EDS55-801
Part 1
Product Outline ............................................................................................ 1 1. Model Series.....................................................................................................................2 2. Features ...........................................................................................................................2 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9
Part 2
Compressor ........................................................................................................................... 2 Heat Exchanger..................................................................................................................... 3 Four-way Valve (Heat Pump) ................................................................................................ 3 Control System ...................................................................................................................... 3 Safety Protection Devices ..................................................................................................... 3 Low Noise Design.................................................................................................................. 4 Wide Operation Range .......................................................................................................... 4 Remote Control ..................................................................................................................... 4 Energy Saving ....................................................................................................................... 4
Main Data ..................................................................................................... 5 1. 2. 3. 4. 5. 6. 7. 8. 9.
Specifications ...................................................................................................................6 Operation Condition..........................................................................................................9 Dimensions.....................................................................................................................10 Foundation......................................................................................................................19 Piping Diagrams .............................................................................................................23 Wiring Diagrams .............................................................................................................27 Field Wiring Diagram ......................................................................................................31 Electric Characteristics ...................................................................................................32 Capacity Tables..............................................................................................................33 9.1 Cooling Capacity ................................................................................................................. 33 9.2 Heating Capacity ................................................................................................................. 51
10. 11. 12. 13. Part 3
Operation Limits .............................................................................................................69 Center of Gravity ............................................................................................................70 Sound Data.....................................................................................................................71 Bringing In ......................................................................................................................77
Other........................................................................................................... 79 1. Water Quality..................................................................................................................80 2. Control System Function and Operation ........................................................................81 2.1 2.2 2.3 2.4 2.5 2.6 2.7
Table of Contents
Names of Parts.................................................................................................................... 81 Names and Function of Parts on the Control Panel ............................................................ 85 Remote Wiring Work and Setting ........................................................................................ 92 Operation Method of the Control Panel ............................................................................... 95 Functions of the Chiller........................................................................................................ 97 Local Settings on the Control Panel .................................................................................. 102 Multi-functional LCD Remote Controller (Option) .............................................................. 108
i
EDS55-801
ii
Table of Contents
EDS55-801
Part 1 Product Outline 1. Model Series ...........................................................................................2 2. Features ..................................................................................................2 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9
Product Outline
Compressor..............................................................................................2 Heat Exchanger........................................................................................3 Four-way Valve (Heat Pump) ...................................................................3 Control System.........................................................................................3 Safety Protection Devices ........................................................................3 Low Noise Design ....................................................................................4 Wide Operation Range.............................................................................4 Remote Control ........................................................................................4 Energy Saving ..........................................................................................4
1
Model Series
EDS55-801
1. Model Series Refrigerant R407C
Heat Pump
Integrated 40HP 50HP z
z
60HP z
Packaged
80HP 100HP 120HP 140HP 160HP 180HP 200HP 220HP 240HP 280HP 320HP 360HP 400HP 440HP 480HP z
z
z
z
z
z
z
z
z
z
z
z
z
z
z
2. Features 2.1
Compressor
z Developed exclusively for new refrigerant R407C The high-precision five-axis processing technology is applied to improve the compressor performance in an allaround way and realize 10%-100% continuous capacity control. z Tandem double-economizer circuit The original [D-Tandemstage] circuit realizes high-efficiency operation. One compressor is equipped with one upper economizer and one lower economizer, which substantially increases the cooling degree and improves the cooling capacity, thereby enhancing the efficiency of the entire unit. z Low noise, small vibration The gate rotors made of high-molecule composite material are capable of self-lubrication, thereby facilitating smooth engagement with the main screw and reducing the shock and vibration. In addition, the two rotors are symmetrically mounted for balanced pressure, further stabilizing the operation and decreasing the noise and vibration. Discharge pressure Suction pressure
Screw rotor Suction pressure
Discharge pressure
z Small size, Less Space The built-in oil separator has 99.5% and above efficiency, and can be directly cooled by refrigerant, thus eliminating the need of an oil cooler. It is also compact, small and lightweight. z High efficiency energy saving operation The semi-sealed single screw compressor performs 12 compressions for each rotating cycle. As compared to the usual twin-screw compressor, as no air escapes from the high pressure area to the low pressure area, there is almost no energy loss with the semi-sealed single-screw compressor. Besides, the gate rotors are made of high2
Product Outline
EDS55-801
Features
molecule composite material, which improves the sealing performance while reducing the leakage loss, thereby greatly increasing the efficiency at full load. z Oil supply system easy to repair Differential pressure oil supply is used in the oil supply system of this compressor. The use of the rolling bearing has considerably simplified the oil supply system. No oil pump is used, thus facilitating repair. z The high operating efficiency and durability of the master unit are important factors in evaluating the characteristics of the compressor. z The high-efficiency single screw compressor is a patented product of DAIKIN. Since the production of open type compressor began in 1982, the semi-sealed single-screw compressor has been fully developed through constant improvement.
2.2
Heat Exchanger z Stainless steel plate type heat exchanger is used for the water side heat exchanger. The plate type heat exchanger is characterized by small size and high heat exchanging efficiency. The heat exchanger and the connecting pipes are all made of stainless steel, which improves durability and corrosion resistance. And a highefficiency water filter is built in, which can be periodically cleaned, ensuring long term stable and high efficiency operation of the compressor. A sensor is installed inside the heat exchanger, which can facilitate electronic antifreeze control. z The air side heat exchanger is of cross fin coil type. Its layout looks like an upside-down character of "M". After being analyzed and calculated with CAE, it is discovered that the air velocity distribution in the heat exchanger is even, which ensures high performance of heat exchange. Small diameter φ8 cooling pipe of N-shaped groove type is used to ensure compactness while improving COP of the compressor. Imported hydrophilic aluminum fin is used, so condensed water does not adhere to the fin surface easily, thus reducing the possibility of frosting. z The fouling factor of 0.086m2 · °C/kW is used for calculation in the design of the waterside heat exchanger.
2.3
Four-way Valve (Heat Pump) z The four-way valve specifically developed to match the structural characteristics of the compressor has a more reasonable structure. z A solenoid valve is used to control the flow of refrigerant in the four-way valve, ensuring the stability and reliability. z Adjustment is made by taking advantage of the internal pressure variation of the compressor, achieving more sensitive action and more stable operation. z The four-way valve is directly mounted at the suction of the compressor, which decreases the pressure loss of refrigerant, enables integration with the compressor, and improves the stability of unit operation.
2.4
Control System z This compressor adopts precise intelligent control with the computer. Operation can be done on the control panel of the compressor or through the remote control. z Motor wiring and control circuit wiring of the compressor have been connected before leaving factory. The compressor is operational after connecting the power supply and necessary water pump interlock wiring at the installation site. z The control panel of the compressor has the functions of status display, abnormality display and system changeover, etc. z Multiple dedicated contacts and spare contacts have been reserved inside the wiring cabinet to facilitate the user in connecting the remote control line and water pump interlock line, etc. z With the precise control of the computer and continuous capacity adjustment of the single-screw compressor, the unit can control the water temperature at an accuracy of ± 0.5 °C* and ensure the stable operation of all air conditioning systems. (Below 160HP) z The operating status is monitored by the computer. Even if there is a power failure, the compressor can continue to run automatically after the power supply is resumed. z Chilled water inlet or outlet can be set according to the customers' needs. z Averaging control is adopted for the running time of the compressor to improve reliability. z The compressor is started using the star-delta method. *Under outlet water temperature control for 160HP and below models.
2.5
Safety Protection Devices z The compressor has complete safety protection devices including high pressure protector, low pressure protector, compressor overheat protection, fusible plug, reverse phase protection function, exhaust overheat protection, compressor over-current protection, anti-freeze protection, fan motor over-current protection and safety valve, etc. z Water pump interlock protection port has been reserved and is operational after wiring is connected properly at
Product Outline
3
Features
EDS55-801
the installation site. z Chilled water interruption protection port has been reserved.
2.6
Low Noise Design z A new-type wing-shaped sickle-like fan is adopted. The noise is effectively reduced by using the wing-shaped sickle-like fan with minimum swirl, which is designed by simulating the operating conditions of fans with different vane shapes through (F1) (Computational Fluid Dynamics) program. z The compressor discharge pipe is equipped with a muffler to reduce the high-frequency noise. z The compressor has a damping design to avoid the transfer of vibration. z The compressor is mounted in the compressor chamber lined with soundproofing material to further reduce the noise.
2.7
Wide Operation Range z Steady heating operation is possible even at the ambient temperature of –20°C. z To meet the needs of process cooling, the outlet temperature of chilled water is within 4°C-25°C (cooling-only model).
2.8
Remote Control z The remote control contacts are standard equipped for BA, which can perform the functions of start/stop, cooling and heating mode switchover, fault alarm, etc. z The wired LCD remote controller is optionally equipped for direct remote control, which can perform the functions of start/stop, cooling and heating mode switchover, fault code display, temperature setting, etc., inquire about many important parameters of compressor operation, and has the “self diagnosis function”. z The Daikin I-Manager control system is optionally equipped for uniform management of the entire air-conditioning system. z RS485 standard interface is available as an option.
2.9
Energy Saving z Energy saving characteristics of the compressor • The single screw compressor was developed on the basis of twin-screw compressor. The orthogonal structure is used for air compression, which overcomes the weakness of "leakage delta" inherent in twin-screw compressor and improves compression efficiency of the compressor by 5%. • The master screw of the single screw compressor bears completely balanced force during operation, which has reasonably improved the working condition of the screw bearing, significantly reduced the wearing of the bearing, and as a result, the compressor is able to maintain an extremely high mechanical efficiency for a long time, and the customers can avoid the considerable operating cost increase due to extended use of the equipment. • Self lubricating material is used in the gate rotors, resulting in extremely low friction coefficient and high operating efficiency. • The single-screw compressor maintains a high-efficiency level of cooling coefficient (ratio of cooling capacity against energy consumption) at partial load. Therefore, good energy saving results can be achieved even at low load. z Flexibility of load adjustment of the compressor • In actual operation of air conditioner, the compressor usually does not run for a long time at full load. The unit can automatically perform 10%-100% stepless capacity regulation to adapt to the change of air-conditioning load on the user side. For models with multiple compressors, the unit can control the quantity of compressors to achieve economical operation.
4
Product Outline
EDS55-801
Part 2 Main Data 1. 2. 3. 4. 5. 6. 7. 8. 9.
Specifications ..........................................................................................6 Operation Condition ................................................................................9 Dimensions ...........................................................................................10 Foundation ............................................................................................19 Piping Diagrams....................................................................................23 Wiring Diagrams....................................................................................27 Field Wiring Diagram.............................................................................31 Electric Characteristics..........................................................................32 Capacity Tables ....................................................................................33 9.1 Cooling Capacity ....................................................................................33 9.2 Heating Capacity ....................................................................................51
10.Operation Limits ....................................................................................69 11.Center of Gravity ...................................................................................70 12.Sound Data ...........................................................................................71 13.Bringing In .............................................................................................77
Main Data
5
Specifications
EDS55-801
1. Specifications Model
UWYP40BY1
UWYP50BY1
UWYP60BY1
Power Supply
UWYP80BY1
UWYP100BY1
UWYP120BY1
3 Phase 380/400/415V 50Hz 3Wire System kW
106
132
160
210
265
320
103kcal/h
91
114
138
181
228
275
Chilled Water Flow Rate
m3/h
18.2
22.7
27.5
36.1
45.6
55.0
Pressure Drop
kPa
34
41
50
60
37
44
kW
112
140
170
230
280
340
Cooling Capacity
Heating Capacity
103kcal/h
96
120
146
198
241
292
Hot Water Flow Rate
m3/h
19.3
24.1
29.2
39.6
48.2
58.5
Pressure Drop
kPa
38
46
56
71
41
49
Capacity Steps
%
100~10-0(Continuous capacity control)
Color
Ivory (5Y7.5/1) Type
Semi-hermetically sealed single-screw type
Model×No. Compressor
Motor Output
kW
ZHC3TLH1YE
ZHC3SLH1YE
ZHC3YLH1YE
ZHC5LMH1YE
ZHC3SLH1YE×2
ZHC3YLH1YE×2
30
37
45
60
37×2
45×2
Starting Method
-UStart
Refrigerant Oil
FVC68D
Charge
L
7.5
7.5×2
Water Heat Exchanger
Brazing plate type
Air Heat Exchanger
Cross fin coil
Type Condenser Fan
Propeller(Direct drive)
Model×No. Motor Output
P70K11S×4 kW
0.5×4
1.0×4
Type Charge
1.0×8
1 kg
50
2
68
78
Control
108
68×2
78 ×2
Electronic expansion valve + Solenoid valve High pressure switch, Low pressure switch, Compressor thermal protector, Freeze-up protector, Overcurrent relay (compressor), Overcurrent relay (fan), Reverse-phase protector, Overheat protection of discharge gas, Fusible plug, Safety valve
Safety Devices Chilled Water Inlet/Outlet
Piping Connection
P70K11S×8
1.0×6 R407C
No. Of Circuit
Refrigerant
P70K11S×6
3B Flange (80A)
Drain Outlet
Dimension H×W×D
4B Flange (100A)
RP1 1/4 Female Screw (32A) mm
2,456×2,650×2,000
2,456×2,200×2,000
2,456×4,400×2,000
Machine Weight(Approx.)
kg
1,800
1,930
1,990
2,640
3,740
3,995
Operating Weight(Approx.)
kg
1,833
1,966
2,030
2,687
3,791
4,052
Standard Accessories
Electric Characteristics
Running Current Rated Power Cooling Consumption Power Factor
A
58 (380V)
63 (380V)
87 (380V)
113 (380V)
126 (380V)
174 (380V)
kW
31.2
36.2
48.2
64.7
72.4
96.4
%
82 (380V)
87 (380V)
84 (380V)
87 (380V)
87 (380V)
84 (380V)
Starting Current
A
161 (380V)
187 (380V)
237 (380V)
398 (380V)
265 (380V)
342 (380V)
Running Current
A
63 (380V)
71 (380V)
93 (380V)
130 (380V)
142 (380V)
186 (380V)
kW
35.0
41.2
51.5
74.3
82.4
103.0
Rated Power Heating Consumption Power Factor Starting Current Minimum Wire Diameter
External Wiring Method
Operation manual, Installation manual, Fuses, Touch-up paint
%
84 (380V)
88 (380V)
84 (380V)
87 (380V)
88 (380V)
84 (380V)
A
161 (380V)
187 (380V)
237 (380V)
398 (380V)
275 (380V)
351 (380V)
mm2
35×1
50×1
70×1
95×1
120×1
185×1
Distance
m
106
130
132
123
142
143
Circuit Breaker
A
125
125
200
225
225
400
Earth Wire Minimum Holding Water Quantity Drawing No.
mm2
8
8
14
14
14
22
L
800
1,000
1,200
800
1,000
1,200
4VG21127
4VG21128
4VG21129
4VG21130
4VG21131
4VG21132
Notes: 1) Nominal cooling capacity is based on the following condition. Leaving chilled water temp. 7°C Entering chilled water temp. 12°C Outdoor air temp. 35°C D.B. 2) Nominal heating capacity is based on the following condition. Leaving hot water temp. 45°C Entering hot water temp. 40°C Outdoor air temp. 7°C( D.B.), 6°C( W.B.) 3) This chiller is equipped with strainer for chiller as standard. 4) "Distance" means maximum distance when the ratio of voltage drop is less than 2%.
6
Main Data
EDS55-801
Specifications
Model
UWYP140BY1
UWYP160BY1
UWYP180BY1
Power Supply
UWYP200BY1
UWYP220BY1
UWYP240BY1
3 Phase 380/400/415V 50Hz 3Wire System kW
370
420
480
530
580
630
103kcal/h
318
361
413
456
499
542
Chilled Water Flow Rate
m3/h
63.6
72.2
82.6
91.2
99.8
108
Pressure Drop
kPa
42
53
53
54
65
69
kW
400
460
510
570
630
690
Cooling Capacity
Heating Capacity
103kcal/h
344
396
439
490
542
593
Hot Water Flow Rate
m3/h
68.8
79.1
87.7
98.0
108
119
Pressure Drop
kPa
49
63
59
63
76
83
Capacity Steps
%
100~10-0(Continuous capacity control)
Color
Ivory (5Y7.5/1) Type
Semi-hermetically sealed single-screw type
Model×No. Compressor
Motor Output
kW
ZHC5LMH1YE + ZHC3YLH1YE
ZHC5LMH1YE×2
ZHC3YLH1YE×3
ZHC3YLH1YE×2 +ZHC5LMH1YE
ZHC5LMH1YE×2 +ZHC3YLH1YE
ZHC5LMH1YE×3
60 + 45
60×2
45×3
45×2+60
60×2 + 45
60×3
Starting Method
-UStart
Refrigerant Oil
FVC68D
Charge
L
7.5×3
7.5×2
Water Heat Exchanger
Brazing plate type
Air Heat Exchanger
Cross fin coil
Type Condenser Fan
Propeller(Direct drive)
Model×No. Motor Output
kW
P70K11S×10
P70K11S×12
P70K11S×14
P70K11S×16
P70K11S×18
1.0×10
1.0×12
1.0×14
1.0×16
1.0×18
108×2+78
108×3
Type
R407C
No. Of Circuit
Refrigerant
Charge
3
2 kg
108+80
108×2
Control
108+80+78
Electronic expansion valve + Solenoid valve High pressure switch, Low pressure switch, Compressor thermal protector, Freeze-up protector, Overcurrent relay (compressor), Overcurrent relay (fan), Reverse-phase protector, Overheat protection of discharge gas, Fusible plug, Safety valve
Safety Devices Chilled Water Inlet/Outlet
Piping Connection
78×3
4B Flange (100A)
5B Flange (125A)
Drain Outlet
RP1 1/4 Female Screw (32A) mm
2,456×4,850×2,000
2,456×5,300×2,000
2,456×6,600×2,000
2,456×7,050×2,000
2,456×7,500×2,000
2,456×7,950×2,000
Machine Weight(Approx.)
kg
4,553
5,110
6,265
6,820
7,500
7,885
Operating Weight(Approx.)
kg
4,624
5,181
6,456
7,018
7,719
8,125
Dimension H×W×D
Standard Accessories
Electric Characteristics
Running Current Rated Power Cooling Consumption Power Factor
A
200 (380V)
226 (380V)
261 (380V)
287 (380V)
313 (380V)
339 (380V)
kW
112.9
129.4
144.6
161.1
177.6
194.1
%
86 (380V)
87 (380V)
84 (380V)
85 (380V)
86 (380V)
87 (380V)
Starting Current
A
505 (380V)
535 (380V)
447 (380V)
608 (380V)
642 (380V)
672 (380V)
Running Current
A
223 (380V)
260 (380V)
278 (380V)
316 (380V)
353 (380V)
390 (380V)
kW
125.8
148.6
154.6
177.3
200.1
222.9
Rated Power Heating Consumption Power Factor Starting Current Minimum Wire Diameter
External Wiring Method
Operation manual, Installation manual, Fuses, Touch-up paint
%
86 (380V)
87 (380V)
84 (380V)
85 (380V)
86 (380V)
87 (380V)
A
514 (380V)
549 (380V)
465 (380V)
627 (380V)
665 (380V)
700 (380V)
mm2
95×2
95×2
120×2
150×2
150×2
185×2
Distance
m
144
123
143
144
129
137
Circuit Breaker
A
400
500
500
500
600
700
Earth Wire Minimum Holding Water Quantity Drawing No.
mm2
22
22
22
38
38
38
L
1,600
1,600
1,200
1,600
1,600
1,600
4VG21133
4VG21134
4VG21135
4VG21136
4VG21137
4VG21138
Notes: 1) Nominal cooling capacity is based on the following condition. Leaving chilled water temp. 7°C Entering chilled water temp. 12°C Outdoor air temp. 35°C D.B. 2) Nominal heating capacity is based on the following condition. Leaving hot water temp. 45°C Entering hot water temp. 40°C Outdoor air temp. 7°C( D.B.), 6°C( W.B.) 3) This chiller is equipped with strainer for chiller as standard. 4) "Distance" means maximum distance when the ratio of voltage drop is less than 2%.
Main Data
7
Specifications
EDS55-801
Model
UWYP280BY1
UWYP320BY1
UWYP360BY1
Power Supply
UWYP400BY1
UWYP440BY1
UWYP480BY1 1,260
3 Phase 380/400/415V 50Hz 3Wire System kW
740
840
960
1,060
1,160
103kcal/h
636
722
826
912
998
1,084
Chilled Water Flow Rate
m3/h
63.6×2
72.2×2
82.6×2
91.2×2
99.8×2
108×2
Pressure Drop
kPa
42
53
53
54
65
69
kW
800
920
1,020
1,140
1,260
1,380
Cooling Capacity
Heating Capacity
103kcal/h
688
791
877
980
1,084
1,187
Hot Water Flow Rate
m3/h
68.8×2
79.1×2
87.7×2
98.0×2
108.4×2
119×2
Pressure Drop
kPa
49
63
59
63
76
83
Capacity Steps
%
100~10-0(Continuous capacity control)
Color
Ivory (5Y7.5/1) Type
Semi-hermetically sealed single-screw type
Model×No. Compressor
Motor Output
kW
(ZHC5LMH1YE+ ZHC3YLH1YE)×2
(ZHC5LMH1YE×2)×2
(ZHC3YLH1YE×3)×2
(ZHC3YLH1YE×2+ ZHC5LMH1YE)×2
(ZHC5LMH1YE×2+ ZHC3YLH1YE)×2
(ZHC5LMH1YE×3)×2
(60+45)×2
(60×2)×2
(45×3)×2
(45×2+60)×2
(60×2+45)×2
(60×3)×2
Starting Method
-UStart
Refrigerant Oil
FVC68D
Charge
L
(7.5×3) ×2
(7.5×2) ×2
Water Heat Exchanger
Brazing plate type
Air Heat Exchanger
Cross fin coil
Type Condenser Fan
Propeller(Direct drive)
Model×No. Motor Output
kW
(P70K11S×10)×2
(P70K11S×12)×2
(P70K11S×12)×2
(P70K11S×14)×2
(P70K11S×16)×2
(P70K11S×18)×2
(1.0×10) ×2
(1.0×12) ×2
(1.0×12) ×2
(1.0×14) ×2
(1.0×16) ×2
(1.0×18) ×2
(108×2+78)×2
(108×3)×2
Type
R407C
No. Of Circuit
Refrigerant
Charge
3 ×2
2×2 kg
(108+80)×2
(108×2)×2
Control
(108+80+78)×2
Electronic expansion valve + Solenoid valve High pressure switch, Low pressure switch, Compressor thermal protector, Freeze-up protector, Overcurrent relay (compressor), Overcurrent relay (fan), Reverse-phase protector, Overheat protection of discharge gas, Fusible plug, Safety valve
Safety Devices Chilled Water Inlet/Outlet
Piping Connection
(78×3)×2
4B Flange (100A)
5B Flange (125A)
Drain Outlet
RP1 1/4 Female Screw (32A) mm
(2,456×4,850×2,000)×2
(2,456×5,300×2,000)×2
(2,456×6,600×2,000)×2
(2,456×7,050×2,000)×2
(2,456×7,500×2,000)×2
(2,456×7,950×2,000)×2
Machine Weight(Approx.)
kg
4,553×2
5,110×2
6,265×2
6,820×2
7,500×2
7,885×2
Operating Weight(Approx.)
kg
4,624×2
5,181×2
6,456×2
7,018×2
7,719×2
8,125×2
Dimension H×W×D
Standard Accessories
Electric Characteristics
Running Current Rated Power Cooling Consumption Power Factor
A
200×2 (380V)
226×2 (380V)
261×2 (380V)
287×2 (380V)
313×2 (380V)
339×2 (380V)
kW
112.9×2
129.4×2
144.6×2
161.1×2
177.6×2
194.1×2
%
86 (380V)
87 (380V)
84 (380V)
85 (380V)
86 (380V)
87 (380V)
Starting Current
A
505×2 (380V)
535×2 (380V)
447×2 (380V)
608×2 (380V)
642×2 (380V)
672×2 (380V)
Running Current
A
223×2 (380V)
260×2 (380V)
278×2 (380V)
316×2 (380V)
353×2 (380V)
390×2 (380V)
Rated Power Heating Consumption Power Factor
kW
125.8×2
148.6×2
154.6×2
177.3×2
200.1×2
222.9×2
%
86 (380V)
87 (380V)
84 (380V)
85 (380V)
86 (380V)
87 (380V)
A
514×2 (380V)
549×2 (380V)
465×2 (380V)
627×2 (380V)
665×2 (380V)
700×2 (380V)
mm2
(95×2)×2
(95×2)×2
(120×2)×2
(150×2)×2
(150×2)×2
(185×2)×2
Distance
m
144×2
123×2
143×2
144×2
129×2
137×2
Circuit Breaker
A
400×2
500×2
500×2
500×2
600×2
700×2
Starting Current Minimum Wire Diameter External Wiring Method
Operation manual, Installation manual, Fuses, Touch-up paint
Earth Wire Minimum Holding Water Quantity Drawing No.
mm2
22×2
22×2
22×2
38×2
38×2
38×2
L
1,600×2
1,600×2
1,200×2
1,600×2
1,600×2
1,600×2
4VG21139
4VG21140
4VG21141
4VG21142
4VG21143
4VG21144
Notes: 1) Nominal cooling capacity is based on the following condition. Leaving chilled water temp. 7°C Entering chilled water temp. 12°C Outdoor air temp. 35°C D.B. 2) Nominal heating capacity is based on the following condition. Leaving hot water temp. 45°C Entering hot water temp. 40°C Outdoor air temp. 7°C( D.B.), 6°C( W.B.) 3) This chiller is equipped with strainer for chiller as standard. 4) "Distance" means maximum distance when the ratio of voltage drop is less than 2%.
8
Main Data
EDS55-801
Operation Condition
2. Operation Condition Item Power supply voltage
Contents Within±10% of rated voltage
Phase unbalance temperature
Within±2% of rated voltage
Power supply frequency
Within±2% of rated
Chilled/hot water and outdoor air limit
Working range given above.
Pull-down duration
Within one hour (at no load)
Capacity and input
In conformity with GB/T 18430.1
Start/stop interval of compressor
No more than 6 times in 1 hour
Chilled water quality
No soluble matters deteriorating copper and stainless steel shall be included. (JRA-GL-02 water quality standard for chilled water system.)
Ambient air quality
No soluble matters deteriorating copper and aluminum shall be included.
Chilled water flow-rate
0.5~2.0m/sec
Chilled water pressure
Less than 0.69MPa{7 kg/cm2} shall apply.
Installing location
Outdoors (Take a preventive action against snow and side wind, if necessary.)
Water dripping out of machine
Install drainage pipes and provide foundation with pit for various drainage.
Main Data
9
553
1500
∗6
2
251
1
3
1400 260 (Hanger hole location) 100 100 2000 (Foundation bolt hole location(φ18)) 2200
202
CL
∗ 7 . Refer to the foundation drawing for the foundation of this machine.
Piping(inlet/outlet)
Compressor
800
50
A
CL
663
(Front Side)
2053 (Suspention blaket point)
1940 (Foundation bolt hole location(φ18)) 2000
CL
715
or
Hanger Bore φ38
0
00 12 or e r mo
Power supply terminal strip Earth terminal Drain outlet Chilled/hot water outlet Chilled/hot water inlet Name
CL
50
3VG21205
M12 (In switch box) M8 (In switch box) Rp 1 1/4 Female screw (2 Points) 3B (80A) Flange (HG20593-97) *SUS304 3B (80A) Flange (HG20593-97) *SUS304 Remarks
3
or
00 12 or re o m
4
14 (To edge of drain)
Detail A
re
5 4 3 2 1 No
mo
e) sid nt o r (F
Control panel
∗6
• Service space
5
0
50
Power supply intake (Side face)
re
mo
Power supply intake (Bottom)
2456
Drain Hole of hanger
200
200
200 730 200 215
Receiver Switch box
98
10 80
∗ 1 . As this unit is an integrated, it cannot be separated. ∗ 2 . Be sure to check water flow direction.(Inlet pipe:up side Outlet pipe:down side) ∗ 3 . The chillers with windbreak plate are required to have following service space from the edge of the plates. ∗ 4 . When conducting the cooling operation with the atmospheric temperature at 5º or under, install an optional windbreak plate if the unit is blown by winds of 10 m/s or higher. ∗ 5 . Be sure not to place water piping etc. When to overhaul a compressor, the chillers are required to have following service space(∗ 6) ∗ 6 . A water strainer has been built-in the chiller main body of this unit. The strainer needs a periodical maintenance.
Dimensions EDS55-801
3. Dimensions
UWYP40BY1 / UWYP50BY1 / UWYP60BY1
Main Data
553
1500
∗6
2
251
1
110
260
157
2650
1790 (Hanger hole location) 810 810 810 (Foundation bolt hole location(φ18))
3
CL
∗ 7 . Refer to the foundation drawing for the foundation of this machine.
Piping(inlet/outlet)
Compressor
800
110
50
A
CL
663
(Front Side)
2053 (Suspention blaket point)
1940 (Foundation bolt hole location(φ18)) 2000
CL
715
or 50 0
Hanger Bore φ38
Detail A
5 4 3 2 1 No
re
or
50
0
t on (Fr
e) sid
00 12 or re o m
3VG21204
M12 (In switch box) M8 (In switch box) Rp 1 1/4 Female screw (2 Points) 3B (80A) Flange (HG20593-97) *SUS304 3B (80A) Flange (HG20593-97) *SUS304 Remarks
3
00 12 or e r mo
Power supply terminal strip Earth terminal Drain outlet (Bottom side) Chilled/hot water outlet Chilled/hot water inlet Name
CL
mo
• Service space
Control panel
∗6
14 (To edge of drain)
4
5
Power supply intake (Side face)
re
mo
Power supply intake (Bottom)
Drain Hole Of Hanger
200
200
200 585 2456
Switch box
200 215
Receiver
98
Main Data 80
∗ 1 . As this unit is an integrated, it cannot be separated. ∗ 2 . Be sure to check water flow direction.(Inlet pipe:up side Outlet pipe:down side) ∗ 3 . The chillers with windbreak plate are required to have following service space from the edge of the plates. ∗ 4 . When conducting the cooling operation with the atmospheric temperature at 5º or under, install an optional windbreak plate if the unit is blown by winds of 10 m/s or higher. ∗ 5 . Be sure not to place water piping etc. When to overhaul a compressor, the chillers are required to have following service space(∗ 6) ∗ 6 . A water strainer has been built-in the chiller main body of this unit. The strainer needs a periodical maintenance.
EDS55-801 Dimensions
UWYP80BY1
11
Piping(inlet/outlet)
Receiver
Compressor
800
1500
∗6
Compressor
Switch box
Receiver
800
647
100
840
3 3
840 840 840 840 (Foundation bolt hole location(φ18)) 4400
2840 (Hanger hole location) 1954
2
1
CL
∗ 7 . Refer to the foundation drawing for the foundation of this machine.
244
100
CL
663
715
(Front Side)
2053 (Suspention blaket point)
1940 (Foundation bolt hole location(φ18)) 50 2000
A
CL re
mo or
Hanger Bore φ38
4
5
0
14 (To edge of drain)
3
∗6
5 4 3 2 1 No
CL
re
or
50
0
3 Power supply terminal strip Earth terminal Drain outlet (Bottom side) Chilled/hot water outlet Chilled/hot water inlet Name
mo
e) sid
00 12 or e r mo
3VG21202
M16 (In switch box) M8 (In switch box) Rp 1 1/4 Female screw (4 Points) 4B (100A) Flange (HG20593-97) *SUS304 4B (100A) Flange (HG20593-97) *SUS304 Remarks
t on (Fr 00 12 or e r mo
• Service space
Control panel
50
Detail A
Power supply intake (Side face)
Power supply intake (Bottom)
Drain Hole of hanger
200
200
200 248 2456
∗6
200 215
1500
98
12 80
∗ 1 . As this unit is an integrated, it cannot be separated. ∗ 2 . Be sure to check water flow direction.(Inlet pipe:up side Outlet pipe:down side) ∗ 3 . The chillers with windbreak plate are required to have following service space from the edge of the plates. ∗ 4 . When conducting the cooling operation with the atmospheric temperature at 5º or under, install an optional windbreak plate if the unit is blown by winds of 10 m/s or higher. ∗ 5 . Be sure not to place water piping etc. When to overhaul a compressor, the chillers are required to have following service space(∗ 6) ∗ 6 . A water strainer has been built-in the chiller main body of this unit. The strainer needs a periodical maintenance.
Dimensions EDS55-801
UWYP100BY1 / UWYP120BY1
Main Data
800
Receiver Piping(inlet/outlet)
Compressor
1500
∗6
1500
Compressor
Switch box
∗6
800
647
100
930
2
1954
975
1
3
930 930 930 (Foundation bolt hole location(φ18)) 4850
3
3055 (Hanger hole location) 930
820
∗ 7 . Refer to the foundation drawing for the foundation of this machine.
244
100
50
A
200
(Front Side)
2053 (Suspention blaket point)
or 0
50
Hanger Bore φ38
4
5
or 0
50
Control panel
mo re
(To edge of drain)
14
∗6
or
5 4 3 2 1 No
00
mo re
or 50 0
re mo
(F 00 12 or
t ron
) e sid
re mo
or
3VG21203
M16 (In switch box) M8 (In switch box) Rp 1 1/4 Female screw (4 Points) 4B (100A) Flange (HG20593-97) *SUS304 4B (100A) Flange (HG20593-97) *SUS304 Remarks
24
00 12
∗6
Power supply terminal strip Earth terminal Drain outlet Chilled/hot water outlet Chilled/hot water inlet Name
or
) or re ide t s mo
or 50 0
on (Fr
mo re
3
re mo
∗6
3
)
ide ts
on (Fr 00 12
r eo
0
50
r mo
mo re
• Service space
Detail A
Power supply intake (Side face)
re
mo
Power supply intake (Bottom)
Drain Hole of hanger
663 200 1940 (Foundation bolt hole location(φ18)) 2000
CL
715
200 248 2456
Receiver
200 215
Main Data 98 80
∗ 1 . As this unit is an integrated, it cannot be separated. ∗ 2 . Be sure to check water flow direction.(Inlet pipe:up side Outlet pipe:down side) ∗ 3 . The chillers with windbreak plate are required to have following service space from the edge of the plates. ∗ 4 . When conducting the cooling operation with the atmospheric temperature at 5º or under, install an optional windbreak plate if the unit is blown by winds of 10 m/s or higher. ∗ 5 . Be sure not to place water piping etc. When to overhaul a compressor, the chillers are required to have following service space(∗ 6) ∗ 6 . A water strainer has been built-in the chiller main body of this unit. The strainer needs a periodical maintenance.
00 12
EDS55-801 Dimensions
UWYP140BY1 / UWYP280BY1
13
800
Piping(inlet/outlet)
Receiver
Compressor
1500
∗6
1500
Compressor
∗6
800
647
100
1020
3
3860 (Hanger hole location)
3
1020 1020 1020 (Foundation bolt hole location(φ18)) 5300
2404
2
1
CL
1020
∗ 7 . Refer to the foundation drawing for the foundation of this machine.
244
100
50
A
CL
715
200
(Front Side)
2000 (Suspention blaket point) 2053
Hanger Bore φ38
∗6
(To edge of drain)
0
50
14
or
5 4 3 2 1 No
o
CL
e) sid ont (Fr 0 20 1 r
∗6
3
re mo
mo re
or o 50 0 more
or e) sid re ont mo (Fr 0 0 2 r1
3VG21201
00 12
M16 (In switch box) M8 (In switch box) Rp 1 1/4 Female screw (4 Points) 4B (100A) Flange (HG20593-97) *SUS304 4B (100A) Flange (HG20593-97) *SUS304 Remarks
3
0
∗6
20 1 or e) t sid more on (Fr 00 24
or 50 0
or
mo re
Power supply terminal strip Earth terminal Drain outlet Chilled/hot water outlet Chilled/hot water inlet Name
Control panel
e 0 mor
50
0
50
or
or
mo re
mo re
• Service space
Detail A
4
5
Power supply intake (Side face)
Power supply intake mo (Bottom) re
Drain Hole of hanger
663 200 1940 (Foundation bolt hole location(φ18))
CL
200 248 2456
Receiver Switch box
200 215
14 98 80
∗ 1 . As this unit is an integrated, it cannot be separated. ∗ 2 . Be sure to check water flow direction.(Inlet pipe:up side Outlet pipe:down side) ∗ 3 . The chillers with windbreak plate are required to have following service space from the edge of the plates. ∗ 4 . When conducting the cooling operation with the atmospheric temperature at 5º or under, install an optional windbreak plate if the unit is blown by winds of 10 m/s or higher. ∗ 5 . Be sure not to place water piping etc. When to overhaul a compressor, the chillers are required to have following service space(∗ 6) ∗ 6 . A water strainer has been built-in the chiller main body of this unit. The strainer needs a periodical maintenance.
Dimensions EDS55-801
UWYP160BY1 / UWYP320BY1
Main Data
∗6
800
1500
1500
800
1500
Receiver
∗6
Compressor
Switch box
Receiver Compressor
∗6
800
2
1
100
115
910
3
910
910
910
6600
3
(Foundation bolt hole location(φ18))
910
(Hanger hole location)
3900
CL
910
∗ 7 . Refer to the foundation drawing for the foundation of this machine.
Piping(inlet/outlet)
647 287
910
3 115
A 663
715
(Front Side)
200
200
re
mo or 0
50
Hanger Bore φ38
4
5
∗6
or
00
r5
re o
mo
0
50
3
mo
re
ide
5 4 3 2 1 No
CL
ts on (Fr 0 20 1 or
∗6
• Service space
14 (To edge of drain)
re
mo
Control panel
Detail A
Power supply intake (Side face)
Power supply intake (Bottom)
Drain Hole of hanger
2053 (Suspention blaket point)
1940 (Foundation bolt hole location(φ18)) 2000
CL
200 248 2456
Switch box
200 215
Receiver
98
Main Data 80
∗ 1 . As this unit is an integrated, it cannot be separated. ∗ 2 . Be sure to check water flow direction.(Inlet pipe:up side Outlet pipe:down side) ∗ 3 . The chillers with windbreak plate are required to have following service space from the edge of the plates. ∗ 4 . When conducting the cooling operation with the atmospheric temperature at 5º or under, install an optional windbreak plate if the unit is blown by winds of 10 m/s or higher. ∗ 5 . Be sure not to place water piping etc. When to overhaul a compressor, the chillers are required to have following service space(∗ 6) ∗ 6 . A water strainer has been built-in the chiller main body of this unit. The strainer needs a periodical maintenance.
)
re
or
on (Fr 00 24
ts
ide
) or re mo
0 12
0
∗6
Power supply terminal strip Earth terminal Drain outlet Chilled/hot water outlet Chilled/hot water inlet Name
3
mo
mo re or 50 0
mo
re
12 ) ide re or mo
00
3VG21200
M16 (In switch box) M8 (In switch box) Rp 1 1/4 Female screw (6 Points) 5B (125A) Flange (HG20593-97) *SUS304 5B (125A) Flange (HG20593-97) *SUS304 Remarks
3
mo re or 50 0
ts on (Fr 00 12 or
EDS55-801 Dimensions
UWYP180BY1 / UWYP360BY1
15
Piping(inlet/outlet)
∗6
800
1500
1500
1500
∗6
Compressor
Receiver Switch box
Receiver Compressor
∗6
800
800
2
647
1
100
130
3
970
1220
970
7050
970
970
(Foundation bolt hole location(φ18))
970
(Hanger hole location)
4810
3 3
970
∗ 7 . Refer to the foundation drawing for the foundation of this machine.
287
970
1020 130
A 663
2053 (Suspention blaket point)
1940 (Foundation bolt hole location(φ18)) 2000
CL
715
0
50
Hanger Bore φ38
or
mo re or 50 0
0
50
Control panel
∗6
re
mo
Detail A
14 (To edge of drain)
4
5
Power supply intake (Side face)
Drain Hole of hanger
200
200
or
Power supply intake (Bottom)
re
mo
200 248 2456
Switch box Receiver
200 215
∗ 1 . As this unit is an integrated, it cannot be separated. ∗ 2 . Be sure to check water flow direction.(Inlet pipe:up side Outlet pipe:down side) ∗ 3 . The chillers with windbreak plate are required to have following service space from the edge of the plates. ∗ 4 . When conducting the cooling operation with the atmospheric temperature at 5º or under, install an optional windbreak plate if the unit is blown by winds of 10 m/s or higher. ∗ 5 . Be sure not to place water piping etc. When to overhaul a compressor, the chillers are required to have following service space(∗ 6) ∗ 6 . A water strainer has been built-in the chiller main body of this unit. The strainer needs a periodical maintenance.
