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Daikin intelligent Touch Manager BACnet DCM014A51, Design Manual

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intelligent Touch Manager™ (iTM)  

BACnet® Server Gateway 

DCM014A51 

 

DESIGN GUIDE 

 

 

 

DG_DCM014A51_02-19 

Summary of Contents for intelligent Touch Manager BACnet DCM014A51

Page 1: ...intelligent Touch Manager iTM BACnet Server Gateway DCM014A51 DESIGN GUIDE DG_DCM014A51_02 19 ...

Page 2: ... 3 1 Indoor Unit Management Point 14 3 2 Automatic Control 16 Part 2 Functional Specifications 21 1 Introduction 21 2 Network Topology 21 2 1 Visualization of Each Device on the BACnet Network 21 2 2 BACnet Network Number 22 2 3 Device ID Device Instance Number 22 2 4 What is a MAC Address 22 2 5 MAC Address of a Virtual BACnet Device 22 3 iTM and BACnet Server Gateway Logic 23 3 1 BACnet Virtual ...

Page 3: ...ndividual Outdoor Unit Object Specifications 71 8 Report Function 84 8 1 COV Notification 84 9 Error Codes 87 10 PICS 89 11 BACnet Interoperability Building Blocks Supported BIBBs 93 11 1 Data Sharing BIBBs 93 11 2 Alarm and Event Management BIBBs 93 11 3 Scheduling BIBBs 94 11 4 Trending BIBBs 94 11 5 Device Management BIBBs 95 11 6 Network Management BIBBs 96 12 BACnet Gateway BACnetGW and iTM P...

Page 4: ... for Unconnected iTM and Test Operation PC 122 6 2 How to Execute PING 122 Handover to BMS 123 7 1 CSV File 123 7 2 Network Settings 123 7 3 Ask the BMS integrator to discover the BACnet points from the iTM 123 7 4 Unable to auto discover BACnet points 123 7 5 Final Review 123 Part 4 Programming Guide 124 1 Typical Requirements 124 1 1 Typical Indoor Unit Schedule Set by BMS Master Schedule 124 2 ...

Page 5: ... 1 Setting Backup Battery to ON 136 3 2 Turning on Power Supply to intelligent Touch Manager and Air Conditioners 137 Appendix A BACnet Gateway DMS502B71 and iTM Protocol Comparison 138 1 Functions Removed from BACnet Gateway 138 Appendix B Supported Indoor Unit Models and Monitoring Control Items 139 Appendix C Supported Outdoor Unit Models 141 Appendix D iTM Specifications Dimensions and System ...

Page 6: ... BACnet device ID assigned to each indoor unit group address Indoor unit group names created in the iTM are visible on the BMS Easy commissioning using CSV file Available objects can be configured for each indoor unit Support Change of Value COV notifications to BMS Configurable as a BACnet foreign device if BBMD exists on a different subnet within BACnet network Independent heating and cooling se...

Page 7: ...net Server Gateway Application Figure 2 Typical Daikin VRV System 2 The iTM BACnet Server Gateway DCM014A51 software option provides communication between the VRV system and the BMS The operation and monitoring of the VRV systems through BACnet communication uses the BACnet IP protocol 3 Up to 128 indoor unit management points can be controlled and monitored through the iTM BACnet Server Gateway 4...

Page 8: ...n be used in conjunction with the Daikin controllers to share operation workload to reduce project costs 2 1 Types of Daikin VRV Systems The VRV system can consist of either a Heat Recovery system Heat Pump systems or system that has a combination of both 1 Heat Recovery systems can provide simultaneous cooling and heating to each indoor unit served by the same outdoor unit with use of Branch Sele...

Page 9: ...1 15 2 00 to 2 15 3 00 to 3 15 4 00 to 4 15 c With the use of the iTM Plus Adaptor up to 8 DIII Net systems can be connected to a single iTM Each DIII Net system will be assigned a port number with the iTM being port 1 For example an indoor unit connected to the iTM will have the complete group address of 1 1 00 Similarly each additional system will be assigned a port number 2 to 8 2 1 00 3 1 00 e...

Page 10: ... in a remote controller group Figure 7 Assigning a Group Address to Each Indoor Unit in a Remote Controller Group Note As shown in the figures above a remote controller group consists of several indoor units wired to the same remote controller A remote controller group consists of 1 16 indoor units that can be started or stopped simultaneously For units without a remote controller each unit is tre...

Page 11: ...ter This allows the nominated unit to change the mode of operation for all units connected to the same outdoor unit Figure 8 Heat Pump System 2 A Heat Recovery system can utilize BS Boxes to provide simultaneous heating and cooling for each zone Figure 9 Heat Recovery System 3 Every unit or group of units connected to a BS Box port can either be in cooling or heating mode i e units connected to th...

Page 12: ... Auto depends on indoor unit type f Airflow Direction if the indoor unit has louvers g Alarm Status read only h Malfunction Code read only 2 Indoor Unit Sequence of Operation a During the cooling thermo on call for cooling period the indoor unit fan will operate based upon the fan setting from the local controller iTM or BMS b During the cooling thermo off cooling satisfied period the fan will con...

Page 13: ...ing and heating setpoints to the iTM and are set to the IDU management point in the iTM However the cooling and heating setpoints are not sent to the indoor unit 4 Room Temperature Sensing a The room temperature can be measured by the following 1 Indoor unit return air sensor depending on indoor unit model 2 Remote temperature sensor KRCS01 1B 4B 3 Sensor in the BRC1E73 local remote controller b T...

Page 14: ...available with 0o F min setpoint differential and setpoint tracking enabled b Occupied setpoint range for cooling and heating are configurable by Setpoint Range Limitation within 60o F 90o F as a default The cooling setpoint cannot be set lower than the heating setpoint and the heating setpoint cannot be set higher than the cooling setpoint c Minimum Cool Heat Setpoint Differential refers to the d...

Page 15: ...TM setback provides independent setback setpoints for cooling and heating e By default the setback setpoints are disabled and can be enabled by the schedule interlock and setting features 1 The default setback setpoint for cooling is 80o F configurable 2 The default setback setpoint for heating is 64o F configurable 3 Independent Setback Recovery Temp hysteresis for cooling 4o F default and heatin...

Page 16: ...ms can be created c A 7 day 5 2 Weekday Weekend 5 1 1 Weekday Saturday Sunday and 1 Everyday schedules can be created in the iTM d Up to 20 events can be registered each day e Special Day such as holiday events can be created 1 Up to 5 special day patterns can be registered 2 Up to 20 events can be registered each day 3 Events can be set by calendar date or by week and day of the month Ex July 4th...

Page 17: ...eover temperature after the guard timer expires 1 The changeover is evaluated by how much the room temperature has deviated from the cooling or heating setpoint For example when the room temperature exceeds the primary changeover deadband from the cooling setpoint iTM initiates a change from heating mode to cooling mode 2 By default the primary changeover setpoint is 1 F above the cooling setpoint...

Page 18: ...uto changeover is applicable to both Heat Pump and Heat Recovery systems a The iTM provides four changeover methods to meet a variety of expectations in a project Fixed Individual Average or Vote methods can be specified in the changeover group with targeted indoor units as well as Primary Secondary Changeover deadbands 1 Fixed Method a Changeover is evaluated with the representative indoor unit b...

Page 19: ...ver affects all indoor units in the changeover group d Used in applications with Heat Pump systems or multiple units on the same port of the BS Box in the Heat Recovery system Figure 16 Average Method 4 Vote Method a Changeover is evaluated based on the total cooling demand and total heating demand If the total cooling demand is greater than the heating demand the iTM changes the indoor units in t...

Page 20: ... Changeover deadband PCd is considered as no demand d A good method for Heat Pump systems or multiple units on the same port of the BS Box in Heat Recovery system as a pseudo simultaneous cooling and heating operation e A weight 0 3 can be added to each indoor unit demand in the changeover group The default is 1 f An option for heating override can be applied if there is an indoor unit which the h...

