Owner's Manual for HEAT CONTROLLER models including: HPV018, HPV024, HPV030, HPV036, HPV042, HPV048, HP Series Residential Packaged Geothermal Heat Pump, HP Series, Residential Packaged Geothermal Heat Pump, Packaged Geothermal Heat Pump, Geothermal Heat Pump, Heat Pump, Pump
The HP Series has an extended range refrigerant circuit, capable of geothermal ground loop applications as well as boiler-tower water loop ap- plications.
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DocumentDocumentHEAT CONTROUER, INC.
ENGINEERING DESIGN GUIDE
Residential Packaged Geothermal Heat Pump
HP Series 11/2 to 5 Tons
Heat Controller, Inc. · 1900 Wellworth Ave. · Jackson, MI 49203 · (517)787-2100 · www.heatcontroller.com
Engineering Design Guide
HP SERIES
Heat Controller, Inc.
Table of Contents
Unit Features ............................................................................................................ 2 Selection Procedure .............................................................................................. 3-4 HP Series Nomenclature .......................................................................................... 5 Performance Data - AHRI/ASHRAE/ISO 13256-1.................................................... 6 Performance Data Selection Notes .......................................................................... 7 Performance Data - HPV018.................................................................................... 8 Performance Data - HPV024.................................................................................... 9 Performance Data - HPV030.................................................................................. 10 Performance Data - HPV036...................................................................................11 Performance Data - HPV042.................................................................................. 12 Performance Data - HPV048.................................................................................. 13 Performance Data - HPV060.................................................................................. 14 Air Flow Correction Table ....................................................................................... 15 Antifreeze Correction Table .................................................................................... 16 Blower Performance Data ...................................................................................... 17 Physical Data.......................................................................................................... 18 HP - Vertical Upflow Dimensional Data ............................................................. 19-20 Electrical Data ........................................................................................................ 21 Typical Wiring Diagram Single Phase ............................................................... 22-23
1
Heat Controller, Inc.
HP SERIES
Engineering Design Guide
Unit Features
The HP Series The HP series raises the bar for Water-Source Heat Pump efficiencies, features and application flexibility. Not only does the HP Series exceed ASHRAE 90.1 efficiencies, but it also uses R-410A, a zero ozone depletion refrigerant, making it an extremely environmentally-friendly option. The HP Series is eligible for additional LEEDTM (Leadership in Energy and Environmental Design) points because of the "green" technology design.
Available in sizes from 11/2 ton through 5 tons the HP Series offers a wide range of units for most any installation. The HP Series has an extended range refrigerant circuit, capable of geothermal ground loop applications as well as boiler-tower water loop applications. Standard features include: Copeland scroll compressors (rotary for size 018), microprocessor controls, galvanized steel cabinet with powder coat paint, stainless steel drain pan and sound absorbing air handler insulation are just some of the features of the HP Series series.
Heat Controller's exclusive double isolation compressor mounting system makes the HP Series the quietest unit on the market. Compressors are mounted via vibration isolators to a heavy gauge mounting plate, which is further isolated from the cabinet base with rubber grommets for maximized vibration/sound attenuation. The easy access control box and large access panels make installing and maintaining the unit easier than other watersource heat pumps currently in production.
Unit Features · Sizes 018 (11/2 ton) through 060 (5 tons) · R-410A refrigerant · Exceeds ASHRAE 90.1 efficiencies · Galvanized steel construction with powder coat paint · Stainless steel drain pan · Sound absorbing glass fiber insulation · Unique double isolation compressor mounting for quiet operation · Insulated divider and separate compressor/air handler compartments · Copeland scroll compressors (rotary for size 018) · TXV metering device · Microprocessor controls standard · PSC three-speed fan motor · Internally trapped condensate drain line (vertical units only) · Unit Performance Sentinel performance monitoring system · Eight Safeties Standard · Extended range (20 to 120°F, -6.7 to 48.9°C) capable · Epoxy coated air coil
Available options · Cupro-Nickel water-coil · Sound absorbing UltraQuiet package · Hot water generator · Field installed electric heater
The HP Series Water-Source Heat Pumps are designed to meet the challenges of today's HVAC demands with one of the most innovative products available on the market.
2
Engineering Design Guide
Selection Procedure
HP SERIES
Reference Calculations
Heating
LWT = EWT -
HE GPM x 500
LAT = EAT +
HC CFM x1.08
Cooling
LWT
=
EWT
+
HR GPM x
500
LAT (DB) = EAT (DB) - SC CFM x1.08
LC = TC - SC S/T = SC
TC
Heat Controller, Inc.
Legend and Glossary of Abbreviations
BTUH= BTU( British Thermal Unit) per hour CFM= airflow, cubic feet/minute COP= coefficient of performance = BTUH output/BTUH input DB= dry bulb temperature (°F) EAT= entering air temperature, Fahrenheit (dry bulb/wet bulb) EER= energy efficiency ratio = BTUH output/Watt input EPT= external pipe thread ESP= external static pressure (inches w.g.) EWT= entering water temperature
GPM= water flow in U.S. gallons/minute HE= total heat of extraction, BTUH HC= air heating capacity, BTUH HR= total heat of rejection, BTUH
HWC= hot water generator (desuperheater) capacity, Mbtuh IPT= internal pipe thread
KW= total power unit input, kilowatts LAT= leaving air temperature, °F LC= latent cooling capacity, BTUH LWT= leaving water temperature, °F MBTUH= 1000 BTU per hour S/T= sensible to total cooling ratio
SC= sensible cooling capacity, BTUH TC= total cooling capacity, BTUH WB= wet bulb temperature (°F) WPD= waterside pressure drop (psi & ft. of hd.)
Conversion Table - to convert inch-pound (English) to SI (Metric)
Air Flow
Water Flow
Airflow (L/s) = CFM x 0.472 Water Flow (L/s) = gpm x 0.0631
Ext Static Pressure ESP (Pa) = ESP (in of wg) x 249
Water Pressure Drop PD (kPa) = PD (ft of hd) x 2.99
3
Heat Controller, Inc.
Selection Procedure
HP SERIES
Engineering Design Guide
Step 1 Determine the actual heating and cooling loads at the desired dry bulb and wet bulb conditions.
Step 2 Obtain the following design parameters: Entering water temperature, water flow rate in GPM, air flow in CFM, water flow pressure drop and design wet and dry bulb temperatures. Air flow CFM should be between 300 and 450 CFM per ton. Unit water pressure drop should be kept as close as possible to each other to make water balancing easier. Go to the appropriate tables and find the proper indicated water flow and water temperature.
Example Equipment Selection For Cooling
Step 1 Load Determination: Assume we have determined that the appropriate cooling load
at the desired dry bulb 80°F and wet bulb 65°F conditions is as follows:
Total Cooling .............................................. 22,100 BTUH Sensible Cooling......................................... 16,500 BTUH Entering Air Temp ....................................... 80°F Dry Bulb /
65°F Wet Bulb
Step 3 Select a unit based on total and sensible cooling conditions. Select a unit which is closest to, but no larger than, the actual cooling load.
Step 4 Enter tables at the design water flow and water temperature. Read the total and sensible cooling capacities (Note: interpolation is permissible, extrapolation is not).
Step 5 Read the heating capacity. If it exceeds the design criteria it is acceptable. It is quite normal for WaterSource Heat Pumps to be selected on cooling capacity only since the heating output is usually greater than the cooling capacity.
Step 6 Determine the correction factors associated with the variable factors of dry bulb and wet bulb.
Step 2 Design Conditions: Similarly, we have also obtained the following design parameters:
Entering Water Temp .......................................... 90°F Water Flow (Based upon 10°F rise in temp.) ..... 6.0 GPM Air Flow .............................................................. 730 CFM
Step 3, 4 & 5 HP Selection: After making our preliminary selection (TTH026 - Full Load), we
enter the tables at design water flow and water temperature and read Total Cooling, Sens. Cooling and Heat of Rej. capacities:
Total Cooling....................................................24,200 BTUH Sensible Cooling..............................................16,300 BTUH Heat of Rejection .............................................29,900 BTUH
Corrected Total Cooling = tabulated total cooling x wet bulb correction. Corrected Sensible Cooling = tabulated sensible cooling x wet/dry bulb correction.
Step 7 Compare the corrected capacities to the load requirements. Normally if the capacities are within 10% of the loads, the equipment is acceptable. It is better to undersize than oversize, as undersizing improves humidity control, reduces sound levels and extends the life of the equipment.
Step 6 & 7 Entering Air and Airflow Corrections: Next, we determine our correction factors.
Table Ent Air Air Flow Corrected Corrected Total Cooling = 24,200 x 0.975 x 0.978 = 23,076 Corrected Sens Cooling = 16,300 x 1.096 x 0.926 = 16,543 Corrected Heat of Reject = 29,900 x 0.979 x 0.978 = 28,628
Step 8 Water Temperature Rise Calculation & Assessment:
Actual Temperature Rise ................................. 9.5°F
Step 8 When completed, calculate water temperature rise and assess the selection. If the units selected are not
within 10% of the load calculations, then review what effect changing the GPM, water temperature and/or air flow and air temperature would have on the corrected capacities. If the desired capacity cannot be achieved, select the next larger or smaller unit and repeat the procedure. Remember, when in doubt, undersize slightly for best performance.
When we compare the Corrected Total Cooling and Corrected
Sensible Cooling figures with our load requirements stated in Step 1, we discover that our selection is within +/- 10% of our sensible load requirement. Furthermore, we see that our Corrected Total Cooling figure is within 1,000 Btuh the actual indicated load.
4
Engineering Design Guide
HP SERIES
Heat Controller, Inc.
Unit Nomenclature
Cross Match Table
CLM Series HEAT CONTROLLER SERIES
TRH/TRV
HPH/HPV
12
3
456 7
8
9 10 11 12 13 14
H P VH 0 3 6 A 1 C 5 0 A L TB
MODEL TYPE
HP = HEAT CONTROLLER RESIDENTIAL 410A
CONFIGURATION
H = VH=OVREIZROTNICTAL V = VERTICAL
UNIT SIZE
018 024 030 036 042 048 060
SUPPLY AIR OPTIONS
BT==TBOAPCDKIDSCISHCAHRAGREGE, HORIZONTAL ONLY T = TOP DISCHARGE, VERTICAL ONLY S = STRAIGHT DISCHARGE, HORIZONTAL ONLY
RETURN AIR OPTIONS
L = LEFT RETURN R = RIGHT RETURN
HEAT EXCHANGER OPTIONS
A = Copper Water Coil w/E-Coated Air Coil J = Cupro-Nickel Water Coil w/E-Coated Air Coil
REVISION LEVEL
A = CURRENT REVISION
VOLTAGE
1 = 208-230/60/1
CONTROLS
C = CXM (CSA/NRTL for USA & CANADA)
WATER CIRCUIT OPTIONS
0 = NONE 1 = HWG w/ INTERNAL PUMP
CABINET INSULATION
0 = RESIDENTIAL 5 = RESIDENTIAL w/ULTRA QUIET
5
Heat Controller, Inc.
HP SERIES
Engineering Design Guide
Performance Data AHRI/ASHRAE/ISO 13256-1
ASHRAE/AHRI/ISO 13256-1. English (IP) Units
Model
HP-018 HP-024 HP-030 HP-036 HP-042 HP-048 HP-060
Water Loop Heat Pump
Cooling 86°F
Capacity EER Btuh Btuh/W
17,300
14.3
23,700
13.4
28,100
13.4
34,500
13.5
40,100
13.1
47,700
13.3
59,400
13.4
Heating 68°F
Capacity Btuh
COP
21,500
5.0
28,500
4.7
35,100
4.6
45,200
4.4
52,700
4.3
55,900
4.7
77,000
4.3
Ground Water Heat Pump
Cooling 59°F
Capacity EER Btuh Btuh/W
20,600
24.2
26,700
20.9
31,700
20.1
38,700
20.7
45,900
19.6
54,300
20.5
66,600
19.9
Heating 50°F
Capacity Btuh
COP
17,200
4.4
24,000
4.1
29,600
4.1
37,500
4.0
44,000
3.8
46,500
4.1
64,000
3.8
Ground Loop Heat Pump
Cooling 77°F
Capacity EER Btuh6 Btuh/W
18,400
16.3
24,900
15.4
28,900
15.1
35,300
14.9
40,500
14.4
49,000
14.7
60,100
14.8
Heating 32°F
Capacity Btuh
COP
13,900
3.4
18,500
3.3
23,400
3.4
29,600
3.3
34,300
3.2
36,400
3.4
50,500
3.1
Cooling capacities based upon 80.6°F DB, 66.2°F WB entering air temperature Heating capacities based upon 68°F DB, 59°F WB entering air temperature All ratings based upon operation at lower voltage of dual voltage rated models
ASHRAE/AHRI/ISO 13256-1. Metric (SI) Units
Water Loop Heat Pump
Ground Water Heat Pump
Ground Loop Heat Pump
Model
HP-018 HP-024 HP-030 HP-036 HP-042 HP-048 HP-060
Cooling 30°C
Capacity Cooling Watts COP W/W
5.07
4.2
6.94
3.9
8.23
3.9
10.11
4.0
11.75
3.8
13.98
3.9
17.40
3.9
Heating 20°C
Capacity Watts
COP
6.30
5.0
8.35
4.7
10.28
4.6
13.24
4.4
15.44
4.3
16.38
4.7
22.56
4.3
Cooling 15°C
Heating 10°C
Capacity Watts
Cooling COP W/W
Capacity Watts
COP
6.04
7.1
5.04
4.4
7.82
6.1
7.03
4.1
9.29
5.9
8.67
4.1
11.34
6.1
10.99
4.0
13.45
5.7
12.89
3.8
15.91
6.0
13.62
4.1
19.51
5.8
18.75
3.8
Cooling 25°C
Capacity Watts
Cooling COP W/W
5.39
4.8
7.30
4.5
8.47
4.4
10.34
4.4
11.87
4.2
14.36
4.3
17.61
4.3
Heating 0°C
Capacity Watts
COP
4.07
3.4
5.42
3.3
6.86
3.4
8.67
3.3
10.05
3.2
10.67
3.4
14.80
3.1
Cooling capacities based upon 27°C DB, 19°C WB entering air temperature Heating capacities based upon 20°C DB, 15°C WB entering air temperature All ratings based upon operation at lower voltage of dual voltage rated models
6
Engineering Design Guide
HP SERIES
Heat Controller, Inc.
