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FILE No. A10-029
Revised Nov. 2011 (2)
Model name:
BACnet System
Intelligent ServerBMS-LSV6UL
BACnet Server SoftwareBMS-STBN09UL
SERVICE MANUAL
PRINTED IN JAPAN, Feb. 2012, TDOC
2
ContentsSafety Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Before Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
1. Overview. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
2. System Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
3. Starting / Ending a BACnet System. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
4. Procedure and Checks Until The Test Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
5. Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
6. Product Replacement Procedure In Case of Malfunction . . . . . . . . . . . . . . . . . . . . . . . . . 20
Installation Manual of Intelligent Server
Installation Manual of TCS-NET Relay Interface
Appendix 1
Appendix 2
Safety PrecautionsImportant safety-related information is described on the product and in this Service Guide.Read the following description on labels and symbols carefully and follow their directions.
[Explanation of labels]
(*): Property damage means expanded damages to assets, furniture, livestock and / or pets.
[Explanation of symbols]
Label Explanation
DANGER Indicates that the repair engineer and other third-party individuals in the vicinity may be exposed to immediate risk of death or serious injury if operation is not performed correctly.
WARNING Indicates that the repair engineer and other third-party individuals in the vicinity may be exposed to a risk of death or serious injury if operation is not performed correctly.
CAUTIONIndicates that the repair engineer and other third-party individuals in the vicinity may be exposed to a risk of injury or that property damage (*) may result if operation is not performed correctly or from failure of product after operation.
Symbol Explanation
Indicates prohibited activitySpecific prohibited actions are described in statements near the symbol.
Indicates enforced actionSpecific enforced actions are described in statements near the symbol.
Indicates caution (includes danger alert and warning)Specific content of caution is indicated in a picture or statement near the symbol.
DANGERTurn off breaker before performing work.Otherwise, one may receive electric shock from the high-voltage electricity, resulting in death or injury.
Do not turn on the breaker when the cover of the unit is removed.Otherwise, one may receive electric shock from the high-voltage electricity, resulting in death or injury.
WARNINGBefore fault diagnosis or beginning repair work, make sure that the ground wire is connected to the ground terminal of the unit.If not, ground leakage may result in electric shock hazard.
Do not alter the product.Components of the unit should also not be taken apart or altered.Otherwise, it may result in fire, electric shock or injury.
Use designated parts for replacement.Using parts other than those designated may cause fire or electric shock.
Turn off breaker
Prohibition
Check for ground wire
No alteration
Use designated parts
3
Do not allow unauthorized personnel other than repair engineers to enter areas where fault diagnosis and repair work is conducted.Unauthorized persons may suffer injury from tools and disassembled parts.
Connect lead wires with crimping terminals and turn the closed end upwards to avoid exposure to water.Failure to perform this post-connection treatment may cause disasters, such as electricity leakage and fire, on the client’s premises.
After repair, ensure that the assembly of disassembled parts and the connection and wiring of removed wires are completed so as to restore them to their former state. Be careful not to have the internal wires caught in the cover or other closures.A defect in assembly or wire connection may cause disasters in the client premise, such as electricity leakage and fire.
After repair, check for insulation between the charged part and non-charged metal part (ground terminal) using an insulation resistance tester (500 V) and ensure at least 2 MΩ resistance.If the insulation resistance value is low, it indicates the risk of disasters, such as electricity leakage and electric shock, on the client’s premises.
In case of performing circuit inspection while the circuit is connected to a power source (if such condition is necessary), use rubber gloves and other measures to prevent contact with the charged part.Otherwise, one will risk electric shock from contacting the charged part.
Upon completion of repair, ensure that there are no abnormalities.Risks of fire, electric shock or injury may be prevented by inspection.Turn off the breaker before performing inspection.
Test run the system after repair and make sure that there are no abnormalities including smoke.Risks of fire and electric shock may be prevented by inspection.
Repair and reinstallation must be performed by qualified professional.
WARNING
Restricted area
Insulation
Assembly wiring caution
Insulation check
Electric shock caution
Check after repair
Repair and Reinstall
4
Before InstallationNOTEBefore using the BACnet System, prepare the following software (sold separately):Software that can be usedBACnet Server Software BMS-STBN ( : 09 or higher)
5
1 Overview1-1. OverviewThe BACnet System (Intelligent Server and BACnet Server Software) is a product that relays the communication between the Central Monitoring system and multi air conditioner to monitor / control a multi air conditioner for building from the building central monitoring system. A protocol of communications between the BACnet System and Central Monitoring system is BACnet™, an open network protocol for building automation.
CAUTIONThe BACnet System consists of a hardware product, a box of the system, and a software product built in the system. Prepare the BACnet Server Software for each of the system.
CAUTION• Data is recorded on a CF card of BACnet Server Software in image format including software compatible with the
operating system BACnet Protocol. It is not a Windows format, so files in the CF card cannot be viewed even if it is inserted into a PC slot. In addition, an error may occur on the CF card. In this case, replace the CF card.
• It is required to register the device information on the air-conditioner. To configure the settings, use the BACnet Setting File Software.
• For specifications on communications and variables, see the annexes Protocol Implementation Conformance Statement and BACnet Server Software Specifications.
Item Product name1 Hardware product for BACnet System Intelligent Server (BMS-LSV6UL)
2 Software product built in BACnet System (CF card) BACnet Server Software (BMS-STBN09UL)
Open network protocolBACnet protocol (BACnet / IP)
TCC-LINK main busRS-485
TCS-NET Relay Interface
Equipment LAN
Central Monitoring SystemBACnet System
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1-2. Trademarks* CompactFlash and CF are trademarks of SanDisk Corporation.* Ethernet is a registered trademark of Fuji Xerox Co., Ltd.
• “Windows XP”, “Windows Vista”, and “Windows 7” are either registered trademarks or trademarks of Microsoft Corporation in the United States and / or other countries.
• Adobe, the Adobe logo, Reader, and Acrobat are either registered trademarks or trademarks of Adobe Systems Incorporated in the United States and / or other countries.
• Install Shield is either a registered trademark or trademark of Flexera Software Inc. in the United States and / or other countries.
• All other company and product names are either registered trademarks or trademarks of the respective owners. In this manual such names are not indicated by ™, ® or © marks.
• BACnet: ASHRAE Building Automation Control Networks
7
2 System Configuration2-1. System configuration diagram
Up to 8 TCS-NET Relay Interfaces for a single BACnet System
Intelligent ServerRS-485
(A)
LAN
There is no upper limit for the number of BACnet Systems.
NOTEThe IP addresses need to be changed.
