apply refrigerating machine oil over the entire flare seat surface. B
-
Use the flare nuts as follows. C
-
For connection, first align the center, then tighten the first 3 to 4 turns of the flare nut by hand.
-
Use 2 wrenches to tighten piping connections. D
-
Use leak detector or soapy water to check for gas leaks after connections are completed.
-
When bending the pipes, be careful not to break them. A bend radius of 100 mm (4 inches) to 150 mm (6 inches) is sufficient.
-
Make sure the pipes do not contact the compressor. Abnormal noise or vibration may result.
- Make sure the pipes do not contact the compressor. Abnormal noise or vibration may result.
- Flare the liquid pipes and gas pipes and apply a thin layer of refrigeration oil (Ap- plied on site).
- When usual pipe sealing is used, refer to Table 2 for flaring of R410A refrigerant pipes.
The size adjustment gauge can be used to confirm A measurements.
Warning :
When installing the unit, securely connect the refrigerant pipes before
starting the compressor.
Caution:
- Be sure to wrap insulation around the piping. Direct contact with the bare piping may result in burns or frostbite.
Table 2 (Fig. 4-7)
Copper pipe O.D.
| A
---|---
Flare tool for R410A| Flare tool for R22·R407C
Clutch type
ø6.35 (1/4)| 0 – 0.5 (0 – 1/64)| 1.0 – 1.5 (3/64 – 1/16)
ø9.52 (3/8)| 0 – 0.5 (0 – 1/64)| 1.0 – 1.5 (3/64 – 1/16)
ø12.7 (1/2)| 0 – 0.5 (0 – 1/64)| 1.0 – 1.5 (3/64 – 1/16)
ø15.88 (5/8)| 0 – 0.5 (0 – 1/64)| 1.0 – 1.5 (3/64 – 1/16)
ø19.05 (3/4)| 0 – 0.5 (0 – 1/64)| 1.0 – 1.5 (3/64 – 1/16)
-
A Stop valve
-
B Stop valve
-
C Service port
-
D Open/Close section
-
E Local pipe
-
F Sealed, same way for gas side
-
G Pipe cover
-
H Do not use a wrench here.
Refrigerant leakage may result. -
I Use 2 wrenches here.
Fig. 4-9
- A Valve body
- B Unit side
- C Service port
- D Handle
- E Cap
- F Completely closed
- G Completely open
- H Refrigerant piping side (On-site installation)
- I Direction the refrigerant flows in
- J Valve stem
Refrigerant piping (Fig. 4-8)
Remove the service panel D (3 screws) and the front piping cover A (2 screws)
and rear piping cover B (2 screws).
- Perform refrigerant piping connections for the indoor/outdoor unit when the outdoor unit’s stop valve is completely closed.
- Vacuum-purge air from the indoor unit and the connection piping.
Evacuation
Evacuate with the valve of the outdoor unit closed and evacuate both the connection piping and the indoor unit from the service port provided on the valve of the outdoor unit using a vacuum pump. (Always evacuate from the service port of both liquid pipe and gas pipe.) After the vacuum reaches 650 Pa [abs] [0.0943 psig/5 Torr], continue evacuation for at least 1 hour or more. Then, stop the vacuum pump and leave it for 1 hour. Ensure the degree of vacuum has not increased. (If the degree of vacuum increase is larger than 130 Pa [0.01886 psig/1.0 Torr], water might have entered. Apply pressure to dry nitrogen gas up to 0.05 MPa [7.25 psig] and vacuum again.) Finally, seal in with the liquid refrigerant through the liquid pipe, and adjust the gas piping to obtain an appropriate amount of the refrigerant during operation.
-
Never perform air purging using refrigerant. 3. After connecting the refrigerant pipes, check the connected pipes and the indoor unit for gas leaks. (Refer to 4.5. Refrigerant pipe airtight testing method) 4 Vacuumize the refrigerant lines through the service port of the liquid and gas stop valves. Then open the stop valves completely (for both the liquid and gas stop valves). This will completely connect the refrigerant lines of the indoor and outdoor units.
- If the stop valves are left closed and the unit is operated, the compressor and control valves will be damaged.
- Use a leak detector or soapy water to check for gas leaks at the pipe connection sections of the outdoor unit.
- Do not use the refrigerant from the unit to purge air from the refrigerant lines.
- After the valve work is completed, tighten the valve caps to the correct torque: 20 to 25 N·m [14 to 18 ft·lbs] (200 to 250 kgf·cm).
