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CLIMATIC™ 60
9 - 1000 kW
ECOLEAN™NEOSYS™
User manual
CL60 AC-CHILLER-IOM-1011-E
Air cooled chiller
Библиотека СОК
• 1 •
CLIMATIC™ 60
222
2357
1014161718192021222425273031
323334
353739446567
CL60-AC CHILLER-IOM-1011-E
CONTROL MANUALRef : CL60-AC CHILLER-IOM-1011-E
TABLE OF CONTENTS
AIR COOLED CHILLER
INTRODUCTIONCLIMATIC™ 60 controllerCompatibilityWarning
OVERVIEWCompressorCondenser fanFan SMART ACOUSTIC SYSTEM™Water evaporatorChangeover heating/cooling modeCoil defrostFree coolingElectronic expansion valveElectrical heaterPower factor correctorPump evaporator managementPump evaporator fl ow controlPump condenser managementPump condenser fl ow controlFree input/outputON/OFF controlReal time lockScheduling zoneScheduling modeSchedule anticipation start-up
COMMUNICATIONMaster / slaveDS60 displayDC60 advanced display or DS60 displayDC60 listBMSAlarms
All the technical and technological information contained in this manual, including any drawing and technical descriptions provided by us, remain the property of Lennox and must not be utilised (except in operation of this product), reproduced, issued to or made available to third parties without the prior written agreement of Lennox.
• 2 • CL60-AC CHILLER-IOM-1011-E
INTRODUCTION
OVERVIEW
CLIMATIC™ 60 CONTROLLERThe new generation of microprocessor based control, CLIMATIC™ 60 may be fi tted to the LENNOX chiller or heat pump range. It inherits 20 years of technology and fi eld operating experience from its predecessors the CLIMATIC™ 1, CLIMATIC™ 2 and CLIMATIC™ 50.LENNOX has found the latest hardware technology available on the market place and developed software specifi cally designed for chiller and heat pump applications, maximising the LENNOX unit’s effi ciency and performance.
COMPATIBILITYThis documentation is compatible with the chiller and heat pump range's programs from software version CH060 STD - Vers. 01.0 - Rev 00.1:• ECOLEAN™,• NEOSYS™.• • • WARNINGAny parameter modifi cation should be carried out by trained and licensed competent technician. Before start-up or restart of a unit controlled by the CLIMATIC™ 60, it is mandatory to check adequacy between CLIMATIC™ 60 and the unit with its options. In case of wrong parameters, the inputs / outputs connections could be incorrect and may create some operation problems for the units and ultimately breakdowns. LENNOX cannot be held responsible for any claims on the units due to a wrong parameters sequence or a parameters modifi cation carried out by non competent technicians. In this case, the warranty will be legally null and void.
pLan bus Fieldbus bus
BMS bus
• 3 •
1
1
1
1
1
1
1
1
2
2
2
2
3
3
3
3
2
2
2
2
3
3
3
3
12h/24h
6h
9h 3h
12h/24h
18h
21h 15h
1, ., .
., 2, .
1, 2, .
., ., 3
1, ., 3
., 2, 3
1, 2, 3
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
COMPRESSOR
FunctionThe CLIMATIC™ 60 manages the compressor(s) according to the outlet temperature demand and engages the number of compressor calculated to reach the water set point.
DescriptionThe CLIMATIC™ 60 offers possibilities to disable some compressor(s) on the circuit. Note this opportunity can also be done by dry contact (Refer to the “Free input/output” paragraph).
The compressors allowed to run can be pre-specifi ed according to the scheduling and can take different values for each schedule mode (A, B, C, D, and BMS).
Setting(3421)
Compressor on circuit(case od 2 circuits)
NO
Moreover, the circuit priority can be specifi ed (for units with 2 circuits)
“Auto”:The CLIMATIC™ 60 decides the priority of the circuit which starts fi rst. Note that the priority is swapped when all the compressors are stopped in order to optimise the operating hours of the two circuits.
C ModeC1: 1,2,3C2: 1,2,3 A Mode
C1: 1,.,.C2: 1,.,.
C ModeC1: 1,2,3C2: 1,2,3
B ModeC1: 1,2,.C2: 1,2,.
B ModeC1: 1,2,.C2: 1,2,.
D ModeC1: .,.,3C2: .,.,3
D ModeC1: .,.,3C2: .,.,3
• 4 •
(3331):
(3332):
(3335):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
The compressor is subject to various operating time in order to prevent from damage operating.• The minimum ON time of the compressor is fi xed to 1 minute,• The minimum OFF time of the compressor is fi xed to 1 minute,• The minimum between 2 starts of the same compressor is fi xed to 5 minutes.
Compressor demand
Compressor demand
Compressor demand
Compressor output
Compressor output
Compressor output
SettingsThe different settings to confi gure the compressors are available in the menu:
“Priority C1”:The priority is fi xed to circuit 1, which means circuit 1 starts fi rst and stops the last.
“Priority C2”:The priority is fi xed to circuit 2, which means circuit 2 starts fi rst and stops the last.
Enable of the compressor(s) on circuit 1
Enable of the compressor(s) on circuit 2
Priority of the circuit rotation.
• 5 •CL60-AC CHILLER-IOM-1011-E
COMPONENTS
CONDENSER FAN
FunctionThe CLIMATIC™ 60 is used to maintain the high pressure as stable as possible in order to increase the performance of the unit.
DescriptionThe CLIMATIC™ 60 has 2 different fan managements according to the type of unit:
ECOLEAN™ (without fan speed inverter)The CLIMATIC™ 60 manages 2 speeds on the fan (low and high speed).
NEOSYS™ standard unit (standard version without fan speed inverter)The condensing temperature is reached according to the set point selected in the menu (3546). The fans are managed individually except for the fans which are common for the two circuits.In order to optimise the reactivity of the system at the startup of the circuit, an anticipation of the fan(s) is forced during the fi rst 30s according to the outside air temperature.
Example: Case of unit with 4 condenser fans.
Outside air temperature (°C
Stopped
Stopped
HP pressure (Bar)
Low speed
Low speed
High speed
High speed
Cooling mode
Heating mode
Outside air temperature (°C)
Compressor pressure demand (%)
Fan anticipation (%)
Fan stages
• 6 •
(3546):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
Time
Temperature HP (°C)
Fan capacity (%)
Condensing set point
SettingsThe different settings to adjust the condensing control are available in the menu:
NEOSYS™ (with fan speed inverter)A fan inverter controlled by a PID algorithm is used to adjust the fans speed variation. Fan's startup anticipation is forced as for the NEOSYS™ standard unit.
In order to optimise the performance of the unit, the condensing temperature is set according to outside air temperature and tries to maintain a delta of 12°C (only for unit with electrionic expansion valve).
Note: this functionality can be disabled if the selected setting (3546) is different from the factory value. In this case the condensing set point is the new selected value.
Outside air temperature (°C)
Set point = ext T° 12.0°C
Condensing set point (°C)
Condensing set point temperature.
• 7 •CL60-AC CHILLER-IOM-1011-E
COMPONENTS
FAN SMART ACOUSTIC SYSTEM™
FunctionThe CLIMATIC™ 60 controls the fan speed limited by the Smart Acoustic System™ which allows progressive adaptation of the unit to the building load while respecting the noise level constraints and the operating limits.
DescriptionThe maximum sound level and the fan strategies can be adjusted according to the schedule mode in order to benefi t from the different modes “High performance”, “Quiet” and “Quiet++” operation as well as in heating or cooling mode.The acoustic mode offers 2 possibilities to manage the condenser fan:
Quiet”In this mode, the fan capacity is limited according to the desired sound level. For fan using low / high speed, the high speed is locked. In case of condensing temperature too high, the CLIMATIC™ 60 unlocks the limit or the high speed to prevent from unloading compressor.
Outside air temperature (°C
Outside air temperature (°C
Stopped
Stopped
HP pressure (Bar)
Low speed
Low speed
High speed
High speed
Cooling mode
Heating mode
Fan speed (%)
Maximum = (3545)
Maximum = (3545)
Fan capacity (%)
Maximum = 100%
Maximum = 100%
Temperature HP (°C)(3546) Condensing set point
(3442) Unloading set point
Cooling mode
Heating mode
• 8 •
12h/24h
6h
9h 3h
12h/24h
18h
21h 15h
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
“Quiet++”This mode is similar to the “Quiet” mode except that the fan speed limit or the high speed is never unlocked. In case of condensing temperature too high, the CLIMATIC™ 60 will unload a compressor to prevent from high pressure security.
The Smart Acoustic System™ can be adjusted according to the scheduling and can take different values for each schedule mode (A, B, C, D, and BMS).
Outside air temperature (°C
Stopped
Stopped
HP pressure (Bar)
Low speed
Low speed
High speed
High speed
Cooling mode
Heating mode
Fan speed (%)
Maximum = (3545)
Maximum = (3545)
Fan capacity (%)
Maximum = 100%
Maximum = 100%
Temperature HP (°C)
Compressor unloading
(3546) Condensing set point
(3442) Unloading set point
Cooling mode
Heating mode
C ModeQuiet
A ModeQuiet+
C ModeNot Set
B ModeNot Set
B ModeQuiet
D ModeQuiet+
D ModeQuiet
• 9 •
12h/24h
6h
9h 3h
12h/24h
18h
21h 15h
(3544):
(3545):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
C Mode86dBA
A Mode84dBA
C Mode89dBA
B Mode89dBA
B Mode86dBA
D Mode84dBA
D ModeQuiet
SettingsThe different settings to adjust the acoustic mode are available in the menu:
Acoustic mode
Maximum sound level noise (except for fan with low / high speed)
• 10 •
12h/24h
6h
9h 3h
12h/24h
18h
21h 15h
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
WATER EVAPORATOR
FunctionThe CLIMATIC™ 60 controls the chilled or heat temperature according to the specifed set point. The desired set point can be set by different solutions.
DescriptionThe CLIMATIC™ 60 offers various possibilities to specify the water evaporator set point.
Dynamic valueThe CLIMATIC™ 60 determines the appropriate water set point according to the outside temperature in order to optimise the energy consumption. This method requires to pre-defi ne 2 different water set points corresponding to 2 outside temperatures.
Fix valueIn this case the outside temperature has no effect on the water set point and the two set points must be set at the same value.
The cooling and heating set points can be pre-specifi ed according to the scheduling and can take different mode for each schedule mode (Night, Day, Day A, Day B, and BMS)
Outside air temperature (°C)
Outside air temperature (°C)
Outside air temperature (°C)
Outside air temperature (°C)
Cooling set point (°C)
Cooling set point (°C)
Heating set point (°C)
Heating set point (°C)
ModeDay A
07.0°C NightMode
13.0°C
ModeDay A
07.0°C
ModeDay B
07.0°C
ModeDay
07.0°C
NightMode
13.0°C
ModeDay A
09.0°C
• 11 •CL60-AC CHILLER-IOM-1011-E
External current 4/20mA signalIn this case the actual set point is calculated according to the analog input current. The set points specify the corresponding set point for 4mA and for 20mA.
Current input signal4/20 mA
Current input signal4/20 mA
Cooling set point (°C) Heating set point (°C)
COMPONENTS
Second external set pointIn this case the actual set point is specifed by one of the two set points. The fi nal set point depends on the status of the digital dry contact allocated to this function.
External current 4/20 mA offsetIn this case the set point is set by one of the previous solution and can be adjusted with an offset of +/- 1.0°C.
Digital input contact
Current inpu signal4/20 mA
Outside air temperature (°C)
Current inpu signal4/20 mA
Cooling set point (°C)
Open OpenClosed Closed
Cooling set point (°C)
Actual set point Actual set point
Heating set point (°C)
Heating set point (°C)
• 12 • CL60-AC CHILLER-IOM-1011-E
COMPONENTS
DC60 terminalThe water set point is adjustable directly by the DC60. If the read set point is different from the one calculated by the BM60, the new set point is set by the DC60 during the actual zone. Each time the zone is changing, the DC60 set point is overwriten by the CLIMATICTM60 set point.
BMS valueThe CLIMATIC™ 60 receives the water set point from the BMS. Refers to the “BMS” paragraph for more details.
SettingsThe different settings to adjust the water evaporator set points are available in the menu:
Cooling mode• (2236) or (3236): minimum outside air temperature corresponding to the water evaporator set point (3238) (used only for dynamic
set point),• (2237) or (3237): maximum outside air temperature corresponding to the water evaporator set point (3239) (used only for dynamic
set point),• (2238) or (3238):
* Dynamic set point: desired water evaporator temperature set point corresponding to outside air temperature (2236) or (3236),* Fix set point: desired water evaporator temperature set point.* External current 4/20 mA signal: water evaporator temperature set point corresponding to a current signal of 4 mA.* Second external set point: fi rst water evaporator temperature set point corresponding to an opened dry contact.
• (2239) or (3239): * Dynamic set point: desired water evaporator temperature set point corresponding to outside air temperature (2237) or (3237),* Fix set point: desired water evaporator temperature set point.* External current 4/20 mA signal: water evaporator temperature set point corresponding to a current signal of 20 mA.* Second external set point: second water evaporator temperature set point corresponding to a closed dry contact.
Heating mode• (2246) or(3246): minimum outside air temperature corresponding to the water evaporator set point (3248) (used only for dynamic
set point),• (2247) or (3247): maximum outside air temperature corresponding to the water evaporator set point (3249) (used only for dynamic
set point),• (2248) or (3248):
* Dynamic set point: desired water evaporator temperature set point corresponding to outside air temperature (2246) or (3246),* Fix set point: desired water evaporator temperature set point.* External current 4/20mA signal: water evaporator temperature set point corresponding to a current signal of 4 mA.* First external set point: fi rst water evaporator temperature set point corresponding to an opened dry contact.
• (2249) or (3249): * Dynamic set point: desired water evaporator temperature set point corresponding to outside air temperature (2247) or (3247),* Fix set point: desired water evaporator temperature set point.* External current 4/20mA signal: water evaporator temperature set point corresponding to a current signal of 20 mA.* Second external set point: second water evaporator temperature set point corresponding to a closed dry contact.
• 13 •
1
1
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
2
0 0 0 0
1 8.54 30.8 7.0 + 30.8*5.0/100
2 10.80 61.6 7.0 + 2*30.8*5.0/100
3 11.04 80.8 7.0 + (19.2+2*30.8)*5.0/100
4 12.00 100.0 7.0 + 2*(19.2+30.8)*5.0/100
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
ControlThe CLIMATIC™ 60 adjusts and holds the fl uid outlet temperature as close as possible to the set point, by controlling the number of compressor stages depending on the thermal load of the system. The controller constantly calculates the required capacity to reach the temperature set point. This variable is called “CAPACITY FACTOR” (CF) and its value can vary from 0 to 100%. It is directly linked to the number of control stages of the unit. Thus for a unit with 4 stages of regulation, the CF will start and stop a stage with the following values: ~0-25-50-75-100%. It then evolves following the principles detailed in the diagram.
In order to anticipate, the reference point is recalculated each time the difference between air temperature and set point reaches a minimum or a maximum.Moreover the inlet temperature is used to limit the capacity factor to prevent from too slow reactivity of outlet capacity factor of the unit.
Example: • Unit EAC 2104: cooling capacity: 210KW with:
* C1.Cp1 = 19.2%,* C1.Cp2 = 30.8%,* C2.Cp1 = 19.2%,* C2.Cp2 = 30.8%.
• Maximum delta T° (inlet - outlet) at full load: setting (3261) = 5.0°C.• Outlet water evaporator temperature set point: setting (3238) = (3239) = 7.0°C.
Difference between the outlet water temperature and the
set point
Water temperaturecan change
CF FROZEN
CF FROZEN
FAST SLOW SLOW FAST
CF INCREASES(starts more capacity stages)
CF DECREASES(removes capacity stages)
Stage Minimum inlet temp. (°C)
Maximum capacity factor
(%)Expression Compressor
ON circuit 1 Compressor ON circuit 2
• 14 •
12h/24h
6h
9h 3h
12h/24h
18h
21h 15h
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
CHANGEOVER HEATING/COOLING MODE
FunctionThe CLIMATIC™ 60 controls the changeover mode (for reversible units only) to specify the appropriate demand on heat or chilled water production.
DescriptionThe changeover can also be pre-specifi ed according to the scheduling and can take different mode for each schedule mode (A, B, C, D, and BMS).
The changeover mode can be set by different solutions:
Automatically:The CLIMATIC™ 60 determines the appropriate production of water according to the outside temperature and moves automatically the unit from cooling to heating mode and heating to cooling mode.
If the outside temperature is below the setting value (2225) or (3225), the unit will operate as a heat pump.If the outside temperature is over the setting value (2226) or (3226), the unit will operate as a chiller.
Manually:The changeover mode is forced for each schedule mode. The various modes available are “Cool” mode, “Heat” mode or "Dead zone". In this case the outside temperature has not effect on the changeover mode.
Remotely:The changeover mode is set according to a remote dry contact connect on a free custom digital input. In this case the unit swaps in cooling or heating mode according to the status of the digital input. Please refer to the paragraph “Free Input / Output” for more details.
C ModeAuto
A ModeDead zone
C ModeCool
B ModeCool
B ModeHeat
D ModeHeat
D ModeAuto
Changeover mode
Heating mode
Dead zone
Cooling mode
Outdoor temperature (°C)
• 15 •CL60-AC CHILLER-IOM-1011-E
Terminal DC60:The changeover mode (cool / heat) can be modifi ed by the terminal DC60 by pressing the “mode” button.
When the “Auto” mode is selected, the icon “Cool” or “Heat” is displayed to signal the actual operating mode. Due to communication delay, after pressing the “mode” button it is advised to wait few seconds, the time to refresh of the icon on the display.
COMPONENTS
Heat → Cool → Auto → Dead zone
SettingsThe different settings to adjust the changeover mode are available in the menu: • (2224) or (3224): changeover mode (Cool, Heat, Auto, Dead zone) for each schedule mode (Night, Day, Day A, Day B, and BMS).• (2225) or (3225): minimum outside temperature to swap to heating mode. (only if (2224) or (3224)=“Auto”).• (2226) or (3226): maximum outside temperature to swap to cooling mode. (only if (2224) or (3224)=“Auto”).
• 16 • CL60-AC CHILLER-IOM-1011-E
COMPONENTS
COIL DEFROST
FunctionThe CLIMATIC™ 60 manages defrost procedure to avoid ice on the evaporator coil in heating pump mode (winter season).
DescriptionTo avoid the icing of the external air exchanger during winter operating, it’s necessary to reverse the refrigerant cycle. There are 2 defrost mode:• cyclic mode,• dynamic mode (not available in the software CH060 vers.01-rev.0.1).
The defrost procedure is activated if the following conditions are met during 1 minute:• the outside air temperature is ≤ (3562),• one of the compressor(s) on the circuit has been running for a time ≥ (3564) since the last defrost,• the saturation temperature is ≤ (3563).
The defrost procedure is characterized by the following steps:1. stop the compressors on the concerned circuit,2. wait for 30 s to equalise the pressure in the circuit,3. start all compressors on the circuit (if the outlet T° is not too low),4. reverse the reversing valve when ΔP>2 bars,5. start all condenser fans when the HP ≥ 55.0°C in order to dry the coil,6. stop all condenser fans when the HP ≤ 40.0°C,7. repeat the steps 4. to 5. 3 times,8. stop the compressors on the concerning circuit,9. wait for 1 min to equalise the pressure in the circuit,10. end of procedure; restart the unit in heating mode.11. reverse the reversing valve when ΔP>2bar.
Note• In case of alarm on the circuit during the defrost procedure, the defrosting is cancelled.• If the HP pressure doesn’t reach 55°C after 6 min, during the step 6, the defrost procedure is cancelled.• During the step 4 the compressor(s) could not start in order to not decrease too much the water temperature of the system.
SettingsThe different settings to adjust the defrosting procedure are available in the menu: • (3561): defrost mode (cyclic, dynamic),• (3562): minimum of outside air temperature to enable defrost procedure,• (3563): critical saturation temperature to enable defrost procedure• (3564): minimum of interval time to enable defrost procedure.
Outlet water temperature (°C)
Compressor in defrost
• 17 •
(3164):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
FREE COOLING
FunctionThe freecooling option ensures to reduce the electrical consumption using the outside air temperature to produce cool water.
DescriptionThe freecooling uses water coil with helicoids fans controled by the CLIMATIC™ 60. The freecooling has a higher priority face to the compressors. Once the freecooling capacity is over 95% for 2 min, the compressors can be engaged if necessary in order to reach the cooling set point. If the freecooling capacity decreases below 90%, the capacity factor of the compressor(s) capacity is locked to give the priority to the freecooling.
The freecooling is enabled if the following conditions are met:• the unit is ready (On/Off, water fl ow, none alarm, etc..),• the freecooling fan driver is operating (none alarm)• outside temperature < (Inlet temperature – 3°C).
SettingsThe setting to confi gure the freecooling option is available in the menu:
Confi guration of the freecooling option.
• 18 •
(2224):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
ELECTRONIC EXPANSION VALVE
FunctionThe electronic expansion valve (EEV) option offers higher effi cient control of the superheating temperature.
DescriptionThe electronic expansion valve is driven by an external board (Electronic Valve Driver - EVD) which includes a PID algorithm to control the superheating. The EVD is linked to the CLIMATIC™ 60 to send data like capacity, step, pressure, temperature.
SettingsThe setting to adjust superheat temperature option is available in the menu:
Note: the modifi cation of the superheating set point is taken in account at the next startup of the circuit.
Superheat set point.
• 19 •
(3164):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
ELECTRICAL HEATER
FunctionThe electrical heater option is an additional heating capacity to help the heat pump to reach the set point during hard winter period.