Performance Data Selection Notes
For operation in the shaded area when water is used in lieu of
an anti-freeze solution, the LWT (Leaving Water Temperature)
must be calculated. Flow must be maintained to a level such
that the LWT is maintained above 40°F [4.4*C] when the JW3
jumper is not clipped (see example below). This is due to the potential of the refrigerant temperature being as low as 32°F HR
[0°C] with 40°F [4.4°C] LWT, which may lead to a nuisance
cutout due to the activation of the Low Temperature Protection. JW3 should never be clipped for standard range equipment or
24.1 24.4
systems without antifreeze.
24.3
24.7
24.4
Example:
24.7
25.1
At 50°F EWT (Entering Water Temperature) and 1.5 gpm/ton, a
25.5 25.2
3 ton unit has a HE of 22,500 Btuh. To calculate LWT, rearrange 25.5
the formula for HE as follows:
25.2
25.6
HE = TD x GPM x 500, where HE = Heat of Extraction (Btuh); TD = temperature difference (EWT - LWT) and GPM = U.S. Gallons per Minute.
TD = HE / (GPM x 500)
TD = 22,500 / (4.5 x 500)
EER
0 0 38.3 38.3 39.2 39.2 39.8 39.8 35.3 35.3 37.9 37.9 38.3 38.3 30.7 30.7 33.4 33.4 34.1 34.1 25.9 25.9 28.6 28.6
Airflow CFM
710 825 710 825 710 825 710 825 710 825 710 825 710 825 710 825 710 825 710 825 710 825 710 825
Heating - EAT 70°F
HC
11.6 11.7 13.6 13.8 14.2 14.4 14.4 14.6 16.1 16.2 16.7 16.9 16.9 17.1 18.3 18.5 19.1 19.3 19.3 19.5 20.4 20.6 21.2 21.5
kW
1.05 1.02 1.09 1.06 1.09 1.06 1.09 1.06 1.15 1.12 1.15 1.12 1.16 1.12 1.18 1.14 1.18 1.15 1.18 1.15 1.21 1.18 1.22 1.18
HE
8.2 8.4 10.1 10.3 10.7 10.9 10.9 11.1 12.3 12.6 13.0 13.3 13.2 13.5 14.5 14.8 15.2 15.5 15.4 15.7 16.5 16.8 17.3 17.6
LAT
85.1 83.2 87.8 85.5 88.5 86.1 88.8 86.3 90.9 88.2 91.8 89.0 92.1 89.2 93.9 90.8 94.8 91.6 95.1 91.9 96.6 93.2 97.7 94.1
COP
3.25 3.38 3.66 3.81 3.81 3.97 3.86 4.02 4.08 4.25 4.25 4.42 4.30 4.47 4.56 4.75 4.73 4.93 4.78 4.98 4.93 5.13 5.10 5.31
TD = 10°F
LWT = EWT - TD
LWT = 50 - 10 = 40°F
In this example, as long as the EWT does not fall below 50°F, the system will operate as designed. For EWTs below 50°F, higher flow rates will be required (open loop systems, for example, require at least 2 gpm/ton when EWT is below 50°F).
7
Heat Controller, Inc.
HP SERIES
Engineering Design Guide
Performance Data
HPV018
600 CFM Nominal (Rated) Airflow
EWT °F
GPM
WPD PSI FT
Airflow CFM
Cooling - EAT 80/67°F
TC
SC
Sens/Tot Ratio
kW
HR
20 30 40 50 60 70 80 85 90 100 110 120
4.5
7.2
16.7
4.5
7.2
16.7
2.3
2.1
4.9
2.3
2.1
4.9
3.4
3.4
7.9
3.4
3.4
7.9
4.5
5.9
13.7
4.5
5.9
13.7
2.3
1.7
3.9
2.3
1.7
3.9
3.4
2.9
6.7
3.4
2.9
6.7
4.5
5.1
11.8
4.5
5.1
11.8
2.3
1.4
3.3
2.3
1.4
3.3
3.4
2.6
5.9
3.4
2.6
5.9
4.5
4.6
10.6
4.5
4.6
10.6
2.3
1.3
2.9
2.3
1.3
2.9
3.4
2.3
5.3
3.4
2.3
5.3
4.5
4.2
9.6
4.5
4.2
9.6
2.3
1.1
2.6
2.3
1.1
2.6
3.4
2.1
4.9
3.4
2.1
4.9
4.5
3.9
8.9
4.5
3.9
8.9
2.3
1.0
2.3
2.3
1.0
2.3
3.4
2.0
4.5
3.4
2.0
4.5
4.5
3.6
8.3
4.5
3.6
8.3
2.3
1.0
2.2
2.3
1.0
2.2
3.4
1.9
4.4
3.4
1.9
4.4
4.5
3.5
8.1
4.5
3.5
8.1
2.3
0.9
2.1
2.3
0.9
2.1
3.4
1.8
4.2
3.4
1.8
4.2
4.5
3.4
7.9
4.5
3.4
7.9
2.3
0.9
2.0
2.3
0.9
2.0
3.4
1.7
4.0
3.4
1.7
4.0
4.5
3.2
7.4
4.5
3.2
7.4
2.3
0.8
1.8
2.3
0.8
1.8
3.4
1.6
3.8
3.4
1.6
3.8
4.5
3.1
7.1
4.5
3.1
7.1
2.3
0.7
1.7
2.3
0.7
1.7
3.4
1.6
3.6
3.4
1.6
3.6
4.5
2.9
6.8
4.5
2.9
6.8
450 600
Operation not recommended
450
22.1
14.2
0.64 0.72
24.5
600
23.0
16.1
0.70 0.75
25.5
450
22.9
14.4
0.63 0.64
25.1
600
23.9
16.3
0.68 0.67
26.1
450
23.3
14.4
0.62 0.60
25.3
600
24.3
16.3
0.67 0.62
26.4
450
21.1
13.9
0.66 0.82
23.9
600
22.0
15.7
0.72 0.86
24.9
450
21.9
14.2
0.65 0.75
24.4
600
22.8
16.0
0.70 0.78
25.4
450
22.5
14.5
0.64 0.71
24.9
600
23.5
16.4
0.70 0.74
25.9
450
20.4
13.7
0.67 0.93
23.5
600
21.2
15.5
0.73 0.97
24.5
450
20.8
13.8
0.66 0.85
23.7
600
21.7
15.6
0.72 0.89
24.7
450
21.2
13.9
0.66 0.81
23.9
600
22.1
15.8
0.72 0.85
24.9
450
19.3
13.2
0.68 1.04
22.8
600
20.1
14.9
0.74 1.08
23.8
450
19.8
13.4
0.68 0.96
23.0
600
20.6
15.1
0.73 1.00
24.0
450
20.1
13.5
0.67 0.92
23.3
600
21.0
15.3
0.73 0.96
24.2
450
18.2
12.7
0.69 1.15
22.1
600
19.0
14.3
0.76 1.20
23.1
450
18.7
12.8
0.69 1.07
22.3
600
19.4
14.5
0.75 1.12
23.2
450
19.1
13.0
0.68 1.03
22.6
600
19.8
14.7
0.74 1.08
23.5
450
17.0
12.1
0.71 1.28
21.4
600
17.7
13.7
0.77 1.33
22.3
450
17.5
12.3
0.70 1.20
21.6
600
18.3
13.9
0.76 1.25
22.5
450
17.9
12.5
0.69 1.15
21.9
600
18.7
14.1
0.76 1.20
22.8
450
16.4
11.8
0.72 1.35
21.0
600
17.1
13.3
0.78 1.40
21.9
450
16.9
12.0
0.71 1.26
21.2
600
17.6
13.5
0.77 1.31
22.1
450
17.3
12.2
0.70 1.22
21.5
600
18.0
13.8
0.76 1.27
22.4
450
15.8
11.5
0.73 1.42
20.6
600
16.4
13.0
0.79 1.48
21.5
450
16.3
11.7
0.71 1.33
20.8
600
17.0
13.2
0.78 1.38
21.7
450
16.7
11.9
0.71 1.28
21.1
600
17.4
13.4
0.77 1.34
22.0
450
14.4
10.8
0.75 1.57
19.8
600
15.0
12.2
0.82 1.63
20.6
450
15.0
11.0
0.74 1.48
20.0
600
15.6
12.5
0.80 1.54
20.8
450
15.4
11.2
0.73 1.43
20.3
600
16.0
12.7
0.79 1.49
21.1
450
12.9
10.1
0.78 1.74
18.8
600
13.4
11.4
0.85 1.81
19.6
450
13.5
10.3
0.76 1.64
19.1
600
14.0
11.6
0.83 1.71
19.9
450
13.9
10.5
0.75 1.59
19.4
600
14.5
11.9
0.82 1.65
20.2
450
11.2
9.2
0.82 1.92
17.8
600
11.6
10.4
0.89 2.00
18.5
450
11.8
9.5
0.80 1.82
18.1
600
12.3
10.7
0.87 1.89
18.8
450
12.3
9.7
0.79 1.77
18.4
600
12.8
11.0
0.86 1.84
19.1
Interpolation is permissible; extrapolation is not. All entering air conditions are 80°F DB and 67°F WB in cooling, and 70°F DB in heating. AHRI/ISO certified conditions are 80.6°F DB and 66.2°F WB in cooling and 68°F DB in heating. Table does not reflect fan or pump power corrections for AHRI/ISO conditions. All performance is based upon the lower voltage of dual voltage rated units. Performance stated is at the rated power supply; performance may vary as the power supply varies from the rated. Operation below 40°F EWT is based upon a 15% methanol antifreeze solution. See performance correction tables for operating conditions other than those listed above.
See Performance Data Selection Notes for operation in the shaded areas.
Performance capacities shown in thousands of Btuh
Heating - EAT 70°F
EER
30.7 30.8 35.8 35.8 39.0 39.0
25.6 25.6 29.3 29.3 31.9 31.9
21.9 22.0 24.4 24.4 26.1 26.1 18.6 18.6 20.6 20.6 21.9 21.9 15.8 15.8 17.4 17.4 18.4 18.4 13.3 13.3 14.7 14.7 15.5 15.5 12.2 12.2 13.5 13.5 14.3 14.3 11.1 11.1 12.3 12.3 13.0 13.0 9.2 9.2 10.1 10.1 10.8 10.8 7.4 7.4 8.2 8.2 8.8 8.8 5.8 5.8 6.5 6.5 7.0 7.0
Airflow CFM
450 600 450 600 450 600 450 600
450 600 450 600 450 600
450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600 450 600
HC
11.2 11.4 12.4 12.7 12.9 13.3 13.2 13.5
14.3 14.7 15.0 15.3 15.3 15.7
16.3 16.6 17.0 17.4 17.4 17.9 18.2 18.6 19.1 19.6 19.6 20.1 20.2 20.7 21.2 21.7 21.7 22.3 22.1 22.7 23.3 23.9 23.9 24.5 23.1 23.7 24.3 24.9 25.0 25.6 24.1 24.7 25.4 26.0 26.1 26.7
kW
1.25 1.13 1.29 1.16 1.30 1.17 1.31 1.17
1.33 1.20 1.35 1.21 1.35 1.22
1.37 1.23 1.39 1.25 1.39 1.25 1.41 1.26 1.42 1.28 1.43 1.29 1.44 1.29 1.46 1.31 1.46 1.32 1.47 1.32 1.49 1.34 1.50 1.35 1.49 1.33 1.50 1.35 1.51 1.36 1.50 1.35 1.52 1.37 1.53 1.38
HE
7.2 7.6 8.2 8.8 8.7 9.3 9.0 9.6
9.9 10.6 10.5 11.2 10.8 11.6
11.7 12.5 12.4 13.2 12.7 13.6 13.4 14.3 14.2 15.2 14.7 15.7 15.2 16.2 16.1 17.2 16.6 17.8 17.0 18.2 18.0 19.3 18.6 19.9 17.9 19.1 19.0 20.3 19.6 20.9 18.8 20.1 20.0 21.3 20.6 22.0
LAT
93 88 96 90 97 90 97 91
99 93 101 94 102 94
103 96 105 97 106 98 107 99 109 100 110 101 112 102 114 103 115 104 116 105 118 107 119 108 118 107 120 108 121 110 120 108 122 110 124 111
COP
2.61 2.98 2.83 3.22 2.92 3.33 2.97 3.38
3.15 3.59 3.26 3.72 3.32 3.78
3.47 3.96 3.60 4.10 3.67 4.18 3.79 4.32 3.93 4.49 4.01 4.58 4.11 4.68 4.27 4.86 4.35 4.96 4.41 5.03 4.59 5.23 4.68 5.34 4.56 5.20 4.74 5.41 4.84 5.51 4.71 5.37 4.89 5.58 4.99 5.69
Operation not recommended
8
Engineering Design Guide
HP SERIES
Heat Controller, Inc.