Failure to replace and tighten the caps may result in refrigerant leakage. In addition, do not damage the insides of the valve caps as they act as a seal to prevent refrigerant leakage.
-
Use a sealant to seal the ends of the thermal insulation around the pipe connection sections to prevent water from entering the thermal insulation. Refrigerant pipes are protectively wrapped
-
The pipes can be protectively wrapped up to a diameter of ø90 mm (3-9/16″) before or after connecting the pipes. Cut out the knockout in the pipe cover following the groove and wrap the pipes.
Pipe inlet gap -
Use putty or sealant to seal the pipe inlet around the pipes so that no gaps remain.(If the gaps are not closed, noise may be emitted or water and dust will enter the unit and breakdown may result.)
Note: -
Evacuate the system to 4,000 microns from both service valves. System manifold gauges must not be used to measure vacuum. A micron gauge must be used at all times.
-
Break the vacuum with Nitrogen (N2) into the discharge service valve to 0 MPa [0 psig].
-
Evacuate the system to 1,500 microns from the suction service valve.
-
Break the vacuum with Nitrogen (N2) into the discharge service valve to 0 MPa [0 psig].
-
Evacuate the system to 500 microns. The system must hold the vacuum at 500 microns for a minimum of 1 hour.
-
Conduct a rise test for a minimum of 30 minutes.
-
Refrigerant pipe airtight testing method
- Connect the testing tools.
- Make sure the stop valves A B are closed and do not open them.
- Add pressure to the refrigerant lines through the service port C of the liquid stop valve A and the gas stop valve B.
- Do not add pressure to the specified pressure all at once; add pressure little by little.
- Pressurize to 0.5 MPa [73 psig], wait 5 minutes, and make sure the pressure does not decrease.
- Pressurize to 1.5 MPa [218 psig], wait 5 minutes, and make sure the pressure does not decrease.
- Pressurize to 4.15 MPa [601 psig] and measure the surrounding temperature and refrigerant pressure.
- If the specified pressure holds for about 1 day and does not decrease, the pipes have passed the test and there are no leaks.
- If the surrounding temperature changes by 1°C [1.8°F], the pressure will change by about 0.01 MPa [1.5 psig]. Make the necessary corrections.
- If the pressure decreases in steps (2) or (3), there is a gas leak. Look for the source of the gas leak.
-
The figure to the left is an example only.
The stop valve shape, service port position, etc., may vary according to the model. -
Turn section A only.
(Do not further tighten sections A and B together.)
C Charge hose
D Service port
Additional refrigerant charge
Additional refrigerant charge
Refrigerant for the extended piping is not included in the outdoor unit when
the unit is shipped from the factory. Therefore, charge each refrigerant
piping system with additional refrigerant at the installation site. In
addition, to carry out service, enter the size and length of each liquid pipe
and additional refrigerant charge amounts in the spaces provided on the
“Refrigerant amount” plate on the outdoor unit.
- When the unit is stopped, charge the unit with the additional refrigerant through the liquid stop valve after the pipe extensions and indoor units have been vacuumed.
When the unit is operating, add refrigerant to the gas check valve using a safety charger. Do not add liquid refrigerant directly to the check valve.
Calculation of additional refrigerant charge
-
Calculate the additional charge using the liquid pipe size and length of the ex-tended piping and total capacity of connected indoor units.
-
Calculate the additional refrigerant charge using the procedure shown to the right, and charge with the additional refrigerant.
-
For amounts less than 0.1 kg, round up the calculated additional refrigerant charge.
(For example, if the calculated charge is 6.01 kg, round up the charge to 6.1 kg.) -
The amount of additional refrigerant for MXZ-SM60 which is calculated from the total capacity of indoor units and the combination of extended pipes must not be over 12.9 kg (455 oz).
-
When connecting a PAA-series unit(s), set additional constraints on the amount of additional refrigerant as follow.
(Refer to 2.4. for the capacity of indoor units, and 4.2. for extended piping.)
Number of connecting PAA-A·A | MXZ-SM36/42/48 | MXZ-SM60 |
---|---|---|
1 unit | 7.7 kg 271 oz | 11.2 kg 395 oz |
2 units | 6.7 kg 236 oz | 10.2 kg 359 oz |
3 units | 6.7 kg 236 oz | 9.7 kg 342 oz |
Stop valve opening method
The stop valve opening method varies according to the outdoor unit model. Use
the appropriate method to open the stop valves.
- Gas side (Fig. 4-10)
- Remove the cap, pull the handle toward you and rotate 1/4 turn in a counterclockwise direction to open.
