Century HRC12A8CAMSCFR-CY WSHP CONSOLE 12K ULTRA UNIT/TS Guide
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ENGINEERING
DESIGN GUIDE
HRC Series
Commercial Console
Water-Source Heat Pumps
60Hz
Heat Controller • 1900 Wellworth Ave. • Jackson, MI 49203 • (517)787-2100 • www.heatcontroller.com
Design Guide HRC SERIES Heat Controller
2
Heat Controller HRC SERIES Design Guide
Table of Contents
*Page Number
Unit Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Selection Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
HRC Series Nomenclature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Performance Data – AHRI/ASHRAE/ISO 13256-1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Performance Data – Selection Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Performance Data – HRC09 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Performance Data – HRC12 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Performance Data – HRC15 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Performance Data – HRC18 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Performance Data Correction Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Blower Performance & Electrical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Physical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Console Cabinet Dimensions Size 09 -15 - Bottom Return - Left Hand Piping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Console Cabinet Dimensions Size 09 - 15 - Front Return - Left Hand Piping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
Console Cabinet Dimensions Size 09 - 15 - Bottom Return - Right Hand Piping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Console Cabinet Dimensions Size 09 - 15 - Front Return - Right Hand Piping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Console Bottom Return Chassis Dimensions Size 09 - 15 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Console Front Return Chassis Dimensions Size 09 - 15 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Piping Detail Size 09-15 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Console Cabinet Dimensions Size 18 - Bottom Return - Left Hand Piping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Console Cabinet Dimensions Size 18 - Front Return - Left Hand Piping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
Console Cabinet Dimensions Size 18 - Bottom Return - Right Hand Piping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Console Chassis Dimensions Size 18 - Front Return - Right Hand Piping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
Console Bottom Return Chassis Dimensions Size 18 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
Console Chassis Dimensions Size 18 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Piping Detail Size 18 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
HRC Series Wiring Diagram Matrix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
Typical Wiring Diagram – Manual & Auto Change Over HRC Units with CXM Controller . . . . . . . . . . . . . . . . . . . . . . . 32
Typical Wiring Diagram – Remote Mounted Thermostat HRC Units with CXM Controller . . . . . . . . . . . . . . . . . . . . . . 33
Typical Wiring Diagram – HRC Units with CXM & LON Controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
Typical Wiring Diagram – HRC Units with CXM & MPC Controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
Typical Wiring Diagram – Manual & Auto Change Over HRC Units with DXM Controller . . . . . . . . . . . . . . . . . . . . . . . 36
Typical Wiring Diagram – Remote Mounted Thermostat HRC Units with DXM Controller . . . . . . . . . . . . . . . . . . . . . . 37
Typical Wiring Diagram – HRC Units with DXM & LON Controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
Typical Wiring Diagram – HRC Units with DXM & MPC Controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
Engineering Specifications
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
3
Design Guide HRC SERIES Heat Controller
Unit Features
CONSOLE (HRC) SERIES
WITH HFC-410A REFRIGERANT
The Series (HRC) console unit provides a high efficiency
WSHP “ductless” solution for spaces where individual, quiet control of the heating and cooling system is important . HRC units are especially ideal where ceiling height and space are limited, or when preserving the integrity of an existing structure . The HRC Series
exceeds ASHRAE 90.1 efficiencies, yet maintains small
cabinet dimensions . Using HFC-410A refrigerant, the console not only protects the environment, it does so
while delivering unprecedented comfort, efficiency, and
reliability .
Available in sizes 3/4 ton (2 .64 kW) through 1-1/2 tons
(5 .3 kW) with numerous cabinet, water piping and control choices, the HRC Series offers a wide range of units for most any installation . The HRC has an extended range refrigerant circuit, capable of ground loop (geothermal) applications as well as water loop (boiler-tower) applications . Standard features are many . Microprocessor controls, galvanized steel cabinet, polyester powder coat paint and TXV refrigerant metering device are just some
of the features of the flexible HRC series.
Compressors are mounted on specially engineered sound-tested EPDM grommets for quiet operation .
Options such as coated air coil, DDC controls, internal pump and factory-installed water solenoid valves allow customized design solutions .
The HRC Series console water-source heat pumps are designed to meet the challenges of today’s HVAC demands with a low cost/high value “ductless” solution .
UNIT FEATURES
Sizes 09 (3/4 ton, 2 .64 kW) through 18 (1-1/2 ton, 5 .3 kW
Environmentally-friendly (HFC-410A) zero ozone depletion refrigerant
High Efficiency Rotary compressors
Exceeds ASHRAE 90 .1 efficiencies
Two-piece chassis/cabinet design
Galvanized steel cabinet with durable Polar Ice powder coat finish and black “matte” finish on subbase
Slope top/aluminum rigid bar supply air grille
UltraQuiet Option
TXV metering device
Extended range (20 to 120°F, -6 .7 to 48 .9°C) operation
Advanced digital auto change-over unit mounted controls with temperature display and high/low fan speed selection
Remote-mounted controls available
Microprocessor controls standard (optional DXM and/or
DDC controls)
LonWorks, BACnet, Modbus and Johnson N2 compatibility options for DDC controls
Right or left-hand piping arrangement
Front or bottom return air configuration
Unit Performance Sentinel ™ performance monitoring system
Eight Safeties Standard
Wide variety of options including coated air coil, flow regulator, motorized water valve, stainless steel drain pan, locking control door, disconnect switch, and internal pump . (Pump option requires extended cabinet) .
Accessory
Louvered, painted black “matte” finish subbase decorative grille for field-installation .
4
Heat Controller HRC SERIES Design Guide
Selection Procedure
Reference Calculations
Heating
LWT = EWT -
HE
GPM x 500
Cooling
LWT = EWT +
HR
GPM x 500
LAT = EAT +
HC
CFM x1.08
LAT (DB) = EAT (DB) -
SC
CFM x1.08
LC = TC - SC
S/T =
SC
TC
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
MPT = male 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
FPT = female 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 .)
Air Flow
Airflow (L/s) = CFM x 0.472
Water Flow
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
Entering Air Correction Tables
Cooling Corrections
Sens Clg Cap Multiplier - Entering DB ϒ F
Ent Air
WB ϒ F
60
65
66.2
67
70
75
Total Clg
Cap
0.852
0.974
1.000
1.004
1.034
1.069
70 75 80 80.6
85 90 95
Power
0.828 0.980
1.097 1.129
*
0.595 0.808
1.004 1.017 1.194
*
*
*
* 0.996
0.998
0.539 0.767
0.967 1.000 1.152
* * 1.000
0.501 0.740
0.939 0.955 1.124 1.233 1.276
1.002
0.636
0.810 0.844 1.016 1.136 1.220
1.005
0.514 0.612 0.826 0.973 1.127
1.010
Heat of
Rej
0.878
0.979
1.000
1.010
1.029
1.058
Heating Corrections
Ent Air
ϒ
F
60
65
68
70
75
80
Htg Cap Power Heat of
1.059
1.019
1.000
0.995
0.980
0.967
0.947
0.981
1.000
1.010
1.037
1.063
1.100
1.032
1.000
0.989
0.960
0.934
ARI/ISO/ASHRAE 13256-1 uses entering air conditions of Clg- 80.6
ϒ F DB/66.2
ϒ F WB and Htg- 68 ϒ F DB/59 ϒ F WB shown in bold
Discontinued Standards ARI 320, 325, and 330 used entering air conditions of Clg- 80
ϒ
F DB/67
ϒ
F WB and Htg- 70
ϒ
F DB
Air Flow Correction Table
Airflow Cooling Heating
300
325
350
375
400
425
450
75%
81%
88%
94%
100%
106%
113%
Total Cap Sens Cap
1.019
1.013
1.007
1.004
1.000
0.998
0.997
0.902
0.928
0.953
0.977
1.000
1.023
1.047
Power
0.964
0.976
0.988
0.994
1.000
1.006
1.012
Heat of Rej
1.007
1.003
1.000
1.000
1.000
1.000
1.000
Htg Cap
0.957
0.979
0.989
1.000
1.011
1.021
400 CFM per ton of cooling capacity is nominal rated airflow for all models (bold print)
Use multipliers directly with unit data for correcting unit performance at other airflows than nominal
Power
1.061
1.040
1.020
1.010
1.000
0.997
0.994
Heat of Ext
0.922
0.946
0.970
0.985
1.000
1.015
1.030
Design Guide HRC SERIES Heat Controller
Selection Procedure
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.
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 Water-
Source 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 .
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 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 .
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 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10,200 BTUH
Sensible Cooling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8,350 BTUH
Entering Air Temp . . . . . . . . . . . . . . . . . . . . . . . . .80°F Dry Bulb/65°F Wet Bulb
Step 2 Design Conditions:
Similarly, we have also obtained the following design parameters:
Entering Water Temp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .90°F
Water Flow (Based upon 12°F rise in temp .) . . . . . . . . . . . . . . .2 .3 GPM
Air Flow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .350 CFM
Step 3, 4 & 5 HP Selection:
After making our preliminary selection (HRC12), we enter the tables at design water flow and water temperature and read
Total Cooling, Sens . Cooling and Heat of Rej . capacities:
Total Cooling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10,800 BTUH
Sensible Cooling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9,200 BTUH
Heat of Rejection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13,900 BTUH
Step 6 & 7 Entering Air and Airflow Corrections:
Next, we determine our correction factors .
Table Ent Air Air Flow Corrected
Corrected Total Cooling = 10,800 x 0 .976 x 0 .954 =10,056
Corrected Sens Cooling = 9,200 x 1 .071 x 0 .927 = 9,134
Corrected Heat of Reject = 13,900 x 0 .979 x 0 .958 = 13,037
Step 8 Water Temperature Rise Calculation & Assessment:
Actual Temperature Rise . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 .3°F
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 slightly undersized as recommended, when compared to the actual indicated load .
6
Heat Controller HRC SERIES Design Guide
HRC Series Nomenclature
*Requires extended unit - see cabinet dimensions.
7
Design Guide HRC SERIES Heat Controller
Performance Data – AHRI/ASHRAE/ISO 13256-1
ASHRAE/AHRI/ISO 13256-1. English (I-P) Units
Model
HRC09
HRC12
HRC15
HRC18
Water Loop Heat Pump
Cooling 86°F
Capacity
Btuh
EER
Btuh/W
8,600 13 .3
Heating 68°F
Capacity
Btuh
11,400 4 .6
11,300
13,700
15,600
12 .8
12 .8
12 .2
14,100
17,500
20,100
4 .5
5 .1
4 .5
Ground Water Heat Pump
Cooling 59°F
EER
Btuh/W
9,200 18 .6
12,500
15,700
17,200
18 .7
19 .4
17 .9
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 air flow is rated on high speed, Units factory shipped on medium and low motor taps.
All ratings based upon operation at lower voltage of dual voltage rated models
Heating 50°F
Capacity
Btuh
9,500
11,800
14,600
16,500
4 .0
3 .9
4 .0
3 .9
Ground Loop Heat Pump
Cooling 77°F
EER
Btuh/W
8,800 14 .9
Heating 32°F
Capacity
Btuh
7,300
COP
3 .3
11,800
14,500
16,100
14 .5
14 .7
13 .8
9,300
11,400
13,200
3 .3
3 .3
3 .3
ASHRAE/AHRI/ISO 13256-1. Metric (S-I) Units
Model
HRC09
HRC12
HRC15
HRC18
Water Loop Heat Pump
Cooling 30°C
Capacity kW
EER
W/W
2 .52
3 .9
Heating 20°C
Capacity kW
3 .34
COP
4 .6
3 .31
4 .02
4 .57
3 .8
3 .8
3 .6
4 .13
5 .13
5 .89
4 .5
5 .1
4 .5
Ground Water Heat Pump
Cooling 15°C
Capacity kW
EER
W/W
2 .70
5 .5
3 .66
4 .60
5 .04
5 .5
5 .7
5 .3
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 air flow is rated on high speed, Units factory shipped on medium and low motor taps.
All ratings based upon operation at lower voltage of dual voltage rated models
Heating 10°C
Capacity kW
2 .78
3 .46
4 .28
4 .84
COP
4 .0
3 .9
4 .0
3 .9
Ground Loop Heat Pump
Cooling 25°C
Capacity kW
EER
W/W
2 .58
4 .4
Heating 0°C
Capacity kW
2 .14
COP
3 .3
3 .46
4 .25
4 .72
4 .3
4 .3
4 .0
2 .73
3 .34
3 .87
3 .3
3 .3
3 .3
8
Heat Controller HRC SERIES Design Guide
Performance Data – Selection Notes
For operation in the shaded area when water is used in lieu of an antifreeze solution, the LWT (Leaving Water Temperature) must be calculated . Flow must be maintained to a level such
EWT
°F
GPM
WPD*
PSI FT TC
Cooling - EAT 80/67°F
SC Sens/Tot
Ratio
Heating - EAT 70°F kW HR EER HC kW HE LAT COP used in systems with leaving water temperatures of 42ºF
[5 .6°C] or below and the JW3 jumper should be clipped . This
6 .9
nuisance cutout due to the activation of the Low Temperature
Protection . JW3 should never be clipped for standard range
6 .8
0 .71
low as 32°F [0°C] with 40°F [4 .4°C] LWT, which may lead to a equipment or systems without antifreeze .
