12
4.3 - Power supply
The power supply must conform to the specification on the
chiller nameplate. The supply voltage must be within the
range specified in the electrical data table. For connections
refer to the wiring diagrams.
WARNINg: Operation of the chiller with an improper
supply voltage or excessive phase imbalance constitutes
abuse which will invalidate the Carrier warranty. If the
phase imbalance exceeds 2% for voltage, or 10% for
current, contact your local electricity supply at once and
ensure that the chiller is not switched on until corrective
measures have been taken.
4.4 - Voltage phase imbalance (%)
100 x max. deviation from average voltage
Average voltage
example:
On a 400 V - 3 ph - 50 Hz supply, the individual phase
voltages were measured to be:
AB = 406 V; BC = 399 V; AC = 394 V
Average voltage
= (406 + 399 + 394)/3 = 1199/3
= 399.7 say 400 V
Calculate the maximum deviation from the 400 V average:
(AB) = 406 - 400 = 6
(BC) = 400 - 399 = 1
(CA) = 400 - 394 = 6
The maximum deviation from the average is 6 V. The
greatest percentage deviation is:
100 x 6/400 = 1.5%
This is less than the permissible 2% and is therefore
acceptable.
Motor
4.5.2 - selection table of minimum and maximum wire sections for connection by phase to 30hZ/hZV units
Min. wire section
Max. wire section
30hZ/hZV
section (mm
2
)
Wire type
Max. length (400 V)
section (mm
2
)
Wire type
Max. length (400 V)
043
1 x 25
XLPE Copper
130
1 x 95
PVC Aluminium
250
052
1 x 35
XLPE Copper
142
1 x 120
PVC Aluminium
260
065
1 x 50
XLPE Copper
162
1 x 120
XLPE Aluminium
205
091
1 x 70
XLPE Copper
168
1 x 150
XLPE Aluminium
210
101
1 x 70
XLPE Copper
168
1 x 150
XLPE Aluminium
210
111
1 x 70
XLPE Copper
168
1 x 185
XLPE Aluminium
220
121
1 x 95
XLPE Copper
178
1 x 240
XLPE Aluminium
225
141
1 x 120
XLPE Copper
185
2 x 95
XLPE Aluminium
195
161
1 x 150
XLPE Copper
188
2 x 120
XLPE Aluminium
205
195
1 x 240
XLPE Copper
192
2 x 185
XLPE Aluminium
220
225
2 x 95
XLPE Copper
172
2 x 240
XLPE Aluminium
225
250 circuit a
1 x 150
XLPE Copper
188
2 x 120
PVC Copper
295
2 x 150
XLPE Aluminium
210
250 circuit B
1 x 95
XLPE Copper
178
2 x 70
PVC Copper
270
1 x 240
XLPE Aluminium
225
280 circuit a
1 x 185
XLPE Copper
190
2 x 95
XLPE Copper
215
2 x 150
XLPE Aluminium
210
280 circuit B
1 x 150
XLPE Copper
188
2 x 120
PVC Copper
295
2 x 120
XLPE Aluminium
205
4.5 - Recommended wire sections
Wire sizing is the responsibility of the installer, and depends
on the characteristics and regulations applicable to each
installation site. The following is only to be used as a guide-
line, and does not make Carrier in any way liable. After wire
sizing has been completed, using the certified dimensional
drawing, the installer must ensure easy connection and
define any modifications necessary on site.
The connections provided as standard for the field-supplied
power entry cables to the general disconnect/isolator switch
are designed for the number and type of wires, listed in the
table below. The calculations are based on the maximum
machine current (see electrical data tables).
For the design the following standardised installation
methods are used, in accordance with IEC 60364, table 52C:
•
For 30HZ/HZV units installed inside the building:
No. 13: Horizontal perforated cable conduits and No.
14: closed cable conduit.
The calculation is based on PVC or XLPE insulated cables
with copper or aluminium core. The maximum temperature
is 40°C. The given wire length limits the voltage drop to < 5%.
IMPORTANT: Before connection of the main power cables
(L1 - L2 - L3) on the terminal block, it is imperative to
check the correct order of the 3 phases before proceeding
to the connection on then terminal block or the main
disconnect/isolator switch.
4.5.1 - Field control wiring
Refer to the 30HZ/HZV Pro-Dialog Plus Controls IOM
and the certified wiring diagram supplied with the unit for
the field control wiring of the following features:
•
Evaporator pump interlock (mandatory)
•
Remote on/off switch
•
Remote heat/cool switch
•
Demand limit external switch 1
•
Remote dual set point
•
Alarm report by circuit
•
Evaporator pump control
•
Condenser pump control
•
Remote set point reset or outside air temperature
sensor reset (0-10 V)