Page 21: ...ogy 2 1 Visualization of Each Device on the BACnet Network 1 iTM Operates as a BACnet router gateway for the VRV indoor units 2 Indoor unit device One indoor unit management point is handled as one virtual BACnet device a In the BACnet specifications the VRV communication line DIII network is handled as one virtual BACnet network See Annex H 1 and H 2 in the BACnet 2004 specifications 3 System con...

Page 22: ...egrator The default Device ID should follow the structure 53XXX a For Device ID 5311 1 5311 53 represents Daikin s BACnet vendor ID 2 5311 1 represents the port number 1 iTM 2 8 iTM Plus Adaptor address 3 5311 1 represents the outdoor unit tag number CU 1 2 4 What is a MAC Address 1 The MAC address is a unique physical address to identify a network device 2 Each physical medium in a network has a ...

Page 23: ...to have its own independent device ID 3 2 iTM BACnet Server Gateway Point Logic in the iTM 1 Each point exposed to the BMS from the iTM BACnet Server Gateway is linked to the logic in the iTM This alleviates the need for the BMS integrator to create programming to control the VRV system The image below identifies which BACnet points are linked to the iTM logic Figure 19 BACnet Server Gateway Point...

Page 24: ... to turn off all indoor unit groups connected to the iTM via the DIII Net communication bus when an emergency signal has been received by the BMS Emergency Stop program should be configured and enabled in advance b Indoor unit groups cannot be restarted from the remote controller until the Forces System Shutdown point is set to inactive 4 VRV System Monitor Control Objects 4 1 Member Objects 1 In ...

Page 25: ...cc Cooling Setpoint AV 1 2 7 Occ Heating Setpoint AV 1 2 8 Unocc Cooling Setpoint AV 1 2 4 9 Unocc Heating Setpoint AV 1 2 4 10 Max Cooling Setpoint AV 1 2 5 11 Min Cooling Setpoint AV 12 Max Heating Setpoint AV 1 2 5 13 Min Heating Setpoint AV 14 Min Setpoint Differential Cooling Heating AV 1 2 15 Cooling Heating Setpoint Tracking Mode BV Disable Enable 16 Fan Speed MV Low Reserved Medium Reserve...

Page 26: ...Unit Changeover Option BI Not Available Available 32 Return Air Temperature AI 1 2 33 Discharge Air Temperature AI 1 2 34 Liquid Pipe Temperature AI 1 2 35 Gas Pipe Temperature AI 1 2 36 EV Position AI 2 37 Freeze Protection BI Off On 3 1 The unit of temperature Celsius or Fahrenheit follows the iTM locale regional settings 2 The number of valid digits for each object is shown in the table below I...

Page 27: ...ect are disabled so a value set for the indoor unit management point remains unchanged even when the Present_Value changes 4 3 System Control Device 1 The instance numbers of the Object IDs are mapped to the system control settings on the iTM as shown in the table below 2 Each of the BO and MV object types set the text shown in the table below for the Description Property in accordance with the va...

Page 28: ... previous PV 76 F Start 10 min timer 2 Sends 85 F to Management Point Cool SP max 85 F is rounded to 78 F due to Cool Setback SP 80 F Cool SP range 70 78 F Changed 3 PV 78 F Reset 10 min timer Updates 78 F to the BACnet Server 1 Sets Cool SP max 85 F again PV 85 F previous PV 78 F Start 10 min timer 2 Sends 85 F to Management Point Cool SP max 85 F is rounded to 78 F due to Cool Setback SP 80 F Co...

Page 29: ...timer 2 Sends Fan mode to Management Point Send Fan mode to Indoor Unit Accepts Fan mode Status update to iTM as Operation mode Fan 3 PV Fan Reset 10 min timer Operation mode Fan Changed Send Fan to BACnet Server 1 Sets Operation mode Heat PV Heat previous PV Fan Start 10 min timer 2 Sends Heat to Management Point Send Heat to Indoor Unit Cannot accept Heat due to changeover slave unit Operation m...

Page 30: ...scription Property in accordance with the value of Present_Value Common Outdoor Points Instance No Object_Name Type Inactive Active Remarks Text 1 Text 2 Text 3 Text 4 Text 5 Text 6 Text 7 Text 8 1 Communication Status BI Normal Alarm 2 Operation Mode MI Cool Heat Fan Heat Cool 3 Outdoor Unit Alarm Status BI Normal Alarm Sets error code in the Description Property 4 Defrost Mode BI Off On 5 Oil Re...

Page 31: ... Step AI 2 3 107 M_EV Position 1 AI 2 3 108 M_EV Position 2 AI 2 3 109 M_Hot Gas Temperature Compressor 1 AI 1 2 3 110 M_Hot Gas Temperature Compressor 2 AI 1 2 3 111 M_Liquid Pipe Temperature AI 1 2 3 112 M_Liquid Pipe Temperature HX Upper AI 1 2 3 113 M_Liquid Pipe Temperature HX Lower AI 1 2 3 114 M_Liquid Pipe Temperature Deicer AI 1 2 3 115 M_Gas Pipe Temperature HX Upper AI 1 2 3 116 M_Gas P...

Page 32: ...p AI 2 3 207 S1_EV Position 1 AI 2 3 208 S1_EV Position 2 AI 2 3 209 S1_Hot Gas Temperature Compressor 1 AI 1 2 3 210 S1_Hot Gas Temperature Compressor 2 AI 1 2 3 211 S1_Liquid Pipe Temperature AI 1 2 3 212 S1_Liquid Pipe Temperature HX Upper AI 1 2 3 213 S1_Liquid Pipe Temperature HX Lower AI 1 2 3 214 S1_Liquid Pipe Temperature Deicer AI 1 2 3 215 S1_Gas Pipe Temperature HX Upper AI 1 2 3 216 S1...

Page 33: ...AI 1 2 3 314 S2_Liquid Pipe Temperature Deicer AI 1 2 3 315 S2_Gas Pipe Temperature HX Upper AI 1 2 3 316 S2_Gas Pipe Temperature HX Lower AI 1 2 3 317 S2_Suction Temperature AI 1 2 3 318 S2_Compressor Suction Temperature AI 1 2 3 319 S2_Subcool Inlet Temperature AI 1 2 3 320 S2_Subcool Outlet Temperature AI 1 2 3 321 S2_Subcool EV Position AI 2 3 1 The unit of temperature Celsius or Fahrenheit fo...

Page 34: ...g Temperature S2_EV Position 1 S1_Evaporating Temperature S2_EV Position 2 S1_Hot Gas Temperature Compressor 1 S2_Subcool EV Position S1_Hot Gas Temperature Compressor 2 Electric Power S1_Liquid Pipe Temperature Electric Current S1_Liquid Pipe Temperature HX Upper M_Condensing Pressure S1_Liquid Pipe Temperature HX Lower M_Evaporating Pressure S1_Liquid Pipe Temperature Deicer S1_Condensing Pressu...

Page 35: ...CharacterString O Description CharacterString O R Port No Group Address connected to DIII NET Ex 1 1 00 Protocol_Revision Unsigned R R Protocol_Services_ Supported BACnetServiceSupported R R RP RPM WP WPM I Am I Have TimeSync Who Is Who Has UTCTimeSync SubCOV Protocol_Object_ Types_Supported BACnetObjectTypesSupp orted R R AI AV BI BV MI MO MV Device Object_List BACnetARRAY N of BACnetObjectIdenti...

Page 36: ...gned R R Configurable with BACnet Server Gateway Configuration List_Of_Session_Keys List of BACnetSessionKey O Time_Synchronization_ Recipients List of BACnetRecipient O5 Max_Master Unsigned 1 127 O6 Max_Info_Frames Unsigned O6 Device_Address_Binding List of BACnetAddressBinding R R Database_Revision Unsigned R R Configuration_Files BACnetARRAY N of BACnetObjectIdentifier O7 Last_Restore_Time BACn...