- Make sure that the stop valve is open completely, push in the handle and rotate the cap back to its original position.
- Liquid side (Fig. 4-11)
- Remove the cap and turn the valve rod counterclockwise as far as it will go with the use of a 4 mm [3/16″] hexagonal wrench. Stop turning when it hits the stopper.
- Make sure that the stop valve is open completely and rotate the cap back to its original position.
Precautions when using the charge valve (Fig. 4-12)
Do not tighten the service port too much when installing it, otherwise, the
valve core could be deformed and become loose, causing a gas leak.
After positioning section B in the desired direction, turn section A only and
tighten it. Do not further tighten sections A and B together after tightening
section A.
Warning:
- When opening or closing the valve below freezing temperatures, refrigerant may spurt out from the gap between the valve stem and the valve body, resulting in injuries.
- When installing the unit, securely connect the refrigerant pipes before starting the compressor.
< Additional Charge>
Calculation of refrigerant charge
Pipe size Liquid pipe
ø6.35
SM36/42/48| (m) × 19.0 (g/m)
((ft) × 0.21 (oz/ft))
SM60| (m) × 27.0 (g/m)
((ft) × 0.29 (oz/ft))
Pipe size
Liquid pipe ø9.52
SM36/42/48| (m) × 50.0 (g/m)
((ft) × 0.55 (oz/ft))
SM60| (m) × 70.0 (g/m)
((ft) × 0.75 (oz/ft))
Total capacity
of connected indoor units
| Amount for the indoor units
---|---
– 27| 1.5 kg (53 oz)
28 – 54| 2.5 kg (88 oz)
55 –| 3.0 kg (106 oz)
Included refrigerant amount when shipped from the factory
Included refrigerant amount
SM36/42/48| 4.8 kg (169 oz)
SM60| 5.1 kg (180 oz)
The total length of each liquid line is as follows:
- ø9.52 : A + a = 30 + 15 = 45 m (148 ft)
- ø6.35 : b + c + d = 10 + 10 + 20 = 40 m (131 ft)
The total capacity of the connected indoor unit is as follows: 24 + 15 + 08 + 08 = 55
Drainage piping work
- Outdoor unit drainage pipe connection
- When drain piping is necessary, use the drain socket or the drain pan (option).
- However, it can not be used for MXZ-SM36/42/48NAMHZ2 (Hyper Heating model)
Electrical work
Caution
-
Follow the ordinance of your governmental organization for technical standard related to electrical equipment, wiring regulations and guidance of each electric power company.
-
Use self-extinguishing distribution cables for power supply wiring.
-
Wiring for control (hereinafter referred to as transmission line) shall be (5 cm [2 inch] or more) apart from power source wiring so that it is not influenced by electric noise from power source wiring. (Do not insert the transmission line and power source wire in the same conduit.)
-
Be sure to provide designated grounding work to the outdoor unit.
-
Give some allowance to wiring for the electrical part box of indoor and outdoor units, because the box is sometimes removed at the time of service work.
-
Never connect the main power source to the terminal block of the transmission line. If connected, electrical parts will be burnt out.
-
Use a 2-core shield cable for the transmission line. If transmission lines of different systems are wired with the same multiple-core cable, the resultant poor transmitting and receiving will cause erroneous operations.
-
systems are wired with the same multiple-core cable, the resultant poor transmitting and receiving will cause erroneous operations. for outdoor unit transmission.
(Transmission line to be connected with indoor unit: Terminal block TB3 for transmission line, Other: Terminal block TB7 for centralized control) The erroneous connection does not allow the system to operate. -
In case to connect with the upper-class controller or to conduct group operations in different refrigerant systems, the control line for transmission is required between the outdoor units each other.
Connect this control line between the terminal blocks for centralized control. (2-wire line with no polarity)
When conducting group operations in different refrigerant systems without connecting to the upper-class controller, replace the insertion of the short circuit connector from CN41 of 1 outdoor unit to CN40. -
Before turning the outdoor unit on, be sure to turn the indoor units and the Branch boxes on.
Control box and connecting position of wiring (Fig. 6-1)
- Connect the wiring between the outdoor unit and the indoor unit or Branch box to the transmission terminal block (TB3) of the outdoor unit. Connect the wiring between the outdoor unit and the centralized control system to the transmission terminal block (TB7) of the outdoor unit. When using shielded wiring, connect the ground of the shielded wiring to the shield terminal (S) of the terminal block (TB3) or (TB7). If the connection of the outdoor unit’s transmission power supply connector has been changed from CN41 to CN40, connect the shield terminal (S) of the terminal block (TB7) to the screw F using the included lead wire.