DescriptionThe electrical heater option has 2 uses:
Antifreeze heaterIn this case, the heater is used to prevent the evaporator water from antifreeze. The heater is activated when the low alarm temperature appears in cooling mode or when the safety low temperature is reached in heating mode.
Auxiliary heaterThe heater is activated when the water temperature is far from the set point and the compressor(s) are fully running. In this case, the heater is used to help the compressors to reach the heating set point.
Settings
The setting to confi gure the electrical heater is available in the menu:
Heating set point Outlet water temperature (°C)
Confi guration of the electrical heater.
• 20 •
(3163):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
POWER FACTOR CORRECTOR
FunctionThe power factor correction is an additional capacitor bank to compensate the apparent power energy.
DescriptionThe CLIMATIC™ 60 controls the status of the circuit breaker to inform (generate an alarm) in case of short circuit in the capacitor bank.
SettingsThe setting to confi gure the power factor correction is available in the menu:
Confi guration of the power factor correction..
• 21 •
(3341):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
PUMP EVAPORATOR MANAGEMENT
FunctionThe CLIMATIC™ 60 offers in option a solution to manage a single or double evaporator pump(s).
DescriptionIn case of double pumps, the CLIMATIC™ 60 can manage various possibilities of pumps operating.
Priority to pump 1The CLIMATIC™ 60 specifi es the priority to pump 1 to start fi rst. Pump 2 is used only as a backup pump and will start only if pump 1 is in alarm. Pump 1 is kept ON as soon as the machine is enabled.
Auto priority to pump 1Same confi guration as case 1, except that the pump will be stopped in case of dead zone changeover (winter / summer).
Priority to pump 2The CLIMATIC™ 60 specifi es the priority to pump 2 to start fi rst. Pump 1 is used only as backup pump and will start only if pump 2 is in alarm. Pump 2 is kept ON as soon as the machine is enabled.
Auto priority to pump 2Same confi guration as case 3, except that the pump will be stopped in case of dead zone changeover (winter / summer).
No priorityThe CLIMATIC™ 60 specifi es automatically the priority of the pump according to the operating hour counter. The fi rst pump to start will be the one which has the less number of hours of operation. In order to equalize the number of hours the unit is stopped every tuesday at 02 am to re-specify the priority.Note: the total operating hour are displayed on the DC60 Advanced on 2 numbers in the menus (2314) and (2315) (pump n°1).
Example:(2314) = 0123,(2315) = 4567,Total Hour = (2314)*10000 + (2315) = 01234567 hours.
No auto prioritySame confi guration as case 5, except that the pump will be stopped in case of dead zone changeover (winter / summer).
SettingsThe different settings to adjust the pump mode are available in the menu:
Pump(s) rotation type
• 22 • CL60-AC CHILLER-IOM-1011-E
COMPONENTS
PUMP EVAPORATOR FLOW CONTROL
FunctionThe CLIMATIC™ 60 offers the possibility to have a fl ow control in option.
DescriptionThere are up to 4 modes to manage the evaporator water fl ow.
Fix speedThe CLIMATIC™ 60 maintains a fi x fl ow according to the maximum desired speed. The fl ow is set to the minimum desired fl ow only when no compressor is running.
Fix delta of temperatureThe CLIMATIC™ 60 maintains a fi x delta of temperature according to inlet and outlet temperature probe on the evaporator. The desired delta of temperature is customized in the menu (3344).
Compressor(s)
Outlet water temperature
Compressor(s)
Flow output
Inlet water temperature
Output fl ow (%)
(3344) Fix delta temperature
(3347) Minimum 60%
(3348) Maximum 100%
• 23 •
(3342):
(3344):
(3345):
(3346):
(3347):
(3348):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
SettingsThe different settings to adjust the fl ow control are available in the menu:
Fix delta of pressureThe CLIMATIC™ 60 maintains a fi x delta of pressure according to the transducers (in and out) on the pump. The desired delta of pressure is customized in the menu (3345).
Fix output pressureThe CLIMATIC™ 60 maintains a fi x output pressure according to the output transducer on the pump. The desired output pressure is customized in the menu (3346).
Compressor(s)
Compressor(s)
Pressure out
Pressure out
Output fl ow (%)
Output fl ow (%)
Pressure in
(3345) Fix delta pressure
(3347) Minimum 60%
(3347) Minimum 60%
(3348) Maximum 100%
(3348) Maximum 100%
(3346) Set point
Type of fl ow control
Desired delta of temperature on the water evaporator (outlet - inlet)
Desired delta of pressure on the water pump (outlet - inlet)
Desired output pressure on the water pump (Out),
Minimum fl ow on the water evaporator
Maximum fl ow on the water evaporator
• 24 •
(3381):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
PUMP CONDENSER MANAGEMENT
FunctionThe CLIMATIC™ 60 offers in option a solution to manage a single or double condenser pump(s).
DescriptionIn case of double pumps the CLIMATIC™ 60 can manage various possibilities of operating of the pumps.
Priority to pump 1The CLIMATIC™ 60 specifi es the priority to pump 1 to start fi rst. Pump 2 is used only as backup pump and will start only if pump 1 is in alarm. Pump 1 is kept ON as soon as the unit is enabled.
Auto priority to pump 1Same confi guration as case 1, except that the pump will be stopped in case of dead zone changeover (winter / summer).
Priority to pump 2The CLIMATIC™ 60 specifi es the priority to pump 2 to start fi rst. Pump 1 is used only as backup pump and will start only if pump 2 is in alarm. Pump 2 is kept as soon as the unit is enabled.
Auto priority to pump 2Same confi guration as case 3, except that the pump will be stopped in case of dead zone changeover (winter / summer).
No priorityThe CLIMATIC™ 60 specifi es automatically the priority of the pump according the operating hour counter. The fi rst pump to start will be the one which has the less number of hours of operation. In order to equalize the number of hours the unit is stopped every tuesday at 02 am to re-specify the priority.Note: The total operating hour are displayed on the DC60 Advanced on 2 numbers in the menus (2344) and (2345) (Pump N°1).
Example:(2344) = 0123,(2345) = 4567,Total hour = (2344)*10000 + (2345) = 01234567 hours.
No auto prioritySame confi guration as case 5, except that the pump will be stopped in case of dead zone changeover (winter / summer).
SettingsThe different settings to adjust the pump mode are available in the menu:
Pump(s) type of rotation
• 25 •CL60-AC CHILLER-IOM-1011-E
COMPONENTS
PUMP CONDENSER FLOW CONTROL
FunctionThe CLIMATIC™ 60 offers the possibility to have fl ow control in option.
Description
Fix fl owThe CLIMATIC™ 60 maintains a fi x fl ow according to the maximum desired speed. The fl ow is set to the minimum desired fl ow only when no compressor is running.
Fix delta of temperatureThe CLIMATIC™ 60 maintains a fi x delta of temperature according to the inlet and outlet temperature probe on the condenser. The desired delta of temperature is customized in the menu (3384).
Compressor(s)
Outlet water temperature
Compressor(s)
Flow output
Inlet water temperature
Output fl ow (%)
(3384) Fix delta temperature
(3387) Minimum 60%
(3388) Maximum 100%
• 26 •
(3382):
(3384):
(3385):
(3386):
(3387):
(3388):
CL60-AC CHILLER-IOM-1011-E
Fix delta of pressureThe CLIMATIC™ 60 maintains a fi x delta of pressure according to the transducers (in and out) on the pump. The desired delta of pressure is customized in the menu (3385).
COMPONENTS
SettingsThe different settings to adjust the fl ow control are available in the menu:
Fix output pressureThe CLIMATIC™ 60 maintains a fi x output pressure according to the output transducer on the pump. The desired output pressure is customized in the menu (3386).
Fix condensing temperatureThe CLIMATIC™ 60 maintains a fi x condensing temperature according to the outlet probe on the condenser. The condensing set point is customized in the menu (3546).
Compressor(s)
Compressor(s)
Pressure out
Pressure out
Output fl ow (%)
Output fl ow (%)
Pressure in
(3385) Fix delta pressure
(3387) Minimum 30% → 60%
(3387) Minimum 60%
(3388) Maximum 100%
(3388) Maximum 100%
(3386) Set point
Time
Temperature HP (°C)
Fan capacity (%)
Condensing set point
Type of fl ow control
Desired delta of temperature on the water evaporator (outlet - inlet)
Desired delta of pressure on the water pump (outlet - inlet)
Desired output pressure on the water pump (outlet),
Minimum fl ow on the water condenser
Maximum fl ow on the water condenser
• 27 •CL60-AC CHILLER-IOM-1011-E
COMPONENTS
FREE INPUT/OUTPUT
FunctionThe CLIMATIC™ 60 has free input / output on the main board BM60 and the expansion board BE60 to offer different possibilities to customize input / output for remote control of the unit.
DescriptionThe free customized input / output number is:• 2 free input contacts (normally opened) on BM60,• 1 free output contact (normally opened) on BM60,• 4 free input contacts (normally opened) on BE60,• 4 free contacts (normally opened) output on BE60,• 4 free analog inputs on BE60.
The expansion board BE60 is an additional board fi xed on DIN rail. The description of the various connectors is:1. Power supply of the board,2. Analog output 0/10V: not used,3. Network bus to the CLIMATIC™ 60 BM60,4. 4 digital inputs: dry contacts only,5. LED status of the network bus,6. Serial address dip-switch of the network bus,7. 4 analog inputs confi gurable by pair B1-B2 and B3-B4,8. 4 digital outputs: dry contacts only.
Power supplyThe expansion board BE60 is powered in 24Vac, +/-15%, 50-60Hz, Pmax=6W.
• 28 • CL60-AC CHILLER-IOM-1011-E
COMPONENTS
Analog inputThe 4 analog inputs can be used as NTC probe (-50T90 °C; R/T 10 KΩ at 25 °C) or 4/20mA (Impedance = 100Ω) current signal.They are confi gurable by pair B1-B2 and B3-B4. The confi guration of the type of the input is automatically set by the CLIMATIC™ 60.
The analog input can be confi gurated to be used as one of these items:0. not set,1. desired water set point,2. desired offset set point,3. free NTC probe.
Digital inputThe 4 digital inputs must be used with dry contacts according to the following example. The digital input can be confi gurated to be used as one of these items:0. not set,1. remote On/Off,2. remote reset alarm,3. swap to second water set point,4. force the cooling mode,5. force the heating mode,6. force the dead zone mode,7. force the defrost delay (10 min),8. disable circuit 1 (all compressors),9. disable circuit 2 (all compressors),10. disable circuit 1(compressor 1),11. disable circuit 1 (compressor 2),12. disable circuit 1 (compressor 3),13. disable circuit 2 (compressor 1),14. ddisable circuit 2 (compressor 2),15. ddisable circuit 2 (compressor 3),16. force A mode,17. force B mode,18. force C mode,19. force D mode,20. force BMS mode,21. electrical heaters status,22. free digital input.
Passive 4/20 mA signal
Active4/20 mA signal
NTC probe
Dry contact
• 29 •
(3131):
(3132):
(3133):
(3134):
(3135):
(3141):
(3142):
(3143):
(3144):
(3145):
(3146):
(3151):
(3152):
(3153):
(3154):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
Digital outputThe 4 digital outputs are dry contacts and the maximum commutable power is 2000VA, 250Vac.The digital output can be confi gurated to be used as one of these items:
0. not set,1. general alarm (alarm minor),2. general fault (alarm major),3. general alarm on circuit 1,4. general alarm on circuit 2,5. general alarm on condenser,6. general alarm on evaporator pump(s),7. fl ow evaporator alarm,8. unit enable,9. unit available (ready to start),10. unit running (one compressor ON),11. unit running 100% (all compressor(s) ON),12. unit operating in cooling mode,13. unit operating in heating mode,14. unit operating in dead zone mode,15. unit operating in zone 016. unit operating in zone 1,17. unit operating in zone 2,18. unit operating in zone 3,19. unit operating in zone 4,20. unit operating in zone 5,21. unit operating in zone 6,22. unit operating in mode A,23. unit operating in mode B,24. unit operating in mode B,25. unit operating in mode D,26. unit operating in mode BMS,27. output for additional electrical heater 1,28. output for additional electrical heater 2,29. output for additional electrical heater 3,30. output for additional electrical heater 4,31. free digital output.
SettingsThe different settings to confi gure the custom I/O are available in the menu:
setting for the digital output on the connector BM60-J14-NO7,
setting for the digital output on the connector BE60-J5-NO1,
setting for the digital output on the connector BE60-J6-NO2,
setting for the digital output on the connector BE60-J7-NO3,
setting for the digital output on the connector BE60-J8-NO4.
setting for the digital input on the connector BM60-J4-ID4,
setting for the digital input on the connector BM60-J4-ID7,
setting for the digital input on the connector BE60-J4-ID1,
setting for the digital input on the connector BE60-J4-ID2,
setting for the digital input on the connector BE60-J4-ID3,
setting for the digital input on the connector BE60-J4-ID4.
setting for the analog input on the connector BE60-J9-B1,
setting for the analog input on the connector BE60-J9-B2,
setting for the analog input on the connector BE60-J10-B3,
setting for the analog input on the connector BE60-J10-B4.
Dry contact
Note: in case of communication loss beetween BE60 and BM60, the expansion board inputs / outputs keeps the previous status before this communication loss.
• 30 •
(2111), (3111):
(2112), (3112):
(2113), (3113):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
ON / OFF CONTROL
FunctionThere are various ways to start up the unit: manually or automatically.
DescriptionThere are up to 4 ways to start / stop the unit with the CLIMATIC™ 60:• The unit can be turned ON or OFF manually by the terminals DC60 Advanced or DS60 in the menu (2111) or (3111) or DC60.• A remote contact can also be connected directly to the electrical box to switch the unit ON or OFF. The switch status is displayed
in the menu (2112) or (3112).• The startup of the unit can be confi gured according to a scheduling in the menu (2113) or (3113).• The BMS can write directly in the general ON/OFF to start / stop the unit.
Note: the unit is considered as “ON” if only all settings (2111), (2113), (2113) are set to ON.
SettingsThe different settings to start up are available in the menu:
General ON /OFF,
Remote ON /OFF,
Schedule ON /OFF.
• 31 •
(2121):
(2122):
(2123):
(2124):
(2125):
(2126):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
REAL TIME LOCK
FunctionThe CLIMATIC™ 60 board includes a real time clock which permits a schedule programmation and alarm events recording.
DescriptionThe clock is updated by terminal DC60 Advanced or DC60 or DS60 or BMS. Moreover, the time change is automatically updated for winter (last Sunday of October at 3h00) and summer (last Sunday of March at 2h00). This functionality can be disabled in menu (2126).
To update the clock by BMS, a fl ag must be set to 1 before sending the new date.
Note: if the DS60 is connected, the clock can’t be updated by the DC60.
SettingsThe different settings to start up are available in the menu:
Clock hour,
Clock minute,
Clock day (of the month),
Clock month,
Clock year,
Automatic clock update.
• 32 •
12h/24h
6h
9h 15h3h
12h/24h
18h
21h
(2131):
(2141):
(2142):
(2143):
(2144):
(2145):
(2146):
(2147):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
SCHEDULING ZONE
FunctionThe CLIMATIC™ 60 is provided by a real time clock which offers solutions to specify a weekly schedule.
DescriptionThe CLIMATIC™ 60 schedule manages up to 7 different clock zones per day fand from monday to sunday. The zone can start at different time each day of the week in order to optimise the operating of the unit.
SettingsThe different settings to adjust the scheduling zone are available in the menu:
Note: start time can take different values from monday tosunday. Start time of zone 0 must be set to 00h00. the visibility of the settings (2141) to (2147) depend on the settings (2131). The zones not used are hidden.
Zone 6
Zone 4 Zone 0
Zone 1Zone 5
Zone 3
Zone 2
Monday
Sunday
Number of zone desired,
Starts time of zone 0 from monday to sunday
Starts time of zone 1 from monday to sunday
Starts time of zone 2 from monday to sunday
Starts time of zone 3 from monday to sunday
Starts time of zone 4 from monday to sunday
Starts time of zone 5 from monday to sunday
Starts time of zone 6 from monday to sunday
• 33 •
12h/24h
6h
9h 15h3h
12h/24h
18h
21h
(2132):
(2151):
(2152):
(2153):
(2154):
(2155):
(2156):
(2157):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
SCHEDULING MODE
FunctionThe CLIMATIC™ 60 is able to control different modes for each zone declared in order to optimise the operating of the unit.
DescriptionThe CLIMATIC™ 60 can manage up to 4 different modes.
SettingsThe different settings to adjust the scheduling mode are available in the menu:
Note: the mode used can take different values from monday to sunday. the visibility of the settings (2151) to (2157) depend on the settings (2132). The modes not used are hidden.
C Mode
A Mode C Mode
B ModeB Mode
D Mode
D Mode
Monday
Sunday
Number of mode desired
Mode used during the period of zone 0 from monday to sunday
Mode used during the period of zone 1 from monday to sunday
Mode used during the period of zone 2 from monday to sunday
Mode used during the period of zone 3 from monday to sunday
Mode used during the period of zone 4 from monday to sunday
Mode used during the period of zone 5 from monday to sunday
Mode used during the period of zone 6 from monday to sunday
• 34 •
(2161):
(2162):
CL60-AC CHILLER-IOM-1011-E
COMPONENTS
SCHEDULE ANTICIPATION START-UP
FunctionThe CLIMATIC™ 60 allows the start up of the unit before the pre-specifi ed hour of the fi rst zone (zone 1) of the day.
DescriptionThis function is able to start the unit during zone 0 earlier if the outdoor temperature is under a specify threshold. The typical application is to start the unit in heating mode if the weather is too cold compare to the actual season.
Example:• (2142): zone 1 start time: 8h00,• (2161): foot anticipation: 10.0°C,• (2162): gradient anticipation: 10 mm/°C.
In this example the foot is set to the value 10.0°C, which means zone 1 will always start at 8h00 if the outside air temperature is higher than 10.0°C. If the outside air temperature is less than 10.0°C zone 1 will start according to the selected gradient and the difference between the foot value and the actual outside air temperature (10.0 - 7.0 = 3.0 x 10 = 30 min). Then, the new start time for zone 1 is 7h30.
SettingsThe different settings to adjust the anticipation are available in the menu:
zone 1 start time (h)
Outdoor temperature (°C)
(2142) Z1 start time8h00
Calculates Z1 start time7h30
Gradient = 10 mm/°C
Foot anticipation
radient anticipation
• 35 •
BM60..B. Rx-/Tx- BM60..B. Rx-/Tx-
BM60..B. Rx+/Tx+ BM60..B. Rx+/Tx+
17% 17%17% 17%
CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
MASTER / SLAVE
FunctionThe CLIMATIC™ 60 offers possibilities to connect up to 8 units to allow relationship between each unit in order to perform the system.
The pLAN bus is connected to CLIMATIC™ 60 on the J8 connector of board BM60. A star connection is not recommended. For an optimum operation it is advised to connect a maximum of two cables per unit.The cable length should not exceed 500 m and you must use a 2 pairs with general shield like LiYCY-P (0.34 mm²).
DescriptionThere are 2 different modes to manage the units (“Cascade” & “Backup”)
The cascade mode:The cascade mode is used to engage additional cooling / heating capacity in order to reach the water set point. This master/slave operating includes 2 modes:• Twin mode: the units work simultaneously in order to equalize the number of compressors stages to perform the capacity of the unit.
The control manages only the capacity increase. The stage(s) decrease is controlled individually by each unit. The power factor capacity power is also controlled individually on each unit according to its demand.
Unit n°1 Unit n°7Unit n°2
Max: 500 m
Unit n°8
Unit n°1 Unit n°7Unit n°2 Unit n°8
• 36 •
….U1 → U2 → U3 → U4 →….….U4 → U1 → U2 → U3 →….….U3 → U4 → U1 → U2 →….….U2 → U4 → U3 → U1 →….
100%
0%
15%
0%
20%
0%
17%
17%
17%
0%
20%
20%
CL60-AC CHILLER-IOM-1011-E
The backup modeUsed to help the system in case of alarm(s) on the unit running. The unit in standby will start only if one of the other unit(s) running is in alarm. In this case the unit in alarm will be stopped and replace by the one which was in standby.
The CLIMATIC™ 60 manages also the rotation between the declared units . In “Cascade” mode, that means that the fi rst unit to start will change every week. In “Rol.Backup” mode, the unit in “Backup” is swapped every week.
Example:In case of 4 units, the rotation is as follow:
• Chain mode: the units starts one after the other in serial sequence. In case of evaporator pump(s) in the unit, the pump(s) is engaged according to the demand of the system.
The selectd unit in standby is the one which has the higher critical(s) alarm(s). In case of disconnection of the slave(s) unit(s) (@pLAN = 2 → 8) from the master unit (@pLAN = 1) on the pLAN bus, the disconnected unit will operate alone.
Week Example Unit rotationWeek (n modulo 5) Week 1
Week (n+1 modulo 5) Week 2Week (n+2 modulo 5) Week 3Week (n+3 modulo 5) Week 4
Unit n°1
Unit n°1
Unit n°1
Unit n°7
Unit n°7
Unit n°7
Unit n°2
Unit n°2
Unit n°2
Unit n°8
Unit n°8
Unit n°8
ALAR
M
• 37 •CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
DC60 DISPLAY
FunctionThe DC60 display is customized for the user to show a global operating overview of the unit and allow access to some settings. In case of remote display, the cable length should not exceed 30 m.
DescriptionThe DC60 terminal displays various status of the unit and offers the possibility to override the initial operating of the unit. Use the wheel button to display the data desired in the big area. The small area specifi es the type of the data displayed.
Set point “SET”:Specify the evaporator water set point calculated by CLIMATIC™ 60. The set point can be modifi ed directly by the DC60. Note that the selected value will automatically be overwritten by CLIMATIC™ 60 when the actual zone will change (Z0 → Z6) if a scheduling has been defi ned.
