Space Pak CSOLSTICE SIM-036 Installation And Operation Manual Download Page 4

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SIM Inverter Monobloc Air-to-Water Heat Pump

Performance

(all data based on pure water)

SIM-036 HEATING

SIM-036 COOLING

Heating Capacity 13,191

17,406

21,621

25,833

30,140

34,447

38,755 BTU/hr

COP

5.01

4.93

4.88

4.84

4.46

4.21

4.04

Heating Capacity 11,062

14,836

18,611

22,386

26,086

29,785

33,488 BTU/hr

COP

4.01

3.87

3.79

3.74

3.64

3.57

3.52

Heating Capacity 10,539

12,621

14,700

16,782

19,536

22,294

25,048 BTU/hr

COP

2.97

2.91

2.88

2.85

2.81

2.78

2.75

Heating Capacity

8,256

9,829

11,406

12,980

15,007

17,038

19,065 BTU/hr

COP

2.18

2.25

2.31

2.35

2.29

2.25

2.22

Heating Capacity

12,116

16,014

20,086

24,154

28,222

32,294

36,366 BTU/hr

COP

3.70

3.54

3.47

3.43

3.31

3.22

3.16

Heating Capacity

9,215

13,065

16,915

20,765

24,427

28,089

31,751 BTU/hr

COP

3.20

3.06

2.98

2.94

2.88

2.84

2.81

Heating Capacity

7,345

10,200

13,300

15,345

18,219

21,089

23,963 BTU/hr

COP

2.50

2.37

2.29

2.23

2.18

2.15

2.13

Heating Capacity

4,150

6,703

9,256

11,809

14,362

16,915

19,468 BTU/hr

COP

1.78

1.82

1.84

1.85

1.88

1.91

1.93

Heating Capacity

18,150

19,256

20,362

21,471

26,004

30,536

BTU/hr

COP

2.80

2.69

2.60

2.52

2.35

2.24

Heating Capacity

12,058

14,270

16,485

18,696

22,471

27,007

BTU/hr

COP

2.50

2.33

2.21

2.13

2.14

2.20

Heating Capacity

8,240

11,320

13,481

14,529

17,444

20,362

BTU/hr

COP

1.45

1.57

1.68

1.79

Heating Capacity

3,413

5,782

8,154

10,522

13,345

16,167

BTU/hr

COP

1.13

1.27

1.34

1.38

1.44

1.48

36°F DB,
34°F WB
19°F DB,
18°F WB

5°F DB,

3°F WB

19°F DB,
18°F WB

5°F DB,

3°F WB

Ambient

Temp.

Compressor

Frequency

Return Water Temperature: 122°F, Supply Water Temperature: 131°F

45°F DB,
43°F WB

5°F DB,

3°F WB

Ambient

Temp.

Compressor

Frequency

Return Water Temperature: 104°F, Supply Water Temperature: 113°F

45°F DB,
43°F WB
36°F DB,
34°F WB

19°F DB,
18°F WB

Ambient

Temp.