- The shield (S) terminal of the transmission terminal block (TB3) is connected to ground E when the unit is shipped from the factory. 2. Conduit mounting plates are being provided. Remove the knock-out pieces from the piping cover, pass the power supply and transmission wires through the appropriate knock-out holes, and connect the wires to the terminal block. 3. The terminal block (TB1B) is for supplying power to the Branch box (208 / 230 V, max. 6A). 4. Fix power source wiring to the terminal block by using buffer bushing for tensile force (PG connection or the like).
Caution:
Never connect the transmission line for the Branch box or the central
control system transmission line to this terminal block (TB1B). If the
transmission lines are connected, the indoor unit, Branch box or system
controller could be damaged.
Wiring transmission cables
- Types of control cables
- Wiring transmission cables
Types of transmission cable| Shielded wire (2-core) CVVS, CPEVS or MVVS
---|---
Cable diameter| More than 1.25 mm2 [AWG 16]
Maximum wiring length| Within 200 m [656 ft] - M-NET Remote control cables
Types of remote control cable| Shielded wire (2-core) CVVS, CPEVS or MVVS
---|---
Cable diameter| 0.5 to 1.25 mm2 [AWG 20 to AWG 16]
Remarks
| When the wiring length exceeds 10 m [32 ft], use
cable with the same specifications as transmission line wiring.
3. MA Remote control cables
Type of remote control cable | Sheathed 2-core cable (unshielded) CVV |
---|---|
Cable diameter | 0.3 to 1.25 mm2 [AWG 22 to AWG 16] (0.75 to |
1.25 mm2 [AWG 18 to AWG 16])*
Remarks| Within 200 m [656 ft]
-
Connected with a simple remote controller.
- Wiring examples
Controller name, symbol, and allowable number of controllers.
- Wiring examples
Name | Symbol | The allowable number of controllers |
---|---|---|
Outdoor unit controller | OC | – |
Indoor unit controller
| CITY MULTI
series
|
M-IC
| MXZ-SM36| 1 to 11 units per 1 OC
MXZ-SM42|
1 to 12 units per 1 OC
MXZ-SM48
MXZ-SM60
M, S, P
series
|
A-IC
| MXZ-SM36| 2 to 4 units per 1 OC 1
MXZ-SM42| 2 to 5 units per 1 OC 1
MXZ-SM48| 2 to 8 units per 1 OC 1
MXZ-SM60
Branch box| BC| 0 to 2 units per 1 OC 1
Remote controller
| M-NET| M-NET RC *2| Maximum of 12 controllers for 1 OC (Can
not be connected if the Branch box is used.) *1
MA| MA-RC| Maximum of 2 per group
Wireless| WL-RC| –
Note:
- The number of connectable units may be limited by some conditions such as an indoor unit’s capacity or each unit’s equivalent power consumption.
- Do not use the Lossnay controller (PZ-61DR-E, PZ-43SMF-E, PZ-52SF-E, PZ-60DR-E).
Example of a group operation system with multiple outdoor units (Shielded wires and address setting are necessary.)
- M-NET Remote Controller (Fig. 6-2)
- MA Remote Controller (Fig. 6-3)
-
a. Always use shielded wire when making connections between the outdoor unit (OC) and the indoor unit (M-IC).
-
b. Use feed wiring to connect terminals M1 and M2 and the ground terminal on the transmission cable terminal block (TB3) of each outdoor unit (OC) to terminals M1, M2 and terminal S on the transmission cable terminal block of the indoor unit (M-IC).
-
c. Connect terminals 1 (M1) and 2 (M2) on the transmission cable terminal block of the indoor unit (M-IC) that has the most recent address within the same group to the terminal block on the remote controller (M-NET RC).
-
d. Connect terminals M1, M2, and terminal S on the terminal block for centralized control (TB7) for the outdoor unit (OC).
-
e. The jumper connector CN41 on the control panel does not change.
-
f. Connect the shield ground of the indoor unit transmission line to the shield (S) terminal of (TB3).
Connect the shield ground of the line between outdoor units and the centralized control system transmission line to the shield (S) terminal of (TB7). -
g. Set the address setting switch as follows.
Unit | Range | Setting Method |
---|---|---|
M-IC (Main) | 01 to 50 | Use the most recent address within the same group of |
indoor units
M-IC (Sub)| 01 to 50| Use an address, other than that of the M-IC (Main) from
among the units within the same group of indoor units. This
must be in sequence with the M-IC (Main)
OC| 51 to 100| Use the most recent address of all the indoor units plus 50
- The address automatically becomes “100” if it is set as “01 – 50”.