9 .4
0 .72
0 .36
0 .33
0 .31
0 .41
10 .9
10 .9
10 .9
10 .8
26 .7
29 .9
31 .7
22 .9
5 .5
6 .0
6 .3
6 .4
6 .9
0 .50
0 .51
0 .52
0 .52
0 .53
3 .8
4 .3
4 .5
4 .7
5 .1
91 .0
93 .1
94 .1
94 .8
96 .5
3 .22
3 .44
3 .55
3 .62
3 .79
Example: 40 1 .4
1 .5
3 .5
9 .6
6 .9
0 .71
0 .37
10 .9
25 .8
7 .2
0 .54
5 .4
97 .9
3 .91
10 .9
27 .4
7 .4
0 .55
5 .6
98 .6
3 .97
At 50°F EWT (Entering Water Temperature) and 1 .5 gpm/ton, a
3 ton unit has a HE of 22,500 Btuh . To calculate LWT, rearrange the formula for HE as follows:
1 .4
1 .4
3 .2
9 .3
6 .8
0 .73
0 .42
HE = TD x GPM x 500, where HE = Heat of Extraction (Btuh);
TD = temperature difference (EWT - LWT) and GPM = U .S .
0 .8
1 .8
8 .6
6 .5
0 .76
0 .40
0 .52
10 .6
10 .8
10 .8
10 .4
19 .6
22 .1
23 .4
16 .6
7 .8
8 .2
8 .4
8 .7
0 .56
0 .57
0 .57
0 .58
5 .9
6 .3
6 .5
6 .7
100 .0
101 .6
102 .4
103 .6
4 .10
4 .23
4 .30
4 .39
1 .3
TD = 22,500 / (4 .5 x 500)
1 .0
TD = 10°F
70 1 .4
LWT = EWT - TD
1 .9
1 .9
0 .7
1 .2
1 .8
0 .7
3 .0
4 .4
1 .6
2 .8
4 .2
1 .6
8 .9
9 .1
8 .1
8 .5
8 .6
7 .6
6 .6
6 .7
6 .3
6 .5
6 .5
6 .1
0 .74
0 .74
0 .78
0 .76
0 .76
0 .79
0 .48
0 .46
0 .58
0 .53
0 .51
0 .65
10 .5
10 .6
10 .1
10 .3
10 .4
9 .8
18 .8
20 .0
14 .0
15 .9
16 .9
11 .8
9 .2
9 .4
9 .6
10 .2
10 .5
10 .6
0 .59
0 .60
0 .61
0 .62
0 .63
0 .63
7 .2
7 .4
7 .6
8 .1
8 .3
8 .4
105 .4
106 .3
107 .1
109 .1
110 .2
110 .7
4 .53
4 .61
4 .67
4 .82
4 .90
4 .93
In this example, a higher flow rate will be required for EWTs at or below 50°F without antifreeze. At 2 gpm/ton, the calculation above results in a TD of 7 .5 . LWT = 50 - 7 .5 = 42 .5°F, which is above 42°F EWT, and is acceptable for this application .
85
1 .0
1 .4
0 .6
1 .0
1 .4
2 .3
7 .4
7 .7
5 .9
6 .1
0 .80
0 .79
0 .68
0 .63
9 .7
9 .9
10 .8
12 .2
11 .0
11 .6
0 .64
0 .65
8 .9
9 .4
112 .5
114 .8
5 .06
5 .24
1 .9
1 .0
1 .5
0 .6
3 .5
1 .4
7 .9
7 .2
6 .2
5 .8
0 .78
0 .81
0 .61
0 .72
10 .0
9 .6
13 .0
9 .9
12 .0
11 .5
0 .66
0 .65
9 .7
9 .3
116 .1
114 .2
5 .33
5 .19
90 1 .4
1 .9
1 .0
1 .4
2 .3
3 .2
7 .5
7 .6
6 .0
6 .1
0 .80
0 .79
0 .67
0 .64
9 .8
9 .8
11 .1
11 .9
12 .1
12 .5
0 .66
0 .67
9 .9
10 .2
116 .7
118 .0
5 .38
5 .48
100
110
1 .0
1 .4
1 .9
1 .0
1 .4
1 .9
0 .5
0 .9
1 .3
0 .5
0 .9
1 .3
1 .2
2 .1
3 .0
1 .2
2 .1
3 .0
6 .7
7 .0
7 .2
6 .4
6 .6
6 .7
5 .5
5 .7
5 .8
5 .2
5 .4
5 .5
0 .81
0 .81
0 .81
0 .81
0 .81
0 .81
0 .81
0 .75
0 .72
0 .91
0 .84
0 .81
9 .5
9 .6
9 .6
9 .5
9 .5
9 .5
8 .3
9 .3
9 .9
7 .0
7 .8
8 .3
Operation Not Recommended
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. ARI/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 ARI/ISO conditions.
All performance is based upon the lower voltage of dual voltage rated units .
Operation below 40°F EWT is based upon a 15% antifreeze solution .
Operation below 60°F EWT requires optional insulated water/refrigerant circuit (standard on residential models) .
See performance correction tables for operating conditions other than those listed above .
See Performance Data Selection Notes for operation in shaded areas .
9
Design Guide HRC SERIES Heat Controller
Performance Data – HRC09
350 CFM Nominal (Rated) Airflow
WPD*
EWT
°F
GPM
PSI FT TC
20
30
40
50
60
70
80
85
90
100
110
120
1 .8
2 .9
0 .9
1 .8
0 .9
1 .9
3 .0
0 .9
2 .9
0 .9
1 .8
2 .8
3 .2
1 .0
1 .9
3 .1
2 .0
3 .5
1 .0
1 .9
1 .1
2 .1
3 .7
1 .0
1 .2
2 .2
3 .8
4 .5
1 .4
2 .3
4 .2
5 .0
1 .6
2 .6
4 .2
6 .7
2 .1
4 .2
2 .1
4 .4
6 .9
2 .1
6 .7
2 .1
4 .2
6 .5
7 .4
2 .2
4 .4
7 .2
4 .6
8 .1
2 .3
4 .4
2 .5
4 .9
8 .5
2 .3
2 .8
5 .1
8 .8
11 .6
3 .7
6 .0
10 .4
3 .2
5 .3
9 .7
1 .6
2 .2
1 .1
1 .6
1 .1
1 .6
2 .2
1 .1
2 .2
1 .1
1 .6
2 .2
2 .2
1 .1
1 .6
2 .2
1 .6
2 .2
1 .1
1 .6
1 .1
1 .6
2 .2
1 .1
1 .1
1 .6
2 .2
2 .2
1 .1
1 .6
2 .2
2 .2
1 .1
1 .6
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.
Operation below 60°F EWT requires optional insulated water/refrigerant circuit.
See performance correction tables for operating conditions other than those listed above.
See Performance Data Selection Notes for operation in the shaded areas.
6 .7
4 .5
5 .1
5 .5
7 .4
7 .7
5 .8
6 .4
7 .8
8 .2
8 .5
6 .9
9 .0
8 .1
8 .5
8 .8
9 .3
9 .4
8 .5
8 .8
9 .4
9 .5
9 .5
9 .0
9 .3
9 .2
9 .5
9 .5
9 .4
9 .2
8 .9
8 .8
9 .4
6 .6
6 .7
5 .6
6 .0
6 .7
6 .9
7 .0
6 .3
6 .2
4 .6
5 .1
5 .4
7 .1
6 .9
7 .0
7 .0
7 .1
7 .1
7 .0
7 .1
7 .1
7 .0
7 .0
7 .1
7 .0
6 .9
6 .9
0 .89
0 .87
0 .97
0 .94
0 .87
0 .84
0 .82
0 .91
0 .92
1 .00
1 .00
0 .98
0 .79
0 .84
0 .82
0 .80
0 .77
0 .76
0 .82
0 .80
0 .74
0 .73
0 .73
0 .76
0 .74
0 .74
0 .79
Performance capacities shown in thousands of Btuh
Cooling - EAT 80/67°F
SC
Sens/
Tot
Ratio kW HR EER HC
Heating - EAT 70°F kW HE LAT COP
Operation not recommended 6 .3
0 .67
4 .0
86 .6
2 .72
6 .7
0 .73
0 .44
10 .7
20 .6
6 .9
0 .69
4 .6
88 .2
2 .94
6 .6
0 .74
0 .43
10 .4
20 .7
7 .2
0 .69
4 .8
89 .0
3 .04
*WPD Adder for
Motorized Valve,
HRC09
(Cv = 4 .9,
MOPD = 150 psi)
WPD Adder
GPM
PSI FT
6 .5
0 .74
0 .43
10 .2
20 .6
7 .3
0 .69
5 .0
89 .4
3 .11
1 .1
0 .3
0 .6
6 .9
0 .73
0 .47
11 .1
19 .9
7 .9
0 .70
5 .5
90 .9
3 .29
1 .6
0 .6
1 .3
6 .8
0 .73
0 .45
10 .9
20 .5
8 .3
0 .71
5 .9
91 .8
3 .41
2 .2
1 .2
2 .7
6 .7
0 .73
0 .45
10 .7
20 .6
8 .5
0 .71
6 .1
92 .4
3 .48
0 .81
0 .78
0 .96
0 .91
0 .77
0 .72
0 .69
0 .86
0 .87
1 .07
1 .02
0 .98
0 .62
0 .73
0 .68
0 .66
0 .58
0 .56
0 .69
0 .65
0 .51
0 .49
0 .47
0 .56
0 .53
0 .51
0 .62
10 .2
10 .4
9 .1
9 .5
10 .4
10 .7
10 .9
9 .8
9 .7
8 .2
8 .6
8 .9
11 .2
10 .6
10 .9
11 .0
11 .3
11 .3
10 .9
11 .1
11 .3
11 .1
11 .1
11 .3
11 .3
11 .2
11 .2
9 .1
9 .9
6 .0
7 .0
10 .1
11 .4
12 .2
7 .9
7 .7
4 .2
5 .0
5 .6
14 .5
11 .1
12 .5
13 .3
15 .9
16 .7
12 .3
13 .7
18 .5
19 .5
19 .9
16 .7
17 .9
18 .6
14 .5
Operation not recommended
4 .64
4 .56
4 .66
4 .71
4 .36
4 .43
4 .47
4 .58
3 .63
3 .76
3 .84
3 .95
4 .08
4 .16
4 .23
4 .66
4 .74
4 .77
100 .2
101 .0
101 .4
102 .6
103 .4
102 .5
103 .6
104 .3
93 .7
94 .7
95 .4
96 .4
97 .6
98 .3
99 .0
103 .5
104 .6
105 .2
9 .9
9 .6
10 .0
10 .2
8 .8
9 .1
9 .2
9 .6
10 .0
10 .3
10 .5
7 .5
7 .9
8 .1
8 .4
6 .5
6 .9
7 .1
0 .80
0 .79
0 .80
0 .81
0 .77
0 .77
0 .78
0 .79
0 .72
0 .73
0 .73
0 .74
0 .75
0 .75
0 .76
0 .80
0 .81
0 .82
12 .6
12 .3
12 .7
13 .0
11 .4
11 .7
11 .9
12 .3
10 .0
10 .4
10 .7
11 .0
8 .9
9 .3
9 .6
12 .7
13 .1
13 .3
10
Heat Controller HRC SERIES Design Guide
Performance Data – HRC12
*WPD Adder for
Motorized Valve,
HRC12
(Cv = 4 .9,
MOPD = 150 psi)
WPD Adder
GPM
PSI FT
450 CFM Nominal (Rated) Airflow
WPD*
EWT
°F
GPM
PSI FT
20
30
3 .0
1 .5
2 .3
3 .0
7 .8
2 .1
18 .0
4 .9
1 .5
0 .5
1 .0
4 .5
6 .8
10 .4
15 .7
2 .3
1 .2
2 .7
40
1 .5
2 .3
2 .0
4 .2
4 .6
9 .7
3 .0
2 .2
5 .0
3 .0
1 .5
6 .1
1 .8
14 .1
4 .2
50 2 .3
3 .0
3 .8
5 .8
8 .8
13 .4
60
70
80
85
90
100
110
120
1 .5
2 .3
3 .0
1 .5
3 .0
1 .5
2 .3
3 .0
2 .3
3 .0
1 .5
2 .3
1 .5
2 .3
3 .0
1 .5
3 .0
1 .5
2 .3
3 .0
2 .3
3 .0
1 .5
2 .3
1 .3
3 .0
4 .5
1 .3
4 .8
1 .4
3 .1
4 .7
3 .5
4 .9
1 .4
3 .2
1 .7
3 .7
5 .2
1 .5
4 .2
1 .2
2 .8
4 .1
2 .9
4 .3
1 .2
2 .9
3 .0
6 .9
10 .4
3 .0
11 .1
3 .1
7 .2
10 .7
8 .1
11 .3
3 .2
7 .4
3 .9
8 .5
12 .0
3 .5
9 .7
2 .8
6 .5
9 .5
6 .7
9 .9
2 .8
6 .7
TC
9 .0
9 .4
9 .6
8 .4
11 .0
9 .7
10 .1
10 .3
8 .7
8 .9
11 .1
11 .3
10 .4
10 .8
11 .0
11 .4
11 .6
10 .7
12 .5
11 .6
12 .0
12 .1
12 .6
12 .7
12 .1
12 .4
12 .6
12 .4
12 .3
12 .7
12 .6
12 .6
12 .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.