Page 37: ..._ Version CharacterString R R Location CharacterString O Description CharacterString O R Fixed to Daikin iTM Server Control Protocol_Version Unsigned R R Protocol_Revision Unsigned R R Protocol_Services_ Supported BACnetServiceSupported R R SubCOV RP RPM WP WPM I Am I Have TimeSync Who Is Who Has UTCTimeSync Protocol_Object_Types_ Supported BACnetObjectTypesSupp orted R R BO MV Device Object_List ...

Page 38: ...gned R R Configurable with BACnet Server Gateway Configuration List_Of_Session_Keys List of BACnetSessionKey O Time_Synchronization_ Recipients List of BACnetRecipient O5 Max_Master Unsigned 1 127 O6 Max_Info_Frames Unsigned O6 Device_Address_Binding List of BACnetAddressBinding R R Database_Revision Unsigned R R Configuration_Files BACnetARRAY N of BACnetObjectIdentifier O7 Last_Restore_Time BACn...

Page 39: ...CharacterString O Description CharacterString O R DIII Net connection part number AirNet address eg 1 1 Protocol_Version Unsigned R R Protocol_Revision Unsigned R R Protocol_Services_ Supported BACnetServiceSupported R R RP RPM I Am TimeSync Who Is Who Has UTCTimeSync Protocol_Object_Types_ Supported BACnetObjectTypesSupp orted R R AI MI BI Device Object_List BACnetARRAY N of R R BACnetObjectIdent...

Page 40: ... R R Configurable with the Trial Operation tool List_Of_Session_Keys List of BACnetSessionKey O Time_Synchronization_ Recipients List of BACnetRecipient O5 Max_Master Unsigned 1 127 O6 Max_Info_Frames Unsigned O6 Device_Address_Binding List of BACnetAddressBinding R R Database_Revision Unsigned R R Configuration_Files BACnetARRAY N of BACnetObjectIdentifier O7 Last_Restore_Time BACnetDateTime O7 B...

Page 41: ...y O R NO_FAULT_DETECTED Normal communication NO_SENSOR Sensor error UNRELIABLE_OTHER Communication error Out_Of_Service BOOLEAN R R Always FALSE Update_Interval Unsigned O Units BACnetEngineeringUnits R R Refer to 7 2 Individual Object Specifications Min_Pres_Value REAL O Max_Pres_Value REAL O Resolution REAL O COV_Increment REAL O2 R Fixed to 1 0 There is no support for objects which are unsuppor...

Page 42: ... Communication error Out_Of_Service Boolean R R Unocc Cooling Setpoint Unocc Heating Setpoint Max Cooling Setpoint Min Cooling Setpoint Max Heating Setpoint Min Heating Setpoint TRUE Disabled FALSE Enabled Other Always FALSE Units BACnetEngineeringUnits R R Follows the setting on iTM PriorityArray BACnetPriorityArray O1 R RelinquishDefault REAL O1 R Fixed COV_Increment REAL O2 R Fixed to 1 0 Time_...

Page 43: ... Fixed to NORMAL Reliability BACnetReliability O R NO_FAULT_ DETECTED Normal communication NO_SENSOR Sensor error UNRELIABLE_ OTHER Communication error Out_Of_Service Boolean R R Always FALSE Polarity BACnetPolarity R R Fixed to NORMAL Inactive_Text CharacterString O2 R Sets the string corresponding to Inactive Active_Text CharacterString O2 R Sets the string corresponding to Active Change_Of_Stat...

Page 44: ...lways NO_FAULT_ DETECTED Out_Of_Service Boolean R R Always FALSE Polarity BACnetPolarity R R Fixed to NORMAL Inactive_Text CharacterString O1 R Sets the string corresponding to Inactive Active_Text CharacterString O1 R Sets the string corresponding to Active Change_Of_State_Time BACnetDateTime O2 Change_Of_State_Count Unsigned O2 Time_Of_State_Count_ Reset BACnetDateTime O2 Elapsed_Active_Time Uns...

Page 45: ...Normal communication UNRELIABLE_OTHER Communication error Out_Of_Service Boolean R R Always FALSE Inactive_Text CharacterString O2 R Sets the string corresponding to Inactive Active_Text CharacterString O2 R Sets the string corresponding to Active Change_Of_State_Time BACnetDateTime O3 Change_Of_State_Count Unsigned O3 Time_Of_State_Count_Reset BACnetDateTime O3 Elapsed_Active_Time Unsigned32 O4 T...

Page 46: ...tion error OVERRIDDEN Always FALSE OUT_OF_SERVICE Always FALSE Event_State BACnetEventState R R Fixed to NORMAL Reliability BACnetReliability O2 R NO_FAULT_ DETECTED Normal communication UNRELIABLE_OTHER Communication error Out_Of_Service Boolean R R Always FALSE Number_Of_States Unsigned R R Sets the number of states State_Text BACnetARRAY N of CharacterString O R Sets the string corresponding to...

Page 47: ...RRIDDEN Always FALSE OUT_OF_SERVICE Always FALSE Event_State BACnetEventState R R Fixed to NORMAL Reliability BACnetReliability O R NO_FAULT_DETECTED Normal communication UNRELIABLE_OTHER Communication error Out_Of_Service Boolean R R Always FALSE Number_Of_States Unsigned R R Sets the number of states State_Text BACnetARRAY N of CharacterString O R Sets the string corresponding to Present_Value P...

Page 48: ...Always FALSE Event_State BACnetEventState R R Fixed to NORMAL Reliability BACnetReliability O2 R NO_FAULT_DETECTED Normal communication UNRELIABLE_OTHER Communication error Out_Of_Service Boolean R R Always FALSE Number_Of_States Unsigned R R Sets the number of states State_Text BACnetARRAY N of CharacterString O R Sets the string corresponding to Present_Value Priority_Array BACnetPriorityArray O...

Page 49: ...lue PROPERTY 2 VALUE_OUT_OF_RANGE 37 COV subscription for an object not supporting COV notification SERVICES 5 OTHER 0 Request for registering a total of 6 or more COV notification recipients SERVICES 5 COV_SUBSCRIPTION_FAILED 43 Reject PDU Reject Reason Excessive or missing PropertyID or value for WritePropertyMultiple INCONSISTENT_PARAMETER 2 Different argument type for the service INVALID_PARAM...

Page 50: ...airflow direction and fan speed are written to the non volatile memory each time they are changed so the settings are not lost in the event of a power failure The number of times this non volatile memory can be written is limited and writing beyond that limit may cause failure to the indoor unit EEPROM This will not cause the indoor unit to stop functioning however the volatile memory will not ret...

Page 51: ... network and command priority control only applies to operations at the BMS the highest priority is not always Priority_Array value Present_Value value Out_Of_Service property Objects able to change the value TRUE FALSE of the Out_Of_Service property determine its value in accordance with the iTM settings However the value is TRUE if communication has never been established with the indoor units s...

Page 52: ... unit and enables disables the Timer Extension of the indoor unit management point on the iTM as follows iTM Action 1 Occupancy Mode Sends On Off Command to Indoor Unit Sends Energy saving command to Indoor Unit Enable Disable Timer Extension of Indoor Unit management point on iTM Occ On Disable Disable Standby On Enable 2 Disable Unocc Off Disable Enable 1 iTM sends the on off operation command t...

Page 53: ...ains ACTIVE 3 Alarm Status Member number 3 Object name Alarm Status Object type Binary Input Description Monitors the indoor unit alarm status Present_Value property ACTIVE Alarm INACTIVE Normal Notes Alarm means the indoor unit is stopped due to error The contents of the Description property are as follows Error Error code 2 or 5 characters Normal 00 4 Operation Mode Member number 4 Object name O...

Page 54: ...r more is detected The next COV notification is issued when the temperature changes 1 C 1 F or more from the value of the Present_Value property that triggered the previous COV notification 6 Occ Cooling Setpoint Member number 6 Object name Occ Cooling Setpoint Object type Analog Value Description Monitors configures the indoor unit setpoint cool Present_Value property Setpoint cool used by the in...

