50pg03 – Carrier 50PG03-07 User Manual
Page 21
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Table 3 -- Electrical Data -- Units With Optional Powered Convenience Outlet (cont)
UNIT
50PG
NOMINAL
POWER SUPPLY
Volts-Ph-Hz
VOLTAGE
RANGE
COMPRESSOR
OFM
FLA
POWER
EXHAUST
FLA
IFM
TYPE
IFM
FLA
ELECTRIC HEAT
POWER SUPPLY
DISCONNECT
SIZE
Min
Max
RLA
LRA
FLA
Nominal
kW*
MCA
MOCP†
FLA
LRA
07
(cont)
208/230-3-60
187
253
20.5
149
1.5
1.4
Low
5.2
—
—
38.5/38.5
40/40
38/38
189/189
10.0/11.5
3.8/ 5.0
38.5/38.5
40/40
38/38
189/189
15.0/17.3
5.6/ 7.5
38.5/38.5
40/40
38/38
189/189
20.0/23.1
7.5/10.0
39.3/43.1
40/45
38/40
189/189
30.0/34.6
11.3/15.0
51.8/57.5
60/60
48/53
189/189
40.0/46.2
15.0/20.0
64.3/72.0
70/80
59/66
189/189
50.0/57.7
18.8/25.0
76.8/86.4
80/90
71/79
189/189
High
7.5
—
—
40.8/40.8
45/45
41/41
215/215
10.0/11.5
3.8/ 5.0
40.8/40.8
45/45
41/41
215/215
15.0/17.3
5.6/ 7.5
40.8/40.8
45/45
41/41
215/215
20.0/23.1
7.5/10.0
42.1/46.0
45/50
41/42
215/215
30.0/34.6
11.3/15.0
54.6/60.4
60/70
50/56
215/215
40.0/46.2
15.0/20.0
67.1/74.9
70/80
62/69
215/215
50.0/57.7
18.8/25.0
79.6/89.3
80/90
73/82
215/215
460-3-60
414
506
9.6
75
0.8
—
Low
2.6
—
—
17.6
20
17
94
5.8
5.0
17.6
20
17
94
8.7
7.5
17.6
20
17
94
11.5
10.0
20.4
25
19
94
17.3
15.0
27.6
30
25
94
23.1
20.0
34.9
35
32
94
28.9
25.0
42.1
45
39
94
High
3.4
—
—
18.4
20
18
107
5.8
5.0
18.4
20
18
107
8.7
7.5
18.4
20
18
107
11.5
10.0
21.4
25
20
107
17.3
15.0
28.6
30
26
107
23.1
20.0
35.9
40
33
107
28.9
25.0
43.1
45
40
107
0.6
Low
2.6
—
—
18.2
20
18
95
5.8
5.0
18.2
20
18
95
8.7
7.5
18.2
20
18
95
11.5
10.0
21.1
25
19
95
17.3
15.0
28.4
30
26
95
23.1
20.0
35.6
40
33
95
28.9
25.0
42.9
45
39
95
High
3.4
—
—
19.0
20
19
108
5.8
5.0
19.0
20
19
108
8.7
7.5
19.0
20
19
108
11.5
10.0
22.1
25
20
108
17.3
15.0
29.4
30
27
108
23.1
20.0
36.6
40
34
108
28.9
25.0
43.9
45
40
108
575-3-60
518
633
7.6
54
0.8
—
Low
2.0
—
—
14.0
15
14
69
9.2
10.0
16.1
20
15
69
13.9
15.0
22.0
25
20
69
18.5
20.0
27.8
30
26
69
23.1
25.0
33.5
35
31
69
27.7
30.0
39.3
40
36
69
High
2.8
—
—
14.8
15
15
80
9.2
10.0
17.1
20
16
80
13.9
15.0
23.0
25
21
80
18.5
20.0
28.8
30
26
80
23.1
25.0
34.5
35
32
80
27.7
30.0
40.3
45
37
80
1.4
Low
2.0
—
—
15.4
20
16
71
9.2
10.0
17.9
20
16
71
13.9
15.0
23.8
25
22
71
18.5
20.0
29.5
30
27
71
23.1
25.0
35.3
40
32
71
27.7
30.0
41.0
45
38
71
High
2.8
—
—
16.2
20
16
82
9.2
10.0
18.9
20
17
82
13.9
15.0
24.8
25
23
82
18.5
20.0
30.5
35
28
82
23.1
25.0
36.3
40
33
82
27.7
30.0
42.0
45
39
82
LEGEND
FLA
--- Full Load Amps
HACR --- Heating, Air Conditioning and Refrigeration
IFM
--- Indoor (Evaporator) Fan Motor
LRA
--- Locked Rotor Amps
MCA --- Minimum Circuit Amps
MOCP --- Maximum Overcurrent Protection
NEC
--- National Electrical Code
OFM --- Outdoor (Condenser) Fan Motor
RLA
--- Rated Load Amps
*Heater capacity (kW) is based on heater voltage of 208v, 240v, 480v, or 600v. If power
distribution voltage to unit varies from rated heater voltage, heater kW will vary accord-
ingly.
{
Fuse or HACR circuit breaker.
NOTES:
1. In compliance with NEC requirements for multimotor and combination load equipment (refer
to NEC Articles 430 and 440), the overcurrent protective device for the unit shall be fuse or
HACR breaker. Canadian units may be fuse or circuit 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 230---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 – 224 = 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.
50PG03
--
07