M-NET RC (Main)| 101 to 150| Set at an M-IC (Main) address within the same
group plus 100
M-NET RC (Sub)| 151 to 200| Set at an M-IC (Main) address within the same
group plus 150
MA-RC| –| Unnecessary address setting (Necessary main/sub setting)
- h. The group setting operations among the multiple indoor units is done by the remote controller (M-NET RC) after the electrical power has been turned on.
- M-NET Remote Controller
- MA Remote Controller
< Permissible Lengths>
- Maximum line length via outdoor units (M-NET cable): L1+L2+L3+L4, L3+L4+L5+L6 and L1+L2+L5+L6 ≤ 500 m [1640 ft] (1.25 mm² [AWG16] or more)
- Indoor/outdoor transmission line Maximum length (M-NET cable): L1, L3+L4, L2+L5 and L6 ≤ 200 m [656 ft] (1.25 mm² [AWG16] or more)
- Remote controller cable length: m1, m1+m2+m3 and m1+m2+m3+m4 ≤ 200 m [656 ft] (0.3 to 1.25 mm² [AWG22 to AWG16])
- A : Shielded wire
- ( ) : Address Example
- A-IC: M, S, P series Indoor unit
< Permissible Lengths>
- Maximum line length via outdoor units (M-NET cable): L1 + L2 + L3 + L4 + L5 ≤ 500 m [1640 ft] (1.25 mm2 [AWG16] or more)
- Branch box/outdoor transmission line Maximum length (M-NET cable): L1 + L2, L3 + L4, L5 ≤ 200 m [656 ft] (1.25 mm2 [AWG16] or more)
- Indoor/Branch box transmission line Maximum length (A-control cable): L6 ≤ 25 m [82 ft] (1.5 mm² [AWG14])
- Remote controller cable length: m1 ≤ 200 m [656 ft] (0.3 to 1.25 mm² [AWG22 to AWG16])
< Incorrect Systems>
- Group operation by single remote controller
- Group operation between different refrigerant systems
- Connection of M-NET Remote controller
- Plural indoor units cannot be operated by a single remote controller.
- Different refrigerant systems cannot be connected.
- M-NET remote controller cannot be connected.
Wiring of main power supply and equipment capacity
Schematic Drawing of Wiring: When Not Using a Branch box (Example) (Fig. 6-5)
Note:
The CITY MULTI series indoor unit cannot receive power supplied from an
outdoor unit, so provide it with power separately.
Schematic Drawing of Wiring: When Using a Branch box (Example) (Fig. 6-6)
Thickness of Wire for Main Power Supply and On/Off Capacities
-
Please follow applicable federal, state, or local codes to prevent potential leakage/electric shock. Or install a ground fault interrupt for the prevention of leakage and electric shock.
IMPORTANT
If a current leakage breaker is used, it should be compatible with higher harmonics as this unit is equipped with an inverter. The use of an inadequate breaker can cause the incorrect operation of inverter. -
. Use copper supply wires. Use the electric wires over the rating voltage 300 V.
-
Although the conduit size is larger than the size specified for the wire thickness according to UL standards, use a conduit size of 1 inch.
Total operating current of the indoor unit| Minimum wire thickness (mm2/AWG)|
Ground-fault interruper 1 (if you use)| Local switch (A)| Breaker for wiring
(NFB)
---|---|---|---|---
Main Cable| Branch| Ground| Capacity| Fuse
F0 = 15 A or less 2| 2.1/14| 2.1/14| 2.1/14| 15 A current sensitivity 3| 15|
15| 15
F0 = 20 A or less 2| 3.3/12| 3.3/12| 3.3/12| 20 A current sensitivity 3| 20|
20| 20
F0 = 30 A or less 2| 5.3/10| 5.3/10| 5.3/10| 30 A current sensitivity *3| 30|
30| 30
Apply to IEC61000-3-3 about max. permissive system impedance.
-
The Ground-fault interrupter should support inverter circuit.
The Ground-fault interrupter should combine using of local switch or wiring breaker. -
Please take the larger of F1 or F2 as the value for F0.
