EDUS331721A-D
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EDUS331721A-D
Engineering Data - Daikin Comfort
The connection ratio of RXSQ-TA shall be between 50% and 130%. As the total CI of the indoor units is 57.5, 4-ton and 5-ton outdoor units are connectable. Start ...
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EDUS331721A-D 202002 Engineering Data Design Manual RXSQ-TAVJUA Heat Pump, 1 phase, 208 / 230 V, 60 Hz RXSQ-TAVJUAEDUS331721A-D Table of Contents 1. Features and Benefits.................................................................................3 2. Nomenclature..............................................................................................4 3. Model Names..............................................................................................6 3.1 Outdoor Units.....................................................................................6 3.2 Indoor Units........................................................................................7 4. External Appearance...................................................................................8 4.1 Outdoor Units.....................................................................................8 4.2 Daikin Communicating Gas Furnaces...............................................8 4.3 Indoor Units........................................................................................9 5. Capacity Range.........................................................................................10 5.1 Connection Ratio.............................................................................10 6. Specifications............................................................................................11 7. Dimensions................................................................................................14 8. Service Space...........................................................................................17 9. Center of Gravity.......................................................................................21 10.Piping Diagrams........................................................................................23 11.Wiring Diagrams........................................................................................26 12.Field Wiring...............................................................................................29 13.Electrical Characteristics...........................................................................31 14.Operation Limits........................................................................................32 15.Sound Levels (Reference Data)................................................................33 16.Accessories...............................................................................................41 16.1 Optional Accessories.......................................................................41 17.Selection Procedure..................................................................................42 17.1 Selection Procedure.........................................................................42 18.Caution Label............................................................................................49 18.1 RXSQ24 - 36TAVJUA......................................................................49 18.2 RXSQ48TAVJUA.............................................................................53 18.3 RXSQ60TAVJUA.............................................................................57 19.Caution for Refrigerant Leaks...................................................................61 19.1 Introduction......................................................................................61 19.2 Procedure for Checking Maximum Concentration...........................62 20.Safety Devices Setting..............................................................................64 20.1 FXFQ-T............................................................................................64 20.2 FXZQ-TA..........................................................................................64 20.3 FXUQ-P...........................................................................................64 20.4 FXEQ-P............................................................................................64 1 RXSQ-TAVJUAEDUS331721A-D 20.5 FXDQ-M...........................................................................................65 20.6 FXSQ-TA.........................................................................................65 20.7 FXMQ-PB.........................................................................................65 20.8 FXHQ-M...........................................................................................65 20.9 FXAQ-P............................................................................................66 20.10 FXLQ-M, FXNQ-M..........................................................................66 20.11 FXTQ-TA........................................................................................66 20.12 CXTQ-TA........................................................................................66 Appendix........................................................................................................67 1. Introduction................................................................................................68 1.1 ED Book List....................................................................................68 1.2 Publication List of Engineering Data for VRV Products...................69 2 RXSQ-TAVJUAEDUS331721A-D 1. Features and Benefits Re-inventing residential air-conditioning by breaking technological barriers, the new Residential VRV brings inverter driven VRV to solve some of the age-old single-family HVAC challenges. �Available in 2, 3, 4 and 5 ton models �Superior zoning capabilities with 1 to 1 and 1 to multi connections �Broader diversity with ability to provide cooling and heating in up to 9 zones �Flexibility to choose heat pump or gas furnace or Duel-fuel** heating capability �Auto and programmable modes for heat pump to gas heat switch over temperatures �Compatible