Unit number “UNIT”:Specify the evaporator water outlet temperature.
Outlet temperature “OUT”:Specify the evaporator water outlet temperature.
Inlet temperature “IN”Specify the water evaporator inlet temperature.
Outside temperature “Air”Specify the outside air temperature.
Alarm code “AL-”Specify the active alarm(s) code(s).
Low pressure “LP-1”Specify the low pressure of circuit 1.
High pressure “HP-1”Specify the high pressure of circuit 1.
Low pressure “LP-2”Specify the low pressure of circuit 2.
High pressure “HP-2”Specify the high pressure of circuit 2.
Schedule zonespecify the schedule operating zone.
Changeover mode
Big area
Unit mode
Small area
Status area
• 38 • CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
SettingsThe CLIMATIC™ 60 offers possibilities of override operations.
On/OffWhen the “power” button is pressed during few seconds, the unit is ordered to start or stop. When the unit is “OFF”, the clock is displayed.
Changeover modeThe changeover mode (cool / heat) can be modifi ed through the DC60 terminal by pressing the “mode” button.
When the “Auto” mode is selected, the icon “Cool” or “Heat” is displayed to signal the actual operating mode of the unit. Due to communication delay, after pressing the “mode” button, it is well advised to wait few seconds, the time to refresh of th icon on the display.
Clock: there is two way to modify the clock hour:
• Press the “clock” button during few seconds. When the hour is blinking, turn the wheel button to select the desired hour and validate by pressing the wheel button. Once the hour is validated, repeat the procedure for the minute and the weekday.
• Press the “On/off” and “Fan” buttons simultaneously during few seconds. When the terminal displays “CODE”, select the password “22” and validate by pressing the wheel button. Then select the item to modify (“year” → Year, “mont → Month, “nday” → day of the month, “uday” → weekday, “hour” → Hour, “mins” →Minute).
Night mode, Day mode, Day A mode, Day B mode, GTC mode
The DC60 terminal also displays the status of the main component of the unit in the status area. The icons can take different appearance according to the status of the component.
Defrost
Compressors
General alarm
Pump OFF (icons hidden)
Pump ON (icons visible)
Pump alarm (icons blinking)
Evaporator pump(s)
Heat → Cool → Auto
• 39 •
Display addresssetting ........: xx
I O Board address: xx
-LENNOX--LENNOX-
Language��-English
CH 060 STD
Vers: 01.0Rev: 00.0Boot: 4.05
Language��-English
CH 060 STD
Vers: 01.0Rev: 00.0Boot: 4.05
1 112 123 134 145 156 167 178 18
CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
DC60 ADVANCED DISPLAY OR DS60 DISPLAY
FunctionThe DC60 Advanced or DS60 terminals are plug and play displays, to confi gure the unit.• the DC60 Advanced is the display installed on the front panel of NEOSYS™ units.• the DS60 is designed for maintenance and expert service people who want to access to advanced functionalities.
DescriptionThe terminal address is automatically set by the CLIMATIC™ 60 when connected. The address can yet be assigned manually to establish the communication with the CLIMATIC™ 60. The procedure to confi gure the DC60 Advanced / DS60 is:1. Press the buttons “↓”, “↑”, “←” keys at the same time during 5 seconds,2. Use the “←” key to move the cursor on the address number,3. Use the “↓”, “↑” keys to select the value “11 → 18” for the DC60 Advanced, "32" for the DS60 (or DS50) and confi rm with the “←”
key (the cursor go directly to the next data).
Display address
CLIMATIC™ BM60 address
4. If the address has been modifi ed, the next screen is displayed. In that case restart step 1.
UNIT NUMBER DC60 ADVANCED ADDRESS
• 40 •
Display addresschanged
Terminal confi gPress ENTERto continue
P01: Adr Priv / sharedTrm1 31 PrTrm2 None --Trm3 None -- OK? No
-LENNOX-
Language��-English
CH 060 STD
Vers: 01.0Rev: 00.0Boot: 4.05Bios: 5.09
||||||
CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
5. Use the “↓”, “↑” keys to select the desired address of CLIMATIC™ 60. CLIMATIC™ 60 address must be at the address “1” except if there is several units linked. The next screen is displayed.
6. Press the “←” key to go to the next step.7. The following screen describes the used connection type. Set the display as a Private “Pr” terminal. The other terminals (Trm2 and
Trm3) are not used. So their addresses must be adjusted to “None”. Finally confi rm the modifi cations, swapp the text “No” to “Yes” and validate with the“←” key.
After a star up, the fi rst screen contains the main information about the CLIMATIC™ 60‘s software.
Private displayDisplay address
• 41 •
(0000)1 Alarm2 User3 Expert
Unit: 01Zone: 0Mode: A
Wednesday01/09/1014:32:50
|||||||
|||
Alarm 0101>04/10.14h23 * 11402>22/09.11h23 = 11403>00/00.00h00 = 00004>00/00.00h00 = 00005>00/00.00h00 = 00006>00/00.00h00 = 00007>00/00.00h00 = 000
CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
The DC60 Advanced / DS60 is organised in 3 menus:• (1000): alarms history,• (2000): user menus for maintenance people,• (3000): (Only for DS60) Expert menus for service people (restricted area). To access to the “EXPERT” level, push the “PRG” button
during few seconds when the fi rst screen (Language) is shown.
To access to alarms history, press the “ALARM” key when you are in the main menu (0000). The CLIMATIC™ 60 saves up to the last 32 alarms. An active alarm is signaled by the symbol “*” whereas an alarm inactive is symbolized by the “=”.To reset the current active alarm(s) press the “ALARM” key.
Actual zone, mode
Actual clock
The menu is organised in arborescence tree with submenus. The actual menu is identifi ed by the number in parentheses in the top left corner of the screen.
Number of active alarm(s)
Alarm codeAlarm code
Active alarm (*)Active alarm (*)
Alarm trip hour
• 42 •
(3230)01 Mode A3 Outlet 13.3�4 Setpoint 07.0�4 Capacity 000.0%4 Air 1 22.0�4 Air 2 30.0�4 Water 1 07.0�4 Water 2 07.0�
|||||||
CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
The “↓” and “↑” keys are used to move the cursor on the desired item. Then use the “←” key to enter in the selected submenu. To escape a menu use "ESC" the key.
Menu (3000)
Menu (3100)
Menu (3110) Menu (3160)
Menu (3820)Menu (3810)
Menu (3800) Menu (3161) Menu (3169)
Menu (3821) Menu (3829)
The submenus contains 2 types of data: the read only data (like a temperature probe for example) and the read/write setpoints (like the cooling water setpoint for example). The data are identifi ed by a cursor symbol “>” whereas the setpoint are identify by a symbol “>>”.
Customizable setting for different mode
Actual set point
• 43 •
(3230)01 Mode A3 Outlet 13.3�4 Setpoint 07.0�4 Capacity 000.0%4 Air 1 22.0�4 Air 2 30.0�4 Water 1 07.0�4 Water 2 07.0�
(3230)01 Mode A
Water 207.0�
� 20.0� 07.0� 05.0� 06.0
>||||||
CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
To modify a setting, move the cursor on the desired item and press the “←” key. A new screen displays information concerning this set point. To modify it, use the “↓” and “↑” keys and validate by pressing the “←” key. If the setting is customizable according to the schedule mode, press the “PRG” key to select different value for the A, B, C& D mode.
: to quickly increment or decrement the setting, hold the “↓” or “↑” keys during few time.
Cursor symbol for set point
User save value
Minimum value
Factory value
Maximum value
Cursor symbol for data
• 44
•
R/W
/ZM
inSt
dM
ax
1111
Ala
rm**
***
*H
isto
ric
2111
User
Unit
General
On/
Off
R/W
*0
*1
2112
On/
Off
Inpu
tR
*0
*1
2113
On/
Off
Mod
eR
/W/Z
*0
11
2114
Res
et A
larm
R/W
*0
01
2115
Box
Tß
R°C
-50
*10
5
2116
Sta
tus
R*
List
**
2121
Clock
Hou
rR
/WH
H0
*23
2122
Min
ute
R/W
mm
0*
59
2123
Day
R/W
DD
1*
31
2124
Mon
thR
/WM
M1
*12
2125
Year
R/W
yy1
*99
2126
Win
/Sum
R/W
*0
11
2131
General schedule
Nbr
Zon
eR
/WN
N1
36
2132
Nbr
Mod
eR
/WN
N1
14
2133
Wee
kday
RD
1*
7
2134
Day
RD
D1
*31
2135
Year
RY
Y1
*99
2136
Hou
rR
HH
0*
23
2137
Min
ute
Rm
m1
*59
2138
Zone
R*
0*
6
2139
Mod
eR
*1
*5
2141
Time schedule
Tim
e Z0
R/W
HH
024
24
2142
Tim
e Z1
R/W
HH
024
24
2143
Tim
e Z2
R/W
HH
024
24
2144
Tim
e Z3
R/W
HH
024
24
2145
Tim
e Z4
R/W
HH
024
24
2146
Tim
e Z5
R/W
HH
024
24
2147
Tim
e Z6
R/W
HH
024
24
Uni
tM
inSt
dM
ax
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
DS6
0 LI
ST
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itU
nit
Com
men
ts
Ala
rm h
isto
ric
Gen
eral
On/
Off
Rem
ote
On/
Off
Sch
edul
e O
n/O
ff
Res
et th
e ac
tive
alar
m(s
)
Ele
ctric
al b
ox te
mpe
ratu
re
Gen
eral
sta
tus
of th
e un
it
Hou
r clo
ck s
ettin
g
Min
ute
cloc
k se
tting
Day
clo
ck s
ettin
g
Mon
th c
lock
set
ting
Year
clo
ck s
ettin
g
Aut
omat
ic u
pdat
e fo
r win
ter/s
umm
er ti
me
Num
ber o
f zon
e
Num
ber o
f mod
e
Act
ual d
ay o
f the
wee
k
Act
ual d
ay o
f the
mon
th
Act
ual y
ear
Act
ual h
our
Act
ual m
inut
e
Act
ual s
ched
ule
zone
Act
ual s
ched
ule
mod
e
Sta
rt tim
e of
zon
e 0
Sta
rt tim
e of
zon
e 1
Sta
rt tim
e of
zon
e 2
Sta
rt tim
e of
zon
e 3
Sta
rt tim
e of
zon
e 4
Sta
rt tim
e of
zon
e 5
Sta
rt tim
e of
zon
e 6
Uni
tM
inim
umS
tand
ard
Max
imum
• 45
•
R/W
/ZU
nit
Min
Std
Max
2151
User
Unit
Schedule Mode
Mod
e Z0
R/W
*1
15
2152
Mod
e Z1
R/W
*1
15
2153
Mod
e Z2
R/W
*1
15
2154
Mod
e Z3
R/W
*1
15
2155
Mod
e Z4
R/W
*1
15
2156
Mod
e Z5
R/W
*1
15
2157
Mod
e Z6
R/W
*1
15
2161
Ant
icip
atio
nFo
otR
/W°C
-10
1020
2162
Gra
dien
tR
/Wm
/°C
00
100
2171
Custom relay
BM
.NO
7R
*
2172
BE
.NO
1R
*
2173
BE
.NO
2R
*
2174
BE
.NO
3R
*
2175
BE
.NO
4R
*
2181
Custom switch
BM
.Id4
R*
2182
BM
.Id7
R*
2183
BE
.Id1
R*
2184
BE
.Id2
R*
2185
BE
.Id3
R*
2186
BE
.Id4
R*
2191
Custom signal
BE
.B1
R*
2192
BE
.B2
R*
2193
BE
.B3
R*
2194
BE
.B4
R*
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Mod
e du
ring
zone
0
Mod
e du
ring
zone
1
Mod
e du
ring
zone
2
Mod
e du
ring
zone
3
Mod
e du
ring
zone
4
Mod
e du
ring
zone
5
Mod
e du
ring
zone
6
Bot
tom
of t
he s
lope
Slo
pe v
alue
in m
inut
e pe
r deg
rees
Confi g
urat
ion
of th
e fre
e ou
tput
BM
.NO
7
Confi g
urat
ion
of th
e fre
e ou
tput
BE
.NO
1
Confi g
urat
ion
of th
e fre
e ou
tput
BE
.NO
2
Confi g
urat
ion
of th
e fre
e ou
tput
BE
.NO
3
Confi g
urat
ion
of th
e fre
e ou
tput
BE
.NO
4
Confi g
urat
ion
of th
e fre
e in
put B
M.Id
4
Confi g
urat
ion
of th
e fre
e in
put B
M.Id
7
Confi g
urat
ion
of th
e fre
e in
put B
E.Id
1
Confi g
urat
ion
of th
e fre
e in
put B
E.Id
2
Confi g
urat
ion
of th
e fre
e in
put B
E.Id
3
Confi g
urat
ion
of th
e fre
e in
put B
E.Id
4
Confi g
urat
ion
of th
e fre
e in
put B
E.B
1
Confi g
urat
ion
of th
e fre
e in
put B
E.B
2
Confi g
urat
ion
of th
e fre
e in
put B
E.B
3
Confi g
urat
ion
of th
e fre
e in
put B
E.B
4
• 46
•
R/W
/ZU
nit
Min
Std
Max
2211
User
Water
General
Inle
tR
°C-5
0*
105
2212
Inle
t Ref
.R
°C-5
0*
105
2213
Out
let
R°C
-50
*10
5
2214
Out
let R
ef.
R°C
-50
*10
5
2215
Del
ta T
ßR
°C0
*10
5
2216
Set
poin
tR
°C-1
0*
50
2217
Cap
acity
R%
0*
100
2218
Flow
R*
0*
1
2221
Changeover
Sta
tus
R*
**
*
2222
Out
side
R°C
-50
*10
5
2223
Out
side
Ref
.R
°C-5
0*
105
2224
Mod
eR
/W*
00
4
2225
AirT
ßWin
ter
R/W
°C-1
018
30
2226
AirT
ßSum
mer
R/W
°C19
2330
2231
Cooling
Sta
tus
R*
**
*
2232
Inle
tR
°C-5
0*
105
2233
Out
let
R°C
-50
*10
5
2234
Set
poin
tR
°C-1
0*
50
2235
Cap
acity
R°C
0*
100
2236
Air
Slo
pe 1
R/W
/Z°C
-11
2250
2237
Air
Slo
pe 2
R/W
/Z°C
-11
3050
2238
Wat
er 1
R/W
/Z°C
197
20
2239
Wat
er 2
R/W
/Z°C
197
20
2241
HeatingS
tatu
sR
**
**
2242
Inle
tR
°C-5
0*
105
2243
Out
let
R°C
-50
*10
5
2244
Set
poin
tR
°C-1
0*
50
2245
Cap
acity
R°C
0*
100
2246
Air
Slo
pe 1
R/W
/Z°C
-11
2250
2247
Air
Slo
pe 2
R/W
/Z°C
-11
3050
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Eva
pora
tor i
nlet
pro
be T
°
Eva
pora
tor i
nlet
refe
renc
e T°
Eva
pora
tor o
utle
t pro
be T
°
Eva
pora
tor o
utle
t ref
eren
ce T
°
Eva
pora
tor d
elta
T°
(Inle
t-Out
let)
Eva
pora
tor s
et p
oint
Eva
pora
tor c
apac
ity
Eva
pora
tor fl
ow
sw
itch
Cha
ngeo
ver s
tatu
s
Out
side
air
prob
e T°
Out
side
air
refe
renc
e T°
Cha
ngeo
ver m
ode
0=N
ot U
sed,
1=C
ool,
2=H
eat,
3=A
uto,
4=D
ead
zone
.
Win
ter A
ir T°
to s
wap
in h
eatin
g m
ode
Sum
mer
Air
T° to
sw
ap in
coo
ling
mod
e
Eva
pora
tor s
tatu
s
Eva
pora
tor i
nlet
refe
renc
e T°
Eva
pora
tor o
utle
t ref
eren
ce T
°
Eva
pora
tor s
et p
oint
Eva
pora
tor c
oolin
g ca
paci
ty
Out
side
air
set p
oint
X1
in c
ool
Out
side
air
set p
oint
X2
in c
ool
Eva
pora
tor s
et p
oint
Y1
in c
ool
Eva
pora
tor s
et p
oint
Y2
in c
ool
Eva
pora
tor s
tatu
s
Eva
pora
tor i
nlet
refe
renc
e T°
Eva
pora
tor o
utle
t ref
eren
ce T
°
Eva
pora
tor s
et p
oint
Eva
pora
tor c
oolin
g ca
paci
ty
Out
side
air
set p
oint
X1
in h
eat
Out
side
air
set p
oint
X2
in h
eat
• 47
•
R/W
/ZU
nit
Min
Std
Max
2248
User
Water
Hea
ting
Wat
er 1
R/W
/Z°C
4045
50
2249
Wat
er 2
R/W
/Z°C
4045
50
2251
Custom
Sp
4/20
mA
R°C
4*
20
2252
Sp
+/-1
ßCR
°C-1
*1
2253
Sp
Nß2
R*
0*
1
2311
Pump
Evaporator P1
Sta
tus
R*
List
**
2312
Sw
Sta
teR
*0
*1
2313
Out
put
R*
0*
1
2314
Hou
r HR
HH
0*
9999
2315
Hou
r LR
HH
0*
9999
2316
Flow
R*
0*
1
2321
Evaporator P2
Sta
tus
R*
List
**
2322
Sw
Sta
teR
*0
*1
2323
Out
put
R*
0*
1
2324
Hou
r HR
HH
0*
9999
2325
Hou
r LR
HH
0*
9999
2326
Flow
R*
0*
1
2331
Evaporator Flow
T.In
R°C
-50
*10
5
2332
T.O
utR
°C-5
0*
105
2333
P.In
RB
ar0
*6
2334
P.O
utR
Bar
0*
6
2335
Del
ta d
TR
°C0
*20
2336
Del
ta d
PR
Bar
0*
6
2337
Cap
acity
R%
0*
100
2338
Flow
Rm
30
*10
0
2339
Flow
R*
0*
1
2341
Condenser P1S
tatu
sR
*Li
st*
*
2342
Sw
Sta
teR
*0
*1
2343
Out
put
R*
0*
1
2344
Hou
r HR
HH
0*
9999
2345
Hou
r LR
HH
0*
9999
2346
Flow
R*
0*
100
2351
Con
dens
er P
2S
tatu
sR
*Li
st*
*
2352
Sw
Sta
teR
*0
*1
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Eva
pora
tor s
et p
oint
Y1
in h
eat
Eva
pora
tor s
et p
oint
Y2
in h
eat
Ext
erna
l eva
pora
tor s
et p
oint
Ext
erna
l offs
et e
vapo
rato
r set
poi
nt
Sec
ond
set p
oint
sw
itch
stat
us
Eva
pora
tor p
ump
1 st
atus
Eva
pora
tor p
ump
1 in
put
Eva
pora
tor p
ump
1 ou
tput
Eva
pora
tor p
ump
1 ou
tput
Eva
pora
tor p
ump
1 ou
tput
Eva
pora
tor fl
ow
sw
itch
Eva
pora
tor p
ump
2 st
atus
Eva
pora
tor p
ump
2 in
put
Eva
pora
tor p
ump
2 ou
tput
Eva
pora
tor p
ump
1 ou
tput
Eva
pora
tor p
ump
1 ou
tput
Eva
pora
tor fl
ow
sw
itch
Eva
pora
tor T
° in
let
Eva
pora
tor T
° ou
tlet
Eva
pora
tor p
ress
ure
in
Eva
pora
tor p
ress
ure
out
Eva
pora
tor d
elta
T°
Eva
pora
tor d
elta
pre
ssur
e
Eva
pora
tor fl
ow
cap
acity
Eva
pora
tor fl
ow
met
er
Eva
pora
tor fl
ow
sw
itch
Con
dens
er p
ump
1 st
atus
Con
dens
er p
ump
1 in
put
Con
dens
er p
ump
1 ou
tput
Con
dens
er p
ump
1 ou
tput
Con
dens
er p
ump
1 ou
tput
Con
dens
er fl
ow s
witc
h
Con
dens
er p
ump
2 st
atus
Con
dens
er p
ump
2 in
put
• 48
•
R/W
/ZU
nit
Min
Std
Max
2353
User
Pump
Condenser P2
Out
put
R*
0*
1
2354
Hou
r HR
HH
0*
9999
2355
Hou
r LR
HH
0*
9999
2356
Flow
R*
0*
100
2361
Condenser Flow
T.In
R°C
-50
*10
5
2362
T.O
utR
°C-5
0*
105
2363
P.In
RB
ar0
*6
2364
P.O
utR
Bar
0*
6
2365
Del
ta d
TR
°C0
*10
5
2366
Del
ta d
PR
Bar
0*
6
2367
Cap
acity
R%
0*
100
2368
Flow
Rm
30
*10
0
2369
Flow
R*
0*
1
2411
Compressor
Circuit 1
P.H
PR
Bar
-50
*10
5
2412
T.H
PR
°C-5
0*
105
2413
T.Li
quid
RB
ar-5
0*
105
2414
P.LP
R°C
-50
*10
5
2415
T.LP
R°C
-50
*10
5
2416
T.S
uctio
nR
°C-5
0*
105
2417
Dis
char
ge 1
R°C
-50
*15
0
2418
Dis
char
ge 2
R°C
-50
*15
0
2421
Cir.1 Comp.1
Confi g
R*
**
*
2422
Sta
tus
R*
List
**
2423
Sw
Sta
teR
*0
*1
2424
Out
put
R*
0*
1
2425
Tim
e H
RH
H0
*99
99
2426
Tim
e L
RH
H0
*99
99
2427
Sta
rt H
R*
0*
9999
2428
Sta
rt L
R*
0*
9999
2431
Cir.
1 C
omp.