Performance Data HPV024
800 CFM Nominal (Rated) Airflow
EWT °F
GPM
20
6.0 6.0
3.0
3.0
30
4.5 4.5
6.0
6.0
3.0
3.0
40
4.5 4.5
6.0
6.0
3.0
3.0
50
4.5 4.5
6.0
6.0
3.0
3.0
60
4.5 4.5
6.0
6.0
3.0
3.0
70
4.5 4.5
6.0
6.0
3.0
3.0
80
4.5 4.5
6.0
6.0
3.0
3.0
85
4.5 4.5
6.0
6.0
3.0
3.0
90
4.5 4.5
6.0
6.0
3.0
3.0
100
4.5 4.5
6.0
6.0
3.0
3.0
110
4.5 4.5
6.0
6.0
3.0
3.0
120
4.5 4.5
6.0
6.0
WPD
PSI
8.5 8.5 2.2 2.2 4.0 4.0 7.2 7.2
1.9 1.9 3.6 3.6 6.4 6.4 1.7 1.7 3.2 3.2 5.9 5.9
1.5 1.5 3.0 3.0 5.5 5.5 1.4 1.4 2.8 2.8 5.2 5.2 1.3 1.3 2.6 2.6 4.9 4.9 1.3 1.3 2.6 2.6 4.8 4.8 1.2 1.2 2.5 2.5 4.7 4.7 1.2 1.2 2.4 2.4 4.5 4.5 1.1 1.1 2.3 2.3 4.3 4.3 1.0 1.0 2.2 2.2 4.2 4.2
FT
19.6 19.6 5.2 5.2 9.3 9.3 16.7 16.7
4.4 4.4 8.2 8.2 14.9 14.9 3.9 3.9 7.4 7.4 13.6 13.6
3.5 3.5 6.9 6.9 12.6 12.6 3.2 3.2 6.4 6.4 11.9 11.9 3.0 3.0 6.1 6.1 11.3 11.3 2.9 2.9 5.9 5.9 11.0 11.0 2.8 2.8 5.8 5.8 10.7 10.7 2.7 2.7 5.5 5.5 10.3 10.3 2.5 2.5 5.3 5.3 9.9 9.9 2.4 2.4 5.1 5.1 9.6 9.6
Airflow CFM
640 850 640 850 640 850 640 850
640 850 640 850 640 850 640 850 640 850 640 850
640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850
Cooling - EAT 80/67°F
TC
SC
Sens/Tot Ratio
kW
HR
Operation not recommended
27.7
17.4
0.63 1.12
31.5
28.9
19.7
0.68 1.16
32.8
28.2
17.5
0.62 1.05
31.8
29.4
19.8
0.67 1.09
33.1
28.5
17.5
0.62 1.02
31.9
29.6
19.8
0.67 1.06
33.2
26.9
17.1
0.64 1.23
31.1
28.0
19.4
0.69 1.28
32.4
27.5
17.3
0.63 1.15
31.4
28.7
19.6
0.68 1.19
32.7
27.8
17.4
0.63 1.11
31.5
28.9
19.7
0.68 1.16
32.8
26.2
16.9
0.65 1.36
30.8
27.3
19.1
0.70 1.42
32.1
26.7
17.0
0.64 1.26
31.0
27.8
19.3
0.69 1.32
32.2
27.0
17.1
0.64 1.22
31.1
28.1
19.4
0.69 1.27
32.4
25.3
16.6
0.66 1.52
30.4
26.3
18.8
0.71 1.58
31.7
25.7
16.7
0.65 1.40
30.5
26.8
18.9
0.70 1.46
31.7
26.1
16.8
0.64 1.35
30.6
27.1
19.0
0.70 1.41
31.9
24.1
16.2
0.67 1.70
29.9
25.1
18.3
0.73 1.77
31.1
24.6
16.3
0.66 1.57
30.0
25.6
18.4
0.72 1.63
31.2
25.0
16.4
0.66 1.51
30.1
26.0
18.6
0.71 1.57
31.4
22.9
15.7
0.69 1.91
29.4
23.8
17.8
0.75 1.99
30.6
23.4
15.8
0.67 1.76
29.4
24.4
17.9
0.73 1.84
30.7
23.8
16.0
0.67 1.70
29.6
24.8
18.1
0.73 1.77
30.8
22.2
15.5
0.70 2.03
29.2
23.1
17.5
0.76 2.12
30.4
22.8
15.6
0.68 1.88
29.2
23.7
17.6
0.74 1.95
30.4
23.2
15.7
0.68 1.80
29.3
24.1
17.8
0.74 1.88
30.5
21.6
15.3
0.71 2.16
28.9
22.4
17.3
0.77 2.25
30.1
22.2
15.4
0.69 1.99
29.0
23.1
17.4
0.75 2.07
30.1
22.5
15.4
0.69 1.91
29.0
23.4
17.5
0.75 1.99
30.2
20.2
14.8
0.74 2.44
28.5
21.0
16.8
0.80 2.54
29.7
20.8
14.9
0.72 2.25
28.5
21.6
16.9
0.78 2.34
29.7
21.1
15.0
0.71 2.16
28.5
22.0
17.0
0.77 2.25
29.7
18.8
14.4
0.77 2.77
28.3
19.5
16.3
0.84 2.88
29.4
19.3
14.4
0.75 2.55
28.1
20.1
16.3
0.81 2.66
29.2
19.7
14.5
0.74 2.45
28.1
20.5
16.4
0.80 2.55
29.3
17.1
13.9
0.81 3.13
27.9
17.8
15.7
0.88 3.26
29.0
17.8
14.0
0.78 2.89
27.8
18.6
15.8
0.85 3.01
28.9
18.3
14.1
0.77 2.78
27.9
19.1
16.0
0.84 2.89
29.0
Interpolation is permissible; extrapolation is not. All entering air conditions are 80°F DB and 67°F WB in cooling, and 70°F DB in heating. AHRI/ISO certified conditions are 80.6°F DB and 66.2°F WB in cooling and 68°F DB in heating. Table does not reflect fan or pump power corrections for AHRI/ISO conditions. All performance is based upon the lower voltage of dual voltage rated units. Performance stated is at the rated power supply; performance may vary as the power supply varies from the rated. Operation below 40°F EWT is based upon a 15% methanol antifreeze solution. See performance correction tables for operating conditions other than those listed above.
See Performance Data Selection Notes for operation in the shaded areas.
Performance capacities shown in thousands of Btuh
EER
24.8 24.8 26.9 26.9 28.0 28.0
21.9 21.9 24.0 24.0 25.1 25.1 19.3 19.3 21.1 21.1 22.1 22.1
16.7 16.7 18.3 18.3 19.3 19.3 14.2 14.2 15.7 15.7 16.6 16.6 12.0 12.0 13.3 13.3 14.1 14.1 11.0 11.0 12.2 12.2 12.9 12.9 10.0 10.0 11.1 11.1 11.8 11.8 8.3 8.3 9.2 9.2 9.8 9.8 6.8 6.8 7.6 7.6 8.0 8.0 5.5 5.5 6.2 6.2 6.6 6.6
Airflow CFM
640 850 640 850 640 850 640 850
640 850 640 850 640 850 640 850 640 850 640 850
640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850 640 850
Heating - EAT 70°F
HC
15.5 15.9 17.2 17.6 18.0 18.4 18.4 18.8
19.9 20.4 20.8 21.3 21.3 21.9 22.6 23.2 23.7 24.3 24.3 24.9
25.3 25.9 26.6 27.2 27.2 27.9 27.9 28.6 29.2 29.9 29.9 30.6 30.4 31.1 31.7 32.5 32.4 33.1 31.5 32.3 32.7 33.5 33.4 34.2 32.6 33.4 33.8 34.6 34.4 35.2
kW
1.91 1.71 1.93 1.74 1.95 1.75 1.95 1.76
1.98 1.78 2.00 1.79 2.01 1.80 2.03 1.82 2.05 1.84 2.06 1.85
2.08 1.87 2.10 1.89 2.12 1.90 2.13 1.91 2.16 1.94 2.17 1.95 2.18 1.96 2.21 1.99 2.23 2.00 2.21 1.98 2.24 2.01 2.25 2.02 2.23 2.01 2.26 2.03 2.28 2.05
HE
9.5 10.1 11.0 11.8 11.7 12.5 12.1 12.9
13.4 14.4 14.3 15.3 14.7 15.7 15.9 17.0 16.9 18.0 17.4 18.6
18.3 19.6 19.4 20.7 20.0 21.4 20.7 22.1 21.8 23.3 22.5 24.0 22.9 24.4 24.0 25.7 24.6 26.3 23.8 25.5 25.0 26.7 25.5 27.2 24.8 26.5 25.9 27.6 26.4 28.2
LAT
92 87 95 89 96 90 97 91
99 92 100 93 101 94 103 95 104 96 105 97
107 98 108 100 109 100 110 101 112 103 113 103 114 104 116 105 117 106 116 105 117 107 118 107 117 106 119 108 120 108
Operation not recommended
COP
2.39 2.72 2.61 2.98 2.70 3.08 2.76 3.14
2.94 3.36 3.06 3.49 3.12 3.55 3.27 3.72 3.39 3.87 3.46 3.94
3.57 4.07 3.70 4.22 3.77 4.30 3.84 4.38 3.97 4.53 4.04 4.60 4.08 4.65 4.20 4.79 4.26 4.85 4.18 4.77 4.29 4.89 4.34 4.95 4.28 4.88 4.38 4.99 4.42 5.04
9
Heat Controller, Inc.
HP SERIES
Engineering Design Guide
Performance Data HPV030
1000 CFM Nominal (Rated) Airflow
EWT °F
GPM
WPD PSI FT
Airflow CFM
Cooling - EAT 80/67°F
TC
SC
Sens/Tot Ratio
kW
HR
20
7.5
5.0
11.6
750
7.5
5.0
11.6
1000
Operation not recommended
3.8
1.3
2.9
750
33.3
20.3
0.61 1.38
38.0
3.8
1.3
2.9
1000 34.7
22.9
0.66 1.44
39.5
30
5.6
2.3
5.4
5.6
2.3
5.4
750
33.5
20.2
0.60 1.31
1000 34.9
22.8
0.65 1.36
37.9 39.5
7.5
4.2
9.7
750
33.6
20.0
0.60 1.27
37.9
7.5
4.2
9.7
1000 35.0
22.7
0.65 1.32
39.4
3.8
1.0
2.4
750
32.6
20.2
0.62 1.51
37.7
3.8
1.0
2.4
1000 34.0
22.8
0.67 1.57
39.3
40
5.6
2.0
4.7
5.6
2.0
4.7
750
33.1
20.3
0.61 1.42
1000 34.5
22.9
0.67 1.48
37.9 39.5
7.5
3.7
8.6
750
33.7
20.5
0.61 1.38
38.3
7.5
3.7
8.6
1000 35.1
23.2
0.66 1.44
39.9
3.8
0.9
2.1
750
31.6
19.9
0.63 1.65
37.2
3.8
0.9
2.1
1000 32.9
22.5
0.68 1.72
38.8
50
5.6
1.8
4.2
5.6
1.8
4.2
750
32.3
20.1
0.62 1.55
1000 33.7
22.8
0.68 1.61
37.6 39.1
7.5
3.4
7.8
750
32.6
20.2
0.62 1.50
37.7
7.5
3.4
7.8
1000 34.0
22.9
0.67 1.57
39.3
3.8
0.8
1.8
750
30.4
19.4
0.64 1.81
36.6
3.8
0.8
1.8
1000 31.7
21.9
0.69 1.89
38.1
60
5.6
1.7
3.8
5.6
1.7
3.8
750
31.1
19.6
0.63 1.70
1000 32.4
22.2
0.69 1.77
36.9 38.4
7.5
3.1
7.2
750
31.4
19.7
0.63 1.65
37.0
7.5
3.1
7.2
1000 32.7
22.3
0.68 1.71
38.5
3.8
0.7
1.6
750
29.0
18.8
0.65 2.00
35.8
3.8
0.7
1.6
1000 30.2
21.2
0.70 2.08
37.3
70
5.6
1.5
3.6
5.6
1.5
3.6
750
30.0
19.2
0.64 1.87
1000 31.2
21.7
0.70 1.95
36.3 37.8
7.5
2.9
6.7
750
30.4
19.4
0.64 1.81
36.6
7.5
2.9
6.7
1000 31.7
21.9
0.69 1.89
38.1
3.8
0.7
1.5
750
27.7
18.3
0.66 2.21
35.3
3.8
0.7
1.5
1000 28.8
20.7
0.72 2.30
36.7
80
5.6
1.4
3.3
5.6
1.4
3.3
750
28.5
18.5
0.65 2.07
1000 29.6
21.0
0.71 2.16
35.5 37.0
7.5
2.7
6.3
750
29.0
18.7
0.65 2.00
35.8
7.5
2.7
6.3
1000 30.2
21.2
0.70 2.08
37.3
3.8
0.6
1.4
750
26.7
17.8
0.67 2.34
34.7
3.8
0.6
1.4
1000 27.8
20.1
0.72 2.43
36.1
85
5.6 5.6
1.4 1.4
3.2 3.2
750
27.6
18.2
0.66 2.18
1000 28.8
20.6
0.71 2.27
35.1 36.5
7.5
2.7
6.2
750
28.2
18.4
0.65 2.11
35.4
7.5
2.7
6.2
1000 29.3
20.8
0.71 2.20
36.8
3.8
0.6
1.4
750
25.7
17.3
0.67 2.46
34.1
3.8
0.6
1.4
1000 26.8
19.6
0.73 2.56
35.5
90
5.6 5.6
1.4 1.4
3.1 3.1
750
26.8
17.8
0.66 2.30
1000 27.9
20.1
0.72 2.39
34.7 36.1
7.5
2.6
6.0
750
27.3
18.0
0.66 2.22
34.9
7.5
2.6
6.0
1000 28.5
20.4
0.72 2.31
36.4
3.8
0.6
1.3
750
24.0
16.6
0.69 2.74
33.3
3.8
0.6
1.3
1000 24.9
18.8
0.75 2.85
34.7
100
5.6 5.6
1.3 1.3
3.0 3.0
750
25.1
17.0
0.68 2.56
1000 26.1
19.3
0.74 2.67
33.8 35.2
7.5
2.5
5.7
750
25.6
17.3
0.67 2.48
34.1
7.5
2.5
5.7
1000 26.7
19.6
0.73 2.58
35.5
3.8
0.5
1.2
750
22.5
16.1
0.72 3.07
33.0
3.8
0.5
1.2
1000 23.5
18.2
0.78 3.19
34.4
110
5.6 5.6
1.2 1.2
2.8 2.8
750
23.2
16.3
0.70 2.86
1000 24.2
18.4
0.76 2.98
33.1 34.4
7.5
2.4
5.5
750
23.8
16.5
0.69 2.77
33.3
7.5
2.4
5.5
1000 24.8
18.7
0.75 2.88
34.6
3.8
0.5
1.1
750
20.4
15.2
0.74 3.44
32.2
3.8
0.5
1.1
1000 21.2
17.2
0.81 3.58
33.5
120
5.6 5.6
1.2
2.7
1.2
2.7
750
21.4
15.6
0.73 3.21
1000 22.3
17.6
0.79 3.34
32.4 33.8
7.5
2.3
5.3
750
22.0
15.8
0.72 3.10
32.6
7.5
2.3
5.3
1000 22.9
17.8
0.78 3.23
33.9
Interpolation is permissible; extrapolation is not. All entering air conditions are 80°F DB and 67°F WB in cooling, and 70°F DB in heating. AHRI/ISO certified conditions are 80.6°F DB and 66.2°F WB in cooling and 68°F DB in heating. Table does not reflect fan or pump power corrections for AHRI/ISO conditions. All performance is based upon the lower voltage of dual voltage rated units. Performance stated is at the rated power supply; performance may vary as the power supply varies from the rated. Operation below 40°F EWT is based upon a 15% methanol antifreeze solution. See performance correction tables for operating conditions other than those listed above.
