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Mitsubishi Electric CMB-WP-V-GA1 Data Book

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Table of Contents
MODEL
CMB-WP-V-GA1
CMB-WP-V-GB1
PEFY-WP-VMS1-E
PEFY-WP-VMA-E
PLFY-WP-VBM-E
PFFY-WP-VLRMM-E
YLM 3rd edition

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Table of Contents
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  Summary of Contents for Mitsubishi Electric CMB-WP-V-GA1

  • Page 1 MODEL CMB-WP-V-GA1 CMB-WP-V-GB1 PEFY-WP-VMS1-E PEFY-WP-VMA-E PLFY-WP-VBM-E PFFY-WP-VLRMM-E YLM 3rd edition...
  • Page 2: Table Of Contents

    PLFY-WP-VBM-E Floor standing (Concealed type)......................1 - 49 PFFY-WP-VLRMM-E HBC controller ........................... 1 - 61 CMB-WP-V-GA1, CMB-WP-V-GB1 (for YLM series only) ELECTRICAL CHARACTERISTICS....................1 - 77 CAPACITY TABLES .......................... 1 - 79 2. OUTDOOR/HEAT SOURCE UNITS YLM R2 SERIES..........................2 - 3 YLM WR2 SERIES ..........................
  • Page 3 MEE15K052...
  • Page 4 Ceiling cassette (4-way flow type) ......................1 - 37 PLFY-WP-VBM-E Floor standing (Concealed type)......................1 - 49 PFFY-WP-VLRMM-E HBC controller............................1 - 61 CMB-WP-V-GA1, CMB-WP-V-GB1 (for YLM series only) ELECTRICAL CHARACTERISTICS....................... 1 - 77 CAPACITY TABLES ..........................1 - 79 1 - 1 MEE15K052...
  • Page 5 1 - 2 MEE15K052...
  • Page 6: Ceiling Concealed (Slim Type)

    Ceiling concealed (Slim type) PEFY-WP-VMS1-E I.Ceiling concealed (Slim type) 1. SPECIFICATIONS............................1 - 4 2. EXTERNAL DIMENSIONS ..........................1 - 6 3. CENTER OF GRAVITY ........................... 1 - 8 4. ELECTRICAL WIRING DIAGRAMS ........................ 1 - 9 5. SOUND LEVELS ............................. 1 - 10 5-1.
  • Page 7: Specifications

    Fuse Fuse Refrigerant control device CITY MULTI YLM series/ CITY MULTI YLM series/ CITY MULTI YLM series/ CITY MULTI YLM series/ Connectable outdoor unit/HBC controller CMB-WP-V-GA1, CMB-WP- CMB-WP-V-GA1, CMB-WP- CMB-WP-V-GA1, CMB-WP- CMB-WP-V-GA1, CMB-WP- V-GB1 V-GB1 V-GB1 V-GB1 Water piping diameter...
  • Page 8 PP honeycomb fabric. Protection device Fuse Fuse Refrigerant control device CITY MULTI YLM series/ CITY MULTI YLM series/ Connectable outdoor unit/HBC controller CMB-WP-V-GA1, CMB-WP- CMB-WP-V-GA1, CMB-WP- V-GB1 V-GB1 Water piping diameter Inlet Rc 3/4 screw Rc 3/4 screw *5 *6 Outlet...
  • Page 9: External Dimensions

    2. EXTERNAL DIMENSIONS 2. EXTERNAL DIMENSIONS PEFY-WP15, 20, 25, 32, 40, 50VMS1-E Unit : mm 1 - 6 MEE15K052...
  • Page 10 2. EXTERNAL DIMENSIONS PEFY-WP15, 20, 25, 32, 40, 50VMS1-E Unit : mm 1 - 7 MEE15K052...
  • Page 11: Center Of Gravity

    3. CENTER OF GRAVITY 3. CENTER OF GRAVITY PEFY-WP15, 20, 25, 32, 40, 50VMS1-E A: Center of gravity (mm)[in] Model name 625 [24-5/8] 752 [29-5/8] 263 [10-3/8] 338 [13-5/16] 105 [4-5/32] PEFY-WP15VMS1-E 625 [24-5/8] 752 [29-5/8] 263 [10-3/8] 338 [13-5/16] 105 [4-5/32] PEFY-WP20VMS1-E 625 [24-5/8]...
  • Page 12: Electrical Wiring Diagrams

    4. ELECTRICAL WIRING DIAGRAMS 4. ELECTRICAL WIRING DIAGRAMS PEFY-WP15, 20, 25, 32, 40, 50VMS1-E 1 - 9 MEE15K052...
  • Page 13: Sound Levels

    5. SOUND LEVELS 5-1. Sound levels 5. SOUND LEVELS PEFY-WP-VMS1-E Sound level at anechoic room : Low-Mid-High Sound level dB ( A ) 15Pa 35Pa 50Pa Aux.duct PEFY-WP15VMS1-E 220-240V 22 - 24 - 26 22 - 24 - 28 23 - 26 - 29 23 - 27 - 30 PEFY-WP20VMS1-E 220-240V 22 - 25 - 28 23 - 25 - 29 24 - 27 - 30 25 - 28 - 32 PEFY-WP25VMS1-E 220-240V 22 - 25 - 29 23 - 26 - 30 24 - 28 - 31 25 - 29 - 33 PEFY-WP32VMS1-E 220-240V 26 - 28 - 30 28 - 30 - 33 30 - 32- 35 31 - 33 - 36...
  • Page 14: Nc Curves

    5. SOUND LEVELS 5-2. NC curves PEFY-WP15VMS1-E PEFY-WP15VMS1-E PEFY-WP15VMS1-E External static pressure : 5Pa External static pressure : 15Pa External static pressure : 35Pa Power source : 220,230,240V, 50/60Hz Power source : 220,230,240V, 50/60Hz Power source : 220,230,240V, 50/60Hz High speed High speed High speed Middle speed...
  • Page 15 5. SOUND LEVELS PEFY-WP32VMS1-E PEFY-WP32VMS1-E PEFY-WP32VMS1-E External static pressure : 5Pa External static pressure : 15Pa External static pressure : 35Pa Power source : 220,230,240V, 50/60Hz Power source : 220,230,240V, 50/60Hz Power source : 220,230,240V, 50/60Hz High speed High speed High speed Middle speed Middle speed...
  • Page 16: Fan Characteristics Curves

    6. FAN CHARACTERISTICS CURVES 6. FAN CHARACTERISTICS CURVES PEFY-WP15VMS1-E PEFY-WP15VMS1-E External static pressure : 5Pa Suction : Back inlet External static pressure : 15Pa Suction : Back inlet Power source : 220,230,240V, 50/60Hz Power source : 220,230,240V, 50/60Hz Limit Limit High Middle High...
  • Page 17 6. FAN CHARACTERISTICS CURVES PEFY-WP20VMS1-E PEFY-WP20VMS1-E External static pressure : 35Pa External static pressure : 50Pa Suction : Back inlet Suction : Back inlet Power source : 220,230,240V, 50/60Hz Power source : 220,230,240V, 50/60Hz Limit Limit High High Middle Middle Airflow rate (m /min) Airflow rate (m...
  • Page 18 6. FAN CHARACTERISTICS CURVES PEFY-WP32VMS1-E PEFY-WP32VMS1-E External static pressure : 5Pa External static pressure : 15Pa Suction : Back inlet Suction : Back inlet Power source : 220,230,240V, 50/60Hz Power source : 220,230,240V, 50/60Hz Limit Limit High Middle High Middle Airflow rate (m /min) Airflow rate (m...
  • Page 19 6. FAN CHARACTERISTICS CURVES PEFY-WP40VMS1-E PEFY-WP40VMS1-E External static pressure : 35Pa Suction : Back inlet External static pressure : 50Pa Suction : Back inlet Power source : 220,230,240V, 50/60Hz Power source : 220,230,240V, 50/60Hz Limit Limit High High Middle Middle Airflow rate (m /min) Airflow rate (m...
  • Page 20: Optional Parts

    7. OPTIONAL PARTS 7-1. Optional parts line up for the Indoor unit 7. OPTIONAL PARTS Control box replace kit PEFY-WP15, 20, 25, 32, 40, 50VMS1-E PAC-KE70HS-E PEFY-WP-VMS1-E Control box replace kit PAC-KE70HS-E 1 - 17 MEE15K052...
  • Page 21 7. OPTIONAL PARTS 7-2. Control box replace kit PAC-KE70HS-E Parts PLATE A PLATE B PLATE C COVER A Q'ty Shape Parts COVER B LEAD WIRE MOTOR LEAD WIRE LEV LEAD WIRE THM A Q'ty Shape White 7-pin connector White 6-pin connector White 4-pin connector Parts LEAD WIRE THM B...
  • Page 22: Ceiling Concealed (Middle Static Pressure Type)