2C
onfi g
R*
**
*
2432
Sta
tus
R*
List
**
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Con
dens
er p
ump
2 ou
tput
Con
dens
er p
ump
1 ou
tput
Con
dens
er p
ump
1 ou
tput
Con
dens
er fl
ow s
witc
h
Con
dens
er T
° in
let
Con
dens
er T
° ou
tlet
Con
dens
er p
ress
ure
in
Con
dens
er p
ress
ure
out
Con
dens
er d
elta
T°
Con
dens
er d
elta
pre
ssur
e
Con
dens
er fl
ow c
apac
ity
Con
dens
er fl
ow m
eter
Con
dens
er fl
ow s
witc
h
Con
dens
ing
pres
sure
circ
uit 1
Con
dens
ing
T° c
ircui
t 1
Sat
urat
ed p
ress
ure
circ
uit 1
Sat
urat
ed T
° ci
rcui
t 1
Liqu
id T
° ci
rcui
t 1
Suc
tion
T° c
ircui
t 1
Dis
char
ge T
° 1
circ
uit 1
Dis
char
ge T
° 2
circ
uit 1
Confi g
urat
ion
com
pres
sor 1
circ
uit 1
Sta
tus
com
pres
sor 1
circ
uit 1
Inpu
t com
pres
sor 1
circ
uit 1
Out
put c
ompr
esso
r 1 c
ircui
t 1
Hou
r cou
nter
com
pres
sor 1
circ
uit 1
LS
B
Hou
r cou
nter
com
pres
sor 1
circ
uit 1
MS
B
Sta
rt co
unte
r hig
h co
mpr
esso
r 1 c
ircui
t 1 L
SB
(exa
mpl
e : 1
23)
Sta
rt co
unte
r low
com
pres
sor 1
circ
uit 1
MS
B (e
xam
ple
456)
Confi g
urat
ion
com
pres
sor 2
circ
uit 1
Sta
tus
com
pres
sor 2
circ
uit 1
• 49
•
R/W
/ZU
nit
Min
Std
Max
2433
User
Compressor
Cir.1 Comp.2
Sw
Sta
teR
*0
*1
2434
Out
put
R*
0*
1
2435
Tim
e H
RH
H0
*99
99
2436
Tim
e L
RH
H0
*99
99
2437
Sta
rt H
R*
0*
9999
2438
Sta
rt L
R*
0*
9999
2441
Cir.1 Comp.3
Confi g
R*
**
*
2442
Sta
tus
R*
List
**
2443
Sw
Sta
teR
*0
*1
2444
Out
put
R*
0*
1
2445
Tim
e H
RH
H0
*99
99
2446
Tim
e L
RH
H0
*99
99
2447
Sta
rt H
R*
0*
9999
2448
Sta
rt L
R*
0*
9999
2451
Circuit 2
P.H
PR
Bar
-50
*10
5
2452
T.H
PR
°C-5
0*
105
2453
T.Li
quid
RB
ar-5
0*
105
2454
P.LP
R°C
-50
*10
5
2455
T.LP
R°C
-50
*10
5
2456
T.S
uctio
nR
°C-5
0*
105
2457
Dis
char
ge 1
R°C
-50
*15
0
2458
Dis
char
ge 2
R°C
-50
*15
0
2461
Cir.2 Comp.1C
onfi g
R*
**
*
2462
Sta
tus
R*
List
**
2463
Sw
Sta
teR
*0
*1
2464
Out
put
R*
0*
1
2465
Tim
e H
RH
H0
*99
99
Uni
tM
inSt
dM
ax
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Inpu
t com
pres
sor 2
circ
uit 1
Out
put c
ompr
esso
r 2 c
ircui
t 1
Hou
r cou
nter
com
pres
sor 2
circ
uit 1
LS
B
Hou
r cou
nter
com
pres
sor 2
circ
uit 1
MS
B
Sta
rt co
unte
r hig
h co
mpr
esso
r 2 c
ircui
t 1 L
SB
(exa
mpl
e : 1
23)
Sta
rt co
unte
r low
com
pres
sor 2
circ
uit 1
MS
B (e
xam
ple
456)
Confi g
urat
ion
com
pres
sor 3
circ
uit 1
Sta
tus
com
pres
sor 3
circ
uit 1
Inpu
t com
pres
sor 3
circ
uit 1
Out
put c
ompr
esso
r 3 c
ircui
t 1
Hou
r cou
nter
com
pres
sor 3
circ
uit 1
LS
B
Hou
r cou
nter
com
pres
sor 3
circ
uit 1
MS
B
Sta
rt co
unte
r hig
h co
mpr
esso
r 3 c
ircui
t 1 L
SB
(exa
mpl
e : 1
23)
Sta
rt co
unte
r low
com
pres
sor 3
circ
uit 1
MS
B (e
xam
ple
456)
Con
dens
ing
pres
sure
circ
uit 2
Con
dens
ing
T° c
ircui
t 2
Sat
urat
ed p
ress
ure
circ
uit 2
Sat
urat
ed T
° ci
rcui
t 2
Liqu
id T
° ci
rcui
t 2
Suc
tion
T° c
ircui
t 2
Dis
char
ge T
° 1
circ
uit 2
Dis
char
ge T
° 2
circ
uit 2
Confi g
urat
ion
com
pres
sor 1
circ
uit 2
Sta
tus
com
pres
sor 1
circ
uit 2
Inpu
t com
pres
sor 1
circ
uit 2
Out
put c
ompr
esso
r 1 c
ircui
t 2
Hou
r cou
nter
com
pres
sor 1
circ
uit 2
LS
B
Uni
tM
inim
umS
tand
ard
Max
imum
• 50
•
R/W
/ZU
nit
Min
Std
Max
2466
User
Compressor
Cir.2 Comp.1
Tim
e L
RH
H0
*99
99
2467
Sta
rt H
R*
0*
9999
2468
Sta
rt L
R*
0*
9999
2471
Cir.2 Comp.2
Confi g
R*
**
*
2472
Sta
tus
R*
List
**
2473
Sw
Sta
teR
*0
*1
2474
Out
put
R*
0*
1
2475
Tim
e H
RH
H0
*99
99
2476
Tim
e L
RH
H0
*99
99
2477
Sta
rt H
R*
0*
9999
2478
Sta
rt L
R*
0*
9999
2481
Cir.2 Comp.3
Confi g
R*
**
*
2482
Sta
tus
R*
List
**
2483
Sw
Sta
teR
*0
*1
2484
Out
put
R*
0*
1
2485
Tim
e H
RH
H0
*99
99
2486
Tim
e L
RH
H0
*99
99
2487
Sta
rt H
R*
0*
9999
2488
Sta
rt L
R*
0*
9999
2491
OtherS
w H
P C
1R
*0
*1
2492
Sw
HP
C2
R*
0*
1
2493
V4V
C1
R*
0*
1
2494
V4V
C2
R*
0*
1
2511
Con
dens
erC
ircui
t 1C
onfi g
R*
**
*
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Hou
r cou
nter
com
pres
sor 1
circ
uit 2
MS
B
Sta
rt co
unte
r hig
h co
mpr
esso
r 1 c
ircui
t 2 L
SB
(exa
mpl
e : 1
23)
Sta
rt co
unte
r low
com
pres
sor 1
circ
uit 2
MS
B (e
xam
ple
456)
Confi g
urat
ion
com
pres
sor 2
circ
uit 2
Sta
tus
com
pres
sor 2
circ
uit 2
Inpu
t com
pres
sor 2
circ
uit 2
Out
put c
ompr
esso
r 2 c
ircui
t 2
Hou
r cou
nter
com
pres
sor 2
circ
uit 2
LS
B
Hou
r cou
nter
com
pres
sor 2
circ
uit 2
MS
B
Sta
rt co
unte
r hig
h co
mpr
esso
r 2 c
ircui
t 2 L
SB
(exa
mpl
e : 1
23)
Sta
rt co
unte
r low
com
pres
sor 2
circ
uit 2
MS
B (e
xam
ple
456)
Confi g
urat
ion
com
pres
sor 3
circ
uit 2
Sta
tus
com
pres
sor 3
circ
uit 2
Inpu
t com
pres
sor 3
circ
uit 2
Out
put c
ompr
esso
r 3 c
ircui
t 2
Hou
r cou
nter
com
pres
sor 3
circ
uit 2
LS
B
Hou
r cou
nter
com
pres
sor 3
circ
uit 2
MS
B
Sta
rt co
unte
r hig
h co
mpr
esso
r 3 c
ircui
t 2 L
SB
(exa
mpl
e : 1
23)
Sta
rt co
unte
r low
com
pres
sor 3
circ
uit 2
MS
B (e
xam
ple
456)
Saf
ety
high
pre
ssur
e sw
itch
circ
uit 1
Saf
ety
high
pre
ssur
e sw
itch
circ
uit 2
Rev
ersi
ng v
alve
circ
uit 1
Rev
ersi
ng v
alve
circ
uit 2
Confi g
urat
ion
cond
ense
r circ
uit 1
• 51
•
R/W
/ZU
nit
Min
Std
Max
2512
User
Condenser
Circuit 1
Sta
tus
R*
List
**
2513
Sw
Sta
teR
*0
*1
2514
Con
dens
ing
R°C
-50
*67
2515
Set
poin
tR
°C25
*45
2516
Cap
acity
R%
0*
100
2517
Spe
ed L
owR
*0
*1
2518
Spe
ed H
igh
R*
0*
1
2521
Circuit 2
Confi g
R*
**
*
2522
Sta
tus
R*
List
**
2523
Sw
Sta
teR
*0
*1
2524
Con
dens
ing
R°C
-50
*67
2525
Set
poin
tR
°C25
*45
2526
Cap
acity
R%
0*
100
2527
Spe
ed L
owR
*0
*1
2528
Spe
ed H
igh
R*
0*
1
2531
Circuit 1/2
Confi g
R*
**
*
2532
Sta
tus
R*
List
**
2533
Sw
Sta
teR
*0
*1
2534
Cap
acity
R%
0*
100
2541
Fan
Out
side
R°C
-50
*10
5
2542
Cap
acity
Max
R%
0*
100
2543
Unl
oadi
ngR
/W°C
50*
65
2544
Mod
eR
/WZ
*0
02
2545
Noi
seR
/WZ
dBa
82*
94
2551
Water
Inle
t C1
R*
-50
*10
5
2552
Out
let C
1R
*-5
0*
105
2553
Inle
t C2
R*
-50
*10
5
2554
Out
let C
2R
*-5
0*
105
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Sta
tus
cond
ense
r circ
uit 1
Inpu
t con
dens
er c
ircui
t 1
Con
dens
ing
T° c
ircui
t 1
Con
dens
ing
T° s
et p
oint
Con
dens
ing
fan
capa
city
circ
uit 1
Con
dens
ing
fan
low
spe
ed c
ircui
t 1
Con
dens
ing
fan
high
spe
ed c
ircui
t 1
Confi g
urat
ion
cond
ense
r circ
uit 2
Sta
tus
cond
ense
r circ
uit 2
Inpu
t con
dens
er c
ircui
t 2
Con
dens
ing
T° c
ircui
t 2
Con
dens
ing
T° s
et p
oint
Con
dens
ing
fan
capa
city
circ
uit 2
Con
dens
ing
fan
low
spe
ed c
ircui
t 2
Con
dens
ing
fan
high
spe
ed c
ircui
t 2
Confi g
urat
ion
cond
ense
r circ
uit 1
&2
Sta
tus
cond
ense
r circ
uit 1
&2
Inpu
t con
dens
er c
ircui
t 1&
2
Con
dens
ing
capa
city
circ
uit 1
&2
Out
side
air
T°
Con
dens
er fa
n ca
paci
ty m
axim
um
Con
dens
er u
nloa
ding
T°
Con
dens
er fa
n ac
cous
tic m
ode
0=N
ot S
et, 1
=Qui
et,
2=Q
uiet
++.
Con
dens
er fa
n ac
cous
tic n
oise
Con
dens
er in
let T
° ci
rcui
t 1
Con
dens
er o
utle
t T°
circ
uit 1
Con
dens
er in
let T
° ci
rcui
t 2
Con
dens
er o
utle
t T°
circ
uit 2
• 52
•
R/W
/ZU
nit
Min
Std
Max
*26
11
User
Expansion Valve
Circuit 1
Confi g
R*
**
*
*26
12S
tatu
sR
*Li
st*
*
*26
13S
atur
ated
RB
ar0
*20
*26
14
Circuit 1
Sat
urat
edR
°C-4
*35
*26
15S
uctio
nR
°C-5
0*
105
*26
16S
uper
heat
R°C
0*
105
*26
17S
etpo
int
R°C
5*
15
*26
18C
apac
ityR
%0
*10
0
*26
19 S
tep
R*
0*
ETS
50 =
26
25E
TS10
0 =
3630
*26
21
Circuit 2
Confi g
R*
**
*
*26
22S
tatu
sR
*Li
st*
*
*26
23S
atur
ated
RB
ar0
*20
*26
24S
atur
ated
R°C
-4*
35
*26
25S
uctio
nR
°C-5
0*
105
*26
26S
uper
heat
R°C
0*
105
*26
27S
etpo
int
R°C
5*
15
*26
28C
apac
ityR
%0
*10
0
*26
29S
tep
R*
0*
ETS
50 =
26
25E
TS10
0 =
3630
2711
Option
Freecooling
Confi g
R*
**
*
2712
Sta
tus
R*
List
**
2713
Sw
Sta
teR
*0
*1
2714
Valv
eR
*0
*1
2715
Out
side
R°C
-50
*10
5
2716
Inle
tR
°C-5
0*
105
2717
Out
let
R°C
-50
*10
5
2718
Cap
acity
R%
0*
100
2721
FP Correct
Confi g
R*
**
*
2722
Sta
tus
R*
List
**
2723
Sw
Sta
teR
*0
*1
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Confi g
urat
ion
of th
e fre
ecoo
ling
Sta
tus
of th
e fre
ecoo
ling
Inpu
t of t
he fr
eeco
olin
g
Free
cool
ing
valv
e
Out
side
air
T°
Inle
t coi
l wat
er T
°
Out
let c
oil w
ater
T°
Free
cool
ing
fan
capa
city
Confi g
urat
ion
of th
e po
wer
fact
or c
orre
ctio
n
Sta
tus
of th
e po
wer
fact
or c
orre
ctio
n
Inpu
t of t
he p
ower
fact
or c
orre
ctio
n
• 53
•
R/W
/ZU
nit
Min
Std
Max
2731
User
Option
Electrical heater
Confi g
R*
**
*
2732
Sta
tus
R*
List
**
2733
Out
let
R°C
-50
*10
5
2734
Electrical heater
Cap
acity
R%
0*
100
2735
Sw
Sta
teR
*0
*1
2736
Out
put 1
R*
0*
1
2737
Out
put 2
R*
0*
1
2738
Out
put 3
R*
0*
1
2739
Out
put 4
R*
0*
1
2811
Link
Master/Slave
Confi g
R*
**
*
2812
Sta
tus
R*
List
**
2813
IdR
*1
*8
2814
Out
side
R°C
-50
*10
5
2815
Inle
tR
°C-5
0*
105
2816
Out
let
R°C
-50
*10
5
2817
Prio
rity
R*
1*
8
2818
Sta
ndby
R*
1*
8
2819
BMS
Nex
t Sta
rtR
*1
*8
2821
Sta
tus
R*
List
**
2822
Out
side
R°C
-50
*10
5
2823
Inle
tR
°C-5
0*
105
2824
Out
let
R°C
-50
*10
5
2825
Adr
ess
R/W
*1
*8
2826
Num
ber
R/W
*1
*8
2827
Type
R/W
*0
0 7
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Confi g
urat
ion
of th
e el
ectri
cal h
eate
r
Sta
tus
of th
e el
ectri
cal h
eate
r
Eva
pora
tor o
utle
r T°
Ele
ctric
al h
eate
r cap
acity
Ele
ctric
al h
eate
r inp
ut
Ele
ctric
al h
eate
r out
put 1
Ele
ctric
al h
eate
r out
put 2
Ele
ctric
al h
eate
r out
put 3
Ele
ctric
al h
eate
r out
put 4
Confi g
urat
ion
of th
e m
aste
r/sla
ve li
nk
Sta
tus
of th
e m
aste
r/sla
ve li
nk
Iden
tifi c
atio
n nu
mbe
r of t
he B
M60
boa
rd
Out
side
air
refe
renc
e T°
Eva
pora
tor i
nlet
refe
renc
e T°
Eva
pora
tor o
utle
t ref
eren
ce T
°
Uni
t num
ber p
riorit
y to
sta
rt
Uni
t num
ber i
n st
andb
y
Uni
t num
ber t
o st
art n
ext
Sta
tus
of th
e m
aste
r/sla
ve li
nk
Out
side
air
refe
renc
e T°
Eva
pora
tor i
nlet
refe
renc
e T°
Eva
pora
tor o
utle
t ref
eren
ce T
°
Add
ress
of t
he b
oard
Num
ber o
f uni
ts li
nked
Mas
ter/s
lave
confi g
urat
ion
0=N
ot S
et,
1=N
ot U
sed,
2=
Cas
cadT
win
s,
3=C
asca
dCha
in,
4=B
acku
pTw
ins,
5=
Bac
kupC
hain
, 6=
Rol
Bac
kupT
win
s,
7=R
olB
acku
pCha
in.
• 54
•
R/W
/ZU
nit
Min
Std
Max
2828
User
Link
BMS
TßA
irR
/W*
00
2
2829
TßW
ater
R/W
*0
0 2
3111
Expert
Unit
General
On/
Off
R/W
00
01
3112
On/
Off
Inpu
tR
/W0
0*
1
3113
On/
Off
Mod
eR
/W/Z
*0
11
3114
Test
R/W
*0
010
3115
Res
et A
larm
R/W
*0
01
3116
Cle
ar A
larm
R/W
*0
01
3117
Box
Tß
R°C
-50
*10
5
3118
Sta
tus
R*
List
**
3121
Confi guration
Ran
geR
/W*
00
8
3122
Siz
eR
/W*
List
**
3123
Cap
acity
R/W
*0
*10
0
3124
Gly
col
R/W
%0
050
3125
Res
tore
R/W
*0
05
3131
Custom relay
BM
.NO
7R
/W*
3132
BE
.NO
1R
/W*
3133
BE
.NO
2R
/W*
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Out
side
air
T° c
onfi g
urat
ion
0=N
ot U
sed,
1=M
aste
r, 2=
Aver
age.
Eva
pora
tor w
ater
T°
confi
gur
atio
n
Gen
eral
On/
Off
Rem
ote
On/
Off
Ena
ble
Test
0=N
ot s
et,
1=Q
uick
ly,2=
Wiz
ard,
3=D
aily
Tas
k,4=
Wee
kly
Task
,5=
Def
rost
C1,
6=D
efro
st C
2,7=
Def
rost
C1&
2,8=
HP
C1,
9=H
P C
2,10
=HP
C1&
2.
Res
et th
e ac
tive
alar
m(s
)
Cle
ar th
e hi
stor
ic o
f ala
rm(s
)
Ele
ctric
al b
ox T
°
Gen
eral
sta
tus
Uni
t ran
ge c
onfi g
urat
ion
0=N
ot s
et, 1
=EA
C, 2
=EA
R,
3=N
AC
, 4=N
AH
, 5=M
WC
, 6=
NW
C, 8
=MR
C.
Uni
t siz
e co
nfi g
urat
ion
Uni
t cap
acity
confi g
urat
ion
Gly
col r
ate
confi
gur
atio
n
Res
tore
the
setti
ngs
para
met
ers
0=N
ot s
et, 1
=DC
+Bm
s,
2=S
ched
ule,
3=F
acto
ry,
4=S
tore
Use
r, 5=
Res
tore
Use
r.
Confi g
urat
ion
of th
e fre
e ou
tput
BM
.NO
7
Confi g
urat
ion
of th
e fre
e ou
tput
BE
.NO
1
Confi g
urat
ion
of th
e fre
e ou
tput
BE
.NO
2
• 55
•
R/W
/ZU
nit
Min
Std
Max
3134
Expert
Unit
Custom relay
BE
.NO
3R
/W*
3135
BE
.NO
4R
/W*
3141
Custom switch
BM
.Id4
R/W
*
3142
BM
.Id7
R/W
*
3143
BE
.Id1
R/W
*
3144
BE
.Id2
R/W
*
3145
BE
.Id3
R/W
*
3146
BE
.Id4
R/W
*
3151
Custom signal
BE
.B1
R/W
*
3152
BE
.B2
R/W
*
3153
BE
.B3
R/W
*
3154
BE
.B4
R/W
*
3161
Option
Pum
p E
vap.
R/W
*0
**
3162
Pum
p C
ond.
R/W
*0
**
3163
Dis
play
DC
R/W
*0
03
3164
EE
V D
river
R/W
*0
01
3165
Hea
ter E
lec
R/W
*0
01
3166
Free
cool
ing
R/W
*0
01
3167
Fan
%R
/W*
00
1
3168
Pow
er F
acto
rR
/W*
00
1
3169
Pow
er m
eter
R/W
*0
01
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Confi g
urat
ion
of th
e fre
e ou
tput
BE
.NO
3
Confi g
urat
ion
of th
e fre
e ou
tput
BE
.NO
4
Confi g
urat
ion
of th
e fre
e in
put B
M.Id
4
Confi g
urat
ion
of th
e fre
e in
put B
M.Id
7
Confi g
urat
ion
of th
e fre
e in
put B
E.Id
1
Confi g
urat
ion
of th
e fre
e in
put B
E.Id
2
Confi g
urat
ion
of th
e fre
e in
put B
E.Id
3
Confi g
urat
ion
of th
e fre
e in
put B
E.Id
4
Confi g
urat
ion
of th
e fre
e in
put B
E.B
1
Confi g
urat
ion
of th
e fre
e in
put B
E.B
2
Confi g
urat
ion
of th
e fre
e in
put B
E.B
3
Confi g
urat
ion
of th
e fre
e in
put B
E.B
4
Eva
pora
tor p
ump(
s) c
onfi g
urat
ion
0=N
ot S
et,
1=S
ingl
e=,
2=S
ingl
e%,
3=D
oubl
e=,
4=D
oubl
e%.