Central Monitoring system(product by another company)
Switching HUB
BACnet product by another company(Ex: For disaster prevention)
(B)
NOTESet the BACnet System in the same LAN subnet as that of the Central Monitoring system or a BACnet product by another company.(Ex)IP address of the Central Monitoring system: 192.168.1.2IP address of the BACnet System: 192.168.1.**** is a number assigned by Central Monitoring manufacturer
Up to 128 indoor units for a single BACnet System
NOTESuper Digital Inverter (including Twin and Triple)
TCC-LINK main bus (C)
TCS-NET Relay InterfaceBACnet Server
Software
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3 Starting / Ending a BACnet SystemCAUTION
Cautions on starting a BACnet SystemThe Intelligent Server initializes the TCS-NET Relay Interface when the BACnet System is started. Confirm the following before turning on the Intelligent Server.1.The RS-485 Cable is correctly connected between the Intelligent Server and TCS-NET Relay Interface.2.The TCS-NET Relay Interface is electrified.3.The power source of the Intelligent Server is electrified.
Cautions on ending a BACnet System1.When turning off the Intelligent Server, perform the shutdown operation.
• The shutdown operation saves the information stored in the memory to a file in a CF card.• If the Intelligent Server is turned off without the shutdown operation performed, the following errors may occur:
The server cannot be restarted.The BACnet communication function does not work properly.
2.When the Intelligent Server is turned off, an alarm may be given on the Central Monitoring system. In this case, contact the administrator of the Central Monitoring system.
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3-1. Activation and LED change1.Confirm that the TCS-NET Relay Interface is electrified.2.Confirm that a CF card (BACnet Server Software) is attached to the Intelligent Server.3.Turn off the Intelligent Server.
The following page describes the LED status change from turning on the Intelligent Server to activating the BACnet communication function normally.It takes approximately 10 minutes from turning on the Intelligent Server to activating the BACnet communication function normally. The time varies depending on the number of air-conditioners or the communication status to the Central Monitoring system.
Figure 1. LED change during activation
Normal operation
Turn on the Intelligent Server.
The OS starts up.
CAUTIONL3 lights up temporarily while the CF card is accessed.When L3 is blinking or lighting up, do not turn off the power or insert / remove the CF card.
During preparation for activating the BACnet communication function
During initialization of the BACnet communication function
Lights out
Red
Lights out
Lights out
Lights out
Red Red Green
Lights out
Red
Lights out
Lights out
Lighting
Red Red Green
Lights out
Red
Lights out
Lighting Lighting
Red Red Green
Lights out
Red
Lights out
Lights out
Lighting
Red Red Green
Blinking
Red
Lights out
Lights out
Lighting
Red Red Green
Lights out
Red
Blinking Lights out
Lighting
Red Red Green
Blinking
Red
Blinking Lights out
Lighting
Red Red Green
Lighting
Red
Lighting Lights out
Lighting
Red Red Green
Initialization failed due to setting file error
Initialization failedWaiting for the clock setting
(Activated normally)
Activated normally
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3-2. Termination and LED change1.Press the SDR button of the Intelligent Server, and wait until the shutdown is complete.2.Turn off the Intelligent Server.
The following page describes the LED status change from pressing the SDR button of the Intelligent Server to the shutdown completion.It takes approximately 5 minutes from pressing the SDR button of the Intelligent Server to the shutdown completion. The time varies depending on the number of air-conditioners or the communication status to the Central Monitoring system.
Figure 2. LED change during termination
Operating normally
Press the SDR button of the Intelligent Server.
CAUTIONL3 lights up temporarily while the CF card is accessed.When L3 is blinking or lighting up, do not turn off the power or insert / remove the CF card.
Preparing for recording onto a CF card
Recording onto a CF card
Recording is complete.
Wait for approximately one minute and then turn off the power.
Blinking
Red
Blinking Lights out
Lighting
Red Red Green
Lights out
Red
Lights out
Lights out
Lighting
Red Red Green
Lights out
Red
Lights out
Lighting Lighting
Red Red Green
Lights out
Red
Lights out
Lights out
Lighting
Red Red Green
Blinking
Red
Blinking Lights out
Lighting
Red Red Green
Lights out
Red
Lights out
Lights out
Lighting
Red Red Green
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4 Procedure and Checks Until The Test Operation
4-1. Preparation4-1-1. Installing the deviceFor how to install the device, see the Installation Manual.
Chapter 7Installation Manual of Intelligent ServerChapter 8Installation Manual of TCS-NET Relay Interface
4-1-2. Server settingsItem Description
1Create a setting file Create a setting file.
• Air-conditioner data• BACnet system data• IP address of LAN1
2 Change the PC’s IP address Change the PC’s IP address to “192.168.0.98”.
3 Connect to LAN2 Connect a LAN cable between the PC and LAN2.IP address of LAN2: 192.168.0.99
4 Upload data Upload the setting file data.
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4-2. Test operation procedureFollow the procedure blow to perform the test operation. If an error occurs in each step, see the failure diagnosis.
Start
Check the power cord wiring or breaker status.
Power on TCS-NET Relay Interface(All units)
Check the power cord wiring or breaker status.
An error has occurred during the BACnet System activation.
Is the “Power” LED (red) on the TCS-NET Relay Interface board lighting up?
Power on BACnet System
Is “RN” (green) on the BACnet System lighting up?
Check the LED blinking status of the BACnet System when 10 minutes have passed after power on.
Are the LED “L1” and “L2” blinking?
Wait a while if the BACnet System is being initialized.
Check the LED lighting status on the TCS-NET Relay Interface board.
(1) Check the LAN cable connection.(2) Check the IP address.
Is RS485 (green) blinking?
Is U1U2 (orange) blinking?
Are the communication, operation check, and connection possible with third party software for BACnet operations (commercially available*1)?(*1: BACnet Explorer (cimetrics))
Check the connection to the Central Monitoring system.(Contact the manufacturer of the Central Monitoring system.)
Yes
Yes
Yes
No
No
No
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5 TroubleshootingNo. Failure Cause Check and action
1
The “L1” LED (red) does not blink even when 10 minutes have passed after powering on the BACnet System.
1.The CF card is not attached properly.
2.The CF card is broken.3.The OS does not start up.
• Check whether the OS of the BACnet System is starting.
• Send the PING command from a laptop PC and check whether the BACnet System responds.
2Both the “L1” LED (red) and “L2” LED (red) light up when 10 minutes have passed after powering on the BACnet System.
The content in the setting file of the BACnet System is not correct.
Check the content in the setting file.
3
The “RS485” LED (green) of the TCS-NET Relay Interface does not blink.
The RS485 communication is not established from the BACnet System.
Check whether the OS of the BACnet System is starting.Check the connection between the BACnet System and TCS-NET Relay Interface.• Pole of RS485• Communication cable disconnection• Terminating resistance setting of RS485
The address of the TCS-NET Relay Interface is not described in the setting file of the BACnet System.