Page 55: ... F or more from the value of the Present_Value property that triggered the previous COV notification 8 Unocc Cooling Setpoint Member number 8 Object name Unocc Cooling Setpoint Object type Analog Value Description Monitors configures the indoor unit setback temperature cool Present_Value property Setback temperature cool used to prevent space over heating during the unoccupied period Notes 1 The u...

Page 56: ...atus iTM Command sent by operating the unit BMS TRUE Disable FALSE Enable TRUE FALSE TRUE FALSE Present_Value changed to that of Relinquish_Default Present_Value remains unchanged 6 Relinquish_Default property is fixed to 26 7 C 80 F 7 When subscribed to COV notification the COV_Increment property is fixed to 1 0 and cannot be changed COV notification is issued when a change of 1 C 1 F or more is ...

Page 57: ...m TRUE to FALSE the Present_Value changes to the value set on the iTM If the unoccupied heating setpoint point is set by the iTM the BMS does not need to change the Out_Of_Service property unless a value change is needed The table below shows the correspondence between the current status of the Out_Of_Service property and the Present_Value when a command for Out_Of_Service property is sent from th...

Page 58: ...d If value is changed from the BACnet The Out_Of_Service property of the Setpoint Restriction lower limit cool Min Cooling Setpoint also changes to the same value along with Min Cooling Setpoint If the Max Cooling Setpoint point is set by the iTM the BMS does not need to change the Out_Of_Service property unless a value change is needed The following table shows the correspondence between the Out_...

Page 59: ...f_Service property If TRUE The Setpoint Restriction cool is disabled If FALSE The Setpoint Restriction cool is enabled If value is changed from the BACnet The Out_Of_Service property of the Setpoint Restriction upper limit cool Max Cooling Setpoint also changes to the same value along with Max Cooling Setpoint If the Min Cooling Setpoint point is set by the iTM the BMS does not need to change the ...

Page 60: ...a value outside the range is written it is corrected to the upper lower limit value 4 Out_Of_Service property If TRUE The Setpoint Restriction heat is disabled If FALSE The Setpoint Restriction heat is enabled If value is changed from the BACnet The Out_Of_Service property of the Setpoint Restriction lower limit heat Min Heating Setpoint also changes to the same value along with Min Heating Setpoi...

Page 61: ...s are between the upper and lower limits of the indoor unit heating setpoint If a value outside the range is written it is corrected to the upper lower limit value 4 Out_Of_Service property If TRUE The Setpoint Restriction heat is disabled If FALSE The Setpoint Restriction heat is enabled If value is changed from the BACnet The Out_Of_Service property of the Setpoint Restriction upper limit heat M...

Page 62: ...enheit F depending on the system settings 2 The number of significant digits is up to one decimal place for degrees Celsius and zero decimal places for degrees Fahrenheit 3 The settable values are fixed by the system 0 to 4 C 0 to 7 F If a value outside the range is written it is corrected to the upper lower limit value 4 Relinquish_Default property is fixed to 0 C 0 F 5 When subscribed to COV not...

Page 63: ...e Present_Value 2 and 4 are Not Available values 4 For commands to 2 speed and 3 speed indoor units use the Present_Values below 2 speed indoor unit 1 Low 5 High 3 speed indoor unit 1 Low 3 Medium 5 High Values other than those indicated above are unsupported If a value other than those indicated above is sent to the Present_Value in a command in error it is changed to a settable value and reflect...

Page 64: ...ber 18 Object name Timed Override Operation Object type Binary Value Description Monitors the status of configures Timer Extension for the indoor unit When the timed override function is enabled for an indoor unit group the units are turned off automatically when the preset timer has expired if the unit is turned on during the unoccupied period Present_Value property ACTIVE Enable INACTIVE Disable...

Page 65: ...Off Member number 20 Object name Remote Controller Prohibit On_Off Object type Multistate Value Description Permits Prohibits on off operation from the remote controller connected to the indoor unit Present_Value property 1 Permit 2 Prohibit 3 Stop Only Notes 1 When more than one indoor unit is connected to a single remote controller group the BMS should only send commands to the indoor unit that ...

Page 66: ...TIVE Permit Notes 1 When more than one indoor unit is connected to a single remote controller group the BMS should only send commands to the indoor unit that is designated to receive the command for the remote controller group unit 0 BMS should not send commands to other indoor units in the remote control group If this object is sent to the other indoor units in the remote controller group the ind...

Page 67: ... type Binary Input Description Monitors whether or not the indoor unit fan is operating Present_Value property ACTIVE On INACTIVE Off 26 Communication Status Member number 26 Object name Communication Status Object type Binary Input Description Monitors the communication status of the indoor unit Present_Value property ACTIVE Alarm INACTIVE Normal Notes 1 When the indoor unit communication is in e...

Page 68: ... Aux Heater Status Object type Binary Input Description Monitors whether or not the auxiliary heater connected to the indoor unit is operating Present_Value property ACTIVE On INACTIVE Off 30 Forced Thermo off Member number 30 Object name Forced Thermo off Object type Binary Value Description Forcibly restrict the indoor unit thermo on Present_Value property ACTIVE Enable Forcibly restrict the ind...

Page 69: ...ding on the system settings 2 The number of valid digits is to one decimal place for both Celsius and Fahrenheit 3 The value range is 50 0 to 120 0 58 0 to 248 0 ゚F 34 Liquid Pipe Temperature Member number 34 Object name Liquid Pipe Temperature Object type Analog Input Description Monitors the liquid pipe temperature of the indoor unit Present_Value property Liquid pipe temperature of the indoor u...

Page 70: ... property ACTIVE Freeze up protection operation is being carried out by the indoor unit INACTIVE Freeze up protection operation is not being carried out by the indoor unit 7 3 Individual System Control Object Specifications 1 Enable iTM Schedule Operation Member number 1 Object name Enable iTM Schedule Operation Object type Binary Output Description Changes the enable disable status of all schedul...

Page 71: ...scription Executes all emergency stop programs including the default program registered and enabled with the iTM Present_Value property ACTIVE Active INACTIVE Inactive Note 1 Cancelling the emergency stop programs does not start the indoor units they remain stopped Indoor unit will require a manual restart after the emergency stop switches from Active to Inactive 2 Writing INACTIVE does not cancel...

Page 72: ... mode of the outdoor unit Present_Value property 1 Cooling 2 Heating 3 Fan 4 Simultaneous cooling and heating 3 Outdoor Unit Alarm Status Member number 3 Object name Outdoor Unit Alarm Status Object type Binary Input Description Monitors the normal abnormal status of the outdoor unit Present_Value property ACTIVE Abnormal INACTIVE Normal Remarks 1 Abnormal means that the outdoor unit has stopped o...

Page 73: ...emarks 1 The units are in kw 2 The number of valid digits is to one decimal place 3 The value range is 0 0 to 1000 0 7 Electric Current Member number 7 Object name Electric Current Object type Analog Input Description Monitors the operating current of the outdoor unit Present_Value property The operating current of the outdoor unit Remarks 1 The units are in A 2 The number of valid digits is to on...

Page 74: ...t 2 sub 1 S1_XXXXXXXX Outdoor unit 3 sub 2 S2_XXXXXXXX 10 M_Condensing Pressure S1_Condensing Pressure S2_Condensing Pressure Member number 100 M_Condensing Pressure 200 S1_Condensing Pressure 300 S2_Condensing Pressure Object name M_Condensing Pressure S1_Condensing Pressure S2_Condensing Pressure Object type Analog Input Description Monitors the condensing pressure of the outdoor unit Present_Va...

Page 75: ...resent_Value property Condensing temperature of the outdoor unit measured value Remarks 1 Units are set to ゚F depending on the system settings 2 The number of valid digits is an integer for both Celsius and Fahrenheit 3 The value range is 65 to 74 85 to 165 ゚F 13 M_Evaporating Temperature S1_Evaporating Temperature S2_Evaporating Temperature Member number 103 M_Evaporating Temperature 203 S1_Evapo...