Con
dens
er p
ump(
s) c
onfi g
urat
ion
DC
60 d
ispl
ay(s
) confi g
urat
ion
0=N
ot S
et,
1=1,
.,.,
2=.,2
,.,3=
1,2.
Ele
ctro
nic
expa
nsio
n va
lve
cconfi g
urat
ion
0=N
o,1=
Yes.
Pow
er m
eter
confi g
urat
ion
Ele
ctric
al h
eate
r confi g
urat
ion
Inve
rter f
or c
onde
nser
fan
confi
gur
atio
n
Pow
er fa
ctor
cor
rect
ion
confi
gur
atio
n
Pow
er m
eter
confi g
urat
ion
• 56
•
R/W
/ZU
nit
Min
Std
Max
*31
71
Expert
Unit
Startup
Day
R*
**
*
*31
72M
onth
R*
**
*
*31
73Ye
arR
**
**
3211
Water
Temperature
Inle
tR
°C-5
0*
105
3212
Inle
t Ref
.R
°C-5
0*
105
3213
Out
let
R°C
-50
*10
5
3214
Out
let R
ef.
R°C
-50
*10
5
3215
Del
ta T
ßR
°C0
*10
5
3216
Set
poin
tR
°C-1
0*
50
3217
Cap
acity
R%
0*
100
3218
Flow
R*
0*
1
3221
Changeover
Sta
tus
R*
List
**
3222
Out
side
R°C
-50
*10
5
3223
Out
side
Ref
.R
°C-5
0*
105
3224
Mod
eR
/W/Z
*
3225
AirT
ßWin
ter
R/W
°C-1
018
30
3226
AirT
ßSum
mer
R/W
°C19
2330
3231
Cooling
Sta
tus
R*
List
**
3232
Inle
tR
°C-5
0*
105
3233
Out
let
R°C
-50
*10
5
3234
Set
poin
tR
°C-1
0*
50
3235
Cap
acity
R%
0*
100
3236
Air
Slo
pe 1
R/W
/Z°C
-11
2250
3237
Air
Slo
pe 2
R/W
/Z°C
-11
3050
3238
Wat
er 1
R/W
/Z°C
197
20
3239
Wat
er 2
R/W
/Z°C
197
20
3241
Heating
Sta
tus
R*
List
**
3242
Inle
tR
°C-5
0*
105
3243
Out
let
R°C
-50
*10
5
3244
Set
poin
tR
°C-1
0*
50
3245
Cap
acity
R%
0*
100
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Eva
pora
tor i
nlet
pro
be T
°
Eva
pora
tor i
nlet
refe
renc
e T°
Eva
pora
tor o
utle
t pro
be T
°
Eva
pora
tor o
utle
t ref
eren
ce T
°
Eva
pora
tor d
elta
T°
(Inle
t-Out
let)
Eva
pora
tor s
et p
oint
Eva
pora
tor c
apac
ity
Eva
pora
tor fl
ow
sw
itch
Cha
ngeo
ver s
tatu
s
Out
side
air
prob
e T°
Out
side
air
refe
renc
e T°
Cha
ngeo
ver m
ode
See
men
u 22
24
Win
ter T
° to
sw
ap in
hea
ting
mod
e
Sum
mer
T°
to s
wap
in c
oolin
g m
ode
Eva
pora
tor s
tatu
s
Eva
pora
tor i
nlet
refe
renc
e T°
Eva
pora
tor o
utle
t ref
eren
ce T
°
Eva
pora
tor s
et p
oint
Eva
pora
tor c
oolin
g ca
paci
ty
Out
side
air
set p
oint
X1
in c
ool
Out
side
air
set p
oint
X2
in c
ool
Eva
pora
tor s
et p
oint
Y1
in c
ool
Eva
pora
tor s
et p
oint
Y2
in c
ool
Eva
pora
tor s
tatu
s
Eva
pora
tor i
nlet
refe
renc
e T°
Eva
pora
tor o
utle
t ref
eren
ce T
°
Eva
pora
tor s
et p
oint
Eva
pora
tor c
oolin
g ca
paci
ty
• 57
•
R/W
/ZU
nit
Min
Std
Max
3246
Expert
Water
Heating
Air
Slo
pe 1
R/W
/Z°C
-11
2250
3247
Air
Slo
pe 2
R/W
/Z°C
-11
3050
3248
Wat
er 1
R/W
/Z°C
4045
50
3249
Wat
er 2
R/W
/Z°C
4045
50
3251
Custom
Sp
4/20
mA
R°C
4*
20
3252
Sp
+/-1
ßCR
°C-1
*1
3253
Sp
Nß2
R*
0*
1
3261
Control
Coo
l dTß
R/W
°C1
520
3262
Hea
t dTß
R/W
°C1
520
3263
Rea
ctiv
ityR
/W*
115
120
3271
Safety
Coo
l Low
R/W
°C3
555
3272
Coo
l Hig
hR
/W°C
1955
55
3273
Hea
t Low
R/W
°C3
555
3274
Hea
t Hig
hR
/W°C
1955
55
3311
Pump
Evaporator P1
Sta
tus
R*
List
**
3312
Sw
Sta
teR
*0
*1
3313
Out
put
R*
0*
1
3314
Hou
r HR
HH
0*
9999
3315
Hou
r LR
HH
0*
9999
3316
Flow
R*
0*
1
3321
Evaporator P2
Sta
tus
R*
List
**
3322
Sw
Sta
teR
*0
*1
3323
Out
put
R*
0*
1
3324
Hou
r HR
HH
0*
9999
3325
Hou
r LR
HH
0*
9999
3326
Flow
R*
0*
1
3331
Evaporator fl ow
T.In
R°C
-50
*10
5
3332
T.O
utR
°C-5
0*
105
3333
P.In
RB
ar0
*6
3334
P.O
utR
Bar
0*
6
3335
Del
ta d
TR
°C0
*10
5
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Out
side
air
set p
oint
X1
in h
eat
Out
side
air
set p
oint
X2
in h
eat
Eva
pora
tor s
et p
oint
Y1
in h
eat
Eva
pora
tor s
et p
oint
Y2
in h
eat
Ext
erna
l eva
pora
tor s
et p
oint
Ext
erna
l offs
et e
vapo
rato
r set
poi
nt
Sec
ond
set p
oint
sw
itch
stat
us
Eva
pora
tor c
oolin
g de
lta T
°
Eva
pora
tor h
eatin
g de
lta T
°
Eva
pora
tor w
ater
reac
tivity
Eva
pora
tor c
oolin
g lo
w s
afet
y T°
Eva
pora
tor c
oolin
g hi
gh s
afet
y T°
Eva
pora
tor h
eatin
g lo
w s
afet
y T°
Eva
pora
tor h
eatin
g hi
gh s
afet
y T°
Eva
pora
tor p
ump
1 st
atus
Eva
pora
tor p
ump
1 in
put
Eva
pora
tor p
ump
1 ou
tput
Eva
pora
tor p
ump
1 ou
tput
Eva
pora
tor p
ump
1 ou
tput
Eva
pora
tor fl
ow
sw
itch
Eva
pora
tor p
ump
2 st
atus
Eva
pora
tor p
ump
2 in
put
Eva
pora
tor p
ump
2 ou
tput
Eva
pora
tor p
ump
1 ou
tput
Eva
pora
tor p
ump
1 ou
tput
Eva
pora
tor fl
ow
sw
itch
Eva
pora
tor T
° in
let
Eva
pora
tor T
° ou
tlet
Eva
pora
tor p
ress
ure
in
Eva
pora
tor p
ress
ure
out
Eva
pora
tor d
elta
T°
• 58
•
R/W
/ZU
nit
Min
Std
Max
3336
Expert
Pump
Evaporator fl ow
Del
ta d
PR
Bar
0*
6
3337
Cap
acity
R%
0*
100
3338
Flow
Rm
30
*10
0
3339
Flow
R*
0*
1
3341
Evaporator control
Prio
rity
R/W
/Z*
00
7
3342
Res
etR
/W*
00
2
3343
Mod
eR
/W*
00
4
3344
Del
ta d
TR
/W°C
2*
10
3345
Del
ta d
PR
/WB
ar1
16
3346
P.O
utR
/WB
ar0,
51
6
3347
Flow
Min
R/W
%60
6010
0
3348
Flow
Max
R/W
%60
100
100
3351
Condenser P1
Sta
tus
R*
List
**
3352
Sw
Sta
teR
*0
*1
3353
Out
put
R*
0*
1
3354
Hou
r HR
HH
0*
9999
3355
Hou
r LR
HH
0*
9999
3356
Flow
R*
0*
100
3361
Condenser P2
Sta
tus
R*
List
**
3362
Sw
Sta
teR
*0
*1
3363
Out
put
R*
0*
1
3364
Hou
r HR
HH
0*
9999
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Eva
pora
tor d
elta
pre
ssur
e
Eva
pora
tor fl
ow
cap
acity
Eva
pora
tor fl
ow
met
er
Eva
pora
tor fl
ow
sw
itch
Eva
pora
tor p
ump(
s) e
nabl
e
0=N
ot S
et,
1=N
ot U
sed,
2=P
rio.P
1On,
3=P
rio.P
1Aut
o,4=
Prio
.P2O
n,5=
Prio
.P2A
uto,
6=N
o P
rio.O
n,7=
No
Prio
.Aut
o.
Eva
pora
tor p
ump(
s) re
set c
ount
er0=
Not
Set
,1=
1,.,.
,2=
.,2,.,
Eva
pora
tor p
ump(
s) o
pera
ting
mod
e
0=N
ot U
sed,
1=Fi
x S
peed
,2=
Fix
dT,
3=Fi
x dP
,4=
Fix
P.O
ut.
Eva
pora
tor v
aria
ble fl o
w d
elta
T°
Eva
pora
tor v
aria
ble fl o
w d
elta
pre
ssur
e
Eva
pora
tor v
aria
ble fl o
w o
utpu
t pre
ssur
e
Eva
pora
tor v
aria
ble fl o
w m
inim
um
Eva
pora
tor v
aria
ble fl o
w m
axim
um
Con
dens
er p
ump
1 st
atus
Con
dens
er p
ump
1 in
put
Con
dens
er p
ump
1 ou
tput
Con
dens
er p
ump
1 ou
tput
Con
dens
er p
ump
1 ou
tput
Con
dens
er fl
ow s
witc
h
Con
dens
er p
ump
2 st
atus
Con
dens
er p
ump
2 in
put
Con
dens
er p
ump
2 ou
tput
Con
dens
er p
ump
1 ou
tput
• 59
•
R/W
/ZU
nit
Min
Std
Max
3365
Expert
Pump
Con
dens
er P
2H
our L
RH
H0
*99
99
3366
Flow
R*
0*
100
3371
Condenser fl ow
T.In
R°C
-50
*10
5
3372
T.O
utR
°C-5
0*
105
3373
P.In
RB
ar0
*6
3374
P.O
utR
Bar
0*
6
3375
Del
ta d
TR
°C0
*10
5
3376
Del
ta d
PR
Bar
0*
6
3377
Cap
acity
R%
0*
100
3378
Flow
Rm
30
*10
0
3379
Flow
R*
0*
1
3381
Condenser Control
Prio
rity
R/W
/Z*
00
7
3382
Res
etR
/W*
00
2
3383
Mod
eR
/W*
00
4
3384
Del
ta d
TR
/W°C
2*
10
3385
Del
ta d
PR
/WB
ar1
16
3386
P.O
utR
/WB
ar0,
51
6
3387
Flow
Min
R/W
%60
6010
0
3388
Flow
Max
R/W
%60
100
100
3411
Compressor
Circuit 1
P.H
PR
Bar
-50
*10
5
3412
T.H
PR
°C-5
0*
105
3413
T.Li
quid
RB
ar-5
0*
105
3414
P.LP
R°C
-50
*10
5
3415
T.LP
R°C
-50
*10
5
3416
T.S
uctio
nR
°C-5
0*
105
3417
Dis
char
ge 1
R°C
-50
*15
0
3418
Dis
char
ge 2
R°C
-50
*15
0
3421
Circuit 2
P.H
PR
Bar
-50
*10
5
3422
T.H
PR
°C-5
0*
105
3423
T.Li
quid
RB
ar-5
0*
105
3424
P.LP
R°C
-50
*10
5
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Con
dens
er p
ump
1 ou
tput
Con
dens
er fl
ow s
witc
h
Con
dens
er T
° in
let
Con
dens
er T
° ou
tlet
Con
dens
er p
ress
ure
in
Con
dens
er p
ress
ure
out
Con
dens
er d
elta
T°
Con
dens
er d
elta
pre
ssur
e
Con
dens
er fl
ow c
apac
ity
Con
dens
er fl
ow m
eter
Con
dens
er fl
ow s
witc
h
Con
dens
er p
ump(
s) e
nabl
eS
ee m
enu
3341
Con
dens
er p
ump(
s) re
set c
ount
erS
ee m
enu
3342
Con
dens
er p
ump(
s) o
pera
ting
mod
eS
ee m
enu
3343
Con
dens
er v
aria
ble fl o
w d
elta
T°
Con
dens
er v
aria
ble fl o
w d
elta
pre
ssur
e
Con
dens
er v
aria
ble fl o
w o
utpu
t pre
ssur
e
Con
dens
er v
aria
ble fl o
w m
inim
um
Con
dens
er v
aria
ble fl o
w m
axim
um
Con
dens
ing
pres
sure
circ
uit 1
Con
dens
ing
T° c
ircui
t 1
Sat
urat
ed p
ress
ure
circ
uit 1
Sat
urat
ed T
° ci
rcui
t 1
Liqu
id T
° ci
rcui
t 1
Suc
tion
T° c
ircui
t 1
Dis
char
ge T
° 1
circ
uit 1
Dis
char
ge T
° 2
circ
uit 1
Con
dens
ing
pres
sure
circ
uit 2
Con
dens
ing
T° c
ircui
t 2
Sat
urat
ed p
ress
ure
circ
uit 2
Sat
urat
ed T
° ci
rcui
t 2
• 60
•
R/W
/ZU
nit
Min
Std
Max
3425
Expert
Compressor
Circuit 2
T.LP
R°C
-50
*10
5
3426
T.S
uctio
nR
°C-5
0*
105
3427
Dis
char
ge 1
R°C
-50
*15
0
3428
Dis
char
ge 2
R°C
-50
*15
0
3431
Enable
Ena
ble
C1
R/W
/Z*
00
7
3432
Ena
ble
C2
R/W
/Z*
00
7
3433
Cle
ar C
1R
/W*
00
7
3434
Cle
ar C
2R
/W*
00
7
3435
Prio
rity
R/W
*0
03
3441
Safety
Sat
urat
ion
R/W
°C-6
-65
3442
Unl
oadi
ngR
/W°C
5063
65
3443
Dis
char
geR
/W°C
9012
015
0
3511
Condenser
Circuit 1
Confi g
R*
**
*
3512
Sta
tus
R*
List
**
3513
Sw
Sta
teR
*0
*1
3514
Con
dens
ing
R°C
-50
*67
3515
Set
poin
tR
°C25
*45
3516
Cap
acity
R%
0*
100
3517
Spe
ed L
owR
*0
*1
3518
Spe
ed H
igh
R*
0*
1
3521
Circuit 2
Confi g
R*
**
*
3522
Sta
tus
R*
List
**
3523
Sw
Sta
teR
*0
*1
3524
Con
dens
ing
R°C
-50
*67
3525
Set
poin
tR
°C25
*45
3526
Cap
acity
R%
0*
100
3527
Spe
ed L
owR
*0
*1
3528
Spe
ed H
igh
R*
0*
1
3531
Circ
uit 1
/2C
onfi g
R*
**
*
3532
Sta
tus
R*
List
**
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Liqu
id T
° ci
rcui
t 2
Suc
tion
T° c
ircui
t 2
Dis
char
ge T
° 1
circ
uit 2
Dis
char
ge T
° 2
circ
uit 2
Com
pres
sor(
s) e
nabl
e ci
rcui
t 10=
Not
Set
,1=
1,.,.
,2=
.,2,.,
3=1,
2,.,
4=.,.
,3,
5=1,
.,3,
6=.,2
,3,
7=1,
2,3.
Com
pres
sor(
s) e
nabl
e ci
rcui
t 2
Com
pres
sor(
s) re
set c
ount
er c
ircui
t 1
Com
pres
sor(
s) re
set c
ount
er c
ircui
t 2
Com
pres
sor(
s) c
ircui
t prio
rity
0=N
ot U
sed,
1=P
rio.C
1,2=
Prio
.C2,
3=A
uto.
Eva
pora
tor s
atur
atio
n sa
fety
T°
Con
dens
er u
nloa
ding
saf
ety
T°
Com
pres
sor d
isch
arge
saf
ety
T°
Confi g
urat
ion
cond
ense
r circ
uit 1
Sta
tus
cond
ense
r circ
uit 1
Inpu
t con
dens
er c
ircui
t 1
Con
dens
ing
T° c
ircui
t 1
Con
dens
ing
T° s
et p
oint
Con
dens
ing
fan
capa
city
circ
uit 1
Con
dens
ing
fan
low
spe
ed c
ircui
t 1
Con
dens
ing
fan
high
spe
ed c
ircui
t 1
Confi g
urat
ion
cond
ense
r circ
uit 2
Sta
tus
cond
ense
r circ
uit 2
Inpu
t con
dens
er c
ircui
t 2
Con
dens
ing
T° c
ircui
t 2
Con
dens
ing
T° s
et p
oint
Con
dens
ing
fan
capa
city
circ
uit 2
Con
dens
ing
fan
low
spe
ed c
ircui
t 2
Con
dens
ing
fan
high
spe
ed c
ircui
t 2
Confi g
urat
ion
cond
ense
r circ
uit 1
&2
Sta
tus
cond
ense
r circ
uit 1
&2
• 61
•
R/W
/ZU
nit
Min
Std
Max
3533
Expert
Condenser
Circ
uit 1
/2S
w S
tate
R*
0*
1
3534
Cap
acity
R%
0*
100
3541
Fan
Cap
acity
Max
R%
0*
100
3542
Unl
oadi
ngR
°C50
*65
3543
Mod
eR
/W*
00
2
3544
Noi
seR
/WdB
a82
*94
3545
Set
poin
tR
/W°C
3540
45
3546
Spe
ed L
.On
R/W
°C30
4660
3547
Spe
ed L
.Off
R/W
°C30
3860
3548
Spe
ed H
.On
R/W
°C30
5860
3549
Spe
ed H
.Off
R/W
°C30
4960
3551
Water
Inle
t C1
R°C
-50
*10
5
3552
Out
let C
1R
°C-5
0*
105
3553
Inle
t C2
R°C
-50
*10
5
3554
Out
let C
2R
°C-5
0*
105
3561
Defrost
Mod
eR
*0
01
3562
Out
side
R°C
816
22
3563
Sat
urat
ion
R°C
-10
1,7
10
3564
Freq
Rm
m30
4590
3565
dLP
C1
R/W
°C-5
0*
105
3566
dLP
C2
R/W
°C-5
0*
105
3567
Cou
nter
C1
R/W
*30
*90
3568
Cou
nter
C2
R/W
*30
*90
3571
Safety
Coo
l Low
R/W
°C3
555
3572
Coo
l Hig
hR
/W°C
1955
55
3573
Hea
t Low
R/W
°C3
555
3574
Hea
t Hig
hR
/W°C
1955
55
3611
Exp
ansi
on
valv
eC
ircui
t 1C
onfi g
R*
**
*
3612
Sta
tus
R*
List
**
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Inpu
t con
dens
er c
ircui
t 1&
2
Con
dens
ing
capa
city
circ
uit 1
&2
Con
dens
er fa
n ca
paci
ty m
axim
um
Con
dens
er u
nloa
ding
T°
Con
dens
er fa
n ac
cous
tic m
ode
0=A
uto,
1=A
utoQ
uiet
,2=
Qui
et.
Con
dens
er fa
n ac
cous
tic n
oise
Con
dens
er fa
n se
t poi
nt
Con
dens
er fa
n se
t poi
nt lo
w s
peed
ON
Con
dens
er fa
n se
t poi
nt lo
w s
peed
OFF
Con
dens
er fa
n se
t poi
nt h
igh
spee
d O
N
Con
dens
er fa
n se
t poi
nt h
igh
spee
d O
FF
Con
dens
er in
let T
° ci
rcui
t 1
Con
dens
er o
utle
t T°
circ
uit 1
Con
dens
er in
let T
° ci
rcui
t 2
Con
dens
er o
utle
t T°
circ
uit 2
Def
rost
mod
e0=
Cyc
lic,
1=D
ynam
ic.