• Check the content in the setting file.• Check the address setting of the TCS-NET
Relay Interface.
4The “U1U2” LED (orange) of the TCS-NET Relay Interface does not blink.
The content in the setting file of the BACnet System is not correct.(Wrong address information on the indoor unit)
Check the content in the setting file.
5
The BACnet System cannot be detected from the Central Monitoring system.
The BACnet System is not currently activating.
• Check whether the “L1” LED and “L2” LED of the BACnet System are blinking.
• Check whether the BACnet System is sending I-am frames of BACnet.
• Wrong LAN cable wiring• Wrong IP address setting• Wrong Subnet address setting
• Check whether communications can be established between the Central Monitoring system and BACnet System. (PING)
• Check the IP address of the BACnet System.
6The BACnet System does not respond to requests from the Central Monitoring system.
Wrong IP address setting of the communicating party
Check whether the IP address of the other party is registered as an IP address of another system in the setting file of the BACnet System.
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6 Product Replacement Procedure In Case of Malfunction
6-1. Service componentsThere is no service component for this product.Send a malfunctioning product.
6-2. Replacement procedureFollow the procedure below to replace the hardware and software (CF card) of the BACnet System.
1 Power off the BACnet System.
2 Remove the LAN cable, RS485 communication cable, and power cord from their connectors on the box of the malfunctioning BACnet System.
3 Remove the malfunctioning BACnet System.
4 Attach a new CF card to a new BACnet System.
5 Install a new BACnet System.
6 See Chapter 4. “Procedure and Checks Until The Test Operation” to check the performance after replacement.
CAUTIONData is recorded on a CF card of BACnet Server Software in image format including software compatible with the operating system BACnet Protocol. It is not a Windows format, so files in the CF card cannot be viewed even if it is inserted into a PC slot. In addition, an error may occur on the CF card. In this case, replace the CF card.
Item Product name1 Hardware product for BACnet System Intelligent Server (BMS-LSV6UL)
2 Software product built in BACnet System (CF card)
BACnet Server Software (BMS-STBN09UL)
15
Installation Manual of Intelligent Server
• Save These Instructions!
ENGLISH
BACnet Server
Model name:
BMS-LSV6UL
Installation Manual
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NOTEThis product is designed exclusively for use in North America. Do not use it in a place other than North America.
ContentsPrecautions for safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Before installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Names of each parts. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1 CF (Compact Flash) card installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
2 Setting. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
3 Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
4 Cable connection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
• Thank you very much for purchasing this TOSHIBA / Carrier BACnet Server.• Please read this manual carefully beforehand for proper installation of the BACnet Server.
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3-EN
Precautions for safety• Read these “Precautions for Safety” carefully before installation.• The precautions described below include important items regarding safety. Observe them without fail.
Understand the following details (indications and symbols) before reading the body text, and follow the instructions.
• After the installation work has been completed, perform a trial operation to check for any problems. Explain how to use and maintain the unit to the customer.
• Ask customer to keep this Manual at accessible place for future reference.
Indication Meaning of indication
Text set off in this manner indicates that failure to adhere to the directions in the warning could result in serious bodily harm (*1) or loss of life if the product is handled improperly.
Text set off in this manner indicates that failure to adhere to the directions in the caution could result in serious bodily injury (*2) or damage (*3) to property if the product is handled improperly.
*1: Serious bodily harm indicates loss of eyesight, injury, burns, electric shock, bone fracture, poisoning, and other injuries which leave aftereffect and require hospitalization or long-term treatment as an outpatient.
*2: Bodily injury indicates injury, burns, electric shock, and other injuries which do not require hospitalization or long-term treatment as an outpatient.
*3: Damage to property indicates damage extending to buildings, household effects, domestic livestock, and pets.
Symbols Meaning of symbols
“ ” Indicates prohibited items.The actual contents of the prohibition are indicated by a picture or text placed inside or next to the graphic symbol.
“ ” Indicates compulsory (mandatory) items.The actual contents of the obligation indicated by a picture or text placed inside or next to the graphic symbol.
• Ask an authorized dealer or qualified installation professional to install or reinstall this unit.Inappropriate installation may result in electric shock or fire.
• Electrical work must be performed by a qualified electrician in accordance with this installation manual. The work must satisfy all local, national and international regulations.Inappropriate work may result in electric shock or fire.
• Be sure to turn off all main power supply switches before starting any electrical work.Failure to do so may result in electric shock.
• Do not modify the unit.A fire or an electric shock may occur.
• Do not install this unit where flammable gas may leak.If gas leaks and accumulates around the unit, it may cause a fire.
• Perform wiring correctly in accordance with specified the current capacity.Failure to do so may result in short-circuiting, overheating or fire.
• Use predefined cable and connect them certainly. Keep the connecting terminal free from external force.It may cause an exothermic or a fire.
WARNING
CAUTION
WARNING
CAUTION
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Before installationNOTEPrepare the following software (sold separately) before using the server.
Available softwareBACnet Software BMS-STBN UL ( is 09 or higher)
Check the following package contents.
Use the following wiring materials to connect the communication cables and power cables. (locally procured)
Names of each parts
No. Item Quantity Remarks1 BACnet Server 1
2 Installation Manual 1
3 Manual 1
4 Cable 1 RS-485 cable for BACnet Server
5 Closed end wire joint 2
6 Clamp filter 2
7 Tie-wrap 2 For fixing the clamp filter
8 Power cable 1
No. Line Description
1 For RS-485
Type 2-core shield wire
Wire sizeAWG16 (1.25 mm2), 1600 ft (500 m) max. (total length)
Length
2 For ethernetType
LAN cable (higher than Category 5, UTP)The appropriate use of straight cable / cross cable should be done depending on your system used.
Length 320 ft (100 m) max.
VGALAN2PS/2LAN1USBCOM1
SDRRNL3OFFS1ONL2L1
L1 LEDL2 LEDS1 switch
RUN LEDShut down switch
POWER switch
AC inlet (AC IN)Ethernet port2 (LAN2)Ethernet port1 (LAN1)CF CARD slotSerial port1 (COM1)
L3 LED
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5-EN
1 CF (Compact Flash) card installationInsert the CF card (with the software sold separately)Push the CF card fully into the slot.
1 Remove two screws and the cover plate and the CF card slot appears.
2 Insert the CF card with its rating label attached surface upward.Confirm the CF card is surely pushed into the slot.
REQUIREMENT• Do not insert or remove the CF (Compact Flash) card during power on of the BACnet Server.
Doing so may cause a failure.• If the CF (Compact Flash) card is not inserted properly, the BACnet Server will not work.