with all the 12 types and 65 models of Daikin VRV indoor fan coil units and 80 - 97% AFUE Daikin communicating gas furnaces � Dependable heat pump operation in extreme ambient conditions down to -4�F in heating and up to 122�F in cooling �Year round comfort and energy savings delivered by combining VRV and VRT technologies �Quite operation with sound levels of under 58 dBA make for easy install close to Lot lines �Space saving compact design allows up to 75% reduction in install space �Reduced installation cost with re-use of existing refrigerant lines and uninsulated liquid line** �Engineered with Daikin's Swing compressor technology �Backed by best in class 10 year parts limited warranty and 10 years replacement compressor limited warranty * *- Complete warranty details available from local distributor or manufacturer's rep ** - Model specific, refer to details for application rules 3 RXSQ-TAVJUAEDUS331721A-D 2. Nomenclature Outdoor Unit R X S Q 48 TA VJ U A Minor revision Standard symbol U: United States of America Power supply symbol VJ: 1 phase, 208/230 V, 60 Hz Indicates major design category Capacity indication in cooling 24: 24,000 Btu/h 36: 36,000 Btu/h 48: 48,000 Btu/h 60: 57,500 Btu/h Refrigerant Q: R410A Type S: Series category X: Inverter Unit category R: Outdoor unit for air cooled type 4 RXSQ-TAVJUAEDUS331721A-D Indoor Unit F X M Q 54 PB VJ U Standard symbol U: United States of America Power supply symbol VJ: 1 phase, 208/230 V, 60 Hz SBL: 1 phase, 120 V, 60 Hz Indicates major design category Capacity indication in cooling 05: 5,800 Btu/h 18: 18,000 Btu/h 07: 7,500 Btu/h 24: 24,000 Btu/h 09: 9,500 Btu/h 30: 30,000 Btu/h 12: 12,000 Btu/h 36: 36,000 Btu/h 15: 15,000 Btu/h 42: 42,000 Btu/h 48: 48,000 Btu/h 54: 54,000 Btu/h 60: 60,000 Btu/h Refrigerant Q: R410A Shape F: Ceiling mounted cassette (Round flow with sensing) Z: VISTATM 2 � 2 cassette unit U: 4-way blow ceiling-suspended E: One way blow cassette D: Slim ceiling mounted duct S: MSP concealed ducted unit M: Ceiling mounted duct H: Ceiling suspended A: Wall mounted L: Floor standing N: Concealed floor standing T: Air handling unit (FXTQ) Upflow/Downflow (CXTQ) Series category X: Inverter Unit category F: Indoor unit for air cooled type C: Cased coil unit 5 RXSQ-TAVJUAEDUS331721A-D 3. Model Names 3.1 Outdoor Units Heat pump Capacity range Capacity index 208/230 V RXSQ Note: VJ: 1 phase, 208/230 V, 60 Hz U(VJU): Standard symbol A: Minor revision 2 ton 24 24TA 3 ton 36 36TA 4 ton 48 48TA 5 ton 57 60TA Power supply, Standard VJUA 6 RXSQ-TAVJUAEDUS331721A-D 3.2 Indoor Units Capacity range Capacity index Ceiling mounted cassette (Round flow with sensing) type VISTATM 2 � 2 cassette unit 4-way blow ceilingsuspended type One way blow cassette type Slim ceiling mounted duct type MSP concealed ducted unit Ceiling mounted duct type (Middle and high static pressure) Ceiling suspended type Wall mounted type Floor standing type Concealed floor standing type Air handling unit Cased coil unit 0.5 ton 0.6 ton 0.8 ton 1 ton 1.25 ton 1.5 ton 2 ton 2.5 ton 3 ton 3.5 ton 4 ton 4.5 ton 5 ton Power supply, 5.8 7.5 9.5 12 15 18 20 24 30 36 42 48 54 60 Standard FXFQ -- 07T 09T 12T 15T 18T -- 24T 30T 36T -- 48T -- -- FXZQ 05TA 07TA 09TA 12TA 15TA 18TA -- -- -- -- -- -- -- -- FXUQ -- -- -- -- -- -- 18P 24P 30P 36P -- -- -- -- FXEQ -- 07P 09P 12P 15P 18P -- 24P -- -- -- -- -- -- FXDQ -- 07M 09M 12M -- 18M -- 24M -- -- -- -- -- -- FXSQ 05TA 07TA 09TA 12TA 15TA 18TA -- 24TA 30TA 36TA -- 48TA 54TA -- VJU FXMQ -- 07PB 09PB 12PB 15PB 18PB -- 24PB 30PB 36PB -- 48PB 54PB -- FXHQ -- FXAQ -- FXLQ -- FXNQ -- -- FXTQ -- CXTQ -- -- -- 12M -- -- -- 24M -- 36M -- -- -- -- 07P 09P 12P -- 18P -- 24P -- -- -- -- -- -- 07M 09M 12M -- 18M -- 24M -- -- -- -- -- -- 07M 09M 12M -- 18M -- 24M -- -- -- -- -- -- -- 09TA 12TA -- 18TA -- 24TA 30TA 36TA 42TA 48TA 54TA 60TA -- 09TA 12TA -- 18TA -- 24TA 30TA 36TA 42TA 48TA 54TA 60TA -- -- -- -- -- -- 24TA -- 36TA -- 48TA -- 60TA VJUA VJUD SBLU 7 RXSQ-TAVJUAEDUS331721A-D 4. External Appearance 4.1 Outdoor Units RXSQ24TAVJUA RXSQ36TAVJUA RXSQ48TAVJUA RXSQ60TAVJUA 2, 3, 4 ton 5 ton 4.2 Daikin Communicating Gas Furnaces 80% AFUE 40k - 120k Btu 96% AFUE 40k - 120k Btu 97% AFUE 40k - 120k Btu 8 RXSQ-TAVJUAEDUS331721A-D 4.3 Indoor Units Ceiling mounted cassette (Round flow with sensing) type FXFQ-T Ceiling suspended type FXHQ-M Shown with BYCQ125B-W1 VISTATM 2 � 2 cassette unit FXZQ-TA Wall mounted type FXAQ-P Shown with BYFQ60C3W1W 4-way blow ceiling-suspended type FXUQ-P Shown with BYFQ60C3W1S Floor standing type FXLQ-M One way blow cassette type FXEQ-P Concealed floor standing type FXNQ-M Slim ceiling mounted duct type FXDQ-M Air handling unit FXTQ-TA MSP concealed ducted unit FXSQ-TA Cased coil unit CXTQ-TA Ceiling mounted duct type (Middle and high static pressure) FXMQ-PB 9 RXSQ-TAVJUAEDUS331721A-D 5. Capacity Range 5.1 Connection Ratio Both indoor and outdoor units have a capacity index number and the connection ratio is defined as the ratio of these two numbers. Connection ratio = Total sum of indoor unit capacity index Outdoor unit capacity index number Example: � 2 � CXTQ36 connected to 1 � RXSQ60T = 72 / 57 = 1.26 � Therefore the connection ratio = 126% Indoor unit capacity index Indoor unit size 05 07 09 12 15 18 24 30 36 42 48 54 60 Indoor unit capacity index 5.8 7.5 9.5 12 15 18 24 30 36 42 48 54 60 Outdoor unit capacity index Outdoor unit size 2.0 Ton 3.0 Ton 4.0 Ton 5.0 Ton Nominal capacity index 24 36 48 57 Required minimum 50% 12 18 24 28.5 Allowed maximum 130% 31.2 46.8 62.4 74.1 Furnace compatibility Type Gas furnace Series DM80VC (two stage - 80% AFUE) Upflow furnace DM96VC (two stage - 96% AFUE) DM97MC (modulating - 97% AFUE) DC80VC (two stage - 80% AFUE) Downflow DC96VC furnace (two stage - 96% AFUE) DC97MC (modulating - 97% AFUE) Model DM80VC0603BXA DM80VC0604B*A DM80VC0803BXA DM80VC0805CNA DM80VC0805CXA DM80VC1005CNA DM80VC1005CXA DM96VC0403BNA DM96VC0603BNA DM96VC0803BNA DM96VC0804CNA DM96VC1005CNA DM96VC1205DNA DM97MC0603BNA DM97MC0803BNA DM97MC0804CNA DM97MC1005CNA DM97MC1205DNA DC80VC0603BXA DC80VC0803BXA DC80VC0805CXA DC80VC1005CXA DC96VC0403BNA DC96VC0603BNA DC96VC0804CNA DC96VC1005CNA DC96VC1205DNA DC97MC0603BNA DC97MC0803BNA