Page 76: ... is an integer 3 The value range is 0 to 255 15 M_Inverter Compressor 2 Speed S1_Inverter Compressor 2 Speed S2_Inverter Compressor 2 Speed Member number 105 M_Inverter Compressor 2 Speed 205 S1_Inverter Compressor 2 Speed 305 S2_Inverter Compressor 2 Speed Object name M_Inverter Compressor 2 Speed S1_Inverter Compressor 2 Speed S2_Inverter Compressor 2 Speed Object type Analog Input Description M...

Page 77: ...g Input Description Monitors the EV position of the outdoor unit upper side Present_Value property EV position of the outdoor unit upper side Remarks 1 There are no units of measurement 2 The number of valid digits is an integer 3 The value range is 0 to 3000 18 M_EV Position 2 S1_EV Position 2 S2_EV Position 2 Member number 108 M_EV Position 2 208 S1_EV Position 2 308 S2_EV Position 2 Object name...

Page 78: ...re Compressor 2 S1_Hot Gas Temperature Compressor 2 S2_Hot Gas Temperature Compressor 2 Member number 110 M_Hot Gas Temperature Compressor 2 210 S1_Hot Gas Temperature Compressor 2 310 S2_Hot Gas Temperature Compressor 2 Object name M_Hot Gas Temperature Compressor 2 S1_Hot Gas Temperature Compressor 2 S2_Hot Gas Temperature Compressor 2 Object type Analog Input Description Monitors the temperatur...

Page 79: ...ption Monitors the temperature of the outdoor unit liquid pipe heat exchanger upper side Present_Value property Temperature of the outdoor unit liquid pipe heat exchanger upper side Remarks 1 Units are set to ゚F depending on the system settings 2 The number of valid digits is an integer for both Celsius and Fahrenheit 3 The value range is 50 to 120 58 to 248 ゚F 23 M_Liquid Pipe Temperature HX Lowe...

Page 80: ...nger for de icing Remarks 1 Units are set to ゚F depending on the system settings 2 The number of valid digits is an integer for both Celsius and Fahrenheit 3 The value range is 50 to 120 58 to 248 ゚F 25 M_Gas Pipe Temperature HX Upper S1_Gas Pipe Temperature HX Upper S2_Gas Pipe Temperature HX Upper Member number 115 M_Gas Pipe Temperature HX Upper 215 S1_Gas Pipe Temperature HX Upper 315 S2_Gas P...

Page 81: ... to 120 58 to 248 ゚F 27 M_Suction Temperature S1_Suction Temperature S2_Suction Temperature Member number 117 M_Suction Temperature 217 S1_Suction Temperature 317 S2_Suction Temperature Object name M_Suction Temperature S1_Suction Temperature S2_Suction Temperature Object type Analog Input Description Monitors the temperature of the outdoor unit accumulator inlet Present_Value property Temperature...

Page 82: ...r unit sub cool heat exchanger inlet Present_Value property Temperature of the outdoor unit sub cool heat exchanger inlet Remarks 1 Units are set to ゚F depending on the system settings 2 The number of valid digits is an integer for both Celsius and Fahrenheit 3 The value range is 50 to 120 58 to 248 ゚F 30 M_Subcool Outlet Temperature S1_Subcool Outlet Temperature S2_Subcool Outlet Temperature Memb...

Page 83: ...2_Subcool EV Position Object name M_Subcool EV Position S1_Subcool EV Position S2_Subcool EV Position Object type Analog Input Description Monitors the EV position of the outdoor unit sub cool heat exchanger Present_Value property EV position of the outdoor unit sub cool heat exchanger Remarks 1 There are no units of measurement 2 The number of valid digits is an integer 3 The value range is 0 to ...

Page 84: ...ption time is larger than the defined validity period the notification is cancelled Therefore if the clock was changed the actual validity period may differ from the defined validity period c Retention of subscription information at power off Not supported The subscription information is not written to memory therefore it disappears at power off The retention of subscription information during pow...

Page 85: ...nocc Cooling Setpoint AV 9 Unocc Heating Setpoint AV 10 Max Cooling Setpoint AV 11 Min Cooling Setpoint AV 12 Max Heating Setpoint AV 13 Min Heating Setpoint AV 14 Min Setpoint Differential Cooling Heating AV 15 Cooling Heating Setpoint Tracking Mode BV 16 Fan Speed MV 17 Airflow Direction MV 18 Timed Override Operation BV 19 Current Unit Operation MI 20 Remote Controller Prohibit On_Off MV 21 Rem...

Page 86: ...above as well as outdoor unit devices objects are not supported by COV The following error is returned to a SubscribeCOV request for an object that does not support COV Outdoor device ErrorPDU Class OBJECT Code OPTIONAL_FUNCTIONALITY_NOT_SUPPORTED Indoor device RejectPDU UNRECOGNIZED_SERVICE ...

Page 87: ...ch LPS 26 DK_SkyAir DK_VRV DK_RA E5 Overheat of inverter compressor motor 27 DK_SkyAir DK_VRV DK_RA E6 STD compressor motor overcurrent lock 28 DK_SkyAir DK_VRV DK_RA E7 Malfunction of OD unit fan motor 29 DK_RA E8 Overcurrent of inverter compressor 30 DK_SkyAir DK_VRV E9 Malfunction of electronic expansion valve coil 31 DK_RA EA Malfunction of four way valve 32 DK_VRV EC Malfunction of entering w...

Page 88: ...der during automatic refrigerant charging 84 DK_RA PH Malfunction of temperature humidifier unit 85 DK_VRV PH Empty refrigerant cylinder during automatic refrigerant charging 86 DK_VRV PC Empty refrigerant cylinder during automatic refrigerant charging 87 DK_SkyAir PJ Malfunction of capacity setting OD unit PCB 88 DK_VRV PJ Improper combination between inverter and fan driver 89 DK_VRV PE Automati...

Page 89: ...BACnet Advanced Application Controller B AAC BACnet Application Specific Controller B ASC BACnet Smart Sensor B SS BACnet Smart Actuator B SA BACnet Interoperability Building Blocks Supported Annex K Supported BIBBs BIBB Name Supported Standard support Optional support Data Sharing DS RP B Data Sharing ReadProperty B DS RPM B Data Sharing ReadProperyMultiple B DS WP B Data Sharing WriteProperty B ...

Page 90: ...ary Properties N A Property Range Restrictions N A 2 Analog Value Dynamically Creatable No Dynamically Deletable No Optional Properties Supported Reliability Priority_Array Relinquish_Default COV_Increment Writable Properties Present_Value Proprietary Properties N A Property Range Restrictions N A 3 Binary Input Dynamically Creatable No Dynamically Deletable No Optional Properties Supported Descri...

Page 91: ...y Range Restrictions N A b Other Dynamically Creatable No Dynamically Deletable No Optional Properties Supported Max_Segment_Accepted Local_Time Local_Date UTC_Offset Daylight_Saving_Status APDU_Segment_Timeout Active_COV_Subscriptions Description Writable Properties N A Proprietary Properties N A Property Range Restrictions N A 7 Multi state Input Dynamically Creatable No Dynamically Deletable No...

Page 92: ...t To Point modem Clause 10 baud rate s LonTalk Clause 11 medium __________ Other Device Address Binding Is static device binding supported This is currently necessary for two way communication with MS TP slaves and certain other devices Yes No Networking Options Router Clause 6 List all routing configurations e g ARCNET Ethernet Ethernet MS TP etc Annex H BACnet Tunneling Router over IP BACnet IP ...