Operation below 60°F EWT requires optional insulated water/refrigerant circuit.
See performance correction tables for operating conditions other than those listed above.
See Performance Data Selection Notes for operation in the shaded areas.
8 .7
7 .5
7 .9
8 .1
9 .0
9 .0
8 .2
8 .5
9 .1
9 .2
9 .2
8 .7
9 .2
9 .1
9 .2
9 .2
9 .1
9 .0
9 .2
9 .2
9 .0
8 .8
8 .7
9 .2
8 .2
8 .7
8 .5
8 .4
8 .0
8 .0
8 .4
8 .2
0 .90
0 .89
0 .91
0 .91
0 .88
0 .88
0 .91
0 .90
0 .87
0 .85
0 .84
0 .90
0 .79
0 .85
0 .83
0 .81
0 .76
0 .74
0 .83
0 .81
0 .74
0 .71
0 .70
0 .79
0 .65
0 .70
0 .68
0 .67
0 .65
0 .65
0 .67
0 .65
1 .09
1 .33
1 .25
1 .21
1 .02
0 .99
1 .20
1 .13
0 .98
0 .92
0 .89
1 .08
0 .81
0 .93
0 .88
0 .85
0 .76
0 .73
0 .89
0 .83
0 .73
0 .69
0 .67
0 .80
0 .56
0 .67
0 .63
0 .61
0 .53
0 .52
0 .61
0 .58
13 .4
12 .9
13 .0
13 .1
13 .6
13 .7
13 .1
13 .3
13 .7
13 .9
14 .1
13 .4
14 .4
13 .9
14 .1
14 .2
14 .5
14 .6
14 .1
14 .3
14 .6
14 .7
14 .8
14 .4
14 .5
14 .8
14 .8
14 .7
14 .2
14 .0
14 .7
14 .6
8 .8
6 .3
7 .0
7 .4
9 .9
10 .5
7 .5
8 .4
10 .6
11 .7
12 .3
9 .0
14 .4
11 .5
12 .7
13 .4
15 .8
16 .5
12 .5
13 .7
16 .6
17 .9
18 .6
14 .5
22 .4
18 .7
20 .0
20 .7
23 .3
23 .6
20 .7
21 .9
Cooling - EAT 80/67°F
SC
Sens/
Tot
Ratio kW HR EER HC
Operation not recommended
8 .2
0 .65
0 .56
14 .5
22 .4
Performance capacities shown in thousands of Btuh
7 .3
8 .1
Heating - EAT 70°F kW
0 .79
0 .81
HE
4 .7
5 .4
LAT COP
85 .1
86 .7
2 .71
2 .96
0 .89
0 .90
0 .90
0 .91
0 .87
0 .87
0 .88
0 .88
0 .84
0 .85
0 .86
0 .86
0 .81
0 .82
0 .83
0 .83
0 .91
0 .90
0 .91
0 .92
0 .91
0 .92
0 .92
14 .3
14 .6
14 .8
15 .5
12 .2
12 .9
13 .2
13 .6
10 .2
10 .8
11 .4
11 .7
8 .5
8 .7
9 .4
9 .9
15 .8
15 .4
16 .0
16 .3
15 .9
16 .5
16 .7
11 .2
11 .6
11 .8
12 .4
9 .3
9 .9
10 .2
10 .6
7 .3
8 .0
8 .5
8 .8
5 .7
5 .9
6 .7
7 .1
12 .7
12 .3
12 .9
13 .1
12 .8
13 .3
13 .6
99 .4
100 .1
100 .5
101 .9
95 .1
96 .5
97 .2
97 .9
90 .9
92 .3
93 .5
94 .1
87 .5
87 .9
89 .4
90 .4
102 .6
101 .6
102 .9
103 .5
102 .7
103 .9
104 .4
Operation not recommended
4 .69
4 .79
4 .84
5 .01
4 .14
4 .32
4 .41
4 .50
3 .56
3 .74
3 .91
4 .00
3 .06
3 .12
3 .35
3 .48
5 .10
4 .98
5 .13
5 .20
5 .11
5 .25
5 .31
11
Design Guide HRC SERIES Heat Controller
Performance Data – HRC15
520 CFM Nominal (Rated) Airflow
WPD*
EWT
°F
GPM
PSI FT
20
30
40
50
60
70
80
85
90
100
110
120
3 .7
1 .9
2 .8
3 .7
2 .8
3 .7
1 .9
2 .8
1 .9
2 .8
3 .7
1 .9
2 .8
3 .7
1 .9
1 .9
2 .8
3 .7
3 .7
1 .9
2 .8
3 .7
2 .8
3 .7
1 .9
2 .8
1 .9
2 .8
3 .7
1 .9
3 .7
1 .9
2 .8
3 .7
2 .8
0 .8
1 .6
2 .7
1 .7
2 .9
0 .8
1 .6
0 .7
1 .5
2 .7
0 .9
1 .8
3 .0
0 .8
0 .9
1 .8
3 .1
3 .5
0 .9
2 .0
3 .3
2 .3
3 .9
0 .9
2 .1
1 .2
2 .6
4 .3
1 .0
5 .1
1 .5
3 .0
4 .7
6 .5
1 .8
3 .7
6 .2
3 .9
6 .7
1 .8
3 .7
1 .6
3 .5
6 .2
2 .0
4 .0
6 .9
1 .8
2 .1
4 .2
7 .2
8 .1
2 .1
4 .6
7 .6
5 .3
9 .0
2 .1
4 .9
2 .8
6 .0
9 .9
2 .3
11 .8
3 .5
6 .9
10 .9
TC
12 .7
10 .6
11 .2
11 .5
13 .5
13 .9
11 .7
12 .4
14 .0
14 .6
15 .0
13 .4
14 .1
14 .4
12 .9
9 .6
10 .1
10 .4
16 .6
15 .0
15 .6
15 .9
16 .9
16 .9
15 .9
16 .4
16 .9
16 .5
16 .3
16 .9
16 .9
16 .9
16 .6
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.
Operation below 60°F EWT requires optional insulated water/refrigerant circuit.
See performance correction tables for operating conditions other than those listed above.
See Performance Data Selection Notes for operation in the shaded areas.
10 .0
9 .2
9 .4
9 .5
10 .3
10 .5
9 .6
9 .8
9 .0
9 .1
9 .2
10 .5
10 .8
10 .9
10 .3
10 .5
10 .7
10 .0
11 .5
10 .9
11 .2
11 .3
11 .5
11 .4
11 .3
11 .4
0 .78
0 .87
0 .84
0 .83
0 .76
0 .75
0 .82
0 .80
0 .94
0 .90
0 .88
0 .75
0 .74
0 .73
0 .77
0 .75
0 .74
0 .78
0 .69
0 .73
0 .72
0 .71
0 .68
0 .67
0 .71
0 .70
Cooling - EAT 80/67°F
10 .4
10 .1
0 .63
0 .62
0 .58
0 .56
18 .5
18 .2
28 .6
29 .2
Performance capacities shown in thousands of Btuh
Heating - EAT 70°F
SC Sens/Tot
Ratio kW HR
Operation not recommended
11 .0
0 .65
0 .62
19 .0
EER
27 .1
HC
8 .9
10 .0
kW
0 .92
0 .94
10 .5
10 .7
0 .95
0 .96
HE LAT COP
5 .8
6 .8
7 .2
7 .5
85 .9
87 .8
88 .6
89 .1
2 .86
3 .11
3 .22
3 .28
*WPD Adder for
Motorized Valve,
HRC15
(Cv = 4 .9,
MOPD = 150 psi)
WPD Adder
GPM
PSI FT
1 .9
0 .7
1 .7
11 .4
11 .2
0 .67
0 .65
0 .70
0 .65
19 .3
19 .1
24 .1
26 .2
11 .7
12 .3
0 .98
0 .99
8 .4
8 .9
90 .8
91 .9
3 .51
3 .64
2 .8
1 .7
4 .0
3 .7
3 .3
7 .6
11 .0
11 .5
0 .65
0 .69
0 .62
0 .79
19 .0
19 .3
27 .1
21 .0
12 .6
13 .4
0 .99
1 .01
9 .2
10 .0
92 .4
93 .9
3 .71
3 .91
1 .23
1 .48
1 .40
1 .37
1 .15
1 .11
1 .35
1 .27
1 .62
1 .54
1 .51
1 .10
1 .03
1 .00
1 .16
1 .09
1 .05
1 .22
0 .79
0 .99
0 .92
0 .89
0 .73
0 .70
0 .89
0 .82
17 .0
15 .7
16 .0
16 .2
17 .5
17 .7
16 .3
16 .7
15 .1
15 .4
15 .5
17 .8
18 .2
18 .4
17 .4
17 .8
18 .0
17 .0
19 .3
18 .4
18 .8
18 .9
19 .4
19 .3
18 .9
19 .2
5 .9
6 .5
6 .9
10 .3
7 .2
8 .0
8 .4
11 .8
12 .5
8 .7
9 .7
12 .7
14 .2
15 .0
11 .6
13 .0
13 .8
10 .5
21 .0
15 .2
16 .9
17 .9
23 .1
24 .2
17 .9
19 .9
Operation not recommended
4 .99
5 .17
5 .26
5 .14
5 .31
5 .40
5 .29
5 .45
5 .53
4 .56
4 .66
4 .84
4 .93
4 .06
4 .15
4 .29
4 .46
103 .0
104 .5
105 .3
104 .3
105 .8
106 .5
105 .6
107 .0
107 .7
99 .3
100 .1
101 .6
102 .5
95 .2
95 .9
97 .1
98 .5
14 .8
15 .6
16 .1
15 .5
16 .3
16 .7
16 .2
17 .0
17 .3
12 .8
13 .3
14 .1
14 .5
10 .7
11 .0
11 .7
12 .4
1 .09
1 .10
1 .10
1 .10
1 .11
1 .11
1 .11
1 .12
1 .12
1 .06
1 .06
1 .08
1 .08
1 .02
1 .03
1 .04
1 .05
18 .5
19 .4
19 .8
19 .2
20 .1
20 .5
20 .0
20 .8
21 .2
16 .4
16 .9
17 .8
18 .2
14 .1
14 .5
15 .2
16 .0
12
Heat Controller HRC SERIES Design Guide
Performance Data – HRC18
*WPD Adder for
Motorized Valve,
HRC18
(Cv = 4 .9,
MOPD = 150 psi)
WPD Adder
GPM
PSI FT
620 CFM Nominal (Rated) Airflow
WPD*
EWT
°F
GPM
PSI FT
20
30
4 .5
2 .3
3 .4
4 .5
7 .5
2 .2
17 .3
5 .1
2 .3
0 .2
0 .6
4 .4
6 .9
10 .2
15 .9
3 .4
0 .6
1 .3
40
2 .3
3 .4
2 .0
4 .1
4 .6
9 .5
4 .5
1 .1
2 .5
4 .5
2 .3
6 .3
1 .8
14 .6
4 .2
50 3 .4
4 .5
3 .8
6 .0
8 .8
13 .9
60
70
80
85
90
100
110
120
2 .3
3 .4
4 .5
2 .3
4 .5
2 .3
3 .4
4 .5
3 .4
4 .5
2 .3
3 .4
2 .3
3 .4
4 .5
2 .3
4 .5
2 .3
3 .4
4 .5
3 .4
4 .5
2 .3
3 .4
1 .3
3 .0
4 .8
1 .3
5 .0
1 .4
3 .1
4 .9
3 .4
5 .2
1 .4
3 .2
1 .6
3 .6
5 .6
1 .5
4 .5
1 .2
2 .8
4 .4
2 .9
4 .6
1 .2
2 .8
3 .0
6 .9
11 .1
3 .0
11 .6
3 .1
7 .15
11 .35
7 .9
12 .0
3 .2
7 .4
3 .7
8 .3
12 .9
3 .5
10 .4
2 .8
6 .5
10 .2
6 .7
10 .6
2 .8
6 .5
TC
12 .8
13 .1
13 .3
12 .6
15 .7
13 .5
14 .1
14 .4
12 .6
12 .7
16 .0
16 .4
14 .6
15 .3
15 .9
16 .7
17 .0
15 .3
19 .1
17 .2
17 .9
18 .2
19 .3
19 .4
18 .4
18 .9
18 .6
17 .6
16 .9
19 .3
19 .0
18 .8
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.