    Ceiling concealed (Middle static pressure type) PEFY-WP-VMA-E I.Ceiling concealed (Middle static pressure type) 1. SPECIFICATIONS............................1 - 20 2. EXTERNAL DIMENSIONS ..........................1 - 22 3. CENTER OF GRAVITY ........................... 1 - 24 4. ELECTRICAL WIRING DIAGRAMS ........................ 1 - 25 5.
  • Page 23: Specifications

    Fuse Fuse Refrigerant control device CITY MULTI YLM series/ CITY MULTI YLM series/ CITY MULTI YLM series/ CITY MULTI YLM series/ Connectable outdoor unit/HBC controller CMB-WP-V-GA1, CMB-WP- CMB-WP-V-GA1, CMB-WP- CMB-WP-V-GA1, CMB-WP- CMB-WP-V-GA1, CMB-WP- V-GB1 V-GB1 V-GB1 V-GB1 Diameter of water pipe...
  • Page 24 Air filter PP honeycomb fabric. Protection device Fuse Refrigerant control device CITY MULTI YLM series/ Connectable outdoor unit/HBC controller CMB-WP-V-GA1, CMB-WP- V-GB1 Diameter of water pipe Inlet Rc 3/4 screw *5 *6 Outlet Rc 3/4 screw Field drain pipe size mm (in.)
  • Page 25: External Dimensions

    2. EXTERNAL DIMENSIONS 2. EXTERNAL DIMENSIONS PEFY-WP20, 25, 32, 40, 50VMA-E Unit: mm 1 - 22 MEE15K052...
  • Page 26 2. EXTERNAL DIMENSIONS PEFY-WP20, 25, 32, 40, 50VMA-E Unit: mm 1 - 23 MEE15K052...
  • Page 27: Center Of Gravity

    3. CENTER OF GRAVITY 3. CENTER OF GRAVITY PEFY-WP20, 25, 32, 40, 50VMA-E A : Center of gravity (mm)[in] Model name PEFY-WP20VMA-E 643 [25 - 6/16] 754 [29 - 11/16] 300 [11 -13/16] 130 [5 -2/16] 330 [13] PEFY-WP25VMA-E 643 [25 - 6/16] 954 [37 - 9/16] 375 [14 -13/16] 130 [5 -2/16]...
  • Page 28: Electrical Wiring Diagrams

    4. ELECTRICAL WIRING DIAGRAMS 4. ELECTRICAL WIRING DIAGRAMS PEFY-WP20, 25, 32, 40, 50VMA-E 1 - 25 MEE15K052...
  • Page 29 5. SOUND LEVELS 5-1. Sound levels 5. SOUND LEVELS 5-1-1. Sound levels (Measured condition : With 1m air inlet duct and 2m air outlet duct) Sound level at anechoic room : Low-Mid-High PEFY-WP-VMA-E Model Sound level dB(A) 35Pa 50Pa 70Pa 100Pa 150Pa Aux.
  • Page 30: Sound Levels

    5. SOUND LEVELS 5-2. NC curves 5-2-1. NC curves (Sound level measured condition : With 1m air inlet duct and 2m air outlet duct) PEFY-WP20VMA-E PEFY-WP20VMA-E PEFY-WP20VMA-E External Static Pressure: 35Pa External Static Pressure: 50Pa External Static Pressure: 70Pa Power Source: 220-240V(50/60Hz) Power Source: 220-240V(50/60Hz) Power Source: 220-240V(50/60Hz) 70.0...
  • Page 31 5. SOUND LEVELS PEFY-WP32VMA-E PEFY-WP32VMA-E PEFY-WP32VMA-E External Static Pressure: 70Pa External Static Pressure: 100Pa External Static Pressure: 150Pa Power Source: 220-240V(50/60Hz) Power Source: 220-240V(50/60Hz) Power Source: 220-240V(50/60Hz) 70.0 70.0 70.0 50/60Hz 50/60Hz 50/60Hz High High High Middle 50/60Hz Middle 50/60Hz Middle 50/60Hz 65.0 65.0...
  • Page 32 5. SOUND LEVELS 5-2-2. NC curves (Sound level measured condition : With 2m air inlet duct and 2m air outlet duct) PEFY-WP20VMA-E PEFY-WP20VMA-E PEFY-WP20VMA-E External Static Pressure: 35Pa External Static Pressure: 50Pa External Static Pressure: 70Pa Power Source: 220-230-240V(50/60Hz) Power Source: 220-230-240V(50/60Hz) Power Source: 220-230-240V(50/60Hz) 70.0 70.0...
  • Page 33 5. SOUND LEVELS PEFY-WP32VMA-E PEFY-WP32VMA-E PEFY-WP32VMA-E External Static Pressure: 70Pa External Static Pressure: 100Pa External Static Pressure: 150Pa Power Source: 220-230-240V(50/60Hz) Power Source: 220-230-240V(50/60Hz) Power Source: 220-230-240V(50/60Hz) 70.0 70.0 70.0 50/60Hz 50/60Hz 50/60Hz High High High Middle 50/60Hz Middle 50/60Hz Middle 50/60Hz 65.0 65.0...
  • Page 34: Fan Characteristics Curves

    6. FAN CHARACTERISTICS CURVES 6. FAN CHARACTERISTICS CURVES PEFY-WP20VMA-E PEFY-WP20VMA-E External static pressure : 35Pa External static pressure : 50Pa Power source : 220-240V Power source : 220-240V Limit Limit High High Middle Middle Airflow rate (m /min) Airflow rate (m /min) PEFY-WP20VMA-E PEFY-WP20VMA-E...
  • Page 35 6. FAN CHARACTERISTICS CURVES PEFY-WP25VMA-E PEFY-WP25VMA-E External static pressure : 35Pa External static pressure : 50Pa Power source : 220-240V Power source : 220-240V Limit Limit High High Middle Middle Airflow rate (m /min) Airflow rate (m /min) PEFY-WP25VMA-E PEFY-WP25VMA-E External static pressure : 70Pa External static pressure : 100Pa Power source : 220-240V...
  • Page 36 6. FAN CHARACTERISTICS CURVES PEFY-WP32VMA-E PEFY-WP32VMA-E External static pressure : 35Pa External static pressure : 50Pa Power source : 220-240V Power source : 220-240V Limit Limit High High Middle Middle Airflow rate (m /min) Airflow rate (m /min) PEFY-WP32VMA-E PEFY-WP32VMA-E External static pressure : 70Pa External static pressure : 100Pa Power source : 220-240V...
  • Page 37 6. FAN CHARACTERISTICS CURVES PEFY-WP40,50VMA-E PEFY-WP40,50VMA-E External static pressure : 35Pa External static pressure : 50Pa Power source : 220-240V Power source : 220-240V Limit Limit High High Middle Middle Airflow rate (m /min) Airflow rate (m /min) PEFY-WP40,50VMA-E PEFY-WP40,50VMA-E External static pressure : 70Pa External static pressure : 100Pa Power source : 220-240V...
  • Page 38: Optional Parts

    7. OPTIONAL PARTS 7-1. Optional parts line up for the Indoor unit 7. OPTIONAL PARTS Filter box PEFY-WP20VMA-E PAC-KE91TB-E PEFY-WP25, 32VMA-E PAC-KE92TB-E PEFY-WP40, 50VMA-E PAC-KE93TB-E PEFY-WP-VMA-E PEFY-WP-VMA-E Filter box PAC-KE·TB-E 7-2. Filter box PAC-KE-TB-E Item Screw Filter box FLANGE Installation manual Quantity Shape Detailed installation information should be referred to its Installation Manual.
  • Page 39 1 - 36 MEE15K052...
  • Page 40: Ceiling Cassette (4-Way Flow Type)

    Ceiling cassette (4-way flow type) PLFY-WP-VBM-E I.Ceiling cassette (4-way flow type) 1. SPECIFICATIONS............................1 - 38 2. EXTERNAL DIMENSIONS ..........................1 - 39 3. CENTER OF GRAVITY ........................... 1 - 40 4. ELECTRICAL WIRING DIAGRAMS ........................ 1 - 41 5. SOUND LEVELS ............................. 1 - 42 5-1.
  • Page 41 (Low-Mid1-Mid2-High) Insulation material PP honeycomb Air filter Fuse Protection device Refrigerant control device Connectable outdoor unit/HBC controller CITY MULTI YLM series/CMB-WP-V-GA1, CMB-WP-V-GB1 Water piping diameter Inlet Rc 3/4 screw Outlet Rc 3/4 screw *3*4 Field drain pipe size mm (in.) O.D.32 (1-1/4)
  • Page 42: External Dimensions

    2. EXTERNAL DIMENSIONS 2. EXTERNAL DIMENSIONS PLFY-WP32, 40, 50VBM-E Unit : mm 1 - 39 MEE15K052...
  • Page 43: Center Of Gravity

    3. CENTER OF GRAVITY 3. CENTER OF GRAVITY PLFY-WP32, 40, 50VBM-E Water pipe Water pipe side (mm) [in] Model name PLFY-WP32VBM-E 400 [15-3/4] 105 [4-5/32] 280 [11-1/32] PLFY-WP40VBM-E 280 [11-1/32] 400 [15-3/4] 105 [4-5/32] PLFY-WP50VBM-E 280 [11-1/32] 400 [15-3/4] 105 [4-5/32] 1 - 40 MEE15K052...
  • Page 44: Electrical Wiring Diagrams

