Summary of Contents for Mitsubishi Electric PWFY-P200VM-E-AU
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AIR CONDITIONING SYSTEMS MODEL PWFY-P100VM-E-BU PWFY-P100VM-E-AU PWFY-P200VM-E-AU DATA BOOK 3rd edition...
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• When installing and moving the air conditioner • Always use an strainer and other accessories to another site, do not charge it with a refrigerant specifi ed by Mitsubishi Electric. different from the refrigerant (R410A) specifi ed on the unit.
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• After completing installation work, make sure that • To dispose of this product, consult your dealer. refrigerant gas is not leaking. • The installer and system specialist shall secure safety against leakage according to local regula- - If the refrigerant gas leaks and is exposed to a fan tion or standards.
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• Do not install the unit where combustible gas may • When installing the unit in a hospital, communica- leak. tion station, or similar place, provide suffi cient protection against noise. If the gas leaks and accumulates around the unit, an explosion may result.
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• Ground the unit. • Do not wash the air conditioner units. Do not connect the ground wire to gas or water Washing them may cause an electric shock. pipes, lightning rods, or telephone ground lines. • Be careful that the installation base is not Improper grounding may result in electric shock.
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• Turn on the power at least 12 hours before • Do not turn off the power immediately after starting operation. stopping operation. Starting operation immediately after turning on the Always wait at least fi ve minutes before turning off main power switch can result in severe damage the power.
1. Specifi cations ·························································· 2 3. Water pipe installation ··········································· 51 (1) PWFY-P100VM-E-BU (1) Water circuit sample (2) PWFY-P100VM-E-AU (2) Selecting a water pump (3) PWFY-P200VM-E-AU (3) Installing the strainer (4) CMB-P104V-G1 (4) Precautions during installation (5) CMB-PW202V-J (5) Example of unit installation 2.
General Equipment Descriptions 1. Unit confi guration table Model PWFY-P100VM-E-BU PWFY-P100VM-E-AU PWFY-P200VM-E-AU PUHY-(E)P•Y(S)JM-A(1)(-BS) / PUHY-HP•Y(S)HM-A(-BS) / PQHY-P•Y(S)HM-A Outdoor unit PURY-(E)P•Y(S)JM-A(1)(-BS) / PQRY-P•Y(S)HM-A PURY-(E)P•Y(S)JM-A(1)(-BS) / PQRY-P•Y(S)HM-A BC controller: CMB-P104,105,106,108,1010,1013,1016V-G1 BC controller Main BC controller: CMB-P108,1010,1013,1016V-GA1 / CMB-P1016V-HA1 Connection Sub BC controller: CMB-P104,108V-GB1 / CMB-P1016V-HB1 CMB-PW202V-J 2.
External dimension H × W × D 31-1/2" (30-15/16" without legs) × 17-3/4” × 11-13/16” Net weight kg(lb) 60 (133) Compressor Type Inverter rotary hermetic compressor Maker MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Motor output Lubricant NEO22 Circulating water Operation volume 0.6~2.15 Range High pressure sensor, High pressure switch at 3.60 MPa (601 psi)
(2) PWFY-P100VM-E-AU Model PWFY-P100VM-E-AU 1-phase 220-230-240V 50/60Hz Power source 12.5 Heating capacity 10,800 (Nominal) kcal / h BTU / h 42,700 0.015 Power input Current input 0.068 - 0.065 - 0.063 Temp. range of -20~32°C (-4~90°F) PURY - series Outdoor temp. -20~15.5°C (-4~60°F) PUHY - series heating Circulating Water temp.
(4) CMB-P104V-G1 *Other models of BC controller are available. For unit information, refer to the Data Book. Model CMB-P104V-G1 Number of branch Power source 1-phase 220/230/240V 50Hz 60Hz Power input Cooling 0.067/0.076/0.085 0.054/0.061/0.067 (220/230/240) Heating 0.030/0.034/0.038 0.024/0.027/0.030 Current Cooling 0.31/0.34/0.36 0.25/0.27/0.28 (220/230/240) Heating...
(B) This insulation is for exclusive use with the strainer. Wrap the strainer with the insulation after water pipes are installed. (C) These are analog input connectors. Cut the wire before using. (D) Supplied only with the PWFY-P200VM-E-AU. Install them at the strainer inlet. Refer to P53 for details. (2) CMB-P104V-G1 SIZE Unit ODø19.05 - IDø15.88...