Operation below 60°F EWT requires optional insulated water/refrigerant circuit.
See performance correction tables for operating conditions other than those listed above.
See Performance Data Selection Notes for operation in the shaded areas.
10 .3
9 .4
9 .5
9 .7
10 .9
11 .1
9 .8
10 .1
11 .3
11 .8
12 .0
10 .5
12 .7
11 .7
12 .2
12 .4
13 .1
13 .3
12 .1
12 .6
13 .3
13 .4
13 .5
12 .8
12 .5
13 .5
13 .3
13 .2
11 .6
11 .1
13 .2
12 .8
0 .78
0 .74
0 .76
0 .76
0 .78
0 .77
0 .77
0 .77
0 .77
0 .77
0 .76
0 .78
0 .75
0 .77
0 .76
0 .76
0 .73
0 .73
0 .76
0 .75
0 .72
0 .71
0 .70
0 .75
0 .67
0 .70
0 .69
0 .68
0 .66
0 .66
0 .68
0 .67
1 .56
1 .82
1 .75
1 .71
1 .46
1 .42
1 .67
1 .60
1 .39
1 .32
1 .28
1 .53
1 .14
1 .32
1 .25
1 .21
1 .06
1 .02
1 .25
1 .18
1 .01
0 .94
0 .91
1 .13
0 .73
0 .90
0 .84
0 .81
0 .69
0 .68
0 .80
0 .75
18 .7
18 .9
18 .6
18 .5
19 .1
19 .2
18 .5
18 .6
19 .4
19 .8
20 .1
18 .8
21 .0
19 .8
20 .3
20 .6
21 .5
21 .7
20 .2
20 .7
21 .8
22 .1
22 .2
21 .1
21 .3
22 .2
22 .2
22 .1
19 .9
19 .3
22 .1
21 .6
8 .5
6 .9
7 .2
7 .4
9 .6
10 .1
7 .6
8 .2
10 .5
11 .6
12 .3
8 .8
14 .9
11 .6
12 .9
13 .6
17 .0
17 .9
12 .7
14 .1
18 .2
20 .1
21 .0
15 .3
25 .6
21 .4
23 .1
23 .9
25 .3
24 .8
24 .2
25 .3
Performance capacities shown in thousands of Btuh
Cooling - EAT 80/67°F
SC
Sens/
Tot
Ratio kW HR EER HC
Heating - EAT 70°F kW HE LAT COP
Operation not recommended 13 .9
1 .24
9 .8
90 .8
3 .29
12 .3
0 .66
0 .72
21 .0
25 .7
15 .3
1 .28
11 .0
92 .8
3 .51
1 .33
1 .33
1 .35
1 .37
1 .31
1 .31
1 .31
1 .32
1 .31
1 .31
1 .31
1 .31
1 .28
1 .29
1 .30
1 .30
1 .38
1 .38
1 .40
1 .42
1 .40
1 .43
1 .45
19 .7
20 .0
21 .0
21 .8
18 .2
18 .5
18 .6
19 .3
17 .0
17 .5
17 .7
17 .8
15 .7
15 .8
16 .6
16 .9
22 .3
22 .2
23 .3
24 .0
23 .5
24 .9
25 .7
15 .2
15 .5
16 .4
17 .1
13 .8
14 .0
14 .2
14 .8
12 .6
13 .0
13 .2
13 .3
11 .3
11 .5
12 .2
12 .4
17 .6
17 .6
18 .6
19 .2
18 .7
20 .0
20 .8
99 .5
99 .9
101 .3
102 .6
97 .2
97 .6
97 .8
98 .8
95 .4
96 .1
96 .4
96 .5
93 .4
93 .7
94 .8
95 .2
103 .3
103 .2
104 .9
105 .9
105 .1
107 .2
108 .4
Operation not recommended
4 .36
4 .40
4 .55
4 .68
4 .07
4 .12
4 .15
4 .27
3 .81
3 .91
3 .95
3 .97
3 .57
3 .61
3 .74
3 .79
4 .75
4 .73
4 .88
4 .97
4 .91
5 .08
5 .18
13
Design Guide HRC SERIES Heat Controller
Performance Data Correction Tables
Air Flow Correction Table
Airflow Cooling
% of
Rated
73%
78%
83%
89%
94%
100%
106%
111%
Total
Capacity
0 .946
0 .954
0 .964
0 .974
0 .987
1 .000
1 .015
1 .031
Sensible
Capacity
0 .898
0 .927
0 .953
0 .974
0 .990
1 .000
1 .002
0 .996
Power
0 .971
0 .976
0 .981
0 .987
0 .993
1 .000
1 .008
1 .016
Heat of
Rejection
0 .951
0 .958
0 .967
0 .977
0 .988
1 .000
1 .014
1 .028
Heating
Capacity
0 .967
0 .976
0 .983
0 .990
0 .995
1 .000
1 .004
1 .006
Heating
Power
1 .084
1 .062
1 .042
1 .026
1 .012
1 .000
0 .991
0 .985
Heat of
Extraction
0 .937
0 .954
0 .968
0 .981
0 .991
1 .000
1 .007
1 .011
Entering Air Correction Table
Entering
Air DB°F
60
65
68
70
75
80
Heating
Heating
Capacity
1 .036
1 .019
1 .008
1 .000
0 .980
0 .960
Power
0 .910
0 .955
0 .982
1 .000
1 .046
1 .091
Heat of
Extraction
1 .068
1 .035
1 .014
1 .000
0 .964
0 .927
Antifreeze Correction Table
Antifreeze Type
Water
Propylene Glycol
Methanol
Ethanol
Ethylene Glycol
Antifreeze
%
5
15
25
5
15
25
25
5
15
25
0
5
15
Cooling
EWT 90°F
Total Cap Sens Cap
1 .000
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
0 .995
0 .986
0 .978
0 .997
0 .990
0 .982
0 .998
0 .994
0 .986
0 .998
0 .994
0 .988
Entering
Air WB°F
60
65
66.2
67
70
75
Total
Capacity
0 .926
0 .976
0 .990
1 .000
1 .039
1 .113
Cooling
65
Sensible Cooling Capacity Multiplier -
Entering DB °F
70 75 80
0 .632 0 .820 1 .004 1 .182
80.6
*
85
*
90
*
0 .615 0 .856 1 .071 1 .095 1 .260
0 .555 0 .807 1 .030 1 .055 1 .224
*
*
0 .507 0 .765 1 .000 1 .017 1 .188
*
0 .620 0 .865 0 .893 1 .076 1 .252
0 .566 0 .597 0 .805 1 .013
Power
1 .003
1 .000
1 .000
1 .000
1 .001
1 .002
* = Sensible capacity equals total capacity
AHRI/ISO/ASHRAE 13256-1 uses entering air conditions of Cooling - 80 .6°F DB/66 .2°F WB, 1 and Heating - 68°F DB/59°F WB entering air temperature
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
0 .989
0 .968
0 .947
0 .989
0 .968
0 .949
0 .981
0 .944
0 .917
0 .993
0 .980
0 .966
0 .997
0 .990
0 .983
0 .997
0 .990
0 .984
0 .994
0 .983
0 .974
0 .998
0 .994
0 .990
WPD
Corr. Fct.
EWT 30°F
1 .140
1 .300
1 .360
1 .040
1 .120
1 .200
1 .000
1 .070
1 .210
1 .360
1 .070
1 .160
1 .220
Heat of
Rejection
0 .931
0 .979
0 .992
1 .000
1 .032
1 .089
14
Heat Controller HRC SERIES Design Guide
Blower Performance & Electrical Data
Blower Performance
Model
HRC09
HRC12
HRC15
HRC18
Rated
CFM
350
450
520
620
Low
Speed
270
290
360
400
SCFM
Medium
Speed
310
360
440
500
High
Speed
350
450
520
620
Fan speed is user selectable
All airflow is rated at lowest Voltage if unit is dual Voltage rated, i.e. 208V for 208-230V units
All units AHRI/ISO/ASHRAE 13256-1 rated on high fan speed
All units are designed and rated for zero external static pressure (non-ducted) application
Electrical Data
HRC09
HRC12
HRC15
HRC18
1
8
1
8
1
8
0
1
8
0
Voltage
Min/Max
Voltage
115/60/1 104-126
208-230/60/1 197-254
265/60/1
115/60/1
239-292
104-126
208-230/60/1 197-254
265/60/1 239-292
208-230/60/1 197-254
265/60/1 239-292
208-230/60/1 197-254
265/60/1 239-292
Compressor
1
1
1
1
1
1
QTY RLA LRA
1 8 .0
46 .5
1 4 .5
23 .0
1
1
5 .0
19 .0
9 .5
50 .0
4 .7
4 .2
5 .6
25 .0
22 .0
30 .0
4 .7
28 .5
6 .8
38 .0
6 .2
29 .0
0 .6
0 .4
0 .8
0 .6
0 .7
0 .6
Fan
Motor
FLA
0 .5
0 .4
0 .4
0 .5
5 .3
4 .6
6 .4
5 .3
7 .5
6 .8
Total
Unit
FLA
8 .5
4 .9
5 .4
10 .0
Standard Unit
6 .5
5 .7
7 .8
6 .5
9 .2
8 .4
Min
Circuit
Amps
10 .5
6 .0
6 .7
12 .4
15
15
15
15
15
15
Max
Fuse/
HACR
20
15
15
20
With Secondary Pump
5 .7
5 .4
7 .2
6 .2
8 .3
7 .6
Total
Unit
FLA
8 .8
5 .3
6 .2
11 .5
Min
Circuit
Amps
11 .3
6 .4
7 .5
13 .8
7 .3
6 .5
8 .6
7 .3
10 .0
9 .2
15
15
15
15
15
15
15
15
20
Max
Fuse/
HACR
20
15
Design Guide HRC SERIES Heat Controller
Physical Data
Model
Compressor (1 Each)
09 12 15 18
Factory Charge HFC-410A (oz) [kg]
Blower Wheel
Blower Wheel Size (dia x w) -
(in) [mm] - Qty 2
Water Connection Size
O .D . Sweat (in) [mm]
Optional FPT Fittings (in)
Optional MPT Fittings (in)
Coax Volume
Volume US Gal
[Liters]
Condensate Connection Size
I .D . Vinyl Hose (In) [mm]
Air Coil Size
28 [0 .794]
.09
[ .34]
29 [0 .822] 33 [0 .907]
1/2 [12 .7]
1/2
1/2
.09
[ .34]
5 .25 x 6 .25 [133 x 159]
.23
[ .87]
5/8 [15 .9]
Dimensions (h x w) - (in) [mm]
8 x 26
[203 x 660]
10 x 26
[254 x 660]
Filter Size
Bottom Return (in) [mm]
Front Return (In) [mm]
Cabinet Size
Bottom Return (Std . 5” Base)
(W x H x D) - (In) [mm]
Front Return (No Subbase)
(W x H x D) - (In) [mm]
Cabinet Size
Weight - Operating, (lbs) [kg]
Weight - Packaged, (lbs) [kg]
1 - 10 x 30 x 1 [254 x 762 x 25]
1 - 7 x 29 .5 x 1/8 [178 x 749 x 3 .2]
48 x 26 x 12 [1219 x 660 x 305]
48 x 21 x 12 [1219 x 533 x 305]
175 [79]
185 [83 .9]
180 [82]
190 [86]
* Data not available at time of publication .
All units have rubber grommet compressor mountings and TXV expansion devices .