Out
side
air
defro
st T
°
Eva
pora
tor s
atur
atio
n de
frost
T°
Def
rost
freq
uenc
y de
lay
*
*
*
*
cond
ense
r coo
ling
low
saf
ety
T°
cond
ense
r coo
ling
high
saf
ety
T°
cond
ense
r hea
ting
low
saf
ety
T°
cond
ense
r hea
ting
high
saf
ety
T°
*
*
• 62
•
R/W
/ZU
nit
Min
Std
Max
*36
13
Expert
Expansion valve
Circuit 1
Sat
urat
edR
Bar
0*
20
*36
14S
atur
ated
R°C
-4*
35
*36
15S
uctio
nR
°C-5
0*
105
*36
16S
uper
heat
R°C
0*
105
*36
17S
etpo
int
R°C
5*
15
*36
18C
apac
ityR
%0
*10
0
*36
19S
tep
R*
0*
ETS
50 =
26
25E
TS10
0 =
3630
*36
21
Circuit 2
Confi g
R*
**
*
*36
22S
tatu
sR
*Li
st*
*
*36
23S
atur
ated
RB
ar0
*20
*36
24S
atur
ated
R°C
-4*
35
*36
25S
uctio
nR
°C-5
0*
105
*36
26S
uper
heat
R°C
0*
105
*36
27S
etpo
int
R°C
5*
15
*36
28C
apac
ityR
%0
*10
0
*36
29S
tep
R*
0*
ETS
50 =
26
25E
TS10
0 =
3630
*36
31C
ontro
lS
uper
heat
R/W
°C5
*15
3711
Option
Freecooling
Confi g
R*
**
*
3712
Sta
tus
R*
List
**
3713
Sw
Sta
teR
*0
*1
3714
Valv
eR
*0
*1
3715
Out
side
R°C
-50
*10
5
3716
Inle
tR
°C-5
0*
105
3717
Out
let
R°C
-50
*10
5
3718
Cap
acity
R%
0*
100
3721
FP Correct
Confi g
R*
**
*
3722
Sta
tus
R*
List
**
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Confi g
urat
ion
of th
e fre
ecoo
ling
Sta
tus
of th
e fre
ecoo
ling
Inpu
t of t
he fr
eeco
olin
g
Free
cool
ing
valv
e
Out
side
air
T°
Inle
t coi
l wat
er T
°
Out
let c
oil w
ater
T°
Free
cool
ing
fan
capa
city
Confi g
urat
ion
of th
e po
wer
fact
or c
orre
ctio
n
Sta
tus
of th
e po
wer
fact
or c
orre
ctio
n
• 63
•
R/W
/ZU
nit
Min
Std
Max
3723
Expert
Option
FP C
orre
ctS
w S
tate
R*
0*
1
3731
Electrical heater
Confi g
R*
**
*
3732
Sta
tus
R*
List
**
3733
Out
let
R°C
-50
*10
5
3734
Cap
acity
R%
0*
100
3735
Sw
Sta
teR
*0
*1
3736
Out
put 1
R*
0*
1
3737
Out
put 2
R*
0*
1
3738
Out
put 3
R*
0*
1
3739
Out
put 4
R*
0*
1
3741
Power Meter
Confi g
R*
**
*
3742
Pow
er P
RK
W0
*99
999
3743
Pow
er Q
RK
var
0*
9999
9
3744
Pow
er F
acto
rR
*0
*99
999
3745
Ene
rgy
P H
RK
Wh
0*
9999
9
3746
Ene
rgy
P L
RK
Wh
0*
9999
9
3747
Ene
rgy
Q H
RK
Varh
0*
9999
9
3748
Ene
rgy
Q L
RK
Varh
0*
9999
9
3749
Cle
ar C
ount
erR
/W*
00
1
3811
Link
Master/Slave
Sta
tus
R*
List
**
3812
Out
side
R°C
-50
*10
5
3813
Inle
tR
°C-5
0*
105
3814
Out
let
R°C
-50
*10
5
3815
Adr
ess
R/W
*1
*8
3816
Num
ber
R/W
*1
*8
3817
Type
R/W
*0
07
3818
TßA
irR
/W*
00
2
3819
TßW
ater
R/W
*0
02
3821
BM
SS
tatu
sR
*Li
st*
*
3822
Out
side
R°C
-50
*10
5
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Inpu
t of t
he p
ower
fact
or c
orre
ctio
n
Confi g
urat
ion
of th
e el
ectri
cal h
eate
r
Sta
tus
of th
e el
ectri
cal h
eate
r
Eva
pora
tor o
utle
r T°
Ele
ctric
al h
eate
r cap
acity
Ele
ctric
al h
eate
r inp
ut
Ele
ctric
al h
eate
r out
put 1
Ele
ctric
al h
eate
r out
put 2
Ele
ctric
al h
eate
r out
put 3
Ele
ctric
al h
eate
r out
put 4
Confi g
urat
ion
of th
e po
wer
met
er
Act
ive
pow
er
Rea
ctiv
e po
wer
Pow
er F
acto
r
Act
ive
ener
gy M
SB
Act
ive
ener
gy L
SB
Rea
ctiv
e en
ergy
MS
B
Rea
ctiv
e en
ergy
LS
B
Res
et a
ll co
unte
r
Sta
tus
of th
e m
aste
r/sla
ve li
nk
Out
side
air
refe
renc
e T°
Eva
pora
tor i
nlet
refe
renc
e T°
Eva
pora
tor o
utle
t ref
eren
ce T
°
Add
ress
of t
he b
oard
Num
ber o
f uni
ts li
nked
Mas
ter/s
lave
confi g
urat
ion
See
men
u 28
27
Out
side
air
T° c
onfi g
urat
ion
See
men
u 28
28
Eva
pora
tor w
ater
T°
confi
gur
atio
nS
ee m
enu
2828
Sta
tus
of th
e B
MS
Out
side
air
BM
S T
°
• 64
•
R/W
/ZU
nit
Min
Std
Max
3823
Expert
Link
BMS
Inle
tR
°C-5
0*
105
3824
Out
let
R°C
-50
*10
5
3825
Wat
chdo
gR
/W*
0*
3200
0
3826
IdR
/W*
1*
199
3827
Pro
toco
lR
/W*
00
6
3828
Bau
dera
teR
/W*
00
4
Uni
tM
inSt
dM
ax
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
CO
MM
UN
ICA
TIO
N
Des
crip
tion
Men
u4th
dig
it3rd
dig
it2nd
dig
it1st
dig
itC
omm
ents
Eva
pora
tor i
nlet
BM
S T
°
Eva
pora
tor o
utle
t BM
S T
°
Wat
chdo
g tim
er
Iden
tifi c
atio
n nu
mbe
r confi g
urat
ion
BM
S p
roto
col c
onfi g
urat
ion
0=A
dalin
k,1=
Lnx
Visi
on,
2=M
odbu
s,3=
Tren
d,4=
Car
el,
5=B
acne
t,6=
Lon
wor
ks.
BM
S b
aude
rate
confi g
urat
ion
0=12
00,
1=24
00,
2=48
00,
3=96
00,
4=19
200.
Uni
tM
inim
umS
tand
ard
Max
imum
• 65 •CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
BMS
FunctionBMS (building management systems) are systems for the integrated management of all the technological functions of a building, including access control, safety, fi re detection, lighting, intelligent elevators, and air-conditioning. The resulting advantages of such solutions are simpler and more effi cient management of the building from a single control station, reduction in running costs, possibility of statistical analysis of all data, immediate identifi cation and response to faults and alarms. This amply justify the little extra cost of the air-conditioning unit BMS connectable. Today not only the quality and the reliability of the instruments are important, but also the degree of external connectivity they can offer.
DescriptionThe communication bus is connected on CLIMATIC™ 60’s serial card board on the BM60. A star connection is not recommended, for an optimum operation, it is advised to connect a maximum of two cables per unit. In case of RS485 bus, a resistance of 120Ω 1/4W can be connected on the last unit between the terminals + and -.
The connection must be carried out by the following cable: length up to 1000 m: LiYCY-P (0.34 mm ²), 2 pairs with general shield.
The CLIMATIC™ 60 offers different possibilities of BMS protocol:• Modbus RTU,• Trend,• Bacnet,• Lon Works.
Modbus is a serial communications protocol published by Modicon in 1979, and has become a standard communications protocol in industry. It is now the most commonly available method to connect industrial electronic devices. Controllers communicate using a master–slave technic, in which only one device (master) can initiate transactions (called ‘queries’). The other devices (slaves) answer by supplying the requested data to the master, or by taking the action requested in the query.
Max = 1000 m
SERAIL CARDCND (+) (-)
Connect a 120Ω 1/4W end line resistor (only for
Modbus)
• 66 •
RS485 (EIA/ TIA - 485 Standard)
RTU (Remote Terminal Unit)
1200→19200 Bauds
8 bits
None
1 bit
CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
LENNOX units implement Modbus slave protocol with the following settings:
The BMS mode is activated by the iinitialisation of the watchdog value. The watchdog is automatically decreasing every second. It’s therefore necessary to frequently overwrite the watchdog value not to let it fall to 0. If the watchdog reaches 0, the BMS mode is disabled and the unit comes back to the schedule mode.
SettingsThe different settings to confi gure the BMS are available in the menu: • (3826): unit identifi cation number on the BMS network,• (3827): protocol communication with the BMS,• (3828): Baudrate with the BMS.
Serial Line
Transmission Mode
Baudrate
Data bits
Parity
Stop bits
• 67 •
1
2
7
8
9
10
21
22
23
24
25
26
27
28
34
40
41
42
43
44
45
46
47
48
49
50
54
58
59
61
62
63
64
65
66
67
68
70
71
72
73
74
75
76
77
78
79
80
81
83
CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARMS
CODE DESCRIPTIONWater Evaporator,Flow Switch,Cut Off
Water Condenser,Flow Switch,Cut Off
Buffer Tank,Water Level,Low
Buffer Tank,Water Level,High
Unit,Power Supply,Electrical Failure
Unit,Electrical Heater,Electrical Failure
Water Evaporator,Water T°,Outlet Too High
Water Evaporator,Water T°,Outlet Too Low
Water Evaporator,Water T°,Inlet Too High
Water Evaporator,Water T°,Inlet Too Low
Water Condenser,Water T°,Outlet Too High
Water Condenser,Water T°,Outlet Too Low
Water Condenser,Water T°,Inlet Too High
Water Condenser,Water T°,Inlet Too Low
Electrical Box T°,Air T°,Too High
Pump Evaporator,Flow Switch,Cut Off
Pump Evaporator,Pump N° 1,Electrical Failure
Pump Evaporator,Pump N° 2,Electrical Failure
Pump Condenser,Pump N° 1,Electrical Failure
Pump Condenser,Pump N° 2,Electrical Failure
Pump Evaporator,In Pressure ,Faulty Sensor
Pump Evaporator,OUT Pressure ,Faulty Sensor
Pump Condenser,In Pressure ,Faulty Sensor
Pump Condenser,OUT Pressure ,Faulty Sensor
Pump Evaporator,Inverter,Electrical Failure
Pump Condenser,Inverter,Electrical Failure
Freecooling Fan,Inverter,Electrical Failure
Recovery,Water Inlet T°,Faulty Probe
Recovery,Water Outlet T°,Faulty Probe
Master/Slave,BM Master,Failure Link
Master/Slave,BM Slave 2,Failure Link
Master/Slave,BM Slave 3,Failure Link
Master/Slave,BM Slave 4,Failure Link
Master/Slave,BM Slave 5,Failure Link
Master/Slave,BM Slave 6,Failure Link
Master/Slave,BM Slave 7,Failure Link
Master/Slave,BM Slave 8,Failure Link
BM board,Real Time Clock,Failure
BE Board,BE N°1,Failure Link
BE Board,BE N°2,Failure Link
Pump Evaporator,Inverter,Failure Link
Pump Condenser,Inverter,Failure Link
Condenser Fan,Inverter Circuit 1,Failure Link
Condenser Fan,Inverter Circuit 2,Failure Link
Condenser Fan,Inverter Circuit 1/2,Failure Link
Freecooling Fan,Inverter,Failure Link
DC Display,DC60 N°1,Failure Link
DC Display,DC60 N°2,Failure Link
Water Evaporator,Water Inlet T°,Faulty Probe
Outside,Air T°,Faulty Probe
• 68 •
85
89
90
102
103
104
105
108
110
111
112
113
114
115
116
117
118
121
122
123
124
127
128
129
131
132
141
142
143
144
145
146
147
148
149
202
203
210
211
212
213
214
215
216
217
218
219
221
222
223
224
CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
CODE DESCRIPTIONWater Evaporator,Water Outlet T°,Faulty Probe
Electrical Box T°,Air T°,Faulty Probe
Water Freecooling,Inlet T°,Faulty Probe
Circuit 1,Fan Condenser Motor,Electrical Failure
Circuit 1,Fan Condenser Inverter,Electrical Failure
Circuit 1/2,Fan Condenser Motor,Electrical Failure
Circuit 1/2,Fan Condenser Inverter,Electrical Failure
Unit,Power Factor CosPhi,Electrical Failure
Circuit 1,Leak Refrigerant,Detection
Circuit 1 Compressor 1,Discharge T°,Overheating
Circuit 1,Discharge T° Compressor 2,Overheating
Circuit 1,Discharge T° Compressor 3,Overheating
Circuit 1,Compressor(s),Electrical Failure
Circuit 1,Safety High Pressure,Cut Off
Circuit 1,Reversing Valve,Blocked
Circuit 1, Safety Low Pressure,Cut Off
Circuit 1,Water Evaporator,Risk Of Frosting
Circuit 1,Evaporator Superheat,Too High
Circuit 1,Evaporator Superheat,Too Low
Circuit 1,Condenser Subcooling,Too High
Circuit 1,Condenser Subcooling,Too Low
Circuit 1,MOP,Maximum Operating Pressure
Circuit 1,LOP,Low Operating Pressure
Circuit 1,Condenser T°,Too High
Circuit 1,EEV Valve,Not Closed
Circuit 1,EEV Motor,Failure
Circuit 1,High Pressure,Faulty Sensor
Circuit 1,Low Presure,Faulty Sensor
Circuit 1,Liquid T°,Faulty Probe
Circuit 1,Suction T°,Faulty Probe
Circuit 1,Discharge T° Compressor 1,Faulty Probe
Circuit 1,Discharge T° Compressor 2,Faulty Probe
Circuit 1,Discharge T° Compressor 3,Faulty Probe
Circuit 1,Water Condenser Inlet T°,Faulty Probe
Circuit 1,Water Condenser Outlet T°,Faulty Probe
Circuit 2,Condenser Fan Electrical Failure
Circuit 2,Condenser Inverter Electrical Failure
Circuit 2,Leak Refrigerant Detected
Circuit 2,Discharge T° Compressor 2, Overheating
Circuit 2,Discharge T° Compressor 2, Overheating
Circuit 2,Discharge T° Compressor 3, Overheating
Circuit 2,Compressor, Electrical Failure
Circuit 2,High Pressure Cut Off
Circuit 2,Reversing Valve, Blocked
Circuit 2, Safety Low Pressure,Cut Off
Circuit 2,Evaporator, Risk Of Frosting
Circuit 2,Low Condensing T°
Circuit 2,Evaporator Superheat Too High
Circuit 2,Evaporator Superheat Too Low
Circuit 2,Condenser Subcooling Too High
Circuit 2,Condenser Subcooling Too Low
• 69 •
227
228
229
231
232
241
242
243
244
245
246
247
248
249
CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
CODE DESCRIPTIONCircuit 2,MOP, Maximum Operating Pressure
Circuit 2,LOP,Low Operating Pressure
Circuit 2,High Condensing T°
Circuit 2,EEV, Valve Not Closed
Circuit 2,EEV, Motor
Circuit 2,High Pressure, Faulty Sensor
Circuit 2,Low Presure, Faulty Sensor
Circuit 2,Liquid T°, Faulty Probe
Circuit 2,Suction T°, Faulty Probe
Circuit 2,Discharge T°, Compressor 2, Faulty Probe
Circuit 2,Discharge T°, Compressor 2, Faulty Probe
Circuit 2,Discharge T°, Compressor 3, Faulty Probe
Circuit 2,Water Condensing Inlet T°, Faulty Probe
Circuit 2,Water Condensing Outlet T°, Faulty Probe
• 70 • CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 001:WATER EVAPORATOR, FLOW SWITCH CUT OFF
ALARM 002:WATER CONDENSER, FLOW SWITCH CUT OFF
DescriptionThe fl ow switch has detected a low water fl ow rate in the evaporator heat exchanger for more than 5 seconds whereas the unit was enable.
ActionImmediate shut down of the complete unit.
ResetOnce the fl ow has been detected for 2 minutes, the alarm is automatically deleted. Up to 3 trips can occur during a day and are saved in the alarm history. The two fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The third trip activates the fault report and must be manually reset.
Possible cause(s)• Problem with the pump control wiring,• Problem with the fl ow switch wiring,• Dirty or clogged water fi lter,• Wrong setting of the fl ow switch.
Remedies• Check the pump(s) connections,• Check the fl ow switch connections,• Clean the water fi lter,• Check the fl ow switch settings.
DescriptionThe fl ow switch has detected a low water fl ow rate in the condenser heat exchanger for more than 5 seconds whereas the unit was enabling.
ActionImmediate shut down of the complete unit.
ResetOnce the fl ow has been detected for 2 minutes, the alarm is automatically deleted. Up to 3 trips can occur during a day and are saved in the alarm history. The two fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The third trip activates the fault report and must be manually reset.
Possible cause(s)• Problem with the pump control wiring,• Problem with the fl ow switch wiring,• Dirty or clogged water fi lter,• Wrong setting of the fl ow switch,
Remedies• Check the pump connections,• Check the fl ow switch connections,• Clean the water fi lter,• Check the fl ow switch settings.
• 71 •CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 021, 022, 023, 024: WATER EVAPORATOR, OUT OF RANGE
ALARM 025, 026, 027, 028:WATER CONDENSER, OUT OF RANGE
DescriptionThe water evaporator temperature (inlet or outlet) measured by the probe is outside of the permitted range. This operating range can vary according to the presence or not of glycol with the chilled water.• Alarm 021: the outlet water temperature is higher than the safety limit setting (3274) in heating mode,• Alarm 022: the outlet water temperature is lower than the safety limit setting (3271) in cooling mode,• Alarm 023: the inlet water temperature is higher than the safety limit setting (3272) in cooling mode,• Alarm 024: the inlet water temperature is lower than the safety limit setting (3273) in heating mode.
ActionImmediate shut down of the complete unit. The alarm is signalling 5 min after if the water evaporator temperature is still out of the permitted range.
ResetThe alarm is automatically deleted once the temperature has reached the permitted operating range for 2 min. After a change over mode (cool / heat), these alarms are disabled during 15 min.
Possible cause(s)• Temperature probe failed• Problem with wiring of probe.
Remedies• Replace probe• Check the connections of the probe.
DescriptionThe water condenser temperature (Inlet or Outlet) measured by the probe is outside of the permitted range.• Alarm 025: the outlet water temperature is higher than the safety limit setting (3574) in heating mode,• Alarm 026: the outlet water temperature is lower than the safety limit setting (3571) in cooling mode,• Alarm 027: the inlet water temperature is higher than the safety limit setting (3572) in cooling mode,• Alarm 028: the inlet water temperature is lower than the safety limit setting (3573) in heating mode.
ActionImmediate shut down of the complete unit. The alarm is signalling 5 min after if the condenser temperature is still out of range.
ResetThe alarm is automatically deleted once the temperature has reached the permitted operating range for 2 min. After a change over mode, these alarms are reset during 15 min.
Possible cause(s)• Problem with wiring of probe,• Temperature probe failed.
Remedies• Check the connections of the probe,• Replace probe.
• 72 •
58.0 62.0 65.0
CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 034:ELECTRICAL BOX, AIR TEMPERATURE TOO HIGH
DescriptionThe air temperature measured by the probe placed in the electrical box is too high. This alarm is managed only on NEOSYS™ units.
ActionIf the inside temperature is higher than 62.0°C for at least 5 min, one circuit is stopped.If the inside temperature is higher than 65.0°C, for at least 5 min, the two circuits are stopped.The alarm is signalling if one of the two limits is reached.
ResetThe trip is automatically cleared once the temperature has reached the permitted operating range for 2 min (58.0°C).
Possible cause(s)• Temperature probe failed,• Problem with wiring of probe,• Inside air fan blower not operating,• Inside air fan thermostat not operating or wrong adjusted.
Remedies• Replace probe,• Check the connections of the probe,• Check the air fan blower,• Check the air fan thermostat.
Unloading 2 circuits
Electrical box air temperature (°C)
Unloading 1 circuit
• 73 •CL60-AC CHILLER-IOM-1011-E
ALARM 041, 042:PUMP EVAPORATOR, ELECTRICAL FAILURE
ALARM 043, 044:PUMP CONDENSER, ELECTRICAL FAILURE
DescriptionThe thermal magnetic circuit breaker protection of the evaporator pump 1 or 2 has tripped for 5 s, whereas the pump was in demand for at least 5 s.• Alarm 41: thermal magnetic circuit breaker protection of the pump 1,• Alarm 42: thermal magnetic circuit breaker protection of the pump 2.
ActionCase of single pump:• Immediate shut down of the pump and the unit. • The alarm is signalling.
Case of double pump:• Immediate shut down of the current pump and the compressor(s).• Time delay of 30 s,• Start the second pump if possible (refers to the “PUMP EVAPORATOR MANAGEMENT“ paragraph)• The alarm is signalling.
ResetThese alarms are manually reset.
Possible cause(s)• Problem with wiring connection,• Circuit breaker wrong adjusted.
Remedies• Check the pump(s) connections,• Adjust the circuit breaker.
DescriptionThe thermal magnetic circuit breaker protection of the condenser pump 1 or 2 has tripped for 5 s, whereas the pump was in demand for at least 5 s.• Alarm 43: thermal magnetic circuit breaker protection of the pump 1,• Alarm 44: thermal magnetic circuit breaker protection of the pump 2.
ActionCase of single pump:• Immediate shut down of the pump and the unit. • The alarm is signalling.
Case of double pump:• Immediate shut down of the current pump and the compressor(s).• Time delay of 30 s,• Start the second pump if possible (refers to the “PUMP CONDENSER MANAGEMENT“ paragraph)• The alarm is signalling.
ResetThese alarms are manually reset.
Possible cause(s)• Problem with wiring connection,• Circuit breaker wrong adjusted.
Remedies• Check the pump(s) connections,• Adjust the circuit breaker.