    4. ELECTRICAL WIRING DIAGRAMS 4. ELECTRICAL WIRING DIAGRAMS PLFY-WP32, 40, 50VBM-E 1 - 41 MEE15K052...
  • Page 45: Sound Levels

    5. SOUND LEVELS 5-1. Sound levels 5. SOUND LEVELS PLFY-WP-VBM-E Sound level at anechoic room: Low- Mid2-Mid1 -High Sound level dB (A) 27-29-30-31 PLFY-WP32VBM-E PLFY-WP40VBM-E 27-29-30-31 PLFY-WP50VBM-E 27-30-32-34 Measurement location * Measured in anechoic room. 5-2. NC curves PLFY-WP32, 40VBM-E PLFY-WP50VBM-E External Static Pressure: 0Pa External Static Pressure: 0Pa...
  • Page 46: Temperature/Airflow Distributions

    6. TEMPERATURE/AIRFLOW DISTRIBUTIONS 6-1. Temperature distributions 6. TEMPERATURE/AIRFLOW DISTRIBUTIONS • PLFY-WP32, 40VBM-E <Cooling mode> Standard <Heating mode> Standard Flow angle : 30° 4-way flow Flow angle : 60° 4-way flow ceiling height : 2.7 m ceiling height : 2.7 m <˚C >...
  • Page 47: Airflow Distributions

    6. TEMPERATURE/AIRFLOW DISTRIBUTIONS 6-2. Airflow distributions PLFY-WP32, 40VBM-E <Cooling mode> <Heating mode> Flow angle 30° Flow angle 60° <m/s> <m/s> Floor distance <m> Floor distance <m> PLFY-WP50VBM-E <Cooling mode> <Heating mode> Flow angle 30° Flow angle 60° <m/s> <m/s> Floor distance <m> Floor distance <m>...
  • Page 48: Optional Parts

    7. OPTIONAL PARTS 7-1. Optional parts line up for the Indoor unit 7. OPTIONAL PARTS Description Model Air outlet shutter plate PAC-SH51SP-E Multi-function casement PAC-SH53TM-E High efficiency filter element PAC-SH59KF-E i-see Sensor corner panel PAC-SA1ME-E PLFY-WP-VBM-E Automatic filter elevation panel PLP-6BAJ Wireless signal receiver PAR-SA9FA-E...
  • Page 49: High Efficiency Filter Element

    7. OPTIONAL PARTS 7-3. High efficiency filter element Life span: 2,500 hr (Dust concentration 0.15mg/m ); Colorimetric method 65% (JIS 11 class); No re-production. * The actual dust situation affects the filter life span, which should be considered at the applying site. Material: Electrostatic polyolefin fiber High efficiency filter element PAC-SH59KF-E should be used together with the Multi-function casement PAC-SH53TM-E.
  • Page 50: I-See Sensor Corner Panel

    7. OPTIONAL PARTS 7-5. i-see sensor corner panel i-see sensor provides comfortable space as it detects the floor temperature to prevent spotty temperature. And that enables the unit to save energy. Attention Make sure that there are no gaps between the unit and the grille, and the grille and ceiling. It may cause dew dripping.
  • Page 51: Wireless Signal Receiver

    7. OPTIONAL PARTS 7-7. Wireless signal receiver Wireless signal receiver PAR-SF9FA-E/PAR-SA9FA-E is necessary for using wireless remote controller PAR-SF9FA-E/PAR-SA9FA-E is a corner panel with the signal receiver for wireless remote controller. Item Wireless signal receiver for VFM Wireless signal receiver for VBM Quantity Shape Detailed installation information should be referred to its Installation Manual.
  • Page 52: Floor Standing (Concealed Type)

    Floor standing (Concealed type) PFFY-WP-VLRMM-E I.Floor standing (Concealed type) 1. SPECIFICATIONS............................1 - 50 2. EXTERNAL DIMENSIONS ..........................1 - 52 3. CENTER OF GRAVITY ........................... 1 - 53 4. ELECTRICAL WIRING DIAGRAMS ........................ 1 - 54 5. SOUND LEVELS ............................. 1 - 55 5-1.
  • Page 53: Specifications

    Fuse Fuse Fuse Refrigerant control device CITY MULTI YLM series/ CITY MULTI YLM series/ CITY MULTI YLM series/ CITY MULTI YLM series/ Connectable outdoor unit CMB-WP-V-GA1, CMB-WP- CMB-WP-V-GA1, CMB-WP- CMB-WP-V-GA1, CMB-WP- CMB-WP-V-GA1, CMB-WP- V-GB1 V-GB1 V-GB1 V-GB1 Water piping diameter...
  • Page 54 Air filter PP honeycomb fabric. Protection device Fuse Refrigerant control device CITY MULTI YLM series/ Connectable outdoor unit CMB-WP-V-GA1, CMB-WP- V-GB1 Water piping diameter Inlet Rc 3/4 screw *5 *6 Outlet Rc 3/4 screw I.D.26 (1) <Accessory hose Field drain pipe size mm (in.)
  • Page 55: External Dimensions

    2. EXTERNAL DIMENSIONS 2. EXTERNAL DIMENSIONS PFFY-WP20, 25, 32, 40, 50VLRMM-E Unit : mm 1 - 52 MEE15K052...
  • Page 56: Center Of Gravity

    3. CENTER OF GRAVITY 3. CENTER OF GRAVITY PFFY-WP20, 25, 32, 40, 50VLRMM-E Floor hole for fixing (mm)[in] Model name 100 [3-15/16] 335 [13-1/4] 640 [25-1/4] 17 [11/16] PFFY-WP20VLRMM-E 760 [29-15/16] 100 [3-15/16] 335 [13-1/4] PFFY-WP25VLRMM-E 17 [11/16] 100 [3-15/16] 760 [29-15/16] 17 [11/16] 335 [13-1/4]...
  • Page 57: Electrical Wiring Diagrams

    4. ELECTRICAL WIRING DIAGRAMS 4. ELECTRICAL WIRING DIAGRAMS PFFY-WP20, 25, 32, 40, 50VLRMM-E 1 - 54 MEE15K052...
  • Page 58: Sound Levels

    5. SOUND LEVELS 5-1. Sound levels 5. SOUND LEVELS PFFY-WP-VLRMM-E Sound level at anechoic room : Low-Middle-High Sound level dB (A) Aux. duct 20Pa 40Pa 60Pa PFFY-WP20VLRMM-E 31-33-38 32-37-39 36-38-42 PFFY-WP25VLRMM-E 31-33-38 32-37-39 36-38-42 1.0m PFFY-WP32VLRMM-E 31-35-38 34-37-40 36-40-42 Measurement location PFFY-WP40VLRMM-E 34-37-40 37-39-43...
  • Page 59: Sound Levels

    5. SOUND LEVELS PFFY-WP40VLRMM-E PFFY-WP40VLRMM-E PFFY-WP40VLRMM-E External Static Pressure: 20Pa External Static Pressure: 40Pa External Static Pressure: 60Pa Power Source: 220-230-240V, 50/60Hz Power Source: 220-230-240V, 50/60Hz Power Source: 220-230-240V, 50/60Hz 70.0 70.0 70.0 50/60Hz 50/60Hz 50/60Hz High High High Middle 50/60Hz Middle 50/60Hz Middle 50/60Hz 65.0...
  • Page 60: Fan Characteristics Curves

    6. FAN CHARACTERISTICS CURVES 6. FAN CHARACTERISTICS CURVES PFFY-WP20VLRMM-E PFFY-WP20VLRMM-E External static pressure : 20Pa External static pressure : 40Pa Power source : 220-230-240V, 50/60Hz Power source : 220-230-240V, 50/60Hz Limit Limit High High Middle Middle Airflow rate (m /min) Airflow rate (m /min) PFFY-WP20VLRMM-E...
  • Page 61 6. FAN CHARACTERISTICS CURVES PFFY-WP32VLRMM-E PFFY-WP32VLRMM-E External static pressure : 20Pa External static pressure : 40Pa Power source : 220-230-240V, 50/60Hz Power source : 220-230-240V, 50/60Hz Limit Limit High High Middle Middle Airflow rate (m /min) Airflow rate (m /min) PFFY-WP32VLRMM-E PFFY-WP40VLRMM-E External static pressure : 60Pa...
  • Page 62 6. FAN CHARACTERISTICS CURVES PFFY-WP50VLRMM-E PFFY-WP50VLRMM-E External static pressure : 20Pa External static pressure : 40Pa Power source : 220-230-240V, 50/60Hz Power source : 220-230-240V, 50/60Hz Limit Limit High High Middle Middle Airflow rate (m /min) Airflow rate (m /min) PFFY-WP50VLRMM-E External static pressure : 60Pa Power source : 220-230-240V, 50/60Hz...
  • Page 63 1 - 60 MEE15K052...
  • Page 64: Hbc Controller

