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Table 1 — Electrical Data — Units Without Optional Powered Convenience Outlet (cont)
UNIT
50PG
NOMINAL
POWER
SUPPLY
VOLTS-PH-HZ
VOLTAGE
RANGE
COMPRESSOR
(EA)
OFM
FLA
IFM
FLA
POWER
EXHAUST
FLA
IFM
TYPE
ELECTRIC HEAT POWER SUPPLY
CRSINGLE
PART
NO.
(NOTE3)
DISCONNECT
SIZE
WIRING
FIG.
NO.
MIN MAX RLA LRA
CRHEATER
PART
NO.
FLA
NOMINAL
KW*
MCA MOCP† FLA LRA
06
(cont)
575-3-60 518 632 6.1 40 0.8 2.0
Ċ
Low
and
High
Ċ Ċ Ċ 10.4 15 Ċ 10 53 Ċ
221A00 9.2 10.0 14.0 15 030A00 13 53 15
222A00 13.9 15.0 20.1 20 030A00 18 53 15
223A00 18.5 20.0 25.6 30 030A00 24 53 15
254A00 23.1 25.0 31.4 30 030A00 29 53 15
1.4
Low
and
High
Ċ Ċ Ċ 11.7 15 Ċ 12 54 Ċ
221A00 9.2 10.0 15.8 20 030A00 15 54 15
222A00 13.9 15.0 21.6 25 030A00 20 54 15
223A00 18.5 20.0 27.3 30 030A00 25 54 15
254A00 23.1 25.0 33.1 30 030A00 30 54 15
07
208/230-3-60 187 253 20.5 149 1.5
5.2 Ċ Low
Ċ Ċ Ċ/Ċ 32.3/32.3 50/50 Ċ 31/31 182/182 Ċ
208A00 10.0/11.5 3.8/5.0 32.3/32.3 50/50 030A00 31/31 182/182 15
209A00 15.0/17.3 5.6/7.5 32.3/32.3 50/50 030A00 31/31 182/182 15
210A00 20.0/23.1 7.5/10.0 32.3/35.4 50/50 030A00 31/33 182/182 15
211A00 30.0/34.6 11.3/15.0 44.0/49.8 50/50 030A00 41/46 182/182 15
212A00 40.0/46.2 15.0/20.0 56.5/64.2 60/70 031A00 52/59 182/182 16
213A00 50.0/57.7 18.8/25.0 69.0/78.7 70/80 031A00 64/72 182/182 16
7.5 Ċ High
Ċ Ċ Ċ/Ċ 34.6/34.6 50/50 Ċ 34/34 208/208 Ċ
208A00 10.0/11.5 3.8/5.0 34.6/34.6 50/50 030A00 34/34 208/208 15
209A00 15.0/17.3 5.6/7.5 34.6/34.6 50/50 030A00 34/34 208/208 15
210A00 20.0/23.1 7.5/10.0 34.6/38.2 50/50 030A00 34/35 208/208 15
211A00 30.0/34.6 11.3/15.0 46.9/52.7 50/60 030A00 43/48 208/208 15
212A00 40.0/46.2 15.0/20.0 59.4/67.1 60/70 031A00 55/62 208/208 16
213A00 50.0/57.7 18.8/25.0 71.9/81.5 80/90 031A00 66/75 208/208 16
5.2
1.4
Low
Ċ Ċ Ċ/Ċ 33.7/33.7 50/50 Ċ 33/33 184/184 Ċ
208A00 10.0/11.5 3.8/5.0 33.7/33.7 50/50 030A00 33/33 184/184 15
209A00 15.0/17.3 5.6/7.5 33.7/33.7 50/50 030A00 33/33 184/184 15
210A00 20.0/23.1 7.5/10.0 33.7/33.1 50/50 030A00 33/34 184/184 15
211A00 30.0/34.6 11.3/15.0 45.8/51.5 50/60 030A00 42/47 184/184 15
212A00 40.0/46.2 15.0/20.0 58.3/66.0 60/70 031A00 54/61 184/184 16
213A00 50.0/57.7 18.8/25.0 70.8/80.4 80/90 031A00 65/74 184/184 16
7.5 High
Ċ Ċ Ċ/Ċ 36/36 50/50 Ċ 36/36 210/210 Ċ
208A00 10.0/11.5 3.8/5.0 36.0/36.0 50/50 030A00 36/36 210/210 15
209A00 15.0/17.3 5.6/7.5 36.0/36.0 50/50 030A00 36/36 210/210 15
210A00 20.0/23.1 7.5/10.0 36.1/40.0 50/50 030A00 36/37 210/210 15
211A00 30.0/34.6 11.3/15.0 48.6/54.4 50/60 030A00 45/50 210/210 15
212A00 40.0/46.2 15.0/20.0 61.1/68.9 70/70 031A00 56/63 210/210 16
213A00 50.0/57.7 18.8/25.0 73.6/83.3 80/90 031A00 68/77 210/210 16
460-3-60 414 506 9.6 75 0.8
2.6
Ċ
Low
Ċ Ċ Ċ 15.4 25 Ċ 15 92 Ċ