2 SettingThe setting is not required.S1 is set to “OFF”.
Rating label
CF card
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3 Installation
BACnet Server installation method and orientationThere are 2 types of setting methods and directions available for the server. Use the fixing metal platesattached when installing the server.
Fixing screw hole positionsUnit : inch (mm)
REQUIREMENTDo not install the unit in any of the following places.• Humid or wet place• Dusty place• Place exposed to direct sunlight• Place where there is a TV set or radio within one meter• Place exposed to rain (outdoors, under eaves, etc.)
(1) Surface mount (2) Wall mountMount the server with the front face upward.
0.75
” (19
)
0.24” (6) 0.24” (6)
0.83
”(2
1)4.
13” (
105)
11” (280)
5.71
” (14
5)
4 - Ø23 / 128”(4 × Ø4.6)
AC inlet side
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Installation space and maintenance spaceThe installation space and the maintenance space must be determined before installation.These spaces depend on installation method.
Installation spaceThe values in the following table are required for installation space in each direction.Select an installation place that allows good air ventilation.
Unit : inch (mm)
Maintenance space is required for installation and maintenance of the unit.Unit : inch (mm)
Item Direction Surface mount Wall mount
Installation space
Top 3.94” (100) 1.97” (50)
Bottom 0 0
Front 3.94” (100) 3.94” (100)
Rear Location adjacent to wall permitted (*1)
Right side 1.97” (50) 3.94” (100)
Left side 1.97” (50) 3.94” (100)(*1) “Location adjacent to wall permitted” means that the unit can be installed close to the wall on that side.
Top
Right side
Front
Rear
Left side
39.37” (1000)
39.37” (1000)
Rear
BACnet SERVER
Front
: Maintenance space
: Installation space
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4 Cable connection
AC power cable connectionREQUIREMENTPower cable is not supplied for the BACnet Server. Insert a three core power cable applicable to the standard of the country you use. Be sure to connect the earth line of the power cable securely.
• Confirm that the power supply switch of this unit is cut off.• Insert an AC power cable into the AC inlet of the unit.• Connect the power cord plug to an outlet (120 VAC).
REQUIREMENT• Attached power supply wire is for AC 120 V.• Disconnect the appliance from the main power supply. Connect this appliance to the main power supply by a circuit
breaker or a switch with a contact separation of at least 0.118” (3 mm).• Make sure that the outlet is earthed.
Ethernet wire connectionInsert the Ethernet wire into the Ethernet port1 (LAN1).
Serial port (RS-485) connection• Confirm that the power supply for the BACnet Server is shut off.• Connect RS-485 cable (packaged with the BACnet Server) to Serial port 1 (COM1).
Fix the cable to the BACnet Server by the fixing screws (two locations on both sides) attached to the connector on RS-485 cable.
REQUIREMENTAttach the supplied clamp filter to the LAN cable and RS-485 cable.* Wind the LAN cable and RS-485 cable around the clamp filter as shown below when attaching the filter to the cable. After attaching the filter, fix it to the LAN cable and RE-485 cable using a supplied tie-wrap.* Attach the clamp filter as near the main unit as possible.
LAN cableRS-485 cable
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Connection to the TCS-NET Relay Interface• TxRx(+) ConnectionConnect three of the four wires of RS-485 wire (red wire / orange wire / wire from the terminal board RS-485 A of the TCS-NET Relay Interface) together with the closed end wire joint. The red and orange wires can be connected directly to the terminal board RS-485 A of the Relay Interface.
• TxRx(-) ConnectionConnect three of the four wires of RS-485 wire (brown wire / yellow wire / wire from the terminal board RS-485 B of the TCS-NET Relay Interface) together with the closed end wire joint. The brown and yellow wires can be connected directly to the terminal board RS-485 B of the Relay Interface.
NOTEThe RS-485 signal wire has polarity. If connected with incorrect polarity, the unit will not work.Do not connect or disconnect the wire during control operation.Doing so may cause a malfunction.
AB
RS
-485A
BR
S-485
Close end wire joint
BACnet Server
TCS-NETRelay Interface
TCS-NETRelay Interface
Brown / Yellow
Shield wire open(insulated)
Connect the shieldwires of the 2 wires
Shield wire earthconnection
RS-485 cableRed / Orange
RS-485
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Specifications
External viewUnit : inch (mm)
Power Supply 120 VAC, 60 Hz
Current 0.2 A
Operating temperature / humidity 32 to 104 °F (0 to 40 °C), 10 to 90 % RH (no condensation)
Storage temperature -4 to 140 °F (-20 to +60 °C)
Dimension 9.84” (W) x 2.76” (H) x 5.71” (D) inch (250 (W) x 70 (H) x 145 (D) mm)(11.5” (292) (W) including the fixing metal plate)
Mass 3.31 lb (1.5 kg)
COM port RS-485 (9-pin, D-SUB)
LAN 10BASE-T / 100BASE-TX
2.76” (70)
2.74” (69.5)
0.75
”(1
9)
0.12
6” (3
.2)
5.71
” (14
5)
4.13
” (10
5)
0.35
4”(9
)4.
92” (
125)
0.43
3”(1
1)
9.84” (250)
11.5” (292)11” (280)
4 - Ø23 / 128”(4 × Ø4.6)
Trademarks:• BACnet is a registered trademark of ASHRAE (American Society of Heating, Refrigerating and Air-Conditioning
Engineers, Inc.).• Compact Flash and CF are trademarks of SanDisk Corporation.• Ethernet is a registered trademark of Xerox Corporation.
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BACnet Server Installation Manual
EN
11-EN
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EH99881101
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Installation Manual of TCS-NET Relay Interface
TCS-NET RELAY INTERFACE
Installation Manual
TCS-NET Relay Interface
Model name:
BMS-IFLSV4UL
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TCS-NET Relay Interface Installation Manual
Contents
1 Precautions for safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
2 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
3 Before installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
4 Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
5 Connection of power cables / earth wires / communication cables . . . . . . . . . . . . . 5
6 Setting. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
7 Test run. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
• Thank you very much for purchasing this TOSHIBA / Carrier TCS-NET Relay Interface.
• Please read this manual carefully beforehand for proper installation of the relay interface.
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TCS-NET Relay Interface Installation Manual
1 Precautions for safety• Read these “Precautions for Safety” carefully before installation.
• The precautions described below include important items regarding safety. Observe them without fail.
Understand the following details (indications and symbols) before reading the body text, and follow the
instructions.
• After the installation work has been completed, perform a test run to check for any problems. Explain how to use
and maintain the unit to the customer.
• Ask customer to keep this Manual at accessible place for future reference.
Indication Meaning of Indication
Text set off in this manner indicates that failure to adhere to the directions in the warning could result in serious bodily harm (*1) or loss of life if the product is handled improperly.