    HBC controller CMB-WP-V-GA1, CMB-WP-V-GB1 (for YLM series only) I.HBC controller 1. SPECIFICATIONS............................1 - 62 2. EXTERNAL DIMENSIONS ..........................1 - 66 3. CENTER OF GRAVITY ........................... 1 - 70 4. ELECTRICAL WIRING DIAGRAMS ........................ 1 - 71 5. SOUND LEVELS ............................. 1 - 75 5-1.
  • Page 65 1. SPECIFICATIONS I.HBC controller 1. SPECIFICATIONS Model name CMB-WP108V-GA1 Number of branch Power source 1-phase 220-230-240 V 50 Hz 60 Hz Power input Cooling 0.45/0.46/0.47 0.45/0.46/0.47 (220/230/240) Heating 0.45/0.46/0.47 0.45/0.46/0.47 Current input Cooling 2.89/2.83/2.79 2.89/2.83/2.79 (220/230/240) Heating 2.89/2.83/2.79 2.89/2.83/2.79 Sound pressure level (measured in anechoice room) dB <A>...
  • Page 66 1. SPECIFICATIONS Model name CMB-WP1016V-GA1 Number of branch Power source 1-phase 220-230-240 V 50 Hz 60 Hz Power input Cooling 0.45/0.46/0.47 0.45/0.46/0.47 (220/230/240) Heating 0.45/0.46/0.47 0.45/0.46/0.47 Current input Cooling 2.89/2.83/2.79 2.89/2.83/2.79 (220/230/240) Heating 2.89/2.83/2.79 2.89/2.83/2.79 Sound pressure level (measured in anechoice room) dB <A>...
  • Page 67 1. SPECIFICATIONS Model name CMB-WP108V-GB1 Number of branch Power source 1-phase 220-230-240 V 50 Hz 60 Hz Power input Cooling 0.01/0.01/0.01 0.01/0.01/0.01 (220/230/240) Heating 0.01/0.01/0.01 0.01/0.01/0.01 Current input Cooling 0.05/0.05/0.05 0.05/0.05/0.05 (220/230/240) Heating 0.05/0.05/0.05 0.05/0.05/0.05 Sound pressure level (measured in anechoice room) dB <A>...
  • Page 68 1. SPECIFICATIONS Model name CMB-WP1016V-GB1 Number of branch Power source 1-phase 220-230-240 V 50 Hz 60 Hz Power input Cooling 0.01/0.01/0.01 0.01/0.01/0.01 (220/230/240) Heating 0.01/0.01/0.01 0.01/0.01/0.01 Current input Cooling 0.05/0.05/0.05 0.05/0.05/0.05 (220/230/240) Heating 0.05/0.05/0.05 0.05/0.05/0.05 Sound pressure level (measured in anechoice room) dB <A>...
  • Page 69 2. EXTERNAL DIMENSIONS 2. EXTERNAL DIMENSIONS CMB-WP108V-GA1 Unit : mm 1 - 66 MEE15K052...
  • Page 70 2. EXTERNAL DIMENSIONS CMB-WP1016V-GA1 Unit : mm 1 - 67 MEE15K052...
  • Page 71 2. EXTERNAL DIMENSIONS CMB-WP108V-GB1 Unit : mm 1 - 68 MEE15K052...
  • Page 72 2. EXTERNAL DIMENSIONS CMB-WP1016V-GB1 Unit : mm 1 - 69 MEE15K052...
  • Page 73 3. CENTER OF GRAVITY 3. CENTER OF GRAVITY CMB-WP108, 1016V-GA1 CMB-WP108, 1016V-GB1 Indoor unit branching point Center of gravity CMB-WP108V-GA1 CMB-WP1016V-GA1 CMB-WP108V-GB1 CMB-WP1016V-GB1 A (mm) 1379 1659 1379 1379 x (mm) y (mm) z (mm) 1 - 70 MEE15K052...
  • Page 74 4. ELECTRICAL WIRING DIAGRAMS 4. ELECTRICAL WIRING DIAGRAMS CMB-WP108V-GA1 1 - 71 MEE15K052...
  • Page 75 4. ELECTRICAL WIRING DIAGRAMS CMB-WP1016V-GA1 1 - 72 MEE15K052...
  • Page 76 4. ELECTRICAL WIRING DIAGRAMS CMB-WP108V-GB1 1 - 73 MEE15K052...
  • Page 77 4. ELECTRICAL WIRING DIAGRAMS CMB-WP1016V-GB1 1 - 74 MEE15K052...
  • Page 78 5. SOUND LEVELS 5-1. Sound levels 5. SOUND LEVELS (Measured point) CMB-WP108V-GA1 CMB-WP1016V-GA1 Measurement location Measured in anechoic room. 5-2. NC curves CMB-WP108V-GA1,CMB-WP1016V-GA1 Power Source: 230V, 50Hz 70.0 65.0 60.0 NC-60 55.0 50.0 NC-50 45.0 40.0 NC-40 35.0 30.0 NC-30 25.0 20.0 Approximate minimum...
  • Page 79 1 - 76 MEE15K052...
  • Page 80: Electrical Characteristics

    ELECTRICAL CHARACTERISTICS Electrical characteristics I.ELECTRICAL CHARACTERISTICS 1. Power supply for Indoor unit ..........................1 - 78 1-1. Electrical characteristics of Indoor unit ....................1 - 78 1-2. Electrical characteristics of HBC controller ....................1 - 78 1 - 77 MEE15K052...
  • Page 81 1. Power supply for Indoor unit 1-1. Electrical characteristics of Indoor unit I.ELECTRICAL CHARACTERISTICS 1. Power supply for Indoor unit Symbols: MCA: Max.Circuit Amps (=1.25xFLA) FLA: Full Load Amps IFM: Indoor Fan Motor Output: Fan motor rated output Power supply PEFY-WP-VMA-E Volts / Hz Range +-10%...
  • Page 82: Capacity Tables

    CAPACITY TABLES Capacity Tables I.CAPACITY TABLES 1. Cooling [Ceiling concealed (Slim type)] ......................1 - 80 1-1. Cooling capacity with PURY-(E)P200-250YLM-A1 ................. 1 - 80 1-2. Cooling capacity with PURY-(E)P300-400YLM-A1 ................. 1 - 80 1-3. Cooling capacity with PURY-(E)P450-500YLM-A1 ................. 1 - 80 1-4.
  • Page 83 1. Cooling [Ceiling concealed (Slim type)] 1-1. Cooling capacity with PURY-(E)P200-250YLM-A1 I.CAPACITY TABLES 1. Cooling [Ceiling concealed (Slim type)] PEFY-WP-VMS1-E CA: Capacity (kW), SHC: Sensible Heat Capacity (kW) Model Indoor air temp. size 21.5°C D.B. 23°C D.B. 25°C D.B. 27°C D.B. 28°C D.B.
  • Page 84 2. Cooling [Ceiling concealed (Middle static pressure type)] 2-1. Cooling capacity with PURY-(E)P200-250YLM-A1 2. Cooling [Ceiling concealed (Middle static pressure type)] PEFY-WP-VMA-E CA: Capacity (kW), SHC: Sensible Heat Capacity (kW) Model Indoor air temp. size 21.5°C D.B. 23°C D.B. 25°C D.B. 27°C D.B.
  • Page 85 3. Cooling [Ceiling cassette (4-way flow type)] 3-1. Cooling capacity with PURY-(E)P200-250YLM-A1 3. Cooling [Ceiling cassette (4-way flow type)] PLFY-WP-VBM-E CA: Capacity (kW), SHC: Sensible Heat Capacity (kW) Model Indoor air temp. size 21.5°C D.B. 23°C D.B. 25°C D.B. 27°C D.B. 28°C D.B.
  • Page 86 4. Cooling [Floor standing (Concealed type)] 4-1. Cooling capacity with PURY-(E)P200-250YLM-A1 4. Cooling [Floor standing (Concealed type)] PFFY-WP-VLRMM-E CA: Capacity (kW), SHC: Sensible Heat Capacity (kW) Model Indoor air temp. size 21.5°C D.B. 23°C D.B. 25°C D.B. 27°C D.B. 28°C D.B. 30°C D.B.
  • Page 87 5. Heating [All indoor units] 5-1. Heating capacity with PURY-(E)P200-250YLM-A1 5. Heating [All indoor units] All Indoor units SHC: Sensible Heat Capacity (kW) Model Indoor air temp. size 15°C D.B. 20°C D.B. 25°C D.B. 27°C D.B. (Rated kW) 15 (1.9) 20 (2.5) 25 (3.2) 32 (4.0)
  • Page 88 5. Heating [All indoor units] 5-4. Heating capacity with PURY-(E)P200-250YLM-A1 "COP priority mode" All Indoor units SHC: Sensible Heat Capacity (kW) Model Indoor air temp. size 15°C D.B. 20°C D.B. 25°C D.B. 27°C D.B. (Rated kW) 15 (1.9) 20 (2.5) 25 (3.2) 32 (4.0) 40 (5.0)
  • Page 89 1 - 86 MEE15K052...
  • Page 90: Ylm R2 Series