215A00 5.8 5.0 15.4 25 030A00 15 92 15
216A00 8.7 7.5 15.4 25 030A00 15 92 15
217A00 11.5 10.0 17.7 25 030A00 16 92 15
218A00 17.3 15.0 24.9 25 030A00 23 92 15
219A00 23.1 20.0 32.1 35 030A00 30 92 15
220A00 28.9 25.0 39.3 40 030A00 36 92 15
3.4 High
Ċ Ċ Ċ 16.2 25 Ċ 16 105 Ċ
215A00 5.8 5.0 16.2 25 030A00 16 105 15
216A00 8.7 7.5 16.2 25 030A00 16 105 15
217A00 11.5 10.0 18.7 25 030A00 17 105 15
218A00 17.3 15.0 25.9 30 030A00 24 105 15
219A00 23.1 20.0 33.1 35 030A00 30 105 15
220A00 28.9 25.0 40.3 45 030A00 37 105 15
2.6
0.6
Low
Ċ Ċ Ċ 16.0 25 Ċ 16 93 Ċ
215A00 5.8 5.0 16.0 25 030A00 16 93 15
216A00 8.7 7.5 16.0 25 030A00 16 93 15
217A00 11.5 10.0 18.4 25 030A00 17 93 15
218A00 17.3 15.0 25.7 30 030A00 24 93 15
219A00 23.1 20.0 32.9 35 030A00 30 93 15
220A00 28.9 25.0 40.1 45 030A00 37 93 15
3.4 High
Ċ Ċ Ċ 16.8 25 Ċ 17 106 Ċ
215A00 5.8 5.0 16.8 25 030A00 17 106 15
216A00 8.7 7.5 16.8 25 030A00 17 106 15
217A00 11.5 10.0 19.4 25 030A00 18 106 15
218A00 17.3 15.0 26.7 30 030A00 25 106 15
219A00 23.1 20.0 33.9 35 030A00 31 106 15
220A00 28.9 25.0 41.1 45 030A00 38 106 15
LEGEND
FLA − Full Load Amps
HACR − Heating, Air Conditioning and Refrigeration
IFM − Indoor − Fan Motor
LRA − Locked Rotor Amps
MCA − Minimum Circuit Amps
MOCP − Maximum Overcurrent Protection
NEC − National Electrical Code
OFM − Outdoor−Fan Motor
RLA − Rated Load Amps
* Heater capacity (kW) is based on heater voltage of 208 v, 240 v, or 480 v. If power distribu-
tion voltage to unit varies from rated heater voltage, heater kW will vary accordingly.
† Fuse or HACR circuit breaker.
NOTES:
1. In compliance with NEC requirements for multimotor and combination load equip-
ment (refer to NEC Articles 430 and 440), the overcurrent protective device for the
unit shall be fuse or HACR breaker.
2. Unbalanced 3-Phase Supply Voltage
Never operate a motor where a phase imbalance in supply voltage is greater than
2%. Use the following formula to determine the percentage of voltage imbalance.
% Voltage Imbalance = 100 x
max voltage deviation from average voltage
average voltage
Example: Supply voltage is 460-3-60
AB = 224 v
BC = 231 v
AC = 226 v
Average Voltage =
224 + 231 + 226
3
681
3
=
227
=
Determine maximum deviation from average voltage.
(AB) 227 – 223 = 3 v
(BC) 231 – 227 = 4 v
(AC) 227 – 226 = 1 v
Maximum deviation is 4 v.
Determine percent of voltage imbalance.
% Voltage Imbalance = 100 x
4
227
= 1.76%
This amount of phase imbalance is satisfactory as it is below the maximum allowable 2%.
IMPORTANT: If the supply voltage phase imbalance is more than 2%, contact your local electric
utility company immediately.
3. Single point kits CRSINGLE028A00 and CRSINGLE030A00 are not required if
field−supplied pressure connectors are used.
50PG03−16