98
16 80
re
3
mo
o
ts on (Fr 0 20 r1
∗6
ide
)
5 4 3 2 1 No
mo
re
(Fr 00
on
e)
3
id ts
mo
re
or
12
00
∗6
Power supply terminal strip Earth terminal Drain outlet Chilled/hot water outlet Chilled/hot water inlet Name
4 r2
or 50 0
o
mo re
• Service space
m
3
o ore
o (Fr 0 20 r1
ide
)
mo
re
or
12
00
3VG21199
M16 (In switch box) M8 (In switch box) Rp 1 1/4 Female screw (6 Points) 5B (125A) Flange (HG20593-97) *SUS304 5B (125A) Flange (HG20593-97) *SUS304 Remarks
mo re or 50 0
s nt
Dimensions EDS55-801
UWYP200BY1 / UWYP400BY1
Main Data
Piping(inlet/outlet)
∗6
800
1500
1500
Compressor
Receiver Switch box
Receiver Compressor
∗6
∗6
800
800
647
1
2
75
100
3
1050
1220
1050
1050
7500
1050
1050
3
(Foundation bolt hole location(φ18))
(Hanger hole location)
5260 1050
∗ 7 . Refer to the foundation drawing for the foundation of this machine.
287
3
1050
1020 75
A
715
(Front Side)
(Suspention blaket point)
2053
2000
(Foundation bolt hole location(φ18))
663 1940
CL
200
or 0
50
Hanger Bore φ38
4
5
or
∗6
0
50
3
re
mo
14 (To edge of drain)
Control panel
mo re
or
m
5 4 3 2 1 No
0
50
• Service space
Detail A
Power supply intake (Side face)
Power supply intake (Bottom)
re
mo
Drain Hole of hanger
200
200 248 2456
1500
200 215
Switch box Receiver
98
Main Data 80
∗ 1 . As this unit is an integrated, it cannot be separated. ∗ 2 . Be sure to check water flow direction.(Inlet pipe:up side Outlet pipe:down side) ∗ 3 . The chillers with windbreak plate are required to have following service space from the edge of the plates. ∗ 4 . When conducting the cooling operation with the atmospheric temperature at 5º or under, install an optional windbreak plate if the unit is blown by winds of 10 m/s or higher. ∗ 5 . Be sure not to place water piping etc. When to overhaul a compressor, the chillers are required to have following service space(∗ 6) ∗ 6 . A water strainer has been built-in the chiller main body of this unit. The strainer needs a periodical maintenance.
on (Fr 0 20 r1
id ts
e)
m
ore
mo re or 50 0
or
00
( 24
n Fro
ts
) o re mo
3
ide
2 r1
Power supply terminal strip Earth terminal Drain outlet Chilled/hot water outlet Chilled/hot water inlet Name
o ore
∗6
mo re or 50 0
mo
re
ts on (Fr 00 12 or
3
12 ) ide re or mo
3VG21198
M16 (In switch box) M8 (In switch box) Rp 1 1/4 Female screw (6 Points) 5B (125A) Flange (HG20593-97) *SUS304 5B (125A) Flange (HG20593-97) *SUS304 Remarks
00
∗6
00
EDS55-801 Dimensions
UWYP220BY1 / UWYP440BY1
17
1
2
Piping(inlet/outlet)
∗6
800
1500
1500
Compressor
Receiver Switch box
Receiver Compressor
∗6
∗6
800
800
125
100
3
1100
1100
1100
7950
1100
1100
(Foundation bolt hole location(φ18))
(Hanger hole location)
4600
CL
3
1100
∗ 7 . Refer to the foundation drawing for the foundation of this machine.
287
3
1100
125
A
CL
(Front Side)
(Suspention blaket point)
2053
2000
1940
663
715
(Foundation bolt hole location(φ18))
CL
200
re
mo or
re
mo or
Hanger Bore φ38
∗6 or
3
0
50
14 (To edge of drain)
re
mo
Control panel
0
50
mo
o
5 4 3 2 1 No
re
∗6
ts on (Fr 0 20 r1
• Service space
Detail A
4
5
Power supply intake (Side face)
Power supply intake (Bottom)
Drain Hole of hanger
200
0
50
200 248 2456
1500
200 215
Switch box Receiver
98
18 80
∗ 1 . As this unit is an integrated, it cannot be separated. ∗ 2 . Be sure to check water flow direction.(Inlet pipe:up side Outlet pipe:down side) ∗ 3 . The chillers with windbreak plate are required to have following service space from the edge of the plates. ∗ 4 . When conducting the cooling operation with the atmospheric temperature at 5º or under, install an optional windbreak plate if the unit is blown by winds of 10 m/s or higher. ∗ 5 . Be sure not to place water piping etc. When to overhaul a compressor, the chillers are required to have following service space(∗ 6) ∗ 6 . A water strainer has been built-in the chiller main body of this unit. The strainer needs a periodical maintenance.
)
mo
re
or
CL
20
0
3
1 ) or ide re t s mo on (Fr 00 24
Power supply terminal strip Earth terminal Drain outlet Chilled/hot water outlet Chilled/hot water inlet Name
ide
mo re or 50 0
mo re or 50 0
mo
re
o
ts on (Fr 0 20 r1
ide
) mo
re
12
3
or
3VG21206
M16 (In switch box) M8 (In switch box) Rp 1 1/4 Female screw (6 Points) 5B (125A) Flange (HG20593-97) *SUS304 5B (125A) Flange (HG20593-97) *SUS304 Remarks
∗6
00
Dimensions EDS55-801
UWYP240BY1 / UWYP480BY1
Main Data
647
125
X-X Section
X
970 4-φ100hole Foundation bolt hole
Foundation drawing
2000
Water pipe side
200
150
Foundation bolt Design seismic intensity Q'ty Horizontal Vertical Size 4 1.0 2.0 M12 4 1.0 0.5
X
Power supply intake 830 170 170
Switch box 200 side 300 300
Main Data 970
2400
Detail of foundation bolt (
120 more or 120
part)
200 more or 200
3VG21224
1.Design seismic intensity of the present drawing is 1.0G for horizontal direction and 0.5G for vertical direction. and when design seismic intensity of the present drawing is 1.0 for horizontal and 0.5 for vertical direction, decide foundation bolt holes properly refering to the DWG about the center of grarvity. 2.The standard concrete mix proportion is as follows: cement:1,sand:2 and gravel:4.put φ10 reinforcing bars at an interval of approximately 300mm. 3.Level the surface with mortar finish.chamfer the concrete edges. 4.When setting the foundation on the concrete floor, rubble is not required. Be sure to roughen the concrete surface where the foundation is to be set. 5.When installing the unit on the rooftop,pay particular attention to the strength of the floor. Be sure to treat the surface with water-proofing material. 6.Provide drainage ditches as shown in the drawing to drain the water around the foundation.
Product dimensions
φ100
EDS55-801 Foundation
4. Foundation
UWYP40BY1 / UWYP50BY1 / UWYP60BY1
19
150
200
3x810(=2430)
125
X-X Section
Foundation drawing
Water pipe side
Foundation bolt Design seismic intensity Q'ty Horizontal Vertical Size 8 1.0 2.0 M12 4 1.0 0.5
X
200
685 300
170
φ100
120 more or 120
part)
200 more or 200
300
170
3VG21225
1.Design seismic intensity of the present drawing is 1.0G for horizontal direction and 0.5G for vertical direction. and when design seismic intensity of the present drawing is 1.0 for horizontal and 0.5 for vertical direction, decide foundation bolt holes properly refering to the DWG about the center of grarvity. X 2.The standard concrete mix proportion is as follows: 8-φ100hole cement:1,sand:2 and gravel:4.put φ10 reinforcing bars at an Foundation bolt hole interval of approximately 300mm. 3.Level the surface with mortar finish.chamfer the concrete edges. 4.When setting the foundation on the concrete floor, rubble is not required. Be sure to roughen the concrete surface where the foundation is to be set. 5.When installing the unit on the rooftop,pay particular attention to the strength of the floor. Be sure to treat the surface with water-proofing material. 6.Provide drainage ditches as shown in the drawing to drain the water around the foundation.
Detail of foundation bolt (
Product dimensions
Power supply intake
970
20 970
Switch box side
2850
Foundation EDS55-801
UWYP80BY1
Main Data
300
Size
200
Model UWYP100,120BY1 UWYP140BY1 UWYP160BY1 UWAP100,120BY1 UWAP140BY1 UWAP160BY1
X-X Section
L 4600 5150 5500 4600 5150 5500
Foundation drawing
Water pipe side 5xP(=L1)
Foundation bolt Design seismic intensity Q'ty Horizontal Vertical 12 1.0 2.0 M12 6 1.0 0.5
X
Switch box side
Product dimensions
300
P 840 930 1020 840 930 1020
12-φ100hole Foundation bolt hole
X
L1 4200 4650 5100 4200 4650 5100
348 170 170
200
125
Power supply intake
970 970
Main Data 300
L
120 more or 120
part)
200 more or 200
3VG21226
1.Design seismic intensity of the present drawing is 1.0G for horizontal direction and 0.5G for vertical direction. and when design seismic intensity of the present drawing is 1.0 for horizontal and 0.5 for vertical direction, decide foundation bolt holes properly refering to the DWG about the center of grarvity. 2.The standard concrete mix proportion is as follows: cement:1,sand:2 and gravel:4.put φ10 reinforcing bars at an interval of approximately 300mm. 3.Level the surface with mortar finish.chamfer the concrete edges. 4.When setting the foundation on the concrete floor, rubble is not required. Be sure to roughen the concrete surface where the foundation is to be set. 5.When installing the unit on the rooftop,pay particular attention to the strength of the floor. Be sure to treat the surface with water-proofing material. 6.Provide drainage ditches as shown in the drawing to drain the water around the foundation.
Detail of foundation bolt (
φ100
EDS55-801 Foundation
UWYP100BY1 / UWYP120BY1 / UWYP140BY1 / UWYP160BY1
21
Foundation bolt Design seismic intensity Q'ty Horizontal Vertical Size 16 1.0 2.0 M12 8 0.5 1.0
X
Water pipe side
Model UWYP180BY1 UWYP200BY1 UWYP220BY1 UWYP240BY1 UWAP180BY1 UWAP200BY1 UWAP220BY1 UWAP240BY1
L 6800 7250 7700 8150 6800 7250 7700 8150
X-X Section
Foundation drawing
7xP(=L1)
Switch box side
L1 6370 6790 7350 7700 6370 6790 7350 7700
200
P 910 970 1050 1100 910 970 1050 1100
200 348 170 170
300 300
φ100
Detail of foundation bolt (
120 more or 120
part)
200 more or 200
3VG21227
1.Design seismic intensity of the present drawing is 1.0G for horizontal direction and 0.5G for vertical direction. and when design seismic intensity of the present drawing is 1.0 for horizontal and 0.5 for vertical direction, decide foundation bolt holes properly refering to the DWG about the center of grarvity. 2.The standard concrete mix proportion is as follows: cement:1,sand:2 and gravel:4.put φ10 reinforcing bars at an interval of approximately 300mm. 3.Level the surface with mortar finish.chamfer the concrete edges. 4.When setting the foundation on the concrete floor, rubble is not required. Be sure to roughen the concrete surface where the foundation is to be set. 5.When installing the unit on the rooftop,pay particular attention to the strength of the floor. Be sure to treat the surface with water-proofing material. 6.Provide drainage ditches as shown in the drawing to drain the water around the foundation.
16-φ100hole Foundation bolt hole
X
Product dimensions
Power supply intake
970 970
22
300
L
Foundation EDS55-801
UWYP180BY1 / UWYP200BY1 / UWYP220BY1 / UWYP240BY1
Main Data
125
Th15
Th14
MF14
MF13
Compound gauge
∗12
Pressure gauge
MF12
MF11
MF16 ∗Note 4
Th6
MF15 ∗Note 4
63L1 63H1 Safety device Safety device SENH1 SENL1 Pressure sensor Pressure sensor
Main Data
Th4 Sound absorber
74M1
Sound absorber
20M12-2
20R18-2
20M12-1
20R18-1
20R16-3
20R11
49C1
Heat exchanger (Air side) Th5
20R16-2
20S11
20S13 20S12
20S14
Compressor
∗11
4 Way valve
∗12
20R16-1
Refrigerant charge port
Receiver
∗11
Th12
Refrigerant recovery port
20R19
∗Note 3
Th10
Th3
MF 16
MF 15
63WL Th1
Chilled/Hot water outlet
Chilled/Hot water inlet
∗Note 5
∗Note 4
4 Way valve Capillary tube Check valve Flare commection Fusible pulg Moisture indicator Drier Filter Heat expansion valve
Th2
Heat exchanger (Water side) Strainer
SW BOX
MF 14
MF 13
2.
3VG21218
Electronic expansion valve Flange connection Stop valve Press relif valve Solenoid valve Refrigerant name and flow 3. 20R14-1: UWYP40BY1 don't use. 20R14-2: UWYP40BY1,UWYP50BY1 don't use. 20R14-3: UWYP40BY1,UWYP50BY1 ,UWYP60BY1 don't use. 4. MF15, MF16: UWYP80BY1 don't use. 5. 63WL: No water protector
Notes: 1. Refrigerant flow Cooling Heating
20M11-2
20M11-1
20R14-2
20R14-1
20R14-3
MF 12
MF 11
<Fan motor layout>
EDS55-801 Piping Diagrams
5. Piping Diagrams
UWYP40BY1 / UWYP50BY1 / UWYP60BY1 / UWYP80BY1
23
Compound gauge
∗12
Pressure gauge
Th15
Th14
MF12
MF11
63H1 Safety device SENH1 Pressure sensor
63L1 Safety device SENL1 Pressure sensor
MF14
MF13
20M12-2
20R18-2
20M12-1
20R18-1
Sound absorber
74M1
Th4 Sound absorber
∗Note 4
MF16
Th6
∗Note 4
MF15
49C1
20R11
Compressor
11
MF 21
MF 22
∗Note 3 20R24-1
20R24-3
Th13
20M21-2
20R24-2 20M21-1
∗Note 3
∗21
Refrigerant recovery port
20R29
63WL Th1
20S24
Chilled/hot water outlet
Chilled/hot water inlet
∗Note 5
20M22-2
20R28-2
20M22-1
20R28-1
MF25
MF26
MF24
Th7 Sound absorber
Sound absorber
∗Note 4
Th9
MF23
MF22
MF21
Heat exchanger (Air side)
∗Note 4
Th8
Notes: Compressor 1. Refrigerant flow 74M2 4 Way valve Cooling: Check valve Heating: Flare commection Electronic expansion valve 2. Fusible pulg Flange connection Moisture indicator Stop valve 20R21 Press relif valve Drier Filter Solenoid valve Heat expansion valve Refrigerant name and flow 3. 20R14-2: UWYP100BY1 don't use. 20R24-2: UWYP100BY1 don't use. 20R14-3: UWYP100BY1,UWYP120BY1 don't use. 20R24-3: UWYP100BY1,UWYP120BY1,UWYP140BY1 don't use. 4. MF15, MF16: UWYP140BY1,UWYP160BY1 don't use. MF25, MF26: UWYP160BY1 don't use. 5. 63WL: Water interruption Relay (Option)
∗21
20R26-2
∗22
20R26-1
Refrigerant 20R26-3 charge port
Receiver
Th2
20S21
Th10 Th11
20S11
Th12
20M11-2
20M11-1
20R14-2
20R14-1
20R14-3
MF 23
MF 24
20S23 20S22
Refrigerant recovery port
20R19
MF 25
MF 26
Strainer
20S13 20S12
20S14
∗11
20R16-2
Refrigerant charge port
∗12
20R16-1
20R16-3
Receiver
MF MF 14 16 SW BOX Th3
MF 12
MF 15
MF 13
MF 11
Heat exchanger (Water side)
49C2
∗Note 4
Pressure sensor Pressure sensor
<Fan moter layout>
SENH2 Safety device 63H2
24 SENL2 Safety device 63L2
Heat exchanger (Air side) Th5
3VG21219
Compound gauge
∗22
Pressure gauge
Th17
Th16
Piping Diagrams EDS55-801
UWYP100BY1 / UWYP120BY1 / UWYP140BY1 / UWYP160BY1
Main Data
MF12
MF11
MF 16
MF 14
MF 12
SW BOX
MF 15
MF 13
MF14
MF13
MF 11
Compound gauge
∗12
Pressure gauge
Th15
Th14
SENH1
SENL1
Th3
MF15
MF16
Sound absorber
20R18-1
20M12-2
20R18-2
20M12-1
20R11
49C1
MF 25
MF 26
MF 23
MF 24
MF 21
MF 22
<Fan motor layout>
74M1
Th4 Sound absorber
∗Note 4
Th6
∗Note 4
Th5
MF 32
MF 31
∗Note 4
Th13
20M21-2
Refrigerant recovery port
20S24
Th3-3
MF 36
∗22
Notes: 1. Refrigerant flow Cooling: Heating: Electronic expansion valve 2. Flange connection Stop valve Press relif valve Solenoid valve Refrigerant name and flow
Compressor
∗21
20R26-2
20R26-1
Refrigerant 20R26-3 charge port
Receiver
20S21
Th12
20M11-2
20R24-1
20R14-3
20R24-2 20M21-1
∗Note 3
20R29
20S23 20S22
MF 35
∗Note 3
20M11-1
20R14-2
20R14-1
20R14-3
∗21
20S11
SW BOX
MF 34
MF 33
Compressor
∗11
Refrigerant recovery port
∗11
Th2
20S13 20S12
20S14
20R16-2
Refrigerant charge port
∗12
20R16-1
20R16-3
Receiver
20R19
Th11
Th10
63WL
49C2
20R21
MF25
MF26
74M2
MF24
MF23
Th7 Sound absorber
Sound absorber
∗Note 4
Th9
∗Note 4
MF22
MF21
Drier Filter Heat expansion valve
4 way valve Check valve Flare commection Fusible pulg Moisture indicator
20M22-2
20R28-2
20M22-1
20R28-1
Th8
Compound gauge
∗32
Pressure gauge
Th15-3
Th14-3
MF32
MF31
MF34
MF33
MF35
Th4-3 Sound absorber
74M3
20R38-1
20R38-2
20M32-1
20M32-2
Sound absorber
Th6-3
∗Note 4
MF36
∗Note 4
Th5-3
Heat exchanger (Air side)
20R31
49C3
Compressor
∗31
20S31
20S33 20S32
20S34
20R36-2
Refrigerant charge port
∗32
20R36-1
20R36-3
Th2-3
Th1-3
63WL
∗Note 5
Refrigerant recovery port
Th12-3
20M31-2
20M31-1
∗Note 3
∗31
20R34-2
20R34-1
Receiver
20R39
Heat exchanger (Water side) Th10-3
Chilled/hot water inlet Chilled/hot water outlet
3VG21220
3. 20R14-3: UWYP180BY1 don't use. 20R24-3: UWYP180BY1,UWYP200BY1 don't use. 4. MF15, MF16: UWYP200BY1,UWYP220BY1,UWYP240BY1 don't use. MF25, MF26: UWYP220BY1,UWYP240BY1 don't use. MF35, MF36: UWYP240BY1 don't use. 5. 63WL: Water interruption Relay (Option)
Compound gauge
∗22
Pressure gauge
Th17
Th16
Heat exchanger (Air side)
Pressure sensor Pressure sensor
Th1
63H2 63L2
∗Note 5
SENH2 Safety device SENL2 Safety device
Heat exchanger (Water side)
63H3 Safety device 63L3 Safety device
Heat exchanger (Air side)
Pressure sensor
Pressure sensor
63H1 Safety device
63L1 Safety device
Pressure sensor
Strainer
SENH3 SENL3
Main Data Pressure sensor
Strainer
EDS55-801 Piping Diagrams
UWYP180BY1 / UWYP200BY1 / UWYP220BY1 / UWYP240BY1
25
Piping Diagrams
26
EDS55-801
Main Data
Main Data
LED402 LED400
LED401
FuU
52C1 52F11-14 52F15,16 63H1 63L1 74M1 BS11 CH1 CN 1-47 CN101 102 CT1 EC1 EC2 EC3 EC5 EC7 Fu1 FuR1 S1 FuR2 S2 FuR3
51F15,16
20R19 20S11-14 20SX1.30FX1 42C1 47 49C1 51C1 51F11-14
20R18-1.2
20R16-1,2 20R16-3
20R14-3
20R14-2
20R14-1
MF 14
UV W
52 F14 51 F14
MF 15
UV W
52 F15 51 F15
MF 16
MF 11
UV W
MF 12
UV W
MF 13
UV W
51 F14
MF 14
UV W
51 F13
52 F13
51 F12
52 F12
51 F11
52 F11
52 F14
UV W
52 F16 51 F16
N F
FuU 20 21 22 23 24
Tr2
U-Yellow
W-Red
X-Red
Y-Yellow
Z-Green
EH FAN-ON MCCB1 MCCB2 MP NLN SS1 SS2 TH-STR1 TH-STR2 TH-STR3
Electronic heater (Water heating) Forced fan operation input contact Circuit breaker Leakage circuit breaker Motor(Pump) Low noise operation during night time input contact Selector switch(Test/Operation) Selector switch (Normal/Short) Heat storage operation contact Heat storage operation contact Heat storage operation contact
Microcomputer normal monitor (Normal: Green light flash) Malfunction monitor (Normal: Red light off) LED2 Motor (Compressor) MC1 Motor (Fan) MF 11-14 Motor (Fan) Only UWYP80BY1 MF 15,16 NF Noise filer R1 Resistor Pressure sensor(High) SENH1 Pressure sensor(Low) SENL1 Surge killer SK1,2 Selector switch (Cooling/Heating) SS11 Selector switch(HPS Test/Operation) SS12 Selector switch(MF interlock test) SS13 Terminal strip(Power) TeS1 Terminal strip(Fan) TeS2 Termistor(Water inlet) Th1 Termistor(Water outlet) Th2 Termistor (Ambient) Th3 Termistor(Discharge gas) Th4 Thermistor (Heat exchanger/rear) Th5 Thermistor (Heat exchanger/front) Th6 Thermistor (Refrigerant temperature) Th10 Thermistor (Cooling / suctionpipe) Th12 Thermistor (Heating/suction pipe 1) Th14 Thermistor (Heating/suction pipe 2) Th15 Transformer Tr1,2 Optional accessories - Field supply 23WH Thermal regulator (EH) 26WH Thermal switch (Overheat prevention) 51P Over current relay (Pump) 52H Magnetic contactor(EH) 52P Magnetic contactor(Pump) 63WL Pressure switch(Water interruption protector) AXP Pump interock contact BRC307D Remote controller DMND Demand input contact
LED1
V-Green
FuS1
FuR1
X7
CN102
(53)
1 9
(51)
12
X5
EC7
20 SX1 8 12
11
X6
X4
103 (57)
MF 14 MF 16
MF 15
1 3
FuR3
MF 14
MF 12
Tes1
Switch box
MF 13
MF 11
Earth
42C1
6C1
In case of UWYP40,50,60BY1
Switch box
MF 13
MF 12
101 MF 11
Fan motor layout In case of UWYP80BY1
(50)
CN17
20 SX1 TeS2 (54)
TeS2
CN101 20 20 20 20 S13 S14 S12 S11 11 X3 X1 X2 X1 Fu1 EC7 CH1 10 14 CN102 CN101 TeS2
52 C1
100
171
31 32
In case of UWYP40BY1,UWYP50BY1,UWYP60BY1
EH
52H
Magnetic contactor (MC-1) Electronic expansion valve(Cooling) Electronic expansion valve (Heating) Solenoid valve (Unloader) Solenoid valve(for refrigerant regulation) Only UWYP50,60,80BY1 Solenoid valve (for refrigerant regulation) Only UWYP60,80BY1 Solenoid valve (for refrigerant regulation) Only UWYP80BY1 Solenoid valve (Economizer) Solenoid valve (Injection) Solenoid valve (for refrigerant regulation, heating) Only UWYP 50, 60,80BY1 Solenoid valve (for refrigerant regulation, suction) Solenoid valve (for four-way valve) Magnetic relay Magnetic contactor(MC ) 3-phase asymmetry,phase sequence, phase loss relay Thermal switch(MC) Over current relay(MC) Over current relay(MF) Over current relay(MF) Only UWYP80BY1 Magnetic contactor(MC) Magnetic contactor(MF) Magnetic contactor(MF)Only UWYP80BY1 High pressure switch Low pressure switch Slide valve(Capacity control) Push button switch(Manual defrost) Crankcase heater Connecter Connecter Current transformer Printed circuit board(Electric source) Printed circuit board(A-Board) Printed circuit board(Control panel) Printed circuit board(Extended I/O) Printed circuit board Fuse (250V, 1A) Fuse (250V, 5A) Fuse (250,3A or 3.15A) Fuse (250,3A or 3.15A) Fuse (500V, 10A) Control panel communication normal monitor (Normal: Green light flash) Power supply display monitor (Normal: Green light) Microcomputer normal monitor (Normal: Red light flash)
51P
T-Red
MP
UV W
52P
(WITH AX)
MCCB2
RST
RST
MCCB1
To power supply
To power supply
6C1 20M11-1.2 20M12-1.2 20R11
EC5
Note 6-7)
Note 6-1)
S-Green
CN7
3
MF 13
UV W
52 F13 51 F13
In case of UWYP80BY1
MF 12
R1
UV W
52 F12 51 F12
MF 11
R-Yellow
1
52 F11 51 F11
UV W
6C1
YZ X
42 C1
(U1) (V1) (W1)
MC1
UV W
51 C1
52 C1
(U2) (V2) (W2)
47
(U3) (V3) (W3)
(U1) (V1) (W1)
172
R1
51C1
52C1
CN3
CN16
52 F13 51 F13
20SX1
52 F15 51 F15
52 F12 51 F12
In case of UWYP80BY1
52 F14 51 F14
52 F11 51 F11
Tr2 30FX1
52 F16 51 F16
20 M12-1
20 M11-1
(39)
20 M12-2
5432 1
CN4 12345
LED2
EC5
(40)
(41)
TeS2
(42)
EC1
BS11 SS11 SS12 SS13
Control panel
EC3
(EC2)
A - board
(Electric source)
EC1
52 F14 51 F14
52 F12 51 F12
9
5
6C1
52 H
6-7) (S Phase)
(45) Note 6-1)
52 P
SS1 51 P
(R Phase)
(38) (39) (40) (41)
(37) (42)
Terminal for remote display
7
CN1
20 SX1
Continuous
20 R11
CN101
2 5 3
9
5
9
7
CN15
CN101
9
2
9
7
3
2
4 1 CN17
Note 3
11 14
20 R14-3
20 R14-2
4 CN101
7
20 R14-1
4
47
TeS2
9
7
SS2
2
3
9
7
20 R14-1
20 R14-2
4 CN101
52 F11
52 F12
7
52 F13
2
3
52 F14
52 F15
4
11
52 F16
SK1
code
8
CN7 3
3 2
DMND
FAN-ON
52 F12
1
7
52 F13
11
52 F14
2
3
Photo
Manual defrost
BS11
6 3
11
SK1
1
3
5
Note 4
52F11
4
1
(N)
(P)
CN26 2 4
LED402
1 3 CN42
(F1)
(10) (11)
-
DC4 ~ 20mA
8
CN21
(F2)
TeS2
5
LED400
7
9
7.Field wriring 1) In case of attaching the water circulation pump, add SS3 and 52P between Tes2(45) and (47) as shown by ( ). When pump is installed outside the unit, the circuit breaker (MCCB1) is necessary. In addition, provide open contact of 52P and auxiliary (AX) of MCCB1 on AXP circuit in series. 2 )In case of attaching pressure switch (water interruption protector), remove the jumper between Tes(16) and (17), and add 63WL as shown by ( ). 3) In case of attaching external heat-storage operation contact, add the TH-STR1~3 between Tes2(24) ~ (29). Refer to operation manual about the connecting method. 4) In case of attaching low noise operation during night time input contact, add the NLN between Tes2(30) and (31). Refer to operation manual about the connecting method. 5) In case of attaching demand input contact, add DMND between Tes2(32) and (33). Refer to operation manual about the connecting method. 6) In case of attaching forced fan operation input contact, add the FAN-ON between Tes2(32) and (34). Refer to opertion manual about the connecting method.
7) In case of attaching the electronic heater (EH), remove the wiring between TeS2(14)~(15), and add 23WH between TeS2(12)~(13), 26WH between TeS2(14)~(15), 52H between TeS2(45)~(46). The leakage circuit breaker (MCCB2) between the power supply and 52H is necessary. 8) In case of attaching short defrost interval contact, add SS2 between TeS2(18)~(19).
In case of malfunction the units continue operations with malfunction display, The malfunction display of is displayed only in case of field wiring.
10
(1) (2) (35) (36)
RESET TeS2
Note 2
AXP
Remote Central controller remote (BRC307D) controllers
8
7
27
Wiring Diagrams
Note 4 Terminal for remote control (Temperature setting DC 4~20mA)
Compressor motor overheat Compressor overload Fan motor overload (51F11-16) EV malfunction Discharge gas overheat Ambient temperature thermistor malfunction Current transformer malfunction Discharge gas thermistor malfunction Thermistor (suction,cooling) malfunction Heat exchanger (rear) thermistor malfunction High pressure sensor malfunction Low pressure sensor malfunction Faulty reverse or open phase Control panel malfunction Transmission error between chiller and remote controllers Code for remote control temperature setting broken Transmission error between chiller and centralized remote controllers Extended I/O malfunction
table
6
LED401
4 5 CN20
coupling
SS11
1
2
In case of UWYP40BY1,UWYP50BY1,UWYP60BY1
52 F11
7
10 9
(3) (4) (5) (6) (7) (8) (9)
+
Note 4 Terminal for remote control (When set to non-voltage input) Cooling
Caution Do not input a voltage signal between (1) and (2) (AXP),cooling/heating input (8) and (9). This can demage the circuit.
Control panel
1
CN12 2
SS12
6 7 CN19
Note 5
5
In case of UWYP80BY1
3
NLN
TeS2
(24) (25) (26) (27) (28) (29) (30) (31) (32) (33) (34)
In case of UWYP60BY1
CN101
CN7
SS13
1
13
Note 6-3)~6)
(3) (4) (5) (6) (7)
DC24V
Note 4 Terminal for remote control (When set to voltage input)
TH-STR1 TH-STR2 TH-STR3
1 2 3 4 1 CN18
(20) (21) (22) (23)
30 8 FX112
3
(18) (19)
Individual
In case of UWYP50BY1
CN101
20 R14-1
In case of UWYP80BY1 4 CN101
20 R19
SK1
CN6
EC2
1 3
In case of UWYP40BY1
CN101
20 R16-2
4 CN101
20 R16-1
CN13
CN101
6
26WH
(12) (13) (14) (15)
23WH
Note 6-8)
ON: heating OFF: cooling
ON: heating OFF: cooling
Cooling/heating input
Fan interlock malfunction Inlet water temperature thermistor malfunction Outlet water temperature thermistor malfunction Thermistor (refrigerant) malfunction Heat exchanger (front) thermistor malfunction Plate heat exchanger over cooled Thermistor (suction, heating, rear) malfunction Thermistor (suction, heating, front) malfunction Water overheat AXP malfunction Water interruption Slide valve malfunction CN13 Jumper broken Inverter malfunction Heater overheat High pressure malfunction Low pressure malfunction
7 In case of UWYP40BY1
4
6
CN5 7
52C1
coupling
SK1
30 FX1
103
13 CN101 7 CN102 CN101 In case of UWYP50BY1, UWYP60BY1,UWYP80BY1
20 R18-2
10
4 CN102 5 20 R18-1
11
Photo
4
7
13 3
1
51F16
51F15
51F14
51F13
51F12
Note 6-7)
Operation by ON Stop by OFF
(Contact a)
Input B OFF signal
(Contact a)
Short defrost interval
ON signal
Input A
NOTE) 1. : Printed circuit board :Tab terminal : Terminal : Connetor : Field wiring : Jumper 2.Add interlock contact (AXP) for the water circulating pump between Tes2(1) and (2) as shown by ( ). 3.Set SS13 to ’OPERATION’ continuously except confirming for interlocking with MF. 4.Remote operation can be done by optional remote controller,central remote controllers or remote circuit. Make use of Tes(N)~(P) when using remote controller,(3)~(11) when using remote circuit. (F1)~(F2) when using central remote controllers. Refer to operation manual about the connecting method of remote controller. When set to voltage input, do not short circuit between Tes(3) and (4). Refer to operation manual about the setting and the connecting method of remote circuit and central remote controllers. 5.Set SS14 to ’BOTH SYSTEMS’ continously except especialy case (for example, testing for HPS). 6.Set SS12 to ’OPERATION’ continously except testing for HPS.
20 R16-3
3
1
CN4
Photo coupling
CN14
2
coupling
3
CN 101 1
1 3 2 4
8
CN 101
H
51C1 49C1
1 4
6
100
11 13
(46) (47)
7
Photo
3
5
63H1 TeS2
(16) (17)
63WL
Note 6-2) L
15
Note 4
103
CN10
12
2 5
63L1 CN 101
CN16
6 42 C1 C1
3
12 CN47
Th10
52C1 42C1
30 FX1
1
UWYP40BY1, In case of UWYP50BY1, UWYP60BY1
52 F13 51 F13
52 F11 51 F11
(EC3)
Control panel
Tr1
(Electric source)
Control panel
Tr1
(38)
5 9
SK2 SK2 SK2
Detail of the control panel’s back side
5432 1 20 M11-2
(48)
Terminal for remote display Note 4
(37)
CN3 12345
LED1
CN11
1234
Extended I/O (EC5)
5432 1
5432 1
OFF CN2 12345
DS1 DS2 1 2 ON
12
NF
Th15
CN1
CN1 12345
EC5
FuR1 FuS1
47
FuU
CN6
Switch box
Tes2
74M1
CN102
CT1
132
135
CN14
CN13
CN5
1 2 CN15
Th14 1 2
EC3
1 2
Tr1
5
Th12
135
Th1 Th2 Th3 Th4 Th5 Th6
134 234 12 12 13 12 12 12 CN27 CN28 CN29 CN30 CN31 CN34 4 CN32 CN33 CN5 CN9 CN1 FuR2 CN2 CN11 5 R 1 5 S 3 3 3 1 1 5 FuS2 CN2 CN3 7 8 CN22 CN6 CN41 2 3 CN40 10 11 12 13 5 3 1 1 3 5 7 CN3 CN4 CN7
EC1
SENH1 SENL1
118 117 116 115 114
51F13 In case of UWYP80BY1 51F14 51F11 (S Phase)
51F12
51F11
UWYP40BY1 In case of UWYP50BY1 UWYP60BY1
116 115 114
Input
Instantaneous
Normal
MF interlock test
(R) (S) (T)
CT1
L1 L2 L3
(U4) (V4) (W4)
(U2) (V2) (W2)
105
(U5) (V5) (W5)
(U3) (V3) (W3)
106 107
(U6) (V6) (W6)
(U4) (V4) (W4)
Operation
TeS1
red black white yellow blue orange
109
RST
Heating ON
110
3-phase 380/400/415V 50Hz
Unit operation
Test
112 108
Input
A
UWYP40BY1 / UWYP50BY1 / UWYP60BY1 / UWYP80BY1
Cooling/Heating input
Heating
B
111
Input
A
6. Wiring Diagrams
Defrost operation
HPS Test
111
Input
B
EDS55-801
System defective malfunction
Cooling
Operation
109 110
Heating
28
EC6
EC5
T-Red
6 C2
MF 12
MF 11
W-Red
SS11 SS12 SS13 SS14 TES1 TES2 Th1 Th3 Th2 Th4 Th5 Th6 Th7 Th8 Th9 Th10 Th11 Th12 Th13 Th14 Th15 Th16 Th17
51 F15
51 F14
MF 14
51 F21
51 F16
MF 21
UV W
MF 22
UV W
Microcomputer normal monitor (Normal: Green light flash)
LED1
Fuse (250,3A or 3.15A) Fuse (500V, 10A) Control panel communication normal monitor (Normal: Green light flash)
TH-STR1 TH-STR2 TH-STR3
DMND EH FAN-ON Printed circuit board (No.2 Extended I/O) MCCB1 MCCB2 Printed circuit board (Relay) MP Fuse (250V,1A) NLN Fuse (250V,5A) SS1 Fuse (250,3A or 3.15A) SS2 Fuse (250,3A or 3.15A)
Printed circuit board (A - board) Printed circuit board (Control panel) Printed circuit board (B - board) Printed circuit board (No.1 Extended I/O)
BRC307D
23WH 26WH 51P 52H Connector Remote controller Only UWYP140,160BY1 52P 63WL Current transformer Printed circuit board (Electric source) AXP
Crankcase heater Connector Connector
51 F22
52 F22
MF 14
MF 13
MF 16
MF 15
MF 23
Thermistor (No.1 Refrigerant temperature)
Thermistor (No.2 Discharge gas) Thermistor (NO.1 Heat exchanger/rear) Thermistor (NO.1 Heat exchanger/front)
Thermistor (NO.1 Heat exchanger/rear) Thermistor (NO.1 Heat exchanger/front)
Selector switch (HPS test / operation) Selector switch (MF interlock test) Selector switch (System) Terminal strip (Power) Terminal strip (Fan) Thermistor (Water inlet) Thermistor (Water outlet) Thermistor (Ambient) Thermistor (No.1 Discharge gas)
Malfunction monitor (Normal: Red light off) Motor (Compressor) Motor (Fan) Motor (Fan) Only UWYP140,160BY1 Motor (Fan) only UWAP160BY1 Noise filter Resistor Pressure sensor (No.1 High) Pressure sensor (No.2 High) Pressure sensor (No.1 Low) Pressure sensor (No.2 Low) Surge killer Selector switch (Cooling/Heating)
MF 21
MF 22
51 F25
52 F25
MF 25
UV W
51 F26
52 F26
20 21 22 23 24
Tr2
(42)
(43)
(38) (48) (39) (40) (41) (44)
(37)
Note 4 Terminal for remote display
47
FuU
EC6 (Extended I/O)
EC5 (Extended I/O)
FuR1 FuS1
Inlet water temperature thermistor malfunction Outlet water temperature thermistor malfunction Plate heat exchanger over cooled Water overheat AXP malfunction Water interruption Heater overheat Ambient temperature thermistor malfunction Faulty reverse or open phase Control panel malfunction Transmission error between chiller and remote controllers Code for remote control temperature setting broken Transmission error between chiller and centralized remote controllers
OL1.OL2 On
FuU
only UWYP160BY1(2)
MF 26
UV W
N F
Heat storage operation
100
EC7 20
S12
(55)
EC8 S22
X6 20
3
132
EC1 (Electric source)
135
B - board (EC4)
A - board (EC2)
74M1
CN5
CN6
No.1 Fan interlock malfunction No.1 Thermistor (refrigerant) malfunction No.1 Heat exchanger (front) thermistor malfunction No.1 Slide valve malfunction CN13 Jumper broken (EC2) No.1 Inverter malfunction No.1 High pressure malfunction No.1 Low pressure malfunction No.1 Compressor motor overheat No.1 Compressor overload No.1 Fan motor overload (51F11~16) No.1 EV malfunction No.1 Discharge gas overheat No.1 Current transformer malfunction No.1 Discharge gas thermistor malfunction No.1 Thermistor (suction,cooling) malfunction No.1 Heat exchanger (rear) thermistor malfunction No.1 High pressure sensor malfunction NO.1 Low pressure sensor malfunction NO.1 Extended I/O (EC5) malfunction NO.1 Thermistor (suction, heating, rear) malfunction NO.1 Thermistor (suction, heating, front) malfunction
OL1 On
CN1 12
NF
CN16
CN3
1234 CN11
(48)
(38)
(39)
6C1
42C1
20 M12-2
R1
5432 1
CN4 12345
LED2
EC5
(40)
51C1
52C1
CT1
Terminal for remote display
(37)
NO.2 Compressor motor overheat NO.2 Compressor overload NO.2 Fan mater overload (51F21~26) NO.2 High pressure malfunction NO.2 Low pressure malfunction NO.2 Low pressure sensor malfunction NO.2 High pressure sensor malfunction NO.2 Fan interlock malfunction No.2 Current transformer malfunction NO.2 Thermistor (refrigeramt) malfunction NO.2 Heat exchanger (front) thermistor malfunction NO.2 Discharge gas thermistor malfunction NO.2 Discharge gas overheat NO.2 EV malfunction NO.2 Thermistor (suction,cooling) malfunction NO.2 Slide valve malfunction CN16 Jumper broken (EC4) NO.2 Inverter malfunction NO.2 Heat exchanger (rear) thermistor malfunction NO.2 Extended I/O (EC6) malfunction NO.1 Thermistor (suction, heating, rear) malfunction NO.1 Thermistor (suction, heating, front) malfunction
OL2 On
Earth
20 M11-2
20 M12-1
Tes1
5432 1
5432 1
20 M11-1
CN3 12345
LED1
5432 1
OFF CN2 12345
DS1 DS2 1 2 ON
TH15
EC3
5
3
3
1 1
CN3
CN2 7
Tes2
5 9
42C2
6.