Text set off in this manner indicates that failure to adhere to the directions in the caution could result in serious bodily injury (*2) or damage (*3) to property if the product is handled improperly.
*1: Serious bodily harm indicates loss of eyesight, injury, burns, electric shock, bone fracture, poisoning, and other
injuries which leave aftereffect and require hospitalization or long-term treatment as an outpatient.
*2: Bodily injury indicates injury, burns, electric shock, and other injuries which do not require hospitalization or long-
term treatment as an outpatient.
*3: Damage to property indicates damage extending to buildings, household effects, domestic livestock, and pets.
Symbols Meaning of Symbols
“ " Indicates prohibited items.The actual contents of the prohibition are indicated by a picture or text placed inside or next to the graphic symbol.
“ " Indicates compulsory (mandatory) items.The actual contents of the obligation indicated by a picture or text placed inside or next to the graphic symbol.
• Ask an authorized dealer or qualified installation professional to install or reinstall this unit.
Inappropriate installation may result in electric shock or fire.
• Electrical work must be performed by a qualified electrician in accordance with this installation
manual.
The work must satisfy all local, national and international regulations.
Inappropriate work may result in electric shock or fire.
• Be sure to turn off all main power supply switches before starting any electrical work.
Failure to do so may result in electric shock.
• Do not modify the unit.
A fire or an electric shock may occur.
• Do not install this unit where flammable gas may leak.
If gas leaks and accumulates around the unit, it may cause a fire.
• Perform wiring correctly in accordance with specified the current capacity.
Failure to do so may result in short-circuiting, overheating or fire.
• Use predefined cable and connect them certainly. Keep the connecting terminal free from
external force.
It may cause an exothermic or a fire.
WARNING
CAUTION
WARNING
CAUTION
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2 Introduction
�Applications / functions / specifications
Applications
• The TCS-NET Relay Interface is used to connect air conditioners (with TCC-LINK installed) to the air
conditioning control system or BACnet system.
Functions
• The TCS-NET Relay Interface converts signals between TCC-LINK and RS-485.
Specifications
�External view
Unit: inch (mm)
Power supply 120 VAC, 60 Hz
Power consumption 3 W
Operating temperature / humidity 32 to 104 °F (0 to 40 °C), 10 to 90% RH (no condensation)
Storage temperature -4 to 140 °F (-20 to +60 °C)
Chassis material Galvanized sheet metal 0.8 t
Dimensions 2.59” (H) x 6.69” (W) x 7.87” (D) inch (66 (H) x 170 (W) x 200 (D) mm)
Mass 2.43 lb (1.1 kg)
5.7
8"
(14
6.9
)
6.6
9"
(17
0)
6.1
4"
(15
6)
7.87" (200)
3.07" (78)0.86"(22) 3.07" (78)
0.86"(22)
3.07" (78)0.86"(22) 3.07" (78)
0.86"(22)
2.5" (63.6)
2.59" (66)
6-Ø7/32” (6-Ø5.5)mounting holes
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3 Before installationCheck the following package contents.
Use the following wiring materials to connect the communication cables and power cables. (locally procured)
4 Installation
�TCS-NET Relay Interface installation method and orientation
There are five installation methods for this relay interface as shown below: surface mount and wall mounts. Use
the attached screws.
REQUIREMENT
Do not install the unit in any of the following places.
• Humid or wet place
• Dusty place
• Place exposed to direct sunlight
• Place where there is a TV set or radio within one meter
• Place exposed to rain (outdoors, under eaves, etc.)
� Installation space and maintenance space
A side space for connecting through cable inlets and an upper space for maintenance
must be reserved before installation.
The other sides can be adjacent to surrounding objects.
No. Item Quantity Remarks
1 TCS-NET Relay Interface 1
2 Installation Manual 1
3 Screw 4 5/32” x 0.47” (M4 x 12 mm) tapping screws
4 Cable clamp 1
No. Line Description
1 For TCC-LINK
Type 2-core shielded wires
Wire size AWG16 (1.25 mm2), 3200 ft (1000 m) max.AWG14 (2.00 mm2), 6500 ft (2000 m) max.(total length including air conditioner area)Length
2 For RS-485
Type 2-core shielded wires
Wire size AWG16 (1.25 mm2), 1600 ft (500 m) max.(total length)Length
3 For powerType UL, CSA approved power supply wire
AWG18 (0.75 mm2), 160 ft (50 m) max.Wire size
No good
3.94”(100)
7.87”(200)
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5 Connection of power cables / earth wires / communication cables
CAUTION
• The RS-485 communication cables have polarity. Connect A to A, and B to B. If connected with incorrect polarity, the unit will not work.
• The TCC-LINK communication cable have no polarity.
Connect power cables, earth wires, and communications cables to the specified terminals on the terminal block.
1.97"(50)
0.39"(10)
1.97"(50)
0.39"(10)
0.39"(10)
1.38"(35)
0.39"(10)
LN
2.17"(55)
0.39"(10)
Length of stripped RS-485 (address of other than 1) and TCC-LINK communication cable
Length of stripped RS-485 communication cable (address 1)
The RS-485 communication cable must be earthed on address 1 (Relay Interface address SW=1) TCS-NET Relay Interface. Fix the shielded wire of RS-485 communication cable with metal cable clamp and screw it to the chassis to earth it.
Length of stripped power cable
Do not connect the shield wire to the earth. It should be open and insulated.
Clamping communication cableClamping RS-485 communication cable (address 1)
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REQUIREMENT
Disconnect the appliance from the main power supply.
This appliance must be connected to the main power supply by a circuit breaker or switch with a contact separation of at least
3mm.
Fasten the screws to the terminal with torque of 0.5 Nm.
TC
C-L
INK
U1
U2
F
G
RS
-48
5
A
B
L
N
SW1
SW4
LED1LED2
LED3LED4
LED5
SW2
SW7SW6SW5
SW3
1 2 3 4
SG
Air conditioner
BACnet Server
Power supply120 VAC, 60 Hz
The RS-485 communication cable must be earthed on address 1 (Relay Interface address SW=1) TCS-NET Relay Interface. The shielded wires must be crimped with closed end connectors on interfaces with address of other than 1. The shielded wire ends must be insulated and left open.
The TCC-LINK communication cable must be earthed on the air conditioner. Do not connect the shield wire to the terminal block. It should be open and insulated.
Connect the earth wire to the earth terminal on the chassis.
Connect the power supply cable and earth wire to the terminals using ring terminals with insulation sleeve.
To connect 2 cables, change the preset cable clamp to the provided one and fix the cables with the cable clamp as shown in the figure left.