Water pressure drop of strainer Booster unit inlet-water volume [m (6)-2 PWFY-P100, 200VM-E-AU (with strainer) PWFY-P100VM-E-AU (with strainer) Water pressure drop of strainer HEX unit inlet-water volume [m PWFY-P200VM-E-AU (with strainer) Water pressure drop of strainer HEX unit inlet-water volume [m - 37 -...
(6)-3 Water pressure drop of Strainer only (accessory for PWFY-P100VM-E-BU and PWFY-P100, 200VM-E-AU) Booster/HEX unit inlet-water volume [m (7) Operation temperature range (7)-1 PWFY-P100VM-E-BU Heating PURY-(E)P . Y(S)JM-A(1)(-BS) Outdoor temp. [°CWB] Heating PQRY-P . Y(S)HM-A Heat source unit circulating water temp. [°C] - 38 -...
Installation 1. How to calculate the necessary heating capacity (1) Heating capacity calculation A. For Air conditioning using such as Panel Heaters, Floor Heating and Fan coil units Required total heating capacity Safety factor; PWFY unit Tank B. For Sanitary use such as Shower and Bathrooms Conditions Tank inlet water Temp.;...
2. Installation (1) Selecting an installation site • Do not install outdoors. The unit is not waterproof. • Back up system is recommended in case of PWFY unit breakdown. • The unit will get hot. Do not install in a location where heat gets trapped inside. •...
Tear plastic packaging bag and scrap it so that children cannot play with it. Otherwise plastic packaging bag may suffocate children to death. (2)-2 Product net weight Model PWFY-P100VM-E-AU PWFY-P200VM-E-AU PWFY-P100VM-E-BU Net weight 35 kg 38 kg 60 kg...
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(2)-3-2 PWFY-P100, 200VM-E-AU Unit : mm Model PWFY-P100VM-E-AU PWFY-P200VM-E-AU (2)-4 Installation method • Using the anchoring holes shown below, fi rmly bolt the unit to the base. [Fig. IV. 2. (2). 1] (A) 4-ø14 (Anchoring hole) (B) (Top view) Unit : mm Bases •...
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Be also sure to wind commercially available insulating material (with a form polyethylene’s specifi c gravity of 0.03 and thickness given below) onto all pipes which pass through rooms. Select the thickness of insulating material by pipe size. Unit : mm Model PWFY-P100VM-E-BU PWFY-P100VM-E-AU PWFY-P200VM-E-AU ø15.88 ø15.88 ø19.05 Liquid ø9.52 ø9.52 ø9.52...
(4) Connecting refrigerant pipes and drain pipes (4)-1 Refrigerant piping work This piping work must be done in accordance with the installation manuals for both outdoor unit and BC controller/WCB (simultaneous cooling and heating R2 series). • R2 series is designed to operate in a system that the refrigerant pipe from an outdoor unit is received by BC controller/WCB and branches at the BC controller/WCB to connect between indoor units.
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Cautions On Refrigerant Piping • Be sure to use non-oxidative brazing for brazing to ensure that no foreign matter or moisture enter into the pipe. • e sure to apply refrigerating machine oil over the fl are connection seating surface and tighten the connection using a double spanner.
3. Water pipe installation (1) Water circuit sample Solid arrows in the figure indicate Roof the direction of water flow. Overflowed water City water To drain outlet PWFY Field supply Uphill gradient ≥ 1/200 Water-side heat exchanger Tank Outlet Inlet Sample of water circuit for PWFY Consider the following when designing and installing a water piping system.
Water pipes can get very hot, depending on the preset temperature. Wrap the water pipes with insulating materials to prevent burns. • On the PWFY-P200VM-E-AU model, install the expansion joint (accessory) at the inlet after installing the strainer, and outlet. - 52 -...
(5) Example of unit installation [Fig. IV. 3.(5).1] PWFY- P200VM-E-AU (C) (G) (A) Close valve (E) Y-type strainer (B) Water inlet (F) Drain pipe (C) Water outlet (G) Expansion joint (D) Refrigerant piping (6) Insulation installation The surface temperature of the water pipe would be very high, depending on the set temperature. Insulate the pipe to prevent burns.
(7) Water processing and water quality control To preserve water quality, use the closed type of cooling tower for unit. When the circulating water quality is poor, the water heat exchanger can develop scales, leading to a reduction in heat-exchange power and possible corrosion of the heat exchanger.