See Performance Data Selection Notes for operation in the shaded areas.
EER
24.0 24.0 25.7 25.7 26.5 26.5
21.6 21.6 23.3 23.3 24.4 24.4
19.2 19.2 20.9 20.9 21.7 21.7 16.8 16.8 18.3 18.3 19.0 19.1 14.5 14.5 16.0 16.0 16.8 16.8 12.5 12.5 13.7 13.7 14.5 14.5 11.5 11.5 12.7 12.7 13.4 13.4 10.5 10.5 11.7 11.7 12.3 12.3 8.7 8.7 9.8 9.8 10.3 10.3 7.4 7.4 8.1 8.1 8.6 8.6 5.9 5.9 6.7 6.7 7.1 7.1
Performance capacities shown in thousands of Btuh
Heating - EAT 70°F
Airflow CFM
750 1000 750 1000 750 1000 750 1000
750 1000 750 1000 750 1000
750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000 750 1000
HC
20.0 20.4 21.6 22.1 22.5 23.0 22.9 23.5
24.7 25.3 25.7 26.4 26.3 26.9
27.8 28.5 29.1 29.8 29.8 30.5 31.0 31.8 32.5 33.3 33.3 34.1 34.2 35.1 35.8 36.7 36.7 37.6 37.3 38.2 39.0 40.0 40.2 41.2 38.8 39.8 40.5 41.5 41.6 42.6 40.3 41.3 42.0 43.0 42.9 44.0
kW
2.31 2.08 2.37 2.13 2.40 2.15 2.41 2.16
2.45 2.20 2.48 2.23 2.49 2.24
2.52 2.26 2.55 2.29 2.56 2.30 2.58 2.32 2.61 2.34 2.63 2.36 2.64 2.37 2.68 2.40 2.70 2.42 2.71 2.43 2.75 2.47 2.78 2.50 2.75 2.5 2.8 2.5 2.8 2.5 2.79 2.51 2.85 2.56 2.88 2.59
HE
12.6 13.4 14.0 14.9 14.7 15.7 15.1 16.2
16.7 17.8 17.6 18.8 18.1 19.4
19.5 20.8 20.6 22.0 21.3 22.7 22.4 23.9 23.7 25.3 24.4 26.0 25.2 26.9 26.7 28.5 27.4 29.3 28.0 29.9 29.5 31.5 30.6 32.6 29.3 31.3 30.8 32.9 31.7 33.9 30.6 32.7 32.1 34.3 32.9 35.1
LAT
95 89 97 90 98 91 98 92
100 93 102 94 102 95
104 96 106 98 107 98 108 99 110 101 111 102 112 102 114 104 115 105 116 105 118 107 120 108 118 107 120 108 121 109 120 108 122 110 123 111
COP
2.53 2.89 2.67 3.04 2.75 3.13 2.79 3.18
2.95 3.36 3.04 3.47 3.10 3.53
3.24 3.69 3.35 3.82 3.41 3.89 3.52 4.02 3.65 4.16 3.71 4.24 3.79 4.33 3.92 4.47 3.99 4.55 4.04 4.60 4.15 4.74 4.24 4.84 4.14 4.72 4.24 4.84 4.30 4.91 4.23 4.83 4.33 4.93 4.36 4.98
Operation not recommended
10
Engineering Design Guide
HP SERIES
Heat Controller, Inc.
Performance Data HPV036
1,200 CFM Nominal (Rated) Airflow
EWT °F
GPM
20
9.0 9.0
4.5
4.5
30
6.8 6.8
9.0
9.0
4.5
4.5
40
6.8 6.8
9.0
9.0
4.5
4.5
50
6.8 6.8
9.0
9.0
4.5
4.5
60
6.8 6.8
9.0
9.0
4.5
4.5
70
6.8 6.8
9.0
9.0
4.5
4.5
80
6.8 6.8
9.0
9.0
4.5
4.5
85
6.8 6.8
9.0
9.0
4.5
4.5
90
6.8 6.8
9.0
9.0
4.5
4.5
100
6.8 6.8
9.0
9.0
4.5
4.5
110
6.8 6.8
9.0
9.0
4.5
4.5
120
6.8 6.8
9.0
9.0
WPD
PSI FT
6.4
14.8
6.4
14.8
1.8
4.3
1.8
4.3
3.1
7.1
3.1
7.1
5.4
12.5
5.4
12.5
1.6
3.6
1.6
3.6
2.7
6.2
2.7
6.2
4.8
11.1
4.8
11.1
1.4
3.2
1.4
3.2
2.4
5.6
2.4
5.6
4.4
10.1
4.4
10.1
1.3
2.9
1.3
2.9
2.3
5.2
2.3
5.2
4.0
9.3
4.0
9.3
1.2
2.7
1.2
2.7
2.1
4.9
2.1
4.9
3.8
8.7
3.8
8.7
1.1
2.5
1.1
2.5
2.0
4.6
2.0
4.6
3.6
8.3
3.6
8.3
1.0
2.4
1.0
2.4
1.9
4.4
1.9
4.4
3.5
8.1
3.5
8.1
1.0
2.3
1.0
2.3
1.9
4.3
1.9
4.3
3.4
7.9
3.4
7.9
0.9
2.2
0.9
2.2
1.8
4.1
1.8
4.1
3.3
7.5
3.3
7.5
0.9
2.1
0.9
2.1
1.7
4.0
1.7
4.0
3.1
7.2
3.1
7.2
0.9
2.0
0.9
2.0
1.6
3.8
1.6
3.8
3.0
7.0
3.0
7.0
Airflow CFM
860 1150 860 1150 860 1150 860 1150
860 1150 860 1150 860 1150
860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150
Cooling - EAT 80/67°F
TC
SC
Sens/Tot Ratio
kW
HR
Operation not recommended
39.9
24.2
0.61 1.67
45.6
41.5
27.4
0.66 1.74
47.4
40.1
24.3
0.61 1.62
45.5
41.7
27.5
0.66 1.69
47.4
40.0
24.3
0.61 1.60
45.5
41.7
27.5
0.66 1.67
47.3
39.2
24.0
0.61 1.80
45.3
40.8
27.2
0.67 1.87
47.1
39.7
24.2
0.61 1.71
45.5
41.4
27.4
0.66 1.78
47.4
39.9
24.3
0.61 1.67
45.6
41.6
27.4
0.66 1.74
47.4
38.0
23.6
0.62 1.98
44.7
39.5
26.7
0.68 2.06
46.5
38.8
23.9
0.62 1.85
45.1
40.4
27.0
0.67 1.92
47.0
39.2
24.0
0.61 1.79
45.3
40.8
27.2
0.67 1.87
47.2
36.1
22.9
0.63 2.20
43.6
37.6
25.9
0.69 2.29
45.4
37.5
23.5
0.63 2.04
44.4
39.1
26.5
0.68 2.13
46.3
38.0
23.6
0.62 1.97
44.7
39.6
26.7
0.68 2.05
46.5
34.6
22.5
0.65 2.46
42.9
36.0
25.5
0.71 2.56
44.7
35.8
22.9
0.64 2.28
43.6
37.3
25.9
0.70 2.38
45.4
36.4
23.1
0.63 2.20
43.9
37.9
26.1
0.69 2.29
45.7
32.5
21.8
0.67 2.76
41.9
33.8
24.7
0.73 2.88
43.7
33.9
22.3
0.66 2.56
42.6
35.3
25.2
0.72 2.67
44.4
34.5
22.5
0.65 2.47
42.9
35.9
25.5
0.71 2.57
44.7
31.5
21.5
0.68
2.9
41.5
32.8
24.4
0.74 3.05
43.3
32.8
21.9
0.67 2.72
42.1
34.1
24.8
0.73 2.84
43.8
33.4
22.1
0.66 2.62
42.3
34.7
25.0
0.72 2.73
44.1
30.5
21.2
0.70 3.10
41.1
31.8
24.0
0.76 3.23
42.8
31.7
21.6
0.68 2.88
41.6
33.0
24.4
0.74 3.00
43.3
32.2
21.7
0.67 2.78
41.7
33.5
24.5
0.73 2.89
43.4
28.3
20.5
0.72 3.47
40.2
29.5
23.1
0.79 3.62
41.9
29.5
20.8
0.71 3.24
40.6
30.7
23.5
0.77 3.37
42.2
30.1
21.0
0.70 3.13
40.8
31.3
23.7
0.76 3.25
42.5
26.2
19.8
0.75 3.88
39.5
27.3
22.4
0.82 4.04
41.1
27.2
20.0
0.73 3.63
39.7
28.4
22.6
0.80 3.78
41.3
27.6
20.0
0.72 3.51
39.6
28.8
22.7
0.79 3.65
41.3
24.1
19.0
0.79 4.31
38.9
25.1
21.4
0.86 4.49
40.4
25.1
19.2
0.77 4.05
39.0
26.1
21.8
0.83 4.21
40.6
25.4
19.2
0.76 3.92
38.9
26.5
21.8
0.82 4.08
40.5
Interpolation is permissible; extrapolation is not. All entering air conditions are 80°F DB and 67°F WB in cooling, and 70°F DB in heating. AHRI/ISO certified conditions are 80.6°F DB and 66.2°F WB in cooling and 68°F DB in heating. Table does not reflect fan or pump power corrections for AHRI/ISO conditions. All performance is based upon the lower voltage of dual voltage rated units. Performance stated is at the rated power supply; performance may vary as the power supply varies from the rated. Operation below 40°F EWT is based upon a 15% methanol antifreeze solution. See performance correction tables for operating conditions other than those listed above.
See Performance Data Selection Notes for operation in the shaded areas.
Performance capacities shown in thousands of Btuh
Heating - EAT 70°F
EER
23.8 23.8 24.7 24.7 25.0 25.0
21.8 21.8 23.3 23.3 23.9 23.9
19.2 19.2 21.0 21.0 21.9 21.9 16.4 16.4 18.4 18.4 19.3 19.3 14.0 14.0 15.7 15.7 16.6 16.6 11.8 11.8 13.2 13.2 14.0 14.0 10.8 10.8 12.1 12.1 12.8 12.8 9.8 9.8 11.0 11.0 11.6 11.6 8.1 8.2 9.1 9.1 9.6 9.6 6.8 6.8 7.5 7.5 7.9 7.9 5.6 5.6 6.2 6.2 6.5 6.5
Airflow CFM
860 1150 860 1150 860 1150 860 1150
860 1150 860 1150 860 1150
860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150 860 1150
HC
22.6 23.2 25.6 26.2 26.8 27.5 27.5 28.2
30.1 30.8 31.6 32.4 32.4 33.2
34.5 35.4 36.3 37.2 37.3 38.2 38.9 39.8 40.9 41.9 42.0 43.0 43.1 44.1 45.2 46.3 46.4 47.5 47.0 48.2 49.2 50.4 50.3 51.5 48.8 50.0 50.9 52.2 52.0 53.2 50.6 51.9 52.7 54.0 53.7 55.0
kW
2.67 2.39 2.80 2.51 2.85 2.56 2.88 2.59
2.98 2.68 3.05 2.74 3.08 2.77
3.16 2.84 3.23 2.90 3.27 2.93 3.32 2.99 3.40 3.05 3.44 3.09 3.47 3.12 3.55 3.19 3.59 3.22 3.61 3.24 3.68 3.30 3.71 3.34 3.67 3.29 3.73 3.35 3.76 3.38 3.72 3.34 3.79 3.40 3.82 3.43
HE
14.1 15.1 16.6 17.7 17.6 18.8 18.2 19.4
20.3 21.7 21.6 23.1 22.3 23.8
24.1 25.7 25.6 27.3 26.4 28.2 27.8 29.7 29.5 31.5 30.4 32.5 31.4 33.5 33.2 35.4 34.2 36.5 34.8 37.1 36.6 39.1 37.6 40.1 36.3 38.8 38.1 40.7 39.0 41.7 37.9 40.4 39.6 42.3 40.5 43.2
LAT
94 89 98 91 99 92 100 93
102 95 104 96 105 97
107 98 109 100 110 101 112 102 114 104 115 105 116 106 119 107 120 108 121 109 123 111 124 111 123 110 125 112 126 113 125 112 127 113 128 114
COP
2.49 2.84 2.68 3.06 2.76 3.15 2.80 3.19
2.95 3.37 3.04 3.47 3.09 3.52
3.20 3.65 3.30 3.76 3.35 3.82 3.43 3.91 3.53 4.02 3.58 4.08 3.64 4.15 3.74 4.26 3.79 4.32 3.82 4.36 3.92 4.47 3.97 4.53 3.90 4.45 4.00 4.56 4.05 4.62 3.99 4.54 4.08 4.65 4.12 4.70
Operation not recommended
11
Heat Controller, Inc.