Compressor

Frequency

Return Water Temperature: 86°F, Supply Water Temperature: 95°F

45°F DB,
43°F WB
36°F DB,
34°F WB

8,000

16,000

24,000

32,000

40,000

48,000

100

, BT

Compressor Frequency

SIM-036 Heat Capacity 86F RWT

45F DB,
43F WB
36F DB,
34F WB
19F DB,
18F WB
5F DB,
3F WB

8,000

16,000

24,000

32,000

40,000

48,000

100

, BT

Compressor Frequency

SIM-036 Heat Capacity 104F RWT

45F DB,
43F WB
36F DB,
34F WB
19F DB,
18F WB
5F DB,
3F WB

8,000

16,000

24,000

32,000

40,000

48,000

, BT

Compressor Frequency

SIM-036 Heat Capacity 122F RWT

45F DB,
43F WB
36F DB,
34F WB
19F DB,
18F WB
5F DB,
3F WB

1.00

2.00

3.00

4.00

5.00

6.00

100

Compressor Frequency

SIM-036 Heat COP 86F RWT

45F DB,
43F WB
36F DB,
34F WB
19F DB,
18F WB
5F DB,
3F WB

1.00

2.00

3.00

4.00

5.00

100

Compressor Frequency

SIM-036 Heat COP 104F RWT

45F DB,
43F WB
36F DB,
34F WB
19F DB,
18F WB
5F DB,
3F WB

1.00

2.00

3.00

4.00

5.00

Compressor Frequency

SIM-036 Heat COP 122F RWT

45F DB,
43F WB
36F DB,
34F WB
19F DB,
18F WB
5F DB,
3F WB

Cooling Capacity

8,128

10,757

16,904

20,285

23,768

26,603

30,837 BTU/hr

EER

9.90

10.14

10.24

10.00

9.62

9.42

9.22

Cooling Capacity

8,025

10,689

16,836

20,217

23,666

27,149

30,735 BTU/hr

EER

9.42

9.80

10.07

9.73

9.39

9.18

9.04

Cooling Capacity

7,991

10,655

16,768

20,114

23,564

27,115

30,394 BTU/hr

EER

9.18

9.52

9.93

9.56

9.28

9.04

8.81

Cooling Capacity

7,957

10,587

16,665

20,046

23,495

27,047

BTU/hr

EER

8.94

9.28

9.69

9.42

9.18

8.87

Cooling Capacity

12,704

16,631

21,002

24,486

28,413

31,350

34,423 BTU/hr

EER

11.74

12.32

12.97

12.56

11.67

11.40

11.26

Cooling Capacity

12,465

16,563

20,661

24,281

28,242

31,520

34,594 BTU/hr

EER

11.23

11.98

12.42

11.84

11.06

10.89

10.65

Cooling Capacity

12,157

16,085

20,251

23,359

27,935

30,394

34,082 BTU/hr

EER

10.31

10.72

11.64

10.85

9.83

9.66

9.42

Cooling Capacity

11,440

15,538

19,636

22,368

25,613

BTU/hr

EER

9.39

10.03

10.44

9.80

8.77

Return Water Temperature: 59°F, Supply Water Temperature: 50°F

86°F DB

95°F DB

Ambient

Temp.

Compressor

Frequency

Return Water Temperature: 46°F, Supply Water Temperature: 37°F

86°F DB

95°F DB

104°F DB

113°F DB

Ambient

Temp.

Compressor

Frequency

6,000

12,000

18,000

24,000

30,000

36,000

42,000

48,000

100

Capacity, BT

Compressor Frequency

SIM-036 Cooling Capacity 45F RWT

86F DB

95F DB

104F DB

113F DB

6,000

12,000

18,000

24,000

30,000

36,000

42,000

48,000

100

Capacity, BT

Compressor Frequency

SIM-036 Cooling Capacity 59F RWT

86F DB
95F DB
104F DB
113F DB

8.00

9.00

10.00

11.00

12.00

100

Compressor Frequency

SIM-036 Cooling EER 45F RWT

86F DB
95F DB
104F DB
113F DB

8.00

9.00

10.00

11.00

12.00

13.00

14.00

100

Compressor Frequency

SIM-036 Cooling EER 59F RWT

86F DB
95F DB
104F DB
113F DB

Water temperatures shown in the following tables are controlled by the Heating Target Temperature Set point. This is the temperature

of the water returning to the heat pump from the system. The supply water temperature will be higher than the Return Target

Temperature. Settings that will result in supply temperature in excess of 131°F are not recommended and cannot be expected to be

achieved under all conditions.

Water temperatures shown in the following table(s) are controlled by the Cooling Target Temperature Set point. This is the temperature

of the water returning to the heat pump from the system. ("INLET" temperature on the home screen) The supply water temperature

("OUTLET" temperature on the home screen) will be lower than the Return Target Temperature. Settings that will result in the supply

temperature below 37°F are not recommended and cannot be expected to be achieved under all Conditions.

Summary of Contents for CSOLSTICE SIM-036

Page 1: ...n Location Water Loop Connection Electrical Connections Control Input Connections Control Output Connections Dimensions Required Clearances SECTION 3 GLYCOL WATER SYSTEM 13 SECTION 4 WIRING 15 Control...

Page 2: ...the air to refrigerant heat transfer and the refrigerant to water energy transfer Low Ambient Temperature Cooling Operation SIM heat pump is capable of operating in cooling mode in ambient temperature...