(8) Pump interlock The unit may be damaged if it is operated with no water circulating through the pipes. Be sure to interlock unit operation and the water-circuit pump. Use the terminal blocks for interlocking TB142A (IN1) on the unit. [Fig.
Heating Voltage range MCA (A) Max. 264 V PWFY-P100VM-E-AU 50/60 220-230-240 V 0.068-0.065-0.063 0.085 PWFY-P200VM-E-AU Min. 198 V (2)-2 Power cable specifi cations Breaker for Local swich (A) Minimum wire thickness (mm Model Breaker for wiring (NFB) (A) current leakage...
(3) Connecting remote controller, indoor and outdoor transmission cables • Connect unit TB5 and outdoor unit TB3. (Non-polarized 2-wire (shield)) The “S” on unit TB5 is a shielding wire connection. For specifi cations about the connecting cables, refer to the outdoor unit installation manual.
(6) Indoor unit address setting (Be sure to operate with the main power turned OFF.) [Fig. V. 1.(6).1] <Address board> SWU2 SWU1 SWU3 (6)-1 Switch operation (BC controller) • There are two types of rotary switch setting available: setting addresses 1 to 9 and over 10, and setting branch numbers.
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(6)-3 Rule of setting address Unit Address setting Example Note Use the most recent address within the same group of indoor units. Make the indoor units address connected to the BC controller (Sub) larger than the indoor units address connected to the BC controller (Main). If applicable, set the sub BC controllers in an PURY PWFY unit 01 ~ 50...
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CN41 CN40 CN41 CN40 DipSW2-1 DipSW2-1 DipSW2-1 DipSW2-1 DipSW2-1 Group 2 PWFY-P100VM-E-BU PWFY-P100VM-E-BU PWFY-P100VM-E-AU PWFY-P100VM-E-AU PWFY-P100VM-E-BU PWFY-P200VM-E-AU PWFY-P200VM-E-AU Indoor unit BC controller TB15 TB15 Transmission Booster PAC-SF46EPA (Main) (Sub) Wireless R/C Group 32 PWFY-P100VM-E-BU BC controller BC controller Indoor unit...
(7) External input/output function Preset temperature input (external analog input: 4mA-20mA) [Fig. V. 1.(7).1] • External input Input through CN421, CN422 on the circuit board. (Fig. V. 1.(7).1) • External analog input current current External direction direction Use the supplied connector. analog input If no temperature settings are made via the MA remote controller, the temperature changes with the current of generator.
(8) BC controller piping design (8)-1 IF 16 ports or less are in use, I.e., if only one BC controller is in use with no sub BC controller Note1. No Header usable on PURY system. Note2. Indoor unit sized P100-P250 should be connected to BC controller via Y shape joint CMY-R160-J1 ; Joint CMY-R160-J1 Liquid side CMY-R160-J1 Note3.
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(8)-2 Total piping length restrictions [PURY-P200, 250, 300YJM-A, PURY-EP200YJM-A] [PURY-P350, 400, 450YJM-A, PURY-EP250, 300, 350YJM-A] 1000 1000 90 100 110 90 100 110 Distance between outdoor unit and BC controller(m) Distance between outdoor unit and BC controller(m) [PURY-P400, 450YSJM-A1] [PURY-P500, 550YSJM-A(1), PURY-EP400, 450, 500, 550YSJM-A(1)] 1000 1000 90 100 110...
(9) WCB piping design Indoor/ (Line branch Header branch PWFY branch possible) PWFY branch Capped Line branch (Header branch possible) Item Piping in the figure Maximum length Total piping length A+B+C+D+E+a+b+c+d+e+f+g 165 m Farthest IU from OU A+C+D+E+g / A+B+c (Max.
Controller 1. PAR-W21MAA specifi cations Item Description Operations Display ON/OFF Runs and stops the operation of a group of units Switches between Hot Water / Heating / Heating ECO / Anti-freeze / Cooling Operation mode switching Available operation modes vary depending on the unit to be connected. Switching limit setting can be made via a remote controller.
2. Dip switch functions Function according to switch setting Switch Function Switch setting timing H0 thermistor selection Water inlet thermistor TH6 Water outlet thermistor TH8 Before power on Auto recovery (to the status Operation after power recovery *1 Remains stopped Before power on before power failure) Operation after power recovery...
Maintenance Cycle 1. Routine maintenance checks • Periodically and thoroughly check the circulating water circuit. (See table below.) • Consult a maintenance technician. 2. Parts Replacement Cycle Regular preventive maintenance and parts replacement help keep the unit running smoothly and minimize problems. The table below shows the maintenance schedule.