HP SERIES
Engineering Design Guide
Performance Data HPV042
1,350 CFM Nominal (Rated) Airflow
EWT °F
GPM
WPD PSI FT
Airflow CFM
Cooling - EAT 80/67°F
TC
SC
Sens/Tot Ratio
kW
HR
20
10.5
9.2
21.3
10.5
9.2
21.3
1050 1400
Operation not recommended
5.3
2.3
5.3
1050 47.4
30.6
0.65 1.87
53.7
5.3
2.3
5.3
1400 49.3
34.7
0.70 1.95
55.9
30
7.9 7.9
4.3
10.0
4.3
10.0
1050 48.4
31.1
0.64 1.76
1400 50.4
35.2
0.70 1.83
54.4 56.6
10.5
7.9
18.2
1050 48.9
31.3
0.64 1.71
54.7
10.5
7.9
18.2
1400 50.9
35.5
0.70 1.78
57.0
5.3
2.0
4.6
1050 45.9
29.9
0.65 2.05
52.8
5.3
2.0
4.6
1400 47.8
33.9
0.71 2.13
55.0
40
7.9 7.9
3.9 3.9
8.9 8.9
1050 47.0
30.4
0.65 1.92
1400 48.9
34.4
0.70 2.00
53.4 55.6
10.5
7.1
16.4
1050 47.5
30.7
0.65 1.86
53.8
10.5
7.1
16.4
1400 49.4
34.7
0.70 1.94
56.0
5.3
1.8
4.1
1050 44.4
29.2
0.66 2.26
52.0
5.3
1.8
4.1
1400 46.2
33.1
0.72 2.35
54.2
50
7.9 7.9
3.5 3.5
8.1 8.1
1050 45.4
29.7
0.65 2.11
1400 47.3
33.6
0.71 2.20
52.6 54.8
10.5
6.5
15.0
1050 46.0
30.0
0.65 2.04
52.9
10.5
6.5
15.0
1400 47.9
33.9
0.71 2.12
55.1
5.3
1.6
3.7
1050 43.1
28.8
0.67 2.51
51.7
5.3
1.6
3.7
1400 44.9
32.6
0.73 2.61
53.8
60
7.9 7.9
3.3 3.3
7.5 7.5
1050 43.9
29.0
0.66 2.34
1400 45.7
32.8
0.72 2.43
51.8 53.9
10.5
6.1
14.0
1050 44.4
29.2
0.66 2.25
52.1
10.5
6.1
14.0
1400 46.2
33.1
0.72 2.35
54.2
5.3
1.5
3.4
1050 41.3
28.1
0.68 2.80
50.9
5.3
1.5
3.4
1400 43.0
31.8
0.74 2.91
52.9
70
7.9 7.9
3.1 3.1
7.1 7.1
1050 42.2
28.3
0.67 2.60
1400 43.9
32.0
0.73 2.71
51.0 53.1
10.5
5.7
13.2
1050 42.8
28.5
0.67 2.51
51.3
10.5
5.7
13.2
1400 44.5
32.3
0.73 2.61
53.4
5.3
1.4
3.2
1050 39.5
27.4
0.70 3.13
50.1
5.3
1.4
3.2
1400 41.1
31.0
0.76 3.26
52.2
80
7.9 7.9
2.9
6.7
2.9
6.7
1050 40.4
27.6
0.68 2.91
1400 42.1
31.3
0.74 3.03
50.3 52.4
10.5
5.4
12.6
1050 41.0
27.9
0.68 2.80
50.6
10.5
5.4
12.6
1400 42.7
31.5
0.74 2.92
52.6
5.3
1.3
3.1
1050 38.4
27.1
0.71 3.32
49.8
5.3
1.3
3.1
1400 40.0
30.7
0.77 3.46
51.8
85
7.9
2.8
6.5
7.9
2.8
6.5
1050 39.4
27.3
0.69 3.08
1400 41.1
30.9
0.75 3.21
50.0 52.0
10.5
5.3
12.3
1050 40.1
27.5
0.69 2.97
50.2
10.5
5.3
12.3
1400 41.7
31.2
0.75 3.09
52.3
5.3
1.3
3.0
1050 37.4
26.8
0.72 3.51
49.4
5.3
1.3
3.0
1400 39.0
30.3
0.78 3.65
51.5
90
7.9
2.8
6.4
7.9
2.8
6.4
1050 38.5
27.0
0.70 3.26
1400 40.1
30.6
0.76 3.39
49.6 51.6
10.5
5.2
12.0
1050 39.1
27.2
0.70 3.14
49.8
10.5
5.2
12.0
1400 40.7
30.8
0.76 3.27
51.9
5.3
1.2
2.8
1050 35.2
26.2
0.74 3.94
48.7
5.3
1.2
2.8
1400 36.7
29.6
0.81 4.10
50.7
100
7.9 7.9
2.7 2.7
6.1 6.1
1050 36.4
26.4
0.73 3.66
1400 37.9
29.9
0.79 3.81
48.9 50.9
10.5
5.0
11.6
1050 37.1
26.6
0.72 3.52
49.1
10.5
5.0
11.6
1400 38.6
30.1
0.78 3.67
51.1
5.3
1.2
2.7
1050 32.8
25.5
0.78 4.41
47.9
5.3
1.2
2.7
1400 34.2
28.9
0.85 4.60
49.9
110
7.9 7.9
2.6 2.6
5.9 5.9
1050 34.1
25.7
0.76 4.11
1400 35.5
29.1
0.82 4.28
48.1 50.1
10.5
4.8
11.2
1050 34.8
25.9
0.75 3.96
48.4
10.5
4.8
11.2
1400 36.2
29.4
0.81 4.12
50.4
5.3
1.1
2.6
1050 30.2
24.8
0.82 4.95
47.1
5.3
1.1
2.6
1400 31.4
28.0
0.89 5.15
49.1
120
7.9 7.9
2.5 2.5
5.7 5.7
1050 31.5
25.0
0.79 4.61
1400 32.8
28.3
0.86 4.80
47.3 49.3
10.5
4.7
10.8
1050 32.3
25.3
0.78 4.45
47.6
10.5
4.7
10.8
1400 33.7
28.6
0.85 4.63
49.5
Interpolation is permissible; extrapolation is not. All entering air conditions are 80°F DB and 67°F WB in cooling, and 70°F DB in heating. AHRI/ISO certified conditions are 80.6°F DB and 66.2°F WB in cooling and 68°F DB in heating. Table does not reflect fan or pump power corrections for AHRI/ISO conditions. All performance is based upon the lower voltage of dual voltage rated units. Performance stated is at the rated power supply; performance may vary as the power supply varies from the rated. Operation below 40°F EWT is based upon a 15% methanol antifreeze solution. See performance correction tables for operating conditions other than those listed above.
See Performance Data Selection Notes for operation in the shaded areas.
Performance capacities shown in thousands of Btuh
Heating - EAT 70°F
EER
25.4 25.4 27.5 27.5 28.6 28.6 22.4 22.4 24.5 24.5 25.5 25.5
19.6 19.6 21.5 21.5 22.5 22.5 17.2 17.2 18.8 18.8 19.7 19.7 14.8 14.8 16.2 16.2 17.1 17.1 12.6 12.6 13.9 13.9 14.6 14.6 11.6 11.6 12.8 12.9 13.5 13.6 10.7 10.7 11.8 11.8 12.5 12.5 8.9 8.9 9.9 9.9 10.5 10.5 7.4 7.4 8.3 8.3 8.8 8.8 6.1 6.1 6.8 6.8 7.3 7.3
Airflow CFM
1050 1400
1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400
1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400 1050 1400
HC
28.8 29.5
31.6 32.4 32.9 33.7 33.6 34.5 36.1 37.0 37.8 38.7 38.7 39.6
40.8 41.8 42.8 43.8 43.9 44.9 45.6 46.7 47.8 49.0 49.0 50.2 50.3 51.5 52.8 54.1 54.1 55.4 54.9 56.3 57.6 59.0 59.0 60.4 57.2 58.6 59.9 61.3 61.3 62.7 59.4 60.8 62.1 63.6 63.5 65.1
kW
3.37 3.03
3.45 3.10 3.49 3.14 3.52 3.16 3.59 3.23 3.64 3.27 3.67 3.30
3.74 3.36 3.80 3.41 3.83 3.44 3.89 3.49 3.96 3.56 4.00 3.59 4.04 3.63 4.11 3.70 4.16 3.73 4.18 3.76 4.27 3.83 4.31 3.87 4.25 3.82 4.34 3.89 4.38 3.93 4.32 3.88 4.40 3.96 4.45 3.99
HE
18.1 19.3
20.5 21.9 21.6 23.1 22.3 23.8 24.4 26.1 25.8 27.6 26.6 28.4
28.5 30.4 30.2 32.2 31.1 33.2 32.6 34.8 34.5 36.9 35.6 38.0 36.7 39.2 38.8 41.5 40.0 42.7 40.7 43.4 43.0 45.9 44.2 47.2 42.6 45.5 44.9 48.0 46.2 49.3 44.6 47.6 46.9 50.1 48.1 51.4
LAT
95 90
98 91 99 92 100 93 102 94 103 96 104 96
106 98 108 99 109 100 110 101 112 102 113 103 114 104 117 106 118 107 118 107 121 109 122 110 120 109 123 111 124 111 122 110 125 112 126 113
Operation not recommended
COP
2.51 2.86
2.68 3.06 2.76 3.15 2.80 3.20 2.95 3.36 3.04 3.46 3.09 3.52
3.20 3.65 3.30 3.76 3.35 3.82 3.44 3.92 3.54 4.04 3.60 4.10 3.65 4.16 3.76 4.29 3.82 4.35 3.85 4.39 3.96 4.51 4.01 4.58 3.94 4.49 4.05 4.61 4.10 4.68 4.03 4.59 4.13 4.71 4.19 4.77
12
Engineering Design Guide
HP SERIES
Heat Controller, Inc.
Performance Data HPV048
1,600 CFM Nominal (Rated) Airflow
EWT °F
GPM
WPD PSI FT
Airflow CFM
Cooling - EAT 80/67°F
TC
SC
Sens/Tot Ratio
kW
HR
20
12.0
6.8
15.6
12.0
6.8
15.6
1200 1600
Operation not recommended
6.0
1.8
4.1
1200 56.4
34.4
0.61 2.25
64.0
6.0
1.8
4.1
1600 58.8
39.0
0.66 2.34
66.7
30
9.0
3.4
7.8
9.0
3.4
7.8
1200 57.5
34.6
0.60 2.11
64.6
1600 59.8
39.1
0.65 2.20
67.2
12.0
6.2
14.3
1200 57.9
34.5
0.60 2.05
64.8
12.0
6.2
14.3
1600 60.3
39.1
0.65 2.14
67.5
6.0
1.6
3.7
1200 54.8
34.0
0.62 2.47
63.2
6.0
1.6
3.7
1600 57.1
38.5
0.67 2.57
65.8
40
9.0
3.1
7.2
9.0
3.1
7.2
1200 56.0
34.3
0.61 2.31
63.8
1600 58.3
38.9
0.67 2.40
66.4
12.0
5.8
13.4
1200 56.6
34.5
0.61 2.23
64.1
12.0
5.8
13.4
1600 58.9
39.0
0.66 2.32
66.8
6.0
1.5
3.4
1200 52.9
33.3
0.63 2.72
62.1
6.0
1.5
3.4
1600 55.1
37.7
0.68 2.83
64.7
50
9.0
3.0
6.8
9.0
3.0
6.8
1200 54.3
33.8
0.62 2.53
62.9
1600 56.5
38.3
0.68 2.64
65.5
12.0
5.5
12.7
1200 55.0
34.0
0.62 2.45
63.2
12.0
5.5
12.7
1600 57.2
38.5
0.67 2.55
65.8
6.0
1.4
3.2
1200 50.7
32.5
0.64 3.02
61.0
6.0
1.4
3.2
1600 52.8
36.8
0.70 3.15
63.5
60
9.0
2.8
6.5
9.0
2.8
6.5
1200 52.3
33.1
0.63 2.81
61.8
1600 54.5
37.5
0.69 2.92
64.4
12.0
5.3
12.2
1200 53.0
33.4
0.63 2.70
62.2
12.0
5.3
12.2
1600 55.2
37.8
0.68 2.81
64.8
6.0
1.3
3.0
1200 48.3
31.5
0.65 3.38
59.9
6.0
1.3
3.0
1600 50.3
35.7
0.71 3.52
62.3
70
9.0
2.7
6.3
9.0
2.7
6.3
1200 50.0
32.2
0.64 3.13
60.7
1600 52.1
36.4
0.70 3.25
63.2
12.0
5.1
11.8
1200 50.9
32.5
0.64 3.01
61.1
12.0
5.1
11.8
1600 53.0
36.8
0.70 3.13
63.6
6.0
1.3
2.9
1200 45.7
30.5
0.67 3.79
58.6
6.0
1.3
2.9
1600 47.6
34.5
0.72 3.94
61.0
80
9.0
2.6
6.1
9.0
2.6
6.1
1200 47.5
31.2
0.66 3.50
59.5
1600 49.5
35.3
0.71 3.64
61.9
12.0
4.9
11.4
1200 48.4
31.6
0.65 3.37
59.9
12.0
4.9
11.4
1600 50.4
35.7
0.71 3.50
62.4
6.0
1.2
2.8
1200 44.3
29.9
0.68 4.02
58.0
6.0
1.2
2.8
1600 46.1
33.8
0.73 4.19
60.4
85
9.0
2.6
6.0
9.0
2.6
6.0
1200 46.2
30.6
0.66 3.72
58.8
1600 48.1
34.7
0.72 3.87
61.3
12.0
4.9
11.3
1200 47.1
31.0
0.66 3.57
59.3
12.0
4.9
11.3
1600 49.0
35.1
0.72 3.72
61.7
6.0
1.2
2.8
1200 42.9
29.3
0.68 4.26
57.4
6.0
1.2
2.8
1600 44.6
33.2
0.74 4.43
59.8
90
9.0
2.6
5.9
9.0
2.6
5.9
1200 44.8
30.1
0.67 3.93
58.2
1600 46.6
34.1
0.73 4.10
60.6
12.0
4.8
11.1
1200 45.7
30.5
0.67 3.78
58.6
12.0
4.8
11.1
1600 47.6
34.5
0.72 3.94
61.1
6.0
1.2
2.7
1200 39.8
28.2
0.71 4.79
56.2
6.0
1.2
2.7
1600 41.4
31.9
0.77 4.99
58.5
100
9.0 9.0
2.5 2.5
5.8 5.8
1200 41.8
28.9
0.69 4.43
1600 43.5
32.7
0.75 4.62
57.0 59.3
12.0
4.7
10.9
1200 42.8
29.3
0.69 4.26
57.4
12.0
4.7
10.9
1600 44.6
33.2
0.74 4.44
59.7
6.0
1.1
2.6
1200 36.5
26.9
0.74 5.40
55.0
6.0
1.1
2.6
1600 38.0
30.4
0.80 5.62
57.3
110
9.0 9.0
2.4 2.4
5.6 5.6
1200 38.6
27.7
0.72 5.00
1600 40.2
31.4
0.78 5.21
55.8 58.0
12.0
4.6
10.6
1200 39.7
28.1
0.71 4.81
56.1
12.0
4.6
10.6
1600 41.3
31.8
0.77 5.01
58.5
6.0
1.1
2.5
1200 33.0
25.5
0.77 6.09
53.9
6.0
1.1
2.5
1600 34.4
28.9
0.84 6.34
56.1
120
9.0 9.0
2.4 2.4
5.5 5.5
1200 35.2
26.4
0.75 5.65
1600 36.7
29.9
0.81 5.88
54.6 56.8
12.0
4.5
10.4
1200 36.3
26.8
0.74 5.44
55.0
12.0
4.5
10.4
1600 37.8
30.3
0.80 5.66
57.2
Interpolation is permissible; extrapolation is not. All entering air conditions are 80°F DB and 67°F WB in cooling, and 70°F DB in heating. AHRI/ISO certified conditions are 80.6°F DB and 66.2°F WB in cooling and 68°F DB in heating. Table does not reflect fan or pump power corrections for AHRI/ISO conditions. All performance is based upon the lower voltage of dual voltage rated units. Performance stated is at the rated power supply; performance may vary as the power supply varies from the rated. Operation below 40°F EWT is based upon a 15% methanol antifreeze solution. See performance correction tables for operating conditions other than those listed above.