190 [86 .2]
200 [90 .8]
39 [1 .105]
3/4 [19 .1]
3/4
3/4
.26
[ .98]
10 x 32
[254 x 812]
1 - 10 x 36 x 1 [254 x 914 x 25]
1 - 7 x 35 .5 x 1/8 [178 x 902 x 3 .2]
54 x 26 x 12 [1372 x 660 x 305]
54 x 21 x 12 [1372 x 533 x 305]
220 [99 .8]
232 [105 .2]
Unit Maximum Water Working Pressure
Options
Base Unit
Max Pressure PSIG [kPa]
500 [3,445]
Internal Secondary Pump (ISP)
Internal Motorized Water Valve (MWV)
Internal Auto Flow Valve
145 [999]
300 [2,068]
500 [3,445]
Use the lowest maximum pressure rating when multiple options are combined .
Optional Factory Installed Auto Flow Regulator GPM [LPS]
Model 2.25 GPM/Ton 3 GPM/Ton
9 2 .0 [ .126] 2 .5 [ .158]
12
15
18
2 .5 [ .158]
3 .0 [ .189]
3 .5 [ .221]
3 .0 [ .189]
3 .5 [ .221]
4 .0 [ .252]
Use the lowest maximum pressure rating when multiple options are combined .
16
Heat Controller HRC SERIES Design Guide
Console Cabinet Dimensions Size 09 -15 - Bottom Return - Left Hand Piping
Left Hand Bottom Return
Discharge Air Grille
F
30° top of air inlet area. Rotate filter latch forward, filter rack can be pulled forward 3” to 4” for filter access.
Control Access Door
FRONT VIEW
Removable
Cabinet
Sub-base
25.90
(658)
Fixed
Back
Wrapper
B
AIR INLET AREA
C
A
2.12 (54)
(44)
(76)
Bottom Access for
Piping and Electric
(Note 2)
BOTTOM VIEW
E
Standard
Unit
Extended
Unit
A
48.00
(1219)
54.00
(1372)
B
1.75
(44.5)
11.50
(292)
C
33.50
(851)
34.50
(876)
D
9.90
(251)
22.90
(582)
E
4.50
(114)
10.50
(267)
F
5.00
(127)
11.00
(279)
1.00 (25)
1.00 (25)
Secondary circulation pump models will have extended unit.
REAR VIEW
L.H.
Rear Access
For Piping and Electric
(NOTE 2)
DAMPER OPENING
D
A
Notes:
1. All Dimensions are in inches (mm).
2. Access is reduced if optional disconnect box is selected.
3. Optional autoflow regulator, motorized water valve, and disconnect box are not shown.
4. Filter is 1”(25) thick fiberglass throwaway.
Rev.: 10/03/08B
17
Design Guide HRC SERIES Heat Controller
Console Cabinet Dimensions Size 09 - 15 - Front Return - Left Hand Piping
C
Left Hand Front Return
Discharge Air Grille
3.50
(89)
°
21.00
(533)
7.90
(201)
A
12.00
(305)
Removable
Cabinet
Fixed Back
Wrapper
A
Standard
Unit
Extended
Unit
48.00
(1219)
54.00
(1372)
B
4.50
(114)
10.50
(267)
C
5.00
(127)
11.00
(279)
D
4.12
(105)
10.12
(257)
D
Bottom Access for
Piping and Electric
(Note 2)
1.00
(25)
B
Secondary circulation pump models will have extended unit.
L.H. Rear
Access for
Piping and
Electric (NOTE 2)
40.98
(1041)
A
Notes:
1. All Dimensions are in inches (mm).
2. Access is reduced if optional disconnect box is selected.
3. Optional autoflow regulator, motorized water valve, and disconnect box are not shown.
4. Filter is a cleanable polypropylene mesh.
18
Heat Controller HRC SERIES Design Guide
Console Cabinet Dimensions Size 09 - 15 - Bottom Return - Right Hand Piping
1.50
(38) Discharge Air
Grille
Right Hand Bottom Return
11.00
(279) F
Filter located inside and at top of air inlet area. Rotate filter latch forward, filter rack can be pulled forward 3” to 4” for filter access
Control Access Door
FRONT VIEW
Discharge
Air
30 ˚
Removable
Cabinet
Sub-base
SIDE
VIEW
25.90
(658)
Fixed Back
Wrapper
B
AIR INLET AREA
C
A
BOTTOM VIEW
.75 (19)
10.00
(254)
1.00
(25)
1.00
(25)
R.H.
Rear Access for Piping and Electric
(Note 2)
E
REAR VIEW
40.98
(1041)
DAMPER OPENING
D
A
Notes:
1. All Dimensions are in inches (mm).
2. Access is reduced if optional disconnect box is selected.
3. Optional autoflow regulator, motorized water valve, and disconnect box are not shown.
4. Filter is 1”(25) thick fiberglass throwaway.
.12
(3) 12.00
(305)
4.90
(125)
Bottom Access for
Piping and Electric
(Note 2)
2.12 (54)
Standard
Unit
Extended
Unit
A
48.00
(1219)
54.00
(1372)
B
1.75
(44.5)
1.75
(44.5)
C
33.50
(851)
33.72
(856)
D
9.90
(251)
12.85
(326)
E
4.50
(114)
10.50
(267)
F
5.00
(127)
11.00
(279)
Secondary circulation pump models will have extended unit.
Rev.: 10/03/08B
19
Design Guide HRC SERIES Heat Controller
Console Cabinet Dimensions Size 09 - 15 - Front Return - Right Hand Piping
Right Hand Front Return
Discharge
Air Grille
C
30 ˚
Control Access Door
FRONT VIEW
7.90
(201)
A
12.00
(305)
Removable
Cabinet
Fixed Back
Wrapper
12.00
(305)
BOTTOM VIEW
Bottom Access for Piping and Electric
Standard
Unit
Extended
Unit
A
48.00
(1219)
54.00
(1372)
B
4.50
(114)
10.50
(267)
C
5.00
(127)
D
4.12
(105)
11.00
(279)
10.12
(257)
B
D
Secondary circulation pump models will have extended unit.
R.H.
Rear Access for Piping and Electric
(Note 2)
REAR VIEW
40.98
(1041)
21.00
(533)
A
Notes:
1. All dimensions are in inches (mm).
2. Access is reduced if optional disconnect box is selected
3. Optional autoflow regulator, motorized water valve, and disconnect box are not shown.
4. Filter is a cleanable polypropylene mesh.
20
Heat Controller HRC SERIES Design Guide
Console Bottom Return Chassis Dimensions Size 09 - 15
Optional Power Termination (D,H,K) Box (mounted to cabinet not chassis) Power supply enters Bottom of Box
Optional Disconnect (F) Only Box
Power supply enters Bottom of Box 2 x 4 junction box with switch facing front or side.
4.56 (116)
4.25 (108)
20.50 (521)
Access Panel
0.75 (19)
Optional Autoflow Valve
Optional Motorized W
5.36 (136)
3.01 (76)
0.87 (22) 5.32 (135) 3.56 (90)
4.12 (105)
11.54 (293)
*16.66 (423)
40.98 (1040)
Access Panel
4.25 (108) 0.75 (19)
40.98 (1041)
30.00 (762)
4.25 (108)
0.75 (19)
*16.66 (423)
5.36 (136)
3.01 (76)
0.87 (22)
4.12 (105)
5.32 (135) 3.56 (90)
11.54 (293)
Optional Autoflow
Optional Motorized
All Dimensions are in inches (mm) * If subbase option is selected for installed dimension, add to dimension shown 4.90" [124mm] for 5" subbase,
30.00 (762)
0.75 (19)
20.50 (521)
21
Design Guide HRC SERIES Heat Controller
Console Front Return Chassis Dimensions Size 09 - 15
Power Termination (D, H, K) Breaker Box
(mounted to cabinet not chassis) Power supply enters Bottom of Box
Optional Disconnect (F) Only Box
Power supply enters Bottom of Box 2 x 4 junction box with switch facing front or side.
4.25 (108)
4.56 (116)
5.36 (136)
3.01 (76)
0.87 (22)
Optional Autoflow Valve
Optional Motorized W
5.33 (135) 3.56 (90)
4.12 (105)
11.54 (293)
16.66 (423)
40.98 (1041)
Access Panel
7.38 (187)
4.25 (108) 0.75 (19)
20.50 (521)
Access Panel
7.38 (187)
0.75 (19)
40.98 (1041)
30.00 (762)
4.25 (108)
0.75 (19)
16.66 (423)
5.36 (136)
3.01 (76)
0.87 (22)
3.25 (83)
4.12 (105) 5.32 (135)
11.54 (293)
Optional Autoflow
Optional Motorized
All Dimensions are in inches (mm) Chassis can mount directly on floor Optional autoflow valve, motorized water valve and disconnect box are shown.
0.75 (19)
30.00 (762)
20.50 (521)
Power Termination (D, H, K) Breaker Box
22
20.50
(521)
0.75
(19)
0.75
(19)
40.98
(1040)
Heat Controller HRC SERIES Design Guide
Compressor
Access
Panel
8.00 Min
(203)
(203)
2.00
(51)
2.00
(51)
Optional
Motorized
Water Connections
5/8Ó (15.9) OD
Copper, 1/2Ó FPT, or
1/2Ó MPT
*
11.25 (286)
2.25
(57)
2.25
(57)
Piping Detail Size 09-15
Out
In
Optional Flow
Regulator
Out
In
Optional
Autoflow
Valve
Valve
1.84
(47)
1.84
(47)
Optional
Motorized
Water Valve
Water Connections
OD Copper,
1/2" FPT or
1/2" MPT
Optional Fused
(mounted to cabinet not chassis)
Optional Disconnect
Only Box (All Configurations)
Optional
Autoflow
Valve
Out Out
In
Optional
Motorized
Water Valve
Water Connections
5/8" (15.9AA)
OD Copper,
1/2" FPT or
1/2" MPT
Optional
Disconnect Box
(mounted to cabinet not chassis)
2.25
(57)
2.25
(57)
Water Connections
5/8Ó (15.9) OD
Copper, 1/2Ó FPT, or 1/2Ó MPT
*
11.25 (286)
2.25
(57)
2.25
(57)
2.00
(51)
2.00
(51)
8.00 Min
(203)
8.00 Min
(203)
5/8" (15.9) ID
Vinyl Hose 2.72
(96)
2.72
(96)
Left Hand Configuration
*
Dimension reduced by fitting if selected
23
� CAUTION! � �
CAUTION!
ÊÊCorrosiveÊsystemÊwaterÊrequiresÊcorrosionÊ
� CAUTION! � �
CAUTION!Ê PipingÊmustÊcomplyÊwithÊallÊapplicableÊcodes.
Design Guide HRC SERIES Heat Controller
Console Cabinet Dimensions Size 18 - Bottom Return - Left Hand Piping
B
F
Discharge Air
Grille
Left Hand Bottom Return
11.00
(279)
1.50
(38) top of air inlet area. Rotate filter latch forward, filter rack can be pulled forward 3” to 4” for filter access
AIR INLET AREA
C
A
Control Access Door
FRONT VIEW
3.53
(90)
.12
(3)
Discharge
Air
30˚
Removable
Cabinet
Sub-base
Air
Inlet
11.50
(292)
12.00
(305)
25.90
(658)
Fixed
Back
Wrapper
2.12 (54)
BOTTOM VIEW
Standard
Unit
Extended
Unit
A
54.00
(1372)
60.00
B
1.75
(44.5)
C
39.75
(1010)
D
15.90
(403)
E
4.50
(114)
F
5.00
(127)
Bottom Access for
Piping and Electric
(Note 2)
E
1.00 (25)
1.00 (25)
Secondary circulation pump models will have extended unit.
REAR VIEW
L.H.
Rear Access for Piping and Electric
(Note 2)
DAMPER OPENING
D
A
Notes:
1. All Dimensions are in inches (mm).
2. Access is reduced if optional disconnect box is selected.
3. Optional autoflow regulator, motorized water valve, and disconnect box are not shown.
4. Filter is 1” (25) thick fiberglass throwaway.
Rev.: 10/06/08B
24
Heat Controller HRC SERIES Design Guide
21.00
(533)
C
Console Cabinet Dimensions Size 18 - Front Return - Left Hand Piping
Discharge Air
Grille
Left Hand Front Return
1.50
(38.1)
30˚
Control Access Door
FRONT VIEW
21.00
(533)
7.90
(201)
12.00
(305)
Removable
Cabinet
Fixed
Back
Wrapper
.50
(13)
A air grille and requires removal of cabinet front for access.
D
BOTTOM VIEW
Bottom Access for
Piping and Electric
(Note 2)
B
Standard
Unit
Extended
Unit
A
54.00
(1372)
(1524)
B
4.50
(114)
(267)
C
5.00
(127)
(279)
D
4.12
(105)
(257)
1.00 (25)
1.00 (25)
Secondary circulation pump models will have extended unit.