5.
3. 4.
2.
1.
1 2
74M2
R2
52 F12 51 F12 52 F22 51 F22
52 F21 51 F21
20 SX2
52 F14 51 F14 52 F24 51 F24
52 F13 51 F13 52 F23 51 F23
52 F16 51 F16 52 F26 51 F26
52 F15 51 F15 52 F25 51 F25
20 R18-1
20 R14-1
4 CN101
CN101
Control panel
EC3
Control panel
EC1 Electric source
20 M22-2
5432 1
CN4 12345
LED2
BS11 SS11 SS12 SS13 SS14
Tr1
20 M21-2
5432 1
CN3 12345
SK1
9
20 R16-1
6
7
CN5
Photo
4
10 13
11
1
CN13
51F16
51F15
51F14
51F13
51F12
2 5 3
52C1
CN101
20 R16-2
CN6
7 9
52C2
1
20 R14-1
42C2
6 C2
5
2
TeS2
20 R14-2
6C2
9
CN7
Note 3
20 R14-3
20 R14-2
42 C2
5 9
30 FX2
11
5 7
63L2
Photo
CN12
12
5
2
3
8 12
30 FX1
SS13
1
13
52 F12
52 F13
52 F11
52 F14
3
CN7
52 F12
SK1
8
6
20 R28-1
4
1
5
3
CN202
20 R28-2
coupling
1
5
1
CN201
20 R26-3
3
3
CN4
2
52 F15
11
52 F16
3
SK1
4
CN12
5
SS12
DMND
CN201
4
3
CN2
2
Manual
20 R24-2
9
1
coupling
5 3
52C2
51F24
20 R26-1
6
5
6
CN201
CN201 20 R24-1
Only
20 R26-2
CN201
2
Note 5
20 R24-2
CN201 7
1
1
SS11
5
1
20 R29
2
5
20 SX2
Note 3
3
CN11
No.2
3
3
8
6
7
1 3 CN42
5
TeS2
6
8 12
6
SS13
30 FX2
4
52 F21
1
CN6
CN17
52 F21
52 F22
52 F23
52 F22
52 F24
52 F23
3
SK1
52 F24
5
SK1
3
5
6
(43) (44)
3
10
TeS2
6
CN8
CN3 1
CN46
9
Terminal for remote display Note 4
3
5
CN21
LED400
8
In case of UWYP160BY1(2)
52 F26
CN1
1
CN45 1
52 F25
In case of UWYP100BY1 UWYP120BY1,UWYP140BY1(2)
5
Control panel
9
5
52F21
7
(1) (2) (35) (36)
RESET TeS2
AXP
-
DC4 ~ 20mA
(10) (11)
LED402
(N) (P) (F1) (F2)
1
CN26 2 4
LED401
4 5 CN20
+
Central Note 4 Remote controller remote (BRC307D) controllers SS14
1 3
EC4
4
No.1
52F11
4
2
(N) (P)
Control panel
CP1 UWYP140BY12 UWYP160BY12
Control panel
In case of
2
3
51F22 UWYP100BY1 51F23 UWYP120BY1 UWYP140BY1(2)
51F21
7
coupling
Photo
BS11
3
CN201 7 In case of UWYP160BY1(2) 4 CN201 9 4 9
20 R24-2
4 CN201 20 R24-1
20 R24-1
7
30 FX2
CN16
Photo
51F26
51F25
1
6
11 1
(3) (4) (5) (6) (7) (8) (9)
10 9
Note 6 defrost
2
2
8
7 In case of UWYP100BY1 In case of UWYP120BY1 UWYP140BY1(2)
13
20 R21
10
1
TeS2
NLN
(7)
6 7 CN19
3
51F23 (S Phase) 103 51F24
51F22
51F21
In case of UWYP160BY1(2)
1
(6)
Caution Do not input a voltage signal between (1) and (2) (AXP). Cooling/heating input (8) and (9). This can demage the circuit. Note 4 Note 4 Terminal for remote control Terminal for remote control (Temperature setting DC 4~20mA) (When set to non-voltage input) FAN-ON Note 2
(24) (25) (26) (27) (28) (29) (30) (31) (32) (33) (34)
In case of UWYP140BY1(2) UWYP160BY1(2)
52 F14
coupling
4
CN 201
49C2
CN15 3 2
51C2
Photo
1
CN202
H
CN 201
3
63H2 L
2
52 F13
7
(5)
TH-STR1 TH-STR2 TH-STR3
1 2 3 4 1 CN18
(20) (21) (22) (23)
In case of UWYP100BY1 UWYP120BY1
52 F11
CN 201 15 5
CN5
3
(18) (19)
(4)
Note 7-3)~6)
(3)
DC24V
Note 4 Terminal for remote control (When set to voltage input)
EDS55-801
Main Data
7.Field wriring 6) In case of attaching forced fan operation input contact, add the FAN-ON between Tes2(32) and (34). 1) In case of attacting the water circulation pump, add SS3 and 52P between Refer to opertion manual about the connecting method. Tes2(45) and (47) as shown by ( ). 7) In case of attaching the electronic heater (EH), When pump is installed outside the unit, the circuit breaker (MCCB1) is remove the wiring between TeS2(14)~(15), necessary. In addition, provide open contact of 52P and auxiliary (AX) of and add 23WH between TeS2(12)~(13), MCCB1 on AXP circuit in series. 26WH between TeS2(14)~(15), 2) In case of attaching pressure switch (water interruption protector), remove the 52H between TeS2(45)~(46). jumper between Tes(16) and (17), and add 63WL as shown by ( ). The leakage circuit breaker (MCCB2) between the power supply 3) In case of attaching external heat-storage operation contact, add the and 52His necessary. TH-STR1~3 between Tes2(24) ~ (29). 8) In case of attaching short defrost interval contact, Refer to operation manual about the connecting method. add SS2 between TeS2(18)~(19). 4) In case of attaching low noise operation during night time input contact, add the NLN between Tes2(30) and (31). Refer to operation manual about the connecting method. 5) In case of attaching demand input contact, add DMND between Tes2(32) and (33). Refer to operation manual about the connecting method.
SK2 SK2 SK2
11 14
SS2
Note 7-8)
ON: heating OFF: cooling
Cooling/heating input ON: heating OFF: cooling
4 2 4 1 CN17
47
EC2
4 CN101
7
CN15
20 R14-1
6 1 3
9 3
26WH
(12) (13) (14) (15)
23WH
Note 7-7)
Input B OFF signal (Contact a)
In case of UWYP140BY1(2) UWYP160BY1(2) 4 CN101
CN101
20 R19
SK1
coupling
CN101
30 FX1
103
Operation by ON Stop by OFF
Input A ON signal (Contact a)
7 9 In case of In case of UWYP100BY1 UWYP120BY1 EC6 7 9
CN101
20 R18-2
only UWYP160BY1(2)
only UWYP140BY1(2) UWYP160BY1(2)
30 FX2
20 M22-1
20 SX1
5432 1
20 M21-1
CN2 12345
5432 1
30 FX1
CN1 12345
LED1
1234
7
4 CN102 5
7 CN102 CN101
CN11
OFF
CN4
Photo coupling
20 R11
2
1 3 2 4
CN14
1
CN 101
51C1 49C1
13 3
CN16
20 R16-3
3
1
1 2
20 SX1
3
8
CN15
52 F11 51 F11
Tr2
CN1
H
CN 101
1 4
coupling
6
5 CN16
63H1
Continuous
Instantaneous
51F13 In case of UWYP140BY1(2) UWYP160BY1(2) 51F14 51F11 (S Phase)
51F12
51F11
118 117 116 115 114
: Printed circuit board :Tab terminal : Terminal : Connetor : Field wiring : Jumper Add interlock contact (AXP) for the water circulating pump between Tes2(1) and (2) as shown by ( ). Set SS13 to ’OPERATION’ continuously except confirming for interlocking with MF. Remote operation can be done by optional remote controller,central remote controllers or remote circuit. Make use of Tes(N)~(P) when using remote controller, (3)~(11) when using remote circuit. (F1)~(F2) when using central remote controllers. Refer to operation manual about the connecting method of remote controller. When set to voltage input, do not short circuit between Tes(3) and (4). Refer to operation manual about the setting and the connecting method of remote circuit and central remote controllers. Set SS14 to ’BOTH SYSTEMS’ continously except especialy case (for example, testing for HPS). Set SS12 to ’OPERATION’ continously except testing for HPS.
51C2
52C2
CT2
Note 7-1) Note 7-7)
TH 17
3
Photo
7
TeS2
(16) (17)
63WL
Note 7-2)
116 115 114
UWYP100BY1 In case of UWYP120BY1
DS3 DS4 ON 1 2
TH 16
box
132
(45)
52 P
(S Phase)
52 H
SS1 51 P
L
15
2 5
63L1
100 (R Phase)
11 13
(46) (47)
7
CN6
103
135
CN14
1 2
TH 13
6C1
Switch
CN202
CN5
CN13
5
6 42 C1 C1
3
52C1 42C1
30 FX1
1
135
9
NOTE)
6C2
1 FuR3-2 3
Note 4
(42)
SK2 SK2 TeS2 SK2
CN17
(41)
5
CN10
12 12 12 12 12 12 12 12 12 12 CN28 CN29 CN30 CN31 CN34 CN35 CN36 CN37 CN47 CN48
12
TH1 TH2 TH3 TH4 TH5 TH6 TH7 TH8 TH9 TH10 TH11 CN 101
134 234 134 234 1 2 CN32 CN33 CN38 CN39 CN27 CN9 CN11 5 3 1 CN22 CN41 2 3 CN40 10 11 12 13 5
SENH1 SENL1 SENH2 SENL2
CN1 12345
1 2
1 2 CN14
1 2 CN13 CN15
TH14
Tr1
TH12
135
CN202
X1
S24
EC1
R
4 CN5 CN1 CN2 R 1 FuR2 5 S 3 3 5 FuS2 1 8 7 CN6 CN3 CN4 CN7
Control panel (EC3)
Tr1
CN102
FuR3-1
10
X4 20
TeS2
Individual code table
(Extended I/O) (EC6)
(Extended I/O) (EC5)
11
X1 X2 EC8
1
CN17
TeS2 (57)
103
S
CN102
S
X5 20
X1
20
S14
X4
(51)
20 8 20 SX2 12 SX2 TeS2 (56)
S23
12
14
X3
S21
20
X7
CN202
1 9
CN201
(50)
11
X6
X1 X2 EC7
20
S13
X5
20 8 20 SX1 12 SX1 TeS2 (54)
14
11 Fu2 CH2
11 Fu1 CH1
1 9
CN101
CN201
X3
S11
20
X7
CN102
12
(53)
52 52 C1 C2
Detail of the control panel’s back side
R
FuR1
CN101
FuS1
32
31
Selector switch (Test / operation) In case of malfunction the units continue Selector switch (Normal/Short) operations with malfunction display. Heat storage operation The malfunction display of is displayed only in case of field wiring. Heat storage operation
Motor (Pump) Low noise operation during night time input contact
Forced fan operation input contact Circuit breaker Leakage circuit breaker
Electronic heater (Water heating)
Demand input contact
Pump interlock contact Remote controller
Magnetic contactor Magnetic contactor (Pump) Pressure switch(Water interruption protector)
Thermal switch (Overheat prevention) Over current relay (Pump)
Thermal regulator (EH)
MF 23
MF 24
MF 24
UV W
51 F24
52 F24
In case of UWYP160BY1(2)
only UWYP140BY1(2),UWYP160BY1(2)
MF 25
MF 26
51 F23
52 F23
UV W
(U9) (V9) (W9)
Fan motor layout
MF 16
UV W
52 F21
52 F16
Y-Yellow Z-Green
MF 12
MF 11
MF 15
UV W
X-Red
UV W
52 F15
52 F14
In case of UWYP140BY1(2) UWYP160BY1(2)
Thermistor (No.2 Refrigerant temperature) Over current relay (MF) Thermistor(No.1 Cooling / suctionpipe) Only UWYP140,160BY1 Thermistor(No.2 Cooling / suctionpipe) Magnetic contactor (MC) Thermistor (NO.1 Heating/suction pipe 1) Magnectic contactor (MF) Thermistor (NO.1 Heating/suction pipe 2) Magnectic contactor (MF) Only UWYP140,160BY1 MAgnectic contactor (MF) Only UWYP160BY1 Thermistor (NO.2 Heating/suction pipe 1) High pressure switch Thermistor (NO.2 Heating/suction pipe 2) Transformer Low pressure switch Tr1,2 Slide valve (Capacity control) Optional accessories - Field supply Push button switch (Manual defrost)
Thermal switch (MC) Over current relay (MC) Over current relay (MF) Over current relay (MF) Only UWYP140,160BY1
Solenoid valve (for four-way valve) Magnetic contactor Magnetic relay Magnetic contactor (MC ) Reverse phase and open phase protection relay
Solenoid valve (for refrigerant regulation, suction)
Solenoid valve (for refrigerant regulation, heating)
Solenoid valve (for refrigerant regulation) Only UWYP160BY1 Solenoid valve (Economizer) Solenoid valve (Injection)
Solenoid valve (for refrigerant regulation) SENL1 Solenoid valve (for refrigerant regulation) SENL2 Only UWYP120,140,160BY1 SK1,2
MF 21~24 MF15,16 MF25,26 Solenoid valve (for refrigerant regulation) NF Only UWYP120,140,160BY1 R1,2 Solenoid valve (for refrigerant regulation) SENH1 Only UWYP140,160BY1 SENH2
11~14
LED2 MC1,2
U-Yellow V-Green
Power supply display monitor (Normal: Green light) Microcomputer normal monitor (Normal: Red light flash)
LED400
MF 13
UV W
Switch box
UV W
UV W
51 F13
52 F13
51 F12
52 F12
51 F11
52 F11
Magnetic contactor (MC ) Electronic expansion valve(Cooling) Electronic expansion valve(Heating) Solenoid valve (Unloader) Solenoid valve(for refrigerant regulation)
3
42 C2
EH
LED402
LED401
Fu1,2 FuR1,S1 FuR2,S2 FuR3-1 FuR3-2 FuU
EC5 EC6 EC7,8
EC2 EC3 EC4
EC1
CP1 CT1,2
CN101,102 CN201,202
CN1~48
BS11 CH1,2
52C1,2 11~14 52F 21~24 52F15,16 52F25,26 63H1,2 63L1,2 74M1,2
51F25,26
51F15,16
49C1,2 51C1,2 11~14 51F 21~24
30FX1,2 42C1,2 47
20R19,29 11~14 20S 21~24 20SX1,2
20R 26-1,2 16-3 20R 26-3 20R18-1,2 28-1,2
16-1,2
20R24-3
20R24-2
20R24-1
20R14-3
20R14-2
20R14-1
20M 21-1,2 20M 12-1,2 22-1,2 20R11,21
11-1,2
6C1,2
R-Yellow S-Green
CN8
1
CN7
1
R2
YZ X
YZX
R1 3
MC2
MC1
52 C2
UV W
CT2
UV W
6 C1
47
51 C2
42 C1
L1 L2 L3
51 C1
52 C1
(R) (S) (T)
CT1
TeS1
MP
(U2) (V2) (W2)
UV W
(U3) (V3) (W3)
RST
(U1) (V1) (W1)
52H
(U4) (V4) (W4)
50Hz
(U6) (V6) (W6)
(U5) (V5) (W5)
(U8) (V8) (W8)
(U7) (V7) (W7)
In case of UWYP100BY1,UWYP120BY1 UWYP140BY1(2)
(U10) (V10) (W10)
In case of UWYP100BY1,UWYP120BY1
Unit operation
171
MCCB2
(U11) (V11) (W11)
Heating ON Cooling/Heating input
52P 51P
(U12) (V12) (W12)
Inclusive malfunction detection
101 102
MCCB1 (with AX)
Defrost operation
172
173
3-phase 380/400/415V
System defective No.1 malfunction
105
RS T
System defective No.2 malfunction
174
red black white yellow blue orange
106 107 red black white yellow blue orange
Note 7-7) To power supply
201
RS T
220
MF interlock test
Normal Operation
Note 7-1) To power supply
202
109 110
A Input B Input
Operation
Short defrost interval Test 112 108 109 110 111
111 211 210 209 208 207
HPS Test
UWYP100BY1 / UWYP120BY1 / UWYP140BY1 / UWYP160BY1
MF interlock test
209 208 207
Heating Cooling
A Input Operation
Both
Cooling
Heating
205
Wiring Diagrams
Test
212 203
Operation
B Input
204 204 205 206
206
Main Data
LED402 LED400 LED1 LED2
LED401
Fu1,2 FuR1,S1 FuR2,S2 FuR3-1 FuR3-2 FuU
EC5 EC6 EC7,8
EC2 EC3 EC4
EC1
CT1,2
CP1
CH1,2 CN1~48 CN101,102 CN201,202
BS11
52F15,16 52F25,26 63H1,2 63L1,2 74M1,2
49C1,2 51C1,2 11~14 51F 21~24 51F15,16 51F25,26 52C1,2 11~14 52F 21~24
30FX1,2 42C1,2 47
20R19,29 11~14 20S 21~24 20SX1,2
20R 26-3 20R 18-1,2 28-1,2
16-3
20R 26-1,2
16-1,2
20R24-3
20R24-1,2
20R14-3
20R14-1,2
20M 20M12-1,2 22-1,2 20R11,21
11-1,2 21-1,2
6C1,2
3
6 C2
UV W
MF 12
UV W
MF 11
MF 14
MF 13
MF 14
MF 12
Solenoid valve (for refrigerant regulation) SENL1 Only UWYP220,240BY1 SENL2 Solenoid valve (Economizer) SK1,2 Solenoid valve (Injection) SS11
Only UWYP200,220,240BY1) SENH1 Solenoid valve (for refrigerant regulation) SENH2
MF 15
UV W
51 F21
51 F16
MF 16
UV W
52 F21
52 F16
MF 21
UV W
MF 23
MF 25
MF 21
MF 22
Pressure sensor (No.2 Low) Surge killer Selector switch (Cooling/Heating) Selector switch (HPS Test/Operation) Selector switch (MF interlock test) Selector switch (system) Terminal strip (Power) Terminal strip (Control ciruit) Terminal strip (Power) Thermistor (Water inlet) Thermistor (Water outlet) Thermistor (Ambient) Thermistor (No.1 Discharge gas)
Motor (Compressor) Motor (Fan) Motor(Fan) Only UWYP200,220,240BY1 Motor (Fan) Only UWYP220,240BY1 Noise filter Resistor Pressure sensor (No.1 High) Pressure sensor (No.2 High) Pressure sensor (No.1 Low)
Selector switch (Test/Operation) Selector switch (Normal/Short)
Heat storage operation contact Heat storage operation contact Heat storage operation contact
SS1 SS2
TH-STR1 TH-STR2 TH-STR3
SS12 SS13 SS14 TES1 TES2 TES3 3-phase asymmetry,phase sequence, Th1 phase loss relay Th2 Thermal switch(MC) Th3 Over current relay (MC) Th4 Over current relay (MF) Only Thermistor (NO.1 Heat exchanger/rear) Over current relay(MF) UWYP200,220,240BY1 Th5 Thermistor (NO.1 Heat exchanger/front) Over current relay(MF) Only UWYP220,240BY1 Th6 Magnetic contactor (MC) Th7 Thermistor (No.2 Discharge gas) Thermistor (NO.1 Heat exchanger/rear) Magnetic contactor (MF) Th8 Thermistor (NO.1 Heat exchanger/front) Over current relay(MF) Only UWYP200,220,240BY1 Th9 Thermistor (No.1 Refrigerant temperature) Over current relay(MF) Only UWYP220,240BY1 Th10 Thermistor (No.2 Refrigerant temperature) Th11 High pressure switch Thermistor (No.1 Cooling/suction pipe) Th12 Low pressure switch Thermistor (No.2 Cooling/suction pipe) Slide valve (Capacity control) Th13 Thermistor (NO.1 Heating/suction pipe 1) Push button switch(Manual defrost) Th14 Thermistor (NO.1 Heating/suction pipe 2) Th15 Crankcase heater Thermistor (NO.2 Heating/suction pipe 1) Th16 Connector (CN1~48) Thermistor (NO.2 Heating/suction pipe 2) Th17 Connector (CN101,102) Transformer Connector (CN201,202) Tr1,2 Remote controller Optional accessories - Field supply Only UWYP180,200,220,240BY1 Current transformer 23WH Thermal regulator (EH) Printed circuit board (Electric source) 26WH Thermal switch (Overheat prevention) Over current relay (Pump) Printed circuit board (A-Board) 51P Magnetic contactor(EH) Printed circuit board (Control panel) 52H Magnetic contactor (Pump) 52P Printed circuit board (B-board) Pressure switch (Water interruption protector) Printed circuit board (No.1 Extended I/O) 63WL Pump interlock contact Printed circuit board (No.2 Extended I/O) AXP Remote controller Printed circuit board (Relay) BRC307D Demand input contact Fuse (250V,1A) DMND Electronic heater (Water heating) Fuse (250V,5A) EH FAN-ON Fuse (250,3A or 3.15A) Forced fan operation input contact MCCB1 Fuse (250,3A or 3.15A) Circuit breaker Leakage circuit breaker MCCB2 Fuse (250,3A or 3.15A) MP Motor (Pump) Fuse (500V, 10A) Low noise operation during night time input contact Control panel communication normal monitor NLN
(Normal: Green light flash) Power supply display monitor (Normal: Green light) Microcomputer normal monitor (Normal: Red light flash) Microcomputer normal monitor (Normal: Green light flash) Malfunction monitor (Normal: Red light off)
MF 24
UV W
51 F24
52 F24
51 F25
52 F25
MF 25
UV W MF 26
UV W
47
On
E C6 (Extended I/O)
EC5 (Extended I/O)
FuR1 FuS1
FuU
Tr2 32
31
X7 20
S
103
14 10 CN201
14 CN101
11 Fu2 CH2
11 Fu1 CH1
X3
S11
CN201
(50)
R
12
CN102
(53)
52 52 C1 C2
FuR1 100
CN101
FuS1
1 9
X5 20
S12
X6
(55)
S
Transmission error between chiller and centralized remote controllers
132
EC1 (Electric source)
B-board (E C 4)
A-board (E C 2)
74M1
CN5
20 M12-1
20 M11-1
OL1 On
No.1 Fan interlock malfunction No.1 Thermistor (refrigerant) malfunction No.1 Heat exchanger (front) thermistor malfunction No.1 Slide valve malfunction CN13 Jumper broken (EC2) No.1 Inverter malfunction No.1 High pressure malfunction No.1 Low pressure malfunction No.1 Compressor motor overheat No.1 Compressor overload No.1 Fan motor overload (51F11~16) No.1 EV malfunction No.1 Discharge gas overheat No.1 Current transformer malfunction No.1 Discharge gas thermistor malfunction No.1 Thermistor (suction cooling) malfunction Heat exchanger (rear) thermistor malfunction No.1 High pressure sensor malfunction NO.1 Low pressure sensor malfunction No.1 Extended I/O (EC5) malfunction Thermistor (suction, heating, rear) malfunction Thermistor (suction, heating, front) malfunction
5
7
OL2
On
42C1
R1
51C1
52C1
CT1
Tes2
42C2
FuR3-2
6C2
CN17
3
1
5 9
No.1 Extended I/O (EC6) malfunction Thermistor (suction, heating, rear) malfunction Thermistor (suction, heating, front) malfunction
NO.2 Heat exchanger (rear) thermistor malfunction
NO.2 Compressor motor overheat NO.2 Compressor overload NO.2 Fan mater overload (51F21~26) NO.2 High pressure malfunction NO.2 Low pressure malfunction NO.2 Low pressure sensor malfunction NO.2 High pressure sensor malfunction NO.2 Fan interlock malfunction No.2 Current transformer malfunction NO.2 Thermistor (refrigeramt) malfunction NO.2Heat exchanger (front) thermistor malfunction NO.2 Discharge gas thermistor malfunction NO.2 Discharge gas overheat NO.2 EV malfunction NO.2 Thermistor (suction,cooling) malfunction NO.2 Slide valve malfunction CN16 Jumper broken (EC4) NO.2 Inverter malfunction
6C1
20 M12-2
5432 1
CN4 12345
LED2
EC5
SK2 SK2 SK2
TeS2 (39) (40) (41) (42)
3
CN3
1 2
CN202
CN13
5
6 42 C1 C1
3
52C1 42C1
30 FX1
1
132
74M2
R2
Note 7 - 1)
Tr2
3
7
CN1 3
20 SX1
DS3 DS4 ON
30 FX2
52 F25 51 F25
52 F26 51 F26
52 F16 51 F16
EC1 (Electric source)
20 M22-2
54321
9
EC3
Only UWYP220,240BY1(2)
BS11 SS11 SS12 SS13 SS14
( Control panel )
20 R16-1
6
7
CN5
52C2
CN101
20 R14-1
20 R14-2
4 CN101
20 R19
CN6
7
42C2
6 C2
5
6C2
9
CN7
42 C2
TeS2
2
20 R14-1
5 9
30 FX2
11
CN12
20 R14-3
20 R14-2
Note 3
SK2 SK2 SK2
52 F11
30 FX1
SS13
1
13
3
(18) (19)
52 F12
52 F13
52 F11
52 F14
3
CN7
52 F12
SK1
52 F13
7
5
3
CN202
20 R28-2
3
CN202
1
5
1
CN4
CN201
20 R26-3
3
3
2
Note 7 - 3)~ 6)
52 F14
DMND
FAN-ON
2
52 F15
11
52 F16
3
SK1
4
CN12
5
SS12
3
BS11
7
2
3
Photo
10 9
Manual
3
6
8
Note 6 defrost
2
1
2
6 7 CN19
1
SS11
1
coupling
11
10
13
20 R21
1
1
CN201
SK1 SK1
4
51F21
7
3
CN2
Photo
CN16
30 FX2
20 R26-1
6
5
6
20 R26-2
CN201
20 R24-1
1
20 R29
5
20 SX2
Note 3
3
CN11
No.2
3
SS14
1 3
Both
EC4
4
No.1
2
3
B
6
8 12
SS13
30 FX2
4
52 F21
1
CN6
CN17
remote control
52 F21
52 F22
5
52 F23
52 F22
52 F24
52 F23
(From TeS5)
TeS2
52 F24
SK1
CN45 1
52 F26
SK1
1
RESET TeS2
8
3
5
6
(43) (44)
3
10
TeS2
6
CN8
CN3 1
CN46
9
Terminal for remote display Note 4
3
5
CN21
(1) (2) (35) (36)
LED400
7
Note 2
AXP
29
Wiring Diagrams
6) In case of attaching forced fan operation input contact, add the FAN-ON between Tes2(32) and (34). Refer to opertion manual about the connecting method. 7) In case of attaching the electronic heater (EH), remove the wiring between TeS2(14)~(15), and add 23WH between TeS2(12)~(13), 26WH between TeS2(14)~(15), 52H between TeS2(45)~(46). The leakage circuit breaker (MCCB2) between the power power supply and 52H is necessary. 8) In case of attaching short defrost interval contact, add SS2 between TeS2(18)~(19).
In case of UWYP220,240BY1(2)
52 F25
5
CN1
(N) (P) 2 (F1) 3 (F2)
Central remote controllers
3
1 3 CN42
(10) (11)
-
DC4~20mA
LED402
(N) (P) (F1) (F2)
1
CN26 2 4
7
+
In case of UWYP100BY1 UWYP180,200BY1(2)
5
6
52F21
8
6
LED401
4 5 CN20
Control panel
9
5
(N) (P)
52F11
4
2
CP1 Note 4 Control panel
CN201 7 In case of UWYP180,200BY1(2)
20 R24-2
2
Note 5
CN201 7 In case of UWYP220,240BY1(2) 4 CN201 9
20 R24-3
9
1
5 3
52C2
51F24
51F23
coupling
2
20 R24-2
4 CN201 20 R24-1
51F26
51F25
51F23 (S Phase) 103 51F24
51F22
A
Note 4 Terminal for remote control (Temperature setting DC 4~20mA)
(3) (4) (5) (6) (7) (8) (9)
1
5
Caution Do not input a voltage signal between (1) and (2) (AXP),cooling/heating input (8) and (9) . This can demage the circuit. Note 4 Terminal for remote control (When set to non-voltage input)
(24) (25) (26) (27) (28) (29) (30) (31) (32) (33) (34)
NLN
TeS2
In case of Control panel In case of UWYP200BY1(2) UWYP180BY1(2) UWYP220BY1(2) UWYP200BY1(2) Only UWYP240BY1(2) UWYP180BY1 In case of 51F21 UWYP200BY1 UWYP220BY1(2) UWYP220BY1 UWYP240BY1(2) 51F22 UWYP240BY1
coupling
4
CN 201
49C2
CN15
Photo
3 2
51C2
B
TH-STR1 TH-STR2 TH-STR3
1 2 3 4 1 CN18
(20) (21) (22) (23)
A
(3) (4) (5) (6) (7)
DC24V
Note 4 Terminal for remote control (When set to voltage input)
7.Field wriring 1) In case of attacting the water circulation pump, add SS3 and 52P between Tes2(45) and (47) as shown by ( ). When pump is installed outside the unit, the circuit breaker (MCCB1) is necessary. In addition, provide open contact of 52P and auxiliary (AX) of MCCB1 on AXP circuit in series. 2) In case of attaching pressure switch (water interruption protector), remove the jumper between Tes(16) and (17), and add 63WL as shown by ( ). 3) In case of attaching external heat-storage operation contact, add the TH-STR1~3 between Tes2(24) ~ (29). Refer to operation manual about the connecting method. 4) In case of attaching low noise operation during night time input contact, add the NLN between Tes2(30) and (31). Refer to operation manual about the connecting method. 5) In case of attaching demand input contact, add DMND between Tes2(32) and (33). Refer to operation manual about the connecting method.
6
4
1
20 R28-1
CN5
1
CN 201
CN 201 15 5
8
H
L
63H2
coupling
5
8 12
SS2
Note 7 - 8)
Cooling/heating input ON: heating OFF: cooling ON: heating OFF: cooling
In case of UWYP180BY1(2)
Photo
63L2
2
3
4 2 4 1 CN17
5 7
12
11 14
EC2
4 CN101
7
CN15
47
In case of UWYP200BY1(2) UWYP220BY1(2) UWYP240BY1(2)
9
26WH
(12) (13) (14) (15)
6 1 3
9 3
Input B OFF signal (Contact a)
Note 7 -7)
In case of UWYP180BY1(2)
1
7 9
CN101
20 R16-2
CN101
SK1
2 5 3 Photo coupling
: Connetor : Jumper
52 F24 51 F24
52 F15 51 F15
CN101
CN4 12345
LED2
Control panel
Tr1
20 M21-2
5432 1
CN3 12345
LED1
EC6
20 R18-2
SK1
4
10 13
11
1
CN13
51F16
51F15
: Tab terminal
52 F23 51 F23
52 F14 51 F14
20 R18-1
7 CN102 CN101
1234
7
4 CN102 5
13 3
CN4
Photo coupling
20 R11
2
1 3 2 4
CN14
1
51F14
30 FX1
23WH
Operation by ON Stop by OFF
Input A ON signal (Contact a)
51F11 (S Phase) 52C1 51F12 103 51F13
: Terminal : Field wiring
52 F22 51 F22
52 F21 51 F21
52 F13 51 F13
8
CN 101
51C1 49C1
51F14
DS1-1 : OFF
Continuous In case of UWYP200BY1(2) UWYP220BY1(2) UWYP240BY1(2)
: Printed circuit board
52 F12 51 F12 52 F11 51 F11
H
CN 101
1 4
CN11
20 R16-3
3
1
Only UWYP200BY1(2) UWYP220,240BY1(2)
30 FX1
20 SX2
20 M22-1
20 SX1
5432 1
20 M21-1
CN2 12345
OFF
6
63H1
CN16
5
Photo coupling
5432 1
CN1 12345
1 2 CN16
1 2 CN15
CN6
TH17
TH16
TeS2
(16) (17)
63WL
Note 7 - 2)
51F11 51F13
51F12
DS1-1 : ON
In case of UWYP180BY1(2) Instantaneous
2. Add interlock contact (AXP) for the water circulating pump between Tes2(1) and (2) as shown by ( ). 3. Set SS13 to ’OPERATION’ continuously except confirming for interlocking with MF. 4. Remote operation can be done by optional remote controller,central remote controllers or remote circuit. Make use of Tes(N)~(P) when using remote controller, (3)~(11) when using remote circuit. (F1)~(F2) when using central remote controllers. Refer to operation manual about the connecting method of remote controller. When set to voltage input, do not short circuit between Tes(3) and (4). Refer to operation manual about the setting and the connecting method of remote circuit and central remote controllers. 5. Set SS14 to ’BOTH SYSTEMS’ continously except especialy case (for example, testing for HPS). 6. Set SS12 to ’OPERATION’ continously except testing for HPS.
1.
NOTE)
51C2
52C2
CT2
52 P
(45) 7 - 7) 103 (S Phase)
135
CN14
1 2
TH13
6C1
52 H
(R Phase)
SS1 51 P
L
15
2 5
63L1
100
11 13
(46) (47)
7
Switch box
9
CN10
12 12 12 12 12 12 12 12 CN30 CN31 CN34 CN35 CN36 CN37 CN47 CN48
Terminal for remote display Note 4
(37) (48) (38)
Earth
20 M11-2
5432 1
CN3 12345
LED1
Tes1
5432 1
5432 1
OFF CN2 12345
1234 CN11
DS1 DS2 1 2 ON
1 2 CN3
CN16
TH15
EC3
CN1
NF
134 234 134 234 1 2 1 2 1 2 CN32 CN33 CN38 CN39 CN27 CN28 CN29 CN9 CN11 5 3 1 CN2 CN22 CN41 2 3 10 11 12 13 5 3 1 1 CN40
12
SENH1 SENL1 SENH2 SENL2 Th1 Th2 Th3 Th4 Th5 Th6 Th7 Th8 Th9 Th10 Th11 CN 101
CN1 12345
1 2
1 2 CN14
1 2 CN13
CN15
TH 14
Tr1
5
4 CN5 CN1 CN2 R 1 FuR2 5 S 3 3 5 FuS2 1 8 7 CN6 CN3 CN4 CN7
EC1
TH12
135
CN202
X1
20
S24
X4
TeS2
Control panel (E C 3)
Tr1
CN102
CN17
20
X6
20 SX2 TeS2 (56)
11
S22
FuR3-1
10
1 3
TeS2 (57)
8 12
X1
X1 X2 EC8
20
EC8
20 SX2
X5 S23
12
CN102
X3
S21
20
X7
CN202
1 9
X4 20
S14
(51)
R
Individual code table
Extended I/O (E C 6)
Extended I/O (E C 5)
11
X1 X2 EC7
20
S13
EC7
20 8 20 SX1 12 SX1 TeS2 (54)
Detail of the control panel’s back side
20 21 22 23 24
Inlet water temperature thermistor malfunction Outlet water temperature thermistor malfunction Plate heat exchanger over cooled Water overheat AXP malfunction Water interruption Heater overheat Ambient temperature thermistor malfunction Faulty reverse or open phase Control panel malfunction Transmission error between chiller and remote controllers Code for remote control temperature setting broken
OL1.OL2
(43)
(39) (40) (41) (44)
(42)
Note 4 Terminal for remote display
(38) (48)
(37)
51 F26
52 F26
FuU
In case of malfunction the units continue operations with malfunction display, The malfunction display of is displayed only in case of field wiring.
only UWYP200,220,240BY(2)1
MF 24
MF 26
MF 23
UV W
51 F23
52 F23
N F
In case of UWYP220,240BY1(2)
In case of UWYP180,200BY1(2)
only UWYP220,240BY1
MF 22
UV W
51 F22
52 F22
(U9) (V9) (W9)
X-Red Y-Yellow Z-Green
MF 16
MF 15
Fan motor layout
T-Red U-Yellow V-Green W-Red
Solenoid valve (for refrigerant regulation, heating) Solenoid valve (for refrigerant regulation, suction) Solenoid valve (for four-way valve) Magnetic contactor Magnetic relay Magnetic contactor (MC )
51 F15
UV W
52 F15
51 F14
In case of UWYP200BY1(2) UWYP220BY1(2) UWYP240BY1(2)
In case of UWYP180BY1(2)
52 F14
MF 11
MF 13
UV W
51 F13
52 F13
51 F12
52 F12
EH
51 F11
52 F11
Main switch box
42 C2
MP
UV W
52H
Magnetic contactor (MC ) MC1,2 11~14 Electronic expansion valve (Cooling) MF21~24 Electronic expansion valve (Heating) MF15,16 Solenoid valve (Unloader) MF25,26 NF Solenoid valve (for refrigerant regulation) Solenoid valve (for refrigerant regulation) R1,2
R-Yellow S-Green
CN8
EC6
CN7
1
EC5
1
YZ X
YZ X
R1 3
MC2
R2
UV W
MC1
52 C2
UV W
6 C1
CT2
51 C2
42 C1
47
51 C1
52 C1
(R) (S) (T)
CT1
L1 L2 L3
TeS3
52P 51P
MCCB2
(U2) (V2) (W2)
TeS1
(U1) (V1) (W1)
RS T
(U3) (V3) (W3)
(R) (S) (T)
MCCB1 (with AX)
(U4) (V4) (W4)
RS T
(U6) (V6) (W6)
(U5) (V5) (W5)
(U8) (V8) (W8)
(U7) (V7) (W7)
RST
(U10) (V10) (W10)
To Tes4
(Heating ON) Cooling/Heating input
RST
Unit operation
171
50Hz
(U11) (V11) (W11)
Inclusive malfunction detection
101 102
Note 7 - 7)
Defrost operation
172
173
(U12) (V12) (W12)
System defective No.1 malfunction
105
116 115 114
To power supply
System defective No.2 malfunction
174 red black white yellow blue orange
106 107 red black white yellow blue orange
118 117 116 115 114
Note 7 - 1)
201
Normal Operation
To power supply
220
MF interlock test
Input
3-phase380/400/415V
202
109 110
Input
Operation
Short defrost interval Test
112 108
111 211 210 209 208 207
109 110 111
HPS Test
UWYP180BY1 / UWYP200BY1 / UWYP220BY1 / UWYP240BY1
MF interlock test
209 208 207
Input
Operation
Heating Cooling
Cooling Heating
205
EDS55-801
Test
212 203
Note 4
Input
204 204 205 206
206
30
1
LED402 LED400 LED1
52F35,36 63H3 63L3 74M3 BS31 CH3 CN 1-47 CN301 302 CT3 EC1-3 EC2-3 EC3-3 EC5-3 EC7-3 Fu3 FuR1 S1 FuR2 S2 FuR3-3 FuU LED401
52C3 52F31-34
51F35,36
20R36-1,2 20R36-3 20R38-1.2 20R39 20S31-34 20SX3.30FX3 42C13 47-3 49C3 51C3 51F31-34
20R34-3
6C3 20M31-1.2 20M32-1.2 20R31 20R34-1,2
T-Red
Solenoid valve (for refrigerant regulation)
Thermal switch(MC) Over current relay (MC) Over current relay (MF)
3-phase asymmetry,phase sequence, phase loss relay
Solenoid valve (for refrigerant regulation, heating) Solenoid valve (for refrigerant regulation, suction) Solenoid valve (for four-way valve) Magnetic relay Magnetic contactor (MC )
Solenoid valve (Economizer) Solenoid valve (Injection)
MF 36
UV W
UV W
MF 32
MF 31
MF 33
UV W
51 F34
52 F34
MF 34
UV W
51 F33
52 F33
51 F32
52 F32
51 F31
52 F31
51 F36
52 F36
Y-Yellow Z-Green
FuS1
FuR1
EC7-3
100
X7
CN302
(53)
1 9
12
X5
20 SX3
(50)
8 12
X6 X1
1
CN17
3
FuR3-3
CN15
CN13
74M3
CN302
CN5
1 2
1 2
132
MF 34
MF 33
SUB switch box
MF 32
MF 31 MF 36
MF 35
Tes4 Eearth
6C3
MF 34
MF 33
CN3
CN16
20 M32-1
Tr3
5432 1
20 M31-1
OFF CN2 12345
5432 1
SUb Switch box
SUB switch box
MF 32
MF 31
12
DS1 DS2 1 2 ON
Th 35
CN1 12345
Th 34
135
CN1
NF
EC3-3
Th 32
Tr3
5
FuU
20 M32-2
5432 1
EC1-3
EC5 - 3 (Extended I/O)
FuR1 FuS1
47-3
20 M31-2
5432 1
52 F31 51 F31
52 F32 51 F32
Extended I/O (EC5 - 3)
TeS5
(39) (40) (41) (42)
CN4 12345
LED2
EC5-3
CN3 12345
LED1
CN11
1234
(37) (38)
134 234 12 12 13 12 12 12 CN27 CN28 CN29 CN30 CN31 CN34 4 CN32 CN33 CN5 CN9 CN1 FuR2 CN2 CN11 R 1 5 5 S 3 3 3 1 1 5 FuS2 CN2 CN3 7 8 CN22 CN6 CN41 5 1 1 3 5 7 2 3 CN40 10 11 12 13 CN3 CN4 CN7
EC1-3
Fan motor layout In case of UWYP240BY1(2)
(57)
X4 20
S34
CN302
X2
20
(54)
TeS5
S32
11
20 SX3
In case of UWYP180,200,220BY1(2)
103
CN301 20 20 S33 S31 11 X3 X1 Fu3 CH3 10 14 CN301 TeS5
52 C3
5 9
5
6 42 C3 C3
3
52C3 42C3
30 FX3
1
6C3
103
CN10
CN16
(45)
(R Phase)
EC1-3
A - board (EC2 - 3)
(Electric source)
control panel (EC3 - 3)
Tr3
H
8
7
CN1 3
20 SX3
CN 301
1 4
coupling
6
100
11 13
(46) (47)
7
3
63H31
5
TeS2
(16) (17)
63WL
Photo
2 5
15
L
Note 6 - 2)
(S Phase)
12
CN 301
63L1
Detail of the control panel’s back side
SK2 SK2 SK2
9
12 CN47
Th10-3
51F34
2
1
20 R36-3
3
20 R38-2
7 CN302 CN301
20 R38-1
20 R31
10
30 FX3
13 CN301
9
6
7
20 R36-1
CN5
CN13
20 R36-2
CN301
6 CN15
2
4
9
7
3 Note 2
20 R34-1
20 R34-3
20 R34-2
4 CN301
7
CN301
7 9
20 R34-1
20 R34-2
4 CN301
2
3
3
52 F32
7
52 F33
2
3
52 F34
52 F35
4
11
52 F36
SK1
Microcomputer normal monitor (Normal: Red light flash) Microcomputer normal monitor (Normal: Green light flash)
Power supply display monitor (Normal: Green light)
Fuse
(500V, 10A) Control panel communication normal monitor (Normal: Green light flash)
Fuse (250,3A or 3.15A) Fuse (250,3A or 3.15A)
Printed circuit board Fuse (250V,1A) Fuse (250V,5A)
Printed circuit board (Control panel) Printed circuit borad(Extended I/O)
Connector Current transformer Printed circuit board (Electric source) Printed circuit board (A-Board)
Push button switch (Manual defrost) Crankcase heater Connector
42C3
Tes5
51C3
52C3
CT3
52 F34 51 F34
52 F31 51 F31
Tr4
In case of UWYP240BY1(2)
R3
52 F35 51 F35
52 F32 51 F32
30FX3
20SX3
52 F36 51 F36
52 F33 51 F33
BS31 SS31 SS32 SS33
EC3 - 3 (control panel)
control panel
(Electric source)
52 F34 51 F34
In case of UWYP180,200,220BY1(2)
52 F33 51 F33
1.