F1 = Total operating maximum current of the indoor units × 1.2
F2 = {V1 × (Quantity of Type1)/C} + {V1 × (Quantity of Type2)/C} + {V1 × (Quantity of Type3)/C} + {V1 × (Quantity of Type4)/C} + … + {V1 × (Quantity of Type12)/C}
Indoor unit | V1 | V2 |
---|---|---|
Type 1 | PEAD-A·AA, SVZ-KP·NA, PAA-A·A | 26.9 |
2.4
Type 2| PLA-A·EA, SEZ-KD·NA| 19.8
Type 3| SLZ-KF·NA| 17.1
Type 4| MLZ-KP·NA (2)| 9.9
Type 5| MFZ-KJ·NA, MSZ-GL·NA, MSZ-FS·NA, MSZ-GS·NA, MLZ-KY·NA| 7.4
Type 6| MSZ-FH·NA, MSZ-FH·NA2, MSZ-EF·NAW(B)(S)-U1| 6.8
Type 7| Branch box| 5.1| 3.0
Type 8| PEFY-P·NMAU-E3, PVFY-P·NAMU| 38.0| 1.6
Type 9| PKFY-P·NKMU, PEFY-P·NMSU, PCFY-P·NKMU, PLFY-EP·NEMU,
PLFY-P·NFMU, PMFY-P·NBMU, PKFY-P·NLMU
| 19.8| 2.4
Type 10| PEFY-P·NMHU, PFFY-P·NEMU, PFFY-P·NRMU| 0.0| 0.0
Type 11| PEFY-P·NMHSU (connected to MXZ-SM60 only)| 13.8| 4.8
Type 12| PEFY-P·NMAU-E4| 18.6| 3.0
-
C : Multiple of tripping current at tripping time 0.01 second
Please pick up “C” from the tripping characteristic of the breaker.
<Example of “F2” calculation> -
- Condition PEFY-NMSU × 4 + PEFY-NMAU × 1, C = 8 (refer to right sample chart) F2 = 19.8 × 4/8 + 38 × 1/8
= 14.65
16 A breaker (Tripping current = 8 × 16 A at 0.01 second)
- Condition PEFY-NMSU × 4 + PEFY-NMAU × 1, C = 8 (refer to right sample chart) F2 = 19.8 × 4/8 + 38 × 1/8
-
- 3 Current sensitivity is calculated using the following formula.
G1 = V2 × (Quantity of Type1) + V2 × (Quantity of Type2) + V2 × (Quantity of Type3) + … + V2 × (Quantity of Type12)
+ V3 × (Wire length [km])
- 3 Current sensitivity is calculated using the following formula.
G1 | Current sensitivity |
---|---|
30 or less | 30 mA 0.1 second or less |
100 or less | 100 mA 0.1 second or less |
Wire thickness (mm2/AWG) | V3 |
--- | --- |
2.1/14 | 48 |
3.3/12 | 56 |
5.3/10 | 66 |
-
Use a separate power supply for the outdoor unit and indoor unit.
-
Bear in mind ambient conditions (ambient temperature, direct sunlight, rainwater, etc.) when proceeding with the wiring and connections.
-
The wire size is the minimum value for metal conduit wiring. The power cord size should be 1 rank thicker in consideration of voltage drops.
Make sure the power supply voltage does not drop more than 10%. -
Specific wiring requirements should adhere to the wiring regulations of the region.
-
Power supply cords of parts of appliances for outdoor use shall not be lighter than polychloroprene-sheathed flexible cords (design 60245 IEC57). For example, use wiring such as YZW.
-
Install an earth longer than other cables.
Warning:
- Be sure to use specified wires to connect so that no external force is imparted to terminal connections. If connections are not fixed firmly, it may cause heating or fire.
- Be sure to use the appropriate type of overcurrent protection switch. Note that generated overcurrent may include some amount of direct current.
- Be sure to attach the terminal block covers/panel of the outdoor unit securely.
If it is not attached correctly, if could result in a fire or an electric
shock due to dust, or water. etc.
Caution:
- Be careful not to make miswiring.
- Firmly tighten the terminal screws to prevent them from loosening.
- After tightening, pull the wires lightly to confirm that they not move.
- If the connecting wire is incorrectly connected to the terminal block, the unit does not operate normally.
- Some installation site may require the attachment of an earth leakage breaker. If no earth leakage breaker is installed, it may cause an electric shock.
- Do not use anything other than a breaker and fuse with the correct capacity. Using fuse and wire or copper wire with too large a capacity may cause a malfunction of unit or fire.
- Properly route wiring so as not to contact the sheet metal edge or a screw tip.
IMPORTANT
Make sure that the current leakage breaker is one compatible with higher
harmonics.