    HYBRID CITY MULTI 2. OUTDOOR/HEAT SOURCE UNITS YLM R2 SERIES............................. 2 - 3 YLM WR2 SERIES ..........................2 - 37 2 - 1 MEE15K052...
  • Page 91 2 - 2 MEE15K052...
  • Page 92: Outdoor Units

    YLM R2 SERIES OUTDOOR UNITS I.YLM R2 SERIES 1. SPECIFICATIONS............................2 - 4 2. CAPACITY TABLES ............................2 - 14 2-1. Correction by temperature ........................2 - 14 2-2. Correction by total indoor......................... 2 - 26 2-3. Correction by piping length ........................2 - 30 2-4.
  • Page 93: Specifications

    *4 External static press. 0 Pa (0 mmH 0 Pa (0 mmH Compressor Type Inverter scroll hermetic compressor Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Inverter Motor output Case heater Lubricant...
  • Page 94 Motor output 0.92 x 1 *4 External static press. 0 Pa (0 mmH Compressor Type Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Motor output Case heater Lubricant MEL32 External finish Pre-coated galvanized steel sheets (+powder coating for -BS type) <MUNSELL 5Y 8/1 or similar>...
  • Page 95 Inverter-control, Direct-driven by motor Motor output 0.92 x 1 *4 External static press. 0 Pa (0 mmH Compressor Type Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Motor output 10.5 Case heater Lubricant MEL32 External finish Pre-coated galvanized steel sheets (+powder coating for -BS type) <MUNSELL 5Y 8/1 or similar>...
  • Page 96 *4 External static press. 0 Pa (0 mmH 0 Pa (0 mmH Compressor Type Inverter scroll hermetic compressor Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Inverter Motor output 10.9 12.4...
  • Page 97 Inverter-control, Direct-driven by motor Motor output 0.92 x 2 *4 External static press. 0 Pa (0 mmH Compressor Type Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Motor output 13.4 Case heater Lubricant MEL32 External finish Pre-coated galvanized steel sheets (+powder coating for -BS type) <MUNSELL 5Y 8/1 or similar>...
  • Page 98 *4 External static press. 0 Pa (0 mmH 0 Pa (0 mmH Compressor Type Inverter scroll hermetic compressor Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Inverter Motor output Case heater Lubricant...
  • Page 99 Motor output 0.92 x 1 *4 External static press. 0 Pa (0 mmH Compressor Type Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Motor output Case heater Lubricant MEL32 External finish Pre-coated galvanized steel sheets (+powder coating for -BS type) <MUNSELL 5Y 8/1 or similar>...
  • Page 100 Inverter-control, Direct-driven by motor Motor output 0.92 x 1 *4 External static press. 0 Pa (0 mmH Compressor Type Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Motor output 10.5 Case heater Lubricant MEL32 External finish Pre-coated galvanized steel sheets (+powder coating for -BS type) <MUNSELL 5Y 8/1 or similar>...
  • Page 101 *4 External static press. 0 Pa (0 mmH 0 Pa (0 mmH Compressor Type Inverter scroll hermetic compressor Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Inverter Motor output 10.9 12.4...
  • Page 102 Inverter-control, Direct-driven by motor Motor output 0.92 x 2 *4 External static press. 0 Pa (0 mmH Compressor Type Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Motor output 13.4 Case heater 0.045 (240V) Lubricant MEL32...
  • Page 103: Capacity Tables

    2. CAPACITY TABLES 2-1. Correction by temperature 2. CAPACITY TABLES CITY MULTI could have varied capacity at different designing temperature. Using the nominal cooling/heating capacity value and the ratio below, the capacity can be observed at various temperature. Indoor unit temperature correction PURY- P200YLM-A1 P250YLM-A1...
  • Page 104 2. CAPACITY TABLES Indoor unit temperature correction PURY- P200YLM-A1 P250YLM-A1 To be used to correct indoor unit capacity only Nominal 25.0 31.5 Heating 85,300 107,500 Capacity BTU/h Input 7.08 10.06 PURY- EP200YLM-A1 EP250YLM-A1 Nominal 25.0 31.5 Heating 85,300 107,500 BTU/h Capacity Input 6.92...
  • Page 105 2. CAPACITY TABLES Indoor unit temperature correction PURY- P300YLM-A1 P350YLM-A1 P400YLM-A1 Nominal To be used to correct indoor unit capacity only 33.5 40.0 45.0 Cooling 114,300 136,500 153,500 BTU/h Capacity Input 13.34 17.93 16.65 PURY- EP300YLM-A1 EP350YLM-A1 EP400YLM-A1 Nominal 33.5 40.0 45.0 Cooling...
  • Page 106 2. CAPACITY TABLES Indoor unit temperature correction PURY- P300YLM-A1 P350YLM-A1 P400YLM-A1 To be used to correct indoor unit capacity only Nominal 37.5 45.0 45.0 Heating 128,000 153,500 153,500 Capacity BTU/h Input 12.71 15.51 13.39 PURY- EP300YLM-A1 EP350YLM-A1 EP400YLM-A1 Nominal 37.5 45.0 50.0 Heating...
  • Page 107 2. CAPACITY TABLES Indoor unit temperature correction PURY- P450YLM-A1 P500YLM-A1 Nominal To be used to correct indoor unit capacity only 50.0 56.0 Cooling 170,600 191,100 BTU/h Capacity Input 17.92 22.67 PURY- EP450YLM-A1 EP500YLM-A1 Nominal 50.0 56.0 Cooling 170,600 191,100 BTU/h Capacity Input 16.83...
  • Page 108 2. CAPACITY TABLES Indoor unit temperature correction PURY- P450YLM-A1 P500YLM-A1 To be used to correct indoor unit capacity only Nominal 56.0 58.0 Heating 191,100 197,900 BTU/h Capacity Input 17.39 17.53 PURY- EP450YLM-A1 EP500YLM-A1 Nominal 56.0 63.0 Heating 191,100 215,000 BTU/h Capacity Input 16.86...
  • Page 109 2. CAPACITY TABLES Correction by temperature (COP Priority Mode) CITY MULTI could have various capacities at different designing temperatures. Using the nominal cooling/heating capacity values and the ratios below, the capacity can be found for various temperatures. To select COP priority mode, DipSW 3-7 must be set to ON. Indoor unit temperature correction PURY- P200YLM-A1...
  • Page 110 2. CAPACITY TABLES Indoor unit temperature correction PURY- P200YLM-A1 P250YLM-A1 To be used to correct indoor unit capacity only Nominal 25.0 31.5 Heating 85,300 107,500 Capacity BTU/h Input 7.08 10.06 PURY- EP200YLM-A1 EP250YLM-A1 Nominal 25.0 31.5 Heating 85,300 107,500 BTU/h Capacity Input 6.92...
  • Page 111 2. CAPACITY TABLES Indoor unit temperature correction PURY- P300YLM-A1 P350YLM-A1 P400YLM-A1 To be used to correct indoor unit capacity only Nominal 33.5 40.0 45.0 Cooling 114,300 136,500 153,500 Capacity BTU/h Input 13.34 17.93 16.65 PURY- EP300YLM-A1 EP350YLM-A1 EP400YLM-A1 Nominal 33.5 40.0 45.0 Cooling...
  • Page 112 2. CAPACITY TABLES Indoor unit temperature correction PURY- P300YLM-A1 P350YLM-A1 P400YLM-A1 To be used to correct indoor unit capacity only Nominal 37.5 45.0 45.0 Heating 128,000 153,500 153,500 Capacity BTU/h Input 12.71 15.51 13.39 PURY- EP300YLM-A1 EP350YLM-A1 EP400YLM-A1 Nominal 37.5 45.0 50.0 Heating...
  • Page 113 2. CAPACITY TABLES Indoor unit temperature correction PURY- P450YLM-A1 P500YLM-A1 To be used to correct indoor unit capacity only Nominal 50.0 56.0 Cooling 170,600 191,100 Capacity BTU/h Input 17.92 22.67 PURY- EP450YLM-A1 EP500YLM-A1 Nominal 50.0 56.0 Cooling 170,600 191,100 BTU/h Capacity Input 16.83...
  • Page 114 2. CAPACITY TABLES Indoor unit temperature correction PURY- P450YLM-A1 P500YLM-A1 To be used to correct indoor unit capacity only Nominal 56.0 58.0 Heating 191,100 197,900 BTU/h Capacity Input 17.39 17.53 PURY- EP450YLM-A1 EP500YLM-A1 Nominal 56.0 63.0 Heating 191,100 215,000 BTU/h Capacity Input 16.86...
  • Page 115: Correction By Total Indoor

