Electrical Data, Units With Option 150; Operating Limits, Units With Option 150 - Carrier AquaForce PUREtec 30XWHPZE 301 Installation, Operation And Maintenance Instructions
Water-cooled liquid chillers and heat pump with r-1234ze(e) or optionally with r-515b refrigerant
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9 - HIGH CONDENSING OPTION (OPTION 150)
9.2 - Electrical data, units with option 150
30XW-PZE/30XWHPZE
Power circuit
Nominal power supply
Voltage range
Control circuit
Nominal start-up current
(1)
Circuit A
Circuit B
Option 81
Maximum start-up current
(2)
Circuit A
Circuit B
Option 81
Cosine phi nominal
(3)
Cosine phi maximum
(4)
Total harmonic distortion
(4)
Maximum power input
†
Circuit A
Circuit B
Option 81
Nominal current drawn
(3)
Circuit A
Circuit B
Option 81
Maximum current drawn (Un)
Circuit A
Circuit B
Option 81
Max. current drawn (Un -10%)
Circuit A
Circuit B
Option 81
(1) Instantaneous start-up current (maximum operating current of the smallest compressor(s) + locked rotor current or reduced start-up current of the largest compressor).
Values based on standard Eurovent unit operating conditions: evaporator entering/leaving water temp. = 12°C/7°C, condenser entering/leaving water
temp. = 30°C/35°C.
(2) Instantaneous start-up current (maximum operating current of the smallest compressor(s) + locked rotor current or reduced start-up current of the largest compressor).
Values obtained at operation with maximum unit power input.
(3) Values based on standard Eurovent unit operating conditions: evaporator entering/leaving water temp. = 12°C/7°C, condenser entering/leaving water
temp. = 30°C/35°C.
(4) Values obtained at operation with maximum unit power input.
†
Values obtained at operation with maximum unit power input. Values given on the unit name plate.
9.3 - Operating limits, units with option 150
30XW-PZE / 30XWHPZE
Evaporator
Entering temperature at start-up
Leaving temperature during operation
Entering/leaving temperature difference at full load
Condenser
Entering temperature at start-up
Leaving temperature during operation
Entering/leaving temperature difference at full load
(1) For lower condenser temperatures a water flow control valve must be used at
the condenser (two or three-way valve). Please refer to option 152 to ensure
the correct condensing temperature.
24
V-ph-Hz
V
A
A
A
A
A
A
%
kW
kW
kW
A
A
A
†
A
A
A
(4)
A
A
A
Minimum Maximum
-
3,3°C
2,8 K
13,0°C
(1)
19,0°C
(1)
2,8 K
301
401
451
551
24 V via the built-in transformer
388
587
587
629
-
-
-
-
-
-
-
-
388
587
587
629
-
-
-
-
-
-
-
-
0,75
0,80
0,81
0,80
0,90
0,90
0,90
0,89
Closed to 0% (negligible)
107
144
158
202
-
-
-
-
-
-
-
-
102
125
138
186
-
-
-
-
-
-
-
-
174
234
257
328
-
-
-
-
-
-
-
-
190
255
280
357
-
-
-
-
-
-
-
-
75
70
65
60
55
35,0°C
50
20,0°C
45
11,1 K
40
35
-
30
70,0°C
25
11,1 K
20
15
10
5
0
From approx. 60% to full load
Part load limit approx. 50%
Minimum load limit approx.30%
601
651
801
901
400-3-50
360-440
629
629
587
587
-
-
587
587
-
-
712
725
629
629
587
587
-
-
587
587
-
-
833
860
0,81
0,83
0,80
0,81
0,89
0,89
0,90
0,90
219
228
144
158
-
-
144
158
-
-
288
317
197
213
125
138
-
-
125
138
-
-
250
276
356
371
234
257
-
-
234
257
-
-
468
514
387
404
255
280
-
-
255
280
-
-
510
560
5
10
15
Evaporator leaving water temperature, °C
1001
1101
629
629
587
629
767
815
629
629
587
629
902
972
0,80
0,80
0,89
0,89
202
202
158
202
360
404
186
186
138
186
324
372
328
328
257
328
585
656
357
357
280
357
637
714
20
25
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