Product Data (additional information for chapter III.) VIII 1. Outdoor unit capacity tables (1) Correction by total indoor (1)-1 Y series PUHY-P200YJM-A PUHY-P250YJM-A Nominal Nominal 22.4 28.0 Cooling Cooling BTU/h 76,400 BTU/h 95,500 Capacity Capacity Input 5.62 Input 7.40 PUHY-P250YJM-A PUHY-P200YJM-A Nominal Nominal...
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(1)-6 WY series PQHY-P450YSHM-A PQHY-P200YHM-A 50.0 60.0 40.0 50.0 30.0 40.0 20.0 30.0 10.0 20.0 10.0 10.0 15.0 10.0 P200 P450 Cooling Cooling Heating Heating Total capacity of indoor units Total capacity of indoor units PQHY-P250YHM-A PQHY-P500YSHM-A 50.0 70.0 40.0 60.0 30.0 50.0...
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PQHY-P850YSHM-A PQHY-P650YSHM-A 100.0 120.0 80.0 100.0 60.0 80.0 40.0 60.0 40.0 20.0 25.0 25.0 20.0 20.0 15.0 15.0 10.0 10.0 P650 P850 Cooling Cooling Heating Heating 1000 1100 1400 Total capacity of indoor units Total capacity of indoor units PQHY-P700YSHM-A PQHY-P900YSHM-A 100.0 120.0...
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(1)-7 WR2 series PQRY-P450YSHM-A PQRY-P200YHM-A 50.0 70.0 40.0 60.0 30.0 50.0 20.0 40.0 10.0 30.0 10.0 20.0 15.0 10.0 P200 P450 Cooling Cooling Heating Heating Total capacity of indoor units Total capacity of indoor units PQRY-P250YHM-A PQRY-P500YSHM-A 50.0 70.0 40.0 60.0 30.0 50.0...
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(2) Correction by refrigerant piping length (2)-1 Y series (2)-1-1 Cooling capacity correction PUHY-(E)P400Y(S)JM-A PUHY-(E)P200YJM-A Total capacity of indoor unit Total capacity of indoor unit 0.95 0.95 0.90 0.90 0.85 0.85 0.80 0.80 0.75 0.75 0.70 0.70 0.65 0.65 Piping equivalent length (m) Piping equivalent length (m) PUHY-(E)P250YJM-A PUHY-(E)P450Y(S)JM-A...
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PUHY-(E)P600YSJM-A(1) PUHY-(E)P800YSJM-A(1) Total capacity of indoor unit Total capacity of indoor unit 0.95 0.95 0.90 0.90 0.85 0.85 0.80 0.80 0.75 0.75 0.70 0.70 1040 0.65 0.65 Piping equivalent length (m) Piping equivalent length (m) PUHY-(E)P650YSJM-A PUHY-(E)P850YSJM-A Total capacity of indoor unit Total capacity of indoor unit 0.95 0.95...
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PUHY-P1000YSJM-A PUHY-P1150YSJM-A Total capacity of indoor unit Total capacity of indoor unit 0.95 0.95 0.90 0.90 0.85 0.85 0.80 0.80 1000 1150 0.75 0.75 1300 1495 0.70 0.70 0.65 0.65 Piping equivalent length (m) Piping equivalent length (m) PUHY-P1050YSJM-A PUHY-P1200YSJM-A Total capacity of indoor unit Total capacity of indoor unit 0.95...
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(2)-2 HP (ZUBADAN) series (2)-2-1 Cooling capacity correction PUHY-HP200YHM-A PUHY-HP400YSHM-A Total capacity of indoor unit Total capacity of indoor unit 0.95 0.95 0.90 0.90 0.85 0.85 0.80 0.80 0.75 0.75 0.70 0.70 0.65 0.65 Piping equivalent length (m) Piping equivalent length (m) PUHY-HP250YHM-A PUHY-HP500YSHM-A Total capacity of indoor unit...
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(2)-3 R2 series (2)-3-1 Cooling capacity correction PURY-(E)P400Y(S)JM-A(1)(-BS) PURY-(E)P200YJM-A(-BS) Total capacity of indoor unit Total capacity of indoor unit 0.95 0.95 0.90 0.90 0.85 0.85 0.80 0.80 0.75 0.75 0.70 0.70 0.65 0.65 Piping equivalent length (m) Piping equivalent length (m) PURY-(E)P250YJM-A(-BS) PURY-(E)P450Y(S)JM-A(1)(-BS) Total capacity of indoor unit...