Page 3: ...26 10 75 Efficiency IPLV 12 2 12 1 Delivered Water Temp Range DegF 41 68 Ambient Temp Range DegF 50 110 Heating Capacity Range BTU hr 13 191 38 755 25 413 70 666 Efficiency Range COP 5 01 4 04 4 67 3...

Page 4: ...Compressor Frequency SIM 036 Heat Capacity 122F RWT 30 40 50 60 70 80 90 Cooling Capacity 8 128 10 757 16 904 20 285 23 768 26 603 30 837 BTU hr EER 9 90 10 14 10 24 10 00 9 62 9 42 9 22 Cooling Capa...

Page 5: ...city EER Minimum Capacity 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 0 5 000 10 000 15 000 20 000 25 000 30 000 35 000 5 19 36 45 COP r h U T B y t i c a p a C g n i t a e H Ambient Temperatur...

Page 6: ...80 9 Capacity BTU Compressor Frequency SIM 060 Heat Capacity 122F R 30 40 50 60 70 80 90 Cooling Capacity 14 915 26 724 32 389 34 915 41 366 45 973 49 591 BTU hr EER 9 83 9 93 10 07 10 04 9 78 9 39 9...

Page 7: ...aximum Capacity EER Minimum Capacity 1 2 3 4 5 6 7 8 9 10 0 10 000 20 000 30 000 40 000 50 000 60 000 5 19 36 45 COP r h U T B y t i c a p a C g n i t a e H Ambient Temperature F 122 F Returning Water...

Page 8: ...8 SIM Inverter Monobloc Air to Water Heat Pump Typical System Diagram SIM Heating with DHW Offset Applicable to SIM 036 and SIM 060...

Page 9: ...esult The total system must be protected with a Pressure Relief Valve or valves sized to protect the system component with the lowest pressure rating In no instance shall this exceed 30PSI Caution It...

Page 10: ...relay contact capable of switching 24 to 240VAC at a low current to operate a contactor which engages electric or any supplemental heat source according the selected parameters This connection is loca...

Page 11: ...11 SIM Inverter Monobloc Air to Water Heat Pump Dimensions Unit Dimensions inch mm SIM 036 Top View Top View Front View Front View Side View Side View SIM 060...

Page 12: ...12 SIM Inverter Monobloc Air to Water Heat Pump Required Clearances Unit shall be mounted per local codes and high enough off ground to allow for proper condensate drainage...

Page 13: ...ion 26 F 3 C 18 F 8 C 8 F 13 C 7 F 22 C 29 F 34 C SpacePak Capacity Multiplier 0 99 0 98 0 96 0 93 0 88 Pressure Drop Multiplier Cooling 1 10 1 20 1 34 1 5 1 65 Pressure Drop Multiplier Heating 1 10 1...

Page 14: ...System Volume and Expansion Volume To ensure smooth temperature control and minimize cycling of refrigeration system all installations must have total circulating volumes equal to or greater than 7 5...

Page 15: ...ll not operate on the 24V signals from typical thermostats or air handlers Connecting 24V to either of these points will result in signi cant component damage Connect multiple zone system to heat pump...

Page 16: ...nd Definitions Internal Wiring SIM 036 CAUTION The Remote On Off Remote Heat Cool Heat Cool On Off and DHW On OFF inputs are for voltage free relay contacts only Any voltage introduced to the controls...

Page 17: ...On Off Remote Heat Cool Heat Cool On Off and DHW On OFF inputs are for voltage free relay contacts only Any voltage introduced to the controls at these points will immediately destroy the primary uni...

Page 18: ...nd Definitions Internal Wiring SIM 060 CAUTION The Remote On Off Remote Heat Cool Heat Cool On Off and DHW On OFF inputs are for voltage free relay contacts only Any voltage introduced to the controls...

Page 19: ...d Definitions Field Connections SIM 060 CAUTION The Remote On Off Remote Heat Cool Heat Cool On Off and DHW On OFF inputs are for voltage free relay contacts only Any voltage introduced to the control...

Page 20: ...Function of the Ports Display Windows and Functions If the display screen is not touched in 30s the screen will dim The screen will go to sleep after 2 minutes of no operation Touching the screen will...

Page 21: ...he unit will still have power going to it The main display will then turn grey Return Key In each sub menu not the main interface the user can use the return key to return to the previous screen This...