Remove the grommet from the power supply wire hole. Attach the conduit pipe to the plate with a lock nut.Use 1/2 inch conduit pipe.
Lock nut
Conduit pipe
Power supply wire hole (Ø7/8” (22.2))
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�Wiring connection
The following describes a connection example when two or more TCS-NET Relay Interface units are used.
Terminator resistor setting (See “6 Setting” for the setting method.)
• Set the RS-485 terminator resistor to “120 ohm” for address1 (Relay Interface address SW1=1) TCS-NET Relay
Interface unit, and set to “open” for other units.
• Set the TCC-LINK terminator resistor to “open” as it is set on the air conditioner side.
Shield earthing
• The RS-485 communication cable must be earthed on address 1 (Relay Interface address SW=1) TCS-NET
Relay Interface. Fix the shielded wire of RS-485 communication cable with metal cable clamp and screw it to the
chassis to earth it. The shielded wires must be crimped with closed end connectors on interfaces with address
of other than 1. The shielded wire ends must be insulated and left open.
• Do not connect the shield wire to the terminal block. It should be open and insulated. The TCC-LINK
communication cable must be earthed on the air conditioner.
TC
C-L
INK
U2 U1
U4 U3
U2 U1
U4 U3 U4 U3
8
AB
SG
U1
U2
FG
RS
-48
5 SW6SW5
SW1
U2 U1 U2 U1 U2 U1
U2 U1
U4 U3
U2 U1
U4 U3 U4 U3
U2 U1 U2 U1 U2 U1
A B
LN
TC
C-L
INK
1
AB
SG
U1
U2
FG
RS
-48
5 SW6SW5
SW1
LN
Ind
oo
r u
nit
Do not connect the shielded wire of TCC-LINK communication cable to the earth.
Po
we
r su
pp
ly
Ind
oo
r u
nit
Ind
oo
r u
nit
Ind
oo
r u
nit
Ind
oo
r u
nit
Ind
oo
r u
nit
Ou
tdo
or
un
it
Ou
tdo
or
un
it
Ou
tdo
or
un
it
Ou
tdo
or
un
it
Re
mo
te
co
ntr
olle
r
Re
mo
te
co
ntr
olle
r
Re
mo
te
co
ntr
olle
r
Re
mo
te
co
ntr
olle
r
Po
we
r su
pp
ly
Ce
ntr
al
rem
ote
co
ntr
olle
rC
en
tra
lre
mo
te c
on
tro
ller
TCC-LINK U1 and U2 have no polarity.
Set the RS-485 terminator resistor on the address1 unit (relay interface address SW1=1) and host system. Do not set it here.
BACnet SERVER
Crimp 3 wires with a closed end wire joint.
Orange Brown
YellowRed
Red/Orange
Brown/Yellow B
A
TCC-LINK terminator resistor is set on the air conditioner side. SW6 should be OFF.
Connect the shielded wires of the two cables.
The RS-485 communication cable must be earthed on address 1
CAUTION: RS-485 communication cables A and B have polarity. Be careful when connecting the RS-485 wires.
RS-485 terminator resistor is set by relay interface of address setting switch SW1=1 only.
Set the TCS-NET Relay Interface address with SW1. Assign 1 to C(12) to each address to avoid duplication.CAUTION: The SW1 setting is read when the power is turned on. Push the reset switch SW7 after changing the address.
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6 SettingThe following settings are necessary to use TCS-NET Relay Interface.
• SW1 TCS-NET Relay Interface address set switch
When two or more TCS-NET Relay Interface are used, set a different address for SW1 to avoid address
duplication.
Assign addresses in an ascending order.
CAUTION
• Set relay interface addresses according to the air conditioner address table.For the relay interface whose address SW1=1, perform terminator resistor setting.
• When the SW1 setting has been changed, push the reset switch SW7. The new address setting is read.
• SW2 Test switch Not used during operation.
Set these switches to zero (0) or “all OFF”.• SW3 Test switch
• SW4 Test switch
• SW5 RS-485 terminator resistor select switch
Set “120 ohm” only when the relay interface address SW=1, and set “open” for other relay interfaces.
• SW6 TCC-LINK terminator resistor select switch
The TCC-LINK terminator resistor is set on the air conditioner side. Set SW6 to “open”.
• SW7 Reset switch
When performing an address setting with SW1, push this reset switch after the address setting to read
the set value.
U1
U2
FG
AB
SG
LN
TC
C-L
INK
RS
-48
5
SW1
SW4
LED1LED2
LED3LED4
LED5
SW2
SW7SW6SW5
SW3
1 2 3 4
REQUIREMENT
• RS-485 terminator resistor select switch SW5.
Set “120 ohm” only when the TCS-NET Relay Interface address SW=1, and set “open” for other relay
interfaces.
• The TCC-LINK terminator resistor is set on the air conditioner side. Set SW6 to “open”.
SW1 Relay interface address set switch
1-C Relay interface address
0, D-F Not used
SW2 Test switch (0 usually)
SW3 Test switch (all OFF usually)
SW4 Test switch
SW5 RS-485 terminator resistor select switch
120 ohm Open
SW6 TCC-LINK terminator resistor select switch
100 ohm Open
SW7 Reset switch
LED1 Power indicator
LED2 RS-485 communication status indicator
LED3 TCC-LINK Communication status indicator
LED4 TCC-LINK Communication error indicator
LED5 Test indicator
ON ON
ON ON
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TCS-NET Relay Interface Installation Manual
7 Test run
�Before starting test run
Complete the air conditioner test run.
Turn on the power of the TCS-NET Relay Interface after all cable connections and settings are completed.
Then turn on power of the BACnet Server.
�Test run
Check the TCC-LINK and RS-485 communication status of the TCS-NET Relay Interface by checking the blinking
of the LEDs.
Trademarks
• BACnet is a registered trademark of ASHRAE (American Society of Heating, Refrigerating and Air-Conditioning
Engineers, Inc.).
LED Normal operation Abnormal operation
LED1 Power indicator ON OFF
LED2 RS-485 communication status indicator Blinking OFF
LED3 TCC-LINK communication status indicator Blinking OFF
LED4 TCC-LINK communication error indicator OFF ON
LED5 TEST indicator OFF ON
LED1 Power indicator
ON: While power is on
OFF: When power is not turned on
LED2 RS-485 communication status indicator
Blinking: When RS-485 communication with the host system is normal
OFF: When RS-485 communication with the host system is disabled
LED3 TCC-LINK communication status indicator
Blinking: When TCC-LINK communication with any of the air conditioners is normal
OFF: When TCC-LINK communication with all air conditioners is disabled
LED4 TCC-LINK communication error indicator
ON: This LED will be turned on, when there is no reply from the air conditioner response to
signals from the Relay Interface.