Page 93: ... WriteProperty A WriteProperty X DS WP B Data Sharing WriteProperty B WriteProperty X DS WPM A Data Sharing WritePropertyMultiple A WritePropertyMultiple X DS WPM B Data Sharing WritePropertyMultiple B WritePropertyMultiple X DS COV A Data Sharing COV A SubscribeCOV X ConfirmedCOVNotification X UnconfirmedCOVNotification X DS COV B Data Sharing COV B SubscribeCOV X ConfirmedCOVNotification X Uncon...

Page 94: ...ry X AE INFO A Alarm and Event Information A GetEventInformation X AE INFO B Alarm and Event Information B GetEventInformation X AE LS A Alarm and Event LifeSafety A LifeSafetyOperation X AE LS B Alarm and Event LifeSafety B LifeSafetyOperation X 11 3 Scheduling BIBBs BIBB Type Supported SCHED A Scheduling A must support DS RP A and DS WP A SCHED I B Scheduling Internal B shall support DS RP B and...

Page 95: ...chronization X DM TS B Device Management TimeSynchronization B TimeSynchronization X DM UTC A Device Management UTCTimeSynchronization A UTCTimeSynchronization X DM UTC B Device Management UTCTimeSynchronization B UTCTimeSynchronization X DM RD A Device Management ReinitializeDevice A ReinitializeDevice X DM RD B Device Management ReinitializeDevice B ReinitializeDevice X DM BR A Device Management...

Page 96: ... X NM CE B Network Management Connection Establishment B Establish Connection To Network X Disconnect Connection To Network X NM RC A Network Management Router Configuration A Who Is Router To Network X I Am Router To Network X I Could Be Router To Network X Initialize Routing Table X Initialize Routing Table Ack X NM RC B Network Management Router Configuration B Who Is Router To Network X I Am R...

Page 97: ...om the BACnetGW 1 Properties The following properties are not supported because Event is not supported a Common Analog Input Binary Input Binary Value Time_Delay Notification_Class Event_Enable Acked_Transitions Notify_Type Event_Time_Stamps b Analog Input Room Temperature High_Limit Low_Limit Deadband Limit_Enable c Binary Input Unit On_Off Status Change_Of_State_Time Change_Of_State_Count Time_O...

Page 98: ...o Is Who Has UTCTimeSync Protocol_Object_Types_Supported AI AO AV BI BO BV MI MO Device NotificationClass AI AV BI BV MI MO MV Device Daylight_Saving_Status Fixed to FALSE Follows the iTM clock settings Device for system control Object_Name DAIKIN MasterStation III Fixed to Daikin ITM Server Control System_Status During D3 initialization DOWNLOAD_IN_PROGRESS Normal OPERATIONAL Fixed to OPERATIONAL...

Page 99: ...del_Name Fixed to D BACS BACnet Gateway Fixed to Outdoor Unit Firmware_Revision 3000 Ver 000 001 Application_Software_Version 3000 Protocol_Services_Supported SubCOV RP RPM WP WPM I Am I Have TimeSync Who Is Who Has UTCTimeSync DeviceCommunicationCo ntrol ver6 20 to AddList RemoveList When Event notification is supported RP RPM I Am TimeSync Who Is Who Has UTCTimeSync Protocol_Object_Types_Support...

Page 100: ...ys FALSE OUT_OF_SERVICE Always FALSE OUT_OF_SERVICE Always FALSE Event_State NORMAL Normal Fixed to NORMAL FAULT Communication error Sensor error LOW_LIMIT Analog minimum error HIGH_LIMIT Analog maximum error Analog Value Occ Cooling Setpoint Occ Heating Setpoint Unocc Cooling Setpoint Unocc Heating Setpoint Max Cooling Setpoint Min Cooling Setpoint Max Heating Setpoint Min Heating Setpoint Min Se...

Page 101: ...ication error Exception Communication status object is fixed to FALSE OVERRIDDEN Always FALSE OUT_OF_SERVICE Always FALSE Event_State NORMAL No alarm is present Fixed to NORMAL OFF_NORMAL Alarm is present Binary Output Reliability NO_FAULT_DETECTED Normal communication UNRELIABLE_OTHER Communication error Always NO_FAULT_DETECTED Binary Value Status_Flags IN_ALARM TRUE Filter Sign ON FAULT TRUE Co...

Page 102: ...2 BACnet communication port number Note The factory setting is 47808 The available setting range is 1 65535 BACnet communication port number 3 Device ID instance number for each VRV indoor unit Note The available setting range is 0 4194303 there is no factory setting assigned DIII Net Group Address Device ID Instance DIII Net Group Address Device ID Instance DIII Net Group Address Device ID Instan...

Page 103: ...Group Address Device ID Instance DIII Net Group Address Device ID Instance DIII Net Group Address Device ID Instance DIII Net Group Address Device ID Instance 2 1 00 2 2 00 2 3 00 2 4 00 2 1 01 2 2 01 2 3 01 2 4 01 2 1 02 2 2 02 2 3 02 2 4 02 2 1 03 2 2 03 2 3 03 2 4 03 2 1 04 2 2 04 2 3 04 2 4 04 2 1 05 2 2 05 2 3 05 2 4 05 2 1 06 2 2 06 2 3 06 2 4 06 2 1 07 2 2 07 2 3 07 2 4 07 2 1 08 2 2 08 2 3...

Page 104: ...Setpoint Max Heating Setpoint Max_Heating_Setpoint Min Heating Setpoint Min_Heating_Setpoint Min Setpoint Differential Cooling Heating Min_Setpoint_Differential Cooling Heating Setpoint Tracking Mode Setpoint_Tracking_Mode Fan Speed Fan_Speed Airflow Direction Airflow_Direction Timed Override Operation Timed_Override_Operation Current Unit Operation Current_Unit_Operation Remote Controller Prohibi...

Page 105: ...de Oil Return Electric Power Electric Current System Capacity Code Outdoor Air Temperature M_Condensing Pressure M_Evaporating Pressure M_Condensing Temperature M_Evaporating Temperature M_Inverter Compressor 1 Speed M_Inverter Compressor 2 Speed M_Fan Step M_EV Position 1 M_EV Position 2 M_Hot Gas Temperature Compressor 1 M_Hot Gas Temperature Compressor 2 M_Liquid Pipe Temperature M_Liquid Pipe ...

Page 106: ...2 Monitor from BMS for each indoor unit yes no S2_Condensing Pressure S2_Evaporating Pressure S2_Condensing Temperature S2_Evaporating Temperature S2_Inverter Compressor 1 Speed S2_Inverter Compressor 2 Speed S2_Fan Step S2_EV Position 1 S2_EV Position 2 S2_Hot Gas Temperature Compressor 1 S2_Hot Gas Temperature Compressor 2 S2_Liquid Pipe Temperature S2_Liquid Pipe Temperature HX Upper S2_Liquid ...

Page 107: ... hexadecimal 0 portion of subnet mask contains all 0 s or 1 s An address of which the network portion hexadecimal 1 portion of subnet mask contains all 0 s or 1 s Example 244 1 1 1 NG outside the range of Class A C addresses 127 0 0 1 NG Loop back address IP 198 168 1 0 Subnet 255 255 255 0 NG host portion contains all 0 s IP 192 168 0 1 Subnet 192 0 0 0 NG network portion contains all 1 s One of ...

Page 108: ...M BACnet Server Gateway should also be configured with a BBMD IP address and Port No 2 2 Typically not changed unless requested by the BMS 1 The Foreign Device setting is only set if the BMS notifies that a BACnet Broadcast Management Device BBMD is used on the network 2 The iTM BACnet Server Gateway must be configured to communicate with the BBMD This is done by enabling the BBMD function and add...

Page 109: ... indoor unit connected to the iTM Parameter 2 Indoor unit monitoring and or control points executed by the BMS For objects where multiple iTM BACnet Server Gateway will be used a points list should be created for each iTM BACnet Server Gateway How to create a point list The point list creation methods for the following monitoring control objects are provided as examples Port assignment DIII NET ad...