See Performance Data Selection Notes for operation in the shaded areas.
Performance capacities shown in thousands of Btuh
Heating - EAT 70°F
EER
25.1 25.1 27.2 27.2 28.2 28.2 22.2 22.2 24.3 24.3 25.4 25.4
19.4 19.4 21.4 21.4 22.5 22.5 16.8 16.8 18.6 18.6 19.6 19.6 14.3 14.3 16.0 16.0 16.9 16.9 12.1 12.1 13.6 13.6 14.4 14.4 11.1 11.1 12.5 12.5 13.2 13.2 10.1 10.1 11.4 11.4 12.1 12.1 8.3 8.3 9.4 9.4 10.0 10.0 6.8 6.8 7.7 7.7 8.2 8.2
5.4 5.4 6.2 6.2 6.7 6.7
Airflow CFM
1200 1600
1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600
1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600 1200 1600
1200 1600 1200 1600 1200 1600
HC
30.9 31.6
33.9 34.7 34.4 35.3 35.1 36.0 37.9 38.8 39.5 40.5 40.7 41.7
43.6 44.7 44.9 46.0 46.0 47.1 48.2 49.3 50.5 51.8 51.8 53.1 53.5 54.8 56.2 57.5 57.6 59.0 58.8 60.2 61.7 63.2 63.3 64.8 61.3 62.8 64.3 65.9 65.9 67.5 63.9 65.5 66.9 68.6 68.5 70.2
kW
3.54 3.18
3.60 3.24 3.63 3.26 3.65 3.27 3.70 3.33 3.74 3.36 3.76 3.37
3.81 3.42 3.85 3.46 3.87 3.48 3.91 3.51 3.96 3.56 3.99 3.58 4.02 3.61 4.08 3.67 4.12 3.70 4.14 3.72 4.21 3.78 4.25 3.82 4.20 3.78 4.28 3.84 4.32 3.88 4.27 3.83 4.35 3.91 4.39 3.95
HE
19.6 20.9
22.3 23.8 22.7 24.2 23.3 24.9 25.8 27.5 27.2 29.1 28.3 30.2
31.0 33.0 32.1 34.3 33.1 35.3 35.0 37.4 37.1 39.6 38.3 40.9 39.8 42.4 42.2 45.0 43.4 46.4 44.5 47.5 47.1 50.2 48.4 51.7 46.7 49.9 49.4 52.7 50.7 54.1 49.0 52.3 51.7 55.1 53.0 56.6
LAT
94 88
96 90 97 90 97 91 99 92 100 93 101 94
104 96 105 97 106 97 107 99 109 100 110 101 111 102 113 103 114 104 115 105 118 107 119 107 117 106 120 108 121 109 119 108 122 110 123 111
COP
2.56 2.92
2.76 3.14 2.78 3.17 2.82 3.22 3.00 3.42 3.10 3.53 3.18 3.62
3.36 3.83 3.42 3.90 3.49 3.98 3.61 4.11 3.74 4.26 3.81 4.34 3.90 4.44 4.03 4.60 4.10 4.68 4.16 4.74 4.29 4.90 4.36 4.97 4.28 4.88 4.40 5.02 4.47 5.09 4.39 5.01 4.51 5.14 4.57 5.21
Operation not recommended
13
Heat Controller, Inc.
HP SERIES
Engineering Design Guide
Performance Data HPV060
2,000 CFM Nominal (Rated) Airflow
EWT °F
GPM
WPD PSI FT
Airflow CFM
Cooling - EAT 80/67°F
TC
SC
Sens/Tot Ratio
kW
HR
20 30 40 50 60 70 80 85 90 100 110 120
15.0
14.0 32.2
15.0
14.0 32.2
7.5
3.4
7.9
7.5
3.4
7.9
11.3
6.8
15.8
11.3
6.8
15.8
15.0
12.6
29.2
15.0
12.6
29.2
7.5
3.1
7.0
7.5
3.1
7.0
11.3
6.3
14.6
11.3
6.3
14.6
15.0
11.8
27.2
15.0
11.8
27.2
7.5
2.8
6.4
7.5
2.8
6.4
11.3
5.9
13.7
11.3
5.9
13.7
15.0
11.1
25.7
15.0
11.1
25.7
7.5
2.6
6.0
7.5
2.6
6.0
11.3
5.6
13.0
11.3
5.6
13.0
15.0
10.7
24.6
15.0
10.7
24.6
7.5
2.4
5.6
7.5
2.4
5.6
11.3
5.4
12.5
11.3
5.4
12.5
15.0
10.3 23.7
15.0
10.3 23.7
7.5
2.3
5.4
7.5
2.3
5.4
11.3
5.2
12.0
11.3
5.2
12.0
15.0
9.9
22.9
15.0
9.9
22.9
7.5
2.3
5.2
7.5
2.3
5.2
11.3
5.1
11.8
11.3
5.1
11.8
15.0
9.8
22.6
15.0
9.8
22.6
7.5
2.2
5.1
7.5
2.2
5.1
11.3
5.0
11.6
11.3
5.0
11.6
15.0
9.6
22.2
15.0
9.6
22.2
7.5
2.1
4.9
7.5
2.1
4.9
11.3
4.9
11.3
11.3
4.9
11.3
15.0
9.4
21.7
15.0
9.4
21.7
7.5
2.0
4.7
7.5
2.0
4.7
11.3
4.8
11.0
11.3
4.8
11.0
15.0
9.2
21.2
15.0
9.2
21.2
7.5
2.0
4.6
7.5
2.0
4.6
11.3
4.7
10.7
11.3
4.7
10.7
15.0
9.0
20.7
15.0
9.0
20.7
1460 1950 1460 1950 1460 1950 1460 1950
1460 1950 1460 1950 1460 1950
1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950
Operation not recommended
68.2
41.6
0.61
3.00
78.3
71.0
47.0
0.66
3.12
81.6
69.0
41.5
0.60
2.87
78.7
71.8
47.0
0.65
2.99
82.0
69.3
41.3
0.60
2.82
78.8
72.1
46.8
0.65
2.94
82.1
66.6
41.1
0.62
3.21
77.4
69.3
46.5
0.67
3.34
80.6
67.8
41.5
0.61
3.05
78.1
70.6
47.0
0.67
3.18
81.3
68.3
41.6
0.61
2.98
78.4
71.1
47.0
0.66
3.10
81.6
64.7
40.3
0.62
3.47
76.4
67.3
45.6
0.68
3.61
79.6
66.0
40.9
0.62
3.28
77.1
68.7
46.3
0.67
3.41
80.3
66.7
41.2
0.62
3.19
77.5
69.4
46.6
0.67
3.32
80.7
62.4
39.3
0.63
3.78
75.3
65.0
44.5
0.69
3.93
78.4
63.7
39.9
0.63
3.56
75.8
66.3
45.1
0.68
3.70
78.9
64.2
40.0
0.62
3.45
75.9
66.8
45.3
0.68
3.59
79.0
59.6
38.0
0.64
4.15
73.7
62.0
43.0
0.69
4.32
76.7
61.1
38.6
0.63
3.89
74.3
63.6
43.7
0.69
4.05
77.4
61.6
38.8
0.63
3.77
74.4
64.2
43.9
0.68
3.92
77.5
56.4
36.7
0.65
4.59
72.1
58.8
41.5
0.71
4.78
75.1
58.1
37.3
0.64
4.29
72.7
60.4
42.2
0.70
4.47
75.7
58.7
37.5
0.64
4.15
72.8
61.1
42.4
0.69
4.32
75.8
54.8
36.1
0.66
4.84
71.3
57.0
40.8
0.72
5.04
74.2
56.4
36.6
0.65
4.52
71.9
58.7
41.4
0.70
4.71
74.8
57.1
36.8
0.64
4.37
72.0
59.5
41.6
0.70
4.55
75.0
53.1
35.4
0.67
5.09
70.5
55.3
40.1
0.73
5.30
73.4
54.8
35.9
0.66
4.76
71.0
57.1
40.7
0.71
4.95
74.0
55.5
36.1
0.65
4.60
71.2
57.8
40.9
0.71
4.78
74.1
49.6
34.3
0.69
5.67
69.0
51.7
38.9
0.75
5.90
71.9
51.4
34.7
0.68
5.29
69.5
53.5
39.3
0.73
5.51
72.3
52.1
34.8
0.67
5.11
69.6
54.2
39.4
0.73
5.32
72.4
46.6
33.8
0.73
6.33
68.2
48.5
38.2
0.79
6.59
71.0
47.8
33.6
0.70
5.91
68.0
49.8
38.1
0.76
6.15
70.8
48.6
33.7
0.69
5.71
68.2
50.6
38.2
0.75
5.94
71.0
43.0
33.1
0.77
7.07
67.2
44.7
37.5
0.84
7.36
70.0
44.2
32.8
0.74
6.61
66.8
46.0
37.1
0.81
6.88
69.6
44.9
32.7
0.73
6.38
66.8
46.8
37.0
0.79
6.64
69.5
Interpolation is permissible; extrapolation is not. All entering air conditions are 80°F DB and 67°F WB in cooling, and 70°F DB in heating. AHRI/ISO certified conditions are 80.6°F DB and 66.2°F WB in cooling and 68°F DB in heating. Table does not reflect fan or pump power corrections for AHRI/ISO conditions. All performance is based upon the lower voltage of dual voltage rated units. Performance stated is at the rated power supply; performance may vary as the power supply varies from the rated. Operation below 40°F EWT is based upon a 15% methanol antifreeze solution. See performance correction tables for operating conditions other than those listed above.
See Performance Data Selection Notes for operation in the shaded areas.
EER
22.8 22.8 24.0 24.0 24.6 24.6
20.8 20.8 22.2 22.2 22.9 22.9
18.7 18.7 20.1 20.1 20.9 20.9 16.5 16.5 17.9 17.9 18.6 18.6 14.3 14.3 15.7 15.7 16.3 16.3 12.3 12.3 13.5 13.5 14.1 14.1 11.4 11.4 12.5 12.5 13.1 13.1 10.4 10.4 11.5 11.5 12.1 12.1 8.8 8.8 9.7 9.7 10.2 10.2 7.4 7.4 8.1 8.1 8.5 8.5 6.1 6.1 6.7 6.7 7.0 7.0
Performance capacities shown in thousands of Btuh
Heating - EAT 70°F
Airflow CFM
1460 1950 1460 1950 1460 1950 1460 1950
1460 1950 1460 1950 1460 1950
1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950 1460 1950
HC
41.6 42.6 45.5 46.6 47.4 48.6 48.5 49.7
52.2 53.5 54.8 56.1 56.2 57.5
59.5 60.9 62.6 64.1 64.3 65.9 66.9 68.5 70.4 72.1 72.4 74.1 74.2 75.9 78.0 79.9 80.1 82.0 81.1 83.0 84.9 87.0 86.9 89.0 84.1 86.2 87.8 89.9 89.6 91.8 87.2 89.3 90.7 92.9 92.3 94.5
kW
4.98 4.48 5.08 4.56 5.13 4.61 5.16 4.64
5.27 4.73 5.34 4.80 5.38 4.83
5.48 4.92 5.57 5.01 5.63 5.05 5.70 5.12 5.82 5.22 5.88 5.28 5.93 5.33 6.05 5.44 6.12 5.50 6.15 5.52 6.27 5.63 6.33 5.69 6.25 5.6 6.4 5.7 6.4 5.8 6.35 5.70 6.45 5.80 6.50 5.84
HE
25.8 27.5 29.2 31.1 30.9 33.0 31.8 34.0
35.1 37.5 37.3 39.8 38.5 41.1
41.4 44.2 44.1 47.1 45.6 48.7 47.8 51.0 50.9 54.4 52.6 56.2 54.1 57.8 57.5 61.4 59.2 63.2 60.1 64.2 63.4 67.7 65.1 69.5 62.8 67.0 65.9 70.4 67.5 72.0 65.4 69.9 68.4 73.1 69.8 74.5
LAT
96 90 99 92 100 93 101 94
103 95 105 97 106 97
108 99 110 100 111 101 112 103 115 104 116 105 117 106 119 108 121 109 121 109 124 111 125 112 123 111 126 113 127 114 125 112 128 114 129 115
Operation not recommended
COP
2.45 2.79 2.62 2.99 2.71 3.09 2.75 3.14
2.91 3.31 3.01 3.43 3.06 3.49
3.18 3.63 3.29 3.75 3.35 3.82 3.44 3.92 3.55 4.05 3.61 4.12 3.66 4.18 3.78 4.31 3.84 4.37 3.86 4.41 3.97 4.52 4.02 4.58 3.95 4.50 4.04 4.61 4.09 4.66 4.03 4.59 4.12 4.70 4.16 4.74
14
Engineering Design Guide
HP SERIES
Heat Controller, Inc.