OFF: This LED will be turned off, when there is reply from the air conditioner response to signals
from the Relay Interface.
LED5 Test indicator
Not used in normal operation
Displayed only in the test mode
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TCS-NET Relay Interface Installation Manual
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Appendix 1
1
PROTOCOL IMPLEMENTATION CONFORMANCE STATEMENT
(NORMATIVE)
Model Name
BMS-STBN09UL
1 February 2012
2
ANNEX A - PROTOCOL IMPLEMENTATION CONFORMANCE STATEMENT (NORMATIVE)
BACnet Protocol Implementation Conformance Statement
Date 1 February 2012Vender Name Toshiba Carrier Corporation Product Name Toshiba BACnet Server Product Model Number BMS-STBN09ULApplication Software Version - Firmware Revision - BACnet Protocol Revision ANSI/ASHRAE Standard 135-2004
Product Description:
1. Applicable air conditioner
1) VRF System
- Super Modular Multi System - i
2) Light Commercial model
- Super Digital Inverter Series(*)
(*) TCB-PCNT31TLUL is necessary except High wall Series.
2. System Configuration
2.1 Sample Control Wiring diagram
Toshiba Products
Ethernet : BACnet IP
Building Management System
BACnet Server /BACnet Software
TCS-Net Relay Interface
Air Conditioners
3
2.2 System Configuration and Limits
Item Model Name Specification Connectable Q’ty
BACnet Server BMS-LSV6UL Hardware for BACnet Software -
BACnet Software BMS-STBN09UL Protocol transformation RS-485 to BACnet IP
One BACnet software per one BACnet Server
TCS-Net Relay Interface BMS-IFLSV4UL Protocol transformation TCC-
LINK to RS-485
Max. 8 units per one Intelligent Server Max. 64 indoor units per one Relay I/F
Indoor unit Max. 128 units per one BACnet System
BACnet Standardized Device Profile (Annex L):
BACnet Operator Workstation (B-OWS)
BACnet Building Controller (B-BC)
BACnet Advanced Application Controller (B-AAC)
BACnet Application Specific Controller (B-ASC)
BACnet Smart Sensor (B-SS)
BACnet Smart Actuator (B-SA)
List all BACnet Interoperability Building Blocks Supported (Annex K):
Data Sharing Event & Alarm Management Scheduling Trending Device & Network
Management DS-RP-B
DS-RPM-B DS-WP-B
DS-WPM-B DS-COVU-B
AE-N-B DM-DDB-B DM-DOB-B DM-DCC-B
Segmentation Capability:
Segmented requests supported Window Size
Segmented responses supported Window Size
4
Standard Object Types Supported:
Object-Type Supported DynamicallyCreatable
Dynamically Deletable
Accumulator
Analog Input
Analog Output
Analog Value
Binary Input
Binary Output
Binary Value
Calendar
Command
Device Yes N/A N/A
Event Enrollment
File
Group
Loop
Multi-state Input
Multi-state Output
Notification Class
Program
Schedule
5
Data Link Layer Options:
BACnet IP, (Annex J)
BACnet IP, (Annex J), Foreign Device
ISO 8802-3, Ethernet (Clause 7)
ANSI/ATA 878.1, 2.5 Mb. ARCNET (Clause 8)
ANSI/ATA 878.1, RS-485 ARCNET (Clause 8), baud rate(s) ____________
MS/TP master (Clause 9), baud rate(s):
MS/TP slave (Clause 9), baud rate(s):
Point-To-Point, EIA 232 (Clause 10), baud rate(s):
Point-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 Broadcast Management Device (BBMD)
Does the BBMD support registrations by Foreign Devices? Yes No
Character Sets Supported:
Indicating support for multiple character sets does not imply that they can all be supported simultaneously.
ANSI X3.4 IBM™/Microsoft™ DBCS ISO 8859-1
ISO 10646 (UCS-2) ISO 10646 (UCS-4) JIS C 6226
If this product is a communication gateway, describe the types of non-BACnet
equipment/networks(s) that the gateway supports:
____________________________________________________________________________________________
____________________________________________________________________________________________
____________________________________________________________________________________________
Appendix 2
1 /
39
1 Fe
brua
ry 2
012
BA
Cne
t Ser
ver S
oftw
are
Spec
ifica
tions
(N
etw
ork
Obj
ect a
nd V
aria
bles
Spe
cific
atio
ns)
Mod
el N
ame
BM
S-ST
BN
09U
L
BA
Cne
t are
trad
emar
ks o
r reg
iste
red
trade
mar
ks o
f Am
eric
an S
ocie
ty o
f Hea
ting,
Ref
riger
atin
g an
d A
ir-C
ondi
tioni
ng E
ngin
eers
, Inc
.
2 /
39
1 Fe
brua
ry 2
012
1. G
EN
ER
AL
OU
TLIN
E 3
1.1
APP
LIC
ABLE
AIR
CO
ND
ITIO
NE
R
3 1.
2 SY
STE
M C
ON
FIG
UR
ATIO
N
4
2 C
OM
MU
NIC
ATIO
N P
RO
TOC
OL
SPE
CIF
ICAT
ION
5
3. O
BJE
CT
LIST
6
4. O
BJE
CT
INFO
RM
ATIO
N
7
4.1
GAT
EW
AY D
EV
ICE
7 4.
2 O
N /
OFF
STA
TUS
MO
NIT
OR
10
4.
3 O
N /
OFF
STA
TUS
CO
NTR
OL
12
4.4
OPE
RAT
ION
MO
DE
MO
NIT
OR
14
4.5
OPE
RAT
ION
MO
DE
CO
NTR
OL
16
4.6
FAN
SPE
ED
MO
NIT
OR
18
4.
7 FA
N S
PEE
D C
ON
TRO
L 20
4.
8 LO
UV
ER M
ON
ITO
R 22
4.
9 LO
UV
ER C
ON
TRO
L 24
4.
10 S
ET
TEM
PERA
TUR
E M
ON
ITO
R 26
4.
11 S
ET
TEM
PERA
TUR
E C
ON
TRO
L 28
4.
12 R
OO
M T
EM
PER
ATU
RE
30
4.
13 P
ER
MIT
/ PR
OH
IBIT
OF
LOC
AL
OPE
RAT
ION
MO
NIT
OR
32
4.
14 P
ER
MIT
/ PR
OH
IBIT
OF
LOC
AL
OPE
RAT
ION
CO
NTR
OL
34
4.15
ER
RO
R S
TATU
S 36
4.
16 E
RR
OR
CO
DE
38
3 /
39
1 Fe
brua
ry 2
012
1. G
ener
al O
utlin
e Th
is d
ocum
ent i
s ap
plie
d to
the
com
mun
icat
ion
spec
ifica
tions
of B
AC
net S
oftw
are
(Mod
el N
ame:
BM
S-S
TBN
09U
L).