REAR VIEW
L.H.
Rear Access for Piping and Electric
(Note 2)
21.00
(533)
A
Notes:
1. All Dimensions are in inches (mm).
2. Access is reduced if optional disconnect box is selected.
3. Optional autoflow regulator, motorized water valve, and disconnect box are not shown.
4. Filter is a cleanable polypropylene mesh.
Rev.: 10/06/08B
25
Design Guide HRC SERIES Heat Controller
Console Cabinet Dimensions Size 18 - Bottom Return - Right Hand Piping
Right Hand Bottom Return
Discharge Air
Grille
F
B
Filter located inside and at top of air inlet area. Rotate filter latch forward, filter rack can be pulled forward 3” to 4” for filter access.
Control Access Door
FRONT VIEW
AIR INLET AREA
C
A
30˚
Removable
Cabinet
SIDE
VIEW
Sub-base
Air
Inlet
Fixed
Back
Wrapper
25.90
(658)
4.90
(125)
Bottom Access for
Piping and Electric
(Note 2)
BOTTOM VIEW
2.12 (54)
0.75 (19)
1.75
Standard
Unit
Extended
Unit
A
54.00
(1372)
60.00
(1524)
B
1.75
(44.5)
1.75
(44.5)
C
39.75
(1010)
35.75
(908)
D
15.90
(403)
14.00
(356)
E
4.50
(114)
10.50
(267)
F
5.00
(127)
11.00
(279)
E
RH Rear
Access for
Electric
(Note2)
REAR VIEW
1.63
(41)
DAMPER OPENING
D
A
Notes:
1. All Dimensions are in inches (mm).
2. Access is reduced if optional disconnect box is selected.
3. Optional autoflow regulator, motorized water valve, and disconnect box are not shown.
4. Filter is 1” (25) thick fiberglass throwaway.
Rev.: 10/06/08B
Secondary circulation pump models will have extended unit.
26
Heat Controller HRC SERIES Design Guide
1.50
(38)
21.00
(533)
Console Chassis Dimensions Size 18 - Front Return - Right Hand Piping
Right Hand Front Return
Discharge Air
Grille
C
30˚
Control Access Door
FRONT VIEW
21.00
(533)
A
1.00(25)
1.00(25)
B
Access for
Piping and
BOTTOM VIEW
REAR VIEW
D
.50 (13)
Removable
Cabinet
Fixed
Back
Wrapper
Bottom Access for Piping and Electric
(Note 2)
Standard
Unit
Extended
Unit
A
54.00
(1372)
60.00
(1524)
B
4.50
(114)
10.50
(267)
C
5.00
(127)
11.00
(279)
D
4.12
(105)
10.12
(257)
.75 (19)
Secondary circulation pump models will have extended unit.
A
Notes:
1. All Dimensions are in inches (mm).
2. Access is reduced if optional disconnect box is selected.
3. Optional autoflow regulator, motorized water valve, and disconnect box are not shown.
4. Filter is a cleanable polypropylene mesh.
Rev.: 10/07/08B
27
Design Guide HRC SERIES Heat Controller
Console Bottom Return Chassis Dimensions Size 18
20.50 (521)
0.75 (19)
Power Termination (D, H, K) Breaker Box (mounted to cabinet not chassis) Power supply enters Bottom of Box
Optional Disconnect (F) Only Box
Power supply enters Bottom of Box 2 x 4 junction box with switch facing front or side.
4.25 (108)
4.56 (116)
Access Panel
46.98 (1193)
36.00 (914)
3.01 (76)
Optional Autoflow Valve
0.87 (22)
Optional Motorized Water V
5.32 (135) 4.12 (105)
4.12 (105)
11.54 (293)
4.25 (108)
0.75 (19)
Optional Autoflow
Optional Motorized
*16.66 (423)
4.25 (108) 0.75 (19)
5/8" ID V (15.8mm)
Access Panel
*16.66 (423)
5.36 (136)
3.01 (76)
0.87 (22)
Optional Autoflow
Optional Motorized
4.12 (105)
5.32 (135) 3.56 (90)
11.54 (293)
46.98 (1193)
36.00 (914)
All Dimensions are in inches (mm) * For installed dimension, add to dimension shown 4.9" [124mm] for 5" subbase. Optional autoflow valve, motorized water valve and disconnect box are shown.
0.75 (19)
20.50 (521)
Power Termination (D, H, K) Breaker Box
28
Heat Controller HRC SERIES Design Guide
Console Chassis Dimensions Size 18
Power Termination (D, H, K) Breaker Box
(mounted to cabinet not chassis) Power supply enters Bottom of Box
Optional Disconnect (F) Only Box
Power supply enters Bottom of Box 2 x 4 junction box with switch facing front or side.
4.25 (108)
4.56 (116)
5.36 (136)
3.01 (76)
0.87 (22)
Optional Autoflow Valve
Optional Motorized W
5.33 (135) 3.56 (90)
4.12 (105)
11.54 (293)
16.66 (423)
40.98 (1041)
Access Panel
7.38 (187)
4.25 (108) 0.75 (19)
20.50 (521)
Access Panel
7.38 (187)
0.75 (19)
40.98 (1041)
30.00 (762)
4.25 (108)
0.75 (19)
16.66 (423)
5.36 (136)
3.01 (76)
0.87 (22)
3.25 (83)
4.12 (105) 5.32 (135)
11.54 (293)
Optional Autoflow
Optional Motorized
All Dimensions are in inches (mm) Chassis can mount directly on floor Optional autoflow valve, motorized water valve and disconnect box are shown.
0.75 (19)
30.00 (762)
20.50 (521)
Power Termination (D, H, K) Breaker Box
29
Design Guide HRC SERIES Heat Controller
Blower Deck
Blower Access Panel
Piping Detail Size 18
1.75 (44)
Control Box
Compressor
Access
Panel
1.50
(38)
Water
Out
Water
In
8.00 Min
(203)
Optional
Motorized
Water Valve
Water Connections
7/8” (22.2) OD
Copper, 3/4” IPT, or
3/4” EPT
*
11.12 (282)
1.75 (44)
Optional Auto Flow
Valve
Out
In
Optional
Autoflow
Valve
2.12
(54)
Optional
Motorized
Water Valve
1.84
(47)
Condensate
5/8" (15.9) ID
Vinyl Hose
Water Connections
.875 (22.2mm)
OD Copper,
3/4" IPT or
3/4" EPT
Optional
Autoflow
Valve
Optional Fused
Disconnect Box
(mounted to cabinet not chassis)
Also Available in Non-Fused
Optional
Autoflow
Valve
Optional
Motorized
Water Valve
Water Connections
.875 (22.2)
OD Copper,
3/4" IPT or
3/4" EPT
Optional
Disconnect Box
(mounted to cabinet not chassis)
Out
In
Water
Connections
7/8” (22.2) OD
Copper, 3/4” IPT, or 3/4” EPT
2.12
(54)
Condensate
5/8" (15.9) ID
Vinyl Hose 2.72
(96)
Optional
Autoflow
Valve
Optional
Motorized
Water Valve
1.50
(38)
1.75 (44)
*
11.12 (282)
2.25
(286)
8.00 Min
(203)
Blower Deck
Blower Access Panel
Control Box
Compressor
Access
Panel
Notes:
*
Dimension reduced by fitting if selected
30
Rev.: 10/07/08B
* For installed dimension, add to dimension shown 2.9" [74mm] with 3" subbase and 4.9" [124mm] for 5" subbase.
Optional autoflow valve, motorized water valve and disconnect box are shown.
Water connection in same location regardless of connection type.
Heat Controller HRC SERIES Design Guide
HRC Series Wiring Diagram Matrix
Only CXM and DXM diagrams, with a representative diagram of LON and MPC Options are presented in this submittal.
Other diagrams can be located online at Heat Controller.com using the part numbers presented below.
Model Refrigerant Wiring Diagram
HFC-410A 96B0099N52
HRC09 -
HRC18
HFC-410A
HFC-410A
HFC-410A
HFC-410A
HFC-410A
96B0099N53
96B0099N54
96B0099N55
96B0100N52
96B0100N53
HFC-410A
HFC-410A
96B0100N54
96B0100N55
Electrical
115/60/1,
208-230/60/1,
265/60/1
115/60/1,
208-230/60/1,
265/60/1
CXM
DXM
Control
ACO/MCO
REM
LON
MPC
ACO/MCO
REM
LON
MPC
Agency
ETL
ETL
ETL
ETL
ETL
ETL
ETL
ETL
31
Design Guide HRC SERIES Heat Controller
Typical Wiring Diagram –
Manual & Auto Change Over HRC Units with CXM Controller
32
Heat Controller HRC SERIES Design Guide
Typical Wiring Diagram –
Remote Mounted Thermostat HRC Units with CXM Controller
33
Design Guide HRC SERIES Heat Controller
Typical Wiring Diagram –
HRC Units with CXM & LON Controller
34
Heat Controller HRC SERIES Design Guide
Typical Wiring Diagram –
HRC Units with CXM & MPC Controller
35
Design Guide HRC SERIES Heat Controller
Typical Wiring Diagram –
Manual & Auto Change Over HRC Units with DXM Controller
36
Heat Controller HRC SERIES Design Guide
Typical Wiring Diagram –
Remote Mounted Thermostat HRC Units with DXM Controller
ALL HRC
37
Design Guide HRC SERIES Heat Controller
Typical Wiring Diagram –
HRC Units with DXM & LON Controller
38
Heat Controller HRC SERIES Design Guide
Typical Wiring Diagram –
HRC Units with DXM & MPC Controller
39
NOTICE!
ClimateMaster
TRANQUILITY ® CONSOLE MODEL “TRC” SIZE
09-18 60 Hz
ENGINEERING SPECIFICATIONS
Rev . August 13, 2014
Design Guide HRC SERIES Heat Controller
Console (HRC) Series 60Hz Engineering Specifications – Page 1
General:
Furnish and install Heat Controller “Console” Water Source Heat Pumps, as indicated on the plans . Equipment shall be completely assembled, piped and internally wired. Capacities and characteristics as listed in the schedule and the specifications that follow.
Units shall be supplied completely factory built capable of operating over an entering water temperature range from 20° to 120°F
(-6 .7° to 48 .9°C) as standard . Equivalent units from other manufacturers may be proposed provided approval to bid is given 10 days prior to bid closing. All equipment listed in this section must be rated and certified in accordance with Air-Conditioning, Heating and Refrigeration Institute/International Standards Organization (AHRI/ISO 13256-1) . All equipment must be tested, investigated, and determined to comply with the requirements of the standards for Heating and Cooling Equipment UL-1995 for the United
States and CAN/CSA-C22 .2 NO .236 for Canada, by Intertek Testing Laboratories (ETL) . The units shall have AHRI/ISO and ETL-
US-C labels .
All units shall be fully quality tested by factory run testing under normal operating conditions as described herein . Quality control system shall automatically perform via computer: triple leak check, pressure tests, evacuation and accurately charge system, perform detailed heating and cooling mode tests, and quality cross check all operational and test conditions to pass/fail criteria .
Detailed report card will ship with each unit displaying status for critical tests and components . Note: If unit fails on any cross check, it shall not be allowed to ship. Serial numbers will be recorded by factory and furnished to contractor on report card for ease of unit warranty status. Units tested without water flow are not acceptable.
Basic Construction:
Console units shall have one of the following air flow and piping arrangements: Front Inlet/Right-hand Piping; Front Inlet/Left-hand piping; Bottom Inlet/Right-hand piping; or Bottom Inlet/Left-hand piping as shown on the plans . If units with these arrangements are
NOT used, the contractor is responsible for any extra costs incurred by other trades. If other arrangements make servicing difficult, the contractor must provide access panels and clear routes to ease service . Architect/Engineer must approve any changes in layout .
The cabinet, wall mounted back wrapper and subbase shall be constructed of heavy gauge galvanized steel with a baked polyester powder coat paint finish. Corrosion protection system shall meet the stringent 1000 hour salt spray test per ASTM B117. Unit corrosion protection must meet these stringent requirements or unit(s) will not be accepted.
Both sides of the steel shall be painted for added protection . Additionally, the wall mounted back wrapper shall have welded corner bracing . The easily removable cabinet enclosure allows for easy service to the chassis, piping compartment and control compartment .