DC97MC0804CNA DC97MC1005CNA CXTQ24TASBLU � � � � � � � � � � � � � � � � � � CXTQ CXTQ36TASBLU CXTQ48TASBLU � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � CXTQ60TASBLU � � � � � � � � � � � � � 10 RXSQ-TAVJUAEDUS331721A-D 6. Specifications Model Power supply 1 Cooling capacity Nominal Rated Nominal 2 Heating capacity Rated Btu/h (kW) Btu/h (kW) Casing color Dimensions: (H � W � D) Heat exchanger Type Compressor Motor output Starting method Type Motor output Fan Airflow rate Drive Sound pressure level (reference data) Cooling Heating Sound power level (reference data) Cooling Heating Connecting Liquid pipe pipes Gas pipe Weight in. (mm) kW kW cfm (m3/min) dBA dBA dB dB in. (mm) in. (mm) lbs (kg) Safety devices Defrost method Capacity control Refrigerant name Refrigerant Charge Control Standard accessories % lbs (kg) RXSQ24TAVJUA 1 phase, 208/230 V, 60 Hz 24,000 (7.0) 23,000 (6.7) 27,000 (7.9) Non-Ducted: 25,800 (7.6) Ducted: 25,000 (7.3) Ivory white 39 � 37 � 12-5/8 (990 � 940 � 320) Cross fin coil Hermetically sealed swing type 1.9 Soft start Propeller fan 0.200 2,682 (76) Direct drive 58 61 75 79 f3/8 (9.5) C1220T (flare connection) f5/8 (15.9) C1220T (flare connection) 172 (78) High pressure switch, Fan driver overload protector, Inverter overload protector, Fusible plug, Fuse Reverse cycle defrosting 14-100 R410A 6.4 (2.9) Electronic expansion valve Installation manual, Operation manual, Drain socket, Clamps RXSQ36TAVJUA 1 phase, 208/230 V, 60 Hz 36,000 (10.6) 34,200 (10.0) 40,000 (11.7) 37,000 (10.8) Ivory white 39 � 37 � 12-5/8 (990 � 940 � 320) Cross fin coil Hermetically sealed swing type 1.9 Soft start Propeller fan 0.200 2,682 (76) Direct drive 58 61 75 79 f3/8 (9.5) C1220T (flare connection) f5/8 (15.9) C1220T (flare connection) 172 (78) High pressure switch, Fan driver overload protector, Inverter overload protector, Fusible plug, Fuse Reverse cycle defrosting 14-100 R410A 6.4 (2.9) Electronic expansion valve Installation manual, Operation manual, Drain socket, Clamps Note: +1. Indoor temp.: 80�FDB (26.7�CDB), 67�FWB (19.4�CWB) / outdoor temp.: 95�FDB (35.0�CDB) / Equivalent piping length: 25 ft (7.6 m), level difference: 0 ft. (0 m). +2. Indoor temp.: 70�FDB (21.1�CDB) / outdoor temp.: 47�FDB (8.3�CDB), 43�FWB (6.1�CWB) / Equivalent piping length: 25 ft (7.6 m), level difference: 0 ft. (0 m). C: 4D126372 11 RXSQ-TAVJUAEDUS331721A-D Model Power supply 1 Cooling capacity Nominal Rated 2 Heating capacity Nominal Rated Casing color Dimensions: (H � W � D) Heat exchanger Type Compressor Motor output Starting method Type Motor output Fan Airflow rate Drive Sound pressure level (reference data) Cooling Heating Sound power level (reference data) Cooling Heating Connecting Liquid pipe pipes Gas pipe Weight Safety devices Defrost method Capacity control Refrigerant name Refrigerant Charge Control Standard accessories Btu/h (kW) Btu/h (kW) in. (mm) kW kW cfm (m3/min) dBA dBA dB dB in. (mm) in. (mm) lbs (kg) % lbs (kg) RXSQ48TAVJUA 1 phase, 208/230 V, 60 Hz 48,000 (14.1) 45,500 (13.3) 52,000 (15.2) 49,500 (14.5) Ivory white 39 � 37 � 12-5/8 (990 � 940 � 320) Cross fin coil Hermetically sealed swing type 3.0 Soft start Propeller fan 0.200 2,682 (76) Direct drive 58 61 76 78 f3/8 (9.5) C1220T (flare connection) f5/8 (15.9) C1220T (flare connection) 176 (80) High pressure switch, Fan driver overload protector, Inverter overload protector, Fusible plug, Fuse Reverse cycle defrosting 14-100 R410A 7.5 (3.4) Electronic expansion valve Installation manual, Operation manual, Drain socket, Clamps Note: +1. Indoor temp.: 80�FDB (26.7�CDB), 67�FWB (19.4�CWB) / outdoor temp.: 95�FDB (35.0�CDB) / Equivalent piping length: 25 ft (7.6 m), level difference: 0 ft. (0 m). +2. Indoor temp.: 70�FDB (21.1�CDB) / outdoor temp.: 47�FDB (8.3�CDB), 43�FWB (6.1�CWB) / Equivalent piping length: 25 ft (7.6 m), level difference: 0 ft. (0 m). C: 4D126374 12 RXSQ-TAVJUAEDUS331721A-D Model Power supply 1 Cooling capacity Nominal Rated 2 Heating capacity Nominal Rated Casing color Dimensions: (H � W � D) Heat exchanger Type Compressor Motor output Starting method Type Motor output Fan Airflow rate Drive Sound pressure level (reference data) Cooling Heating Sound power level (reference data) Cooling Heating Connecting Liquid pipe pipes Gas pipe Weight Safety devices Defrost method Capacity control Refrigerant name Refrigerant Charge Control Standard accessories Btu/h (kW) Btu/h (kW) in. (mm) kW kW cfm (m3/min) dBA dBA dB dB in. (mm) in. (mm) lbs (kg) % lbs (kg) RXSQ60TAVJUA 1 phase, 208/230 V, 60 Hz 57,500 (16.9) 57,500 (16.9) 57,000 (16.7) 57,000 (16.7) Ivory white 52-15/16 � 35-7/16 � 12-5/8 (1,345 � 900 � 320) Cross fin coil Hermetically sealed swing type 3.5 Soft start Propeller fan 0.070 � 2 3,741 (106) Direct drive 57 59 74 77 f3/8 (9.5) C1220T (flare connection) f3/4 (19.1) C1220T (flare connection) 225 (102) High pressure switch, Fan driver overload protector, Inverter overload protector, Fusible plug, Fuse Reverse cycle defrosting 14-100 R410A 7.9 (3.6) Electronic expansion valve Installation manual, Operation manual, Drain socket, Clamps, Auxiliary piping Note: +1. Indoor temp.: 80�FDB (26.7�CDB), 67�FWB (19.4�CWB) / outdoor temp.: 95�FDB (35.0�CDB) / Equivalent piping length: 25 ft (7.6 m), level difference: 0 ft. (0 m). +2. Indoor temp.: 70�FDB (21.1�CDB) / outdoor temp.: 47�FDB (8.3�CDB), 43�FWB (6.1�CWB) / Equivalent piping length: 25 ft (7.6 m), level difference: 0 ft. (0 m). C: 4D126376 13 3D126496 RXSQ-TAVJUAEDUS331721A-D 7. Dimensions RXSQ24 - 36TAVJUA 14 3D126497 RXSQ-TAVJUAEDUS331721A-D RXSQ48TAVJUA 15 3D126498 RXSQ-TAVJUAEDUS331721A-D RXSQ60TAVJUA 16 RXSQ-TAVJUAEDUS331721A-D 8. Service Space RXSQ24 - 48TAVJUA 2D102479B 17 RXSQ-TAVJUAEDUS331721A-D RXSQ24 - 48TAVJUA 2D102479B 18 RXSQ-TAVJUAEDUS331721A-D RXSQ60TAVJUA 2D102480B 19 RXSQ-TAVJUAEDUS331721A-D RXSQ60TAVJUA 2D102480B 20 RXSQ-TAVJUAEDUS331721A-D 9. Center of Gravity RXSQ24 - 36TAVJUA Unit : in. (mm) RXSQ48TAVJUA 4D101439A Unit : in. (mm) 4D101440A 21 RXSQ-TAVJUAEDUS331721A-D RXSQ60TAVJUA Unit : in. (mm) 4D101441A 22 3D082498F RXSQ-TAVJUAEDUS331721A-D 10.Piping Diagrams RXSQ24 - 36TAVJUA 23 3D088594A RXSQ-TAVJUAEDUS331721A-D RXSQ48TAVJUA 24 3D088595A