Page 110: ...15 Setpoint Tracking Mode BV 16 Fan Speed MV 17 Airflow Direction MV 18 Timed Override Operation BV 19 Current Unit Operation MI 20 RC On Off MV 21 RC Operation Mode BV 22 RC Setpoint BV 23 Filter Sign Status BI 24 Filter Sign Reset BV 25 Indoor Fan Status BI 26 Communication Status BI 27 Thermo On Status BI 28 Compressor Status MI 29 Aux Heater Status BI 30 Forced Thermo off BV 31 Indoor Unit Cha...

Page 111: ...Fan Step AI 8 System Capacity Code AI 107 M_EV Position 1 AI 9 Outdoor Air Temperature AI 108 M_EV Position 2 AI 109 M_Hot Gas Temperature Compressor 1 AI 110 M_Hot Gas Temperature Compressor 2 AI 111 M_Liquid Pipe Temperature AI 112 M_Liquid Pipe Temperature HX Upper AI 113 M_Liquid Pipe Temperature HX Lower AI 114 M_Liquid Pipe Temperature Deicer AI 115 M_Gas Pipe Temperature HX Upper AI 116 M_G...

Page 112: ...0 S2_Hot Gas Temperature Compressor 2 AI 211 S1_Liquid Pipe Temperature AI 311 S2_Liquid Pipe Temperature AI 212 S1_Liquid Pipe Temperature HX Upper AI 312 S2_Liquid Pipe Temperature HX Upper AI 213 S1_Liquid Pipe Temperature HX Lower AI 313 S2_Liquid Pipe Temperature HX Lower AI 214 S1_Liquid Pipe Temperature Deicer AI 314 S2_Liquid Pipe Temperature Deicer AI 215 S1_Gas Pipe Temperature HX Upper ...

Page 113: ...ver Gateway on the iTM 4 1 iTM BACnet Server Gateway Activation 1 From the Service Settings tab of the iTM click on the Activation icon 2 On the Activation Setup page click the Add button to open the keyboard dialog box and enter the activation key for the iTM BACnet Server Gateway option ...

Page 114: ... enable Unocc Setpoints Setpoint Range Limitation and configure Auto changeover in the iTM b Click the Service Settings tab for the iTM c Click the BACnet Server Gateway icon only appears when the BACnet Server Gateway option is activated d Insert the USB memory device into the iTM USB port e Click the Export Configuration Data button to download iTM BACnet Server Gateway CVS file to the USB drive...

Page 115: ...14A51 Design Guide 115 f Remove the USB drive from the iTM and insert into PC The CSV file is displayed in the root directory g Open the CSV file h BACnet communication settings COMMONSETTING BACnet Common Settings BACnet Points Settings ...

Page 116: ..._Setpoint 1 1 Enable 0 Disable O Max_Cooling_Setpoint 1 1 Enable 0 Disable P Min_Cooling_Setpoint 1 1 Enable 0 Disable Q Max_Heating_Setpoint 1 1 Enable 0 Disable R Min_Heating_Setpoint 1 1 Enable 0 Disable S Min_Setpoint_Differential 0 1 Enable 0 Disable T Setpoint_Tracking_Mode 0 1 Enable 0 Disable U Fan_Speed 0 1 Enable 0 Disable V Airflow_Direction 0 1 Enable 0 Disable W Timed_Override_Operati...

Page 117: ...ile on the USB drive Do not change the file name b Insert the USB drive in the iTM USB port c Login to the Service Mode from the iTM List Screen d Select the BACnet Server Gateway button under the Service Setting tab e Select the Import Configuration Data button and select Yes to start the import process ...

Page 118: ...rect g Press Close to reboot the iTM h If the data did not input correctly into the CSV file iTM displays Error on the Information Check screen Confirm the details of the error and modify the data in the CSV file CSV file import error message Target cell s with the error in the CSV file 10 4 10 Row 4 Column on CSV file No error Error Indoor001 101 Indoor002 102 Duplicate Device_Instance_No 10 4 1 ...

Page 119: ...t individual setting Mgmt Point ID Designated Management Point does not exist line Column There is no exist Management point ID Mgmt Point name Mgmt Point ID Item File Error line column There is no numeric string Mgmt Point name Mgmt Point ID Item Out of Range line column There is out of range value Mgmt Point name Mgmt Point ID Duplicate Management Points line column There is the same Management ...

Page 120: ...le IP 192 168 0 1 default Subnet Mask 255 255 255 0 default PC Network Settings example IP 192 168 0 2 Subnet Mask 255 255 255 0 2 Connect laptop to iTM using one of the following methods Ethernet crossover cable Straight Ethernet cables and a network hub switch 5 2 Configuring iTM Network Settings 1 From the Menu List of the iTM select the System Settings 2 Select the Network button a Modify the ...

Page 121: ...fault gateway address 192 168 0 100 2 If the iTM s IP address has been changed from the factory setting at the site use the following IP address shown in the table in 6 2 IP address temporarily used for the test service operation on P 87 5 Enter the information above in IP address 3 subnet mask 4 and default gateway 5 in the dialog box 2 of Step 1 3 and press the OK button 6 The dialog box 1 reapp...

Page 122: ...itch is the hub powered On Can PING be executed from the test operation PC See below 6 2 How to Execute PING 1 From the PC s desktop select Start Program Accessories Command Prompt The dialog box opens see figure below 2 Using the PC s keyboard enter the iTM s IP address in 1 Ex When the iTM s IP address is 150 35 20 62 enter ping 150 35 20 62 and press the Return key 3 If you can see information ...

Page 123: ...cording to network administrator requirements 7 3 Ask the BMS integrator to discover the BACnet points from the iTM 7 4 Unable to auto discover BACnet points 1 If the BMS cannot auto discover the iTM BACnet points the points must be manually entered in the BMS system The iTM BACnet Server Gateway Design Guide should be used as a source for point information 7 5 Final Review 1 Review points list wi...

Page 124: ...S to set Setpoint Range Limitation to materialize 2 F from the occupied setpoints BMS to set Occupied Setpoints and Unoccupied Setpoints BMS to set Timed Override Time override is handled by iTM with the Timed Override Minutes BMS to set the occupancy status based on the Master Schedule The BMS may send the occupied setpoints if the BMS wants to reset the occupied setpoints when the occupancy stat...

Page 125: ...le the Occupancy Mode is Occ the occupied period is automatically disabled See section 7 2 1 in Part 2 The timed override time can be set by the BMS with the Timed Override Minutes point The typical setting is 120 minutes 2 hours See section 7 3 3 in Part 2 2 The timed override can be enabled disabled by the BMS with the Timed Override Operation if necessary See section 7 2 18 in Part 2 3 Override...

Page 126: ...e EEPROM The maximum writable entries are limited to 1 000 000 depending upon indoor unit model for each data item This allows the indoor unit to resume using the previous setting after a power failure 3 Changes should be kept at a minimum of 70 000 80 000 times per year a Rule of thumb Do not change settings frequently Keep below 200 change settings per day for each data item 3 2 Priority Array 1...

Page 127: ...lectric Wiring 1 2 Rear Panel Most terminals are located on the rear panel of the iTM behind a terminal cover for safety Remove two screws to detach the cover and view the ports terminals Rear face of iTM Figure 21 Rear Face of intelligent Touch Manager A POWER The power line connection terminals A power supply voltage of 24 VAC at 60 Hz is required Near the terminal block there is a blue resin ca...

Page 128: ...minals used during installation or maintenance work Front face of iTM Figure 22 Front Face of intelligent Touch Manager A SERVICE LAN The port for temporarily connecting the iTM to a LAN from its front panel instead of the rear panel during installation or maintenance operations B LAN SW Switch for setting the LAN port on the back and the SERVICE LAN port on the front The cover cannot close when t...

Page 129: ...rting the iTM 1 4 Side Panel A USB port is located on the left side of the iTM The USB port is used for connecting devices for making settings performing maintenance or other operations after iTM installation The left side also contains the product label identifying product name weight power supply and serial number Side panel of iTM Figure 23 Side Panel of intelligent Touch Manager Open this cove...