Always use a current leakage breaker that is compatible with higher harmonics
as this unit is equipped with an inverter. The use of an inadequate breaker
can cause the incorrect operation of the inverter.
- Never splice the power cable or the indoor-outdoor-Branch box connection cable, otherwise, it may result in smoke, a fire or communication failure.
Warning:
-
Please turn off the main power supply when servicing. Do not touch the B1, B2 terminals when the power is energized. If an isolator should be used between the outdoor unit and the Branch box/indoor unit and the Branch box, please use a 3-pole type or a 2-pole type.
(Please refer to the figure below.) -
Turn on the main power when the ambient temperature is -20°C (-4°F) or higher.
-
Under conditions of -20°C (-4°F), it needs at least 4 hours stand by before the units operate to warm the electrical parts.
Caution:
After using the isolator, be sure to turn off and on the main power supply to
reset the system. Otherwise, the outdoor unit may not be able to detect the
Branch box(es) or indoor units.
- Be sure to connect the outdoor branch box/indoor branch box connecting cables directly to the units (no intermediate connections).
- Intermediate connections can lead to communication errors if water enters the cables and causes insufficient insulation to ground or a poor electrical contact at the inter-mediate connection point.
(If an intermediate connection is necessary, be sure to take measures to prevent water from entering the cables.)
Address setting
Switch address setting
Note : 1. Branch box address
- When setting the address, use a number within the range 1–50.
- Ex. The set address is (47) and there are 5 indoor units (A, B, C, D, and E).
- If A: (47), B: (48), C: (49), D: (50), and E: (51), E is incorrect because it exceeds 50.
Ex1. Outdoor + Branch <1> (M, S, P series Indoor A, B, C, D, E) + Branch <2> (M, S, P series Indoor A, B, C) Ex2. Outdoor + Branch <1> (M, S, P series Indoor A, C, E) + Branch <2> (M, S, P series Indoor A, C, E)
Test run
Before test run
- After completing the installation and the wiring and piping of the indoor and outdoor units, check for refrigerant leakage, looseness in the power sup-ply or control wiring, wrong polarity and no disconnection of 1 phase in the supply.
- Use a 500-volt megohmmeter to check that the resistance between the power supply terminals and ground is at least 1 MΩ.
- Do not carry out this test on the control wiring (low voltage circuit) termi-nals.
Warning :
- Do not use the air conditioner if the insulation resistance is less than 1 MΩ.
Insulation resistance
After installation or after the power source to the unit has been cut for an
extended period, the insulation resistance will drop below 1 MΩ due to
refrigerant accumulat-ing in the compressor. This is not a malfunction.
Perform the following procedures.
-
Remove the wires from the compressor and measure the insulation resistance of the compressor.
-
If the insulation resistance is below 1 MΩ, the compressor is faulty or the resist-ance dropped due the accumulation of refrigerant in the compressor.
-
After connecting the wires to the compressor, the compressor will start to warm up after power is supplied. After supplying power for the times indicated below, measure the insulation resistance again.
-
The insulation resistance drops due to the accumulation of refrigerant in the compressor. The resistance will rise above 1 MΩ after the compressor is warmed up for 12 hours.
(The time necessary to warm up the compressor varies according to atmospheric conditions and refrigerant accumulation.) -
To operate the compressor with refrigerant accumulated in the compressor, the compressor must be warmed up at least 12 hours to prevent breakdown.
-
-
If the insulation resistance rises above 1 MΩ, the compressor is not faulty.
The following must be checked as well.
- The outdoor unit is not faulty. LED on the control board of the outdoor unit flash when the outdoor unit is faulty.
- Both the gas and liquid stop valves are completely open.
Using remote controller
Refer to the indoor unit Installation Manual.
- Be sure to perform the test run for each indoor unit. Make sure each indoor unit operates properly following the Installation Manual attached to the unit.
- If you perform the test run for all indoor units at once, you cannot detect any erroneous connection, if any, of the refrigerant pipes and the connecting wires.
- The compressor operation is not available for 3 minutes at least after the power is supplied.
- The compressor can emit noise just after turn on the power supply or in case of low outside air temperature.
- Depending on the operating conditions, the outdoor unit fan may stop while the compressor is operating, but this is not a malfunction.
Depending on the operating conditions, the outdoor unit fan may stop while the compressor is operating, but this is not a malfunction.
Using SW3 in the outdoor unit
Note:
In case of the test run from the outdoor unit, all indoor units operate.
Therefore, you can not detect any erroneous connection of refrigerant pipes
and the connecting wires. If it aims at detection of any erroneous connection,
be sure to carry out the test run from the remote controller about “7.2.1.