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PURY-(E)P600YSJM-A(1)(-BS) PURY-P800YSJM-A(1)(-BS) Total capacity of indoor unit Total capacity of indoor unit 0.95 0.95 0.90 0.90 0.85 0.85 0.80 0.80 0.75 0.75 0.70 0.70 1200 0.65 0.65 Piping equivalent length (m) Piping equivalent length (m) PURY-(E)P650YSJM-A(-BS) PURY-P850YSJM-A(-BS) Total capacity of indoor unit Total capacity of indoor unit 0.95 0.95...
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(2)-3-3 How to obtain the equivalent piping length 1 PURY-(E)P200YJM-A(-BS) Equivalent length = (Actual piping length to the farthest indoor unit) + (0.35 x number of bends in the piping) m 2 PURY-(E)P250,300YJM-A(-BS) Equivalent length = (Actual piping length to the farthest indoor unit) + (0.42 x number of bends in the piping) m 3 PURY-(E)P350YJM-A(-BS) Equivalent length = (Actual piping length to the farthest indoor unit) + (0.47 x number of bends in the piping) m 4 PURY-(E)P400,450,500,550,600,650Y(S)JM-A(1)(-BS)
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(2)-4 WY series (2)-4-1 Cooling capacity correction PQHY-P450YSHM-A PQHY-P200YHM-A Total capacity of indoor unit Total capacity of indoor unit 1.00 1.00 0.95 0.95 0.90 0.90 0.85 0.85 0.80 0.80 0.75 0.75 0.70 0.70 0.65 0.65 Piping equivalent length (m) Piping equivalent length (m) PQHY-P250YHM-A PQHY-P500YSHM-A Total capacity of indoor unit...
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PQHY-P650YSHM-A PQHY-P850YSHM-A Total capacity of indoor unit Total capacity of indoor unit 1.00 1.00 0.95 0.95 0.90 0.90 0.85 0.85 0.80 0.80 0.75 0.75 1105 0.70 0.70 0.65 0.65 Piping equivalent length (m) Piping equivalent length (m) PQHY-P700YSHM-A PQHY-P900YSHM-A Total capacity of indoor unit Total capacity of indoor unit 1.00 1.00...
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(2)-4-3 How to obtain the equivalent piping length 1 PQHY-P200YHM Equivalent length = (Actual piping length to the farthest indoor unit) + (0.35 x number of bends in the piping) m 2 PQHY-P250, 300YHM Equivalent length = (Actual piping length to the farthest indoor unit) + (0.42 x number of bends in the piping) m 3 PQHY-P400, 450, 500, 550, 600, 650YSHM Equivalent length = (Actual piping length to the farthest indoor unit) + (0.50 x number of bends in the piping) m 4 PQHY-P700, 750, 800YSHM...
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(2)-5 WR2 series (2)-5-1 Cooling capacity correction PQRY-P450YSHM-A PQRY-P200YHM-A Total capacity of indoor unit Total capacity of indoor unit 1.00 1.00 0.95 0.95 0.90 0.90 0.85 0.85 0.80 0.80 0.75 0.75 0.70 0.70 0.65 0.65 Piping equivalent length (m) Piping equivalent length (m) PQRY-P250YHM-A PQRY-P500YSHM-A Total capacity of indoor unit...
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(3) Correction at frosting and defrosting Due to frosting at the outdoor heat exchanger and the automatical defrosting operation, the heating capacity of the outdoor unit should be considered by multiplying the correction factor which shown in the table below. (3)-1 Y series Table of correction factor at frost and defrost Outdoor inlet air temp.
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(3)-3 R2 series Table of correction factor at frost and defrost Outdoor inlet air temp. °C Outdoor inlet air temp. °F PURY-(E)P200YJM-A(-BS) 1.00 0.95 0.84 0.83 0.83 0.87 0.90 0.95 0.95 0.95 0.95 PURY-(E)P250YJM-A(-BS) 1.00 0.95 0.84 0.83 0.83 0.87 0.90 0.95 0.95...
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DATA BOOK PWFY-P100VM-E-BU PWFY-P100VM-E-AU PWFY-P200VM-E-AU HEAD OFFICE: TOKYO BLDG., 2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN http://Global.MitsubishiElectric.com New publication effective Dec. 2010 Specifications subject to change without notice MEE10K010...