Entering Air Temperature Correction Tables
Cooling Corrections
Ent Air Total Clg WBº F Cap
50
0.7800
55
0.8327
60
0.8954
65
0.9681
66.2
0.9871
67
1.0000
70
1.0508
75
1.1435
65 0.9778 0.8966 0.7505
70 * 1.0556 0.9184 0.6778 0.6103 0.5507
Sens Clg Cap Multipliers - Entering DBº F
75 * * 1.1056 0.8992 0.8420 0.7782 0.6408
80 * * * 1.1213 1.0698 1.0000 0.8856 0.6085
80.6 * * *
1.1480 1.0969 1.0262 0.9135 0.6403
85 * * * 1.3439 1.2938 1.2161 1.1082 0.8566
90 * * * * * 1.4266 1.3087 1.0663
95 * * * * * * 1.4869 1.2376
Power Heat of Rej
0.9972 0.9980 0.9988 0.9996 0.9999 1.0000 1.0005 1.0014
0.8243 0.8667 0.9169 0.9747 0.9897 1.0000 1.0403 1.1135
* Sensible capacity equals total capacity. AHRI/ISO/ASHRAE 13256-1 uses entering air conditions of Cooling - 80.6°F DB/ 66.2°F WB, and Heating - 68°F DB/ 59°F WB entering air temperature.
Ent Air DBº F
45 50 55 60 65 68 70 75 80
Heating Corrections
Htg Cap
Power
1.0507 1.0327 1.0195 1.0102 1.0033 1.0000 0.9979 0.9928 0.9866
0.7802 0.8227 0.8683 0.9168 0.9680 1.0000 1.0218 1.0781 1.1367
Heat of Ext
1.1314 1.0953 1.0646 1.0380 1.0139 1.0000 0.9908 0.9673 0.9419
Air Flow Correction Table
Airflow % of Rated
75 81.25 87.5 93.75 100 106.25 112.5 118.75 125
Total Capacity
0.9764 0.9829 0.9889 0.9947 1.0000 1.0050 1.0096 1.0138 1.0177
Sensible Capacity
1.1134 1.0789 1.0484 1.0222 1.0000 0.9820 0.9681 0.9583 0.9527
Cooling Sens/Tot
Ratio
0.9368 0.9551 0.9717 0.9867 1.0000 1.0116 1.0216 1.0299 1.0365
Power
0.9605 0.9730 0.9837 0.9927 1.0000 1.0055 1.0093 1.0113 1.0116
Heat of Rejection
0.8837 0.9130 0.9393 0.9668 1.0000 1.0434 1.1016 1.1790 1.2798
Heating Capacity
0.9200 0.9384 0.9548 0.9739 1.0000 1.0377 1.0915 1.1658 1.2652
Heating
Power
0.9606 0.9691 0.9784 0.9887 1.0000 1.0122 1.0253 1.0394 1.0544
Heat of Extraction
0.9605 0.9722 0.9826 0.9919 1.0000 1.0069 1.0126 1.0171 1.0204
15
Heat Controller, Inc.
Antifreeze Correction Table
HP SERIES
Engineering Design Guide
Antifreeze Type Water
Propylene Glycol Methanol Ethanol
Ethylene Glycol
Antifreeze %
Total Cap
0
1.000
5
0.995
15
0.986
25
0.978
5
0.997
15
0.990
25
0.982
5
0.998
15
0.994
25
0.986
5
0.998
15
0.994
25
0.988
Cooling EWT 90°F Sens Cap
1.000 0.995 0.986 0.978 0.997 0.990 0.982 0.998 0.994 0.986 0.998 0.994 0.988
Power
1.000 1.003 1.009 1.014 1.002 1.007 1.012 1.002 1.005 1.009 1.002 1.004 1.008
Heating
EWT 30°F
Htg Cap
Power
1.000
1.000
0.989
0.997
0.968
0.990
0.947
0.983
0.989
0.997
0.968
0.990
0.949
0.984
0.981
0.994
0.944
0.983
0.917
0.974
0.993
0.998
0.980
0.994
0.966
0.990
WPD Corr. Fct. EWT 30°F
1.000 1.070 1.210 1.360 1.070 1.160 1.220 1.140 1.300 1.360 1.040 1.120 1.200
16
Engineering Design Guide
HP SERIES
Heat Controller, Inc.
Blower Performance Data
Airflow in CFM with wet coil and clean air filter
Model
Fan Rated Min Speed Airflow CFM
0.00
0.05
Airflow (cfm) at External Static Pressure (in. wg) 0.10 0.15 0.20 0.25 0.30 0.35 0.40 0.45 0.50 0.60
HPV018
HI MED LOW
745
725
706 696 686
666 637 588 539 451
600
450
686
676
666
657
647 637 617
608 588 549 510
608
598
588
578
568 559 549
529 510 480 451
HPV024
HI MED LOW
950 922 884 827
800
600
960
950
941
931
912
893 874
855 836 817 789 732
779
770
760
751
741
732 722
713 694 684 665 618
HI
1102 1074 1045 1017 979 903
HPV030
MED LOW
1000
750
1188
1169
1140 1121 1093 1064 1036 1017 988 960 922 846
1064
1045
1017
998
979 960 931 912 884 855 827 751
HI
1474
1455
1436 1416 1387 1358 1329 1310 1280 1232 1174 1077
HPV036
MED LOW
1200
900
1174
1164
1106 1106 1096 1096 1086 1077 1067 1038 1009 912
980
980
970
970
960 960 951 951 941 922 902
HPV042
HI MED LOW
1350
1050
1558 1416 1083
1530 1397 1083
1501 1368 1074
1473 1349 1074
1444 1321 1064
1416 1302 1055
1378 1273
1340 1245
1302 1207
1264 1169
1226 1131
1131 1064
HPV048
HI MED LOW
1600
1200
1843 1682
1824 1663
1805 1644
1786 1625
1881 1767 1606
1853 1729 1587
1815 1682 1568
1767 1653 1530
1710 1625 1492
1653 1577 1435
1596 1520 1378
1416 1340 1264
HI
2195
2195
2185 2176 2156 2117 2078 2048 2019 1999 1970 1921
HPV060
MED LOW
2000
1500
2009 1813
2009 1813
1999 1803
1980 1793
1950 1774
1931 1764
1901 1744
1882 1725
1852 1823 1793 1695 1666 1637
1744 1568
Black areas denote ESP where operation is not recommended. Units factory shipped on medium speed. Other speeds require field selection. All airflow is rated and shown above at the lower voltage if unit is dual voltage rated, e.g. 208V for 208-230V units. Performance stated is at the rated power supply, performance may vary as the power supply varies from the rated.
0.70
732 665 798 931
1216 1842 1676
0.80
656
1216 1754 1588
0.90
1627
1.00
17
Heat Controller, Inc.
HP SERIES
Physical Data
HP Series
Compressor (1 Each) Factory Charge R410A (oz)
PSC Fan Motor & Blower
Fan Motor Type/Speeds Fan Motor (hp) Blower Wheel Size (Dia x w)
Water Connection Size
Hx Water Volume (gal.)
Vertical
Air Coil Dimensions (H x W) Filter Standard - 1" Throwaway Weight - Operating (lbs.) Weight - Packaged (lbs.)
018
Rotary 43
PSC/3 1/6 8x7
.45
20x17.25 20x20 168 173
024
43
PSC/3 1/4 9x7
.286
20x17.25 20x20 184 194
030
48
PSC/3 3/4 9x7
.323
20x17.25 20x20 192 197
036
042
Scroll
50
70
PSC/3 1/2 9x8
1" Swivel
.323
24x21.75 24x24 213 219
PSC/3 3/4 9x8
.890
24x21.76 24x24 228 234
Maximum Working Water Pressure
Pressure PSIG (kPa)
Unit Source Circuit
500 (3,447)
HWG Circuit
125 (862)
048
74
PSC/3 3/4
10x10
.738
28x25 28x28
283 290
060
82
PSC/3 1
11x10
.939
28x25 28x28
298 305
Engineering Design Guide
18
Engineering Design Guide
HP SERIES
HP - Vertical Upflow Dimensional Data
Vertical
uplflow Model
018-030
in cm
036 - 042
in cm
048 - 060
in cm
Overall Cabinet
A Width
B Depth
C Height
22.4
22.4
40.5
56.9
56.9
102.9
22.4
25.4
46.5
56.9
64.5
118.1
25.4
29.1
50.5
64.5
73.9
128.3
Heat Controller, Inc.
Vertical
Upflow Model
018
in cm
024 -
in
030
cm
036 -
in
060
cm
0 1
Loop In D
Loop In E
3.7 1.9 9.4 4.8
3.7 1.9 9.4 4.8
3.7 1.8 9.4 4.6
Water Connections - Standard Units
0 2
0 3
0 4
Loop Out F
Loop Out E
Cond. 3/4"
H
E
HWG In DD EE
9.7 1.9 7.0 1.9 11.7 1.6 24.6 4.8 17.8 4.8 29.7 4.1
9.7 1.9 7.0 1.9 12.4 1.6 24.6 4.8 17.8 4.8 31.5 4.1
12.7 1.8 8.0 1.8 15.2 1.6 32.3 4.6 20.3 4.6 38.6 4.1
0 5
HWG Out
FF
EE
14.9 1.6 37.8 4.1
15.7 1.6 39.9 4.1
18.4 1.6 46.7 4.1
Vertical Model
I 018 - 060
in cm
Electrical Knockouts
J
K
L
1/2"
1/2"
3/4"
Low
Low
Power
Voltage Voltage Supply
4.0
7.0
10.0
10.2
17.8
25.4
Notes:
1.While clear access to all removable panels is not required, installer should take care to comply with all building codes and allow adequate clearance for future field service.
2.Front & Side access is preferred for service access. However, all components may be serviced from the front access panel if side access is not available.
3.Discharge flange is field installed. 4.Condensate is 3/4" socket. 5. Source water and optional HWG connections are 1" swivel.
19
Heat Controller, Inc.
HP SERIES
Engineering Design Guide
HP - Vertical Upflow Dimensional Data
Vertical Model
Discharge Connection Duct Flange Installed (+/- 0.10 in, +/- 2.5mm)
O
P
M
N
Supply Supply
Q
Width Depth
Return Connection Using Return Air Opening
S
T
R
Return Return
U
Depth Height
018 - 030
in cm
7.2
4.2
14.0
14.0
5.4
18.3
10.7
35.6
35.6
13.7
2.2 5.6
18.4
20.3
46.7
51.6
1.1 2.8
036 - 042
in cm
7.2
6.0
14.0
14.0
5.2
18.3
15.2
35.6
35.6
13.2
2.1 5.3
22.9
24.3
58.2
61.7
1.1 2.8
048 - 060
in cm
8.2
5.7
16.0
18.0
5.2
20.8
14.5
40.6
45.7
13.2
2.1 5.3
26.2
28.3
66.5
71.9
1.1 2.8
Legend: CAP = Control Access Panel BSP = Blower Service Panel CSP = Compressor Access Panel ASP = Alternative Service Panel
Field Installed Discharge Flange
Standard Filter Bracket
Access Panels
P
N
B -N- t - P -
Front
Front
1 II
O
O
A
Q
R U
Air Coil Side Top View-Right Return
S
11111Air Coil Side11111111
M
Top View-Left Return
S
R
U
Air Coil
Air Coil
T
T
Air Coil
BSP
CSP
CAP
ASP
2' [61cm] Service
Isometric View
Opptional 2' [61cm] Service Access Left Rtn
(Right Rtn Opposite
Side)
C Front
C
CSP
CSP
Back Back
Front
Power Supply 3/4" [19.1 mm] HV
Knockout Low Voltage 1/2" [12.7 mm] LV
Knockout Low Voltage 1/2" [12.7 mm] LV
Knockout
CSP
L KJ
Right Return Right View - Air Coil Opening
Left Return Left View - Air Coil Opening
U
EE
5
4
3 2
FF
2 3
F DD
1
H
D
E A
20
Engineering Design Guide
HP SERIES
Heat Controller, Inc.
Electrical Data -
HP Volt Model Code
Rated Voltage
018
G 208-230/60/1
024
G 208-230/60/1
030
G 208-230/60/1
036
G 208-230/60/1
042
G 208-230/60/1
048
G 208-230/60/1
060
G 208-230/60/1
* Optional internal HWG ** Field installed external pump
Voltage Min/Max
197/254 197/254 197/254 197/254 197/254 197/254 197/254
Compressor RLA LRA Qty
*HWG Pump
Amp
Fan **Loop Motor Pump FLA Amp
Total Unit FLA
7.2 33.0 1 0.4 1.00 4.0 12.6 12.8 58.3 1 0.4 1.50 4.0 18.7 14.1 73.0 1 0.4 3.00 4.0 21.5 16.7 79.0 1 0.4 1.80 4.0 22.9 17.9 112.0 1 0.4 3.00 4.0 25.3 21.8 117.0 1 0.4 3.40 4.0 29.6 26.3 134.0 1 0.4 4.90 4.0 35.6
Min Circ Amp
14.4 21.9 25.0 27.1 29.8 35.1 42.2
Max Fuse/ HACR
20 30 35 40 45 50 60
HACR circuit break in U.S. only All fuses Class RK-5
Wire length based on one way measurement with 2% voltage drop Wire sizes based on 140°F (60°C) copper conductor
21
Heat Controller, Inc.
