Catalogue
CAB-PRC001-EN 27
Performance Data
Horizontal Concealed, Horizontal Recessed, Vertical Recessed, Horizontal Cabinet
Heating performance is based on 70°F entering air temperature, 180°F entering hot water
temperature with a 30°F ΔT. All performance measured on high speed tap, 115 V, 0.20 ESP, without
filter. High static EC motor.
Note: The steam coil option is not available on the Horizontal Cabinet or Horizontal Recessed
models.
Table 15. Hot water performance—high static EC motor
SIZE COIL
Airflow
(cfm)
Hot Water Coils
Motor Power
(W)
Total
Capacity
(MBh) Q/ITD
Flow Rate
(gpm)
WPD
(ft H
2
0)
2HC 314 19.68 0.18 1.31 7.18 84
3HC 319 24.71 0.22 1.65 3.28 84
200 4HC 295 27.07 0.25 1.80 4.83 84
2HC 380 22.14 0.20 1.47 8.85 91
3HC 358 26.79 0.24 1.78 3.80 91
300 4HC 330 29.52 0.27 1.97 5.65 91
2HC 410 25.18 0.23 1.68 2.85 110
3HC 506 37.80 0.34 2.52 8.05 110
400 4HC 470 41.89 0.38 2.79 12.12 110
2HC 700 41.80 0.38 2.78 8.63 162
3HC 824 58.43 0.53 3.89 5.36 162
600 4HC 760 65.21 0.59 4.34 7.59 162
2HC 950 53.86 0.49 3.59 4.16 298
3HC 927 69.93 0.64 4.66 8.20 298
800 4HC 870 77.84 0.71 5.19 11.67 298
2HC 1199 74.76 0.68 4.98 8.90 252
3HC 1360 103.27 0.94 6.88 12.55 252
1000 4HC 1276 113.35 1.03 7.55 9.41 252
2HC 1330 79.76 0.73 5.31 10.07 314
3HC 1418 106.27 0.97 7.08 13.26 314
1200 4HC 1330 116.96 1.06 7.79 10.00 314
Note: Q/ITD = MBh / (entering water temp - entering air temp) When Δ T and gpm remain constant. To determine heating
capacities at a different entering water or entering air temperature, compute the new ITD and multiply it by the new
Q/ITD shown.
Table 16. Steam coil performance—high static EC motor
SIZE COIL
Airflow
(cfm)
2 PSIG 5 PSIG
Motor
Power
(W)
Total
Capacity
(MBh) Q/ITD
Heating
LAT (°F)
Total
Capacity
(MBh) Q/ITD
Heating
LAT (°F)
020 Steam 290 17.00 0.114 124 18.01 0.115 127 84
030 Steam 348 18.52 0.124 119 19.62 0.125 122 91
040 Steam 383 22.91 0.154 125 24.27 0.155 128 110
060 Steam 653 37.03 0.249 122 39.24 0.250 125 162
080 Steam 890 48.80 0.328 121 51.73 0.329 124 298
100 Steam 1140 68.37 0.459 125 72.47 0.462 129 252
120 Steam 1252 71.49 0.480 123 75.79 0.483 126 314
Note: Q/ITD = MBh / (saturated steam temp - entering air temp) When Δ T and gpm remain constant. To determine heating
capacities at a different saturated steam or entering air temperature, compute the new ITD and multiply it by the new
Q/ITD shown.
CAB-PRC001-EN.book Page 27 Tuesday, May 8, 2012 10:11 AM