Carrier OMNIZONE 50BV020-064 User Manual

25

For an unbalanced 3-phase supply voltage, use the follow-

ing formula to determine the percent of voltage imbalance:
Percent Voltage Imbalance

Example: Supply voltage is 460-3-60.

AB = 452 V

BC = 464 V

AC = 455 V

Determine maximum deviation from average voltage:
(AB) 457 – 452 = 5 V

(BC) 464 – 457 = 7 V

(AC) 457 – 455 = 2 V
Maximum deviation is 7 V.
Determine percent of voltage imbalance:
% Voltage Imbalance = 100 x

= 1.53%

This amount of phase imbalance is satisfactory as it is be-

low the maximum allowable 2%.

POWER WIRING — Properly sized fuses or HACR (Heat-

ing, Air Conditioning and Refrigeration) circuit breakers must

be installed for branch circuit protection, according to the

national and applicable local codes. See unit nameplate and

Tables 9A and 9B for maximum overcurrent protection size.

These units are provided with single point, main power

supply terminal blocks. Refer to Fig. 2-14 for conduit connec-

tion locations. Connect the power leads as indicated on the unit

wiring diagrams (found in the Troubleshooting section) and be

certain to connect the ground lead to the ground lug in the unit

high voltage electrical box. Refer to Tables 9A and 9B for unit

electrical data.

Table 9A — Electrical Data — 50BVC,E,J,K,Q

LEGEND

= 100 x

max voltage deviation from average voltage

average voltage

Average Voltage =

452 + 464 + 455

3

=

1371

3

= 457

7

457

IMPORTANT: If supply voltage phase imbalance is

more than 2%, contact the local electric utility com-

pany immediately.

UNIT SIZE

50BVC,E,J,K,Q

NOMINAL

VOLTAGE

(3 Ph, 60 Hz)

VOLTAGE

RANGE

COMPRESSOR

INDOOR FAN MOTOR

POWER

SUPPLY

DISCONNECT

SIZE

No. 1

No. 2

Min

Max

RLA

LRA

RLA

LRA

Qty

HP

(ea)

FLA

(ea)

MCA

MOCP

FLA

020

208/230

187

253

32.9

195

32.9

195

2

1.5

5.0

84.0

110

75.8

2

6.4

86.8

110

78.6

3

9.0

92.0

110

83.8

5

12.2

98.4

110

90.2

460

414

506

16.5

95

16.5

95

2

1.5

2.5

42.1

50

38.0

2

3.2

43.5

50

39.4

3

4.5

46.1

50

42.0

5

6.1

49.3

50

45.2

575

518

633

13.6

80

13.6

80

2

1.5

2.0

34.6

45

31.2

2

2.0

34.6

45

31.2

3

3.6

37.8

45

34.4

5

5.4

41.4

45

38.0

024

208/230

187

253

33.6

225

33.6

225

2

2

6.4

88.4

120

80.0

3

9.0

93.6

120

85.2

5

12.2

100.0

120

91.6

460

414

506

18.6

114

18.6

114

2

2

3.2

48.3

60

43.6

3

4.5

50.85

60

46.2

5

6.1

54.05

60

49.4

575

518

633

13.6

80

13.6

80

2

2

2.0

34.6

45

31.2

3

3.6

37.8

45

34.4

5

5.4

41.4

45

38.0

028

208/230

187

253

53.6

245

53.6

245

2

3

9.0

138.6

190

125.2

5

12.2

145.0

190

131.6

460

414

506

20.7

125

20.7

125

2

3

4.5

55.6

70

50.4

5

6.1

58.8

70

53.6

575

518

633

16.4

100

16.4

100

2

3

3.6

44.1

60

40.0

5

5.4

47.7

60

43.6

034

208/230

187

253

59.1

425

59.1

425

2

5

12.2

157.4

200

142.6

460

414

506

26.4

187

26.4

187

2

5

6.1

71.6

90

65.0

575

518

633

20.5

148

20.5

148

2

5

5.4

56.9

70

51.8

FLA

— Full Load Amps

HP

— Horsepower

LRA

— Locked Rotor Amps

MCA

— Minimum Circuit Amps

MOCP — Maximum Overcurrent Protection
RLA

— Rated Load Amps