HP SERIES
H/V009-070 208-230/60/I DISTRIBUTOR PSC
I""' ""w-0420
911110
I 96B0005N03 IP
LEGEND
=== ~E: - - FAtTQIIY LOW VOLTAGI! l'IIRING ..u:!~!~:A!~Rl:~ING
fJ. mi
WIRE NUT fE IU) WIRE LUG
- - - - - F1eLOUNEY0t.T.t,GEWIRI..O
0:.:,-..: ~~;:L;~:t, PCB TR.t,m REL.U / CONUCTOR COIL
0-,..._-0 CIR<:UI TBREAKER
a CONCENUTE PAN
o-jl-oRELAYCOtlTACTS·N . 0 ,
o-ff-o R~LAY CONTACTS _ N.C
/\
:
_l_
ASTAT BR CB
OflRl'TDIOCNUJPUPl'I!PDER - 1 CCCO
T !ST PINS
~: Tffl!U 4
GROUNO
AOUASTAT BLOWERREU.Y CIRCUIT BREAKER
FPI & 2
HE I THRU4
JWI HP HpWS
L OC PBI P82
CCW'RW0RCONT.&CT0R
SENSOR C0N~OIS ATE OVERFLOW
~ C
~:~~RAB.OS
a WATEII Alm-FREEZE PROTECTOfl
HEATINOELEl'IENTS
CUPPUEL FIELD SELECTION JUMPER
H" II PRESSURE SWITCH HIGH PRESSURE WATER SWITCH
L oss OF C"AIIGE PRESSUIIE SWITU4 PU11P POWERTERl'IINAL BLOCU
RV
ROERSING VALYIECOIL
SWI
DIPSWITOt , 2 l'OSITION
TS I THRU 4 THERMAL SWITCH
TRANS
l ltANS, OftH(ft
NOTES: I. COHl'RESSOR AND BLOWER MOTOR THERMALLY PROTECTED INTERNALLY 2. AU. WIRING TO THE LIMIT HUST COMPLY WITH NEC ANO LOCAL CODES.
DESCRIPTION OF OPERATION
LER FAULT CODES
LED
I
ALARM RELAY
5. ON 2081250V UNITS, SWITCH ORG ANO RED WIRES FOR 208V OPERATIOH.
NORMAL MODE
ON
OPEN
t. . FPI THERMISTOR PROVIDES FREEZE PROTECTIOH FOR WATER. WHEN USING
NORMAL MODE W/ UPS WARNING
ON
CYCLE (CLOSED 5 SEC . OPEN 25 SEC.)
ANTI-FREEZE SOLUTIONS, CUT JW5 JUMPER.
CXM IS NON-FUNCTIONAL
OFF
OPEN
5.
CHECK INSTAU.ATION WIRING INFORMATION FOR SPECIFIC THERMOSTAT HOOKUP REFER TO THERHOSTAT INSTAU.ATIOH INSTRUCTIOHS FOR WIRING TO THE UNIT.
FAULT
t-'-'
RETRY
-==
=
-
-
-
-
-
-
-
-
i
~.<.:-:= 1..n.w.~,l=I
= ~ AC::M
+
-
T·STAT WIRING MUST BE ·cLAss 1· ANO VOLTAGE RATING EQUAL TO OR
LOCKOUT
FA:ST FLA:SH
OPEN CLOSED
GREATER THAN UNIT SUPPLY VDLTAGE.
OVER/UNDER VOLTAGE SHUTDOWN
SLOW FLASH
OPEN (CLOSED AFTER 15 MIN.)
iio. ;.~~~:t
BLK 7
IHWG
I
I
I
~::,:;~~!~;! ~~:w~: 6. 21.V ALARM SIGNAL SHDWN. FOR DRY ALARM CONTACT, CUT JWI JUMPER AND
7.
:!~~::A:~A~~~~
:~~::~T~;~FFS g SCREWS TO
CONTROL Box. (GROUND AVAILABLE FROM TOP TWO STANDOFFS AS SHOWN.)
8. HWG PUMP OHLY IN MODELS WITH HOT WATER GENERATION ANO INTERNAL
PUMP OPTION
TEST MODE-NO FAULT IN MEMORY
TEST MODE-HP FAULT IN MEMORY TEST MODE-LP FAULT IN MEMORY TEST MODE-FPI FAULT IN MEMORY TEST MODE FP2-f'AULT IN MEMORY
,C'.I__.o_.c,,,u,,,,o·.,.r.,, ,l_",f..\.n,._c,,
l'""L' A.;,:.,,n.1,.r,1,u. 'L"U"L"IC'"C". FLASHING CODE J FLASHING CODE t. FLASHING CODE 5
CYCLING CODE I CYCLING CODE 2 CYCLING CODE J CYCLING CODE 4 CYCLING CODE 5
I
9. ~~=t~~~~AL~:~~:G~NA~i=~~ONS, CONSULT AG SERIES ELECTRIC
TEST MODE-CO FAULT IN MEMORY FLASHING CODE 6
CYCLING CODE 6
L - - - - - - - ·- - - ...I
:
_:_::~---::_::i-
~!~ IO. :::o~~T:~ ~~;:~R~:I ~c;o~E:~:D~!~0-.~~~~iG~o:!:E~~- SPEED
TO "H" FOR HIGH OR "L" FOR LOW.
TEST MODE-OVER/UNDER SHUTDOWN IN MEMORY TEST MODE-UPS IN MEMORY
FLASHING CODE 7 FLASHING CODE 8
CYCLING CODE 7 CYCLING CODE 8
lOPTIONAL
LOOP
LOOP
I
SWAPPED FPI/FPZ LOCKOUI
FLASHING CODE 9
CYCLING CODE 9
I EXTERNAL OR PUMP
PUMP
I
----J- I INTERNAL PUMP
I
L2~e~~1~0/I- _ -------
YEL
r
AUXILIARY ELECTRIC HEAT POWER
208-250/60/I
WITH OPTIONAL-; 'AG' SERIES I
ELECTRIC HEAT:
TYPICAL 20KW 1 SCHEMATIC SHOWN
22
Engineering Design Guide
Wiring Diagram
TYPICAL T·STAT
,w
""
---7
. R
I
I SEE---+----
! ' NOTE t.
!Jw,/\ L _____
IFPI LOW TEMP
jJwz/\
, FP2 Low TEMP
I ,,.,.,,~Uf'S:tll$ABLEDIENAIILED
----1 1NSTOATGUES2,W211
DDCDLJTPlfT: DDCINORM
J..i7
I '
JWI
"'""
'r.'{ Sm
·~
)-:'.,ZLED
:: SEE NOTE 6
' L_______
CXM '
I MICROPROCESSOR
.J.J CONTROL LOG IC
HPWS
HPWS
ffil
: : ~ ~ WTR IN RED HP RED WTR OUT BLU
m u
CL
11 ··· -~ri=i1I I I
LOC
Ill
-
SEE
~11:~1 ,11 A~J- I
,11
FPI NOTE t.
V
~
1 FP2
:...:..:
w
RV
. r 1
·
-, -·--, -·, Ll -.·. ,-- ,·
: r·~·-·
m· WI Wt
I
~ WHT ~:~~·ra~T1~N~t,CTRICAL
!
·-·-·-·-·-·-·-·-·_J
RED,_,_,_,_,_,_,_,_ ,_J
CONTROL Box LAYOUT
cc
I
CAPACITOR
=~
GROUND PBI
P82
LUGS
TRANS
0 00 0
BR~
· 1iu~;
1- 1d
. (-·]
Engineering Design Guide
Wiring Diagram
H/V0l5-060 208-230/60/1 DISTRIBUTOR PSC + HWG
"',o-0420 1""''911110
I.".' LEGEND
o-11-o - - FAeTO!tYLOWYOI.TAG,W1111Ma~
- - F·CTO!tY Llti! YOLTAGfWIRIN
ReUY COtll'AtTS- 1<1.0. CB
I L - R! LAY CAP.lCl TOR c,11e1.11r BRl!U!R
- - - f la.DLOWYOI.T-",GEWIRIIOC
o-::lf-o R!UYCONT&CT$-H.C. CC
~,....~ CIIICUITBIIUl\l!II
COT
CO~ORCotiTJ.CTOII Co~OR DlstH.i.~t TeNSRATlm;
SENSOR CONDENSATE0YERFL0111
0
D
fill
!=I
~ ··n~
0 PTIONJUl'll'I:~ · '. FIELD CI.IPPEO
ERlfl!IIIJ4 El..l!eTRIC He.-r R- YS
FAH
f'SC F.u<l'IOTOII
~ ',~"
4 ~t~::c~~~::1~0::::
HP
HIGH P~ESSIJRE $WJT(.H
IH'WS
HICH PIISSURl!WAffllSwlTCH
~
~:S~:1~:.~:~7~;:e Swim
PBI.P82 f'ul1Pf>QW!RT!ll!11/4AL 8UXQ
RV
RE YE RS IN C VALVECOIL
SW I
DIP SWITCH, Zl'0$1TIOII
TSITIIRtJ4THElMALSWITCH
T!l.u<I
TRAN$1'011HU
NOTES:
I. C0l'll'IESSOR.I.NDBL0WEIIM0TOR THERt1AL.l.Y PROTECTED INTERNALLY. 2. ALL WIRING TO TIIEI.IIIT l'IUSTCONPLYWITHIEC A.ND LOCAL CODES. :,. ON 2oe12:,ov IJHITS, SWITCH ORG AND RED WIIES FOR 208V OPER.I.TION.
4. FPI THERMISTOR PROVIDES FREEZE PROTEC TION FOR WATER. WHEN USING ANTI-FREE ZE SOLUTIONS, CUT JW3 JUMPER.
5. Cll~tll. IMSU.LLATION WIRING INl'"ORPIATION l'"OR SPfCll'"IC lllfAl'IOSTAT IIOOKUP
REFER TO TMERl10S T.U INSTAlLU ION INSTRUCTIONS FORWIRINOTOTHEINIT. T-SlATWIRINGHUST&E "CLASS l' lNO \/Ol.TAGER.lTINO EOU.lLTO ORGRUTERTH.t.NUNIT SUPPl.YVOLU.GE
6. 24\/AURHSIGNlLSHOWN. FORORYAU.RHCONTACT, CUTJWIJIMl'ERAND
DRY CONTACT JflLL B~ ...VAIL.A~ B~
ALI AND ALZ.
7. fR.&NSfOR1'1ERSECONO.&RY GROUMO VI.& CXM80.t.ROST.t.N CIOFFS6 SCIIEWS TOCONTROL Box. (GflOll,,ID ...V...IL.&81.E FROl'I TOP TWO ST.&NOOFFS .&S S!IOWN.)
8. HWG NJMP ONLY IN HOOELS llflTII IIOT llf.-.TER GENER.lTION .&NO INTERNAL PUMP OPTION
9 . FOR AUXIU.&RY ST.&GING Of'TIONS, COtlSULT AG SHIU ELECTRIC IIE.&T INSTALLATION H.&NUAL.
10. FAN MOTORS FACTORY WIREOFORMEDIIJ1 Sl'EEO. FORHIGHOR LOWSl'EED REMOVE BLU WIRE FROM F.&N MOTOR S?ED TAP 'M" .&NO toN>IECT TO ' H" FOR HIGH OR "L" FOR LOW.
II. HWG PUHP ONLY IN HOOELS WITH HOT WUER GENER.&TION .&NOINTERN.&L Pl»1P OPTION.
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CXM CONTROLLER FAULT CODES
NORMAL MOOE NORMAL MOOE W/ UPS WARNING CXM IS NON-fUNC TI ONAL
:~~~::TRY OVER/UNDER VOLTAG E SHUTDOWN TEST MODE-NO FALLT IN MEMORY TES T MOOE-H P FAULT IN MEMORY TEST MOOE- LP FAULT IN MEMORY TEST MOOE-FPI FAULT IN MEMORY TEST MOOE FPZ·FAULT IN MEMORY TEST MOOE-CO FAULT IN MEMORY
TEST MOOE-0\/ER /UNOER SHUTDOWN IN MEMORY TEST MOOE- UPS IN MEMORY SWAPPED FPI/FPZ LOCKOUT
ON ON OFF
~ ;~
SLOW FLASH FLASHING CODE I FLASHING CODE 2 FLASHING CODE 5 FLASHING CODE 4 FLASHING CODE 5 FLASH ING CODE 6
FLASHING CODE 7
FLASH ING CODE 8 FLASHING CODE 9
OPEN CYCLE (CLOSED 5 SEC. OPEN 25 SEC.)
OPEN
C~~:D OPEN CLOSED AFTER 15 MINJ
CYCLING CODE I CYC LING CODE Z CYCLING CODE 5 CYCLING CODE l. CYCLING CODE 5 CYCLING CODE 6 CYC LING CODE 7
CYC LING CODE 8 r.v-- · 1~·" r.noE 9
SEE NOTE I I FOR HWG DIP SWITCH SETIJNGS SEE IOM
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ELECTRIC HEAT TYPICAL 20KW SCHEMATIC SHOWN
HP SERIES
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Heat Controller, Inc.
Design, material, performance data and components subject to change without notice.
HEAT CONTROLLER, INC.
1900 Wellworth Ave., Jackson, Ml 49203 · Ph. 517-787-2100 · Fax 517-787-9341
THE QUALITY LEADER IN CONDITIONING AIR www.heatcontroller.com
09/2011