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OM00020 Rev 2, FP00091, FP00101 Operation Manual 

Page 

13

 of 

15

 

 

P03 

Integral Time 

10000 

480 

RW 

3024 

LOG 

Status var > MCX Design Hotspots 

  

  

  

  

  

  

V01 

SystemOnOff 

-32768 

32767 

  

Read 

8101 

C01 

Reset Alarms 

  

  

RW 

1859 

V03 

PUMP STATUS 

-32768 

32767 

  

Read 

8102 

V04 

UnitFault 

-32768 

32767 

  

Read 

8103 

V05 

COMPRESSOR STATUS 

-32768 

32767 

  

Read 

8104 

V06 

COMPRESSOR RUN 

-2^31 

2^31 

  

Read 

8105 

V07 

PUMP STATUS 

-32768 

32767 

  

Read 

8107 

V08 

FAN RUN 

-32768 

32767 

  

Read 

8108 

V09 

COMPRESSOR PERCENT 

-32768 

32767 

  

Read 

8109 

V10 

PUMP FLOW ALARM 

-32768 

32767 

  

Read 

8111 

V11 

L2 WARNING 

-32768 

32767 

  

Read 

8112 

V12 

L1 FAULT 

-32768 

32767 

  

Read 

8113 

V13 

T1 OOR 

-32768 

32767 

  

Read 

8114 

V14 

T1 FAULT 

-32768 

32767 

  

Read 

8115 

V15 

T1 VALUE 

-32768 

32767 

  

Read 

8116 

V16 

COMPR OUT 

-32768 

32767 

  

Read 

8117 

V17 

PID EN 

-32768 

32767 

  

Read 

8118 

V18 

POWER UP 

-32768 

32767 

  

Read 

8119 

V19 

Cur Setpoint 

-32768 

32767 

  

Read 

8120 

HLD 

Main Menu > Hold 

  

  

  

  

  

  

P04 

Derivative Time 

10000 

90 

RW 

3025 

P05 

Overshooting 

500 

150 

  

RW 

3026 

P06 

Filter Factor Derivative Action 

100 

12 

  

RW 

3027 

  

ALARMS 

  

  

  

  

  

  

LABEL 

DESCRIPTION 

MIN 

MAX 

RESET 

IN OFF 

  

  

A01 

Control Sensor Fault 

MANUAL 

INACTIVE 

Read 

1901 .08 

E04 

Compressor Fault 

MANUAL 

INACTIVE 

Read 

1901 .09 

E02 

Pump Flow Fault 

MANUAL 

INACTIVE 

Read 

1901 .10 

E01 

L1 Fault 

MANUAL 

ACTIVE 

Read 

1901 .11 

E05 

L2 Warning 

AUTO 

INACTIVE 

Read 

1901 .12 

E03 

Control Sensor Out of Range 

AUTO 

INACTIVE 

Read 

1901 .13 

A02 

Ambient Sensor Fault 

MANUAL 

INACTIVE 

Read 

1901 .14 

  

I/O CONFIGURATION 

  

  

  

  

  

  

AI 

ANALOG INPUTS 

  

  

  

  

  

  

Ti-Control 

-50.0 

110.0 

NTC-TABLE 

°C 

Read 

18502 

Compressor Status 

0.0 

5.0 

0-5 V 

Read 

18503 

Ambient Temp 

-50.0 

110.0 

NTC-TABLE 

°C 

Read 

18507 

Te-Control 

-50.0 

110.0 

NTC-TABLE 

°C 

Read 

18506 

DI 

DIGITAL INPUTS 

  

  

  

  

  

  

Flow Switch 

N.O. 

  

Read 

17504 

Liquid Level L1 

N.O. 

  

Read 

17505 

Liquid Level L2 

N.O. 

  

Read 

17506 

Summary of Contents for FP00091

Page 1: ...Dr Marlborough MA 01752 Installation and Operation Instructions Rack Mount Chiller RMC 800 RMC 1100 FP00091 FP00101 Installations Notes Date of Purchase Date of Installation Installer Model Number Se...

Page 2: ...nal Thermistor 6 Performance 6 Cooling Capacity 6 Performance Curves 6 Coolant Flow Rate 7 Controller Interface 8 Primary Functionality 8 Changing the Setpoint 8 Starting the RMC 9 Turning off the RMC...

Page 3: ...g substance ODS alternative In the event that the RMC is damaged general work clothing leather gloves and eye protection should be worn to prevent exposure to refrigerants The RMC also contains Polyol...

Page 4: ...e coolant loop The presence of foreign materials into the RMC could damage components and reduce system performance Aspen recommends that the customer use an external filter prior to the return line t...

Page 5: ...e reservoir If operating in an environment where the coolant temperature is below the dew point of the ambient air these surfaces will collect condensation To prevent condensation from forming these s...

Page 6: ...e harness that consists of a mating connector and a NTC 10 kOhm thermistor Type 2 The type of thermistor is dependent on the customer s application but Aspen can provide guidance if needed Performance...

Page 7: ...erformance Map Figure 6 RMC 800 Performance Map Coolant Flow Rate The RMC is equipped with a positive displacement pump Using Koolance 702 as a coolant the system can generate the following maximum fl...

Page 8: ...ed with a controller which monitors and controls the system The primary interface of the system is shown in Figure 8 below Figure 8 Controller Interface During normal operation the controller displays...

Page 9: ...rature at the supply CPC default 2 The RMC controls to an external input thermistor see External Thermistor p 6 3 The RMC controls to an internal temperature which is 1 C greater than an external ambi...

Page 10: ...p y01 ON OFF y05 Temperature units y07 Restore default parameters y08 Control sensor y09 Control mode ALA Configuration BUZ Buzzer activation time AdL Alarm relay activation delay AOF Alarm relay acti...

Page 11: ...a fault occurs the user must clear the fault to resume operation of the system To clear a fault the user must do the following Press Press 2 times to reach the Str screen Press Press 2 times to reach...

Page 12: ...3031 ALA General Configuration BUZ Buzzer activation time 0 15 1 min RW 3004 AdL Alarm relay activation delay 0 999 0 s RW 3005 AOF Alarm relay active if unit in OFF 0 1 1 YES Enum 2 RW 3006 SEr Gener...

Page 13: ...18 POWER UP 32768 32767 0 Read 8119 V19 Cur Setpoint 32768 32767 0 Read 8120 HLD Main Menu Hold P04 Derivative Time 0 10000 90 s RW 3025 P05 Overshooting 0 500 150 RW 3026 P06 Filter Factor Derivative...

Page 14: ...notice promptly given will either examine the product at buyer s site or issue shipping instructions for return to Aspen at buyer s expense transportation charges prepaid Aspen s sole obligation unde...

Page 15: ...eplaced at the discretion of Aspen Systems LLC Depending on the circumstances of the problem it may be deemed necessary to return the products to Aspen Systems for repair In order to return the produc...

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