CN7 3
3 2
52 F32
52 F33
52 F34
7
SK1
Control panel
11
1
2
3
Photo
Manual defrost
BS31
6 3
11
1
8
7
Thermistor (suction,cooling) malfunction Heat exchanger (rear) thermistor malfunction
CN26 2 4
To Tes2
(N) (P) (F1) (F2)
Transmission error between chiller and centralized remote controllers
Extended I/O (EC5) malfunction
5
7
CN21
TeS5
8
9
10
Main Data
EDS55-801
TeS5
(1) (2) (35) (36)
(N) (P) (F1) (F2)
1
LED2
1 3 CN42
(10) (11)
Control panel malfunction Transmission error between chiller and remote controllers Code for remote control temperature setting broken
Faulty reverse or open phase
Low pressure sensor malfunction
High pressure sensor malfunction
In case of malfunction the units continue operations with malfunction display, The malfunction display of is displayed only in case of field wiring.
High pressure malfunction Low pressure malfunction
CN13 Jumper broken Inverter malfunction Heater overheat
Water interruption Slide valve malfunction
AXP malfunction
Water overheat
Thermistor (suction, heating, rear) malfunction Thermistor (suction, heating, front) malfunction
Ambient temperature thermistor malfunction Current transformer malfunction Discharge gas thermistor malfunction
52F31
4
6
EV malfunction Discharge gas overheat
5
LED1
4 5 CN20
Plate heat exchanger over cooled
Fan motor overload(51F31-36)
Compressor overload
Compressor motor overheat
table
3
coupling
SS31
1
2
In case of UWYP180,200,220BY1(2)
52 F31
7
1
10 9
(3) (4) (5) (6) (7) (8) (9)
Thermistor (refrigerant) malfunction Heat exchanger (front) thermistor malfunction
code
8
CN12 2
SS32
6 7 CN19
Note 3
5
(24) (25) (26) (27) (28) (29) (30) (31) (32) (33) (34)
In case of UWYP240BY1(2)
52 F31
Individual
SS33
1
13
CN7
1 2 3 4 1 CN18
(20) (21) (22) (23)
30 8 FX3 12
3
In case of UWYP240BY1(2)
CN301
9
4 1 CN17
(18) (19)
In case of UWYP180,200,220BY1(2)
20 R39
SK1
CN6
2
47 11 -3 14
TeS5
EC2-3
1 3
(12) (13) (14) (15)
Fan interlock malfunction Inlet water temperature thermistor malfunction Outlet water temperature thermistor malfunction
SK1
52C3
2 5 3 coupling
103
(S Phase)
CN301
Photo
4 CN302 5
4
51F36
51F35
51F34
51F33
11
1
51F31 51F32
7
13 3
CN4
Photo coupling
1 3 2 4
CN14
1
CN 301
51C3 49C3
: Printed circuit board : Tab terminal : Terminal : Connetor : Field wiring : Jumper 2. Add interlock contact (AXP) for the water circulating pump between Tes2(1) and (2) as shown by ( ). 3. Set SS13 to ’OPERATION’ continuously except confirming for interlocking with MF.
32
31
(51) TeS5
Th1-1 Th2-3 Th3-3 Th4-3 Th5-3 Th6-3
NOTE)
Thermistor (Heating/suction pipe 1) Thermistor (Heating/suction pipe 2) Transformer
Thermistor (Refrigerant temperature) Thermistor (Cooling/suction pipe)
Thermistor (Heat exchanger/rear) Thermistor (Heat exchanger/front)
Terminal strip (Power) Terminal strip (Control Circuit) Thermistor (Water inlet) Thermistor (Water outlet) Thermistor (Ambient) Thermistor (Discharge gas)
Selector switch (HPS test/Operation) Selector switch (MF Interlock test)
Selector switch (Cooling/Heating)
Surge killer
Pressure sensor (High) Pressure sensor (Low)
Noise filter Resistor
Motor(Fan) Only UWYP240BY1
Motor (Compressor) Motor (Fan)
Malfunction monitor (Normal: Red light off)
X-Red
20 21 22 23 24
101
Slide valve (Capacity control)
LED2 MC1 MF 31-34 MF 35-36 NF R3 SENH3 SENL3 SK1,2 SS31 SS32 SS33 TeS4 TeS5 Th1-3 Th2-3 Th3-3 Th4-3 Th5-3 Th6-3 Th30 Th32 Th34 Th35 Tr3,4
W-Red
N F
Tr4
SENH3 SENL3
51F31 51F32 51F33 In case of UWYP240BY1(2)
118 117 116 115 114
Low pressure switch
High pressure switch
Only UWYP240BY1
Over current relay(MF)
Magnetic contactor (MC) Magnetic contactor (MF)
Only UWYP240BY1
Over current relay(MF)
MF 35
UV W
51 F35
52 F35
In case of UWYP180,200,220BY1(2)
Solenoid valve (for refrigerant regulation)
Solenoid valve (Unloader)
Only UWYP240BY1
MF 34
UV W
51 F34
52 F34
UV W
U-Yellow V-Green
Magnetic contactor (MC- ) Electronic expansion valve (Cooling) Electronic expansion valve (Heating)
R-Yellow S-Green
EC5-3
CN7
3
MF 33
UV W
51 F33
52 F33
In case of UWYP240BY1(2)
MF 32
R3
UV W
MF 31
51 F32
51 F31
52 F32
UV W
6C3
52 F31
YZ X
42 C3
47-3
(U1) (V1) (W1)
MC3
UV W
51 C3
52 C3
(R) (S) (T)
CT3
L1 L2 L3
FuU
171
TeS4
(U2) (V2) (W2)
172
RST
105
(U3) (V3) (W3)
(U1) (V1) (W1)
Operation
50Hz
MF interlock test
UWYP180BY1(2) In case of UWYP200BY1(2) UWYP220BY1(2)
110
3-phase 380V
106 107
(U4) (V4) (W4)
(U2) (V2) (W2)
109
116 115 114 :Tab terminal : Printed circuit board
(U5) (V5) (W5)
(U3) (V3) (W3)
Test
112 108
111
(U6) (V6) (W6)
(U4) (V4) (W4)
HPS Test
111
Operation
109 110
UWYP180BY1 / UWYP200BY1 / UWYP220BY1 / UWYP240BY1
Cooling
Wiring Diagrams
red black white yellow blue orange
Heating
Outer limits of delivery
ON signal (Contact a)
Stop by OFF
Continuous Operation by ON
Instantaneous
Input A
(Remote control)
OFF signal (Contact a)
Input B
Heating by ON Cooling by OFF
Heating by ON Cooling by OFF
Cooling/Heating input
(Remote control)
Run Stop
Without voltage remote operation
Output terminal
(Heater, pump linkage)
With AC220V voltage output
Heat Cool
Cool/Heat
(180-480HP only)
Common fault
Contact for remote monitor
Unit operation
Normal
Shortened
In case of Cool/Heat input, the input is normal either under instant or normal circumstance.
Heat Cool
With contact a of DC12~24V voltage output
Thermostat (EH) Overheat relay thermostat Magnetic relay (Heater) Magnetic contactor (Pump) Pressure switch(Water interruption protector) Pump interlock contact Remote controller Demand input contact Forced fan operation input contact Low noise operation during night time input contact Defrost interval shortening input Heat storage operation contact Heat storage operation contact Heat storage operation contact
(Pump interlock)
Input
Run Stop
Heat Cool
Without contact a of voltage output Without contact a of voltage output
Input
Terminal for field mounting
Input
Input terminal
malfunction
Central remote controllers
Defrost
Main Data Input
Power Supply
Switch Box
Earth Outer limits of delivery
EDS55-801 Field Wiring Diagram
7. Field Wiring Diagram
UWYP40 ~ 480BY1
31
malfunction
Electric Characteristics
EDS55-801
8. Electric Characteristics Compressor electromotor
power
Model
UWYP40BY1
UWYP50BY1
UWYP60BY1
UWYP80BY1
UWYP100BY1
UWYP120BY1
UWYP140BY1
UWYP160BY1
UWYP180BY1
UWYP200BY1
UWYP220BY1
UWYP240BY1
Phase
Volts
Fr.
Starting Rating current Operation Power Power Power Current input factor <*1> input
Phase
V
Hz
A
A
kVA
kW
%
cooling
3
380
50
161
58
38.1
31.2
82
heating
3
380
50
161
63
41.6
35.0
84
cooling
3
380
50
187
63
41.5
36.2
87
heating
3
380
50
187
71
46.5
41.2
88
cooling
3
380
50
237
87
57.4
48.2
84
heating
3
380
50
237
93
61.1
51.5
84
cooling
3
380
50
398
113
74.6
64.7
87
heating
3
380
50
398
130
85.3
74.3
87
cooling
3
380
50
265
126
82.9
72.4
87
heating
3
380
50
275
142
93.2
82.4
88
cooling
3
380
50
342
174
115
96.4
84
heating
3
380
50
351
186
122
103.0
84
cooling
3
380
50
505
200
132
112.9
86
heating
3
380
50
514
223
147
125.8
86
cooling
3
380
50
535
226
149
129.4
87
heating
3
380
50
549
260
171
148.6
87
cooling
3
380
50
447
261
172
144.6
84
heating
3
380
50
465
278
183
154.6
84
cooling
3
380
50
608
287
189
161.1
85
heating
3
380
50
627
316
208
177.3
85
cooling
3
380
50
642
313
206
177.6
86
heating
3
380
50
665
353
232
200.1
86
cooling
3
380
50
672
339
223
194.1
87
heating
3
380
50
700
390
256
222.9
87
No.1
No.2
Fan electromotor <*2>
No.3
Phase
Rating output
Phase
Rating output
Phase
Rating output
Phase
Rating output
Phase
kW
Phase
kW
Phase
kW
Phase
kW
3
30
-
-
-
-
3
0.5×4
3
37
-
-
-
-
3
1.0×4
3
45
-
-
-
-
3
1.0×4
3
60
-
-
-
-
3
1.0×6
3
37
3
37
-
-
3
1.0×8
3
45
3
45
-
-
3
1.0×8
3
60
3
45
-
-
3
1.0×10
3
60
3
60
-
-
3
1.0×12
3
45
3
45
3
45
3
1.0×12
3
60
3
45
3
45
3
1.0×14
3
60
3
60
3
45
3
1.0×16
3
60
3
60
3
60
3
1.0×18
Starting method for all the compressor is star and delta starting.
Current
∗1.
cooling / heating
Starting Current
Time ∗
2. When compressor operating ,perhaps it will be no power (electric characteristics operating condition) Cooling----Chilling water output temperature 7DCºC difference between inlet temperature and outlet temperature 5ºC outdoor temperature 35ºC D.B.. Heating----Hot water output temperature 45ºC difference between inlet temperature and outlet temperature 5ºC outdoor temperature 7ºC D.B. (6ºC W.B.).
32
Main Data
Main Data
50 Hz
39
37
35
33
31
29
27
93.0
96.5
100
102
105
107
109
461 346 277 444 333 267
476 357 286
526 394 316 519 389 312 511 383 307 501 376 301 489 367 294
l/min
kW
110
WF
CAP
5
76 43 28 70 40 26
80 46 30
98 56 36 95 55 36 92 53 34 89 51 33 85 49 32
kPa
PD
33.8
32.3
30.9
29.5
28.2
27.0
25.9
24.8
kW
PI
99.0
103
106
109
112
114
116
117
kW
CAP
PI: Power input (Compressor + Fan)(kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5 3 4 5
3 4 5
3 4 5 3 4 5 3 4 5 3 4 5 3 4 5
T1 ˚C
491 368 294 473 355 284
506 380 304
561 421 336 553 415 332 544 408 326 533 400 320 521 390 312
l/min
WF
7
85 49 32 79 46 30
91 52 34
111 63 41 108 62 40 104 60 39 100 57 37 96 55 36
kPa
PD
34.2
32.6
31.2
29.8
28.5
27.3
26.1
105
109
113
116
119
121
123
125
kW
kW
25.1
CAP
PI
9
96 55 36 89 51 33
102 58 38
125 71 46 121 69 45 117 67 44 113 65 42 108 62 40
kPa
PD
Note)1.Figures in
521 391 313 502 377 301
538 403 323
597 447 358 588 441 353 578 434 347 566 425 340 553 415 332
l/min
WF
34.5
33.0
31.5
30.1
28.8
27.6
26.4
25.3
kW
PI
Leaving chilled water temperature (˚C)
552 414 331 533 399 320
570 427 342
633 475 380 624 468 374 613 460 368 600 450 360 586 439 351
l/min
WF
11
107 61 40 100 57 37
114 65 42
140 80 52 136 78 51 132 75 49 126 72 47 121 69 45
kPa
PD
136
133
27.9
29.1
122
118 34.8
126
33.3
31.8
130
138
26.7
30.5
140
kW
CAP
25.6
kW
PI
show nominal capacities and conditions.
111
116
119
123
126
128
131
133
kW
CAP
157 90 58 152 87 56 147 84 54 141 81 52 134 77 50 127 73 47 120 68 45 112 64 42
671 503 402 660 495 396 648 486 389 635 476 381 620 465 372 603 452 362 584 438 350 564 423 338
PD kPa
13 l/min
WF PI
3VG21284
35.2
33.6
32.2
30.8
29.4
28.2
27.0
25.9
kW
9.1
25
OT ˚C (DB)
EDS55-801 Capacity Tables
9. Capacity Tables Cooling Capacity
UWYP40BY1
33
34
50 Hz
39
37
35
33
31
29
27
25
OT ˚C (DB)
115
120
124
128
131
134
137
572 429 343 550 412 330
593 445 356
662 497 397 653 490 392 641 481 385 627 470 376 611 458 367
l/min
kW
139
WF
CAP
5
91 52 34 84 48 32
97 56 36
121 69 45 117 67 44 113 65 42 109 62 41 103 59 39
kPa
PD
39.3
37.5
35.8
34.2
32.6
31.2
29.8
28.5
kW
PI
122
127
132
136
140
143
146
148
kW
CAP
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5 3 4 5
3 4 5
3 4 5 3 4 5 3 4 5 3 4 5 3 4 5
T1 ˚C
609 457 365 585 439 351
631 473 378
706 530 424 695 522 417 683 512 410 667 501 400 650 488 390
l/min
WF
7
102 59 38 95 54 36
110 63 41
137 78 51 133 76 49 128 73 48 122 70 46 116 67 43
kPa
PD
135
130
39.8
140
144
148
152
155
157
kW
CAP
37.9
36.2
34.6
33.0
31.5
30.1
28.9
kW
PI
54 138 79
435 709 532
43 107 61 40
388 622 466 373
Note)1.Figures in
115 66
123 71 46
647 485
670 502 402
51 131 75 49
56 144 82
443 725 544
425 690 518 414
57 149 85
451 739 554
kPa
PD
154 88
9
751 563
l/min
WF
40.2
38.3
36.6
34.9
33.4
31.9
30.5
29.2
kW
PI
Leaving chilled water temperature (˚C)
411 660 495 396
686 514
710 532 426
451 732 549 439
461 751 563
470 769 576
478 784 588
797 598
l/min
WF
11
48 120 69 45
129 74
138 79 51
57 146 84 54
60 154 88
62 161 92
64 168 96
173 99
kPa
PD
40.6
38.8
37.0
35.3
33.7
32.2
30.8
29.5
kW
PI
146
152
157
162
166
170
174
177
kW
CAP
show nominal capacities and conditions.
138
144
149
153
157
161
164
167
kW
CAP
435 698 524 419
726 544
751 563 451
477 774 580 464
488 795 596
498 813 610
506 830 622
844 633
l/min
WF
13
54 134 77 50
144 82
154 88 57
64 163 93 61
67 172 98
69 180 103
72 187 107
194 111
3VG21285
41.0
39.2
37.4
35.7
34.1
32.6
31.2
29.8
PI kW
PD kPa
Capacity Tables EDS55-801
UWYP50BY1
Main Data
Main Data
50 Hz
39
37
140
146
151
155
159
163
166
696 522 418 670 503 402
720 540 432
556 445
570 456 741
483 792 594 475 778 583 467 761
804 603
l/min
kW
168
WF
CAP
5
111 64 41 103 59 39
118 68 44
72 47
75 49 125
55 142 81 53 137 79 51 131
147 84
kPa
PD
52.5
50.0
47.6
45.3
43.2
41.2
39.4
37.7
kW
PI
149
155
160
165
169
173
176
179
kW
CAP
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5 3 4 5
3 4 5
4 5
33
35
4 5 3
5 3 4 5 3 4 5 3
3 4
T1 ˚C
31
29
27
25
OT ˚C (DB)
57 148
495 807
740 555 444 713 534 428
764 573 459
590 472
124 71 47 116 66 43
133 76 50
80 52
84 55 140
59 154 88
505 825 619
605 484 787
61 160 91
165 94
kPa
PD
513 841 631
855 641
l/min
WF
7
53.2
50.6
48.2
45.9
43.8
41.8
39.9
38.2
kW
PI
158
164
9
139 80 52 130 74 48
149 85 55
90 58
94 61 157
64 165
66 172 99
69 179 102
185 106
kPa
PD
Note)1.Figures in
784 588 470 756 567 454
810 608 486
625 500
175
170
641 513 834
525 855
535 875 656
544 891 669
906 680
l/min
WF
179
183
187
190
kW
CAP
53.8
51.3
48.8
46.5
44.3
42.3
40.4
38.7
kW
PI
168
174
179
185
189
194
197
201
kW
CAP
830 623 498 801 600 480
857 643 514
662 529
678 543 882
555 905
566 925 694
575 943 707
959 719
l/min
WF
11
156 89 58 145 83 54
166 95 62
100 65
105 68 175
71 184
74 192 110
77 200 114
206 118
kPa
PD
54.5
51.9
49.4
47.1
44.9
42.9
41.0
39.2
kW
PI
177
184
190
195
200
204
208
877 658 526 847 635 508
905 679 543
699 559
586 955 716 573 932
598 977 733
608 996 747
1013 760
l/min
kW
212
WF
CAP
show nominal capacities and conditions.
Leaving chilled water temperature (˚C)
13 PD
173 99 64 162 93 60
185 105 69
79 205 117 76 195 111 72
82 214 122
85 222 127
230 131
kPa
PI
3VG21286
55.1
52.5
50.0
47.7
45.5
43.4
41.5
39.7
kW
EDS55-801 Capacity Tables
UWYP60BY1
35
36
50 Hz
4 5 3
4 5 3
4 5
29
31
33
4 5
39
686 548 880
660 528
184
914
709 567
945
191
198
730 584
749 599 973
209
204
95 62 158
765 612 998
214
71 47
77 50 124
133
82 53
142
86 56
91 59 151
98 64 165
780 624 1020
101 66 171
218
176
792 634 1040
kPa
PD
1056
l/min
kW
221
WF
CAP
5
70.5
67.1
63.9
60.8
58.0
55.3
52.9
50.6
kW
PI
196
203
210
216
222
227
231
235
kW
CAP
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
4 5 3
37
3
4 5
3
4 5 3
27
35
4 5 3
3
T1 ˚C
25
OT ˚C (DB)
701 561
728 582 935
971
753 602
1003
775 620
795 636 1033
812 650 1060
828 662 1083
841 673 1104
1122
l/min
WF
7
86 56 139 80 52
150
92 60
160
97 63
102 66 169
106 69 178
110 72 185
114 74 192
198
kPa
PD
71.4
68.0
64.7
61.6
58.8
56.1
53.6
51.3
kW
PI
208
215
223
229
235
240
245
249
kW
CAP
9
168 96 63 156 90 58
179 102 67
222 127 83 215 123 80 207 119 77 199 114 74 189 108 71
kPa
PD
Note)1.Figures in
1029 772 618 992 744 595
1063 797 638
1189 892 714 1170 878 702 1148 861 689 1123 842 674 1094 821 657
l/min
WF
220
72.3
1089 817 654 1051 788 630
1125 844 675
1259 944 755 1238 928 743 1214 911 728 1187 891 712 1158 868 695
l/min
WF
11
187 107 70 175 100 65
199 114 74
248 142 92 240 137 89 231 132 86 222 127 82 211 121 79
kPa
PD
268
262
57.6
60.3
241
233
73.1
249
69.6
66.3
256
274
55.0
63.2
278
kW
CAP
52.6
kW
PI
show nominal capacities and conditions.
228
235
242
68.8
65.5
62.4
249
254
56.8
59.5
259
263
kW
CAP
54.3
52.0
kW
PI
Leaving chilled water temperature (˚C)
1151 863 691 1111 833 667
1188 891 713
1330 997 798 1307 980 784 1282 962 769 1254 940 752 1223 917 734
l/min
WF
13 PD
209 119 78 195 111 73
222 127 83
276 158 102 267 153 99 257 147 96 246 141 92 235 134 87
kPa
PI
3VG21287
74.0
70.5
67.2
64.0
61.1
58.3
55.7
53.3
kW
Capacity Tables EDS55-801
UWYP80BY1
Main Data
Main Data
50 Hz
39
37
35
33
31
29
27
25
OT ˚C (DB)
231
240
249
257
264
269
274
1149 862 689 1103 828 662
1190 892 714
1330 997 798 1311 983 786 1287 965 772 1259 944 755 1227 920 736
l/min
kW
278
WF
CAP
5
79 46 31 73 43 29
85 49 33
104 61 40 102 59 39 98 57 38 94 55 36 90 52 35
kPa
PD
256
246
78.7
265
273
280
75.0
71.6
68.3
65.2
287
292
59.6
62.3
297
kW
CAP
57.0
kW
PI
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
l/min
WF
1223 917 734 1175 881 705
1266 950 760
1418 1063 851 1396 1047 838 1370 1028 822 1340 1005 804 1305 979 783
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5 3 4 5
3 4 5
3 4 5 3 4 5 3 4 5 3 4 5 3 4 5
T1 ˚C
7
89 52 34 83 48 32
95 55 37
118 68 45 114 66 44 110 64 42 106 62 41 101 59 39
kPa
PD
305
298
63.0
66.0
79.5
75.9
72.4
261
272
281
290
311
60.3
69.1
316
kW
CAP
57.7
kW
PI
9
100 58 38 93 54 36
107 62 41
133 77 51 129 75 49 124 72 47 119 69 45 113 66 43
kPa
PD
Note)1.Figures in
1299 974 779 1248 936 749
1344 1008 807
1508 1131 905 1484 1113 890 1456 1092 873 1423 1067 854 1386 1039 832
l/min
WF
323
316
63.8
66.7
80.4
76.7
73.2
53 133 77 51 126 73 48
926 1508 1131 905 1469 1101 881
111 65 43 103 60 40
1377 1033 826 1324 993 794
119 69 46
55 139 80
944 1543 1157
1425 1069 855
57 144 83
960 1574 1180
kPa
PD
148 86
11
1600 1200
l/min
WF
81.2
77.5
74.0
70.6
67.5
64.5
61.7
59.0
kW
PI
293
305
316
325
334
342
349
355
kW
CAP
show nominal capacities and conditions.
277
288
298
307
329
61.0
69.9
335
kW
CAP
58.4
kW
PI
Leaving chilled water temperature (˚C)
874 1402 1052 841
1457 1093
1507 1131 904
957 1554 1165 932
980 1595 1197
1000 1633 1225
1017 1666 1249
1695 1271
l/min
WF
13 PD
47 115 67 44
124 72
132 77 51
56 140 81 53
59 148 85
61 154 89
63 160 93
166 96
kPa
PI
3VG21288
82.1
78.3
74.8
71.4
68.2
65.2
62.4
59.7
kW
EDS55-801 Capacity Tables
UWYP100BY1
37
38
50 Hz
102 60 40
96 56 37 89 52 35
1440 1080 864
1393 1045 836 1341 1006 805
31
281
5 3 4
39 105.1
100.0
95.2
90.7
86.4
82.4
78.8
75.4
kW
PI
298
310
320
329
338
345
352
358
kW
CAP
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
l/min
WF
1479 1109 888 1425 1069 855
1529 1147 917
1709 1282 1026 1682 1262 1009 1651 1238 990 1615 1211 969 1574 1181 944
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
5
292
301
3 4
5
3 4
37
35
5
310
318
5 3 4
29
33
325
5 3 4
27
5 3 4
332
5 3 4
126 73 48 122 71 47 118 69 45 113 66 44 108 63 42
1609 1207 965 1584 1188 951 1555 1166 933 1521 1141 913 1483 1112 890
337
kPa
l/min
kW
PD
WF
5
CAP
3 4
T1 ˚C
25
OT ˚C (DB) 7
107 63 41 100 58 39
114 67 44
141 82 54 137 80 53 132 77 51 127 74 49 121 70 47
kPa
PD
106.4
101.2
96.4
91.8
87.5
83.5
79.8
76.4
kW
PI
316
328
339
349
358
366
373
379
kW
CAP
9
120 70 46 112 65 43
128 74 49
158 92 60 153 89 59 148 86 56 142 82 54 135 78 52
kPa
PD
Note)1.Figures in
1568 1176 941 1512 1134 907
1620 1215 972
1812 1359 1087 1783 1337 1070 1749 1312 1049 1711 1283 1026 1668 1251 1001
l/min
WF
107.7
102.5
97.6
93.0
88.7
84.6
80.9
77.4
kW
PI
Leaving chilled water temperature (˚C)
63 158 91 60 150 87 57
1110 1809 1357 1086 1764 1323 1058
134 78 51 125 73 48
1660 1245 996 1601 1201 961
142 83 54
65 164 95
1132 1850 1388
1714 1286 1029
67 171 99
1151 1886 1415
kPa
PD
176 102
11
1918 1438
l/min
WF
109.0
103.8
98.8
94.2
89.8
85.8
82.0
78.4
kW
PI
354
367
379
390
400
409
417
424
kW
CAP
show nominal capacities and conditions.
335
347
359
369
379
387
395
401
kW
CAP
1053 1693 1270 1016
1754 1316
1811 1358 1087
1146 1863 1397 1118
1172 1911 1433
1195 1954 1465
1216 1992 1494
2026 1520
l/min
WF
13 PD
57 139 81 53
149 86
158 91 60
67 167 96 64
69 175 101
72 182 106
74 189 109
196 113
kPa
PI
3VG21289
110.3
105.0
100.1
95.4
91.0
86.9
83.0
79.5
kW
Capacity Tables EDS55-801
UWYP120BY1
Main Data
Main Data
50 Hz
39
37
35
33
31
29
27
25
OT ˚C (DB)
325
337
349
359
368
376
383
1610 1208 966 1550 1163 930
1665 1249 999
1860 1395 1116 1832 1374 1099 1798 1348 1079 1759 1319 1055 1715 1286 1029
l/min
kW
389
WF
CAP
5
91 53 36 85 50 33
97 57 38
119 70 46 115 68 45 111 65 44 107 63 42 102 60 40
kPa
PD
399
391
96.6
101.2
358
345
123.1
370
117.1
111.5
381
407
92.2
106.2
414
kW
CAP
88.3
kW
PI
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
l/min
WF
1710 1283 1026 1648 1236 989
1768 1326 1061
1976 1482 1186 1945 1459 1167 1909 1431 1145 1867 1400 1120 1820 1365 1092
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5 3 4 5
3 4 5
3 4 5 3 4 5 3 4 5 3 4 5 3 4 5
T1 ˚C
7
102 60 40 95 56 37
108 63 42
114 67 45
133 78 52 129 76 50 125 73 49 120 70
kPa
PD
423
414
97.8
102.5
380
366
124.6
392
118.6
112.9
404
431
93.5
107.6
439
kW
CAP
89.5
kW
PI
9
99.1
103.9
56 139 81 54 133 78
44 106 62 41
113 66
120 71 47
126.1
120.0
114.3
108.9
94.7
57 144 84
52 127 74 49
90.7
kW
PI
149 87
kPa
PD
Note)1.Figures in
1813 1360 1088 1748 1311 1049
1873 1405 1124
2095 1572 1257 2061 1546 1237 2022 1517 1213 1978 1483 1187 1928 1446 1157
l/min
WF
388
402
415
427
438
448
456
464
kW
CAP
1152 1851 1389 1111
1919 1440
1982 1487 1189
1255 2040 1530 1224
1283 2092 1569
1309 1604
1331 1636
1663
l/min
WF
11
49 118 69 46
126 74
134 78 52
57 141 83 55
60 148 86
62 90
64 93
96
kPa
PD
127.6
121.5
115.8
110.3
105.2
100.4
96.0
91.9
kW
PI
410
425
438
451
462
473
482
490
kW
CAP
show nominal capacities and conditions.
Leaving chilled water temperature (˚C)
1217 1958 1468 1175
2029 1521
2094 1570 1256
1325 1616 1293
1355 1657
1382 1694
1406 1728
1757
l/min
WF
13 PD
54 131 76 51
140 82
148 87 57
63 91 60
66 96
68 100
71 103
107
kPa
PI
3VG21290
129.1
123.0
117.2
111.7
106.6
101.7
97.2
93.1
kW
EDS55-801 Capacity Tables
UWYP140BY1
39
40
50 Hz
39
37
35
33
31
29
27
25
OT ˚C (DB)
368
383
396
407
418
427
435
1828 1371 1097 1760 1320 1056
1890 1418 1134
2112 1584 1267 2079 1560 1248 2041 1531 1225 1997 1497 1198 1946 1460 1168
l/min
kW
442
WF
CAP
5
115 67 45 107 63 42
122 72 48
151 88 58 147 86 57 141 83 55 136 79 53 129 76 50
kPa
PD
141.1
134.2
127.8
121.7
116.0
110.7
105.7
101.2
kW
PI
391
406
420
432
444
453
462
470
kW
CAP
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5 3 4 5
3 4 5
3 4 5 3 4 5 3 4 5 3 4 5 3 4 5
T1 ˚C
1941 1456 1165 1870 1403 1122
2007 1505 1204
2243 1683 1346 2208 1656 1325 2167 1625 1300 2119 1589 1272 2066 1549 1240
l/min
WF
7
129 75 50 120 70 47
137 80 53
169 98 65 164 96 63 158 92 61 152 89 59 145 84 56
kPa
PD
431
415
142.8
445
135.9
129.4
123.3
56 134 78 52
144 84
Note)1.Figures in
2058 1544 1235 1984 1488 1191
153 89 59
65 161 94 62
1347 2189 1642 1313
470
117.5
2127 1595 1276
68 169 99
1377 2245 1684
480
112.1
458
70 177 103
1404 2296 1722
490
107.1
73 183 107
kPa
PD
1427 2340 1755
9
189 110
l/min
WF
2379 1784
kW
CAP
498
102.5
kW
PI
144.5
137.6
131.0
124.8
119.0
113.6
108.6
103.9
kW
PI
440
456
471
485
497
508
518
527
kW
CAP
1307 2102 1576 1261
2179 1634
2250 1688 1350
1425 2315 1737 1389
1457 2375 1781
1485 1821
1510 1857
1888
l/min
WF
11
62 150 87 58
160 93
170 99 66
72 180 104 69
75 188 110
78 114
81 118
122
kPa
PD
146.3
139.3
132.7
126.4
120.6
115.1
110.0
105.3
kW
PI
465
482
497
512
525
537
547
557
kW
CAP
show nominal capacities and conditions.
Leaving chilled water temperature (˚C)
1382 2222 1667 1333
2303 1727
2377 1783 1426
1505 1834 1467
1538 1881
1569 1923
1596 1961
1994
l/min
WF
13 PD
68 166 97 64
178 103
189 110 72
80 116 76
83 121
86 126
89 131
135
kPa
PI
3VG21291
148.0
141.0
134.3
128.0
122.1
116.6
111.5
106.7
kW
Capacity Tables EDS55-801
UWYP160BY1
Main Data
Main Data
50 Hz
39
37
35
33
31
29
27
25
OT ˚C (DB)
l/min
kW
54 144 81
52 137 77 49
1400 2282 1711
1369 2224 1668 1335
488
478
421
437
452
466
121 68
44 112 63 40
2089 1567
1253 2011 1508 1207
129 73 47
56 151 85
1426 2333 1749
2160 1620 1296
58 157 88
1448 2376 1782
497
161 91
kPa
PD
2413 1810
505
WF
CAP
5
157.6
150.0
142.8
136.0
129.6
123.7
118.1
113.0
kW
PI
447
464
480
494
507
518
528
537
kW
CAP
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
l/min
WF
1331 2138 1603 1283
2219 1664
2293 1720 1376
1453 2361 1771 1417
1486 2422 1816
1514 2476 1857
1538 2523 1893
2564 1923
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5 3 4 5
3 4 5
3 4 5 3 4 5 3 4 5 3 4 5 3 4 5
T1 ˚C
7
49 127 71 46
136 77
146 82 53
59 154 87 56
61 163 91
64 170 96
66 176 99
182 103
kPa
PD
159.6
151.9
144.6
137.7
131.3
125.3
119.7
114.6
kW
PI
475
492
509
524
537
549
560
569
kW
CAP
9
55 143 80 51
153 86
164 92 59
66 173 98 62
69 182 103
71 191 107
74 198 112
205 115
kPa
PD
Note)1.Figures in
1411 2268 1701 1361
2352 1764
2430 1823 1458
1540 2502 1876 1501
1574 2566 1924
1605 2624 1968
1631 2674 2006
2718 2039
l/min
WF
161.5
153.8
146.4
139.5
133.0
127.0
121.3
116.1
kW
PI
503
521
538
554
568
581
592
602
kW
CAP
1494 2402 1801 1441
2490 1868
2571 1929 1543
1628 2646 1985 1588
1665 2714 2035
1698 2081
1726 2122
2158
l/min
WF
11
62 160 90 58
172 97
183 103 66
74 194 109 70
77 204 115
80 120
83 125
129
kPa
PD
163.4
155.6
148.3
141.3
134.7
128.6
122.9
117.7
kW
PI
532
551
569
585
600
613
625
636
kW
CAP
show nominal capacities and conditions.
Leaving chilled water temperature (˚C) PD
1579 2540 1905 1524
64
69 179 101
192 108
74
1630 2632 1974
204 115
2716 2037
78
1677
86 128
89 134
92 139
144
kPa
82 122
13
1720 2096
1758 2149
1793 2198
1823 2241
2279
l/min
WF
PI
3VG21292
165.4
157.5
150.1
143.1
136.5
130.3
124.6
119.2
kW
EDS55-801 Capacity Tables
UWYP180BY1
41
42
50 Hz
39
37
35
33
31
29
27
25
OT ˚C (DB)
465
483
499
514
527
539
549
2307 1730 1384 2221 1666 1333
2385 1789 1431
2665 1999 1599 2624 1968 1574 2575 1932 1545 2520 1890 1512 2456 1842 1474
l/min
kW
558
WF
CAP
5
125 70 45 116 65 42
133 75 48
166 94 60 161 91 58 155 87 56 149 84 54 141 80 51
kPa
PD
572
560
137.8
144.4
513
494
175.6
530
167.1
159.1
546
583
131.6
151.5
593
kW
CAP
125.9
kW
PI
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
l/min
WF
2450 1837 1470 2360 1770 1416
2532 1899 1519
2831 2123 1699 2786 2090 1672 2734 2051 1640 2674 2006 1605 2607 1955 1564
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5 3 4 5
3 4 5
3 4 5 3 4 5 3 4 5 3 4 5 3 4 5
T1 ˚C
7
139.6
146.3
66 175 99 63 167 94
51 130 73 47
141 79
150 85 54
177.8
169.2
161.1
153.5
133.4
68 182 102
60 159 90 57
127.6
kW
PI
188 106
kPa
PD
524
544
562
578
593
606
618
628
kW
CAP
9
57 147 83 53
158 89
169 95 61
68 179 101 64
71 188 106
74 197 111
76 204 115
211 119
kPa
PD
Note)1.Figures in
1559 2504 1878 1502
2598 1948
2684 2013 1610
1700 2762 2072 1657
1738 2833 2125
1772 2897 2173
1801 2953 2215
3002 2251
l/min
WF
179.9
171.3
163.1
155.4
148.2
141.5
135.2
129.4
kW
PI
Leaving chilled water temperature (˚C)
1650 2652 1989 1591
2749 2062
2839 2130 1704
1798 2922 2191 1753
1838 2997 2248
1874 2298
1906 2343
2382
l/min
WF
11
64 165 93 59
177 100
189 106 68
76 200 112 72
79 210 118
82 124
85 129
133
kPa
PD
182.1
173.4
165.2
157.4
150.1
143.3
137.0
131.1
kW
PI
587
608
628
646
662
677
691
702
kW
CAP
show nominal capacities and conditions.
