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Table 1D — Electrical Data (COBRA™ Energy Recovery 50HJ004-007 Units with 62AQ100) (cont)
LEGEND
*Used to determine minimum disconnect per NEC.
†Single point box CRSINGLE017A00 is part of base unit.
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. UL, Canada units may be fuse or cir-
cuit 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 percent of voltage
imbalance.
Example: Supply voltage is 460-3-60.
AB = 452 v
BC = 464 v
AC = 455 v
= 457
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 below the maximum allow-
able 2%.
UNIT
NOMINAL
V-PH-Hz
IFM
TYPE
CONV
OUTLET
62AQ
FLA
HEATER
CRHEATER
---A00
HEAT POWER SUPPLY SINGLE
POINT BOX
CRSINGLE
---A00
DISCONNECT SIZE*
FLA MCA
FUSE OR
HACR BKR
MOCP FLA LRA
50HJ005
(cont)
460-3-60
STD YES 15.1
NONE — 20.9 25 —— 25 88
006 7.2 22.2 30 —— 25 88
008 13.8 30.5 35 — 025 25 88
009 16.8 34.2 40 — 025 35 88
008+008 27.7 47.7 50 — 025 48 96
HIGH STATIC NO 15.1
NONE — 18.6 25 —— 19 97
006 7.2 20.5 25 —— 19 98
008 13.8 28.8 35 — 025 19 98
009 16.8 32.5 35 — 025 31 98
008+008 27.7 46.0 50 — 025 43 108
HIGH STATIC YES 15.1
NONE — 21.3 25 —— 25 102
006 7.2 22.6 30 —— 25 103
008 13.8 30.9 35 — 025 25 103
009 16.8 34.6 40 — 025 36 103
008+008 27.7 48.1 50 — 025 48 110
50HJ006
208/230-1-60
STD NO 15.1
NONE —/— 61.4/ 61.4 70/70 ——62/ 62 276/276
002 23.5/27.1 61.4/ 61.4 — 70/ 70 004 62/ 62 276/276
003 31.4/36.3 65.8/ 71.8 — 70/ 80 004 64/ 69 276/276
002+002 46.9/54.2 85.2/ 94.2 — 90/100 005 81/ 90 276/276
003+003 62.8/72.5 105.1/117.2 — 110/125 005 100/111 276/276
004+004 75.8/87.5 121.3/135.9 — 125/150 005 115/128 276/276
STD YES 15.1
NONE —/— 67.4/ 67.4 80/80 ——68/ 68 281/281
002 23.5/27.1 67.4/ 67.4 — 80/ 80 004 68/ 68 281/281
003 31.4/36.3 70.6/ 76.0 — 80/ 80 005 69/ 74 281/281
002+002 46.9/54.2 90.0/ 98.4 — 90/100 005 87/ 95 281/281
003+003 62.8/72.5 109.9/121.4 — 110/125 005 105/116 281/281
004+004 75.8/87.5 126.1/140.1 — 150/150 005 120/133 281/281
208/230-3-60
STD NO 15.1
NONE —/— 44.0/ 44.0 50/50 ——46/ 46 228/228
002 13.6/15.6 44.0/ 44.0 50/50 ——46/ 46 228/228
004 21.9/25.3 50.9/ 55.1 60/60 ——49/ 53 228/228
005 33.4/38.5 65.2/ 71.6 — 70/ 80 002 62/ 68 228/228
004+004 43.8/50.5 78.2/ 86.7 — 80/ 90 003 74/ 82 228/228
004+005 55.2/63.8 92.6/103.2 — 100/110 003 88/ 97 228/228
STD YES 15.1
NONE —/— 50.0/ 50.0 60/60 ——51/ 51 233/233
002 13.6/15.6 50.0/ 50.0 60/60 ——51/ 51 233/233
004 21.9/25.3 55.7/ 59.3 — 70/ 70 002 55/ 58 233/233
005 33.4/38.5 70.0/ 75.8 — 80/ 80 003 68/ 73 233/233
004+004 43.8/50.5 83.0/ 90.9 — 90/100 003 80/ 87 233/233
004+005 55.2/63.8 97.4/107.4 — 100/110 003 93/102 233/233
HIGH STATIC NO 15.1
NONE —/— 45.7/ 45.7 60/60 ——48/ 48 247/247
002 13.6/15.6 45.7/ 45.7 60/60 ——48/ 48 247/247
004 21.9/25.3 52.6/ 56.8 — 60/ 70 002 51/ 55 247/247
005 33.4/38.5 66.9/ 73.3 — 70/ 80 002 64/ 70 247/247
004+004 43.8/50.5 79.9/ 88.4 — 80/ 90 003 76/ 84 247/247
004+005 55.2/63.8 94.3/104.9 — 100/110 003 90/ 99 247/247
HIGH STATIC YES 15.1
NONE —/— 51.7/ 51.7 60/60 ——53/ 53 252/252
002 13.6/15.6 51.7/ 51.7 60/60 ——53/ 53 252/252
004 21.9/25.3 57.4/ 61.0 — 70/ 70 002 57/ 60 252/252
005 33.4/38.5 71.7/ 77.5 — 80/ 80 003 70/ 75 252/252
004+004 43.8/50.5 84.7/ 92.6 — 90/100 003 82/ 89 252/252
004+005 55.2/63.8 99.1/109.1 — 100/110 003 95/104 252/252
460-3-60
STD NO 15.1
NONE — 22.2 25 —— 23 114
006 7.2 22.2 25 —— 23 114
008 13.8 28.8 35 — 025 23 114
009 16.8 32.5 35 — 025 31 114
008+008 27.7 46.0 50 — 025 43 114
008+009 30.7 49.8 50 — 025 47 114
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
UL —
Underwriters’ Laboratories
= 100 x
max voltage deviation from average voltage
average voltage
Average Voltage =
452 + 464 + 455
3
=
1371
3
IMPORTANT: If the supply voltage phase imbalance is more than 2%, contact
your local electric utility company immediately.
7
457