RXSQ-TAVJUAEDUS331721A-D RXSQ60TAVJUA 25 3D124496 RXSQ-TAVJUAEDUS331721A-D 11.Wiring Diagrams RXSQ24 - 36TAVJUA 26 3D124498 RXSQ-TAVJUAEDUS331721A-D RXSQ48TAVJUA 27 3D124501 RXSQ-TAVJUAEDUS331721A-D RXSQ60TAVJUA 28 3D127111 RXSQ-TAVJUAEDUS331721A-D 12.Field Wiring RXSQ24 - 48TAVJUA 29 3D127113 RXSQ-TAVJUAEDUS331721A-D RXSQ60TAVJUA 30 RXSQ-TAVJUAEDUS331721A-D 13.Electrical Characteristics RXSQ24 - 60TAVJUA 3D126378 31 RXSQ-TAVJUAEDUS331721A-D 14.Operation Limits RXSQ24 - 60TAVJUA 3D115457 32 RXSQ-TAVJUAEDUS331721A-D 15.Sound Levels (Reference Data) RXSQ24TAVJUA (Cooling) 4D109800 33 RXSQ-TAVJUAEDUS331721A-D RXSQ24TAVJUA (Heating) 4D109818A 34 RXSQ-TAVJUAEDUS331721A-D RXSQ36TAVJUA (Cooling) 4D101947D 35 RXSQ-TAVJUAEDUS331721A-D RXSQ36TAVJUA (Heating) 4D101948E 36 RXSQ-TAVJUAEDUS331721A-D RXSQ48TAVJUA (Cooling) 4D102719C 37 RXSQ-TAVJUAEDUS331721A-D RXSQ48TAVJUA (Heating) 4D102720D 38 RXSQ-TAVJUAEDUS331721A-D RXSQ60TAVJUA (Cooling) 4D101949D 39 RXSQ-TAVJUAEDUS331721A-D RXSQ60TAVJUA (Heating) 4D101950E 40 RXSQ-TAVJUAEDUS331721A-D 16. Accessories 16.1 Optional Accessories RXSQ24 - 60TAVJUA Optional accessories ABC I/P printed circuit board kit Distributive piping REFNET header REFNET joint RXSQ24TAVJUA RXSQ36TAVJUA -- RXSQ48TAVJUA RXSQ60TAVJUA BRP2A82 KHRP26M22H9 (Max. 4 branch) KHRP26M33H9 (Max. 8 branch) KHRP26A22T9 4D109819A 41 RXSQ-TAVJUAEDUS331721A-D 17.Selection Procedure 17.1 Selection Procedure 17.1.1 Flowchart [1] Given conditions Given conditions: � Indoor unit design temperature and humidity � Outside ambient design conditions for heat pump operation (if necessary) � Outside ambient design conditions for gas furnace heating (if necessary) � Required cooling and heating load of each zone � Required total system load (if necessary) � Refrigerant piping lengths, vertical piping length differences � Desired indoor unit types (type and number of indoor units) [2] Select indoor unit(s) and gas furnace(s) Define the allowable tolerance or safety factor for the indoor units and the outdoor units. For CXTQ cased coil units: � Select CXTQ with capacity that meets the required cooling load � Select gas furnace with High Fire output capacity that meets the required heating load � Ensure the selected gas furnace is compatible with the CXTQ cased coil units For VRV indoor units: � Select indoor unit with capacity that meets the required cooling and heating loads Indoor unit cooling / heating capacity at operating indoor temperature (DB/WB) (required cooling / heating load) � (tolerance / safety factor) [3] Select of outdoor unit Gas furnace High Fire output (required heating load) � (tolerance / safety factor) Define required total cooling load to outdoor unit Define required total heat pump heating load to outdoor unit from VRV indoor units 1a) Use the sum total of cooling loads for all zones. 1b) Use the sum total of heating loads for VRV indoor units 2a) Use the system total (block) cooling load. 2b) Use the system total (block) heating load. Provisionally select the outdoor unit size based on the design's allowable connection ratio. Confirm that the number of indoor units connected to the outdoor unit is within the allowable number of indoor units. Make corrections to adjust the capacity of the outdoor unit for the following items: � Longest refrigerant piping distance � Piping vertical separation distances (height from outdoor units to indoor units) � Connection ratio � Design cooling / heating ambient operating temperatures � Defrost factor (for heating capacity) � Outdoor unit tolerance / safety factor Is the corrected cooling (heating) capacity of the outdoor unit No required total cooling (heating) capacity of the outdoor unit? Yes No Is the design heating ambient temperature below �4�F? Yes Design a secondary source of heat for spaces served by only VRV indoor units if the home will require heating operation below �4�F. Select appropriate KRP accessory to allow the VRV unit to turn out the heat source. VRV LIFETM system selection is complete 42 RXSQ-TAVJUAEDUS331721A-D 17.1.2 Selection Example 1 - CXTQ & VRV Indoor Units The following is a selection example for a VRV LIFE system incorporating a CXTQ & gas furnace and other VRV indoor units. [1] Given conditions -System arrangement � The home will use a CXTQ & gas furnace as a Central Zone to supply air to most of the home. � There is a Bonus Room upstairs that has historically been uncomfortable. This room will use an FXEQ one-way-blow cassette to give independent temperature control to the room. � The outdoor unit will be located on the ground level. � The CXTQ & gas furnace will be installed in the basement, 10 ft. below ground level. � The FXEQ will be installed in the Bonus Room upstairs 18 ft. above ground level. � The equivalent piping length for the system is 45 feet. -Design conditions � Indoor air temperature -- cooling: 77�FDB / 64�FWB � Indoor air temperature -- heating: 70�FDB � Outdoor ambient air temperature for cooling: 95�FDB � Outdoor ambient air temperature for heating operation: 13�FDB / 7�FWB -Determine the required cooling and heating capacities using an industry accepted load calculation method (i.e. ACCA Manual J or similar). Zone Central Zone Bonus Room Cooling load 42,350 Btu/h 8,000 Btu/h Heat pump heating load -- 10,000 Btu/h Gas furnace heating load 95,000 Btu/h -- -Safety factor For this example, no safety factor will be used. (i.e. safety factor = 1.0) [2] Selection of indoor unit(s) and gas furnace(s) To select the CXTQ & gas furnace: � Determine the corrected total cooling capacity of the CXTQ at the defined indoor air temperature by referencing the capacity table in the CXTQ Engineering Data manual. � If the design indoor air temperature falls between temperatures listed in the capacity table, calculate the capacity by interpolation. � The corrected total cooling capacity should meet the required cooling load of the zone. � The selected gas furnace should have a High Fire output that meets or exceeds the required heating load of the zone. � The selected gas furnace should also be confirmed to be a compatible furnace combination with the selected CXTQ. Refer to the CXTQ Engineering Data manual. To select the VRV indoor unit: � Determine the corrected cooling capacity and the corrected heating capacity of the unit at the defined indoor air temperatures by referencing the capacity table in the indoor unit's Engineering Data manual. � If the design indoor air temperature falls between temperatures listed in the capacity table, calculate the capacity by interpolation. � The selected indoor unit's corrected cooling capacity and corrected heating capacity should meet or exceed the zone's cooling and heating loads, respectively. 