Using remote controller”.
SW3-1 | ON | Cooling operation |
---|---|---|
SW3-2 | OFF | |
SW3-1 | ON | Heating operation |
SW3-2 | ON |
The test run operation mode cannot be changed by DIP switch SW3-2 during the test run. (To change the test run operation mode during the test run, stop the test run by DIP switch SW3-1. After changing the test run operation mode, resume the test run by switch SW3-1.)
Refrigerant collecting (Pump down)
Perform the following procedures to collect the refrigerant when moving the
indoor unit or the outdoor unit.
-
Turn off the circuit breaker.
-
Connect the low-pressure side of the gauge manifold to the service port of the gas side stop valve.
-
Close the liquid stop valve.
-
Supply power (circuit breaker)
- The start-up of the indoor-outdoor communication takes about 3 minutes after the power (circuit breaker) is turned on. Start the pump-down operation 3 to 4 minutes after the power (circuit breaker) is turned ON.
-
Perform the test run for cooling operation (SW3-1: ON and SW3-2: OFF). The compressor (outdoor unit) and ventilators (indoor and outdoor units) start operating and test run for cooling operation begins. Immediately after performing the test run for cooling operation, set the outdoor service switch SW2-4 (pump down switch) from OFF to ON.
- Do not continue to operate for a long time with the switch SW2-4 set to ON. Make sure to switch it to OFF after the pump down is completed.
- Only set the SW3-1 to ON if the unit is stopped. However, even if the unit is stopped and the SW3-1 is set to ON less than 3 minutes after the compressor stops, the refrigerant collecting operation cannot be performed. Wait until the com-pressor has been stopped for 3 minutes and then set the SW3-1 to ON again.
-
Fully close the gas stop valve when the pressure reading on the gauge drops
7.1 – 0.0 psig (approximately 0.5 – 0.0 kgf/cm2) -
Stop the air conditioner operation (SW3-1: OFF and SW3-2: OFF). Set the outdoor service switch SW2-4 from ON to OFF.
-
Turn off the power supply (circuit breaker).
-
- If too much refrigerant has been added to the air conditioner system, the pressure may not drop to 7.1 psig (0.5 kgf/cm2). If this occurs, use a refrigerant collecting device to collect all of the refrigerants in the system, and then recharge the system with the correct amount of refrigerant after the indoor and outdoor units have been relocated.
-
Warning:
- When pumping down the refrigerant, stop the compressor before disconnecting the refrigerant pipes. The compressor may burst and cause injury if any foreign substance, such as air, enters the system.
- Do not perform pump-down work when there is a gas leak. The intake of air or other gases causes abnormally high pressure in the refrigeration cycle, which may cause an explosion or injury.
Special Functions
OUTDOOR UNIT INPUT/OUTPUT CONNECTOR
State (CN51)
- A Distant control board
- B Relay circuit
- C External output adapter (PAC-SA88HA-E)
- D Outdoor unit control board
- E Lamp power supply
- F Procure locally
- G Max. 10 m [33 ft]
Auto changeover (CN3N)
- A Remote control panel
- B Relay circuit
- C External input adapter (PAC-SC36NA-E)
- D Outdoor unit control board
- E Relay power suppl
- SW1: Switch
- SW2: Switch
- X, Y: Relay
contact rating : ≥ 0.1 A, 15 V DC
min. applicable load: ≤ 1 mA
Silent Mode / Demand Control (CN3D)
- A Remote control panel
- B Relay circuit
- C External input adapter (PAC-SC36NA-E)
- D Outdoor unit control board
- E Relay power supply
- F Procure locally
- G Max. 10 m [33 ft]
- SW1: Switch
- SW2: Switch
- X, Y: Relay
contact rating : ≥ 0.1 A, 15 V DC
min. applicable load: ≤ 1 mA
The silent mode and the demand control are selected by switching the DIP switch 9-2 on the outdoor controller board. It is possible to set it to the following power consumption (compared with ratings) by setting SW1, 2.
Outdoor controller board DIP SW9-2 | SW1 | SW2 | Function | |
---|---|---|---|---|
Silent mode | OFF | ON | – | Silent mode operation |
Demand control | ON | OFF ON ON |
OFF
| OFF OFF ON
ON
| 100% (Normal)
75%
50%
0% (Stop)
This product is designed and intended for use in the residential, commercial
and light-industrial environments.
Please be sure to put the contact address/telephone number on this manual
before handing it to the customer.
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