    2. CAPACITY TABLES 2-2. Correction by total indoor CITY MULTI system have different capacities and inputs when many combinations of indoor units with different total capacities are connected. Using following tables, the maximum capacity can be found to ensure the system is installed with enough capacity for a particular application.
  • Page 116 2. CAPACITY TABLES PURY-P300YLM-A1 PURY-(E)P300YLM-A1 Nominal 33.5 Cooling BTU/h 114,300 Capacity Input 13.34 PURY-P300YLM-A1 Nominal 37.5 Heating BTU/h 128,000 Capacity Input 12.71 PURY-EP300YLM-A1 Nominal 33.5 Cooling BTU/h 114,300 Capacity Input 12.05 PURY-EP300YLM-A1 Nominal 37.5 Heating BTU/h 128,000 Capacity Input 11.71 Cooling Heating Total capacity of indoor units...
  • Page 117 2. CAPACITY TABLES PURY-P400YLM-A1 PURY-(E)P400YLM-A1 Nominal 45.0 Cooling BTU/h 153,500 Capacity Input 16.65 PURY-P400YLM-A1 Nominal 45.0 Heating BTU/h 153,500 Capacity Input 13.39 PURY-EP400YLM-A1 Nominal 45.0 Cooling BTU/h 153,500 Capacity Input 13.88 PURY-EP400YLM-A1 Nominal 50.0 Heating BTU/h 170,600 Capacity Input 14.12 Cooling Heating Total capacity of indoor units...
  • Page 118 2. CAPACITY TABLES PURY-P500YLM-A1 PURY-(E)P500YLM-A1 Nominal 56.0 Cooling BTU/h 191,100 Capacity Input 22.67 PURY-P500YLM-A1 Nominal 58.0 Heating BTU/h 197,900 Capacity Input 17.53 PURY-EP500YLM-A1 Nominal 56.0 Cooling BTU/h 191,100 Capacity Input 21.22 PURY-EP500YLM-A1 Nominal 63.0 Heating BTU/h 215,000 Capacity Input 21.67 Cooling Heating Total capacity of indoor units...
  • Page 119: Correction By Piping Length

    2. CAPACITY TABLES 2-3. Correction by piping length A decrease in cooling/heating capacity will occur due to piping length increase. Using the following correction factors according to the equivalent length of the piping shown at 2-3-1 and 2-3-2 the capacity can be calculated. 2-3-3 shows how to obtain the equiv- alent length of piping.
  • Page 120 2. CAPACITY TABLES PURY-(E)P400YLM-A1(-BS) PURY-(E)P400YLM-A1(-BS) Total capacity of indoor unit 0.99 0.95 0.98 0.90 0.97 0.85 0.96 0.80 0.95 0.94 0.75 0.93 0.70 0.92 0.65 0.91 HBC to outdoor unit refrigerant piping equivalent length (m) Water piping equivalent length to farthest indoor unit (m) PURY-(E)P450YLM-A1(-BS) PURY-(E)P450YLM-A1(-BS) Total capacity of indoor unit...
  • Page 121 2. CAPACITY TABLES 2-3-2. Heating capacity correction PURY-(E)P200YLM-A1(-BS) PURY-(E)P200YLM-A1(-BS) 1.00 0.99 0.98 0.97 0.96 0.90 0.95 0.94 0.93 0.92 0.80 0.91 HBC to outdoor unit refrigerant piping equivalent length (m) Water piping equivalent length to farthest indoor unit (m) PURY-(E)P250, 300YLM-A1(-BS) PURY-(E)P250, 300YLM-A1(-BS) 1.00 0.99...
  • Page 122: Correction At Frost And Defrost

    2. CAPACITY TABLES 2-3-3. How to obtain the equivalent piping length Refrigerant pipe 1. PURY-(E)P200YLM-A1(-BS) Equivalent length = (Actual piping length to the farthest indoor unit) + (0.35 × number of bends in the piping) [m] 2. PURY-(E)P250, 300YLM-A1(-BS) Equivalent length = (Actual piping length to the farthest indoor unit) + (0.42 × number of bends in the piping) [m] 3.
  • Page 123: Correction By Antifreeze Solution Concentration

    2. CAPACITY TABLES 2-5. Correction by antifreeze solution concentration In HYBRID CITY MULTI system, antifreeze solution should be used to prevent the system from freezing. Refer to the following graphs for the capacity correction by antifreeze solution. Refer to 2-5-1 for antifreeze solution concentration, 2-5-2 and 2-5-3 for capacity correction by antifreeze solution concentration.
  • Page 124: Operation Temperature Range

    2. CAPACITY TABLES 2-6. Operation temperature range Cooling only Range for continuous operation Continuous operation not recommended Outdoor temperature Heating only Continuous operation not recommended Range for continuous operation Continuous operation not recommended Outdoor temperature Combination of cooling/heating operation (Cooling main or Heating main) Indoor temperature Outdoor temperature Cooling...
  • Page 125 2 - 36 MEE15K052...
  • Page 126: Ylm Wr2 Series

    YLM WR2 SERIES HEAT SOURCE UNITS I.YLM WR2 SERIES 1. SPECIFICATIONS............................2 - 38 2. CAPACITY TABLES ............................2 - 43 2-1. Correction by piping length ........................2 - 43 2-2. Correction by antifreeze solution concentration..................2 - 47 2-3. Operation temperature range ........................2 - 48 3.
  • Page 127: Specifications

    Operating volume 3.0 ~ 7.2 3.0 ~ 7.2 range Compressor Type Inverter scroll hermetic compressor Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Inverter Motor output Case heater Lubricant MEL32...
  • Page 128 L/min Pressure drop Operating volume 3.0 ~ 7.2 range Compressor Type Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Motor output Case heater Lubricant MEL32 External finish Galvanized steel sheets External dimension H x W x D...
  • Page 129 L/min Pressure drop Operating volume 4.5 ~ 11.6 range Compressor Type Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Motor output Case heater Lubricant MEL32 External finish Galvanized steel sheets External dimension H x W x D...
  • Page 130 Operating volume 4.5 ~ 11.6 4.5 ~ 11.6 range Compressor Type Inverter scroll hermetic compressor Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Inverter Motor output 10.7 11.6 Case heater...
  • Page 131 7.20 L/min Pressure drop Operating volume 4.5 ~ 11.6 range Compressor Type Inverter scroll hermetic compressor Manufacture AC&R Works, MITSUBISHI ELECTRIC CORPORATION Starting method Inverter Motor output 13.0 Case heater Lubricant MEL32 External finish Galvanized steel sheets External dimension H x W x D...
  • Page 132 2. CAPACITY TABLES 2-1. Correction by piping length 2. CAPACITY TABLES A decrease in cooling/heating capacity will occur due to piping length increase. Using the following correction factors according to the equivalent length of the piping shown at 2-1-1 and 2-1-2 the capacity can be calculated. 2-1-3 shows how to obtain the equiv- alent length of piping.
  • Page 133 2. CAPACITY TABLES PQRY-P400YLM-A PQRY-P400YLM-A Total capacity of indoor unit 1.00 0.99 0.95 0.98 0.90 0.97 0.85 0.96 0.95 0.80 0.94 0.75 0.93 0.70 0.92 0.65 0.91 Piping equivalent length (m) Water piping equivalent length to farthest indoor unit (m) PQRY-P450YLM-A PQRY-P450YLM-A Total capacity of indoor unit...
  • Page 134 2. CAPACITY TABLES 2-1-2. Heating capacity correction PQRY-P200YLM-A PQRY-P200YLM-A 1.00 0.99 0.98 0.97 0.96 0.90 0.95 0.94 0.93 0.92 0.80 0.91 Piping equivalent length (m) Water piping equivalent length to farthest indoor unit (m) PQRY-P250, 300YLM-A PQRY-P250, 300YLM-A 1.00 0.99 0.98 0.97 0.96...
  • Page 135 2. CAPACITY TABLES 2-1-3. How to obtain the equivalent piping length Refrigerant pipe 1. PQRY-P200YLM-A Equivalent length = (Actual piping length to the farthest indoor unit) + (0.35 × number of bends in the piping) [m] 2. PQRY-P250, 300YLM-A Equivalent length = (Actual piping length to the farthest indoor unit) + (0.42 × number of bends in the piping) [m] 3.
  • Page 136: Correction By Antifreeze Solution Concentration

    2. CAPACITY TABLES 2-2. Correction by antifreeze solution concentration In HYBRID CITY MULTI system, antifreeze solution should be used to prevent the system from freezing. Refer to the following graphs for the capacity correction by antifreeze solution. Refer to 2-2-1 for antifreeze solution concentration, 2-2-2 and 2-2-3 for capacity correction by antifreeze solution concentration.
  • Page 137: Operation Temperature Range

    2. CAPACITY TABLES 2-3. Operation temperature range • Cooling Circulating water temperature • Heating Circulating water temperature Combination of cooling/heating operation (Cooling main or Heating main) Indoor temperature Water temperature Cooling Heating 10 to 45 C (50 to 113 F) 15 to 24 CWB (59 to 75 FWB) 15 to 27 CDB (59 to 81 FDB) 2 - 48...
  • Page 138: System Design Guide