555
575
594
612
627
641
654
665
kW
CAP
1743 2804 2103 1683
2906 2179
2999 2250 1800
1899 2314 1851
1941 2373
1980 2427
2013 2475
2517
l/min
WF
13 PD
71 184 104 66
198 111
211 119 76
84 125 80
88 132
92 138
95 143
148
kPa
PI
3VG21293
184.3
175.5
167.2
159.4
152.1
145.2
138.8
132.8
kW
Capacity Tables EDS55-801
UWYP200BY1
Main Data
Main Data
50 Hz
39
37
35
33
31
29
27
25
OT ˚C (DB)
509
528
546
563
577
590
601
2524 1893 1515 2430 1823 1458
2610 1958 1566
2916 2187 1750 2871 2154 1723 2818 2114 1691 2757 2068 1654 2688 2016 1613
l/min
kW
610
WF
CAP
5
149 84 54 138 78 50
160 90 58
199 112 72 193 109 70 186 105 67 178 100 64 169 95 61
kPa
PD
626
613
151.9
159.2
561
541
193.6
580
184.2
175.4
597
638
145.1
167.0
648
kW
CAP
138.8
kW
PI
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5 3 4 5
3 4 5
3 4 5 3 4 5 3 4 5 3 4 5 3 4 5
T1 ˚C
153.9
161.3
78 210 118 76 201 113
168 95 156 88 56
2583 1937 1550
180 101 65
196.0
186.5
177.6
169.2
147.1
81 218 122
72 191 107 69
140.7
kW
PI
225 126
kPa
PD
2681 2011
2771 2078 1663
1756 2853 2140 1712
3098 2324 1859 3049 2287 1829 2992 2244 1795 2927 2195
l/min
WF
7
574
595
615
633
649
664
676
687
kW
CAP
Note)1.Figures in
68 176 99 63
1706 2740 2055 1644
202 114 73
81 214 120 77
85 225 127
88 235 132
91 245 138
253 142
kPa
PD
189 106
9
2843 2132
2937 2203 1762
1860 3023 2267 1814
1902 3101 2325
1939 3170 2378
1971 3232 2424
3285 2464
l/min
WF
198.4
188.8
179.8
171.4
163.4
155.9
149.0
142.6
kW
PI
Leaving chilled water temperature (˚C)
1805 2902 2177 1741
3009 2257
3107 2330 1864
1968 3197 2398 1918
2012 3279 2460
2051 2515
2086 2564
2607
l/min
WF
11
76 197 111 71
212 119
226 127 81
91 239 135 86
95 252 142
99 148
102 154
159
kPa
PD
200.7
191.2
182.1
173.5
165.5
158.0
151.0
144.5
kW
PI
642
666
687
707
725
741
756
769
kW
CAP
show nominal capacities and conditions.
607
630
650
669
686
702
716
728
kW
CAP PD
79
1841
237 133
252 142 91
101 150 96
106 158
110 165
114 172
178
kPa
85 221 124
13
1908 3069 2302
3180 2385
3282 2462 1969
2078 2533 2026
2125 2597
2166 2656
2203 2708
2754
l/min
WF
PI
3VG21294
203.1
193.5
184.3
175.7
167.6
160.0
153.0
146.4
kW
EDS55-801 Capacity Tables
UWYP220BY1
43
44
50 Hz
4 5 3
4 5 3
4 5
29
31
33
4 5
39
201.4
211.6
83 53
1980 1584
553
191.7
89 57 147
159
95 61
170
2057 1645 2640
2742
2126 1701
2835
665
174.0
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
T1: Chilled water temperature difference (inlet/outlet) (deg)
587
610
630
649
680
166.0
182.5
693
704
kW
CAP
158.6
151.7
kW
PI
574
593
101 65
107 68 180
2246 1797 2920
627
2190 1752
111 71 189
2296 1837 2995
641
611
116 74 198
2339 1871 3061
119 76 205
653
212
2376 1901 3119
kPa
PD
3168
l/min
kW
663
WF
CAP
5
OT: Outdoor temperature (˚C DB)
Symbols:
4 5 3
37
3
4 5
3
4 5 3
27
35
4 5 3
3
T1 ˚C
25
OT ˚C (DB)
2912 2184 1747 2806 2104 1683
3010 2258 1806
3365 2524 2019 3312 2484 1987 3250 2437 1950 3179 2384 1907 3099 2324 1859
l/min
WF
7
179 101 65 166 94 60
191 108 69
239 135 86 232 130 83 223 125 80 213 120 77 203 114 73
kPa
PD
721
705
168.2
176.3
214.2
203.9
194.1
623
646
668
687
735
160.7
184.9
747
kW
CAP
153.8
kW
PI
9
201 113 73 187 105 67
215 121 77
269 151 97 260 146 94 250 141 90 239 135 86 228 128 82
kPa
PD
Note)1.Figures in
3088 2316 1853 2976 2232 1786
3190 2392 1914
3568 2676 2141 3510 2633 2106 3443 2583 2066 3368 2526 2021 3283 2463 1970
l/min
WF
216.8
206.4
196.5
187.3
178.6
170.4
162.9
155.9
kW
PI
Leaving chilled water temperature (˚C)
3268 2451 1961 3152 2364 1891
3375 2531 2025
2832 2265 2785 2228 2732 2185 3562 2672 2137 3473 2605 2084
l/min
WF
11
225 127 81 210 118 76
240 135 87
169 108 164 105 158 101 268 151 96 255 143 92
kPa
PD
219.4
208.9
199.0
189.7
180.9
172.7
165.0
157.9
kW
PI
698
723
746
768
787
805
821
835
kW
CAP
show nominal capacities and conditions.
660
684
706
727
746
762
777
790
kW
CAP
3454 2590 2072 3334 2500 2000
3565 2674 2139
2992 2393 2941 2353 2885 2308 2821 2257 2751 2201
l/min
WF
13 PD
PI
174.9
183.2
112 168
91 235 132 85
252 142
268 151 97
3VG21295
222.0
211.5
201.5
192.1
167.2 117 176
108 160 102
160.0 121 183
kW
189
kPa
Capacity Tables EDS55-801
UWYP240BY1
Main Data
Main Data
50 Hz
39
37
35
33
31
29
27
25
OT ˚C (DB)
649
674
697
718
736
753
767
3221 2416 1932 3101 2326 1860
3330 2498 1998
3721 2791 2232 3664 2748 2198 3596 2697 2158 3518 2638 2111 3429 2572 2058
l/min
kW
779
WF
CAP
5
91 53 36 85 50 33
97 57 38
119 70 46 115 68 45 111 65 44 107 63 42 102 60 40
kPa
PD
799
782
193.1
202.4
716
690
246.2
740
234.2
223.0
762
814
184.5
212.4
827
kW
CAP
176.5
kW
PI
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
l/min
WF
3421 2566 2052 3295 2472 1977
3536 2652 2120
3953 2965 2372 3890 2918 2334 3817 2863 2290 3734 2800 2240 3640 2730 2184
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5 3 4 5
3 4 5
3 4 5 3 4 5 3 4 5 3 4 5 3 4 5
T1 ˚C
7
205.1
40 95 56 37
102 60
108 63 42
249.2
237.2
225.8
215.1
195.7
49 120 70 47 114 67 45
863
187.0
50 125 73
732
759
784
807
828
847
877
kW
CAP
178.9
kW
PI
133 78 52 129 76
kPa
PD
9
44 106 62 41
113 66
120 71 47
52 127 74 49
54 133 78
252.2
240.1
228.6
217.9
207.7
198.3
189.5
57 144 84 56 139 81
181.3
kW
PI
149 87
kPa
PD
Note)1.Figures in
3627 2720 2176 3496 2622 2098
3747 2810 2248
2374 3857 2892 2314
2427 3956 2967
2474 4045 3034
4191 3143 2515 4123 3092
l/min
WF
Leaving chilled water temperature ˚C
2303 3703 2777 2222
3839 2879
3964 2973 2379
2510 4079 3060 2448
2567 4184 3138
2617 3209
2661 3271
3326
l/min
WF
11
49 118 69 46
126 74
134 78 52
57 141 83 55
60 148 86
62 90
64 93
96
kPa
PD
255.2
243.0
231.5
220.6
210.4
200.9
192.0
183.7
kW
PI
820
849
877
902
925
946
964
981
kW
CAP
show nominal capacities and conditions.
775
803
830
854
876
895
913
928
kW
CAP
2434 3916 2937 2349
4057 3043
4188 3141 2513
2651 3231 2585
2711 3314
2764 3388
2811 3455
3514
l/min
WF
13 PD
54 131 76 51
140 82
148 87 57
63 91 60
66 96
68 100
71 103
107
kPa
PI
3VG21296
258.3
246.0
234.4
223.4
213.1
203.5
194.5
186.2
kW
EDS55-801 Capacity Tables
UWYP280BY1
45
46
50 Hz
4 5 3
4 5 3
4 5 3 4 5
27
29
31
765
737
3 4 5
3 4 5
37
39
115 67 45
107 63 42
3656 2742 2194
3520 2640 2112 282.1
268.5
255.6
783
813
840
3741 2806 2244
3883 2912 2330
4013 3010 2408
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
120 70 47
129 75 50
137 80 53
235.0
89 59 145 84 56
3179 2543 4132 3099 2479
887
285.6
271.8
258.8
246.5
224.3
92 61 152
3250 2600 4238
907
865
214.3
96 63 158
3312 2650 4333
205.0
kW
PI
924
kPa
PD
169 98 65 164
l/min
WF
7
4487 3365 2692 4416
939
kW
CAP
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
791
35
122 72 48
79 53 129 76 50
2995 2396 3893 2920 2336
836
3780 2835 2268
232.0
83 55 136
3061 2449 3993
854
243.4
221.3
86 57 141
3119 2495 4082
870
815
211.4
151 88 58 147 202.3
kW
PI
4224
kPa
PD
3168 2534 4159
l/min
kW
5
884
WF
CAP
3 4 5
33
4 5 3
3
T1 ˚C
25
OT ˚C (DB)
831
862
890
916
940
961
980
996
kW
CAP
134 78 52
Note)1.Figures in
3968 2976 2381
59 144 84 56
2627
2552 4117 3088 2470
62
3368 2694 4378 3283 153 89
68 169 99 65 161 94
2755 4490
4253 3190
73 183 107 70 177 103
2854 4680 3510 2808 4591 3443
kPa
PD
189 110
9
4757 3568
l/min
WF
289.0
275.2
262.1
249.7
238.1
227.2
217.1
207.8
kW
PI
Leaving chilled water temperature (˚C)
4203 3152 2522
2700 4358 3268 2615
4500 3375
2778
2914 4749 3562 2850 4631 3473
150 87 58
66 160 93 62
170 99
69
75 188 110 72 180 104
78 114
2971 3642
122
kPa
PD
81 118
11
3021 3713
3776
l/min
WF
292.5
278.6
265.3
252.9
241.2
230.2
220.0
210.6
kW
PI
930
964
995
1024
1050
1073
1095
1113
kW
CAP
show nominal capacities and conditions.
880
912
942
969
994
1016
1036
1054
kW
CAP
4445 3334 2667
2852 4605 3454 2763
4754 3565
2934
3009 3668
3077 3762
3138 3846
3191 3922
3989
l/min
WF
13 PD
166 97 64
72 178 103 68
189 110
76
80 116
83 121
86 126
89 131
135
kPa
PI
3VG21297
296.0
281.9
268.6
256.1
244.3
233.2
222.9
213.4
kW
Capacity Tables EDS55-801
UWYP320BY1
Main Data
Main Data
50 Hz
161 91 58 157 88 56 151 85 54
144 81 52
137 77 49
129 73 47
121 68 44 112 63 40
4827 3620 2896 4753 3565 2852 4665 3499 2799
4564 3423 2738
4449 3337 2669
4320 3240 2592
39
4178 3134 2507 4023 3017 2414
842
875
929
895
315.3
960
988
300.0
285.6
272.0
1014
1036
247.3
259.2
1056
1073
kW
CAP
236.3
226.1
kW
PI
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
l/min
WF
4438 3328 2663 4275 3206 2565
4587 3440 2752
4722 3542 2833
4844 3633 2906
5128 3846 3077 5047 3785 3028 4952 3714 2971
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5 3 4 5
904
3 4 5
35
37
931
3 4 5
33
955
3 4 5
976
995
1010
kPa
l/min
kW
PD
WF
5
CAP
31
29
3 4 5 3 4 5
3 4 5
25
27
T1 ˚C
OT ˚C (DB) 7
136 77 49 127 71 46
146 82 53
154 87 56
163 91 59
176 99 64 170 96 61
182 103 66
kPa
PD
985
949
319.1
1017
1047
1074
1098
1120
1138
kW
CAP
303.7
289.2
275.5
262.6
250.6
239.5
229.1
kW
PI
9
153 86 55 143 80 51
164 92 59
173 98 62
182 103 66
198 112 71 191 107 69
205 115 74
kPa
PD
Note)1.Figures in
4705 3529 2823 4535 3402 2721
4861 3646 2917
5003 3752 3002
5132 3849 3079
5349 4012 3209 5247 3935 3148
5437 4078 3262
l/min
WF
323.0
307.5
292.8
279.0
266.1
253.9
242.7
232.2
kW
PI
Leaving chilled water temperature (˚C)
4980 3735 2988 4804 3603 2882
5143 3857 3086
5292 3969 3175
5428 4071 3257
4244 3395 4163 3330
4315 3452
l/min
WF
11
172 97 62 160 90 58
183 103 66
194 109 70
204 115 74
125 80 120 77
129 83
kPa
PD
326.9
311.3
296.5
282.6
269.5
257.3
245.9
235.3
kW
PI
1063
1102
1137
1170
1200
1227
1251
1272
kW
CAP
show nominal capacities and conditions.
1005
1042
1076
1108
1136
1162
1184
1204
kW
CAP
5263 3947 3158 5080 3810 3048
5433 4075 3260
4192 3354
4299 3439
4482 3586 4396 3517
4559 3647
l/min
WF
13 PD
192 108 69 179 101 64
204 115 74
122 78
128 82
139 89 134 86
144 92
kPa
PI
3VG21298
330.8
315.1
300.2
286.1
273.0
260.6
249.1
238.4
kW
EDS55-801 Capacity Tables
UWYP360BY1
47
48
50 Hz
998
966
930
3 4 5
3 4 5
3 4 5
35
37
39
141 80 51
4912 3684 2947
4442 3331 2665
4614 3460 2768
4770 3578 2862
116 65 42
125 70 45
133 75 48
155 87 56 149 84 54
5151 3863 3091 5039 3779 3023
988
1026
1060
1091
1119
1144
1166
4720 3540 2832
4900 3675 2940
5064 3798 3038
5214 3910 3128
5468 4101 3281 5348 4011 3209
5573 4179 3344
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
T1: Chilled water temperature difference (inlet/outlet) (deg)
351.3
334.2
318.2
303.0
288.8
275.6
263.2
5662 4247 3397
161 91 58
1185
5248 3936 3149
251.9
166 94 60
5330 3997 3198
OT: Outdoor temperature (˚C DB)
Symbols:
1028
3 4 5
1055
1078
33
31
3 4 5 3 4 5
1098
3 4 5
27
29
1116
3 4 5
25
l/min
kW
kW
kPa
l/min
kW
WF
CAP
PI
5
PD
WF
CAP
T1 ˚C
OT ˚C (DB) 7
131 73 47
141 79 51
150 85 54
159 90 57
175 99 63 168 94 60
182 102 66
355.5
338.4
322.2
306.9
292.6
279.2
266.8
255.3
1048
1087
1123
1156
1186
1213
1236
1256
kW
kW
kPa
188 106 68
CAP
PI
PD
326.3
342.6
359.9
197 111 71 188 106 68 179 101 64 169 95 61 158 89 57 147 83 53
5794 4345 3476 5667 4250 3400 5524 4143 3315 5367 4025 3220 5195 3896 3117 5008 3756 3005
Note)1.Figures in
310.9
204 115 74
5906 4429 3544
296.4
282.9
270.3
258.7
200 113 72 189 106 68 177 100 64 165 93 59
5679 4259 3407 5499 4124 3299 5304 3978 3182
124 79 210 118 76
129 82
5844 4383 3506
4596 3677 5993 4495 3596
4686 3749
133 85
364.2
346.8
330.3
314.8
300.3
286.6
273.9
262.2
1174
1216
1256
1292
1325
1354
1381
1405
kW
kW
kPa
l/min
4765 3812
CAP
PI
PD
11 WF
show nominal capacities and conditions.
1110
1151
1189
1223
1254
1283
1308
1330
kW
kW
211 119 76
CAP
PI
6003 4502 3602
PD kPa
9 l/min
WF
Leaving chilled water temperature (˚C)
351.0
368.5
198 111 71 184 104 66
5811 4359 3487 5609 4207 3365
3VG21299
334.4
211 119 76
304.1
290.3
277.5
265.6
5999 4499 3599
138 88 132 84
143 92
148 95
PI kW
PD kPa
318.8
13
125 80
4629 3703
4854 3883 4747 3797
4949 3959
5034 4027
l/min
WF
Capacity Tables EDS55-801
UWYP400BY1
Main Data
Main Data
50 Hz
39
37
35
1017
1057
1093
4861 3646 2916
5220 3915 3132 5049 3787 3029
138 78 50
160 90 58 149 84 54 387.2
368.5
350.7
334.1
318.4
303.8
290.2
1081
1122
1160
1194
1225
1252
1276
1297
5166 3874 3099
5542 4157 3326 5362 4022 3217
5706 4279 3424
5853 4390 3512
5984 4488 3590
6098 4574 3659
6196 4647 3718
l/min
kW
kW
277.7
WF
CAP
PI
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5
3 4 5 3 4 5
169 95 61
1125
5376 4032 3225
3 4 5
33
178 100 64
5515 4136 3309
1154
3 4 5
31
186 105 67
5637 4228 3382
1180
3 4 5
29
193 109 70
5743 4307 3446
1202
3 4 5
27
199 112 72
5833 4374 3500
1221
3 4 5
25
kPa
l/min
kW
PD
WF
5
CAP
T1 ˚C
OT ˚C (DB) 7
156 88 56
180 101 65 168 95 61
191 107 69
201 113 72
210 118 76
218 122 78
225 126 81
kPa
PD
392.0
373.1
355.2
338.4
322.6
307.8
294.1
1147
1190
1229
1265
1298
1327
1353
1375
kW
kW
281.4
CAP
PI
235 132 85 225 127 81 214 120 77
6340 4755 3804 6201 4651 3721 6046 4534 3627
176 99 63
Note)1.Figures in
5480 4110 3288
202 114 73 189 106 68
245 138 88
6463 4847 3878
5874 4405 3524 5685 4264 3411
253 142 91
6569 4927 3942
PD kPa
9 l/min
WF
396.7
377.7
359.7
342.7
326.8
311.9
298.0
285.2
kW
PI
Leaving chilled water temperature (˚C)
5804 4353 3483
197 111 71
226 127 81 212 119 76
239 135 86
6395 4796 3837 6214 4661 3729 6018 4513 3611
252 142 91
6559 4919 3935
154 99
159 102
kPa
PD
148 95
11
5030 4024
5128 4102
5214 4171
l/min
WF
1285
1331
382.3
401.5
1374
1414
1450
1482
1511
1537
kW
CAP
364.2
347.1
331.0
316.0
302.0
289.0
kW
PI
show nominal capacities and conditions.
1215
1260
1301
1338
1373
1404
1431
1455
kW
CAP
6138 4604 3683
6565 4924 3939 6360 4770 3816
5065 4052
5194 4156
5311 4249
5416 4333
5508 4407
l/min
WF
13 PD
221 124 79
252 142 91 237 133 85
150 96
158 101
165 106
172 110
178 114
kPa
PI
3VG21300
406.3
387.0
368.7
351.5
335.2
320.1
305.9
292.9
kW
EDS55-801 Capacity Tables
UWYP440BY1
49
50
50 Hz
39
37
1105
1148
5484 4113 3290 5280 3960 3168
5670 4253 3402
159 89 57 147 83 53
170 95 61
423.2
402.7
383.3
365.1
348.0
332.0
317.2
1174
1219
1260
1297
1331
1360
1386
1409
PI: Power input (Compressor + Fan) (kW)
PD: Pressure drop (kPa)
WF: Water flow rate (l/min)
CAP: Cooling capacity (kW)
5824 4368 3495 5611 4208 3367
6020 4515 3612
6198 4648 3719
6358 4768 3815
6500 4875 3900
6624 4968 3974
6730 5048 4038
l/min
kW
kW
303.5
WF
CAP
PI
T1: Chilled water temperature difference (inlet/outlet) (deg)
OT: Outdoor temperature (˚C DB)
Symbols:
3 4 5 3 4 5
1187
3 4 5
35
180 101 65
5839 4379 3503
1222
3 4 5
33
189 107 68
5990 4492 3594
1254
3 4 5
31
198 111 71
6123 4592 3674
1282
3 4 5
29
205 116 74
6238 4679 3743
1306
3 4 5
27
212 119 76
6335 4751 3801
1326
3 4 5
25
kPa
l/min
kW
PD
WF
5
CAP
T1 ˚C
OT ˚C (DB) 7
179 101 65 166 94 60
191 108 69
203 114 73
213 120 77
223 125 80
232 130 83
428.4
407.7
388.2
369.8
352.5
336.4
321.4
307.6
1246
1292
1335
1374
1410
1441
1469
1494
kW
kW
kPa
239 135 86
CAP
PI
PD
201 113 73 187 105 67
215 121 77
228 128 82
239 135 86
Note)1.Figures in
6175 4631 3705 5953 4465 3572
6380 4785 3828
6567 4925 3940
6736 5052 4041
250 141 90
6887 5165 4132
269 151 97
kPa
PD
260 146 94
9
7020 5265 4212
7136 5352 4281
l/min
WF
1320 433.6
268 151 96 255 143 92 240 135 87 225 127 81 210 118 76
7124 5343 4275 6946 5210 4168 6750 5063 4050 6536 4902 3922 6305 4729 3783
1446
1395 438.8
1492
1535
1575
1610
1642
1670
kW
CAP
417.8
398.0
379.3
361.8
345.3
158 101
315.9
kW
PI
5463 4371
169 108
kPa
PD
330.0
11
164 105
5570 4456
5664 4531
l/min
WF
show nominal capacities and conditions.
1368
1413
1454
1491
1525
1554
1581
kW
CAP
412.8
393.1
374.5
357.1
340.9
325.7
311.7
kW
PI
Leaving chilled water temperature ˚C
6908 5181 4145 6667 5000 4000
7131 5348 4278
5502 4401
252 142 91 235 132 85
268 151 97
160 102
3VG21301
444.0
422.9
402.9
384.1
366.4
349.8
176 112 5769 4615
168 108
334.4
183 117 5883 4706
5642 4514
320.1
189 121
5983 4787
PI kW
PD kPa
13
l/min
WF
Capacity Tables EDS55-801
UWYP480BY1
Main Data
Main Data
43
143
136
128
122
115
109
103
95.2
87.9
83.5
79.4
75.7
72.2
69.2
66.4
60
410
-
-
93
54
388
512
84
147
647
486
49
132
613
368
44
349
75
68
460
119
42
341
436
74
455
581
24
252
40
36
315
330
63
420
61
22
239
107
33
299
413
57
399
550
20
228
36
30
285
313
52
379
55
18
217
96
27
271
391
47
361
521
16
207
32
25
259
296
43
345
49
15
198
86
23
248
370
40
330
493
14
190
28
21
238
273
37
317
32.3
32.2
32.1
32.1
32.0
31.9
31.8
31.7
31.6
31.4
31.3
31.2
31.1
31.0
30.9
141
134
127
120
114
108
102
94.4
87.4
83.2
79.2
75.7
72.4
69.5
67.0
404
505
673
383
479
638
363
454
605
344
430
573
326
408
543
309
386
515
293
366
488
271
338
451
251
313
418
238
298
397
227
284
379
217
271
362
208
260
346
199
249
332
192
240
320
59
90
158
53
81
142
48
73
128
43
66
116
39
60
104
35
54
94
32
48
85
27
42
73
23
36
62
21
33
57
20
30
52
18
27
47
16
25
43
15
23
40
14
22
37
33.7
33.6
33.6
33.5
33.4
33.4
33.3
33.2
33.0
32.9
32.8
32.7
32.6
32.5
32.4
35.2
35.2
35.1
35.1
35.0
34.9
34.9
34.7
34.6
34.5
34.4
34.3
34.2
34.1
34.0
99.1
91.9
85.4
81.5
78.0
74.8
71.9
69.3
67.1
36.9
36.8
36.8
36.7
36.7
36.6
36.5
36.4
36.3
36.2
36.1
36.0
35.9
35.8
35.7
97.2
90.2
84.0
80.3
76.9
73.9
71.1
68.8
66.7
38.6
38.6
38.5
38.5
38.4
38.4
38.3
38.2
38.1
38.0
37.9
37.8
37.7
37.6
37.5
94.9
88.2
82.2
78.7
75.5
72.6
70.1
67.9
66.1
40.5
40.5
40.4
40.4
40.3
40.3
40.2
40.1
40.0
39.9
39.8
39.7
39.6
39.5
39.4
97.0
92.3
85.9
80.2
76.8
73.8
71.1
68.8
66.8
65.1
42.5
42.4
42.4
42.3
42.3
42.2
42.2
42.1
42.0
41.9
41.8
41.7
41.7
41.6
41.5
94.5
89.8
85.3
81.1
77.2
71.8
67.2
64.4
62.0
59.8
57.9
56.3
55.0
3VG21266
41.3
41.2
41.2
41.2
41.1
41.1
41.0
41.0
40.9
10.8
40.7
40.7
40.6
40.5
40.4
PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
93.3
86.6
82.5
78.8
75.4
72.3
69.6
67.2
PI CAP WF
Leaving hot water temperature
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD
41
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
T1
9.2
Hz
50
OT
EDS55-801 Capacity Tables
Heating Capacity
UWYP40BY1
51
52
Hz
50
OT
T1
43
Leaving hot water temperature
180
170
161
152
144
136
129
119
110
104
99
94
90
86
83
89
568
114
74
515
200
859
644
67
488
180
813
103
60
462
610
92
162
769
577
54
437
145
728
83
48
413
546
74
130
689
516
44
391
117
651
67
39
370
488
60
105
616
462
34
341
51
29
314
426
44
76
524
393
26
298
69
497
40
24
283
373
36
63
472
354
22
270
57
450
33
20
258
338
30
52
430
322
18
247
48
412
28
17
237
309
26
45
297
395
177
168
159
150
142
135
128
118
109
104
99
94
90
87
83
507
634
845
480
600
801
455
569
758
431
538
718
408
510
680
386
483
644
366
457
610
338
422
563
312
390
520
297
371
495
283
354
471
270
338
450
259
323
431
248
310
414
239
299
399
72
111
194
65
100
175
58
90
157
52
81
141
47
73
127
43
65
114
38
59
103
33
50
88
28
43
76
26
39
69
24
36
62
22
33
57
20
30
53
18
28
49
17
26
45
39.7
39.6
39.5
39.4
39.3
39.2
39.1
38.9
38.7
38.6
38.5
38.3
38.2
38.1
37.9
41.5
41.5
41.4
41.3
41.2
41.1
41.0
40.8
40.7
40.5
40.4
40.3
40.1
40.0
39.9
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
37.9
37.8
37.7
37.6
37.5
37.4
37.3
37.1
37.0
36.8
36.7
36.5
36.4
36.3
36.1
45.7
45.6
45.6
45.5
45.4
45.3
45.2
45.1
44.9
44.8
44.7
44.5
44.4
44.3
44.1
48.0
47.9
47.8
47.8
47.7
47.6
47.5
47.4
47.2
47.1
47.0
46.9
46.7
46.6
46.5
50.4
50.3
50.2
50.2
50.1
50.0
49.9
49.8
49.7
49.6
49.4
49.3
49.2
49.1
49.0
49.0
49.0
48.9
48.9
48.8
48.7
48.7
48.5
48.4
48.3
48.2
48.1
48.0
47.9
47.8
3VG21267
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
43.6
43.5
43.4
43.3
43.2
43.1
43.0
42.9
42.7
42.6
42.5
42.3
42.2
42.1
41.9
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
41
Capacity Tables EDS55-801
UWYP50BY1
Main Data
Main Data
Hz
50
OT
T1
43
Leaving hot water temperature
215
204
193
183
174
165
156
144
134
127
121
116
111
107
103
109
690
135
87
616
236
1027
770
79
584
213
974
121
71
554
730
109
192
923
692
64
525
173
875
99
58
498
657
89
156
830
622
52
472
140
787
80
47
448
590
73
127
746
560
41
414
62
35
384
518
54
94
639
480
32
365
85
609
49
29
348
457
45
78
580
435
27
333
71
555
41
25
319
416
38
66
531
399
23
306
61
511
35
22
295
383
33
57
369
492
212
201
191
181
172
163
155
144
133
127
122
116
112
108
104
608
761
1014
577
722
962
548
685
913
520
650
866
493
616
822
468
585
780
444
555
741
412
515
686
382
478
637
365
456
608
348
435
581
334
417
556
320
400
534
308
386
514
298
373
497
85
131
230
77
119
208
70
107
188
63
97
169
57
87
153
51
79
138
47
72
125
40
62
108
35
54
93
32
49
85
29
45
78
27
41
72
25
38
66
23
36
62
22
33
58
49.7
49.5
49.3
49.2
49.0
48.8
48.7
48.4
48.2
48.0
47.9
47.7
47.6
47.4
47.2
52.2
52.0
51.8
51.7
51.5
51.4
51.2
51.0
50.8
50.6
50.5
50.3
50.2
50.0
49.9
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
47.4
47.2
47.0
46.9
46.7
46.5
46.3
46.1
45.8
45.6
45.5
45.3
45.1
45.0
44.8
57.7
57.5
57.4
57.3
57.1
57.0
56.9
56.7
56.5
56.3
56.2
56.1
55.9
55.8
55.7
60.7
60.6
60.5
60.3
60.2
60.1
60.0
59.8
59.6
59.5
59.4
59.2
59.1
59.0
58.9
64.0
63.9
63.7
63.6
63.5
63.4
63.3
63.1
62.9
62.8
62.7
62.6
62.5
62.4
62.3
62.5
62.4
62.3
62.2
62.1
62.0
61.9
61.7
61.6
61.5
61.4
61.3
61.2
61.2
61.1
3VG21268
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
54.8
54.7
54.5
54.4
54.2
54.1
53.9
53.7
53.5
53.4
53.2
53.1
53.0
52.8
52.7
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
41
EDS55-801 Capacity Tables
UWYP60BY1
53
54
Hz
50
OT
T1
43
Leaving hot water temperature
291
276
261
248
235
223
211
195
181
172
164
157
150
145
139
111
833
-
172
-
1042
101
790
271
1317
155
91
749
988
140
245
1249
937
82
711
220
1184
126
74
674
888
114
199
1123
842
67
639
179
1065
103
60
606
798
93
162
1010
757
52
80
560
700
139
45
519
934
69
120
865
649
41
494
109
824
63
38
471
618
57
99
785
589
34
450
91
750
53
32
431
563
48
84
719
539
30
414
78
691
45
28
400
518
42
72
499
666
287
272
259
245
233
221
210
194
180
172
164
157
151
146
141
823
1029
-
781
976
1302
741
926
1235
703
879
1172
667
834
1112
633
791
1055
601
751
1002
557
696
928
517
647
862
493
617
822
471
589
785
451
564
752
433
542
722
417
522
696
403
504
672
109
168
-
98
151
265
89
137
239
80
124
216
73
112
195
66
101
176
60
91
159
52
79
137
45
68
119
41
63
109
38
57
99
35
53
91
32
49
85
30
46
79
28
43
74
71.7
71.4
71.2
70.9
70.7
70.4
70.2
69.8
69.5
69.3
69.0
68.8
68.6
68.4
68.1
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
68.4
68.1
67.8
67.6
67.3
67.1
66.8
66.4
66.1
65.8
65.6
65.3
65.1
64.9
64.6
3VG21269
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
41
Capacity Tables EDS55-801
UWYP80BY1
Main Data
Main Data
Hz
50
OT
T1
43
Leaving hot water temperature
359
340
322
305
288
273
258
238
219
208
198
188
180
172
166
98
64
1030
170
1717
1288
58
975
153
1626
89
53
923
1219
80
138
1539
1154
47
873
124
1456
72
43
826
1092
65
111
1377
1033
39
782
100
1303
58
35
739
977
53
90
1232
924
30
45
681
851
77
26
628
1135
39
66
1047
785
24
596
60
994
35
22
567
745
32
55
945
709
20
540
50
900
30
18
516
675
27
46
859
645
17
494
42
823
25
16
475
617
23
39
593
791
354
335
317
301
285
269
255
235
218
207
197
188
180
173
167
1014
1268
1690
961
1201
1601
910
1137
1516
861
1077
1436
816
1019
1359
772
965
1287
731
914
1219
675
844
1125
624
780
1041
594
742
990
566
707
943
540
675
900
517
646
862
497
621
828
479
598
798
63
95
165
57
86
149
51
78
134
46
70
121
42
63
109
38
57
98
34
52
88
30
44
76
26
38
66
23
35
60
21
32
55
20
30
50
18
27
46
17
25
43
16
24
40
79.3
79.2
79.0
78.8
78.6
78.4
78.2
77.8
77.5
77.2
77.0
76.7
76.4
76.1
75.8
83.1
82.9
82.8
82.6
82.4
82.2
82.0
81.7
81.3
81.1
80.8
80.6
80.3
80.0
79.7
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
75.8
75.7
75.5
75.3
75.1
74.9
74.6
74.3
73.9
73.6
73.4
73.1
72.8
72.5
72.2
91.4
91.3
91.1
90.9
90.8
90.6
90.4
90.1
89.8
89.6
89.3
89.1
88.8
88.6
88.3
95.9
95.8
95.7
95.5
95.4
95.2
95.0
94.7
94.4
94.2
94.0
93.7
93.5
93.2
93.0
100.8
100.6
100.5
100.4
100.2
100.0
99.9
99.6
99.3
99.1
98.9
98.7
98.4
98.2
97.9
98.1
98.0
97.9
97.7
97.6
97.5
97.3
97.1
96.8
96.6
96.4
96.2
96.0
95.8
95.6
3VG21270
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
87.1
87.0
86.8
86.6
86.5
86.3
86.1
85.8
85.4
85.2
84.9
84.7
84.4
84.2
83.9
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
41
EDS55-801 Capacity Tables
UWYP100BY1
55
56
Hz
50
OT
T1
43
Leaving hot water temperature
430
408
386
366
347
329
312
289
268
255
243
232
222
214
206
76
1232
-
116
-
1540
69
1168
181
1947
105
62
1108
1461
95
164
1847
1385
57
1050
148
1751
86
51
996
1313
78
134
1660
1245
46
944
121
1574
70
42
896
1180
64
109
1493
1119
37
55
828
1035
94
32
767
1380
48
82
1279
959
29
730
74
1217
44
27
697
913
40
68
1161
871
25
666
63
1109
37
23
638
832
34
58
1063
797
21
613
54
1021
32
20
591
766
30
50
738
984
424
403
382
363
344
327
310
287
267
254
243
233
223
215
208
1217
1521
2028
1155
1443
1925
1096
1369
1826
1039
1299
1732
986
1233
1644
936
1170
1560
889
1111
1481
823
1029
1372
765
956
1274
729
911
1215
697
871
1161
667
834
1112
641
801
1068
617
771
1028
596
745
994
74
113
196
67
103
177
61
93
160
56
84
145
50
76
131
46
69
119
42
63
108
36
54
93
32
48
81
29
44
74
27
40
68
25
37
63
23
34
58
22
32
54
20
30
51
99.3
99.0
98.7
98.3
98.0
97.6
97.3
96.8
96.3
96.0
95.7
95.4
95.1
94.8
94.5
419
397
377
358
340
323
307
285
265
253
242
233
224
216
209
1200
1500
2000
1139
1424
1898
1081
1352
1802
1026
1283
1711
975
1218
1624
926
1157
1543
880
1100
1467
817
1021
1361
760
950
1267
726
907
1210
695
868
1158
667
833
1111
641
802
1069
619
774
1032
600
750
1000
72
110
191
66
100
173
60
91
156
54
82
142
49
75
128
45
68
116
41
62
106
36
54
92
31
47
80
29
43
74
27
40
68
25
37
63
23
34
58
22
32
55
21
31
52
104.3
104.0
103.6
103.3
103.0
102.7
102.4
101.9
101.5
101.2
100.9
100.6
100.3
100.0
99.7
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
94.8
94.4
94.1
93.7
93.3
93.0
92.6
92.1
91.6
91.3
90.9
90.6
90.2
89.9
89.6
412
391
372
353
335
319
303
282
263
251
241
232
223
216
210
1181
1476
1968
1121
1402
1869
1065
1331
1775
1012
1264
1686
961
1201
1602
914
1142
1523
869
1086
1449
808
1010
1346
753
942
1256
721
901
1201
691
864
1152
664
830
1107
640
800
1067
619
774
1032
602
752
1003
109.6
109.3
109.0
108.7
108.4
108.1
107.8
107.4
107.0
106.7
106.4
106.1
105.9
105.6
105.3
405
384
365
347
330
314
299
278
260
249
239
230
222
216
210
1160
1450
1933
1102
1377
1836
1047
1308
1744
995
1243
1658
946
1182
1576
900
1124
1499
856
1070
1427
797
997
1329
745
931
1241
713
892
1189
685
856
1142
660
825
1100
637
797
1062
618
772
1030
601
752
1002
68
103
179
62
94
162
56
85
147
51
77
133
47
70
121
43
64
110
39
59
100
34
51
88
30
45
77
28
42
71
26
39
66
24
36
62
23
34
58
22
32
55
21
31
52
115.3
115.0
114.8
114.5
114.2
113.9
113.7
113.3
112.9
112.6
112.4
112.1
111.9
111.6
111.4
396
377
358
340
324
308
294
274
256
246
236
228
221
214
209
1137
1421
1894
1080
1350
1800
1026
1283
1711
976
1220
1626
928
1160
1547
883
1104
1472
842
1052
1403
785
981
1308
734
918
1224
704
880
1174
677
847
1129
653
817
1089
632
790
1054
614
768
1024
599
749
998
66
100
172
60
90
156
54
82
142
49
75
129
45
68
117
41
62
107
38
57
97
33
50
85
29
44
75
27
41
70
25
38
65
24
36
60
23
34
57
21
32
54
20
30
52
121.4
121.2
120.9
120.6
120.4
120.1
119.9
119.5
119.2
118.9
118.7
118.5
118.2
118.0
117.8
388
369
350
333
317
302
288
269
252
242
233
225
218
212
207
1112
1390
1853
1056
1321
1761
1004
1255
1674
955
1194
1592
909
1136
1514
865
1082
1442
825
1031
1375
770
962
1283
722
902
1203
693
866
1155
668
834
1113
645
806
1075
625
782
1042
609
761
1014
595
743
991
63
95
165
57
87
150
52
79
136
47
72
123
43
65
112
40
60
102
36
55
94
32
48
82
29
43
73
27
40
68
25
37
63
23
35
59
22
33
56
21
31
53
20
30
51
127.9
127.7
127.4
127.2
127.0
126.7
126.5
126.2
125.8
125.6
125.4
125.2
125.0
124.8
124.6
326
310
295
281
267
254
243
227
213
205
197
191
185
181
177
936
1170
1560
890
1112
1483
846
1057
1409
804
1005
1341
766
957
1276
729
912
1216
696
870
1160
650
813
1083
610
763
1017
587
733
978
566
707
943
548
684
913
532
665
886
519
648
864
508
635
846
46
69
119
42
63
108
38
57
98
35
52
89
32
48
81
29
44
74
27
40
68
24
35
60
21
31
53
20
29
50
18
27
46
17
26
44
17
25
41
16
24
40
15
23
38
124.9
124.7
124.5
124.3
124.1
123.9
123.7
123.4
123.2
123.0
122.8
122.6
122.4
122.3
122.1
3VG21271
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
70
107
185
64
97
168
58
88
152
53
80
138
48
73
125
44
66
114
40
60
103
35
53
90
31
46
79
28
43
73
26
39
67
25
37
62
23
34
58
22
32
55
21
31
52
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
41
Capacity Tables EDS55-801
UWYP120BY1
Main Data
Main Data
Hz
50
OT
T1
43
Leaving hot water temperature
506
480
455
431
409
387
368
340
315
300
286
273
262
251
242
75
1449
-
113
-
1812
68
1375
-
102
-
1718
61
1303
-
93
-