Page 22: ...mode the display will show cooling 4 When choosing Hot Water Heating mode the display will show hot water and heating 5 When choosing Hot Water Cooling mode the display will show hot water and coolin...

Page 23: ...screen and then entering in a numeric value within specified parameters in the control see parameter chart for min and max settings Once a target is set the user will need to press enter to save the s...

Page 24: ...or example If a user does not want the unit to run on Monday from 11 AM 2PM Select Mon at the bottom red arrow should be under the day Select AM and press the clock on the 11 12 block and the 1 2 bloc...

Page 25: ...ature being measured 4 Outlet Water Temp Displays the current outlet water temperature being measured 5 Tank Water Temp Displays the domestic hot water tank temperature if used If installed see wiring...

Page 26: ...selecting and adjusting the appropriate parameters see parameter chart to provide supplemental heat when desired To turn the feature on press the electric heating key and choose on To turn off choose...

Page 27: ...e fans down to provide a quieter operation However the fast whisper will also decrease capacity Use only when quiet operation is required To turn off press Fast Whisper again Fast Whisper may also be...

Page 28: ...istorical the operational curves of the inlet water outlet water and ambient on graph of temperature versus time period Settings Factory The factory key allows the user to enter in a password that wil...

Page 29: ...word 22 the following menus appear Settings Factory Passcode 22 Parameters Parameters Submenu Press this key to access certain parameters only meant to be changed by a user Use the parameter chart fro...

Page 30: ...is Heating S06 DHW On Off Open Closed Indicates DHW enabled by an external switch S07 Electric Heater Overload Open Closed Auxiliary Electric Heater Safety Switch Closed allows normal heater operatio...

Page 31: ...f the fault will all be recorded and displayed The log is capable of holding the most recent 35 faults The fault log can be cleared by pressing the Clear button in the upper right hand corner and then...

Page 32: ...just the screen brightness Press the brightness bar to the right to make the display brighter and the left on the brightness bar to make the display less bright Settings Factory Passcode 66 Password 6...

Page 33: ...tric Heat During Defrost 0 1 66 0 0 If 0 no action If 1 aux heat is energizes during Defrost D11 Compressor Speed during Defrost Hz 30 to 90 66 70 70 Fixed compressor speed during Defrost only EEV E01...

Page 34: ...on H03 Temperature Units 0 1 66 1 1 0 Temps displayed in C press in Bar 1 Temps in F press in PSI H04 4 way valve polarity 0 1 66 0 0 0 Reversing Valve de energized in heating 1 RV energized in Heatin...

Page 35: ...ive when the water temp is below R02 R13 R14 Electric Heat Start AT Deg F 14 to 86 66 41 41 Electric Heat is active after delay when the Amb Temp is below R14 R15 Delay of Electric heater Min 0 to 60...

Page 36: ...r the suction pressure parameter A02 the unit will restart to run automatically 2 If the protection happens over 3 times within 30min the unit won t be restarted automatically Recovery only by manual...

Page 37: ...of D11 The following operations shall be conducted if it complies with stop defrosting requirements a The compressor start to down the frequency at the target frequency of 30Hz timings start b The fa...

Page 38: ...ing the timing mute will result in the time mute failure 2 When F10 1 enable the timing mute function During the time of F11 F12 including F11 excluding F12 if the fan needs to be turned on it will ru...

Page 39: ...pressor is not running the pump will start every P02 minutes and run for the duration of P03 minutes in order to circulate wate from the system through the Heat Pump so that it can sample the water te...

Page 40: ...Format 2 Connect the wire from the BMS to the terminal labeled RS485 in the SIM electrical cabinet and wire from the BMS to the terminal labeled RS485 in the SIM electrical cabinet Locate a GND if re...

Page 41: ...6 Hot water function 0 disable 1 enable DIGI1 1034 03 16 06 40A H17 Cooling mode 0 disable 2 enable DIGI1 1035 03 16 06 40B Reserved 1036 03 16 06 40C Reserved 1037 03 16 06 40D Reserved 1038 03 16 06...

Page 42: ...click mute 0 off 1 on DIGI1 1075 03 16 06 433 Reserved 1076 03 16 06 434 Reserved 1077 03 16 06 435 Reserved 1078 03 16 06 436 Reserved 1079 03 16 06 437 Reserved 1080 03 16 06 438 Reserved 1081 03 16...