43 RXSQ-TAVJUAEDUS331721A-D Cooling capacity -- CXTQ Heating capacity -- Gas furnace Cooling capacity -- FXEQ One way blow cassette Heating capacity -- FXEQ One way blow cassette 44 RXSQ-TAVJUAEDUS331721A-D Selection results of indoor units: � Required cooling capacity for Central Zone = 42,350 Btu/h CXTQ48TASBLU � Required gas furnace capacity for Central Zone = 95,000 Btu/h DM97MC1005CNA � Required cooling capacity for Bonus Room = 8,000 Btu/h FXEQ09PVJU � Required heat pump heating capacity for Bonus Room = 10,000 Btu/h In the case of a selection based on Total Cooling Load and Sensible Cooling Load, select the indoor unit(s) which will satisfy not only the Total Cooling Load (TC) but also the Sensible Cooling Load (SHC) of each zone. The sensible capacity of the unit should also be corrected for indoor air temperature. [3] Selection of outdoor unit [3] �1 Define the total cooling and heating load from the indoor units to the outdoor unit Define the total required cooling load (A) and heating load (B) for the system according to: � (1a) Sum total of cooling loads for all zones � (1b) Sum total of heat pump heating loads for all zones Or � (2a) Total system cooling load � (2b) Total system heat pump heating load Note: Using the sum-total load approach results in selecting an outdoor unit that will provide full capacity to all zones simultaneously. This approach is more conservative but may result in an oversized unit, depending on the actual diversity of the cooling and heating loads in each zone. Using the Total-system approach allows the outdoor unit size to be optimized to meet the total system load. For example, it is assumed the Bonus Room will not require full capacity at the same time the Central Zone is requiring full capacity. The VRV LIFE system can manage refrigerant flow to each CXTQ and/or VRV indoor unit to independently control the capacity of each unit. When selecting the VRV LIFE outdoor unit for heating capacity, typically only the spaces served by VRV indoor units are considered. Zones served by a gas furnace will not require heat pump heating on the coldest days of the year, so the VRV LIFE outdoor unit should be selected to ensure that heat pump heating can be provided to the VRV indoor units. In this example, select an outdoor unit using method (2a/2b). It is assumed that the total home cooling and heating loads have been calculated as: (A) = (2a) = 48,250 Btu/h cooling load (B) = (2b) = 10,000 Btu/h heat pump heating load 45 RXSQ-TAVJUAEDUS331721A-D [3] �2 Provisionally select the outdoor unit (1) Calculate the Capacity Index (CI) of the selected indoor units CI of VRV indoor units and CXTQ cased coil units CI of FXEQ09PVJU = 9.5 CI of CXTQ48TASBLU = 48 Model Capacity Index FXEQ07P 7.5 FXEQ09P 9.5 FXEQ12P 12 Model Capacity Index CXTQ24T 24 CXTQ36T 36 CXTQ48T 48 Calculate the total CI of the indoor units and CXTQ cased coil units. Total CI = 48 + 9.5 = 57.5 FXEQ15P 15 CXTQ60T 60 FXEQ18P 18 FXEQ24P 24 (2) Provisionally select an outdoor unit based on the total CI of the indoor units The connection ratio of RXSQ-TA shall be between 50% and 130%. As the total CI of the indoor units is 57.5, 4-ton and 5-ton outdoor units are connectable. Start from the 4-ton unit, which is smallest. Model RXSQ24TA RXSQ36TA RXSQ48TA RXSQ60TA Ton Capacity Index 2 24 3 36 4 48 5 57 Total capacity index of connectable indoor units 12 - 31.2 18 - 46.8 24 - 62.4 28.5 - 74.1 Maximum number of connectable indoor units 4 6 8 9 (3) Confirm that the number of connected indoor units is within the limitation. The CXTQ should be treated as an indoor unit for purposes of counting the total number of indoor units. � The number of connected indoor units = 2 � The maximum number of connectable indoor units to the 4-ton unit = 8 [3] -3 Calculate the corrected capacity of the outdoor unit. Calculate the connection ratio of the system. The connection ratio is the ratio of indoor unit capacity to outdoor unit capacity. � Total CI of indoor units = 57.5 � CI of RXSQ48TAVJUA = 48 � Connection ratio = 57.5 / 48 = 120% Using the capacity table of the outdoor unit, determine the corrected outdoor unit capacity using the outside ambient temperature, indoor air temperature, and connection ratio. When calculating the heat pump heating capacity of the system, it is important to consider the gas furnace use. Typically the gas furnace will be providing the heating capacity to the zone served by the CXTQ & gas furnace, therefore it is only necessary to ensure the outdoor unit can provide the heat pump heating capacity required for only the VRV indoor units at the design outside ambient air temperature. Note: In the case that the outdoor temperature, indoor temperature, or connection ratio falls between the temperatures or connection ratios listed in the tables, calculate the capacity by interpolation. 