1629
56
1236
144
2060
84
51
1172
1545
76
130
1953
1464
46
1111
118
1851
69
42
1054
1389
63
107
1756
1317
36
54
974
1218
92
32
903
1624
47
80
1504
1128
29
859
73
1432
43
27
819
1074
40
67
1366
1024
25
783
62
1305
37
23
750
979
34
57
1250
938
21
721
53
1201
32
20
695
901
30
50
869
1158
499
474
450
427
405
384
365
338
314
299
286
274
263
253
245
1432
1789
-
1358
1698
-
1289
1611
-
1223
1529
2038
1160
1450
1934
1101
1376
1835
1046
1307
1743
969
1211
1614
900
1124
1499
858
1072
1430
820
1024
1366
785
981
1308
754
942
1256
726
907
1210
702
877
1169
73
110
-
66
100
-
60
91
-
55
82
141
50
75
128
45
68
116
41
62
105
36
54
91
31
47
79
29
43
73
27
40
67
25
37
62
23
34
57
22
32
54
20
30
50
121.3
120.9
120.5
120.1
119.7
119.3
118.9
118.3
117.7
117.3
116.9
116.5
116.1
115.7
115.4
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
115.8
115.3
114.9
114.4
114.0
113.6
113.1
112.5
111.9
111.5
111.0
110.6
110.2
109.8
109.4
3VG21272
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
41
EDS55-801 Capacity Tables
UWYP140BY1
57
58
Hz
50
OT
T1
43
Leaving hot water temperature
581
551
523
496
470
446
423
391
362
345
329
314
301
289
279
97
1667
-
147
-
2083
88
1581
-
133
-
1976
79
1499
-
120
-
1874
72
1421
188
2369
109
65
1347
1776
99
169
2245
1684
59
1277
153
2129
89
54
1212
1597
81
139
2019
1514
47
70
1120
1400
120
41
1038
1867
61
104
1730
1298
37
988
95
1647
56
34
942
1235
51
87
1571
1178
32
901
80
1501
47
29
863
1126
44
74
1438
1078
27
829
68
1382
40
26
799
1036
38
64
999
1332
574
545
517
491
465
442
419
389
361
344
329
315
302
291
281
1646
2058
-
1562
1953
-
1482
1853
-
1406
1758
2344
1334
1668
2224
1266
1583
2111
1202
1503
2004
1114
1392
1856
1034
1293
1724
986
1233
1644
943
1178
1571
903
1128
1504
867
108
1444
835
1043
1391
807
1008
1345
95
144
-
86
130
-
78
118
-
71
107
184
64
97
166
58
88
151
53
80
137
46
69
118
40
61
103
37
55
94
34
51
87
32
47
80
29
44
74
28
41
69
26
39
65
143.3
142.8
142.3
141.8
141.4
140.9
140.4
139.7
139.0
138.5
138.1
137.6
137.2
136.7
136.3
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
136.7
136.2
135.7
135.2
134.7
134.1
133.6
132.9
132.1
131.7
131.2
130.7
130.2
129.7
129.3
3VG21273
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
41
Capacity Tables EDS55-801
UWYP160BY1
Main Data
Main Data
Hz
50
OT
T1
43
Leaving hot water temperature
645
611
580
550
521
494
469
433
401
382
364
348
334
321
309
95
1848
-
148
-
2310
85
1753
-
133
-
2191
77
1662
-
120
-
2077
69
1576
191
2626
108
62
1494
1970
97
172
2490
1867
56
1416
154
2360
87
50
1343
1770
78
139
2239
1679
43
67
1242
1553
119
37
1151
2070
57
102
1918
1439
33
1096
92
1826
52
30
1045
1307
47
84
1741
1306
28
998
77
1664
43
25
957
1248
40
70
1594
1196
23
919
65
1532
37
22
886
1149
34
60
1107
1477
637
604
573
544
516
490
465
431
400
382
365
349
335
323
312
1825
2282
-
1732
2165
-
1643
2054
2739
1559
1949
2599
1479
1849
2466
1404
1755
2340
1333
1666
2222
1235
1544
2058
1147
1434
1911
1094
1367
1823
1045
1306
1742
1001
1251
1668
961
1201
1601
925
1157
1542
894
1118
1491
92
144
-
83
130
-
75
117
208
67
105
187
61
95
168
55
85
152
49
77
137
42
66
117
37
57
101
33
52
92
30
47
84
28
43
77
26
40
71
24
37
66
22
35
62
149.1
148.6
148.1
147.6
147.1
146.6
146.1
145.3
144.6
144.1
143.6
143.2
142.7
142.2
141.8
628
596
566
537
510
484
460
427
398
380
364
349
336
324
314
140 90
2249 1800
81
73
1622
1709
114
2027 -
202
2703
126
66
1540
-
103
2136
182
65
1531
1925
116
2041
2566
36
1140
59
56
1425
1462
100
1900
93
33
1089
165
51
1361
1828
91
1815
2437
30
1042
54
47
1303
1389
84
1737
84
28
1000
148
43
1250
1736
77
1667
2315
26
962
48
40
1203
1320
71
1604
75
24
929
134
37
1161
1650
66
1548
2200
23
900
42
35
1125
1225
62
1500
156.5
156.0
155.6
155.1
154.6
154.1
153.7
153.0
152.3
151.8
151.4
151.0
150.5
150.1
149.7
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
142.3
141.7
141.2
140.6
140.1
139.6
139.0
138.3
137.5
137.0
136.5
136.0
135.5
135.0
134.5
618
587
557
529
503
478
455
423
394
377
362
348
335
324
315
1771
2214
-
1682
2102
-
1597
1997
2662
1517
1897
2529
1442
1802
2403
1370
1713
2284
1304
1630
2173
1212
1515
2020
1130
1412
1883
1081
1351
1802
1036
1295
1727
996
1245
1660
961
1201
1601
929
1162
1549
902
1128
1504
164.5
164.1
163.6
163.2
162.7
162.3
161.8
161.2
160.6
160.1
159.7
159.3
158.9
158.5
158.1
607
576
548
520
495
471
448
417
390
373
358
345
333
323
315
1739
2174
-
1653
2066
-
1570
1963
2617
1492
1865
2487
1418
1773
2364
1349
1687
2249
1285
1606
2141
1196
1495
1993
1117
1396
1862
1070
1338
1784
1028
1285
1713
990
1237
1649
956
1195
1593
927
1158
1545
902
1127
1503
84
131
-
76
118
-
68
107
190
62
96
171
56
87
155
51
79
140
46
72
127
40
62
110
35
54
96
32
50
88
29
46
81
27
42
75
25
40
70
24
37
66
23
35
63
173.1
172.7
172.3
171.8
171.4
171.0
170.6
170.0
169.4
169.0
168.6
168.3
167.9
167.5
167.1
595
565
537
511
486
462
440
411
384
369
354
342
331
321
313
1705
2131
-
1620
2025
2700
1540
1925
2566
1464
1830
2440
1392
1740
2320
1325
1656
2209
1263
1578
2104
1177
1471
1961
1101
1377
1835
1056
1320
1761
1016
1270
1693
980
1225
1633
948
1185
1581
921
1152
1535
899
1123
1498
81
126
-
73
114
202
66
103
182
59
93
165
54
84
149
49
76
135
44
69
123
38
60
107
34
53
93
31
48
86
29
45
80
27
42
74
25
39
69
24
37
65
22
35
62
182.3
181.9
181.5
181.1
180.7
180.3
180.0
179.4
178.9
178.5
178.1
177.8
177.4
177.1
176.8
582
553
525
500
475
453
432
403
378
363
349
337
327
318
311
193 109 70
2641 1981 1585
77
63
1506
1667
98
1883
-
175
2511
120
57
1432
-
89
2084
158
58
1444
1791
103
1925
2387
33
1082
52
51
1353
1363
90
1804
81
30
1040
143
47
1300
1704
83
1733
2272
28
1001
47
43
1252
1298
77
1669
73
26
967
130
41
1209
1623
72
1612
2163
24
938
43
38
1172
1237
68
1563
66
23
913
118
36
1141
1547
64
1521
2062
22
892
37
35
1115
1155
61
1487
192.0
191.6
191.3
190.9
190.6
190.2
189.9
189.4
188.9
188.5
188.2
187.9
187.6
187.3
187.0
490
465
442
421
401
382
364
340
319
307
296
286
278
271
266
1404
1755
2340
1334
1668
2224
1268
1586
2114
1207
1508
2011
1148
1435
1914
1094
1368
1823
1044
1305
1739
975
1219
1625
915
1144
1525
880
1100
1467
849
1061
1415
821
1027
1369
798
997
1329
778
972
1296
762
952
1270
55
85
152
49
77
137
45
70
124
40
63
112
37
57
102
33
52
92
30
47
84
26
41
73
23
36
65
22
34
60
20
31
56
19
29
52
18
28
49
17
26
47
16
25
45
187.5
187.2
186.9
186.6
186.3
186.0
185.7
185.3
184.9
184.6
184.3
184.0
183.8
183.5
183.3
3VG21274
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
87
136
-
78
123
-
71
111
196
64
100
177
58
90
160
52
81
145
47
74
131
41
64
113
35
55
98
32
51
90
30
47
83
28
43
76
26
40
71
24
37
67
23
35
63
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
41
EDS55-801 Capacity Tables
UWYP180BY1
59
60
Hz
50
OT
T1
43
Leaving hot water temperature
720
683
648
614
582
552
524
484
449
427
407
389
373
358
345
100
2065
-
156
-
2582
90
1959
-
140
-
2449
81
1857
-
126
-
2322
73
1761
202
2935
114
65
1669
2201
102
181
2782
2087
59
1583
163
2638
92
53
1501
1979
83
147
2502
1877
45
71
1388
1735
125
39
1286
2314
61
108
2144
1608
35
1225
98
2041
55
32
1168
1531
50
89
1946
1460
29
1116
81
1860
46
27
1069
1395
42
74
1782
1336
25
1027
69
1712
39
23
990
1284
36
64
1238
1650
712
675
641
608
577
547
520
481
447
426
407
390
375
361
349
2040
2550
-
1936
2420
-
1837
2296
-
1743
2178
2904
1653
2067
2756
1569
1961
2615
1490
1860
2483
1380
1725
2300
1282
1602
2136
1222
1528
2037
1168
1460
1947
1118
1398
1864
1074
1342
1790
1034
1293
1724
1000
1250
1666
98
152
-
88
137
-
79
123
-
71
111
198
64
100
178
58
90
160
52
81
144
45
70
124
39
60
107
35
55
97
32
50
89
29
46
81
27
42
75
25
39
70
23
37
65
171.0
170.4
169.8
169.2
168.7
168.1
167.5
166.7
165.8
165.3
164.7
164.2
163.7
163.1
162.6
702
666
632
600
570
541
515
478
444
425
406
390
375
362
351
148 95
2514 2011
85
77
1813
1910
120
2266 -
214
3021
133
69
1721
-
108
2387
193
69
1711
2151
122
2282
2868
38
1274
63
59
1593
1634
106
2123
98
35
1217
174
54
1521
2043
96
2028
2723
32
1165
56
50
1456
1552
88
1941
88
29
1118
157
46
1397
1940
81
1863
2587
27
1075
51
42
1344
1475
75
1792
80
25
1038
142
40
1298
1844
70
1730
2459
24
1006
44
37
1257
1369
66
1676
179.5
178.9
178.4
177.8
177.3
176.8
176.2
175.4
174.7
174.1
173.6
173.1
172.6
172.1
171.6
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
163.1
162.5
161.9
161.3
160.7
160.1
159.5
158.6
157.7
157.1
156.5
155.9
155.4
154.8
154.2
690
656
623
592
562
534
508
472
441
421
404
388
374
362
352
1979
2474
-
1880
2350
-
1785
2232
2976
1696
2120
2826
1611
2014
2686
1532
1915
2553
1457
1821
2428
1354
1693
2257
1263
1579
2105
1208
1510
2014
1158
1448
1930
1113
1392
1856
1074
1342
1789
1039
1298
1731
1009
1261
1681
188.7
188.2
187.6
187.1
186.6
186.1
185.6
184.9
184.1
183.7
183.2
182.7
182.2
181.8
181.3
678
644
612
582
553
526
501
466
436
417
401
386
373
361
352
1944
2430
-
1847
2309
-
1755
2193
2925
1668
2084
2779
1585
1982
2642
1508
1885
2513
1436
1795
2393
1337
1671
2228
1249
1561
2081
1196
1495
1993
1149
1436
1914
1106
1382
1843
1068
1335
1781
1036
1295
1726
1008
1260
1680
89
138
-
80
125
-
72
113
200
65
102
181
59
92
164
53
83
148
48
75
134
42
65
116
37
57
101
34
52
93
31
48
86
29
45
80
27
42
74
25
39
70
24
37
66
198.5
198.0
197.5
197.1
196.6
196.1
195.7
195.0
194.3
193.9
193.4
193.0
192.5
192.1
191.7
665
632
600
571
543
517
492
459
429
412
396
382
370
359
350
1905
2382
-
1811
2263
3018
1721
2151
2868
1636
2045
2727
1556
1945
2593
1481
1851
2468
1411
1764
2352
1315
1644
2192
1231
1539
2051
1181
1476
1968
1135
1419
1892
1095
1369
1825
1060
1325
1767
1030
1287
1716
1004
1255
1674
85
133
-
77
120
213
69
108
193
63
98
174
57
89
158
51
80
143
47
73
130
41
63
113
36
56
99
33
51
91
30
47
84
28
44
78
26
41
73
25
39
69
24
37
66
209.0
208.6
208.1
207.7
207.2
206.8
206.4
205.7
205.1
204.7
204.3
203.9
203.5
203.1
202.7
650
618
587
558
531
506
482
450
422
405
390
377
366
356
348
204 115 74
2952 2214 1771
81
66
1684
1864
104
2104
-
184
2806
127
60
1601
-
94
2329
167
61
1614
2001
108
2151
2668
34
1210
54
54
1512
1523
95
2016
85
32
1162
151
49
1452
1904
88
1937
2539
29
1119
49
46
1399
1451
82
1865
77
27
1081
137
43
1351
1813
76
1802
2418
26
1048
45
40
1310
1383
72
1747
70
24
1020
124
38
1275
1729
68
1700
2305
23
997
39
36
1246
1291
65
1662
220.2
219.8
219.4
219.0
218.6
218.2
217.8
217.2
216.6
216.2
215.9
215.5
215.1
214.8
214.4
547
520
495
470
448
427
407
380
357
343
331
320
311
303
297
1569
1961
2615
1491
1864
2485
1418
1772
2363
1348
1686
2247
1283
1604
2139
1223
1529
2038
1166
1458
1944
1090
1362
1816
1023
1279
1705
984
1230
1639
949
1186
1581
918
1147
1530
891
1114
1486
869
1087
1449
851
1064
1419
58
90
160
52
81
145
47
74
131
43
67
118
39
60
107
35
55
97
32
50
89
28
44
77
25
38
68
23
35
63
21
33
59
20
31
55
19
29
52
18
28
49
17
27
47
215.0
214.7
214.3
214.0
213.7
213.3
213.0
212.5
212.0
211.7
211.4
211.1
210.8
210.5
210.2
3VG21275
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
92
143
-
83
129
-
75
117
207
67
105
187
61
95
169
55
86
153
50
78
138
43
67
119
37
58
104
34
53
95
31
49
87
29
45
81
27
42
75
25
40
70
24
37
66
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
41
Capacity Tables EDS55-801
UWYP200BY1
Main Data
Main Data
Hz
50
OT
T1
43
Leaving hot water temperature
796
755
716
679
644
610
579
535
496
472
450
430
412
396
382
122
2283
-
191
-
2853
110
2165
-
171
-
2706
99
2053
-
154
-
2566
89
1946
246
3244
139
80
1845
2433
125
221
3075
2307
72
1750
199
2916
112
65
1659
2187
101
179
2766
2074
55
86
1534
1918
153
47
1422
2557
74
131
2370
1777
43
1353
119
2256
67
39
1291
1692
61
108
2151
1613
36
1233
99
2056
56
33
1182
1542
51
91
1969
1477
30
1135
84
1892
47
28
1094
1419
44
78
1368
1824
787
746
708
672
637
605
574
532
494
471
450
431
414
399
385
2255
2818
-
2140
2675
-
2030
2538
-
1926
2408
3210
1827
2284
3046
1734
2168
2891
1647
2058
2745
1526
1907
2543
1417
1771
2361
1351
1689
2252
1291
1614
2151
1236
1545
2060
1187
1484
1978
1143
1429
1905
1105
1381
1841
119
186
-
107
167
-
97
151
-
87
136
241
78
122
217
70
110
196
64
99
176
55
85
151
47
73
131
43
67
119
39
61
108
36
56
99
33
52
92
31
48
85
29
45
79
193.0
192.3
191.6
191.0
190.3
189.7
189.0
188.1
187.2
186.5
185.9
185.3
184.7
184.1
183.5
775
736
699
663
630
598
569
528
491
469
449
431
415
400
388
2223
2779
-
2111
2638
-
2004
2504
-
1902
2378
3170
1806
2258
3010
1715
2144
2859
1630
2038
2717
1513
1891
2522
1408
1760
2347
1345
1681
2242
1287
1609
2146
1235
1544
2059
1189
1486
1981
1147
1434
1912
1112
1390
1853
116
181
-
104
163
-
94
147
-
85
132
235
76
119
212
69
108
191
62
97
173
54
84
149
46
73
129
42
66
118
39
61
108
36
56
99
33
52
92
31
48
86
29
45
80
202.6
202.0
201.3
200.7
200.1
199.5
198.9
198.0
197.1
196.5
196.0
195.4
194.8
194.3
193.7
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
184.1
183.4
182.7
182.0
181.3
180.6
180.0
178.9
177.9
177.3
176.6
176.0
175.3
174.7
174.1
763
725
688
654
621
591
562
522
487
466
447
429
414
400
389
2188
2735
-
2078
2597
-
1973
2467
3289
1874
2343
3124
1781
2226
2968
1693
2116
2822
1610
2013
2684
1497
1871
2495
1396
1745
2326
1335
1669
2225
1280
1600
2134
1231
1538
2051
1187
1483
1978
1148
1435
1913
1115
1393
1858
212.9
212.4
211.8
211.2
210.6
210.0
209.5
208.6
207.8
207.3
206.7
206.2
205.7
205.2
204.6
750
712
677
643
611
581
554
515
481
461
443
426
412
399
389
2149
2686
-
2041
2552
-
1939
2424
3232
1843
2304
3072
1752
2190
2920
1667
2083
2778
1587
1984
2645
1477
1847
2462
1380
1725
2300
1322
1652
2203
1269
1587
2116
1222
1528
2037
1181
1476
1968
1145
1431
108
169
-
98
152
-
88
138
245
80
124
221
72
112
200
65
102
181
59
92
164
51
80
142
45
70
124
41
64
114
38
59
105
35
55
97
33
51
91
31
48
85
29
1114 1908
45
81
1393
1857
224.0
223.5
223.0
222.4
221.9
221.3
220.8
220.0
219.3
218.8
218.3
217.8
217.3
216.8
216.3
735
698
663
631
600
571
544
507
475
455
438
422
409
397
387
2106
2633
-
2001
2502
-
1902
2377
3170
1808
2260
3014
1720
2150
2866
1637
2046
2728
1560
1949
2599
1454
1817
2423
1360
1700
2267
1305
1631
2175
1255
1569
2092
1210
1513
2017
1172
1464
1953
1138
1423
1897
1110
1387
1850
104
162
-
94
147
-
85
132
235
77
120
213
69
108
192
63
98
174
57
89
158
50
77
137
43
68
120
40
62
111
37
58
102
34
54
95
32
50
89
30
47
84
29
45
80
235.9
235.4
234.9
234.4
233.9
233.4
232.9
232.2
231.5
231.0
230.6
230.1
229.7
229.2
228.8
719
683
649
617
587
559
533
498
466
448
431
417
404
393
384
2060
2575
-
1958
2447
3263
1861
2326
3101
1770
2212
2949
1684
2105
2806
1603
2004
2672
1529
1911
2548
1427
1783
2378
1337
1671
2229
1284
1605
2140
1237
1546
2061
1195
1494
1992
1159
1448
1931
1128
1409
1879
1102
1378
1837
99
155
-
90
140
249
81
127
225
73
115
204
66
104
184
60
94
167
55
86
152
48
75
132
42
65
116
39
60
107
36
56
100
34
52
93
31
49
87
30
47
83
29
45
79
248.5
248.0
247.6
247.1
246.7
246.2
245.8
245.1
244.5
244.0
243.6
243.2
242.8
242.4
242.0
605
575
547
520
495
471
450
420
394
379
366
354
344
335
328
1734
2168
2890
1648
2060
2747
1567
1959
2612
1490
1863
2484
1419
1773
2364
1352
1689
2253
1289
1611
2149
1205
1506
2008
1131
1413
1884
1087
1359
1812
1048
1311
1747
1015
1268
1691
985
1232
1642
961
1201
1601
941
1176
1568
70
110
196
64
99
177
58
90
160
52
81
144
47
74
131
43
67
119
39
61
108
34
53
94
30
47
83
28
43
77
26
40
72
24
38
67
23
36
63
22
34
60
21
32
58
242.7
242.3
241.9
241.5
241.1
240.7
240.4
239.8
239.3
238.9
238.6
238.2
237.9
237.5
237.2
3VG21276
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
112
175
-
101
158
-
91
142
253
82
129
228
74
116
206
67
105
186
61
95
169
53
82
146
46
71
127
42
65
116
38
60
107
36
55
99
33
52
92
31
48
86
29
46
81
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
41
EDS55-801 Capacity Tables
UWYP220BY1
61
62
Hz
50
OT
T1
41
43
872
827
784
744
705
668
634
586
543
517
493
471
451
434
418
166
2801
132
2500
-
206
-
3125
119
2371
-
185
-
2964
107
2248
-
167
-
2811
96
2132
266
3553
150
86
2021
2665
135
239
3368
2526
78
1916
215
3194
121
70
1817
2395
109
194
3029
2272
60
1680
93
51
1557
2101
80
142
2595
1946
46
1482
129
2471
73
42
1414
1853
66
117
2356
1767
39
1351
107
2251
60
35
1294
1689
55
98
2157
1618
33
1243
91
2072
51
30
1199
1554
47
84
1498
1998
861
817
776
736
698
663
629
583
541
516
493
472
453
437
422
2469
3087
-
2343
2929
-
2223
2779
-
2109
2637
3516
2001
2502
3336
1899
2374
3166
1804
2254
3006
1671
2089
2785
1552
1940
2586
1480
1850
2466
1414
1767
2356
1354
1692
2256
1300
1625
2167
1252
1565
2087
1210
1513
2017
129
201
-
116
181
-
104
163
-
94
147
261
85
132
235
76
119
212
69
107
114
59
921
164
51
79
141
46
72
128
42
66
117
39
61
107
36
56
99
33
52
92
31
48
86
215.0
214.2
213.5
212.8
212.0
211.3
210.6
209.5
208.5
207.8
207.1
206.4
205.7
205.1
204.4
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
205.1
204.3
203.5
202.8
202.0
201.2
200.5
199.3
198.2
197.5
196.7
196.0
195.3
194.6
193.9
3VG21277
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
Leaving hot water temperature
Capacity Tables EDS55-801
UWYP240BY1
Main Data
Main Data
Hz
50
OT
T1
41
43
1011
959
909
862
817
775
735
680
630
600
572
546
523
503
485
75
2899
_
113
_
3623
68
2749
_
102
_
3437
61
2607
_
_
93
_
3259
999
948
899
2863
3579
_
2717
3396
_
2578
3222
3057
4076
2321
2901
3868
2202
2753
3671
73
110
_
66
100
_
60
91
_
55
82
141
50
75
128
45
68
116
41
62
105
36
54
91
31
47
79
29
43
73
27
40
67
25
37
62
23
34
57
22
32
54
20
30
50
242.7
241.8
241.0
240.1
239.3
238.6
237.7
236.5
235.3
234.5
233.8
233.0
232.2
231.5
230.7
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
231.5
230.6
229.7
853
809
768
2446
228.9
228.0
227.1
2091
2614
3485
56
1937
2422
3229
2472
729
676
84
226.3
225.0
144
54
2436
1799
2249
2998
3089
92
3247
628
4119
32
1805
223.7
51
47
2257
1716
2145
2859
2343
80
3009
598
76
29
1719
222.9
130
43
2148
1639
2049
2732
2929
73
2864
572
3905
27
1639
222.1
46
40
2049
1570
1962
2616
2222
67
2732
548
69
25
1566
221.3
118
37
1958
1507
1884
2512
2777
62
2610
526
3703
23
1500
220.5
42
34
1876
1452
1815
2419
2107
57
2501
506
63
21
1442
219.6
107
32
1802
1403
1754
2338
2634
53
2403
489
3512
20
1390
218.9
36
30
1737
1948
50
2316
3VG21278
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
Leaving hot water temperature
EDS55-801 Capacity Tables
UWYP280BY1
63
64
Hz
50
OT
T1
41
43
1163
1103
1046
991
940
891
845
782
724
689
657
628
602
578
558
74
44
29
80
47
32
87
51
34
95
2876
2157
1726
3002
2251
1801
3141
2356
1885
3294
120
3734
97
3333
-
147
-
4167
88
3162
-
133
-
3952
79
2998
-
120
-
3747
72
2842
188
4737
109
65
2695
3553
99
169
4491
3368
59
2555
153
4258
89
54
2423
3194
81
139
4039
3029
47
2241
70
41
2076
2801
61
2595
104
27
1658
3460
40
2072
37
68
2763
1976
26
1598
56
38
1998
2471
64
2664
1149
1090
1034
981
931
883
839
777
722
688
658
630
605
582
563
3293
4116
-
3125
3906
-
2965
3706
-
2813
3516
4688
2669
3336
4448
2533
3166
4221
2405
3006
4008
2228
2785
3713
2069
2586
3448
1973
2466
3288
1885
2356
3142
1805
2256
3009
1733
2167
2889
1669
2087
2782
1613
2017
2689
95
144
-
86
130
-
78
118
-
71
107
184
64
97
166
58
88
151
53
80
137
46
69
118
40
61
103
37
55
94
34
51
87
32
47
80
29
44
74
28
41
69
26
39
65
286.6
285.6
284.6
283.7
282.7
281.7
280.8
279.4
278.0
277.0
276.1
275.2
274.3
273.4
272.5
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
273.5
272.4
271.4
270.3
269.3
268.3
267.3
265.8
264.3
263.3
262.3
261.4
260.4
259.5
258.5
3VG21279
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
Leaving hot water temperature
Capacity Tables EDS55-801
UWYP320BY1
Main Data
Main Data
Hz
50
OT
T1
41
43
1289
1223
1159
1099
1042
988
937
867
803
764
729
697
667
641
618
119
4140
95
3696
_
148
_
4620
85
3505
_
133
_
4382
77
3324
_
120
_
4155
69
3151
191
5252
108
62
2987
3939
97
172
4979
3734
56
2833
154
4721
87
50
2687
3541
78
139
4478
3358
43
2484
67
37
2302
3105
57
102
3836
2877
33
2191
92
3652
52
30
2090
2739
47
84
3483
2612
28
1997
77
3328
43
25
1913
2496
40
70
3188
2391
23
1838
65
3064
37
22
1772
2298
34
60
2215
2953
1273
1208
1147
1088
1032
980
930
862
800
763
729
698
670
646
624
3650
4563
_
3464
4330
_
3287
4108
5478
3118
3898
5197
2959
3698
4931
2808
3510
4680
2666
3333
4443
2470
3087
4117
2294
2867
3823
2187
2734
3646
2090
2612
3483
2001
2502
3336
1922
2402
3202
1851
2314
3085
1789
2236
2981
92
144
_
83
130
_
75
117
208
67
105
187
61
95
168
55
85
152
49
77
137
42
66
117
37
57
101
33
52
92
30
47
84
28
43
77
26
40
71
24
37
66
22
35
62
298.2
297.2
296.1
295.1
294.1
293.1
292.1
290.6
289.2
288.2
287.3
286.3
285.4
284.5
283.5
1256
1192
1132
1074
1020
969
921
855
795
760
727
698
671
648
628
3599
4499
-
3417
4271
-
3244
4055
5406
3079
3849
5132
2924
3655
4873
2777
3472
4629
2640
3300
4400
2450
3062
4083
2280
2850
3800
2178
2722
3629
2084
2605
3474
2000
2500
3333
1924
2405
3207
1858
2322
3096
1800
2250
3000
90
140
-
81
126
-
73
114
202
66
103
182
59
93
165
54
84
148
48
75
134
42
65
116
36
56
100
33
51
91
30
47
84
28
43
77
26
40
71
24
37
66
23
35
62
313.0
312.1
311.1
310.1
309.2
308.3
307.3
305.9
304.6
303.7
302.8
301.9
301.0
300.2
299.3
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
284.5
283.4
282.3
281.3
280.2
279.1
278.1
276.5
275.0
273.9
272.9
271.9
270.9
269.9
269.0
1236
1173
1115
1059
1006
956
910
845
788
754
723
695
670
648
630
3542
4427
-
3364
4205
-
3195
3994
5325
3035
3793
5058
2883
3604
4806
2741
3426
4568
2607
3259
4346
2424
3030
4039
2260
2825
3767
2162
2702
3603
2073
2591
3455
1992
2491
3321
1921
2401
3202
1858
2323
3097
1805
2256
3008
329.0
328.1
327.2
326.3
325.4
324.6
323.7
322.4
321.1
320.3
319.5
318.6
317.8
317.0
316.2
1214
1153
1095
1041
990
941
896
834
779
747
717
690
667
647
629
3479
4349
-
3305
4131
-
3140
3925
5233
2984
3730
4973
2837
3546
4728
2699
3373
4498
2569
3211
4282
2392
2990
3986
2234
2793
3724
2140
2675
3567
2055
2569
3425
1979
2474
3299
1912
2390
3186
1853
2317
3089
1804
2255
3007
84
131
-
76
118
-
68
107
190
62
96
171
56
87
155
51
79
140
46
72
127
40
62
110
35
54
96
32
50
88
29
46
81
27
42
75
25
40
70
24
37
66
23
35
63
346.2
345.4
344.5
343.7
342.8
342.0
341.2
340.0
338.8
338.1
337.3
336.5
335.8
335.0
334.3
1189
1130
1074
1021
971
925
881
821
768
737
709
684
662
643
627
3410
4262
-
3240
4050
5400
3079
3849
5132
2927
3659
4879
2784
3481
4641
2650
3313
4417
2525
3156
4208
2354
2942
3923
2202
2753
3671
2113
2641
3521
2032
2540
3386
1960
2450
3266
1897
2371
3161
1842
2303
3071
1797
2246
2995
81
126
-
73
114
202
66
103
182
59
93
165
54
84
149
49
76
135
44
69
123
38
60
107
34
53
93
31
48
86
29
45
80
27
42
74
25
39
69
24
37
65
22
35
62
364.5
363.7
363.0
362.2
361.4
360.7
359.9
358.8
357.7
357.0
356.3
355.6
354.9
354.2
353.5
1163
1106
1051
999
951
906
863
806
755
725
699
675
654
637
622
3335
4169
-
3169
3962
5282
3013
3766
5021
2865
3581
4775
2726
3408
4543
2596
3245
4327
2475
3094
4125
2310
2887
3850
2165
2706
3608
2079
2599
3465
2003
2503
3338
1935
2418
3224
1876
2345
3126
1826
2282
3043
1784
2230
2974
77
120
-
70
109
193
63
98
175
57
89
158
52
81
143
47
73
130
43
66
118
37
58
103
33
51
90
30
47
83
28
43
77
26
41
72
24
38
68
23
36
64
22
35
61
384.0
383.3
382.6
381.8
381.1
380.4
379.8
378.7
377.7
377.1
376.4
375.8
375.2
374.5
373.9
979
931
885
842
801
763
728
680
639
614
592
573
556
543
531
2808
3510
4680
2669
3336
4448
2537
3171
4228
2413
3016
4022
2297
2871
3828
2188
2735
3647
2087
2609
3479
1950
2438
3250
1830
2288
3051
1760
2200
2934
1698
2122
2829
1643
2053
2738
1595
1994
2659
1556
1944
2593
1524
1904
2539
55
85
152
49
77
137
45
70
124
40
63
112
37
57
102
33
52
92
30
47
84
26
41
73
23
36
65
22
34
60
20
31
56
19
29
52
18
28
49
17
26
47
16
25
45
375.0
374.4
373.8
373.2
372.6
372.0
371.4
370.6
369.7
369.2
368.6
368.1
367.6
367.0
366.5
3VG21280
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
87
136
-
78
123
-
71
111
196
64
100
177
58
90
160
52
81
145
47
74
131
41
64
113
35
55
98
32
51
90
30
47
83
28
43
76
26
40
71
24
37
67
23
35
63
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
Leaving hot water temperature
EDS55-801 Capacity Tables
UWYP360BY1
65
66
Hz
50
OT
T1
43
Leaving hot water temperature
1441
1367
1296
1229
1165
1104
1047
969
897
854
815
779
746
717
691
74
42
27
81
46
29
89
50
32
98
3564
2673
2138
3720
2790
2232
3893
2919
2336
4082
125
4627
100
4131
_
156
_
5163
90
3918
_
140
_
4897
81
3715
_
126
_
4644
73
3522
202
5870
114
65
3339
4402
102
181
5565
4174
59
3166
163
5276
92
53
3003
3957
83
147
5004
3753
45
2776
71
39
2573
3471
61
3216
108
25
2054
4288
39
2568
35
69
3424
2449
23
1980
55
36
2476
3061
64
3301
1423
1351
1281
1216
1154
1095
1039
963
894
853
815
780
749
722
697
4080
5100
_
3872
4840
_
3673
4592
_
3485
4356
5809
3307
4133
5511
3138
3923
5231
2980
3725
4966
2761
3451
4601
2564
3205
4273
2445
3056
4075
2336
2920
3893
2237
2796
3728
2148
2685
3580
2069
2586
3448
1999
2499
3332
97
152
_
88
137
_
79
123
_
71
111
198
64
100
178
58
90
160
52
81
144
45
70
124
39
60
107
35
55
97
32
50
89
29
46
81
27
42
75
25
39
70
23
37
65
342.2
341.0
339.8
338.6
337.5
336.3
335.2
333.5
331.8
330.7
329.6
328.6
327.5
326.4
325.4
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
326.5
325.2
324.0
322.7
321.5
320.3
319.1
317.3
315.5
314.3
313.2
312.0
310.9
309.7
308.6
3VG21281
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
41
Capacity Tables EDS55-801
UWYP400BY1
Main Data
Main Data
Hz
50
OT
T1
41
43
1593
1511
1432
1358
1287
1221
1158
1070
992
944
900
861
824
792
764
91
51
33
99
56
36
108
61
39
119
3939
2954
2363
4111
3084
2467
4302
3227
2581
4512
153
5115
122
4565
_
191
_
5707
110
4330
_
171
_
5413
99
4106
_
154
_
5132
89
3893
246
6488
139
80
3690
4866
125
221
6151
4613
72
3499
199
5832
112
65
3319
4374
101
179
5531
4148
55
3069
86
47
2843
3836
74
3554
131
30
2271
4739
47
2838
43
84
3784
2707
28
2189
67
44
2736
3384
78
3648
1573
1493
1416
1344
1275
1210
1149
1064
988
943
901
862
828
798
771
4509
5637
_
4279
5349
_
4060
5075
_
3852
4815
6420
3655
4569
6091
3469
4336
5781
3293
4117
5489
3051
3814
5085
2833
3542
4722
2702
3378
4504
2582
3227
4303
2472
3090
4120
2374
2967
3956
2286
2858
3810
2210
2762
3683
119
186
_
107
167
_
97
151
_
87
136
241
78
122
217
70
110
196
64
99
176
55
85
151
47
73
131
43
67
119
39
61
108
36
56
99
33
52
92
31
48
85
29
45
79
386.0
384.6
383.3
382.0
380.7
379.4
378.1
376.2
374.3
373.1
371.8
370.6
369.4
368.2
367.0
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
368.3
366.8
365.4
364.0
362.7
361.3
359.9
357.9
355.9
354.6
353.2
351.9
350.7
349.4
348.1
3VG21282
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
Leaving hot water temperature
EDS55-801 Capacity Tables
UWYP440BY1
67
68
Hz
50
OT
T1
41
43
1744
1654
1569
1487
1410
1337
1268
1172
1086
1034
986
942
903
868
836 92 52 33 99 56 36 107 61 39 117 66 42 128 72 46 141 79 51 164 92
4173
3130
2504
4333
3250
2600
4513
3385
2708
4713
3534
2828
4932
3699
2959
5172
3879
3103
5569
4177
91
51
33
98
55
35
107
60
39
117
66
42
129
73
46
142
80
51
166
93
4145
3109
2487
4314
3235
2588
4503
3377
2702
4712
3534
2827
4941
3706
2965
5190
3893
3114
5602
4201
261 147 94 -
7031
5274
4219
-
266
150
96
7106
5329
4263
-
206
132
-
5000
119
4743
6250
-
185
-
5928
107
85
4003
86
4042
4497
132
5004
135
5052
1723
1635
1551
1472
1396
-
-
4939
129
201
-
6173
116
4687
181
-
5859
104
4447
429.9
428.5
427.0
425.5
424.1
422.6
421.2
419.0
416.9
415.6
414.2
412.8
411.2
410.1
408.8
Symbols: OT: Outdoor temperature (˚C D.B) T1: Hot water temperature difference (inlet/outlet) (˚C) CAP: Heating capacity (kW) WF: Water flow rate (l/min) PD: Pressure drop (kPa) PI : Power input (Compressor + Fan) (kW)
410.2
408.6
407.1
405.5
404.0
163
235
6672
239
6736
5559
76
3799
78
3832
-
119
4749
121
4790
167
212
6332
215
6387
-
69
3607
70
3635
5621
107
4509
109
4543
1325
191
6012
194
6058
402.4
59
3342
60
1258
1166
1083
1032
986
945
907
3361
400.9
398.7
396.4
395.0
393.5
392.1
390.6
874
31
389.2
48
2420
30
2397
86
3025
4034
47
2997
844
84
3996
387.8
3VG21283
Notes)1. Figures in show nominal capacities and conditions. 2. Capasities are based on relative humidity of outdoor air 85% 3. If the operating condition is in forced-download area, values after download are indicated. Refer to operation limit for forced-download area.
CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI CAP WF PD PI
Leaving hot water temperature
Capacity Tables EDS55-801
UWYP480BY1
Main Data
EDS55-801
Operation Limits
10. Operation Limits Operating limit for heating
Outdoor temp.(˚C D.B.)
Outdoor temp.(˚C D.B.)
Operating limit for cooling
Operative range (Pull down Recommendperiod) able range for continuous operation.
Recommendable range for continuous operation.