    3. SYSTEM DESIGN GUIDE 3-1. Designing of water circuit system 3. SYSTEM DESIGN GUIDE 1) Example of basic water circuit 1) Example of basic water circuit The water circuit of the water heat source HYBRID CITY MULTI connects the heat source unit with the cooling tower/auxiliary heat source/heat storage tank/circulation pump with a single system water piping as shown in the figure below.
  • Page 139 3. SYSTEM DESIGN GUIDE 2) Cooling tower a) Types of cooling tower Types of cooling towers The cooling towers presently used include the open type cooling tower, open type cooling tower + heat exchanger, closed type cooling tower, and air-cooled type cooling Closed type tower.
  • Page 140 3. SYSTEM DESIGN GUIDE 3) Auxiliary heat source and heat storage tank When the heating load is larger than the cooling load, the circulation water temperature lowers in accordance with the heat balance of the system. It should be heated by the auxiliary heat source in order to keep the inlet water tempera- ture within the operating range of the water heat source HYBRID CITY MULTI.
  • Page 141 3. SYSTEM DESIGN GUIDE When heat storage tank is not used • - 860 × Pw × T QH = × K (kcal) (kcal/day) Total of heating load on weekday including warming up Operating hour of auxiliary heat source Operating hour of heat source water pump 1.05~1.10 Allowance factor (Heat storage tank, piping loss, etc.) is calculated from the result of steady state load calculation similarly by using the equation below.
  • Page 142 3. SYSTEM DESIGN GUIDE b) Heat storage tank Heat storage tank can be classified by types into the open type heat storage tank exposed to atmosphere, and the closed type heat storage tank with structure separated from atmosphere. Although the size of the tank and its instal- lation place should be taken into account, the closed type tank is being usually employed by considering corrosion problems.
  • Page 143 3. SYSTEM DESIGN GUIDE 4) Piping system The following items should be kept in your mind in planning / designing water circuits. a) All units should be constituted in a single circuit in principle. b) When plural numbers of the water heat source HYBRID CITY MULTI unit are installed, the rated circulating water flow rate should be kept by making the piping resistance to each unit almost same value.
  • Page 144 3. SYSTEM DESIGN GUIDE 5) Practical System Examples and Circulation Water Control Since the water heat source HYBRID CITY MULTI is of water heat source system, versatile systems can be consti- tuted by combining it with various heat sources. The practical system examples are given below. Either cooling or heating operation can be performed if the circulation water temperature of the water heat source HYBRID CITY MULTI stays within a range of 15~45°C [59~113°F].
  • Page 145 3. SYSTEM DESIGN GUIDE Example-2 Combination of closed type cooling tower and hot water heat storage tank T1 : Proportional type, insertion system thermostat T2 : Proportional type, insertion system thermostat T3 : Proportional type, insertion system thermostat V1 : Proportional type, motor-driven 3-way valve V2 : Proportional type, motor-driven 3-way valve XS : Auxiliary switch (Duplex switch type) SC : Step controller...
  • Page 146 3. SYSTEM DESIGN GUIDE Example-3 Combination of closed type cooling tower and boiler T1 : Proportional type, insertion system thermostat T2 : Proportional type, insertion system thermostat T3 : Proportional type, insertion system thermostat V1 : Proportional type, motor-driven 3-way valve : Selector switch : Relay XS : Auxiliary switch (Duplex switch type)
  • Page 147 3. SYSTEM DESIGN GUIDE Example-4 Combination of closed type cooling tower and heat exchanger (of other heat source) T1 : Proportional type, insertion system thermostat T2 : Proportional type, insertion system thermostat V1 : Proportional type, motor-driven 3-way valve V2 : Proportional type, motor-driven 3-way valve : Selector switch : Relay XS : Auxiliary switch (Duplex switch type)
  • Page 148 3. SYSTEM DESIGN GUIDE 6) Pump interlock circuit Heat source • Plural indoor units being connected to equipment a single refrigerant system can be controlled individually. • The transmission line is of a jumper wiring system using non-polar 2 wires. Refrigerant piping HBC controller Water piping...
  • Page 149 3. SYSTEM DESIGN GUIDE Operation ON signal Terminal No. TB8-1, 2 Relay contacts output Rated voltage : L1 - N : 220 ~ 240V Output Rated load : 1A • When setting No.917 for Dip switch 4 (Dip switch 6-10 is ON) is OFF. Operation The relay closes during compressor operation.
  • Page 150: Water Piping Work

    3. SYSTEM DESIGN GUIDE 3-2. Water piping work Although the water piping for the HYBRID CITY MULTI WR2 system does not differ from that for ordinary air conditioning systems, pay special attention to the items below in conducting the piping work. 1) Items to be observed on installation work Installation example of heat source unit •...
  • Page 151 3. SYSTEM DESIGN GUIDE In order to keep the water quality within such standards, you are kindly requested to conduct bleeding-off by overflow and periodical water quality tests, and use inhibitors to suppress condensation or corrosion. Since piping may be corroded by some kinds of inhibitor, consult an appropriate water treatment expert for proper water treatment.
  • Page 152 3. SYSTEM DESIGN GUIDE 5) Handling plate heat exchangers for heat-source units <Designing the piping system>  Install a strainer (50 mesh or finer recommended) near the heat-source unit on the inlet side of the hot/cold water pipe and cooling-water pipe (hereafter referred to as water pipes) to prevent an infiltration of foreign materials of solid nature, such as dirt and sand, into the plate heat exchanger.
  • Page 153 3. SYSTEM DESIGN GUIDE <Maintaining plate heat exchangers> Plate heat exchangers must be maintained in a planned and periodical manner to prevent scale formation, which may cause performance loss or decrease water flow rate that result in freeze damage to the plate heat exchanger. ...
  • Page 154 HYBRID CITY MULTI 3. SYSTEM DESIGN SYSTEM DESIGN YLM R2 SERIES ...................... 3 - 3 SYSTEM DESIGN YLM WR2 SERIES....................3 - 17 INSTALLATION INFORMATION ......................3 - 31 CAUTION FOR REFRIGERANT LEAKAGE..................3 - 37 3 - 1 MEE15K052...
  • Page 155 3 - 2 MEE15K052...
  • Page 156: System Design Ylm R2 Series

    CITY MULTI SYSTEM DESIGN YLM R2 SERIES 1. Electrical work..............................3 - 4 1-1.Power supply for Outdoor unit ........................3 - 4 2. M-NET control..............................3 - 5 2-1.Address setting............................3 - 5 3. Piping Design..............................3 - 6 3-1.R410A Piping material..........................3 - 6 3-2.Piping Design ............................
  • Page 157: Electrical Work

    1. Electrical work 1-1. Power supply for Outdoor unit I. 1. Electrical work 1-1-1. Electrical characteristics of the outdoor unit in cooling mode Symbols: MCA: Max Circuit Amps RLA: Rated Load Amps SC: Starting Current Power Units Compressor RLA(A)(50/60Hz) supply PURY-P-YLM-A1 Unit Combination Voltage...
  • Page 158 2. M-NET control 2-1. Address setting 2. M-NET control 2-1-1. Rule of setting address Unit Address setting Example Note Use the most recent address within the same group of indoor units. Indoor unit 01 ~ 50 The smallest address of indoor unit in same refrigerant system + 50 Assign sequential address numbers to the outdoor Outdoor unit...
  • Page 159: Piping Design

    The maximum operation pressure of R410A air conditioner is 4.30 MPa [623psi]. The refrigerant piping should ensure the safety under the maximum operation pressure. MITSUBISHI ELECTRIC recommends pipe size as Table 3-1, or You shall follow the local industrial standard. Pipes of radical thickness 0.7mm or less shall not be used.
  • Page 160: 3-2.Piping Design

    3. Piping Design 3-2. Piping Design 3-2-1. Restrictions on pipe length CMB-WP108V-GA1 + CMB-WP108V-GB1 (CMB-WP1016V-GA1) (CMB-WP1016V-GB1) Note:1. Indoor units that are connected to the same branch joint cannot be si- multaneously operated in different operation modes. (Unit: m) Item Piping portion Allowable value Between outdoor unit and 110 or less...
  • Page 161 3. Piping Design 1. Refrigerant and water pipe size (1) Refrigerant pipe between outdoor unit and HBC controller (Part A, A1, A2, and A3) Use of one HBC controller HBC CONTROLLER Unit model Model name High pressure side Low pressure side PURY-(E)P200 ø15.88 (Brazing) ø19.05 (Brazing)
  • Page 162 3. Piping Design 3-2-2. Drain piping work 1. Drain piping work • Ensure that the drain piping is sloped downward (sloped gradient of more than 1/100) toward the discharge side. If it is impossible to take any downward pitch, use an optionally available drain pump to obtain a downward pitch of more than 1/100.
  • Page 163 3. Piping Design 3-2-3. Connecting water pipework Please observe the following precautions during installation. 3-2-3-1 Important notes on water pipework installation • The design pressure of the HBC water system is 0.6MPa. • Use water pipe-work with a design pressure of at least 1.0MPa. •...
  • Page 164 3. Piping Design 3-2-3-2 Water pipe insulation 1. Connect the water pipes of each indoor unit to the same (correct) end connection numbers as indicated on the indoor unit connection section of each HBC controller. If connected to wrong end connection numbers, there will be no normal operation. 2.
  • Page 165 3. Piping Design 5. Leakproof the water pipework, valves and drain pipework. Leakproof all the way to, and include pipe ends so that condensation cannot enter the insulated pipework. 6. Apply caulking around the ends of the insulation to prevent condensation getting between the pipework and insulation. 7.
  • Page 166 3. Piping Design 3-3. Refrigerant charging calculation Example ■ Sample calculation Outdoor unit (~(E)P350) Indoor 1: 50 A: ø19.05 42 m 2: 50 3: 50 4: 40 Outdoor P250 Indoor unit (15 ~ 50) HBC controller The total length of each liquid line is as follows: ø19.05: A = 42 m, α...
  • Page 167: 3-4.Water Piping