46 RXSQ-TAVJUAEDUS331721A-D RXSQ48TAVJUA Heating Capacity In this example, heat pump heating is only required for the FXEQ09PVJU at the 13�F. The gas furnace will handle the heating capacity for the zone served by the CXTQ. Determine the capacity available to VRV indoor units by considering the connection ratio of the VRV indoor unit capacity index vs. VRV outdoor unit capacity index. If the ratio is less than 50%, assume a 50% connection ratio for reference. Determine the cooling and capacity correction factor from the refrigerant piping length and vertical piping differences. Heating capacity is not affected by refrigerant piping lengths. � Cooling capacity correction factor calculation System equivalent piping length: 45 feet Piping vertical height separation: 18 feet from outdoor unit 47 RXSQ-TAVJUAEDUS331721A-D = 0.978 45 18 CC = Cooling capacity from capacity table = 48.9 MBH a = Cooling capacity correction factor = 0.978 Corrected cooling capacity = CC � a = 48.9 MBH � 0.978 = 47.82 MBH Determine the heating capacity correction factor for frost building during heating operation. Inlet air temperature to the outdoor unit heat exchanger (�FDB/RH85%) Correction factor for frost accumulation 19.5 23.0 26.5 32.0 37.5 41.0 44.5 0.95 0.93 0.88 0.84 0.85 0.90 1.00 In this example, the design ambient condition for heat pump heating operation is 13�FDB, so defrost correction factor for frost accumulation is 0.95. HH = Heating capacity from capacity table = 26.0 MBH b = Defrost correction factor for frost accumulation = 0.95 Corrected heating capacity = HH � b = 26.0 MBH � 0.95 = 24.7 MBH [4] Select an auxiliary heat source, if necessary For VRV LIFE systems designed to operate in extreme cold climates (lower than �4�F, the minimum heat pump operating range for VRV LIFE) by running the gas furnace, it may be necessary to select a third part auxiliary heat source to provide heating capacity to zones served only by VRV indoor units. In this example, the winter design ambient temperature condition is 13�F and the heat pump heating capacity of the VRV LIFE system can provide enough heating capacity to the Bonus Room, so there is no need to select any auxiliary heat source. 48 RXSQ-TAVJUAEDUS331721A-D 18.Caution Label 18.1 RXSQ24 - 36TAVJUA 2P491817-1 49 RXSQ-TAVJUAEDUS331721A-D 2P491817-1 50 RXSQ-TAVJUAEDUS331721A-D 2P491817-1 51 RXSQ-TAVJUAEDUS331721A-D 2P491817-1 52 RXSQ-TAVJUAEDUS331721A-D 18.2 RXSQ48TAVJUA 2P491821-1 53 RXSQ-TAVJUAEDUS331721A-D 2P491821-1 54 RXSQ-TAVJUAEDUS331721A-D 2P491821-1 55 RXSQ-TAVJUAEDUS331721A-D 2P491821-1 56 RXSQ-TAVJUAEDUS331721A-D 18.3 RXSQ60TAVJUA 2P491830-1 57 RXSQ-TAVJUAEDUS331721A-D 2P491830-1 58 RXSQ-TAVJUAEDUS331721A-D 2P491830-1 59 RXSQ-TAVJUAEDUS331721A-D 2P491830-1 60 RXSQ-TAVJUAEDUS331721A-D 19.Caution for Refrigerant Leaks 19.1 Introduction Points to note in connection with refrigerant leaks The installer and system specialist shall secure safety against leakage according to local regulations or standards. The following standards may be applicable if local regulations are not available. The VRV System, like other air conditioning systems, uses R410A as refrigerant. R410A itself is an entirely safe non-toxic, non-combustible refrigerant. Nevertheless care must be taken to ensure that air conditioning facilities are installed in a room which is sufficiently large. This assures that the maximum concentration level of refrigerant gas is not exceeded, in the unlikely event of major leak in the system and this in accordance to the local applicable regulations and standards. Maximum concentration level The maximum charge of refrigerant and the calculation of the maximum concentration of refrigerant is directly related to the humanly occupied space in to which it could leak. The unit of measurement of the concentration is lb./1000 ft.3 (the weight in Ibs. of the refrigerant gas in 1 ft.3 volume of the occupied space). Compliance to the local applicable regulations and standards for the maximum allowable concentration level is required. Direction of the refrigerant flow Room where refrigerant leak has occurred (outflow of all the refrigerant from the system) Pay special attention to places, such as basements, etc. where refrigerant can stay, since refrigerant is heavier than air. 61 RXSQ-TAVJUAEDUS331721A-D 19.2 Procedure for Checking Maximum Concentration Check the maximum concentration level in accordance with steps 1 to 4 below and take whatever action is necessary to comply. Step1: Calculate the amount of refrigerant (lbs.) charged to each system separately. Amount of refrigerant in a single unit system (amount of refrigerant with which the system is charged before leaving the factory) Additional charging amount (amount + of refrigerant added locally in accordance with the length or diameter = Total amount of refrigerant (lbs.) in the system of the refrigerant piping) Note: Where a single refrigerant facility is divided into 2 entirely independent refrigerant systems then use the amount of refrigerant with which each separate system is charged. Step 2: Calculate the smallest room volume (ft.3) In case like the following, calculate the volume of (a), (b) as a single room or as the smallest room. (a) Where there are no smaller room divisions. (b) Where there is a room division but there is an opening between the rooms sufficiently large to permit a free flow of air back and forth. Opening between rooms Partition (Where there is an opening without a door or where there are openings above and below the door which are each equivalent in size to 0.15% or more of the floor area.) (c) Where there is a gas leak detection alarm device linked to a mechanical ventilator in the smallest room then the next smallest room will become the measurement target. 62 RXSQ-TAVJUAEDUS331721A-D Step 3: Calculating the refrigerant density using the results of the calculations in steps 1 and 2 above. Total volume of refrigerant in the refrigerant system Maximum concentration level (lbs./ft.3) Size (ft.3) of the smallest room in which there is an indoor unit installed If the result of the above calculation exceeds the maximum concentration level then make similar calculations for the second then third smallest room and so until the result falls short of the maximum concentration. Step 4: Dealing with the situations where the result exceeds the maximum concentration level. Where the installation of a facility results in a concentration in excess of the maximum concentration level then it will be necessary to revise the system. Please consult your Daikin supplier. 