All interior surfaces shall be lined with 1/4 inch (6.4mm) thick, 2 lb/ft3 (32 kg/m3) acoustic flexible blanket type glass fiber insulation with a non-woven, anti-microbial treated mat face . Insulation placement shall be designed in a manner that will eliminate any exposed edges to prevent the introduction of glass fibers into the air stream. Standard insulation must meet NFPA Fire Hazard
Classification requirements 25/50 per ASTM E84, UL 723, CAN/ULC S102-M88 and NFPA 90A requirements; air erosion and mold growth limits of UL-181; stringent fungal resistance test per ASTM-C1071 and ASTM G21; and shall meet zero level bacteria growth per ASTM G22 . Unit insulation must meet these stringent requirements or unit(s) will not be accepted.
The cabinet shall have a 30º sloped top with aluminum rigid bar type discharge grille . Aluminum discharge grille shall be anodized charcoal grey in color including hinged control door . Cabinet shall have rounded edges (0 .325 inch / 8 .255 mm minimum radius) on all exposed corners for safety and aesthetic purposes . Units not having sloped top and rounded corners (0.325 inch/8.255 mm minimum) on front, side, top slope, and top corners shall not be accepted.
Return Air Filter shall be 1” (25.4mm) fiberglass disposable type media for bottom return units (units with sub-base) or 1/8” (3.2mm) permanent cleanable type media for front return type units .
Option: The unit shall be provided with a keyed lock on the control access door.
Option: The unit shall be provided with a motorized outside air damper and damper assembly, factory mounted and wired.
Option: The unit shall be provided without a subbase (5 inch / 127mm high subbase is standard).
Option: The unit shall include a front return air grille integrally stamped into Cabinet (subbase not required).
Option: The unit shall include an optional architectural-style field installed return air grille to help conceal the subbase return air opening (units with bottom return only).
40
Heat Controller HRC SERIES Design Guide
Console (HRC) Series 60Hz Engineering Specifications – Page 2
Option: UltraQuiet package shall consist of high technology sound attenuating material that is strategically applied to the compressor and compressor compartment in addition to the standard system design, to further dampen and attenuate sound transmissions. Compressor is mounted on specially engineered sound-tested EPDM isolators.
Fan and Motor Assembly:
Fan and motor assembly shall be assembled on a slide out fan deck with quick electrical disconnecting means to provide and facilitate easy field servicing. The fan motor shall be multi-speed, permanently lubricated, PSC type, with internal thermal overload protection . Units supplied without permanently lubricated motors must provide external oilers for easy service . The fan motor shall include a torsionally flexible motor mounting system or saddle mount system with resilient rings to inhibit vibration induced high noise levels associated with “hard wire belly band” motor mounting. The airflow rating of the unit shall be based on a wet coil and a clean filter in place. Ratings based on a dry coil and/or no filter shall NOT be acceptable.
Refrigerant Circuit:
All units shall contain a (HFC-410A) sealed refrigerant circuit including a high efficiency rotary compressor designed for heat pump operation, a thermostatic expansion valve for refrigerant metering, an enhanced corrugated aluminum lanced fin and rifled copper tube refrigerant to air heat exchanger, reversing valve, coaxial (tube in tube) refrigerant to water heat exchanger, and safety controls including a high pressure switch, low pressure switch (loss of charge), water coil low temperature sensor, and air coil low temperature sensor. Access fittings shall be factory installed on high and low pressure refrigerant lines to facilitate field service.
Activation of any safety device shall prevent compressor operation via a microprocessor lockout circuit . The lockout circuit shall be reset at the thermostat or at the optional disconnect switch . Units that cannot be reset at the thermostat shall not be acceptable.
Hermetic compressors shall be internally sprung . The compressor will be mounted on specially engineered sound-tested EPDM vibration isolation grommets for maximized vibration attenuation . Compressor shall have thermal overload protection . Compressor shall be located in an insulated compartment away from air stream to minimize sound transmission .
Refrigerant to air heat exchangers shall utilize enhanced corrugated lanced aluminum fins and rifled copper tube construction rated to withstand 625 PSIG (4309 kPa) refrigerant working pressure . Refrigerant to water heat exchangers shall be of copper inner water tube and steel refrigerant outer tube design, rated to withstand 625 PSIG (4309 kPa) working refrigerant pressure and
500 PSIG (3445 kPa) working water pressure . The refrigerant to water heat exchanger shall be “electro-coated” with a low cure cathodic epoxy material a minimum of 0 .4 mils thick (0 .4 – 1 .5 mils range) on all surfaces . The black colored coating shall provide a minimum of 1000 hours salt spray protection per ASTM B117-97 on all external steel and copper tubing . The material shall be formulated without the inclusion of any heavy metals and shall exhibit a pencil hardness of 2H (ASTM D3363-92A), crosshatch adhesion of 4B-5B (ASTM D3359-95), and impact resistance of 160 in-lbs (184 kg-cm) direct (ASTM D2794-93) .
Refrigerant metering shall be accomplished by thermostatic expansion valve only . Expansion valves shall be dual port balanced type with external equalizer for optimum refrigerant metering . Units shall be designed and tested for operating ranges of entering water temperatures from 20° to 120°F (-6 .7° to 48 .9°C) . Reversing valve shall be four-way solenoid activated refrigerant valve, which shall default to heating mode should the solenoid fail to function . If the reversing valve solenoid defaults to cooling mode, an additional low temperature thermostat must be provided to prevent over-cooling an already cold room .
Option: The unit will be supplied with cupro-nickel coaxial water to refrigerant heat exchanger.
Option: The unit will be supplied with internally factory mounted two-way water valve for variable speed pumping requirements.
A factory-mounted or field-installed high pressure switch shall be installed in the water piping to disable compressor operation in the event water pressures build due to water freezing in the piping system.
Option: The unit will be supplied with internally factory mounted automatic water flow regulators.
Option: The unit will be supplied with internally mounted secondary pump for primary/secondary applications, specifically one-pipe systems. (Requires extended unit).
Option: The unit shall be supplied with extended range Insulation option, which adds closed cell insulation to internal water lines, and provides insulation on suction side refrigeration tubing including refrigerant to water heat exchanger.
Option: The refrigerant to air heat exchanger shall be coated.
Piping:
Water piping shall terminate in the same location regardless of the connection and valve options .
Option: Threaded MPT copper fittings (sweat connections are standard).
41
Design Guide HRC SERIES Heat Controller
Console (HRC) Series 60Hz Engineering Specifications – Page 3
Option: Threaded FPT copper fittings (sweat connections are standard).
Drain Pan:
The drain pan shall be constructed of galvanized steel and have a powder coat paint application to further inhibit corrosion . This corrosion protection system shall meet the stringent 1000 hour salt spray test per ASTM B117 . If plastic type material is used, it must be HDPE (High Density Polyethylene) to avoid thermal cycling shock stress failure over the lifetime of the unit . Drain pan shall be insulated . Drain outlet shall be located at pan as to allow complete and unobstructed drainage of condensate . The unit as standard will be supplied with solid-state electronic condensate overflow protection. Mechanical float switches will NOT be accepted.
Option: The unit shall be supplied with stainless steel drain pan.
Electrical:
Unit control shall be located under the hinged control door in the sloped top grille . Operating control shall consist of push buttons to select mode of operation “OFF”, “HEAT,” “COOL,” “AUTO”, Fan “AUTO” (fan cycles with compressor), Fan “ON” (continuous fan),
Fan “LO” (low speed fan), and Fan “HI” (high speed fan) . Temperature adjustment shall be accomplished via two push buttons, one labeled with an arrow up, and the other labeled with an arrow down . Control shall include an LCD display for display of temperature and setpoint . Units without an LCD display shall not be accepted.
A control box shall be located above the unit compressor compartment and shall contain operating controls as outlined in the paragraph above, 24VAC transformer, double-pole compressor relay, and solid-state controller for complete unit operation .
Reversing valve and fan motor wiring shall be routed through this electronic controller . Units shall be name-plated for use with time delay fuses or HACR circuit breakers . A unit-mounted digital thermostat with a remote sensor measuring return air temperature shall control the compressor operation for heating and cooling. Field can configure digital ACO unit mounted thermostat for MCO operation, F or C temperature reading, and offset .
Option: Provisions for remote thermostat (single fan speed).
Option: Disconnect Switch, Non-Fused.
Option: Breaker.
Option: 20A power plug/cord.
Option: 20A plug/cord, receptacle, with breaker.
Option: 20A plug/cord, receptacle, disconnect switch, non-fused.
Solid State Control System (CXM):
Units shall have a solid-state control system . Units utilizing electro-mechanical control shall not be acceptable . The control system microprocessor board shall be specifically designed to protect against building electrical system noise contamination, EMI, and
RFI interference . The control system shall interface with a heat pump type thermostat . The control system shall have the following features: a . Anti-short cycle time delay on compressor operation .
b . Random start on power up mode .
c . Low voltage protection .
d . High voltage protection .
e . Unit shutdown on high or low refrigerant pressures .
f . Unit shutdown on low water temperature .
g. Condensate overflow electronic protection.
h . Option to reset unit at thermostat or disconnect .
i . Automatic intelligent reset . Unit shall automatically reset the unit 5 minutes after trip if the fault has cleared . If a fault occurs 3 times sequentially without thermostat meeting temperature, then lockout requiring manual reset will occur .
j . Ability to defeat time delays for servicing .
k . Light emitting diode (LED) on circuit board to indicate high pressure, low pressure, low voltage, high voltage, low water/air temperature cut-out, condensate overflow, and control voltage status.
l. The low-pressure switch shall not be monitored for the first 120 seconds after a compressor start command to prevent nuisance safety trips .
m . 24V output to cycle a motorized water valve or other device with compressor contactor .
n. Unit Performance Sentinel (UPS). The UPS warns when the heat pump is running inefficiently.
o . Water coil low temperature sensing (selectable for water or anti-freeze) .
p . Air coil low temperature sensing .
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Heat Controller HRC SERIES Design Guide
Console (HRC) Series 60Hz Engineering Specifications – Page 4
NOTE: Units not providing the 8 safety protections of anti-short cycle, low voltage, high voltage, high refrigerant pressure, low pressure (loss of charge), air coil low temperature cut-out, water coil low temperature cut-out, and condensate overflow protections will not be accepted.
Option: Enhanced solid state control system (DXM)
This control system features two stage control of cooling and two stage control of heating modes for exacting temperature and dehumidification purposes.
This control system coupled with a multi-stage thermostat will better dehumidify room air by automatically running the heat pump’s fan at lower speed on the first stage of cooling thereby implementing low sensible heat ratio cooling. On the need for higher cooling performance the system will activate the second stage of cooling and automatically switch the fan to the higher fan speed setting .
This system may be further enhanced with a humidistat . Units not having automatic low sensible heat ratio cooling will not be accepted; as an alternate a hot gas reheat coil may be provided with control system for automatic activation.
Control shall have all of the above-mentioned features of the CXM control system along with the following expanded features: a . Removable thermostat connector .
b . Night setback control .
c . Random start on return from night setback .
d . Minimized reversing valve operation (Unit control logic shall only switch the reversing valve when cooling is demanded for the first time. The reversing valve shall be held in this position until the first call for heating, ensuring quiet operation and increased valve life .) .
e . Override temperature control with 2-hour timer for room occupant to override setback temperature at the thermostat .
f . Dry contact night setback output for digital night setback thermostats .
g . Ability to work with heat pump or heat/cool (Y, W) type thermostats .
h . Ability to work with heat pump thermostats using O or B reversing valve control .
i . Emergency shutdown contacts .
j . Boilerless system heat control at low loop water temperature .
k . Ability to allow up to 3 units to be controlled by one thermostat .
l . Relay to operate an external damper .
m . Ability to automatically change fan speed from multistage thermostat .
n . Relay to start system pump .
o . 75 VA control transformer . Control transformer shall have load side short circuit and overload protection via a built in circuit breaker .
Digital Night Setback with Pump Restart (DXM w/ATP32U03/04)
The unit will be provided with a Digital Night Setback feature using an accessory relay on the DXM controller with an ATP32U03/04 thermostat and an external, field-provided time clock. The external time clock will initiate and terminate the night setback period.
The thermostat will have a night setback override feature with a programmable override time period .
An additional accessory relay on the unit DXM controller will energize the building loop pump control for the duration of the override period . (Note: this feature requires additional low voltage wiring. Consult Application Drawings for details.)
Remote Service Sentinel (CXM/DXM):
Solid state control system shall communicate with remote thermostat with fault indicator, to display (at the thermostat) the unit status, fault status, and specific fault condition, as well as retrieve previously stored fault that caused unit shutdown. The Remote
Service Sentinel allows building maintenance personnel or service personnel to diagnose unit from the wall thermostat . The control board shall provide a signal to the thermostat fault light, indicating a lockout . Upon cycling the G (fan) input 3 times within a 60 second time period, the fault light shall display the specific code as indicated by a sequence of flashes. A detailed flashing code shall be provided at the thermostat LED to display unit status and specific fault status such as over/under voltage fault, high pressure fault, low pressure fault, low water temperature fault, condensate overflow fault, etc.