Operative range (Not guaranteed Cap. range)
Leaving hot water temp.(˚C) Leaving chilled water temp.(˚C)
Note: 1. CONDITION : Standard chilled/hot water flow rate 2. : Standard condition 3. : Recommendable range for continuous operation 4. : Operating range for pull down period 5. The operation range from 15˚C to -5˚C outdoor ambient temperature is lower ambient temperature range. 6. In the case of wind blowing at a velocity of 10m/sec. when you use the unit in the ambient temperature of 5˚C or less, install an optional windbreaker plate. 7. : Forced-download in this area 8. Mimimum holding water quantity in a system ∗ The table below indicates the water quantity actually circulating in the chilled/hot water system. When the unit has a bypass circuit through a three-way valve or two-way valve, set the net waterquantity in the chilled/hot water system in the bypass circuit at the following value or more. A: If [Saving energy precedence](this has been set when the unit is shipped out from our factory)has been set to control the water temperature when 2˚C of thermostat differntial is selected. B: If [Accuracy precedence] has been set to control the water temperature when 2˚C of thermostat differntial is selected,and further if, on multi-unit systems of UWYP40 ~ 60BY1, the [Prohibition of simultaneous defrosting] function is set.(The [Prohibition of simultaneous defrosting] function is compatible through a dedicated remoto controller (BRC307D51)) • The minimum holding water quantity at 1˚C of thrmostat differential becomes double of the same 2˚C. ∗ The minimum amount of water contained within a system is a value for protection of equipment. When the amount of water contained is small, the accuracy of temperature may fluctuate by stop and start operations of the unit. In addition, if multiple number of units does not operate together at the same time when pattern [B] was been used for contained water, the water temperature may drop excessively during defrosting operation. 9. : When the unit is used at a low capacity (about 30% or less), the accuracy of temperature may be expanded to about 2 times of thermostat differential in this area.
Recommendable water flow rate (Per. unit) Water flow rate (L/min)
Water flow rate (L/min)
Model UWYP40BY1 UWYP50BY1 UWYP60BY1 UWYP80BY1 UWYP100BY1 UWYP120BY1 UWYP140BY1 UWYP160BY1 UWYP180BY1 Max. 680 860 1030 1350 1720 2030 2122 2408 2752 Min. 152 189 230 304 380 452 531 602 688 Rated 304 378 459 602 760 917 1061 1204 1376 Model UWYP200BY1 UWYP220BY1 UWYP240BY1 UWYP280BY1 UWYP320BY1 UWYP360BY1 UWYP400BY1 UWYP440BY1 UWYP480BY1 Max. 3038 3326 3612 2122×2 2408×2 2752×2 3038×2 3326×2 3612×2 Min. 760 832 903 531×2 602×2 688×2 760×2 832×2 903×2 Rated 1519 1663 1806 1061×2 1204×2 1376×2 1519×2 1663×2 1806×2
Minimum holding water quantity in a system (Per. unit) Model Water temperature control (Note 8) Minimum holding water quantity (L)
UWYP40BY1 UWYP50BY1 UWYP60BY1 UWYP80BY1 UWYP100BY1 UWYP120BY1 UWYP140BY1 UWYP160BY1 UWYP180BY1 A
800
1000
1200
1600
1000
1200
1600
1600
B
400
500
600
800
500
600
800
800
600
33
36
40
47
51
57
71
71
191
Holding water quantity (L)
1200
Model Water temperature control (Note 8) Minimum holding water quantity (L)
UWYP200BY1 UWYP220BY1 UWYP240BY1 UWYP280BY1 UWYP320BY1 UWYP360BY1 UWYP400BY1 UWYP440BY1 UWYP480BY1 A
1600
1600
B
800 198
Holding water quantity (L)
1600
1600×2
1600×2
1200×2
1600×2
1600×2
1600×2
800
800
800×2
800×2
600×2
800×2
800×2
800×2
219
240
71×2
71×2
191×2
198×2
219×2
240×2 3VG21162
Main Data
69
Center of Gravity
EDS55-801
11. Center of Gravity 3VG21177
UWYP40~480BY1
70
Main Data
EDS55-801
Sound Data
12. Sound Data UWYP40BY1 106
212
425
850
1700
3400
6800
80
Over All (dB)
Operating Conditions
NC-70
70
Scale
50Hz
Power Source 380V 50Hz Cooling Nominal Condition
NC-60
60
A
62
C
71
(B.G.N is already rectified) NC-50
50
Measuring Place
Location of Microphone
Anechoic chamer(converted value)
NC-40
1m
40
NC-30
1.5m
Octave Band Sound Pressure Level
dB(0dB=0.0002 Îźbar)
53
30
(Front)
NC-20
20
Approximate threshold hearing for continuous noise 63
Note: 1) Operation noise differs with operation and ambient conditions. 2) Since the side is air inlet, it becomes high 2dB(A) rather than the front.
125
250
500
1000
2000
4000
8000
Octave Band Center Frequency (Hz) 4VG21145
UWYP50BY1 106
212
425
850
1700
3400
6800
80
Over All (dB)
Operating Conditions
NC-70
70
Scale
50Hz
Power Source 380V 50Hz Cooling Nominal Condition
A
64
C
73
NC-60
60
(B.G.N is already rectified) NC-50
50
Measuring Place
Location of Microphone
Anechoic chamer(converted value)
NC-40
1m
40
NC-30
1.5m
Octave Band Sound Pressure Level
dB(0dB=0.0002 Îźbar)
53
30
(Front)
NC-20
20
Note: 1) Operation noise differs with operation and ambient conditions.
Approximate threshold hearing for continuous noise 63
125
2) Since the side is air inlet, it becomes high 2dB(A) rather than the front. 250
500
1000
2000
4000
8000
Octave Band Center Frequency (Hz) 4VG21146
Main Data
71
Sound Data
EDS55-801
UWYP60BY1 106
212
425
850
1700
3400
6800
80
Over All (dB)
Operating Conditions
NC-70
70
Scale
50Hz
Power Source 380V 50Hz Cooling Nominal Condition
A
64
C
75
NC-60
60
(B.G.N is already rectified) NC-50
50
Measuring Place
Location of Microphone
Anechoic chamer(converted value)
NC-40
1m
40
NC-30
1.5m
Octave Band Sound Pressure Level
dB(0dB=0.0002 Îźbar)
53
30
(Front)
NC-20
20
Note: 1) Operation noise differs with operation and ambient conditions.
Approximate threshold hearing for continuous noise 63
2) Since the side is air inlet, it becomes high 2dB(A) rather than the front.
125
250
500
1000
2000
4000
8000
Octave Band Center Frequency (Hz) 4VG21147
UWYP80BY1 106
212
425
850
1700
3400
6800
80
Over All (dB)
Operating Conditions
NC-70
70
Scale
50Hz
Power Source 380V 50Hz Cooling Nominal Condition
NC-60
60
A
65
C
78
(B.G.N is already rectified) NC-50
50
Measuring Place
Location of Microphone
Anechoic chamer(converted value)
NC-40
1m
40
NC-30
1.5m
Octave Band Sound Pressure Level
dB(0dB=0.0002 Îźbar)
53
30
(Front)
NC-20
20
Note: 1) Operation noise differs with operation and ambient conditions.
Approximate threshold hearing for continuous noise 63
125
2) Since the side is air inlet, it becomes high 4dB(A) rather than the front. 250
500
1000
2000
4000
8000
Octave Band Center Frequency (Hz) 4VG21148
72
Main Data
EDS55-801
Sound Data
UWYP100BY1 106
212
425
850
1700
3400
6800
80
Over All (dB)
Operating Conditions
NC-70
70
Scale
50Hz
Power Source 380V 50Hz Cooling Nominal Condition
A
66
C
75
NC-60
60
(B.G.N is already rectified) NC-50
50
Measuring Place
Location of Microphone
Anechoic chamer(converted value)
NC-40
1m
40
NC-30
1.5m
Octave Band Sound Pressure Level
dB(0dB=0.0002 Îźbar)
53
30
(Front)
NC-20
20
Approximate threshold hearing for continuous noise 63
Note: 1) Operation noise differs with operation and ambient conditions. 2) Since the side is air inlet, it becomes high 4dB(A) rather than the front.
125
250
500
1000
2000
4000
8000
Octave Band Center Frequency (Hz) 4VG21149
UWYP120BY1 106
212
425
850
1700
3400
6800
80
Over All (dB)
Operating Conditions
NC-70
70
Scale
50Hz
Power Source 380V 50Hz Cooling Nominal Condition
A
66
C
77
NC-60
60
(B.G.N is already rectified) NC-50
50
Measuring Place
Location of Microphone
Anechoic chamer(converted value)
NC-40
1m
40
NC-30
1.5m
Octave Band Sound Pressure Level
dB(0dB=0.0002 Îźbar)
53
30
(Front)
NC-20
20
Approximate threshold hearing for continuous noise 63
125
Note: 1) Operation noise differs with operation and ambient conditions. 2) Since the side is air inlet, it becomes high 4dB(A) rather than the front. 250
500
1000
2000
4000
8000
Octave Band Center Frequency (Hz) 4VG21150
Main Data
73
Sound Data
EDS55-801
UWYP140BY1 106
212
425
850
1700
3400
6800
80
Over All (dB)
Operating Conditions
NC-70
70
Scale
50Hz
Power Source 380V 50Hz Cooling Nominal Condition
A
68
C
80
NC-60
60
(B.G.N is already rectified) NC-50
50
Measuring Place
Location of Microphone
Anechoic chamer(converted value)
NC-40
1m
40
NC-30
1.5m
Octave Band Sound Pressure Level
dB(0dB=0.0002 Îźbar)
53
30
(Front)
NC-20
20
Approximate threshold hearing for continuous noise 63
Note: 1) Operation noise differs with operation and ambient conditions. 2) Since the side is air inlet, it becomes high 4dB(A) rather than the front.
125
250
500
1000
2000
4000
8000
Octave Band Center Frequency (Hz) 4VG21151
UWYP160BY1 106
212
425
850
1700
3400
6800
80
Over All (dB)
Operating Conditions
NC-70
70
Scale
50Hz
Power Source 380V 50Hz Cooling Nominal Condition
A
69
C
81
NC-60
60
(B.G.N is already rectified) NC-50
50
Measuring Place
Location of Microphone
Anechoic chamer(converted value)
NC-40
1m
40
NC-30
1.5m
Octave Band Sound Pressure Level
dB(0dB=0.0002 Îźbar)
53
30
(Front)
NC-20
20
Approximate threshold hearing for continuous noise 63
125
Note: 1) Operation noise differs with operation and ambient conditions. 2) Since the side is air inlet, it becomes high 4dB(A) rather than the front. 250
500
1000
2000
4000
8000
Octave Band Center Frequency (Hz) 4VG21152
74
Main Data
EDS55-801
Sound Data
UWYP180BY1 106
212
425
850
1700
3400
6800
80
Over All (dB)
Operating Conditions
NC-70
70
Scale
50Hz
Power Source 380V 50Hz Cooling Nominal Condition
A
70
C
81
NC-60
60
(B.G.N is already rectified) NC-50
50
Measuring Place
Location of Microphone
Anechoic chamer(converted value)
NC-40
1m
40
NC-30
1.5m
Octave Band Sound Pressure Level
dB(0dB=0.0002 Îźbar)
53
30
(Front)
NC-20
20
Approximate threshold hearing for continuous noise 63
Note: 1) Operation noise differs with operation and ambient conditions. 2) Since the side is air inlet, it becomes high 4dB(A) rather than the front.
125
250
500
1000
2000
4000
8000
Octave Band Center Frequency (Hz) 4VG21153
UWYP200BY1 106
212
425
850
1700
3400
6800
80
Over All (dB)
Operating Conditions
NC-70
70
Scale
50Hz
Power Source 380V 50Hz Cooling Nominal Condition
A
70
C
82
NC-60
60
(B.G.N is already rectified) NC-50
50
Measuring Place
Location of Microphone
Anechoic chamer(converted value)
NC-40
1m
40
NC-30
1.5m
Octave Band Sound Pressure Level
dB(0dB=0.0002 Îźbar)
53
30
(Front)
NC-20
20
Approximate threshold hearing for continuous noise 63
125
Note: 1) Operation noise differs with operation and ambient conditions. 2) Since the side is air inlet, it becomes high 4dB(A) rather than the front. 250
500
1000
2000
4000
8000
Octave Band Center Frequency (Hz) 4VG21154
Main Data
75
Sound Data
EDS55-801
UWYP220BY1 106
212
425
850
1700
3400
6800
80
Over All (dB)
Operating Conditions
NC-70
70
Scale
50Hz
Power Source 380V 50Hz Cooling Nominal Condition
NC-60
60
A
70
C
83
(B.G.N is already rectified) NC-50
50
Measuring Place
Location of Microphone
Anechoic chamer(converted value)
NC-40
1m
40
NC-30
1.5m
Octave Band Sound Pressure Level
dB(0dB=0.0002 Îźbar)
53
30
(Front)
NC-20
20
Approximate threshold hearing for continuous noise 63
Note: 1) Operation noise differs with operation and ambient conditions. 2) Since the side is air inlet, it becomes high 4dB(A) rather than the front.
125
250
500
1000
2000
4000
8000
Octave Band Center Frequency (Hz) 4VG21155
UWYP240BY1 106
212
425
850
1700
3400
6800
80
Over All (dB)
Operating Conditions
NC-70
70
Scale
50Hz
Power Source 380V 50Hz Cooling Nominal Condition
NC-60
60
A
70
C
83
(B.G.N is already rectified) NC-50
50
Measuring Place
Location of Microphone
Anechoic chamer(converted value)
NC-40
1m
40
NC-30
1.5m
Octave Band Sound Pressure Level
dB(0dB=0.0002 Îźbar)
53
30
(Front)
NC-20
20
Approximate threshold hearing for continuous noise 63
125
Note: 1) Operation noise differs with operation and ambient conditions. 2) Since the side is air inlet, it becomes high 4dB(A) rather than the front. 250
500
1000
2000
4000
8000
Octave Band Center Frequency (Hz) 4VG21156
76
Main Data
EDS55-801
Bringing In
13. Bringing In When delivering the equipment, carry it in slowly using ropes/wires and proper outer panel protectors, as show in the figures below.
UWYP40BY1/UWYP50BY1/UWYP60BY1/UWYP80BY1 Nylon Sling 5m×4
UWYP100BY1/UWYP120BY1/UWYP140BY1/UWYP160BY1 Nylon Sling 5m×4
UWYP180BY1/UWYP200BY1/UWYP220BY1/UWYP240BY1
Nylon Sling 5m×4
Notes: 1. Lift the unit carefully as shown. 2. Use four nylon slings. The angel between two Nylon Slings is no more than 60°. 3. Protect with wooden piece or cloth at the point the sling and frame touch.
Main Data
77
Bringing In
78
EDS55-801
Main Data
EDS55-801
Part 3 Other 1. Water Quality ........................................................................................80 2. Control System Function and Operation ...............................................81 2.1 2.2 2.3 2.4 2.5 2.6 2.7
Other
Names of Parts.......................................................................................81 Names and Function of Parts on the Control Panel ...............................85 Remote Wiring Work and Setting ...........................................................92 Operation Method of the Control Panel..................................................95 Functions of the Chiller...........................................................................97 Local Settings on the Control Panel .....................................................102 Multi-functional LCD Remote Controller (Option).................................108
79
Water Quality
EDS55-801
1. Water Quality The quality of chilled (hot) water when the chiller is running largely affects the chiller's performance and life. It is stherefore very important to check the quality of before using, and to monitor the quality of water after installing the chiller. Water quality standard value for water shall be as table. Substances contained water chilling unit condenser water are thickened because water is constantly evaporated in the cooling tower. Water quality of make-up water and circulating water should be checked separately with a certain amount of make-up water and blow, while maintaining circulating water standards. Water should be treated with chemicals as required. Water quality standards for chilled water, hot water, and make-up water
JRA GL-02-1994 Guideline of water Quality for Refrigerators and Air Conditioning Equipment
Make-up water
Passing water
Circulation Water (Max.20°C
Make-up water
Circulation Water (Over 20°C Max.60°C
Make-up water
Corrosion
Scale deposit
Tendency (2)
6.0~8.0
6.8~8.0
6.8~8.0
6.8~8.0
7.0~8.0
7.0~8.0
{
{
Electrical conductivity (ms/m)
<80
<30
<40
<40
<30
<30
<30
{
{
Chloride ions (mgcl-/L)
<200
<50
<50
<50
<50
<50
<50
{
Sulfate ions (mgSO42-/L)
<200
<50
<50
<50
<50
<50
<50
{
Acid consumption (pH4.8) (mgCaCO3/L)
<100
<50
<50
<50
<50
<50
<50
{
Total hardness (mgCaCO3/L)
<200
<70
<70
<70
<70
<70
<70
{
Calcium hardness (mgCaCO3/L)
<150
<50
<50
<50
<50
<50
<50
{
Ionic-state sillca (mgSiO3/L)
<50
<30
<30
<30
<30
<30
<30
{
Iron (mgFe/L)
<1.0
<0.3
<1.0
<1.0
<0.3
<0.3
<0.3
{
Copper (mgCu/L)
<0.3
<0.1
<1.0
<1.0
<0.1
<0.1
<0.1
{
Shall not be detected
Shall not be detected
Shall not be detected
Shall not be detected
Shall not be detected
Shall not be detected
Shall not be detected
{
Ammonium ion (mgNH4+/L)
<1.0
<0.1
<1.0
<1.0
<0.1
<0.3
<0.1
{
Residual chlorine (mgcl-/L)
<0.3
<0.3
<0.3
<0.3
<0.3
<0.25
<0.3
{
Free carbon dioxide (mgCO2/L)
<4.0
<4.0
<4.0
<4.0
<4.0
<0.4
<4.0
{
6.0~7.0
-
-
-
-
-
-
{
pH (25°C)
Standard item
Hot water system
6.5~8.2
Item(1)(6)
Reference item
Chilled water system
Circulation water
Condenser water system (4) Pass-through Circulation system System
Sulfide ion (mgS2-/L)
Stability index
{
{
Note 1. The circle marks in the columns on the right indicate tendency for corrosion or scale to develop. 2. Corrosion has a tendency to occur when water temperature is high (40°C or higher), and ifmetals with no protective coating whatever are directly exposed to water, it would be a good idea to take effective measures against corrosion such as adding a corrosion inhibitor or deaeration treatment. 3. In a condenser water circuit that uses a closed cooling tower. condenser water and make-up water must satisfy its water quality standards for hot water system and passing water and makeup water must satisfy those for condenser water systems. 4. Supply or make-up water should be tap water (from city water) or water for industrial use. Pure water, neutral water or softened water should not be used. 5. The 15 items in the table above represent typical causes of corrosion and scale. 80
Other
EDS55-801
Control System Function and Operation
2. Control System Function and Operation 2.1
Names of Parts
UWYP40BY1/UWYP50BY1/UWYP60BY1/UWYP80BY1 Fan
Chilled water inlet pipe Chilled water outlet pipe Power supply intake
Inspection hatch For carrying out maintenance of built-in strainer or compressor, dismantle it.
Control window
Switch box
Discharge pressure gauge / Compound gauge
Drain outlet pipe
Built-in water strainer Built i nsid e the chilled water inlet pipe i n the ma in bod y of th e chiller
UWYP100BY1/UWYP120BY1/UWYP140BY1/UWYP160BY1 No.1 Discharge pressure gauge / Compound gauge
Fan
uge
Chilled/Hot water inlet pipe(upper) Chilled/Hot water outlet pipe(lower) Inspec tion hatch (No.2) For carrying out maintenance of the compressor, dismantle it Power supply intake Control window Switch box
Other
Built-in water strainer Built inside the chilled water inlet pipe in the main body of the chiller
No.2 Discharge pressure gauge / Compound gauge
Drain outlet pipe
Inspection hatch ( No.1) For carrying out maintenance the compressor, dismantle it.
81
Control System Function and Operation
EDS55-801
UWYP180BY1/UWYP200BY1/UWYP220BY1/UWYP240BY1
No.2 Discharge pressure gauge / Compound gauge
No.3 Discharge pressure gauge / Compound gauge Fan
Inspection hatch ( No.3) For carrying out maintenance the compressor, dismantle it.
No.1 Discharge pressure gauge / Compound gauge
Inspection hatch ( No.1) For carrying out maintenance the compressor, dismantle it.
Switch box (SUB) Control window (SUB) Power supply intake Switch box (MAIN)
Inspection hatch ( No.2) For carrying out maintenance the compressor, dismantle it. Chilled/Hot water inlet pipe(upper) Chilled/Hot water outlet pipe(lower)
Drain outlet pipe Built-in water strainer Built inside the chilled water inlet pipe in the main body of the chiller
Control window (MAIN)
82
Other
EDS55-801
Control System Function and Operation
UWYP280BY1/UWYP320BY1 1 Auxiliary unit
Matrix unit
Input power to two places respectively Inspection hatch (No.2) For carrying out maintenance the compressor, dismantle it. (Matrix unit and auxiliary unit is the same)
Power supply intake Power supply intake Switch box (Individually operation use)
Switch box (Integration and Individually operation)
Control window
Integration operaton use Matrix unit only
Control window
Individually operation use
Inside operation section
Matrix unit
Chiller is not included connecting water pipe. Please connect water pipe to respectively.
Auxiliary unit
Chilled/Hot brine inlet pipe (upper) Chilled/Hot brine outlet pipe (lower)
Chilled/Hot brine inlet pipe (upper) Chilled/Hot brine outlet pipe (lower)
<This drawing only for reference>
Other
Inspection hatch (No.1) For carrying out maintenance the compressor, dismantle it. (Matrix unit and auxiliary unit is the same) Built-in water strainer Built inside the chilled water inlet pipein the main body of the chiller. (Matrix unit and auxiliary unit is the same
83
Control System Function and Operation
EDS55-801
UWYP360BY1/UWYP400BY1/UWYP440BY1/UWYP480BY1
Auxiliary unit
Inspection hatch (No.2) For carrying out maintenance the compressor, dismantle it. (Matrix unit and auxiliary unit is the same)
Matrix unit
Power supply intake Input power to two places respectively Control window
Power supply intake
Auxiliary unit main switch box (Individually operation use)
Matrix unit main switch box (Integration and Individually operation)
Sub-switch box (Individually operation use)
Integration operation use Matrix unit only
Individually operation use
Individually operation use
Control window inside operation section Chiller is not included connecting water pipe. Please connect water pipe to respectively.
Auxiliary unit
Matrix unit
Chilled/Hot brine inlet pipe(upper) Chilled/Hot brine outlet pipe(lower)
Inspection hatch (No.1) For carrying out maintenance the compressor, dismantle it. (Matrix unit and auxiliary unit is the same)
Built-in water strainer Built inside the chilled water inlet pipe in the main body of the chiller.
Chilled/Hot brine inlet pipe (upper) Chilled/Hot brine outlet pipe (lower)
<This drawing only for reference>
84
Inspection hatch (No.3) For carrying out maintenance the compressor, dismantle it. (Matrix unit and auxiliary unit is the same)
Other
EDS55-801
2.2
Control System Function and Operation
Names and Function of Parts on the Control Panel
UWYP40BY1/UWYP50BY1/UWYP60BY1/UWYP80BY1
MULTI DISPLAY
LIST OF DISPLAY ITEMS
Indicators Error code Temperature setting in normal cooling (˚C) Termperature setting in heat-storage cooling (˚C) Temperature setting in normal heating (˚C) Temperature setting in heat-storage heating (˚C) Inlet water temperature (˚C) Outlet water temperature (˚C)
button
Indicators Outdoor temperature (˚C) Discharge pipe temperature (˚C) Refrigerant temperature on thermistor (˚C) Compressor load Fan mode Running time (min.) Running time for compressor (hour)
CANCEL button
button Water temperature control lamp (red)
ESC.
ENTER
ENTER button ALARM lamp (white)
POWER SUPPLY lamp (orange) WIDER LOAD HIGH COP
POWER
CONTROL
ALARM
Compressor operation lamp (red)
Fan operation lamp (red)
ON
Compressor stop lamp (green)
Fan stop lamp (green)
OFF
Remote operation lamp (red)
COMPRESSOR
FAN
OPERATION lamp (red)
Service operation lamp (orange) SERVICE button
SERVICE
Remote operation button Manual Defrost button
REMOTE
COOLING
ON
OPERATION button
COOLING
COOLING
STOP RESET button
HPS-TEST
FAN INTERLOCK TEST
OPERATION / FAN INTERLOCK TEST switch
OFF RESET
Manual Defrost
(heat pump only)
HEATING
COOLING / HEATING switch
OPERATION / HIGH PRESSURE TEST switch
(heat pump only)
LOCAL / REMOTE switch
Set to LOCAL to operate the unit from this control panel. Set to REMOTE to operate the unit from remote. Remote operation lamp light up during remote operation.
OPERATION / HIGH PRESSURE TEST switch
Set to OPERATION for normal running. Set to HPS TEST to check whether the high pressure switch (high pressure protection) is functioning properly or not.
OPERATION / FAN INTERLOCK TEST
Set to OPERATION for normal running. Set to FAN INTERLOCK TEST to check whether the fan interlock is working properly or not.
OPERATION button
Press to start operation.
STOP RESET button Manual Defrost button POWER SUPPLY lamp
Press to stop the unit or reset the unit when trouble occurs. Press to defrost manually (heat pump only). Lights when the power supply is turned on.
OPERATION lamp
Lights while the unit is running.
ALARM lamp
Lights up when a safety device on compressor circuit trips.
Other
85
Control System Function and Operation
EDS55-801
UWYP100BY1/UWYP120BY1/UWYP140BY1/UWYP160BY1
MULTI DISPLAY
LIST OF DISPLAY ITEMS
NO. NO. 1 2
Indicators Error code Temperature setting in normal cooling (˚C) Temperature setting in heat-storage cooling (˚C) Temperature setting in normal heating (˚C) Temperature setting in heat-storage heating (˚C) Inlet water temperature (˚C) Outlet water temperature (˚C)
button
NO. NO. 1 2
Indicators Outdoor temperature (˚C) Discharge pipe temperature (˚C) Refrigerant temperature on thermistor (˚C) Compressor load Fan mode Running time (min.) Running time for compressor (hour)
(All of the above indicators do not apply to every model.)
button Water temperature control lamp (red)
ENTER button
POWER SUPPLY lamp (orange)
No.1 ALARM lamp (white)
No.2 Compressor operation lamp
No.2 ALARM lamp (white)
No.1 Compressor operation lamp
No.1 Fan operation lamp
No.1 Compressor stop lamp No.2 Compressor stop lamp
No.2 Fan operation lamp No.2 Fan stop lamp
Remote operation lamp (red)
OPERATION lamp (red)
Service operation lamp (orange)
OPERATION button STOP RESET button
Inspection (SERVICE) button Manual Defrost
COOLING
OPERATION
OPERATION
Manual Defrost button (heat pump only)
NO.1 BOTH
HEATING
HPS-TEST
FAN INTERLOCK TEST
(heat pump only)
OPERATION / HIGH PRESSURE TEST switch SYSTEM CHANGOVER switch (NO1 / BOTH / NO2) COOLING / HEATING switch LOCAL / REMOTE switch
OPERATION / HIGH PRESSURE TEST switch OPERATION / FAN INTERLOCK TEST
OPERATION button
SYSTEM CHANGEOVER switch
NO.2
COOLING / HEATING switch
86
CANCEL button
OPERATION / FAN INTERLOCK TEST switch
Normally, leave it set to the BOTH position. Switch between compressor circuit No.1 and compressor circuit No.2 when running units individually. (No.1 is on the left when seen from the switch box.) Set to COOLING to cool; Set to HEATING to heat. Set to LOCAL to operate the unit from this control panel. Set to REMOTE to operate the unit from remote. Remote operation lamp light up during remote operation. Set to OPERATION for normal running. Set to HPS TEST to check whether the high pressure switch (high pressure protection) is functioning properly or not. Set to OPERATION for normal running. Set to FAN INTERLOCK TEST to check whether the fan interlock is working properly or not. Press to start operation.
STOP RESET button Manual Defrost button POWER SUPPLY lamp OPERATION lamp
Press to stop the unit or reset the unit when trouble occurs. Press to defrost manually (heat pump only). Lights when the power supply is turned on.
No.1 ALARM lamp
Lights up when a safety device on compressor circuit No. 1 trips.
No.2 ALARM lamp
Lights up when a safety device on compressor circuit No. 2 trips.
Lights while the unit is running.
Other
EDS55-801
Control System Function and Operation
UWYP180BY1/UWYP200BY1/UWYP220BY1/UWYP240BY1 Main unit operation
MULTI DISPLAY
LIST OF DISPLAY ITEMS
NO. NO. 1 2
Indicators Error code Temperature setting in normal cooling (˚C) Temperature setting in heat-storage cooling (˚C) Temperature setting in normal heating (˚C) Temperature setting in heat-storage heating (˚C) Inlet water temperature (˚C) Outlet water temperature (˚C)
button
NO. NO. 1 2
Indicators Outdoor temperature (˚C) Discharge pipe temperature (˚C) Refrigerant temperature on thermistor (˚C) Compressor load Fan mode Running time (min.) Running time for compressor (hour)
(All of the above indicators do not apply to every model.)
button
CANCEL button
Water temperature control lamp (red) ESC.
ENTER button
ENTER
POWER SUPPLY lamp (orange)
No.1 ALARM lamp (white)
No.2 Compressor operation lamp No.1 Compressor operation lamp No.1 Compressor stop lamp No.2 Compressor stop lamp
POWER
WIDER LOAD HIGH COP
NO.1
CONTROL
No.2 ALARM lamp (white)
NO.2 ALARM
No.1 Fan operation lamp ON
No.2 Fan operation lamp
OFF COMPRESSOR NO.1
COMPRESSOR NO.2
FAN NO.1
FAN NO.2
REMOTE
· OFF·RESET
ON
OPERATION
NO.1
OPERATION lamp (red)
Remote operation lamp (red) Service operation lamp (orange) SERVICE
OPERATION button STOP RESET button
Inspection (SERVICE) button Manual Defrost button
Manual Defrost
COOLING
OPERATION
BOTH
(heat pump only)
HEATING
COOLING / HEATING switch
HPS-TEST
FAN INTERLOCK TEST
NO.2
(heat pump only)
OPERATION / HIGH PRESSURE TEST switch
SYSTEM CHANGOVER switch (NO1 / BOTH / NO2)
SYSTEM CHANGEOVER switch OPERATION / FAN INTERLOCK TEST switch
........... Normally, leave it set to the BOTH position.
Switch between compressor circuit No.1 and compressor circuit No.2 when running units individually. (No.1 is on the left when seen from the switch box.) ............ Set to COOLING to cool; Set to HEATING to heat. COOLING / HEATING switch ............... Set to LOCAL to operate the unit from this control panel. LOCAL / REMOTE switch Set to REMOTE to operate the unit from remote. Remote operation lamp light up during remote operation. OPERATION / HIGH PRESSURE TEST ..... Set to OPERATION for normal running. Set to HPS TEST to check whether the high pressure switch (high switch pressure protection) is functioning properly or not.
OPERATION / FAN INTERLOCK TEST ....... Set to OPERATION for normal running. Set to FAN INTERLOCK TEST to check whether the fan interlock is working properly or not. OPERATION button ..................... Press to start operation. STOP RESET button ................... Manual Defrost button .................... POWER SUPPLY lamp ................... OPERATION lamp ....................... No.1 ALARM lamp No.2 ALARM lamp
Other
Press to stop the unit or reset the unit when trouble occurs. Press to defrost manually (heat pump only). Lights when the power supply is turned on. Lights while the unit is running.
....................... Lights up when a safety device on compressor circuit No. 1 trips. ....................... Lights up when a safety device on compressor circuit No. 2 trips.
87
Control System Function and Operation
EDS55-801
Main unit operation (SUB)
MULTI DISPLAY
LIST OF DISPLAY ITEMS
Indicators
Indicators Error code Temperature setting in normal cooling (˚C) Termperature setting in heat-storage cooling (˚C) Temperature setting in normal heating (˚C) Temperature setting in heat-storage heating (˚C) Inlet water temperature (˚C) Outlet water temperature (˚C)
button
Outdoor temperature (˚C) Discharge pipe temperature (˚C) Refrigerant temperature on thermistor (˚C) Compressor load Fan mode Running time (min.) Running time for compressor (hour)
CANCEL button
button Water temperature control lamp (red)
ESC.
ENTER
ENTER button ALARM lamp (white)
POWER SUPPLY lamp (orange) WIDER LOAD HIGH COP
POWER
CONTROL
Compressor operation lamp (red)
ALARM
Fan operation lamp (red)
ON
Compressor stop lamp (green) Remote operation lamp (red)
Fan stop lamp (green)
OFF COMPRESSOR
FAN
OPERATION lamp (red)
Service operation lamp (orange) SERVICE button Remote operation button Manual Defrost button
REMOTE
SERVICE
Manual Defrost
ON
OPERATION button
COOLING
OPERATION
OPERATION
STOP RESET button
HEATING
HPS-TEST
FAN INTERLOCK TEST
OPERATION / FAN INTERLOCK TEST switch
(heat pump only)
COOLING / HEATING switch
OPERATION / HIGH PRESSURE TEST switch
(heat pump only)
LOCAL / REMOTE switch
OFF RESET
................ Set to LOCAL to operate the unit from this control panel. Set to REMOTE to operate the unit from remote. Remote operation lamp light up during remote operation.
OPERATION / HIGH PRESSURE TEST ..... Set to OPERATION for normal running. Set to HPS TEST switch to check whether the high pressure switch (high pressure protection) is functioning properly or not. OPERATION / FAN INTERLOCK TEST ....... Set to OPERATION for normal running. Set to FAN INTERLOCK TEST to check whether the fan interlock is working properly or not. OPERATION button ..................... Press to start operation. STOP RESET button .................. Press to stop the unit or reset the unit when trouble occurs. Manual Defrost button ..................... Press to defrost manually (heat pump only). POWER SUPPLY lamp ................... Lights when the power supply is turned on.
....................... Lights while the unit is running. ........................... Lights up when a safety device on compressor circuit
OPERATION lamp ALARM lamp
trips.
88
Other
EDS55-801
Control System Function and Operation
UWYP280BY1/UWYP320BY1/UWYP360BY1/UWYP400BY1/UWYP440BY1/UWYP480BY1 Â&#x201E; Operation section of Matrix unit body Use chillers which have integration operation section as matrix units. You can operate normal operation and set water temperature and operation mode on it.
Integration operation section (Control Panel) Unitary type unit has one each. When integration operation, operate on here commonly, please.
Individually operation section Every switch box has. Operate it in order to find out details of the state of each unitsâ&#x20AC;&#x2122; operation, when doing maintenance services. How to use Individually operation section refer to single type unit operation manual.
REF.
Note { This figure takes main switch box for an example. Details refer to single type operation manual. { The figure of integration operation section is state of opening the cover. { All items appear in the display in the figure of integration operation section.
Other
89
Control System Function and Operation
EDS55-801
Â&#x201E; Synthetically Operation Section All items appear in the display to facilitate explanation. The display however differs for actual operation.
Display Section
90
Other
EDS55-801
Control System Function and Operation
Operation Section
Other
91
Control System Function and Operation
2.3
EDS55-801
Remote Wiring Work and Setting
UWYP40~UWYP240BY1 Operation Instruction Select instantaneous input or normally closed input for the Run/Stop input. Switching from the instantaneous input to the normally closed input or vice versa can be set on the site from the control panel. For more details, see 2.6 Local Settings on the Control Panel on page 102. Select the voltage input or non-voltage input for the Run/Stop input. These input methods have different wire connections. Connect the wires as shown below depending on which method is selected.
Connections for non-voltage input
Connections for voltage input
(3)
(3)
(4)
Input A Input B
Instantaneous Normally closed
(9)
(4) (5)
Input B
(6) (7) (8)
Cooling/heating input
DC 24V
Input A
(5)
(6) (7) (8)
Cooling/heating input
Input A Run signal (contactor ‘a’) ON for Run, OFF for Stop
CAUTI0N In case of the instantaneous input, signals may not be accepted until the power ON for 15 seconds. Make sure to wait minimum 15 seconds before attempting to input signals.
(9)
Input B Stop signal (contactor ‘a’)
Cooling/heating input ON for Heating,OFF for Cooling ON for Heating,OFF for Cooling
Note) 1. Use a micro-current contact for the remote input contact(min.load of 12VDC.10mA) 2. Make sure to take the voltage input from a power supply of 12 - 24 VDC only. Any other power supply could cause troubles. (The normal voltage input DC12~24V is no polarity.) 3. Ensure the proper power supply capacity. A voltage input needs a 10mA current for each contact. 4. For an instantaneous input, use an input with a minimum 200 msec of ON time.
Other Operation Instruction Connect wires according to the following table for such setting as the low noise operationg at nighttime, demand operation, forced fan operation, heat storage operation and remote temperature setting. Item Remote temperature setting Heat storage operation
Note 1)
Control terminal
Contact specification
(10)-(11)
Voltage contactor input
Heat storage operation contactor input
(24)-(25)
Selection of 2 temperatures setting/External thermostat
(26)-(27)
Thermostate input during external thermostat setting(0-100% operation) Note 1)
(28)-(29)
Low noise operation during night input Demand operation input Forced fan operation
Note 1)
(30)-(31)
Non-voltage contactor input
(32)-(33) (32)-(34)
Note 1)
Remote abnormal reset input
Note 1)
Note 1)
(35)-(36)
Note) 1. Only connect wires in the control box (MAIN) of UWYP180~240BY1. 2. Connect wires in the control boxes(both MAIN and SUB) when install 63WL,23WH,26WH
92
Other
EDS55-801
Control System Function and Operation
CAUTION
N P F1 F2
Centralized remote controller
When using an optional remote controller, install the remote controller avoiding direct exposure to rain and winds, because it is not constructed as a waterproof device. *Optional remote controller:BRC307 UWYP180~240BY1: It is attached in the Control box (MAIN) as standard accessory. Please set [MAIN/SUB] when performing remote controller operation, refer to accessory manual about remote controller.
Pump Operation Output The magnetic switches for pump are field supplied parts, and are not attached to the chiller. When installing, be sure to provide an interlock circuit in accordance with the wiring diagram. Use the non-voltage contactors only for the pump interlock contactors. Connecting a voltage circuit could destroy the microcomputer printed circuit board. Regarding the wiring of remote control circuit Use 0.75~1.25mm2 sheathed vinyl cord and cable is not more than 500 m in length. Keep the transmission wires (voltage signal, non-voltage singal, remote controller signal, centralized remote controller signal, analog input [remote voltage temperature setting]) away from power supply wires to avoid malfunctions.
UWYP280~480BY1 Only give direction to the matrix units. Don't give the auxiliary units any direction. Note Input the power by the sequence that :matrix unit, then, auxiliary unit. If the sequence is wrong, the remote control operation will be unacceptable. Please input power with right sequence renewedly, when you mistake. The pump interlock only for the matrix units. According to the difference of setting, can input the matrix and auxiliary units individually. When installing optional remote controller or centralize controller, please prepare transition 500m wire or more, because there is already have connecting wire in inside. ∗The same to control wire between matrix unit and auxiliary unit (not belong to chillers). The controller which sell in addition can connect with 2 units with the integration operation section. ∗Please take the integration operation section apart,if you operate 2 UWYP280~480BY1 by using remote controller which sell in addition.
Other
93
Control System Function and Operation
EDS55-801
UWYP280, 320BY1
Remote controller
Control line
Control line Switch box matrix unit
Switch box auxiliary unit
Total length of control wire about 500m
UWYP360, 400, 440, 480BY1
Remote controller 10m
10m Control line
Control line Control line
Switch box (main)
Switch box (sub) Control line
matrix unit
Switch box (main)
Switch box (sub)
auxiliary unit
Total length of control wire about 500m Â&#x201E; For avoiding mistaken operation, please don't put the power wire, signal wire and the wire which has high voltage with no-voltage, wire, controller wire, unit controller wire and the low voltage wire, please separate them. â&#x2C6;&#x2014; Please look the single unit manual about the item which don't mentioned here.
94
Other
EDS55-801
2.4
Control System Function and Operation
Operation Method of the Control Panel Controller used on the unit is a multi function controller that features the following function: 1). Multi display function 2). Water temperature controls switching function and others.