Page 130: ...onnecting the DIII NET compatible air conditioning equipment 2 3 2 Connecting a LAN cable 2 3 4 Connecting an emergency stop input device or power meter 2 3 7 Connecting an iTM Plus Adaptors 2 3 9 Connecting the power supply 2 1 Removing Wiring Cover from Rear Face 1 Remove the wiring cover from the rear face by removing two screws using a Phillips screwdriver 2 2 Connecting DIII Net Compatible Ai...

Page 131: ...io includes a wide range of centralized controllers suitable for different applications or building sizes These controllers can be used in combination to construct an optimal air conditioning control system b If multiple centralized controllers are connected on the DIII Net network set a MASTER and SLAVE relationship for those controllers c Assign only one of the controllers to MASTER and other co...

Page 132: ...r Main 4 Central Remote Controller Main Priority 5 intelligent Touch Manager Sub iTM plus adaptor Sub 6 Central Remote Controller Sub 7 ON OFF Controller Main Low 8 ON OFF Controller Sub Centralized controllers that cannot be connected to the same network as the iTM Parallel Interface intelligent Touch Controller iTC DIII Net Plus Adaptor Residential Central Remote Controller Schedule Timer Wiring...

Page 133: ...l distribution according to the pulse inputs from a power meter 5 Terminal location and schematic connection diagram Connect the contact input signal wire or pulse signal wire to Di1 Di2 Di3 Di4 or COM terminal to the orange connector on the rear face Each of these terminals has different function Di1 Emergency stop input Di2 Di3 Di4 Pulse input contact signal input digital input COM Common Note T...

Page 134: ...00 ms or more 7 Connecting the iTM Plus Adaptors When networking several indoor units use iTM Plus Adaptors A single iTM is limited to controlling 64 indoor groups By installing iTM Plus Adaptors an additional 64 indoor unit groups per adaptor is possible Additionally as the iTM can be connected with a maximum of seven iTM Plus Adaptors a total of 512 groups of indoor units can be controlled with ...

Page 135: ...onnect the power supply to the three terminals L Live N Neutral and ground in the POWER section A Earth B Earth leakage breaker C Power supply 24VAC 60 Hz 11 Wiring specifications Cable type Ordinary tough rubber sheathed cord 60245 IEC 53 equivalent or higher Ordinary polyvinyl chloride sheathed cord 60227 IEC 53 equivalent or higher Core thickness Power wire AWG 17 14 Earth lead Size must comply...

Page 136: ...each setting by following the guidance displayed on the screen after turning on the iTM power supply The setting assignment made through this procedure may be changed at a later time 3 1 Setting Backup Battery to ON To retain the settings in the event of a power outage the iTM includes a built in backup battery The backup battery is disabled by default Move switch to On position to use backup batt...

Page 137: ...e turning on the iTM After powering the iTM and startup a title screen appears with the message Ready to set up A C centralized address Set the DIII NET addresses using the remote controller for the indoor units 2 Click Close The Locale Settings screen appears The message Turn ON Battery Backup switch may be displayed instead of the Locale Setting screen This message is displayed if you do not tur...

Page 138: ...ervices PICS 1 Functions Removed from BACnet Gateway Properties The following properties are not supported as Event Notification is not supported Common Analog Input Binary Input Binary Value Time_Delay Notification_Class Event_Enable Acked_Transitions Notify_Type Event_Time_Stamps Analog Input Room Temperature High_Limit Low_Limit Deadband Limit_Enable Binary Input Unit On_Off Status Change_Of_St...

Page 139: ...re return air temp 6 Occ Cooling Setpoint N A Note1 2 7 Occ Heating Setpoint N A Note1 2 8 Unocc Cooling Setpoint N A 9 Unocc Heating Setpoint N A 10 Max Cooling Setpoint N A 11 Min Cooling Setpoint N A 12 Max Heating Setpoint N A 13 Min Heating Setpoint N A 14 Min Setpoint Differential Cooling Heating N A 15 Cooling Heating Setpoint Tracking Mode N A 16 Fan Speed N A N A 17 Airflow Direction N A ...

Page 140: ... ranges 64o F 90o F in cooling and 50o F 86o F in heating In the event that a value outside of the available setpoint range is sent from the BMS via iTM the indoor unit will ignore the out of range setpoint command however in the above case the iTM can send the cooling setpoint value and heating setpoint value of only 64o F 82o F Even within the available range of setpoints for example if the setp...

Page 141: ...EYQ144TATJU REYQ144TAYDU RXYQ168TATJU RXYQ168TAYDU REYQ168TATJU REYQ168TAYDU RXYQ192TATJU RXYQ192TAYDU REYQ192TATJU REYQ192TAYDU RXYQ216TATJU RXYQ216TAYDU REYQ216TATJU REYQ216TAYDU RXYQ240TATJU RXYQ240TAYDU REYQ240TATJU REYQ240TAYDU RXYQ264TATJU RXYQ264TAYDU REYQ264TATJU REYQ264TAYDU RXYQ288TATJU RXYQ288TAYDU REYQ288TATJU REYQ288TAYDU RXYQ312TATJU RXYQ312TAYDU REYQ312TATJU REYQ312TAYDU RXYQ336TATJ...

Page 142: ...JU RXLQ192TAYCU RELQ96TATJU RELQ192TAYCU RXLQ120TATJU RXLQ240TAYCU RELQ120TATJU RELQ240TAYCU RXLQ144TATJU RXLQ72TAYDU RELQ144TATJU RELQ72TAYDU RXLQ192TATJU RXLQ96TAYDU RELQ192TATJU RELQ96TAYDU RXLQ240TATJU RXLQ120TAYDU RELQ240TATJU RELQ120TAYDU RXLQ72TAYCU RXLQ144TAYDU RELQ72TAYCU RELQ144TAYDU RXLQ96TAYCU RXLQ192TAYDU RELQ96TAYCU RELQ192TAYDU RXLQ120TAYCU RXLQ240TAYDU RELQ120TAYCU RELQ240TAYDU ...

Page 143: ...Power Supply Externally supplied 24 VAC 60 Hz 24 VAC 60 Hz Power Consumption 23 Watts 23 Watts Operating Temp Range 32 104 o F 14 122 o F Operating Humidity Range 85 or less w o condensation 85 or less w o condensation Dimensions WxHxD 11 42 x 9 57 x 1 97 in 6 30 x 5 87 x 2 41 in Weight Mass 5 3 lbs 2 4 kg 1 1 lbs 0 5 kg Certifications FCC Part 15 Class B 2 Dimensions intelligent Touch Manager iTM...

Page 144: ...Part 5 Installation Manual 144 Design Guide DCM014A51 iTM Plus Adaptor DCM601A72 ...

Page 145: ...Wiring A Outdoor unit B OUT OUT communication terminal C IN OUT communication terminal D Indoor unit E A maximum of 16 indoor units can be connected per remote controller group F A maximum of 64 indoor unit groups Up to128 indoor units can be connected For wire type refer to the iTM Installation Manual ...

Page 146: ...DCM014A51 iTM Ethernet Connection A Rear face of iTM B LAN cable Applicable cable standard 100Base TX or 10Base T Connector standard RJ 45 C Hub D PC Do not use power over Ethernet connection Only use Ethernet cabling dedicated for communication ...

Page 147: ... Guide 147 iTM Plus Adaptor Connection A iTM B iTM Plus Adaptor C Plus ADP IF iTM D Plus ADP IF iTM Plus Adaptor E iTM Plus Adaptor where termination resistor must be enabled For details refer to the iTM Plus Adaptor Installation Manual EM11A030 ...

Page 148: ...relevant local and national regulations and with the instructions in this installation manual Improper installation may cause electric shock or fire Only use specified accessories and parts for installation Failure to use specified parts may result in electric shock fire or controller damage Do not disassemble reconstruct or repair Electric shock or fire may occur Only use specified wiring and ver...

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