    3. Piping Design 3-4. Water piping 3-4-1. Precautions for water piping Consider the following when installing a water piping system. 1. Design pressure of the water piping Use a water pipe that is strong enough to withstand the design pressure (1.0 MPa). 2.
  • Page 168 3. Piping Design 3-4-2. Notes on corrosion 1. Water quality It is important to check the water quality beforehand. See table below (Circulating water/Makeup Water Quality Standards). Lower mid-range Tendency temperature water system Recirculating Items water Make-up Scale- Corrosive [20<T<60°C] water forming [68<T<140°F]...
  • Page 169 3 - 16 MEE15K052...
  • Page 170: System Design Ylm Wr2 Series

    CITY MULTI SYSTEM DESIGN YLM WR2 SERIES 1. Electrical work..............................3 - 18 1-1.Power supply for Heat source unit......................3 - 18 2. M-NET control..............................3 - 19 2-1.Address setting............................3 - 19 3. Piping Design..............................3 - 20 3-1.R410A Piping material..........................3 - 20 3-2.Piping Design ............................
  • Page 171: Electrical Work

    1. Electrical work 1-1. Power supply for Heat source unit I. 1. Electrical work 1-1-1. Electrical characteristics of Heat source unit at cooling mode Symbols: MCA (Max Circuit Amps) RLA (Rated Load Amps), SC (Starting Current) Heat source units Compressor RLA(A) PQRY-P-Y(S)LM Unit combination...
  • Page 172 2. M-NET control 2-1. Address setting 2. M-NET control 2-1-1. Rule of setting address Unit Address setting Example Note Use the most recent address within the same group of indoor units. Indoor unit 01 ~ 50 The smallest address of indoor unit in same refrigerant system + 50 Assign sequential address numbers to the heat source Heat source unit...
  • Page 173: Piping Design

    The maximum operation pressure of R410A air conditioner is 4.30 MPa [623psi]. The refrigerant piping should ensure the safety under the maximum operation pressure. MITSUBISHI ELECTRIC recommends pipe size as Table 3-1, or You shall follow the local industrial standard. Pipes of radical thickness 0.7mm or less shall not be used.
  • Page 174: 3-2.Piping Design

    3. Piping Design 3-2. Piping Design 3-2-1. Restrictions on pipe length CMB-WP108V-GA1 + CMB-WP108V-GB1 (CMB-WP1016V-GA1) (CMB-WP1016V-GB1) Note: 1. Indoor units that are connected to the same branch joint cannot be si- multaneously operated in different operation modes. (Unit: m) Item Piping portion Allowable value Between heat source unit and...
  • Page 175 3. Piping Design 1. Refrigerant and water pipe size (1) Refrigerant pipe between heat source unit and HBC controller (Part A, A1, A2, and A3) Use of one HBC controller HBC CONTROLLER Unit model Model name High pressure side Low pressure side PQRY-P200 ø15.88 (Brazing) ø19.05 (Brazing)
  • Page 176 3. Piping Design 3-2-2. Drain piping work 1. Drain piping work • Ensure that the drain piping is sloped downward (sloped gradient of more than 1/100) toward the discharge side. If it is impossible to take any downward pitch, use an optionally available drain pump to obtain a downward pitch of more than 1/100.
  • Page 177 3. Piping Design 3-2-3. Connecting water pipework Please observe the following precautions during installation. 3-2-3-1 Important notes on water pipework installation • The design pressure of the HBC water system is 0.6MPa. • Use water pipe-work with a design pressure of at least 1.0MPa. •...
  • Page 178 3. Piping Design 3-2-3-2 Water pipe insulation 1. Connect the water pipes of each indoor unit to the same (correct) end connection numbers as indicated on the indoor unit connection section of each HBC controller. If connected to wrong end connection numbers, there will be no normal operation. 2.
  • Page 179 3. Piping Design 5. Leakproof the water pipework, valves and drain pipework. Leakproof all the way to, and include pipe ends so that condensation cannot enter the insulated pipework. 6. Apply caulking around the ends of the insulation to prevent condensation getting between the pipework and insulation. 7.
  • Page 180 3. Piping Design 3-3. Refrigerant charging calculation Example ■ Sample calculation Heat source unit (~P350) Indoor 1: 50 A: ø19.05 42 m 2: 50 3: 50 4: 40 Heat source P250 Indoor unit (15 ~ 50) HBC controller The total length of each liquid line is as follows: ø19.05: A = 42 m, α...
  • Page 181: 3-4.Water Piping

    3. Piping Design 3-4. Water piping 3-4-1. Precautions for water piping Consider the following when installing a water piping system. 1. Design pressure of the water piping Use a water pipe that is strong enough to withstand the design pressure (1.0 MPa). 2.
  • Page 182 3. Piping Design 3-4-2. Notes on corrosion 1. Water quality It is important to check the water quality beforehand. See table below (Circulating water/Makeup Water Quality Standards). Lower mid-range Tendency temperature water system Recirculating Items water Make-up Scale- Corrosive [20<T<60°C] water forming [68<T<140°F]...
  • Page 183 3 - 30 MEE15K052...
  • Page 184: Installation Information

    CITY MULTI INSTALLATION INFORMATION 1. Installation information............................. 3 - 32 1-1.General precautions ..........................3 - 32 1-2.Precautions for Indoor unit and HBC controller ..................3 - 34 1-3.Precautions for Outdoor unit/Heat source unit ..................3 - 35 1-4.Precautions for Control-related items ......................3 - 36 3 - 31 MEE15K052...
  • Page 185: 1-1.General Precautions

    1. Installation information 1-1. General precautions I. 1. Installation information 1-1-1. Usage The air-conditioning system described in this Data Book is designed for human comfort. This product is not designed for preservation of food, animals, plants, precision equipment, or art objects. To prevent quality loss, do not use the product for purposes other than what it is designed for.
  • Page 186: Unit Installation

    Ensure there is enough space around each unit. 1-1-7. Optional accessories Only use accessories recommended by Mitsubishi Electric. Consult your local distributor or a qualified technician when installing them. Improper installation by an unqualified person may result in water leakage, electric leakage, system breakdown, or fire.
  • Page 187: 1-2.Precautions For Indoor Unit And Hbc Controller

    1. Installation information 1-2. Precautions for Indoor unit and HBC controller 1-2-1. Operating environment The refrigerant (R410A) used for air conditioner is non-toxic and nonflammable. However, if the refrigerant leaks, the oxygen level may drop to harmful levels. If the air conditioner is installed in a small room, measures must be taken to prevent the refrigerant concentration from exceeding the safety limit even if the refrigerant should leak.
  • Page 188: 1-3.Precautions For Outdoor Unit/Heat Source Unit

    1. Installation information 1-3. Precautions for Outdoor unit/Heat source unit 1-3-1. Installation environment Outdoor unit with salt-resistant specification is recommended to use in a place where it is subject to salt air. Even when the unit with salt-resistant specification is used, it is not completely protected against corrosion. Be sure to follow the directions or precautions described in Instructions Book and Installation Manual for installation and maintenance.
  • Page 189: 1-4.Precautions For Control-Related Items

    1. Installation information 1-4. Precautions for Control-related items 1-4-1. Product specification To introduce the MELANS system, a consultation with us is required in advance. Especially to introduce the electricity charge apportioning function or energy-save function, further detailed consultation is required. Consult your local distributor for details.
  • Page 190: Caution For Refrigerant Leakage

    HYBRID CITY MULTI CAUTION FOR REFRIGERANT LEAKAGE 1. Caution for refrigerant leakage ........................3 - 38 1-1.Refrigerant property........................... 3 - 38 1-2.Confirm the Critical concentration and take countermeasure..............3 - 38 3 - 37 MEE15K052...
  • Page 191 Note 1. Countermeasure 3 should be done in a proper way in which the fresh air supply shall be on whenever the leakage happens. Note 2. In principle, MITSUBISHI ELECTRIC requires proper piping design, installation and air-tight testing after installation to avoid leakage happening.
  • Page 192 - Doing so may cause the unit or pipes to burst, or result in explosion or fire during use, during repair, or at the time of disposal of the unit. - It may also be in violation of applicable laws. - MITSUBISHI ELECTRIC CORPORATION cannot be held responsible for malfunctions or accidents resulting from the use of the wrong type of refrigerant. ■...