Units that do not provide this remote service sentinel shall not be acceptable.
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Design Guide HRC SERIES Heat Controller
Console (HRC) Series 60Hz Engineering Specifications – Page 5
Option: Lonworks interface system
Units shall have all the features listed above (either CXM or DXM) and the control board will be supplied with a LONWORKS interface board, which is LONMark certified. This will permit all units to be daisy chained via a 2-wire twisted pair shielded cable.
The following points must be available at a central or remote computer location: a . space temperature b . leaving water temperature c . discharge air temperature d . command of space temperature setpoint e . cooling status f . heating status g . low temperature sensor alarm h . low pressure sensor alarm i . high pressure switch alarm j . condensate sensor alarm k . hi/low voltage alarm l. fan “ON/AUTO” position of space thermostat as specified above m . unoccupied/occupied command n . cooling command o . heating command p . fan “ON/AUTO” command q . fault reset command r. itemized fault code revealing reason for specific shutdown fault (any one of 7)
This option also provides the upgraded 75VA control transformer with load side short circuit and overload protection via a built in circuit breaker .
Option: MPC (Multiple Protocol Control) interface system
Units shall have all the features listed above (either CXM or DXM) and the control board will be supplied with a Multiple Protocol interface board. Available protocols are BACnet MS/TP, Modbus, or Johnson Controls N2. The choice of protocol shall be field selectable/changeable via the use of a simple selector switch . Protocol selection shall not require any additional programming or special external hardware or software tools.
This will permit all units to be daisy chain connected by a 2-wire twisted pair shielded cable . The following points must be available at a central or remote computer location: a . space temperature b . leaving water temperature c . discharge air temperature d . command of space temperature setpoint e . cooling status f . heating status g . low temperature sensor alarm h . low pressure sensor alarm i . high pressure switch alarm j. condensate overflow alarm k . hi/low voltage alarm l. fan “ON/AUTO” position of space thermostat as specified above m . unoccupied/occupied command n . cooling command o . heating command p . fan “ON/AUTO” command q . fault reset command r. itemized fault code revealing reason for specific shutdown fault (any one of 7)
This option also provides the upgraded 75VA control transformer with load side short circuit and overload protection via a built in circuit breaker .
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Heat Controller HRC SERIES Design Guide
Console (HRC) Series 60Hz sEngineering Specifications – Page 6
Warranty:
Heat Controller shall warranty equipment for a period of 12 months from start up or 18 months from shipping (which ever occurs first).
Option: Extended 4-year compressor warranty covers compressor for a total of 5 years.
Option: Extended 4-year refrigeration circuit warranty covers coils, reversing valve, expansion valve and compressor for a total of 5 years.
Option: Extended 4-year control board warranty covers the CXM/DXM control board for a total of 5 years.
FIELD INSTALLED OPTIONS
Hose Kits:
Hoses shall be 1 foot (31cm) long, braided stainless steel; fire rated hoses complete with adapters. Only fire rated hoses will be accepted . Note: Threaded connection piping option must be ordered for hose kit connections .
Option: 2 foot (61cm) hose lengths instead of standard 1 foot (31cm) length.
Valves:
The following valves are available and will be shipped loose: a. Ball valve; bronze material, standard port full flow design, FPT connections.
b . Ball valve with memory stop and PT port .
c . “Y” strainer with blowdown valve; bronze material, FPT connections d . Motorized water valve; slow acting, 24v, FPT connections .
Hose Kit Assemblies:
The following assemblies ship with the valves already assembled to the hose described: a . Supply and return hoses having ball valve with PT port .
b. Supply hose having ball valve with PT port; return hose having automatic flow regulator valve with PT ports, and ball valve.
c. Supply hose having “Y” strainer with blowdown valve, and ball valve with PT port; return hose having automatic flow regulator with PT ports, and ball valve .
d . Supply hose having “Y” strainer with blowdown valve, and ball valve with PT port;
return hose having ball valve with PT port .
Thermostats:
The thermostat shall be a Heat Controller mechanical or electronic type thermostat as selected below with the described features: a . Single Stage Standard Manual Changeover (ATM11C11)
Thermostat shall be a single-stage, horizontal mount, manual changeover with HEAT-OFF-COOL system switch and fan ON-
AUTO switch . Thermostat shall have a mechanical temperature setpoint indicator . Thermostat shall only require 4 wires for connection . Mercury bulb thermostats are not acceptable .
b . Single Stage Digital Auto or Manual Changeover (ATA11U01)
Thermostat shall be a single-stage, digital, auto or manual changeover with HEAT-OFF-COOL-AUTO system switch and fan
ON-AUTO switch . Thermostat shall have an LCD display with temperature and setpoint(s) in ºF or ºC . The Thermostat shall provide permanent memory of setpoint(s) without batteries. A fault LED shall be provided to display specific fault condition.
Thermostat shall provide temperature display offset for custom applications .
c . Single Stage Digital Automatic or Manual Changeover with Two-Speed Fan Control (ATA11U03) – DXM and PSC Fan required
Thermostat shall be a single-stage, digital, auto or manual changeover with HEAT-OFF-COOL-AUTO system switch, fan
ON-AUTO switch, and fan LO-HI switch . Thermostat shall have an LCD display with temperature and setpoint(s) in ºF or ºC .
Thermostat shall allow use of a remote temperature sensor (ASW06 or 17B0031N01), but may be operated with internal sensor via orientation of a jumper .
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Design Guide HRC SERIES Heat Controller
Console (HRC) Series 60Hz Engineering Specifications – Page 7
d . Multistage Digital Automatic Changeover (ATA22U01)
Thermostat shall be multi-stage (2H/2C), manual or automatic changeover with HEAT-OFF-COOL-AUTO-EM HEAT system settings and fan ON-AUTO settings . Thermostat shall have an LCD display with temperature, setpoint(s), mode, and status indication . The temperature indication shall be selectable for ºF or ºC . The thermostat shall provide permanent memory of setpoint(s) without batteries. A fault LED shall be provided to indicate specific fault condition(s). Thermostat shall provide temperature display offset for custom applications. Thermostat shall allow unit to provide better dehumidification with optional
DXM controller by automatically using lower fan speed on stage 1 cooling (higher latent cooling) as main cooling mode, and automatically shifting to high-speed fan on stage 2 cooling .
e . Multistage Manual Changeover Programmable 5/2 Day (ATP21U01)
Thermostat shall be 5 day/2 day programmable (with up to 4 setpoints per day), multi-stage ON-AUTO settings . Thermostat shall have an LCD display with temperature, setpoint(s), mode, and status indication . The temperature indication shall be selectable for ºF or ºC . The thermostat shall provide permanent memory of setpoint(s) without batteries . Thermostat shall provide convenient override feature to temporarily change setpoint . f . Multistage Automatic or Manual Changeover Programmable 7 Day (ATP32U03)
Thermostat shall be 7 day programmable (with up to 4 setpoints per day), multi-stage (3H/2C), automatic or manual changeover with HEAT-OFF-COOL-AUTO-EM HEAT system settings and fan ON-AUTO settings . Thermostat shall have a blue backlit dot matrix LCD display with temperature, setpoints, mode, and status indication . The temperature indication shall be selectable for ºF or ºC. Time display shall be selectable for 12 or 24-hour clock. Fault identification shall be provided (when used with Heat Controller CXM or DXM controls) to simplify troubleshooting by providing specific unit fault at the thermostat with red backlit LCD during unit lockout . The thermostat shall provide permanent memory of setpoints without batteries .
Thermostat shall provide heating setpoint range limit, cooling setpoint range limit, temperature display offset, keypad lockout, dead-band range setting, and inter-stage differential settings . Thermostat shall provide progressive recovery to anticipate time required to bring space temperature to the next programmed event. Thermostat shall provide an installer setup for configuring options and for setup of servicing contractor name and contact information . Thermostat shall allow the use of an accessory remote and/or outdoor temperature sensor (AST008). Thermostat navigation shall be accomplished via five buttons (up/down/ right/left/select) with menu-driven selections for ease of use and programming .
g . Multistage Automatic or Manual Changeover Programmable 7 Day with Humidity Control (ATP32U04)
Thermostat shall be 7 day programmable (with up to 4 setpoints per day), multi-stage (3H/2C), automatic or manual changeover with HEAT-OFF-COOL-AUTO-EM HEAT system settings and fan ON-AUTO settings. Separate dehumidification and humidification setpoints shall be configurable for discreet outputs to a dehumidification option and/or an external humidifier. Installer configuration mode shall allow thermostat dehumidification mode to operate with reheat or with ECM fan dehumidification mode via settings changes. Thermostat shall have a blue backlit dot matrix LCD display with temperature, relative humidity, setpoints, mode, and status indication . The temperature indication shall be selectable for ºF or ºC . Time display shall be selectable for 12 or 24 hour clock. Fault identification shall be provided (when used with Heat Controller CXM or DXM controls) to simplify troubleshooting by providing specific unit fault at the thermostat with red backlit LCD during unit lockout . The thermostat shall provide permanent memory of setpoints without batteries . Thermostat shall provide heating setpoint range limit, cooling setpoint range limit, temperature display offset, keypad lockout, dead-band range setting, and interstage differential settings . Thermostat shall provide progressive recovery to anticipate time required to bring space temperature to the next programmed event. Thermostat shall provide an installer setup for configuring options and for setup of servicing contractor name and contact information . Thermostat shall allow the use of an accessory remote and/or outdoor temperature sensor (AST008). Thermostat navigation shall be accomplished via five buttons (up/down/right/left/select) with menu-driven selections for ease of use and programming .
DDC Sensors:
Heat Controller wall mounted DDC sensor to monitor room temperature and interfaces with optional interface system described above . Several types as described below: a . Sensor only with no display (LON and MPC) .
b . Sensor with override (LON only) .
c . Sensor with setpoint adjustment and override (MPC only) .
d . Sensor with setpoint adjustment and override, LCD display, status/fault indication (LON and MPC) .
Subbase Grille:
Decorative louvered grille covers the front of subbase including the large return air opening. Order separate and field attach.
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Heat Controller HRC SERIES Design Guide
Revision History
Date: Item:
08/13/14 Misc . Edits - Page 4, 16, 22, 43 and Wiring Diagrams and Engineering Specs Updated
11/26/13 Physical Data Table Updated
11/15/13 ASHRAE/AHRI/ISO English & Metric Tables
02/08/13
MCO Thermostat
Engineering Specifications
Added 2 HPWS to Safeties
Updated
Removed
Updated
11/29/12
02/27/12
02/20/12
12/06/11
Console - Chassis Dimensional Data, Sizes 09-15 and 18
Unit Features
Engineering Specifications
All
11/08/11
Electrical Data Table
Cabinet Dimension Illustrations
08/09/11 Unit Maximum Working Water Pressure
08/03/11 Engineering Specifications
Updated to Reflect New Safeties
Added Digital Night Setback with Pump Restart (DXM w/ ATP32U03/04)
Caption Added
Action:
Updated
Updated
Updated
Added Extended Unit for I SP, Deleted Isolation Plate
Updated
07/05/11 Cover Unit Photo
06/13/11
Unit Features
Engineering Specifications
04/07/11 Engineering Specification NOTICE
02/11/11 Performance Data Selection Notes
01/03/11
07/29/10 Cabinet Dimensions-Size 18
07/26/10 Wiring Diagrams
07/26/10 Compressor Mounting Information and Graphics Engineering Specifications
06/11/10 Engineering Specs
06/11/10
06/11/10
06/11/10
03/29/10 Physical Data Table
05/19/09 Engineering Specifications
05/19/09 Stand-Alone and Big Book Submittals
09/22/08 Engineering Specifications
09/22/08
08/26/08
06/12/08
05/30/07
04/19/07
04/19/07
Format All Pages
Bottom Return-Left & Right Hand Piping
Format All Pages
Wiring Diagrams
Engineering Specifications
Cabinet Dimensions Sizes 06-15 and 18
Physical Data Table
Wiring Diagram Matrix
MWV Pressure Drop Data
Table of Contents
Specifications
07/14/06 First published
Updated
Updated
Updated
Updated
Updated Dimensions
Updated
Updated to Reflect Spring/Grommet Change
Updated
Updated
New Wiring Diagrams
Updated
Coax Volume Field Added
Thermostat and Electrical Sections Updated
Consolidated
Updated
Updated and Verbiage Changes
Max Working Pressure Table Added
ETL Information Added
Updated
Added Table of Contents
Updated Specifications with new Safety Agency
47
4/2016
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