Page 43: ...rved 1166 03 16 06 48E Reserved 1167 03 16 06 48F P01 Working mode of circulating water pump 0 normal 1 special 2 intermittent DIGI1 1168 03 16 06 490 P02 Circulating water pump running time interval...

Page 44: ...1238 03 16 06 4D6 Reserved 1239 03 16 06 4D7 Reserved 1240 03 16 06 4D8 Reserved 1241 03 16 06 4D9 Reserved 1242 03 16 06 4DA Reserved 1243 03 16 06 4DB Reserved 1244 03 16 06 4DC Reserved 1245 03 16...

Page 45: ...03 802 T06 Coil temperature TEMP1 2051 03 803 T07 Ambient temperature TEMP1 2052 03 804 T08 Suction pressure TEMP1 2053 03 805 T09 Exhaust pressure TEMP1 2054 03 806 T10 Actual frequency DIGI1 2055 0...

Page 46: ...ter tank temperature sensor failure 0 no 1 yes bit4 Suction temperature sensor failure 0 no 1 yes bit5 Coil temperature sensor failure 0 no 1 yes bit6 Ambient temperature sensor failure 0 no 1 yes bit...

Page 47: ...t14 Reserved 2090 03 82A Failure bit0 Reserved bit1 Reserved bit2 Reserved bit3 Reserved bit4 Reserved bit5 Reserved bit6 Reserved bit7 Reserved bit8 Reserved bit9 Reserved bit10 Reserved bit11 Reserv...

Page 48: ...r lower water temperature E02 Low Pressure Dischare Pressure Excessive refrigerant discharge pressue If in Cooling insufficient water flow If in Heatinging restricted airlow or dirty coil Correct wate...

Page 49: ...49 SIM Inverter Monobloc Air to Water Heat Pump SECTION 7 TROUBLESHOOTING Possible Cause Possible Solution...

Page 50: ...50 SIM Inverter Monobloc Air to Water Heat Pump Troubleshooting continued Possible Causes for the Failure Possible Solutions...

Page 51: ...51 SIM Inverter Monobloc Air to Water Heat Pump SECTION 8 REPLACEMENT PARTS SIM036...

Page 52: ...52 SIM Inverter Monobloc Air to Water Heat Pump Replacement Parts SIM036...

Page 53: ...53 SIM Inverter Monobloc Air to Water Heat Pump Replacement Parts SIM060...

Page 54: ...54 SIM Inverter Monobloc Air to Water Heat Pump Replacement Parts SIM060...

Page 55: ...9 01 Heat exchanger refrigerant to water X 45W50 WG1262 01 X 17 45W40 WG1210 01 Manifold Water outlet X 45W40 WG1210 03 X 18 45W11 WG1211 01 Flow switch X X 19 45W11 WG1212 01 Pressure sensor 0 45bar...

Page 56: ...X 40 45W09 WG1229 01 Fan speed module IC3 X X 41 45W09 WG1230 01 EMI Filter IC4 X 45W09 WG1230 02 X 42 45W09 WG1231 01 Inverter Compressor drive IC2 X 45W09 WG1231 02 X 43 45W09 WG1232 01 Control Boar...

Page 57: ...rter outdoor and indoor components connected via refrigerant piping and electrical wiring purchased on or after February 1 2021 i sold from a licensed HVAC representative of SpacePak and not an unauth...

Page 58: ...ty service Present the sales receipt building permit or other document which establishes proof and date of installation In the absence of acceptable proof this Limited Warranty shall be deemed to begi...

Page 59: ...59 SIM Inverter Monobloc Air to Water Heat Pump...

Page 60: ...IN UNITED STATES 260 NORTH ELM ST WESTFIELD MA 01085 800 465 8558 FAX 413 564 5815 IN CANADA 7555 TRANMERE DRIVE MISSISSAUGA ONTARIO L5S 1L4 905 670 5888 FAX 905 670 5782...

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Summary of Contents for CSOLSTICE SIM-036

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Space Pak CSOLSTICE SIM-036, Installation And Operation Manual, Page: 4 / 60

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Summary of Contents for CSOLSTICE SIM-036

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