MULTI DISPLAY LIST OF DISPLAY ITEMS Indicators Error code Temperature setting in normal cooling (˚C) Temperature setting in heat-storage cooling (˚C) Temperature setting in normal heating (˚C) Temperature setting in heat-storage heating (˚C) Inlet water temperature (˚C) Outlet water temperature (˚C)
Indicators Outdoor temperature (˚C) Discharge pipe temperature (˚C) Refrigerant temperature on thermistor (˚C) Compressor load Fan mode Running time (min.) Running time for compressor (hour)
(All of the above indicators do not apply to every model.)
Previous · Next button 1.Change contents according the list of display items. 2.Change values of temperature.
CANCEL button Cancel operation or return the initial screen.
ENTER button Confirm settings.
OPERATION button Press to start operation.
SERVICE button Press to looking for the exception. (maintenance )
STOP · RESET button Remote operation button Set to LOCAL / REMOTE mode. Remote operation lamp (red) lights up if setting to REMOTE mode.
Manual Defrost
COOLING
OPERATION
OPERATION
HEATING
HPS-TEST
FAN INTERLOCK TEST
Press to stop or reset the unit.
UWYP40~160BY1
How to set the temperature 1. On the initial screen, the value of temperature set for the currently selected operation mode is displayed. 2. Press the S or T button to display the water temperature to be set for the currently selected operation mode on the screen. 3. Press the [ENTER] button. (Indication on the display brinks.) 4. Using the S or T button, adjust the water setting temperature and press again the [ENTER] button to finalize the value. (Then the display returns to light up.) 5. Press the [ESC] button or wait for 3 minutes so that the display returns to the screen displayed the water temperature to be set for the currently selected operation mode.
Other
95
Control System Function and Operation
EDS55-801
How to operate the multi display Multi display displays normally the value of the water temperature set at the current operation mode (either one of multi display items • below).The display can be changed to see the current operation status by pressing the or button.
current display position If any error occurs, the display indicates the individual error display . If the error is reset, the screen returns to the normal display of the value of the water temperature set at the current operation mode ( ~ ): Three minutes later after pressing the or button, or if the [ESC] button is pushed, the display returns to show the current temperature setting value ( • ) or to display the individual error if any error is occurring. Note) 1. In the case of No. 1 system unit (with one compressor), the No. 2 system unit is not displayed. 2. Temperatures indicated on the display are approximate values, which has the tolerance about ±3°C. 3. Before operating the multi display, the operator has to discharge the static electrical born. List of display items of the multi display note)∗cooling only type do not display
Individual code table
OL1 OL2
On
Inlet water temperature thermistor malfunction Outlet water temperature thermistor malfunction Plate heat exchanger over cooled Water over heat AXP malfunction Water interruption Electric heater overheat Ambient temperature thermistor malfunction Faulty reverse or open phase Control panel malfunction Transmission error between chiller and remote controllers Code for remote control temperature setting broken Transmission error between chiller and centralized remote controllers In case of malfunction the units continue operations with malfunction display, The malfunction display of is displayed only in case of field wiring.
OL1
On
No.1 Fan interlock malfunction No.1 Thermistor (refrigerant) malfunction No.1 Slide valve malfunction CN13 Jumper broken (EC2) No.1 Inverter malfunction No.1 High pressure malfunction No.1 Low pressure malfunction No.1 Compressor motor overheat No.1 Compressor overload No.1 Fan motor overload No.1 EV malfunction No.1 Discharge gas overheat No.1 Current transformer malfunction No.1 Discharge gas thermistor malfunction No.1 Thermistor (suction) malfunction No.1 High pressure sensor malfunction
NO.1 Low pressure sensor malfunction NO.1 Extended I/O malfunction NO.1 Thermistor (suction) malfunction (heating/front) NO.1 Thermistor (suction) malfunction (heating/rear)
OL2
On
NO.2 Compressor motor overheat NO.2 Compressor overload NO.2 Fan mater overload NO.2 High pressure malfunction NO.2 Low pressure malfunction NO.2 Low pressure sensor malfunction NO.2 High pressure sensor malfunction NO.2 Fan interlock malfunction No.2 Current transformer malfunction
NO.2 Thermistor (refrigeramt) malfunction NO.2 Discharge gas thermistor malfunction NO.2 Discharge gas overheat NO.2 EV malfunction NO.2 Thermistor (suction) malfunction NO.2 Slide valve malfunction CN16 Jumper broken (EC4) NO.2 Inverter malfunction NO.2 Heat exchanger thermistor (rear) malfunction
NO.2 Extended I/O malfunction NO.2 Thermistor (suction) malfunction (heating/front) NO.2 Thermistor (suction) malfunction (heating/rear)
∗ 1. Faulty high pressure (E3.73), Faulty reverse or open phase (U1), the chiller can not restart within 30 mins. 2. In case of following errors, the only Daikin authorized person can reset the situation. Please contact our regional agent. Compressor motor overload (E6.71), Compressor motor overheat (E5.70), abnormal discharge gas temperature (F3.88), every third time of Plate heat exchanger overcooled (89), and slide valve malfunction (93.94). 3. If press "OPERATION button", and the error Low pressure malfanction (E4.74) has occured before the compressor operate, it may be a lack of refrigerant. Please contact our regional agent.
96
Other
EDS55-801
2.5
Control System Function and Operation
Functions of the Chiller 1. Selection of the control mode of water temperature With this unit, the range of operation capacity of the compressor to be used for controlling the water temperature can be selected. Please select any mode from the following control modes of water temperature suitable for your system. Accuracy precedence mode The operation capacity of a compressor can be used at a low capacity down to 40% or less. Therefore, ON-OFF cycles of the compressor when it is operated under low load can be minimized resulting in the improvement of the accuracy of water temperature, enabling a steady control of the water temperature in a wide range. Saving energy precedence mode The operation of the compressor at a capacity of 40% or less, which declines its operational efficiency, stops to secure its efficiency. Especially this is suitable for such system that does not require the control of water temperature with high accuracy under low load operation and for such system for general. 2. How to set the control mode of water temperature Carry out input operation of the control mode of water temperature from the control panel.For details of such operation, please refer to page 102 [local settings on the control panel]. Selection of differential The differential for controlling the water temperature can be selected within the following range by a setting from the control panel. Selectable differential 1 ˚C (set value ± ) 0.5 ˚C) 2 ˚C (set value ± ) 1.0 ˚C)
Two times of the minimum holding water quantity at [2˚C]. Set if the range of use can’t be maintained when ON/OFF happens frequently because of the shortage of holding water quantity, etc.
4 ˚C (set value ± ) 2.0 ˚C) 6 ˚C (set value ± ) 3.0 ˚C)
Regarding differential setting It is recommended to use at a setting of 2°C or more in case of a normal operation where specific accuracy of the water temperature is not required. If you want to use under a higher accuracy of the water temperature, please set at 1°C. But in the case of use at differential 1°C , please be careful that the minimum holding water quantity becomes two times of the same when it is set at 2°C. 3. Minimum holding water quantity in a system. The differential for controlling the water temperature can be selected within the following range by a setting from the control panel. 4. Temperature setting The water temperature of this unit can be set either from the control panel, remote controller or external analogue circuit. It is possible to select from the control panel to decide which setting method should be effective. In the case of setting from the control panel: Select the setting of chilled water temperature (displayed with symbol C) using or button on the control panel, and then press [ENTER] button. When the display starts blinking, set the water temperature using or buttons, and then press [ENTER] button again to complete the setting. In the case of setting from the remote controller or centralized controller Please refer to the instruction of remote controller and centralized controller. (supplementary section) In the case of setting from the external analogue input (DC4 ~ 20mA) Input DC4 ~ 20mA between the terminals (10) - (11). The range of temperature setting is as shown in the table below. During cooling
30˚C
60˚C
16˚C
45˚C
25˚C
4˚C 4
11.4
20
Remote temperature setting current (DC:mA)
Other
During heating
4
13.1
20
Remote temperature setting current (DC:mA)
97
Control System Function and Operation
EDS55-801
Tolerances of about ± several °C in the set temperature value is sometimes expected against the actual input of current value.When the temperature has been set from the external analogue input, please make a final check of the set temperature seeing the display on the main body control. 5. Range of temperature setting Temperature setting display range. Cooling 4 ~ 30°C (outlet water temperature setting range for 4 ~ 16°C ) Heating 25 ~ 60°C (outlet water temperature setting range for 35 ~ 55°C) Yardstick for making temperature setting. For general cooling, use the below settings. Chilled water setting
Hot water setting
7°C
45°C
Note: Set the temperature so that outlet water temperature, whichever selected for temperature control, stays within the set range. If the temperature is set too low or too high, the high pressure switch or the temperature switch (freeze protection) might trip. 6. Operation of the pump while the operation of the chiller has been stopped In order to prevent the unit from freezing during winter, the unit is equipped with a function to carry out an automatic operation output of the pump when the water temperature becomes lower than a specific temperature even while the chiller has been stopped (when the water temperature at the outlet of water heat exchanger in the chiller is lower than 3°C.) Do not fail to carry out wiring so that the pump may be operated in accordance with the pump operation output from the unit. 7. Low noise operation during night It is possible to use the unit by lowering the fan noise by stopping some of the fans when the ambient temperature is relatively low, for instance, during night. For details of setting, please refer to [local settings on the control panel]. By controlling the maximum load of the capacity of the compressor at 70%, the number of the fans to be operated is reduced to its half. When the ambient temperature rises and the high pressure increases during operation in this mode, all fans start rotating to prevent the pressure switch from actuating (protection for high pressure). When you perform a low noise operation during night, carry out a wiring of no-voltage normal contact-A input between the terminals Nos. (30) and (31) located in the switch box. When the contact input is ON, the mode becomes low noise operation during night. When it is OFF, the mode becomes normal operation. This function is made possible by external contact input and cannot be set from the remote controller or centralized controller. 8. Demand operation control A demand control by means of running current of the compressor is possible during remote operation of the unit. (Refer to NOTE) 1 and 2.) By demand control, the capacity of the compressor is controlled in such a manner that the set current value becomes the upper limit. In the case of sending a demand operation instruction from the remote controller: Start the demand control by pressing the DEMAND CONTROL button on the remote controller. The demand operation control needs to set the local setting No. 7 to [0:remote controller].(Refer to [local settings on the control panel].) For detailed operation, please refer to [How to set demand control]. In the case of sending a demand operation instruction from the external contact input: Start the demand control by turning the contact input (no-voltage normal contact-A) between the terminals Nos. (32) and (33) ON. The demand operation control needs to set the local setting No. 7 to [0:remote controller].(Refer to [local settings on the control panel].) For detailed wiring, please refer to the [Electrical wiring diagram]. Setting of the current for demand control: Carry out the input operation of the current for controlling the demand from the control panel. (Refer to NOTE) 1 and 2.) For detailed operation, please refer to [local settings on the control panel]. If you want the thermostat to be OFF (to stop the compressor and fan) while inputting the instruction for demand operation, input the set value of the current for demand control as 0A.(This has been set at 0A when the unit was shipped out from our factory.) Under above setting, if you try to input the instruction for a demand operation during thermostat ON (during the operation of the compressor and fan), the thermostat turns OFF.When you have input an instruction for a demand operation while the thermostat is OFF and the chiller is stopping, the thermostat does not turn ON 98
Other
EDS55-801
Control System Function and Operation
until such input is released. Note) 1. The current value to be used for a demand operation is the operation current of the compressor only. Such current for the fan motor, etc. is added to the actual operation current of the chiller, to which please pay your attention. (The fan current will be about 10% of the rated current.) At the same time, please be careful that a tolerance of about ±10% is expected in the current control value of this unit. 2. The lower limit of the current to control the demand is about 70% of the rated current in order to secure the minimum capacity operation of the chiller. When you have set lower than the above, the thermostat sometimes turns OFF (to stop the compressor and fan) during a demand control operation. 9. Thermal storage operation The unit has a feature to switch between thermal storage operation and normal operation according to the external instruction in addition to such function as carrying out a normal operation during daytime and storage operation during night. For thermal storage operation, it is possible to select, when an instruction of thermal storage has been input, either "2 temperatures setting" for changing the water temperature setting or [External thermostat operation] for 0-100% operation by contact input by means of the signal sent from the external thermostat, etc. of the thermal storage tank. At the same time, operation to continue - to stop the pump under 0% operation can be selected by a setting from the control panel during [0-100% operation]. Changeover between thermal storage operation and normal operation: For changeover and input to the thermal storage operation, it is possible to select either [External contactor] or [Remote controller] to use. For details, please refer to [local settings on the control panel]. In the case of carrying out from external contactor: Connect the wiring no-voltage normal contat-A between the terminals Nos. (24) and (25) located in the switch box of the main body. Thermal storage operation is carried out when the contact input is ON, and the normal operation when it is OFF. In the case of carrying out from remote controller: Select thermal storage cooling or thermal storage heating using the OPERATION MODE SWITCHING button on the remote controller. Selection of 2 temperatures setting/external thermostat (0-100% operation): Connect the wiring of no-voltage normal contact-A between the terminals Nos. (26) - (27) located in the switch box of the main body. [0-100% operation] is carried out when the contact input is ON, [2 temperatures setting] operation when it is OFF. Temperature setting when 2 temperatures have been set: You can select the temperature setting either from [Remote controller] or [Control panel] by means of a setting from the control panel. For details, please refer to [local settings on the control panel]. Temperature setting from remote controller: Select the display of [Setting of the water temperature for thermal storage] using OPERATION MODE SWITCH button, and then set the water temperature using or buttons. Temperature setting from control panel: Select the display of [Setting of the water temperature for thermal storage (display of a symbol C) using or buttons and then press [ENTER] button. When the displayed contents start blinking, set the water temperature using or buttons and then press [ENTER] button again to complete the setting. Note) For 2 temperatures setting, temperature setting from [Centralized remote controller] or by [External analogue input] is not possible. When you use [Centralized remoter controller], install a remote controller at the same time or carry out the setting of thermal storage water temperature from the [Control panel]. When you use [External analogue input], change the temperature setting from the external input to use the unit. Input of the external thermostat (0-100% operation): Connect the wiring of no-voltage normal a-contact between the terminals Nos. (28) and (29) located in the switch box of main body. The unit becomes [100% operation (full load operation)] when the contact input is ON, and [0% (thermostat stops) operation] when it is OFF. The water temperature of the chiller will not be controlled during 100% operation in this mode. Be careful that a forced thermostat OFF or protection device may be actuated in order to prevent the unit from freezing when the temperature of outlet water becomes extremely too low. Selection of working condition of the pump under external thermostat operation (0-100%): By a setting from the control panel, either of the following working conditions of the pump when Other
99
Control System Function and Operation
EDS55-801
the thermal storage has been completed (0% instruction) can be selected for use. For detailed setting, please refer to [local settings on the control panel]. Linkage to ON-OFF: The pump continues its operation even when 0% instruction (thermostat OFF) has been given. If you want to stop the pump, please input a stop instruction to the chiller. Linkage to thermostat: After 0% instruction (thermostat OFF) is given, the pump stops its operation in 5 minutes. When this mode has been selected, the pump does not start its operation even if a 100% operation instruction is input again after the pump stopped its operation. If you want to restart the pump, return to the normal operation from thermal storage operation first, and after changing to the mode of thermal storage operation again, then input a 100% operation instruction. (If a 100% operation instruction is input again in 5 minutes after a 0% operation instruction has been given, the pump continues its operation.) 10.Resetting of remote abnormal status If any abnormal matter happens with the unit, it is possible to select by inputting a stop instruction to either reset the abnormal status (emergency stop, display of abnormal codes or remote abnormal output) or continue it. For detailed selection, please refer to [local settings on the control panel]. 11.Operation of fan It is possible to operate the fan independently by sending an external instruction in order to remove the snow accumulated on the fan during snowfall. For forced operation of the fan, following methods of input of operation is selectable by a setting from the control panel. For detailed selection, please refer to [local settings on the control panel]. In the case of using external contactor: Connect the wiring of no-voltage normal contact-A input between the terminals Nos. (32) through (34) located in the switch box of main body. Forced fan operation starts when the contact input is ON while the chiller has been stopped, and stops when it is OFF. In the case of using a remote controller: If you press FORCED FAN ON button while the chiller has been stopped, you can start a forced fan operation. If you press FORCED FAN ON button again during forced fan ON operation, you can stop it. If an instruction to operate the chiller is given during a forced fan operation, the forced fan operation will stop and return to normal chiller operation. 12.Automatic restarting when a power failure has been recovered When [Instantaneous contact input] is used during remote operation or when operation instructions are being sent from a remote controller or centralized remote controller, it is possible to select, through a setting from the control panel, either to stop the operation of the chiller after a power failure has been recovered or to return automatically to the status before the power failure. (The unit has been set to stop when a power failure is recovered on shipment from our factory.) For detailed selection, please refer to [local settings on the control panel]. 13.About defrosting operation Defrosting operation is required during heating operation. This is to remove the frost accumulating on the cross fin coil. Defrosting operation is carried out automatically by constantly detecting the frost after certain prohibited time for operation has passed. The prohibited time has been set as follows: 30 minutes Set to shorten the defrosting interval when snowing or sleeting without snow insulating hood equipped. (Return to the original setting when snow season is over.) Defrosting shortening interval 10 minutes • In case of a external contactor: When shortened defrost interval input (constantly a) has been entered between the terminal Nos. (18) and (19), the operation becomes defrosting shortening regardless of Start/Stop. • In case of a remote controller: If you press the defrost interval button only during operation, the operation becomes as defrosting interval shortening mode. For the method to select external contactor/remote controller setting and the terminal numbers, please refer to the section of [remote wiring work]. In case of operation while snowing heavily, run the manual defrosting operation from time to time. 100
Other
EDS55-801
Control System Function and Operation
This is to prevent the operation from stopping by the activation of safety device that detects the heavy frost accumulated on the cross fin coil until the time of starting the defrosting operation. Â&#x201E; Time required until warming up It needs some time until warming up after starting heating operation because of the type of hot water circuit system.
Other
101
Control System Function and Operation
2.6
EDS55-801
Local Settings on the Control Panel Set remote switch by control box, Please set as below before running. It is necessary to connect wires in the control box (SUB) of UWYP180~240BY1 as well. 1. Turn the power ON and keep pushing the and buttons simultaneously for more than 5 seconds to enter in the local setting mode. 2. Select a setting number corresponding to a ENTER ESC desired local setting mode using the or button and finalize by pressing the [ENTER] No.1 No.2 WIDER LOAD HIGH COP POWER CONTROL ALARM button. ON Indication on the display flickers. OFF To cancel a setting, press the [ESC] button. COMPRESSOR COMPRESSOR FAN FAN No.1 No.2 No.1 No.2 3. Select a setting value using the or button and finalized with the [ENTER] button. OFF RESET ON SERVICE REMOTE 4. Press the [ESC] button to return to the normal display. Control panel
Local setting items list:
Setting No.
Adjustable Range 19**~20**
Change Unit 1
Default Value Setting made on shipment of the unit
Unit Year
1
Year setting
2
Month/date setting
Month:1~12,date:1~31
1
1st Jan
Month/date
3
Time(hr,min) setting
Hour:00~23,min:00~59
1
00:00
Hour/min
4
Instantaneous/normally closed switch for remote Run/Stop contactor input
0:Normally closed / 1:Instantaneous
0,1
0:normally closed
5
Temperature setting input switch
0:Remote control centralized,1:External analogue input,2:Control panel
0,1,2
2:Control panel
6
Normal/Heat storage setting input switch
0:Remote controller,1:External contactor
0,1
1:External contactor
7
Demand input switch
0:Remote controller,1:External contactor
0,1
1:External contactor
8
Low noise setting input during night switch
0:Remote controller,1:External contactor
0,1
1:External contactor
9
Forced fan ON input switch
0:Remote controller,1:External contactor
0,1
0:Remote controller
10
Shortened defrost interval switch
0:Remote controller,1:External contactor
0,1
1:External contactor
11
Demand current method setting
0: Current value, 1: Capaity value
0,1
0:Current value
12
Pump operation setting under rotation control
0:Linkage(1:1),1:Alone(1:N)
0,1
0:Linkage
13
Rotation control/Simultaneous control under remote group control 0:Simultaneous control,1:Rotation control
0,1
0:Simltaneous control
14
Pump operation setting with thermal storage thermostat OFF
0:RUN/STOP linkage,1:Thermostat linkage 0,1
0:RUN/STOP linkage
Outlet control mode switch
0:Accuracy precedence mode, 1:Saving energy precedence mode
0,1
1:Saving energy precedence mode
16
Thermostate differential switch
1:1˚C,2:2˚C,4:4˚C,6:6˚C
Scroll
2:2˚C
17
Setting for automatic start after power failure
0:No setting,1:set
0,1
0:No setting
18
Remote reset input
0:Invalid,1:Valid
0,1
0:Invalid
19
Centralized address setting
1-00~8-15
1
...(Not yet set)
20
Remote controller connection Yes/No setting
0:None,1:Provided
0,1
15
21
102
Local setting Item
Inlet thermistor automatic correction
0:None Present water temperature is displayed
Normal/Correction implementation
22
Demand control value setting
0~600A / 0~100%
23
Setting of supply voltage
200:200V,380:380V,400:400V,415:415V,440:440V Scroll
24
Setting of acceptance of external demand input during local operation 0:Invalid, 1:Valid
0,1
0:Invalid
25
Command from a solenoid valve to start the pump down operation 0:Invalid, 1:Valid
0,1
0:Invalid
29
Setting of i-manager separate connection
0:Invalid,1:Valid
0-1
0:Invalid
1A / 5%
0A Setting made for each type on shipment from our factory
LA
Rotation control of remote controller setting
0:Outlet control,1:Inlet control
0-1
1:Inlet control
Lb
Delay of setting water temperature controlled by remote controller
1:1˚C,2:2˚C,4:4˚C
1,2,4
2:2˚C
Ld
Water circulating pump input/output switch
0:Transmit,1:External contactor
0-1
Refer to following statement
LE
External thermostat (0~100 operation)
0:Transmit,1:External contactor
0-1
Refer to following statement
A/% V
Other
EDS55-801
Control System Function and Operation
Note) 1. “Centralized” in the table means the centralized controller. 2. Setting Nos. 12, 13 and 20 for local setting mode can be set when an optional remote controller (BRC307D) is installed. 3. Setting No. 18 for the local setting mode can be set when the unit is connected to the centralized control devices instead of the remote controller. For further details, consult your dealer. 4. Do not perform any operation of the setting No. 26 and onward, otherwise a normal operation may not be expected. Details of local setting items Setting No. 1 2 3
Local Setting Item Year setting Month/Date setting Time (hr,min) setting
Adjustable Range 19**~20** month:1~12 date:1~31 hour :00~23 min:00~59
Change Unit 1 1 1
Default Value
Unit
Year Setting made on Month/date shipment of the unit Hour/min
The unit has a feature to memorize the times when errors or alarms have occurred. In order to let this function work without any problem, please make sure that correct date and time have been set. Setting No. 4
Local Setting Item
Adjustable Range
Instantaneous / normally closed switch 0: Normally closed/ 1: Instantaneous for remote Run/Stop contactor input
Change Unit
Default Value
Unit
0-1
0: Normally closed
-
You can select the normally closed or instaneous mode according to the remote input. For details of remote RUN/STOP contactor input, please reter to 2.3 Remote Wiring Work and Setting on page 92. Setting No. 5
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
Temperature setting input switch
0: Remote / Centralized control 1: External DC4~20mA 2: Control panel (Local)
0-1-2
2: Control panel
-
Setting to control the water temperature can be set with which of the remote control/centralized controller (optional),external analog (DC4~20mA) or control panel.For details of setting the water temperature, please refer to 2.3 Remote Wiring Work and Setting on page 92 and also to the attached electrical wiring diagram.) Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
6
Normal / heat storage setting input switch
0: Remote controller 1: External contactor
0-1
1:External contactor
-
It can be set from which of the remote controller or the external contactor, to transmit the heat storage operation command. For details of thermal storage operation, please refer to 2.5 Functions of the Chiller on page 97. (For details of wiring, please refer to 2.3 Remote Wiring Work and Setting on page 92 and also to the attached electrical wiring diagram.) Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
7
Demand input switch
0: Remote controller 1: External contactor
0-1
1:External contactor
-
You can select either from the remote controller or external contactor for giving the instruction of demand operation. For details of demand operation, please refer to 2.5 Functions of the Chiller on page 97. (For details of wiring, please refer to 2.3 Remote Wiring Work and Setting on page 92 and also to the attached electrical wiring diagram) Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
8
Low noise setting input during night switch
0: Remote controller 1: External contactor
0-1
1:External contactor
-
For sending an instruction of low noise operation during night, you can do it either from the remote controller or external contactor. For details of low noise operation during night, please refer to 2.5 Functions of the Chiller on page 97. (For details of wiring, please refer to 2.3 Remote Wiring Work and Setting on page 92 and also to the attached electrical wiring diagram)
Other
Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
9
Forced fan ON input switch
0: Remote controller 1: External contactor
0-1
0:Remote controller
-
103
Control System Function and Operation
EDS55-801
For sending an instruction of forced fan operation. You can do it either from the remote controller or external contactor .For details of forced fan operation, please refer to 2.5 Functions of the Chiller on page 97. (For details of wiring, please refer to 2.3 Remote Wiring Work and Setting on page 92 and also to the attached electrical wiring diagram.) Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
10
Shortened defrost interval switch
0: Remote controller 1: External contactor
0-1
1:External contactor
-
You can select either from the remote controller or external contactor to carry out shortened defrost interval directive. Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
11
Demand method setting
0:Current value, 1:Capacity value
0,1
0:Current value
-
You can select the method of demand operation to be carried out either by operation current of the compressor or by specifying the capacity of the compressor. For details of demand operation, please refer to the [Function of the chiller]. Setting No. 12
Local Setting Item
Adjustable Range
Pump operation setting under rotation control
0: pump operation interlocked with thermostat 1: All pumps operating
Change Unit
Default Value
Unit
0-1
0:Pump operating interlocked with thermostat
-
When [Rotation] has been selected in the local setting mode No. 12 under group controlling after connecting the remote controller (optional), please select a suitable pump operation for your system No. 12. 0: Pump operating interlocked with thermostat During the plural units controlled, on the units only of which thermostats are turned on perform pump operation output. In such occasion, the plural units control function judges the number of units by the run or stop based on the average outlet water temperature on all units. When the thermostats of all units are OFF, the control continues the pump operation of the master unit (makes a rotation by automatic determination or operation/stop) based on the outlet water temperature of that unit. 1: All pumps operating In the case of controlling operations of more than one unit, the perform pump operation output all units regardless whether the thermostat is turned on or off on each unit. In such occasion, the plural units control function judges the number of units by the run or stop based on the average outlet water temperature on all units. Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
13
Rotation control/Simultaneous control under remote group control
0: Simultaneous control, 1: Rotation control
0-1
0: Simultaneous control
-
Select the following when the group control a control of plural number of units is performed with the remote controller connected. • Simultaneous control: Operation command is given to all units while the remote controllers plural units control. (In this case, each unit is controlled with its own thermostat.) • Rotation control: Units are operated in rotation in accordance with the frequency of operation and stopped in order to average the operation times on all units. In this case, the rotation proceeds in the order of the Master unitiSlave unit 1 iSlave unit 2 . . . After operating a unit for 1.5 minutes at the 100% capacity, if the average of outlet water temperature on the unit becomes or 2°C higher (during cooling) than the preset water temperature, next unit is switched to start. Only the unit started in the end is operated with the capacity control and its operation is controlled with the thermostat on the unit. [Example: Master unit (100%) − Slave unit 1 (100%) − Slave unit 2 (40%) . . . Under capacity control] Note) 1. The master unit is always operated except when the load is 0. The control alters the master unit by switching ON-OFF. Therefore, when the master unit has been operated for long hours without switching ON-OFF, the operation hours of the master unit may not be balanced sufficiently. 2. In the case of performing a rotation control, set the setting No. 11 [Setting of pump operation during rotation control] as well. 104
Other
EDS55-801
Control System Function and Operation
Setting No.
Local Setting Item
14
Pump operation setting with thermal storage thermostat OFF
Adjustable Range 0: Pump stop 1: Continued pump operation
Change Unit
Default Value
Unit
0-1
0: Pump stop
-
You can select the pump status when the thermal storage has been completed in the case of performing external thermostat (0 - 100% operation) during the thermal storage operation. For details of thermal storage operation, please refer to 2.5 Functions of the Chiller on page 97. (For details of wiring, please refer to 2.3 Remote Wiring Work and Setting on page 92 and also to the attached electrical wiring diagram.) Setting No. 15
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
Outlet control mode switch
0: Accuracy precedence mode 1: Saving energy precedence mode
0-1
1: Saving energy precedence mode
-
You can select either [Accuracy precedence], by which the capacity control range of the compressor for the water temperature control can be minimized and the accuracy of water temperature can be improved during an operation under low load, or [Saving energy precedence], by which the minimum capacity of the water usage is kept at around 40% level and no operation is performed in any range where the efficiency declines. For details of the water temperature control mode, please refer to 2.5 Functions of the Chiller on page 97. Note) When [Saving energy precedence mode] has been selected, the minimum water holding quantity becomes double of that of the normal mode, to which please pay your attention. Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
16
Thermostat differential switch
1:1°C,2:2°C,4:4°C,6:6°C
1,2,4,6
2:2°C
°C
You can select a differential suitable for the purpose of your system. We recommend to use at [2°C] for the general system as air conditioning, etc. , or if anyspecific accuracy of the water temperature is not required. Especially, if you want to keep the unevenness of the water temperature to its minimum, set at [1°C]. Please be careful that the minimum water holding quantity becomes double when the differential is used at [1°C]. For details of setting of thermostat differential, please refer to 2.5 Functions of the Chiller on page 97. Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
17
Setting for automatic restarting after power failure
0: No setting, 1: Set
0-1
0: No setting
-
You can select either stop or restart on the operation panel when power recovery. This function is limited to remote control mode, the unit always at stop status when it is in local control mode. Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
18
Remote reset input
0: Invalid, 1: Valid
0-1
0: Invalid
-
If a stop instruction is sent after any abnormal matter has occurred, the unit has a function to reset the abnormal status (emergency stop, display of abnormal code or remote abnormal output). If [1:Valid] is set at setting No. 17 when a remote operation is being done according to the contact instruction, it is possible to display the abnormal code of the chiller main body or not to reset the abnormal output even when a stop instruction has been sent after the occurrence of the abnormal matter. In this case you can actuate abnormal reset by turning the contact input (no-voltage instantaneous contact-A) between the terminal Nos. (35) and (36) ON. (For details of wiring, please refer to 2.3 Remote Wiring Work and Setting on page 92 and also to the attached electrical wiring diagram.) Note) This setting is valid only when a remote contact instruction has been sent. Any stop instruction sent from the remote controller or centralized controller becomes abnormal reset even if [1:Valid] has been set. Setting No. 19
Other
Local Setting Item Centralized address setting
Adjustable Range
Change Unit
Default Value
Unit
1-00~8-15
1
-
-
105
Control System Function and Operation
EDS55-801
Set the following when the centralized control equipments are connected such as the centralized controller, etc (Example: Four units of equipment are connected 1-00, 1-01, 1-02, 1-03) Setting No. 20
Local Setting Item Remote controller connection Yes/No setting
Adjustable Range
Change Unit
Default Value
Unit
0: No, 1: Yes
0-1
0: No
-
It must be set at ‘1: Yes‘ when connecting a remote controller is contnected. Setting No. 21
Local Setting Item Inlet thermistor automatic correction
Adjustable Range -
Change Unit
Default Value
Unit
-
Display the water temperature at the outlet
-
Temperature. During the use of the unit or on operation after stopping for a long time, the value read by each water temperature sensor located at the outlet and inlet may sometimes not correct. In order for the unit to operate accurately, please make a periodic correction to the water temperature sensors. For correction, press [ENTER] button at this setting No. 21 in such a manner that there is no difference found between the water temperatures at the outlet and inlet after operating the pump only for several minutes while keeping the operation of the compressor under stop status (a status of the thermostat OFF). When [ENTER] button has been pressed, the displayed value starts blinking. Then, press [ENTER] button again to complete the correction. Setting No. 22
Local Setting Item Demand control value setting
Adjustable Range
Change Unit
Default Value
Unit
0~600A / 0~100%
1A / 5%
0A
A/%
You can select the set value for performing demand operation. (Selection of command by either current or capacity is done at No.11) If you wish to turn OFF the thermostat (state of a pause of compressor and fan) during demand operation, please select either 0A or 0%. In case of a demand by current, the thermostat may become OFF state depending on the set value. For details of demand operation, please refer to the [Function the chiller] Note) 1. For details of wiring, please refer to [Remote control wiring work] on page 92 and also the attacted wiring diagram. Setting No. 23
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
Setting of supply voltage
200:200V, 380:380V, 400:400V, 415:415V, 440:440V
Scroll
415:415V
V
Please make sure that the power frequency of the unit you purchased and you are going to use is corresponding to the above setting. Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
24
Setting of acceptance of external demand input during local operation
0:Invalid,1:Valid
0,1
0:Invalid
-
Please make sure that the power voltage of the unit you purchased and you are going to use is corresponding to the above setting. Especially when you are using a unit of overseas voltage specification, be careful that the voltage has been set at 400V on shipment of the unit from our factory. Note) 1. Motors, etc. designated for each 200V and 380~440V are used for the specific unit. Please be careful that even if you have set the voltage according to the above setting, you cannot use a unit designated for 400V by 200V supply voltage, or 200V unit by 380 ~ 400V supply voltage.) 2. In the case of using a unit for overseas voltage, make a correction to the setting of the supply voltage for the transformer tap contained in the control box of the main body in line with the setting of the above.
106
Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
25
Command from a solenoid valve to start the pump down operation
0:Invalid, 1:Valid
0,1
0:Invalid
-
Other
EDS55-801
Control System Function and Operation When you want to start the pump down operation state for maintenance purpose, etc., do not fail to set the above set item to [1:Valid]. However, you must set it to [0:Invalid] when performing a normal operation. (If you have set the above set item to [1:Valid], it automatically changes to [0:Invalid] when [Stop/Reset] is input later. Note) 1. For details of wiring, please refer to [Remote control wiring work] on page 92 and also the attacted wiring diagram. Setting No. 29
Local Setting Item Setting of i-manager separate connection
Adjustable Range
Change Unit
Default Value
Unit
0:Invalid, 1:Valid
0-1
0:Invalid
-
You can select '1:valid' when connecting to i-manager in the place of centralized controller. Otherwise please select '0:invalid' when connecting to centralized controller. It is necessary to connect wires in the control box (MAIN) and control box (SUB) of UWYP180~240BY1. Setting No.
Local Setting Item
Adjustable Range
Change Unit
Default Value
Unit
LA
Rotation control of remote controller setting
0:Outlet control, 1:Inlet control
0-1
1:Inlet control
-
In the case of UWYP180~240BY1, please select '1:inlet control', the local setting No.12 pump operation setting under rotation control '1:all pumps operation', and No.13 rotation control/ simultanenous control under remote group control '1:rotation control' have been selected. Setting No.
Local Setting Item
Lb
Delay of setting water temperature controlled by remote controller
Adjustable Range 1:1°C,2:2°C,4:4°C
Change Unit
Default Value
Unit
1-2-4
2:2°C
°C
We recommend to use at [2°C] for the general system as air conditioning, etc. , or if anyspecific accuracy of the water temperature is not required. Especially, if you want to keep the unevenness of the water temperature to its minimum, set at [1°C].Please be careful that the minimum water holding quantity becomes double when the differential is used at [1°C]. Setting No.
Local Setting Item
Ld
Water circulating pump input/output switch
Adjustable Range 0:Transmit, 1:External contactor
Change Unit
Default Value
Unit
0-1
Refer to following statement.
-
In the case of UWYP180~240BY1, you can select '1:external contactor' in the control box (MAIN) and '0:transmit' in the control box (SUB), therefore the wiring of AXP(pump interlock) and 52P(water circulating pump) only be operated in the control box (MAIN) not control box (SUB). Setting No.
Local Setting Item
LE
External thermostat (0~100 operation)
Adjustable Range 0:Transmit, 1:External contactor
Change Unit
Default Value
Unit
0-1
Refer to following statement.
-
In the case of UWYP180~240BY1, you can select '1:external contactor' in the control box (MAIN) and '0:transmit' in the control box (SUB) when operating external thermostat (0~100% operation) instruction, therefore the wiring of thermal storage operation contactor (TH-STR3) only be operated in the control box (MAIN) not control box (SUB).
Other
107
Control System Function and Operation
2.7
Multi-functional LCD Remote Controller (Option)
2.7.1
Appearance & functions
EDS55-801
With the dedicated multi-functional remote controller, ideal diversified centralized control system can be set up freely according to different scales and purposes of use.
With the multi-functional LCD remote controller ("remote controller"), all operating statuses can be displayed on the large screen LCD. The temperature setting is shown with numbers at an increment of 0.1°C. Operation function: • Run/stop • Temperature sensor changeover • Forced fan operation • Demand control • Rotation balanced operation Display functions: • Operation display • Set temperature display • Sensor display • Demand control display • Low noise operation display • Forced fan operation display • Rotation balanced operation display • Group number display Real-time monitoring of 80 malfunction items in the system. With the "Self Diagnosis Function", the information of fault can be obtained immediately after malfunction occurs. Various field settings can be made with the remote controller.
108
Other
EDS55-801
2.7.2
Control System Function and Operation
Display Section and Operation Section All items appear in the display to facilitate explanation. The display however differs for actual operation.
Display Section
Thermal storage / normal preset temperature display "Thermal storage" is displayed when thermal storage preset temperature is displayed. Thermal storage and normal preset temperature display are switched by the thermal storage/normal operation button.
Display "operation mode" Displays current operating status. (Any one)
Sensor name display section
Forced fan motor ON display Lights when the "forced forced fan motor ON" ON button is pushed. Can be operated only when stopped (Not displayed when operating.)
When the display switch button is pushed, displays current sensor values in sequence. zAfter a fixed time (approx. 60 sec) elapses, the display automatically switches to the preset temperature display. zWhen sensor value is displayed, the "thermal storage preset temperature" display disappears.
Unit No. display
Operation lamp (red)
When remote controller group is used, continuously displays unit No. of remote controller connection. The display is switched by theS and Tbuttons.
Lights while operating. Flickers when stopped due to malfunction.
Malfunction code display Lights or flickers when a malfunction occurs.
Group No. display Displays when central address (group No.) is set.
Inspection display Lights or flickers when a malfunction occurs.
Field set display Displays when in the field set or service mode.
Unit display MPa and Temperature Display These two kinds of unit are automatically switched and displayed according to the display value.
BRC307D51
Operation mode display for setting Various modes are displayed by operating the setting mode switch button. zThe current operation mode is not displayed. zAfter a fixed time (approx. 60 sec) elapses, the display switches to the current operation mode.
Operation display Displays the current operation. The "demand control operation" display is set or cancelled by push the demand control button.
Under centralized control display Lights during centralized control. When lit, some or all functions cannot be used.
Request Â&#x201E; Do not pull or twist the remote controller's cord. Doing so could result in failure. Â&#x201E; Do not push the remote controller's buttons with sharp-edged objects. Doing so could result in damage or failure.
Other
109
Control System Function and Operation
EDS55-801
Operation Section
Display switch button
ON/OFF button
Operation mode switch button
Enter the sensor display mode when the button is pushed once, and subsequently displays each sensor value in sequence each time pushed. After LP display, returns to preset temperature display before sensor display.
Push once to start operation. To stop, push again.
Push to switch operation mode.
Setting mode switch button Switch operation mode to change preset temperature.
Set/cancel button Data set/cancel
Set or cancel data of various types in case of the field set or service mode.
Inspection/adjustment button The "malfunction code" is displayed when pushed at the time of minor failure. Operated in case of the field set or service mode.
Unit No. adjustment button Use to change the unit No. Invalid only for remote controller group control.
Temperature setting button Use to change the preset temperature. You can adjust the temperature 0.1Ë&#x161;C at a time. BRC307D51
Forced fan motor ON button Push once while Fan is stopped to turn the fan motor on manually. To stop, push again.
Defrost interval button Thermal storage / normal operation button Switch thermal storage / normal operation when preset temperature is to be changed.
Push to shorten the defrosting interval. To cancel, push again.
Demand control button Push to carry out demand control operation. To cancel, push again.
110
Other