63 RXSQ-TAVJUAEDUS331721A-D 20.Safety Devices Setting 20.1 FXFQ-T Model Printed circuit board fuse Drain pump thermal fuse Fan motor thermal protector Fan motor thermal fuse �F (�C) �F (�C) �F (�C) FXFQ07TVJU 250 V, 3.15 A � � � Model Printed circuit board fuse Drain pump thermal fuse Fan motor thermal protector Fan motor thermal fuse �F (�C) �F (�C) �F (�C) FXFQ24TVJU 250 V, 3.15 A � � � FXFQ09TVJU 250 V, 3.15 A � � � FXFQ30TVJU 250 V, 3.15 A � � � FXFQ12TVJU 250 V, 3.15 A � � � FXFQ36TVJU 250 V, 3.15 A � � � FXFQ15TVJU 250 V, 3.15 A � � � FXFQ48TVJU 250 V, 3.15 A � � � FXFQ18TVJU 250 V, 3.15 A � � � C: 3D086932C 20.2 FXZQ-TA Model Printed circuit board fuse Fan motor thermal fuse Fan motor thermal protector Drain pump fuse �F (�C) �F (�C) �F (�C) FXZQ05TAVJU FXZQ07TAVJU FXZQ09TAVJU FXZQ12TAVJU FXZQ15TAVJU FXZQ18TAVJU 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A � � � � � � � � � � � � � � � � � � C: 4D110603 20.3 FXUQ-P Model Printed circuit board fuse Drain pump thermal fuse Fan motor thermal protector Fan motor thermal fuse �F (�C) �F (�C) �F (�C) FXUQ18PVJU 250 V, 3.15 A � � � FXUQ24PVJU 250 V, 3.15 A � � � FXUQ30PVJU 250 V, 3.15 A � � � FXUQ36PVJU 250 V, 3.15 A � � � C: 3D090213 20.4 FXEQ-P Model Printed circuit board fuse Fan motor thermal protector A1P �F (�C) FXEQ07PVJU 250 V, 3.15 A OFF: 223�9 (106�5) ON: 205�27 (96�15) FXEQ09PVJU 250 V, 3.15 A OFF: 223�9 (106�5) ON: 205�27 (96�15) FXEQ12PVJU 250 V, 3.15 A OFF: 223�9 (106�5) ON: 205�27 (96�15) FXEQ15PVJU 250 V, 3.15 A OFF: 223�9 (106�5) ON: 205�27 (96�15) FXEQ18PVJU 250 V, 3.15 A OFF: 223�9 (106�5) ON: 205�27 (96�15) FXEQ24PVJU 250 V, 3.15 A OFF: 223�9 (106�5) ON: 205�27 (96�15) C: 4D098709 64 RXSQ-TAVJUAEDUS331721A-D 20.5 FXDQ-M Model FXDQ07MVJU FXDQ09MVJU FXDQ12MVJU FXDQ18MVJU FXDQ24MVJU Printed circuit board fuse A1P 250 V, 5 A 250 V, 5 A 250 V, 5 A 250 V, 5 A 250 V, 5 A Fan motor thermal protector �F OFF: 266�9 ON: 181�27 OFF: 266�9 ON: 181�27 OFF: 266�9 ON: 181�27 OFF: 266�9 ON: 181�27 OFF: 266�9 ON: 181�27 C: 3D051758 20.6 FXSQ-TA Model Printed circuit board fuse Printed circuit board fuse (Fan driver) Drain pump thermal fuse �F (�C) FXSQ05TAVJU 250 V, 3.15 A 250 V, 6.3 A -- FXSQ07TAVJU 250 V, 3.15 A 250 V, 6.3 A -- FXSQ09TAVJU 250 V, 3.15 A 250 V, 6.3 A -- FXSQ12TAVJU 250 V, 3.15 A 250 V, 6.3 A -- FXSQ15TAVJU 250 V, 3.15 A 250 V, 6.3 A -- Model Printed circuit board fuse Printed circuit board fuse (Fan driver) Drain pump thermal fuse �F (�C) FXSQ18TAVJU FXSQ24TAVJU FXSQ30TAVJU FXSQ36TAVJU FXSQ48TAVJU FXSQ54TAVJU 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A 250 V, 6.3 A 250 V, 6.3 A 250 V, 6.3 A 250 V, 6.3 A 250 V, 6.3 A 250 V, 6.3 A -- -- -- -- -- -- 3D112398 20.7 FXMQ-PB Model Printed circuit board fuse Printed circuit board fuse (Fan driver) Drain pump thermal fuse �F (�C) FXMQ07PBVJU 250 V, 3.15 A 250 V, 5 A 293 (145) FXMQ09PBVJU 250 V, 3.15 A 250 V, 5 A 293 (145) FXMQ12PBVJU 250 V, 3.15 A 250 V, 5 A 293 (145) FXMQ15PBVJU 250 V, 3.15 A 250 V, 6.3 A 293 (145) FXMQ18PBVJU 250 V, 3.15 A 250 V, 6.3 A 293 (145) Model Printed circuit board fuse Printed circuit board fuse (Fan driver) Drain pump thermal fuse �F (�C) FXMQ24PBVJU 250 V, 3.15 A 250 V, 6.3 A 293 (145) FXMQ30PBVJU 250 V, 3.15 A 250 V, 6.3 A 293 (145) FXMQ36PBVJU 250 V, 3.15 A 250 V, 6.3 A 293 (145) FXMQ48PBVJU 250 V, 3.15 A 250 V, 6.3 A 293 (145) FXMQ54PBVJU 250 V, 3.15 A 250 V, 6.3 A 293 (145) C: 3D086916B 20.8 FXHQ-M Model FXHQ12MVJU FXHQ24MVJU FXHQ36MVJU Printed circuit board fuse 250 V, 5 A 250 V, 5 A 250 V, 5 A Fan motor thermal fuse �F � � � Fan motor thermal protector �F OFF: 266�9 ON: 176�36 OFF: 266�9 ON: 176�36 OFF: 266�9 ON: 176�36 C: 3D049334A 65 RXSQ-TAVJUAEDUS331721A-D 20.9 FXAQ-P Model FXAQ07PVJU FXAQ09PVJU FXAQ12PVJU FXAQ18PVJU FXAQ24PVJU Printed circuit board fuse 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A Fan motor thermal fuse �F � � � � � Fan motor thermal protector �F � � � � � C: 4D047085D 20.10 FXLQ-M, FXNQ-M Model Printed circuit board fuse Fan motor thermal protector �F (�C) FXLQ07MVJU FXNQ07MVJU 250 V, 5 A OFF: 275�18 (135�10) ON: 248 (120) or less FXLQ09MVJU FXNQ09MVJU 250 V, 5 A OFF: 275�18 (135�10) ON: 248 (120) or less FXLQ12MVJU FXNQ12MVJU 250 V, 5 A OFF: 275�18 (135�10) ON: 248 (120) or less FXLQ18MVJU FXNQ18MVJU 250 V, 5 A OFF: 275�18 (135�10) ON: 248 (120) or less FXLQ24MVJU FXNQ24MVJU 250 V, 5 A OFF: 275�18 (135�10) ON: 248 (120) or less C: 3D045646B 20.11 FXTQ-TA Model Model (with factory disconnect) Printed circuit board fuse (F1U) Printed circuit board fuse (F2U) Others Model Model (with factory disconnect) Printed circuit board fuse (F1U) Printed circuit board fuse (F2U) Others FXTQ09TAVJUA FXTQ09TAVJUD 32 V, 3 A 250 V, 3.15 A FXTQ12TAVJUA FXTQ18TAVJUA FXTQ24TAVJUA FXTQ12TAVJUD FXTQ18TAVJUD FXTQ24TAVJUD 32 V, 3 A 32 V, 3 A 32 V, 3 A 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A Blower motor, Fan driver overload protector FXTQ30TAVJUA FXTQ30TAVJUD 32 V, 3 A 250 V, 3.15 A FXTQ36TAVJUA FXTQ36TAVJUD 32 V, 3 A 250 V, 3.15 A FXTQ42TAVJUA FXTQ48TAVJUA FXTQ54TAVJUA FXTQ42TAVJUD FXTQ48TAVJUD FXTQ54TAVJUD 32 V, 3 A 32 V, 3 A 32 V, 3 A 250 V, 3.15 A 250 V, 3.15 A 250 V, 3.15 A Blower motor, Fan driver overload protector FXTQ60TAVJUA FXTQ60TAVJUD 32 V, 3 A 250 V, 3.15 A 20.12 CXTQ-TA Model Printed circuit board fuse (F1U) Printed circuit board fuse (F2U) CXTQ24TASBLU 32 V, 3 A 250 V, 3.15 A CXTQ36TASBLU 32 V, 3 A 250 V, 3.15 A CXTQ48TASBLU 32 V, 3 A 250 V, 3.15 A CXTQ60TASBLU 32 V, 3 A 250 V, 3.15 A 66 RXSQ-TAVJUAEDUS331721A-D Appendix 1. Introduction................................................................................................68 1.1 ED Book List....................................................................................68 1.2 Publication List of Engineering Data for VRV Products...................69 67 RXSQ-TAVJUAEDUS331721A-D 1. Introduction 1.1 ED Book List Design Manual...................................................... RXSQ-TAVJUA ....... EDUS331721A-D (This booklet) Capacity Table Book Heat Pump.......................................................... RXSQ-TAVJUA ...........EDUS331721A-C Installation Heat Pump, Heat Recovery..................................... Indoor Units RXYQ REYQ ............. EDUS371848-N Ceiling Mounted Cassette Type (Round Flow with Sensing)........ FXFQ-T ...... EDUS391400A-F14 VISTATM 2 � 2 Cassette Unit................................... FXZQ-TA ........... EDUS391776-F9 4-Way Blow Ceiling-Suspended Type....................... FXUQ-P ......... EDUS391437-F15 One Way Blow Cassette Type................................. FXEQ-P ......... EDUS391533-F16 Slim Ceiling Mounted Duct Type.............................. FXDQ-M ............ EDUS39-600-F2 MSP Concealed Duct Unit...................................... FXSQ-TA ......... EDUS391777-F17 Ceiling Mounted Duct Type..................................... FXMQ-PB ......... EDUS391503A-F4 Ceiling Suspended Type........................................ FXHQ-M ............ EDUS39-600-F5 Wall Mounted Type............................................... Floor Standing Type / Concealed Floor Standing Type......... Air Handling Unit................................................... FXAQ-P FXLQ-M FXNQ-M FXTQ-TA ........... EDUS391100-F6 ........... EDUS391502-F7 ..... Engineering Data FXTQ-TA Cased Coil Unit.................................................... CXTQ-TA .....Engineering Data CXTQ-TA Controls....................................................................................................... EDUS721909-T Remote Controller Navigation Remote Controller.................................. BRC1E73 ................ EDUS721438 68 RXSQ-TAVJUAEDUS331721A-D 1.2 Publication List of Engineering Data for VRV Products Shaded sections indicate Engineering Data Book/s published for this series. Timing of publication is subject to change without notice. Outdoor Unit Refrigerant Category Product series VRV IV-X Type Volts Model name 208/230 V H/R 460 V REYQ-XATJA, XAYDA, XAYCA 575 V 208/230 V 460 V RXYQ-XATJA, XAYDA H/P 575 V RXYQ-XAYCA R410A Air cooled VRV IV VRV Aurora 208/230 V 460 V REYQ-TATJA, TAYDA H/R 575 V REYQ-TAYCA 208/230 V 460 V RXYQ-TATJA, TAYDA H/P 575 V RXYQ-TAYCA 208/230 V H/R 460 V RELQ-TATJA, TAYDA, TAYCA 575 V 208/230 V H/P 460 V RXLQ-TATJA, TAYDA, TAYCA 575 V VRV IV-S H/P 208/230 V RXTQ36TAVJ9A RXTQ48/60TAVJUA H/P 208/230 V RXSQ24-60TAVJUA Water cooled Installation for all VRV air cooled type VRV-W H/P H/R 208/230 V 460 V 575 V RWEQ-TATJU, TAYDU, TAYCU RWEQ-TATJA, TAYDA Installation for all VRV water cooled type Note: C/O: Cooling only, H/P: Heat pump, H/R: Heat recovery Area Book category Book No. Published in USA Canada Design manual Capacity table EDUS371848A-D EDUS371848A-C Jan.2020 USA Design manual Canada Capacity table Design manual Canada Capacity table EDUS341923-D EDUS341923-C EDUS341928-D EDUS341928-C Nov.2019 USA Design manual EDUS371704C-D Canada Capacity table EDUS371704C-C Feb.2020 Design manual EDUS371706C-D Canada Capacity table EDUS371706C-C USA Design manual EDUS341703B-D Canada Capacity table EDUS341703B-C Jan.2020 Design manual EDUS341824A-D Canada Capacity table EDUS341824A-C USA Canada Design manual Capacity table EDUS371705C-D EDUS371705C-C Feb.2020 USA Canada Design manual Capacity table EDUS341819A-D EDUS341819A-C Jan.2020 USA Canada Design manual Capacity table EDUS331608C-D EDUS331608C-C Feb.2020 USA Canada Design manual Capacity table EDUS331721A-D EDUS331721A-C Feb.2020 Installation EDUS371848-N Aug.2019 USA Canada Design manual Capacity table EDUS301864A-D EDUS301864A-C Jan.2020 Installation EDUS301864-N Aug.2019 69 RXSQ-TAVJUAEDUS331721A-D Indoor Unit and Other Products Refrigerant R410A Product category VRV Indoor units Product type Ceiling Mounted Cassette Type (Round Flow with Sensing) VISTATM 2 x 2 Cassette Unit 4-Way Blow Ceiling- Suspended Type One Way Blow Cassette Type Slim Ceiling Mounted Duct Type MSP Concealed Ducted Unit Ceiling Mounted Duct Type (Middle and High Static Pressure) Ceiling Mounted Duct Type Ceiling Suspended Type Wall Mounted Type Floor Standing Type Concealed Floor Standing Type Air Handling Unit Model name FXFQ07-48TVJU FXZQ05-18TAVJU FXUQ18-36PVJU FXEQ07-24PVJU FXDQ07-24MVJU FXSQ05-54TAVJU FXMQ07-54PBVJU FXMQ72/96MVJU FXHQ12-36MVJU FXAQ07-24PVJU FXLQ07-24MVJU FXNQ07-24MVJU FXTQ09-60TAVJUA FXTQ09-60TAVJUD Cased Coil Unit CXTQ24-60TASBLU Outdoor Air Processing Unit Single Branch Selector Unit Multi Branch Selector Unit Controls and networks Remote controllers Control devices Adaptors Navigation remote controller intelligent Touch Manager intelligent Touch Controller Interface for use in BACnet� Option for all type Energy Recovery Ventilator (VAM) FXMQ48-96MFVJU BSQ36-96TVJ BS4-12Q54TVJ BRC1E73, BRC4C/7E/082A, BRC2A71 DCS302C71, DST301BA61, DCS601C71 KRP1C74/75 BRC1E73 DCM601A71, DCM601A72 DCS601C71 DMS502B71 For indoor and outdoor units VAM300-1200GVJU Area Book No. Published in USA EDUS391400A-F14 May 2018 USA EDUS391776-F9 Mar.2018 USA USA USA USA EDUS391437-F15 EDUS391533-F16 EDUS39-600-F2 EDUS391777-F17 May 2015 Oct.2015 Sep.2006 Mar.2018 USA USA USA USA USA USA USA USA USA USA EDUS391503A-F4 May 2018 EDUS39-900A-F11 EDUS39-600-F5 EDUS391100-F6 May 2010 Sep.2006 Jan.2012 EDUS391502-F7 Jul.2015 Engineering Data FXTQ-TA Engineering Data CXTQ-TA EDUS39-900A-F10 EDUS391434-B EDUS391434-B Sep.2016 -- May 2010 Aug.2015 Aug.2015 USA EDUS721909-T Dec.2019 USA USA USA USA USA USA EDUS721438 EDUS721212 EDUS72-608 EDUS72-749 OHUS07-1 EDUS711116A Apr.2015 Oct.2012 Dec.2006 Oct.2007 Nov.2007 Jun.2017 70 Warning Ask a qualified installer or contractor to install this product. Do not try to install the product yourself. Improper installation can result in water or refrigerant leakage, electrical shock, fire or explosion. Use only those parts and accessories supplied or specified by Daikin. Ask a qualified installer or contractor to install those parts and accessories. Use of unauthorised parts and accessories or improper installation of parts and accessories can result in water or refrigerant leakage, electrical shock, fire or explosion. Read the user's manual carefully before using this product. The user's manual provides important safety instructions and warnings. Be sure to follow these instructions and warnings. If you have any enquiries, please contact your local importer, distributor and/or retailer. Cautions on product corrosion 1. Air conditioners should not be installed in areas where corrosive gases, such as acid gas or alkaline gas, are produced. 2. If the outdoor unit is to be installed close to the sea shore, direct exposure to the sea breeze should be avoided. If you need to install the outdoor unit close to the sea shore, contact your local distributor. Specifications, designs and other content appearing in this brochure are current as of February 2020 but subject to change without notice. �All rights reserved 02/20 FS