COMMUNICATION
• 74 • CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 045, 046:PUMP EVAPORATOR, FAULTY PRESSURE SENSOR
ALARM 047, 048: PUMP CONDENSER, FAULTY PRESSURE SENSOR
DescriptionThe evaporator water pressure (in or out) measured by the sensor is outside of the permitted range. This alarm is managed only if the “evaporator variable fl ow” option is selected.• Alarm 45: water evaporator pressure sensor IN faulty,• Alarm 46: water evaporator pressure sensor OUT faulty.
Action• Immediate shut down of the pump and the unit. • The alarm is signalling.
ResetOnce the CLIMATIC™ 60 has read correct pressure values for 2 minutes, the alarm is automatically deleted. Up to 3 trips can occur during a day and are saved in the alarm history. The two fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The third trip activates the fault report and must be manually reset.
Possible cause(s)• Problem with wiring connection (sensor in short circuit or disconnected),• Sensor damaged.
Remedies• Check the wiring connections,• Replace the sensor.
DescriptionThe water pressure of the condenser pump (in or out) measured by the sensor is outside of the permitted range. This alarm is managed only when the condenser variable fl ow option is selected.• Alarm 47: water condenser pressure sensor IN faulty,• Alarm 48: water condenser pressure sensor OUT faulty.
Action• Immediate shut down of the pump and the unit. • The alarm is signalling.
ResetOnce the CLIMATIC™ 60 has read correct pressure values for 2 minutes, the alarm is automatically deleted. Up to 3 trips can occur during a day and are saved in the alarm history. The two fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The third trip activates the fault report and must be manually reset.
Possible cause(s)• Problem with wiring connection (sensor in short circuit or disconnected),• Sensor damaged.
Remedies• Check the wiring connections,• Replace the sensor.
• 75 •CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 061, 062, 063, 064, 065, 066, 067, 068:CLIMATIC BOARD LINK, FAILURE
ALARM 070:REAL TIME CLOCK BOARD, FAILURE
DescriptionThe link between the master / slave CLIMATIC™ 60 boards is faulty.• Alarm 61: master CLIMATIC™ 60 n°1 board disconnected,• Alarm 62 → 68: slave CLIMATIC™ 60 board n°2 → 8 disconnected.
Action• Swap immediately the unit in stand alone mode. • The alarm is signalling.
ResetOnce the communication is re-established for 30 s, the alarm is automatically deleted. Up to 6 trips can occur during a day and are saved in the alarm history. The fi ve fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The sixth trip activates the fault report and must be manually reset.
Possible cause(s)• Problem with wiring connection,• CLIMATIC™ 60 board power off,• CLIMATIC™ 60 board damaged.
Remedies• Check the wiring connections,• Check the power of CLIMATIC™ 60 board,• Replace the CLIMATIC™ 60 board.
DescriptionThe real time clock board of the CLIMATIC™ 60 doesn’t work. The battery if out of order or wrongly placed.
ActionThe alarm is signalling.
ResetThe alarm is manually reset.
Possible cause(s)• Battery level too low,• CLIMATIC™ 60 board damaged.
Remedies• Replace the battery (do not dispose of the product in a municipal waste; it
must be disposed of through specialist waste disposal centres), • Replace the CLIMATIC™ 60 board.
• 76 • CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 071, 072:EXPANSION BOARD LINK, FAILURE
ALARM 073, 074, 075, 076, 077, 078:INVERTER LINK, FAILURE
DescriptionThe link between the expansion board(s) 1 or 2 and the CLIMATIC™ 60 is disconnected.• Alarm 71: the expansion board N°1 is disconnected from the CLIMATIC™ 60,• Alarm 72: the expansion board N°2 is disconnected from the CLIMATIC™ 60.
Action• Immediate shut down of the unit. • The alarm is signalling.
ResetOnce the communication is re-established for 30 s, the alarm is automatically deleted. Up to 6 trips can occur during a day and are saved in the alarm history. The fi ve fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The sixth trip activates the fault report and must be manually reset.
Possible cause(s)• Problem with wiring connection,• Wrong expansion board address,• Expansion board damaged.
Remedies• Check the wiring connections,• Check the expansion board address (refer to the “FREE INPUT / OUTPUT” paragraph),• Replace the expansion board.
DescriptionThe link between the inverter and the CLIMATIC™ 60 has been disconnected for 5 s.• Alarm 073: the evaporator pump inverter is disconnected from the CLIMATIC™ 60,• Alarm 074: the condenser pump inverter is disconnected from the CLIMATIC™ 60,• Alarm 075: the condenser fan inverter of circuit 1 is disconnected from the CLIMATIC™ 60,• Alarm 076: the condenser fan inverter of circuit 2 is disconnected from the CLIMATIC™ 60,• Alarm 077: the condenser fan inverter of circuit 1/2 is disconnected from the CLIMATIC™ 60,• Alarm 078: the condenser fan inverter of the freecooling is disconnected from the CLIMATIC™ 60.
Action• Alarm 073: immediate shut down of the complete unit. The alarm is signalling,• Alarm 074: immediate shut down of the complete unit. The alarm is signalling,• Alarm 075: immediate shut down of circuit 1. The alarm is signalling,• Alarm 076: immediate shut down of ircuit 2. The alarm is signalling,• Alarm 077: doesn’t stop circuit 1 or 2. The alarm is signalling,• Alarm 078: doesn’t stop the unit. The alarm is signalling.
ResetOnce the communication is re-established for 2 minutes, the alarm is automatically deleted. Up to 6 trips can occur during a day and are saved in the alarm history. The fi ve fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The sixth trip activates the fault report and must be manually reset.
Possible cause(s)• Problem with wiring connection,• Wrong inverter address,• Inverter damaged.
Remedies• Check the wiring connections,• Check the inverter address,• Replace the inverter.
• 77 •CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 081, 083, 085, 089, 090, 141, 142, 143, 144, 145, 146, 148, 149, 241, 242, 243, 244, 245, 246, 248, 249:PROBE & SENSOR, FAULTY
DescriptionThe temperature probe or pressure sensor measured by the CLIMATIC™ 60 or other expansion boards is incorrect. The device may be disconnected or in short circuit for 5 s.• Alarm 081: the inlet water evaporator temperature probe value is incorrect,• Alarm 083: the outside air temperature probe value is incorrect,• Alarm 085: the outlet water evaporator temperature probe value is incorrect,• Alarm 089: the inside electrical box air temperature probe value is incorrect,• Alarm 090: the inlet freecooling water temperature probe value is incorrect,• Alarm 141: the high pressure sensor value on circuit 1 is incorrect,• Alarm 142: the low pressure sensor value on circuit 1 is incorrect,• Alarm 143: the liquid temperature probe value on circuit 1 is incorrect,• Alarm 144: the suction temperature probe value on circuit 1 is incorrect,• Alarm 145: the discharge temperature probe value on circuit 1 – compressor 1 is incorrect,• Alarm 146: the discharge temperature probe value on circuit 1 – compressor 2 is incorrect,• Alarm 148: the inlet water condenser temperature probe value on circuit 1 is incorrect,• Alarm 149: the outlet water condenser temperature probe value on circuit 1 is incorrect,• Alarm 241: the high pressure sensor value on circuit 2 is incorrect,• Alarm 242: the low pressure sensor value on circuit 2 is incorrect,• Alarm 243: the liquid temperature probe value on circuit 2 is incorrect,• Alarm 244: the suction temperature probe value on circuit 2 is incorrect,• Alarm 245: the discharge temperature probe value on circuit 2 – compressor 1 is incorrect,• Alarm 246: the discharge temperature probe value on circuit 2 – compressor 2 is incorrect,• Alarm 248: the inlet water condenser temperature probe value on circuit 2 is incorrect,• Alarm 249: the outlet water condenser temperature probe value on circuit 2 is incorrect.
Action• Alarm 081: immediate shut down of the complete unit. The alarm is signalling,• Alarm 083: immediate shut down of the complete unit. The alarm is signalling,• Alarm 085: immediate shut down of the complete unit. The alarm is signalling,• Alarm 089: doesn’t stop the unit. The alarm is signalling,• Alarm 090: doesn’t stop the unit. The alarm is signalling.• Alarm 141: immediate shut down of circuit 1. The alarm is signalling,• Alarm 142: immediate shut down of circuit 1. The alarm is signalling,• Alarm 143: immediate shut down of circuit 1. The alarm is signalling,• Alarm 144: immediate shut down of circuit 1. The alarm is signalling,• Alarm 145: immediate shut down of circuit 1. The alarm is signalling,• Alarm 146: immediate shut down of circuit 1. The alarm is signalling,• Alarm 148: immediate shut down of circuits 1 and 2, only if there is one condenser for both circuits,• Alarm 149: immediate shut down of circuits 1 and 2, only if there is one condenser for both circuits,• Alarm 241: immediate shut down of circuit 2. The alarm is signalling,• Alarm 242: immediate shut down of circuit 2. The alarm is signalling,• Alarm 243: immediate shut down of circuit 2. The alarm is signalling,• Alarm 244: immediate shut down of circuit 2. The alarm is signalling,• Alarm 245: immediate shut down of circuit 2. The alarm is signalling,• Alarm 246: immediate shut down of circuit 2. The alarm is signalling,• Alarm 248: immediate shut down of circuit 2. The alarm is signalling,• Alarm 249: immediate shut down of circuit 2. The alarm is signalling,
ResetOnce the data read is coherent for 2 minutes, the alarm is automatically deleted. Up to 3 trips can occur during a day and are saved in the alarm history. The two fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The third trip activates the fault report and must be manually reset.
Possible cause(s)• Problem with wiring connection,• Probe or sensor damaged.
Remedies• Check the wiring connections,• Replace the probe or sensor.
• 78 • CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 102, 104, 202:CONDENSER FAN, ELECTRICAL FAILURE
DescriptionThe thermal motor protection of the condenser fan has detected an over temperature for 5 s, while the fan motor was in demand for at least 5 s.• Alarm 102: thermal motor protection of the condenser fan on circuit 1,• Alarm 104: thermal motor protection of the condenser fan on circuit 1/2,• Alarm 202: thermal motor protection of the condenser fan on circuit 2.
Action• Alarm 102: immediate shut down of the circuit 1. The alarm is signalling,• Alarm 104: immediate shut down of the common fans of the circuits 1 & 2. The two circuits still running with the rest of the fans
available. The alarm is signalling,• Alarm 202: immediate shut down of the circuit 2. The alarm is signalling.
ResetOnce the data read is coherent for 2 minutes, the alarm is automatically deleted. Up to 6 trips can occur during a day and are saved in the alarm history. The fi ve fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The sixth trip activates the fault report and must be manually reset.
Possible cause(s)• Wrong air fl ow operating,• Problem with wiring connection,• Fan motor damaged.
Remedies• Check the air system,• Check the connection,• Replace the fan motor.
• 79 •CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 108:POWER FACTOR CORRECTION, ELECTRICAL FAILURE
ALARM 049, 050, 054, 103, 105, 203:PUMP OR FAN INVERTER, FAILURE
DescriptionThe thermal magnetic circuit breaker protection of the capacitors (cos phi) has tripped for 5 s.
ActionThe alarm is signalling.
ResetThe alarm is manually reset.
Possible cause(s)• Problem with wiring connection,• Circuit breaker wrongly adjusted.
Remedies• Check the capacitor connection,• Adjust the circuit breaker.
DescriptionThe CLIMATIC™ 60 has detected an alarm on the pump inverter or the fan inverter.• Alarm 049: inverter failure of the evaporator pump,• Alarm 050: inverter failure of the condenser pump,• Alarm 054: inverter failure of the freecooling fan,• Alarm 103: inverter failure of the condenser fan on circuit 1,• Alarm 105: inverter failure of the condenser fan on circuit 1/2,• Alarm 203: inverter failure of the condenser fan on circuit 2.
Action• Alarm 049: immediate shut down of the complete unit. The alarm is signalling,• Alarm 050: immediate shut down of the complete unit. The alarm is signalling,• Alarm 054: immediate shut down of the freecooling fan. The alarm is signalling,• Alarm 103: immediate shut down of circuit 1. The alarm is signalling,• Alarm 105: immediate shut down of circuits 1/2. The alarm is signalling,• Alarm 203: immediate shut down of circuit 2. The alarm is signalling.
ResetThe alarm is manually reset.
Possible cause(s)• Problem with wiring connection,• Pump or fan damaged,• Inverter damaged.
Remedies• Check the inverter connection,• Replace the pump or fan,• Replace the inverter.
• 80 • CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 111, 112, 211, 212:DISCHARGE TEMPERATURE COMPRESSOR, OVERHEATING
DescriptionThe CLIMATIC™ 60 has detected an overheating discharge temperature on the compressor.• Alarm 111: overheating discharge temperature on circuit 1 – compressor 1,• Alarm 112: overheating discharge temperature on circuit 1 – compressor 2,• Alarm 211: overheating discharge temperature on circuit 2 – compressor 1,• Alarm 212: overheating discharge temperature on circuit 2 – compressor 2.
ActionImmediate shut down of the compressor. The alarm is signalling.
ResetOnce the discharge temperature has reached a permitted operating range for 2 minutes, the alarm is automatically deleted. Up to 6 trips can occur during a day and are saved in the alarm history. The fi ve fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The sixth trip activates the fault report and must be manually reset.
Possible cause(s)• Problem of refrigerant capacity,• Compressor damage.
Remedies• Check the frigorifi c operating,• Replace the compressor.
ALARM 114, 214:COMPRESSOR, ELECTRICAL FAILURE
DescriptionThe thermal magnetic circuit breaker protection or the thermal motor protection of the compressor has tripped.• Alarm 114: thermal magnetic circuit breaker open on circuit 1,• Alarm 214: thermal magnetic circuit breaker open on circuit 2.
ActionImmediate shut down of the complete circuit. The alarm is signalling.
ResetThe alarm is manually reset.
Possible cause(s)• Problem with wiring connection,• Circuit breaker wrongly adjusted,• Compressor damage.
Remedies• Check the wiring connection,• Adjust the circuit breaker,• Replace the compressor.
• 81 •CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 115, 215:HIGH PRESSURE, CUT OFF
DescriptionThe high pressure switch has trip for 5 s while a compressor was running for 10 s.• Alarm 115: high pressure cut off on circuit 1,• Alarm 215: high pressure cut off on circuit 2.
ActionImmediate shut down of the complete circuit. The alarm is signalling.
ResetOnce the circuit has been stopped for 30 minutes, the alarm is automatically deleted. Up to 3 trips can occur during a day and are saved in the alarm history. The two fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The third trip activates the fault report and must be manually reset.
Possible cause(s)• Problem with wiring connection,• Coil condenser dirty,• Fan condenser not operating.
Remedies• Check the wiring connection,• Clean the coil condenser,• Check the fan operating.
ALARM 116, 216:REVERSING VALVE, BLOCKED
DescriptionThe CLIMATIC™ 60 hasn’t measured a difference of pressure of 1 bars for 5 s, while a compressor was running for 60 s.• Alarm 116: reversing valve blocked on circuit 1,• Alarm 216: reversing valve blocked on circuit 2.
ActionImmediate shut down of the complete circuit. The alarm is signalling.
ResetOnce the circuit has been stopped for 2 minutes, the alarm is automatically deleted. Up to 3 trips can occur during a day and are saved in the alarm history. The two fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The third trip activates the fault report and must be manually reset.
Possible cause(s)• Problem with wiring connection,• Problem of reversing valve.
Remedies• Check the wiring connection,• Replace the reversing valve.
• 82 • CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 117, 217:LOW PRESSURE, CUT OFF
DescriptionThe suction temperature calculated by the LP pressure sensor is lower than the permitted threshold. The temperature has reached -27.0°C (1 minute delayed in heating mode) while a compressor was running for 30 s. The alarm is disable during 1 minute if the defrost procedure is running. In any case if the LP temperature reaches -37.0°C, the circuit is stopped immediately without time delay.• Alarm 117: suction temperature too low on circuit 1,• Alarm 217: suction temperature too low on circuit 2.
ActionImmediate shut down of the complete circuit. The alarm is signalling.
ResetOnce the circuit has been stopped for 2 minutes, the alarm is automatically deleted. Up to 3 trips can occur during a day and are saved in the alarm history. The two fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The third trip activates the fault report and must be manually reset.
Possible cause(s)• Problem of refrigerant capacity.
Remedies• Check the frigorifi c operating.
ALARM 118, 218:WATER EVAPORATOR, RISK OF FROSTING
DescriptionThe suction pressure measured by the LP sensor is too low and may pose a risk for the water evaporator. These alarms are disabled if the unit has electronic expansion valve (EEV) or if the glycol rate is greater than 45%. The LP pressure has reached the limit specifi ed in the setting (3441) for 2 minutes while a compressor was running for at least 2 minutes. This alarm is disabled during 1 minute when a compressor start or stop or during the defrost procedure.• Alarm 118: risk of frosting the water evaporator by circuit 1,• Alarm 218: risk of frosting the water evaporator by circuit 2.
ActionImmediate shut down of the complete circuit. The alarm is signalling.
ResetOnce the suction pressure is higher than the setting (3441) for 2 minutes, the alarm is automatically deleted. Up to 3 trips can occur during a day and are saved in the alarm history. The two fi rst trips don’t give the alarm alert except if a trip is still present during 1 hour, and are automatically reset every day at 6 am. The third trip activates the fault report and must be manually reset.
Possible cause(s)• Problem of refrigerant capacity• Problem with the expansion valve.
Remedies• Check the frigorifi c operating,• Replace the expansion valve.
• 83 •CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 121, 122, 221, 222:EVAPORATOR, TEMPERATURE SUPERHEAT OUT OF RANGE
DescriptionThe CLIMATIC™ 60 has detected anormal superheating temperature on the circuit.• Alarm 121: superheat temperature too high on circuit 1,• Alarm 122: superheat temperature too low on circuit 1,• Alarm 221: superheat temperature too high on circuit 2,• Alarm 222: superheat temperature too low on tcircuit 2.
ActionThe circuit is still running. The alarm is signalling.
ResetThe alarm is manually reset.
Possible cause(s)• Problem of refrigerant capacity• Problem with the expansion valve.
Remedies• Check the frigorifi c operating,• Replace the expansion valve.
ALARM 123, 124, 223, 224:CONDENSER, TEMPERATURE SUBCOOLING OUT OF RANGE
DescriptionThe CLIMATIC™ 60 has detected anormal subcooling temperature on the circuit.• Alarm 123: subcooling temperature too high on circuit 1,• Alarm 124: subcooling temperature too low on circuit 1,• Alarm 223: subcooling temperature too high on circuit 2,• Alarm 224: subcooling temperature too low on circuit 2.
ActionThe circuit is still running. The alarm is signalling.
ResetThe alarm is manually reset.
Possible cause(s)• Problem of refrigerant capacity• Problem with the expansion valve.
Remedies• Check the frigorifi c operating,• Replace the expansion valve.
• 84 • CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 127, 227: MOP OPERARTING PRESSURE, FAULTY
ALARM 128, 228: LOP - LOW OPERARTING PRESSURE, FAULTY
DescriptionThe suction pressure measured by the electronic expansion valve driver (EVD) is outside a permitted range.• Alarm 127: most operating pressure on circuit 1,• Alarm 227: most operating pressure on circuit 2.
ActionThe circuit is still running. The alarm is signalling.
ResetThe alarm is automatically reset.
Possible cause(s)• Problem of refrigerant capacity
Remedies• Check the frigorifi c operating,
DescriptionThe suction pressure measured by the electronic expansion valve driver (EVD) is outside a permitted range.• Alarm 128: low operating pressure on circuit 1,• Alarm 228: low operating pressure on circuit 2.
ActionThe circuit is still running. The alarm is signalling.
ResetThe alarm is automatically reset.
Possible cause(s)• Problem of refrigerant capacity.
Remedies• Check the frigorifi c operating.
• 85 •CL60-AC CHILLER-IOM-1011-E
COMMUNICATION
ALARM 129, 229: CONDENSING TEMPERATURE, TOO HIGH
DescriptionThe condensing temperature measured by the CLIMATIC™ 60 is too high.• Alarm 129: high condensing temperature on circuit 1,• Alarm 229: high condensing temperature on circuit 2.
ActionImmediate shut down of one of the compressor on the circuit (the small one in uneven circuit, or the one which has the higher counter time for even circuit). The alarm is signalling.
ResetOnce the condensing temperature has been enough decrease for 2 minutes, the alarm is automatically reset.
Possible cause(s)• Problem with wiring connection,• Coil condenser dirty,• Fan condenser not operating,• Outside air temperature too high.
Remedies• Check the wiring connection,• Clean the coil condenser,• Check the fan operating.
• 86 • CL60-AC CHILLER-IOM-1011-E
CLIMATIC™ 60
88
95
• 87 •CL60-AC CHILLER-IOM-1011-E_Appendix
APPENDIXRef : CL60-AC CHILLER-IOM-1011-E
TABLE OF CONTENTS
AIR COOLED CHILLER
BMSAPPENDIX 1Modbus, BACnet, Trend, CarelAPPENDIX 2BMS lonworks table
R/W MIN MAX
1 R/W 0 32000
2 R/W 0 1
3 R/W 0 1
4 R/W 0 1
5 R/W 0 23
6 R/W 0 60
7 R/W 1 31
8 R/W 1 12
9 R/W 1 99
10 R/W 0 1
11 R/W 0 20
12 R/W 7 20
13 R/W 20 50
14 R/W 0 1
15 R/W 0 1
16 R/W 0 1
17 R/W 0 1
18 R/W 0 1
19 R/W 0 1
20 R/W 0 1
21 R/W 0 1
22 R/W 0 1
23 R/W 0 1
24 R/W 0 1
25 R/W 0 1
26 R/W 0 1
27 R/W 0 1
28 R/W 0 1
29 R/W 0 1
30 R/W -40 80
31 R/W -40 80
32 R/W -40 80
33 R/W 7 20
34 R/W 20 50
• 88 • CL60-AC CHILLER-IOM-1011-E_Appendix
BMS
APPENDIX 1Modbus, BACnet, Trend, Carel
@ddress FORMAT DESCRIPTION
Integer Counter enable BMS mode (watchdog)
Integer Setpoint general on/off
Integer Setpoint reset alarm / fault
Integer Setpoint update clock
Integer Setpoint hour
Integer Setpoint minute
Integer Setpoint day
Integer Setpoint month
Integer Setpoint year
Integer Setpoint reset power meter counter
Integer Setpoint override evaporator water setpoint
Integer Setpoint override cooling mode
Integer Setpoint override heating mode
Integer Setpoint override dead zone mode
Integer Setpoint override mode BMS
Integer Setpoint override mode D
Integer Setpoint disable compressor(s) circuit 1
Integer Setpoint disable circuit 1 compressor 1
Integer Setpoint disable circuit 1 compressor 2
Integer Setpoint disable circuit 1 compressor 3
Integer Setpoint disable compressor(s) circuit 2
Integer Setpoint disable circuit 2 compressor 1
Integer Setpoint disable circuit 2 compressor 2
Integer Setpoint disable circuit 2 compressor 3
Integer Setpoint free relay BM-NO7
Integer Setpoint free relay BE-NO1
Integer Setpoint free relay BE-NO2
Integer Setpoint free relay BE-NO3
Integer Setpoint free relay BE-NO4
Integer [BMS] Emulation water evaporator T°inlet
Integer [BMS] Emulation water evaporator T°outlet
Integer [BMS] Emulation outside air T°
Integer [BMS] Setpoint water evaporator cool
Integer [BMS] Setpoint water evaporator heat
R/W MIN MAX
35 R/W 1 4
36 R/W 1 4
37 R/W -10 30
38 R/W -10 30
39 R/W 7 20
40 R/W 7 20
41 R/W -10 30
42 R/W -10 30
43 R/W 20 50
44 R/W 20 50
45 R/W 0 8
46 R/W 0 8
47 R/W 0 8
48 R/W 0 8
49 R/W 0 7
50 R/W 0 7
51 R/W 0 7
52 R/W 0 7
53 R/W 0 2
54 R/W 0 2
55 R/W *** ***
56 R/W *** ***
100 R 0 32767
101 R 0 32767
• 89 •CL60-AC CHILLER-IOM-1011-E_Appendix
BMS
@ddress FORMAT DESCRIPTION
Integer [BMS] Setpoint changover cool / heat
Integer [D] Setpoint changover cool / heat
Integer [D] Cooling dynamic setpoint outside air T°1
Integer [D] Cooling dynamic setpoint outside air T°2
Integer [D] Cooling dynamic setpoint water evaporator T°1
Integer [D] Cooling dynamic setpoint water evaporator T°2
Integer [D] Heating dynamic setpoint outside air T°1
Integer [D] Heating dynamic setpoint outside air T°2
Integer [D] Heating dynamic setpoint water evaporator T°1
Integer [D] Heating dynamic setpoint water evaporator T°2
Integer [BMS] Setpoint enable compressor(s) circuit 1
Integer [BMS] Setpoint enable compressor(s) circuit 2
Integer [D] Setpoint enable compressor(s) circuit 1
Integer [D] Setpoint enable compressor(s) circuit 2
Integer [BMS] Setpoint water evaporator pump(s) mode
Integer [D] Setpoint water evaporator pump(s) mode
Integer [BMS] Setpoint water condenser pump(s) mode
Integer [D] Setpoint water condenser pump(s) mode
Integer [BMS] Setpoint fan condenser mode
Integer [D] Setpoint fan condenser mode
Integer [BMS] Setpoint accoustic noise level
Integer [D] Setpoint accoustic noise level
Integer Rolling alarm code
Integer
Alarm code 01Bit00: Alarm code 61,Bit01: Alarm code 62,Bit02: Alarm code 63,Bit03: Alarm code 64,Bit04: Alarm code 65,Bit05: Alarm code 66,Bit06: Alarm code 67,Bit07: Alarm code 68,Bit08: Alarm code 70,Bit09: Alarm code 71,Bit10: Alarm code 72,Bit11: Alarm code 79,Bit12: Alarm code 80,Bit13: Alarm code 60,Bit14: Alarm code 69,Bit15: Not used.
R/W MIN MAX
102 R 0 32767
103 R 0 32767
104 R 0 32767
105 R 0 32767
106 R 0 32767
• 90 • CL60-AC CHILLER-IOM-1011-E_Appendix
BMS
@ddress FORMAT DESCRIPTION
Integer
Alarm code 02Bit00: Alarm code 98Bit01: Alarm code 97Bit02: Alarm code 89Bit03: Alarm code 34Bit04: Alarm code 83Bit05: Not usedBit06: Not usedBit07: Not usedBit08: Not usedBit09: Not usedBit10: Not usedBit11: Not usedBit12: Not usedBit13: Not usedBit14: Not usedBit15: Not used
Integer
Alarm code 03Bit00: Alarm code 81Bit01: Alarm code 85Bit02: Alarm code 23Bit03: Alarm code 24Bit04: Alarm code 21Bit05: Alarm code 22Bit06: Alarm code 40Bit07: Alarm code 40Bit08: Alarm code 1Bit09: Not usedBit10: Not usedBit11: Not usedBit12: Not usedBit13: Not usedBit14: Not usedBit15: Not used
Integer Not used
Integer
Alarm code 05Bit00: Alarm code 41Bit01: Alarm code 42Bit02: Alarm code 45Bit03: Alarm code 46Bit04: Alarm code 49Bit05: Alarm code 73Bit06: Not UsedBit07: Not UsedBit08: Alarm code 43Bit09: Alarm code 44Bit10: Alarm code 47Bit11: Alarm code 48Bit12: Alarm code 50Bit13: Alarm code 74Bit14: Not usedBit15: Not used
Integer
Alarm code 06Bit00: Alarm code 108Bit01: Alarm code 90Bit02: Alarm code 54Bit03: Alarm code 78Bit04: Alarm code 10Bit05: Not UsedBit06: Not UsedBit07: Not UsedBit08: Not UsedBit09: Not UsedBit10: Not UsedBit11: Not UsedBit12: Not UsedBit13: Not UsedBit14: Not usedBit15: Not used
R/W MIN MAX
107 R 0 32767
108 R 0 32767
109 R 0 32767
110 R 0 32767
• 91 •CL60-AC CHILLER-IOM-1011-E_Appendix
BMS
@ddress FORMAT DESCRIPTION
Integer
Alarm code 07Bit00: Alarm code 141,Bit01: Alarm code 142,Bit02: Alarm code 143,Bit03: Alarm code 144,Bit04: Alarm code 145,Bit05: Alarm code 146,Bit06: Alarm code 115,Bit07: Alarm code 117,Bit08: Alarm code 117,Bit09: Alarm code 118,Bit10: Alarm code 110,Bit11: Alarm code 123,Bit12: Alarm code 124,Bit13: Alarm code 121,Bit14: Alarm code 122,Bit15: Alarm code 111/112/113.
Integer
Alarm code 08Bit00: Alarm code 116,Bit01: Alarm code 114,Bit02: Alarm code 129,Bit03: Alarm code 102,Bit04: Alarm code 103,Bit05: Alarm code 104,Bit06: Alarm code 75,Bit07: Alarm code 132,Bit08: Alarm code 131,Bit09: Alarm code 117,Bit10: Alarm code 127,Bit11: Alarm general circuit 1,Bit12: Not Used,Bit13: Not Used,Bit14: Not used,Bit15: Not used.
Integer
Alarm code 09Bit00: Alarm code 241,Bit01: Alarm code 242,Bit02: Alarm code 243,Bit03: Alarm code 244,Bit04: Alarm code 245,Bit05: Alarm code 246,Bit06: Alarm code 215,Bit07: Alarm code 217,Bit08: Alarm code 217,Bit09: Alarm code 218,Bit10: Alarm code 210,Bit11: Alarm code 223,Bit12: Alarm code 224,Bit13: Alarm code 221,Bit14: Alarm code 222,Bit15: Alarm code 211/112/113.
Integer
Alarm code 10Bit00: Alarm code 216,Bit01: Alarm code 214,Bit02: Alarm code 229,Bit03: Alarm code 202,Bit04: Alarm code 203,Bit05: Alarm code 204,Bit06: Alarm code 75,Bit07: Alarm code 232,Bit08: Alarm code 231,Bit09: Alarm code 217,Bit10: Alarm code 227,Bit11: Alarm general circuit 2,Bit12: Not Used,Bit13: Not Used,Bit14: Not used,Bit15: Not used.
R/W MIN MAX
111 R 0 32767
112 R 0 32767
113 R 0 32767
114 R 0 32767
115 R 0 32767
116 R 0 32767
117 R 0 32767
118 R 0 32767
119 R -99,9 99,9
120 R -99,9 99,9
121 R -99,9 99,9
122 R -99,9 99,9
123 R -99,9 99,9
124 R -99,9 99,9
125 R -99,9 99,9
126 R -99,9 99,9
127 R -99,9 99,9
128 R 0 1
129 R 0 1
130 R 0 1
131 R 0 1
132 R 0 1
133 R 0 1
134 R 0 1
135 R 0 1
136 R 0 1
137 R 0 1
• 92 • CL60-AC CHILLER-IOM-1011-E_Appendix
BMS
@ddress FORMAT DESCRIPTION
Integer
Alarm code 11Bit00: Alarm code 105Bit01: Alarm code 106Bit02: Alarm code 107Bit03: Alarm code 77Bit04: Not UsedBit05: Not UsedBit06: Not UsedBit07: Not UsedBit08: Not UsedBit09: Not UsedBit10: Not UsedBit11: Not UsedBit12: Not UsedBit13: Not UsedBit14: Not usedBit15: Not used
Integer Power meter, power active
Integer Power meter, power reactive
Integer Power meter, power factor
Integer Power meter, energy active (LSB)
Integer Power meter, energy active (MSB)
Integer Power meter, energy reactive (LSB)
Integer Power meter, energy reactive (MSB)
Integer Free NTC T°BE-BE1
Integer Free NTC T°BE-BE2
Integer Free NTC T°BE-BE3
Integer Free NTC T°BE-BE4
Integer Outside air T°
Integer Water evaporator T°inlet
Integer Water evaporator T°outlet
Integer Water evaporator setpoint applied in cooling
Integer Water evaporator setpoint applied in heating
Integer Output alarm / fault
Integer Output evaporator pump 1
Integer Output evaporator pump 2
Integer Output condenser pump 1
Integer Output condenser pump 2
Integer Output circuit 1 compresseur 1
Integer Output circuit 1 compresseur 2
Integer Output circuit 1 compresseur 3
Integer Output circuit 2 compresseur 1
Integer Output circuit 2 compresseur 2
R/W MIN MAX
138 R 0 1
139 R 0 1
140 R 0 1
141 R 0 1
142 R 0 1
143 R 0 1
144 R 0 1
145 R 0 1
146 R 0 1
147 R 0 1
148 R 0 1
149 R 0 1
150 R 0 1
151 R 0 1
152 R 0 1
153 R 0 1
154 R 0 1
155 R 0 1
156 R 0 1
157 R 0 1
158 R 0 1
159 R 0 1
160 R 0 1
161 R 0 32767
162 R 0 9999
163 R 0 9999
164 R 0 9999
165 R 0 9999
166 R 0 9999
167 R 0 9999
168 R 0 9999
169 R 0 9999
170 R 0 9999
171 R 0 9999
• 93 •CL60-AC CHILLER-IOM-1011-E_Appendix
BMS
@ddress FORMAT DESCRIPTION
Integer Output circuit 2 compresseur 3
Integer Output reversing valve 1
Integer Output reversing valve 2
Integer Status condenser fan circuit 1
Integer Status condenser fan circuit 2
Integer Output electrical heater
Integer Output electrical heater 1
Integer Output electrical heater 2
Integer Output electrical heater 3
Integer Output electrical heater 4
Integer Free input BM-ID4
Integer Free input BM-ID7
Integer Free input BE-ID1
Integer Free input BE-ID2
Integer Free input BE-ID3
Integer Free input BE-ID4
Integer Status unit in mode cooling
Integer Status unit in mode heating
Integer Status unit in mode dead zone
Integer Status unit enable
Integer Status unit available
Integer Status unit running (compressor(s) ON)
Integer Status unit full running (100%)
Integer Water evaporator actual fl ow meter
Integer Hour counter evaporator pump 1 (LSB)
Integer Hour counter evaporator pump 1 (MSB)
Integer Hour counter evaporator pump 2 (LSB)
Integer Hour counter evaporator pump 2 (MSB)
Integer Hour counter condenser pump 1 (LSB)
Integer Hour counter condenser pump 1 (MSB)
Integer Hour counter condenser pump 2 (LSB)
Integer Hour counter condenser pump 2 (MSB)
Integer Hour counter circuit 1 compressor 1 (LSB)
Integer Hour counter circuit 1 compressor 1 (MSB)
R/W DESCRIPTION MIN MAX
172 R 0 9999
173 R 0 9999
174 R 0 9999
175 R 0 9999
176 R 0 9999
177 R 0 9999
178 R 0 9999
179 R 0 9999
180 R 0 9999
181 R 0 9999
Min Max
• 94 • CL60-AC CHILLER-IOM-1011-E_Appendix
BMS
@ddress FORMAT R/W DESCRIPTION
Integer Hour counter circuit 1 compressor 2 (LSB)
Integer Hour counter circuit 1 compressor 2 (MSB)
Integer Hour counter circuit 1 compressor 3 (LSB)
Integer Hour counter circuit 1 compressor 3 (MSB)
Integer Hour counter circuit 2 compressor 1 (LSB)
Integer Hour counter circuit 2 compressor 1 (MSB)
Integer Hour counter circuit 2 compressor 2 (LSB)
Integer Hour counter circuit 2 compressor 2 (MSB)
Integer Hour counter circuit 2 compressor 3 (LSB)
Integer Hour counter circuit 2 compressor 3 (MSB)
Minimum value Maximum
R/W
NV-
NA
ME
NV-
TYPE
NV-
CO
DE
MIN
MA
X
R/W
1S
p_B
ms_
Wat
chd
SN
VT_
Cou
nt8
032
000
0
R/W
2S
p_U
nit_
OnO
ffS
NV
T_C
ount
80
10
R/W
3S
p_U
nit_
Ala
rmS
NV
T_C
ount
80
10
R/W
4S
p_P
MC
_Cnt
_Cl
SN
VT_
Cou
nt8
01
0
R/W
5S
p_B
ms_
Wat
er_
SN
VT_
tem
p_p
105
720
7
R/W
6S
p_B
ms_
ChO
v_C
SN
VT_
Cou
nt8
01
7
R/W
7S
p_B
ms_
ChO
v_H
SN
VT_
Cou
nt8
01
45
R/W
8S
p_B
ms_
ChO
v_D
SN
VT_
Cou
nt8
01
0
R/W
9S
p_B
ms_
Sch
Bm
sS
NV
T_C
ount
80
10
R/W
10S
p_B
ms_
Sch
DS
NV
T_C
ount
80
10
R/W
11S
p_E
WC
B_1
SN
VT_
tem
p_p
105
720
0
R/W
12S
p_E
WH
B_1
SN
VT_
tem
p_p
105
2050
0
R/W
13S
p_C
FAM
BS
NV
T_C
ount
80
20
R/W
14S
p_C
FAM
DS
NV
T_C
ount
80
20
R/W
15S
p_C
FAN
BS
NV
T_C
ount
8**
***
*0
R/W
16S
p_C
FAN
DS
NV
T_C
ount
8**
***
*0
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
_App
endi
x • 9
5 •
BM
S
DES
CR
IPTI
ON
IND
EXFO
RM
ATD
EFA
ULT
Cou
nter
ena
ble
BM
S m
ode
(wat
chdo
g)In
tege
r
Set
poin
t gen
eral
on/
off
Inte
ger
Set
poin
t res
et a
larm
/ fa
ult
Inte
ger
Set
poin
t res
et p
ower
met
er c
ount
erIn
tege
r
Set
poin
t ove
rrid
e ev
apor
ator
wat
er s
etpo
int
Inte
ger
Set
poin
t ove
rrid
e co
olin
g m
ode
Inte
ger
Set
poin
t ove
rrid
e he
atin
g m
ode
Inte
ger
Set
poin
t ove
rrid
e de
ad z
one
mod
eIn
tege
r
Set
poin
t ove
rrid
e m
ode
BM
SIn
tege
r
Set
poin
t ove
rrid
e m
ode
DIn
tege
r
[BM
S] S
etpo
int w
ater
eva
pora
tor c
ool
Inte
ger
[BM
S] S
etpo
int w
ater
eva
pora
tor h
eat
Inte
ger
[BM
S] S
etpo
int f
an c
onde
nser
mod
eIn
tege
r
[D] S
etpo
int f
an c
onde
nser
mod
eIn
tege
r
[BM
S] S
etpo
int a
ccou
stic
noi
se le
vel
Inte
ger
[D] S
etpo
int a
ccou
stic
noi
se le
vel
Inte
ger
APP
END
IX 2
BM
S lo
nwor
ks ta
ble
R/W
NV-
NA
ME
NV-
TYPE
NV-
CO
DE
MIN
MA
X
R17
Alm
_Rol
_Cod
eS
NV
T_C
ount
80
3276
70
R18
BM
S_A
C01
SN
VT_
Cou
nt8
032
767
0
R19
BM
S_A
C02
SN
VT_
Cou
nt8
032
767
0
R20
BM
S_A
C03
SN
VT_
Cou
nt8
032
767
0
R21
BM
S_A
C04
SN
VT_
Cou
nt8
032
767
0
R22
BM
S_A
C05
SN
VT_
Cou
nt8
032
767
0
R23
BM
S_A
C06
SN
VT_
Cou
nt8
032
767
0
R24
BM
S_A
C07
SN
VT_
Cou
nt8
032
767
0
R25
BM
S_A
C08
SN
VT_
Cou
nt8
032
767
0
R26
BM
S_A
C09
SN
VT_
Cou
nt8
032
767
0
R27
BM
S_A
C10
SN
VT_
Cou
nt8
032
767
0
R28
BM
S_A
C11
SN
VT_
Cou
nt8
032
767
0
R29
PM
C_P
PS
NV
T_C
ount
80
3276
70
R30
PM
C_P
QS
NV
T_C
ount
80
3276
70
R31
PM
C_F
PS
NV
T_C
ount
80
3276
70
R32
PM
C_E
PL
SN
VT_
Cou
nt8
032
767
0
R33
PM
C_E
PH
SN
VT_
Cou
nt8
032
767
0
R34
PM
C_E
QL
SN
VT_
Cou
nt8
032
767
0
R35
PM
C_E
QH
SN
VT_
Cou
nt8
032
767
0
R36
Air_
T_O
utsi
deS
NV
T_te
mp_
p10
5-9
9,9
99,9
0
R37
Eva
p_T_
Inle
tS
NV
T_te
mp_
p10
5-9
9,9
99,9
0
R38
Eva
p_T_
Out
let
SN
VT_
tem
p_p
105
-99,
999
,90
R39
Eva
p_T_
WS
CS
NV
T_te
mp_
p10
57
200
R40
Eva
p_T_
WS
HS
NV
T_te
mp_
p10
520
500
CL6
0-A
C C
HIL
LER
-IOM
-101
1-E
_App
endi
x • 9
6 •
BM
S
DES
CR
IPTI
ON
IND
EXFO
RM
ATD
EFA
ULT
Rol
ling
alar
m c
ode
Inte
ger
Ala
rm c
ode
1In
tege
r
Ala
rm c
ode
2In
tege
r
Ala
rm c
ode
3In
tege
r
Ala
rm c
ode
4In
tege
r
Ala
rm c
ode
5In
tege
r
Ala
rm c
ode
6In
tege
r
Ala
rm c
ode
7In
tege
r
Ala
rm c
ode
8In
tege
r
Ala
rm c
ode
9In
tege
r
Ala
rm c
ode
10In
tege
r
Ala
rm c
ode
11In
tege
r
Pow
er m
eter
, pow
er a
ctiv
eIn
tege
r
Pow
er m
eter
, pow
er re
activ
eIn
tege
r
Pow
er m
eter
, pow
er fa
ctor
Inte
ger
Pow
er m
eter
, ene
rgy
activ
e (L
SB
)In
tege
r
Pow
er m
eter
, ene
rgy
activ
e (M
SB
)In
tege
r
Pow
er m
eter
, ene
rgy
reac
tive
(LS
B)
Inte
ger
Pow
er m
eter
, ene
rgy
reac
tive
(MS
B)
Inte
ger
Out
side
air
T°In
tege
r
Wat
er e
vapo
rato
r T°in
let
Inte
ger
Wat
er e
vapo
rato
r T°o
utle
tIn
tege
r
Wat
er e
vapo
rato
r set
poin
t app
lied
in c
oolin
gIn
tege
r
Wat
er e
vapo
rato
r set
poin
t app
lied
in h
eatin
gIn
tege
r
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+48 22 58 48 610
+351 229 066 050
LENNOX DISTRIBUTION
+33 4 72 23 20 00
Due to Lennox’s ongoing commitment to quality, the specifi cations, ratings and dimensions are subject to change without notice and without incurring liability.Improper installation, adjustment, alteration, service or maintenance can cause property damage or personal injury.Installation and service must be performed by a qualifi ed installer and servicing agency
RUSSIA
SPAIN
UKRAINE
UNITED KINGDOM AND IRELAND
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FRANCE
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SALES OFFICES :
OTHER COUNTRIES :
CL60 AC-CHILLER-IOM-1011-E