1.1
App
licab
le a
ir co
nditi
oner
1) V
RF
Sys
tem
- S
uper
Mod
ular
Mul
ti S
yste
m -
i (S
MM
S-i)
2) L
ight
Com
mer
cial
mod
el
- Sup
er D
igita
l Inv
erte
r Ser
ies(
*)
(SD
I) (*
) -
TC
B-P
CN
T31T
LUL
is n
eces
sary
exc
ept H
igh
wal
l Ser
ies.
4 /
39
1 Fe
brua
ry 2
012
1.2
Sys
tem
Con
figur
atio
n 1.
2.1
Sam
ple
Con
trol W
iring
dia
gram
1.
2.2
Sys
tem
Con
figur
atio
n an
d Li
mits
Item
M
odel
Nam
e S
peci
ficat
ion
Con
nect
able
Q’ty
N
ote
BA
Cne
t Ser
ver
BM
S-L
SV
6UL
Har
dwar
e fo
r BAC
net S
oftw
are
-
BA
Cne
t Sof
twar
e B
MS
-STB
N09
UL
Pro
toco
l tra
nsfo
rmat
ion
RS
-485
to B
AC
net I
P
One
BA
Cne
t sof
twar
e pe
r one
BA
Cne
t Ser
ver
TCS
-Net
Rel
ay In
terfa
ce
BM
S-IF
LSV
4UL
Pro
toco
l tra
nsfo
rmat
ion
TCC
-LIN
K to
RS
-485
M
ax. 8
uni
ts p
er o
ne B
AC
net S
erve
r M
ax. 6
4 in
door
uni
ts p
er o
ne R
elay
I/F
Indo
or u
nit
Max
. 128
uni
ts p
er o
ne B
AC
net S
erve
r
5 /
39
1 Fe
brua
ry 2
012
2 C
omm
unic
atio
n Pr
otoc
ol S
peci
ficat
ion
2.1
Pro
toco
l Out
line
- BAC
net/I
P
- AN
SI/A
SH
RAE
135
-200
4 - U
DP
/IP
2.2
Eth
erne
t Hea
der
- 10B
ASE
-T /
100B
ASE
-T
2.3
IP H
eade
r
- P
rivat
e A
ddre
ss o
f Cla
ss C
(exc
ept b
etw
een
192,
168,
0,0
and
192.
168.
0.25
5)
- Sub
net M
ask
255.
255.
255.
0 2.
4 U
DP
Hea
der
- Uni
cast
/ B
road
cast
- P
ort 4
7808
(0xB
AC
0)
2.5
BV
LL H
eade
r
- B
VLL
Typ
e(O
ne O
ctet
)
0x
81 (
BVL
C to
BAC
net/I
P)
- BV
LC F
unct
ion(
One
Oct
et)
0x
0A (U
nica
st)
0x0B
(Bro
adca
st)
2.6
NP
CI
- Ver
sion
0x01
- C
ontro
l
0x
04 (W
ith a
resp
onse
mes
sage
)
0x00
(With
out a
resp
onse
mes
sage
) 2.
7 AP
DU
- B
ased
on
AN
SI/A
SH
RA
E 1
35-2
004
2.8
UD
P H
eade
r
- T
he in
stan
ce n
umbe
r of a
Dev
ice
obje
ct
Th
is n
umbe
r dep
end
on L
SB
1By
te o
f IP
Add
ress
- S
egm
enta
tion
Tr
ansm
issi
on a
nd re
cept
ion
are
not s
uppo
rted.
- M
ax A
PD
U L
engt
h
10
24 o
ctet
(Rec
eive
and
Tra
nsm
it)
- Ven
der I
D
12
9 (T
oshi
ba C
arrie
r Cor
pora
tion)
2.
9 N
etw
ork
Opt
ions
- B
AC
net/I
P B
road
cast
Man
agem
ent D
evic
e (B
BM
D) F
unct
ion
N
ot s
uppo
rted
- Reg
istra
tion
by F
orei
gn D
evic
es
Not
sup
porte
d
6 /
39
1 Fe
brua
ry 2
012
3. O
bjec
t Lis
t
Obj
ect N
ame
Obj
ect T
ype
Obj
ect T
ype
(10b
it)
Equi
pmen
t ca
tego
ry
(5Bi
t)
Equ
ipm
ent
Num
ber
(1B
yte)
Inst
ance
N
umbe
r (1
Byt
e)
Obj
ect I
D
(4B
yte)
Va
lue
Gat
eway
Dev
ice
Dev
ice
Obj
ect(8
) 8
0000
0 0
IP a
ddre
ss
0x02
0***
*
ON
/OFF
Sta
tus
Mon
itor
Bin
ary
Inpu
t Obj
ect(3
) 3
0000
0 FC
U(n
) 1-1
28
0x02
0x
00C
0xx0
2 S
tart/
Sto
p
Con
trol
Bina
ry O
utpu
t Obj
ect(4
) 4
0000
0 FC
U(n
) 1-1
28
0x82
0x
0100
xx82
S
tart/
Sto
p
Ope
ratio
n M
ode
Mon
itor
Mul
ti-st
ate
Inpu
t Obj
ect(1
3)
13
0000
0 FC
U(n
) 1-1
28
0x03
0x
0340
xx03
H
eat/C
ool/F
an/D
ry/A
uto
Con
trol
Mul
ti-st
ate
Out
put O
bjec
t(14)
14
00
000
FCU
(n) 1
-128
0x
83
0x03
80xx
83
Hea
t/Coo
l/Fan
/Dry
/Aut
o
Fan
Spee
d
Mon
itor
Mul
ti-st
ate
Inpu
t Obj
ect(1
3)
13
0000
0 FC
U(n
) 1-1
28
0x05
0x
0340
xx05
S
top
/ Aut
o / H
H /
H /
L / L
L
Con
trol
Mul
ti-st
ate
Out
put O
bjec
t(14)
14
00
000
FCU
(n) 1
-128
0x
85
0x03
80xx
85
Sto
p / A
uto
/ HH
/ H
/ L
/ LL
Louv
er
Mon
itor
Mul
ti-st
ate
Inpu
t Obj
ect(1
3)
13
0000
0 FC
U(n
) 1-1
28
0x07
0x
0340
xx07
S
top
/Sw
ing
/ F1
/ F2
/ F3
/ F4
/ F5
Con
trol
Mul
ti-st
ate
Out
put O
bjec
t(14)
14
00
000
FCU
(n) 1
-128
0x
87
0x03
80xx
87
Sto
p /S
win
g / F
1 / F
2 / F
3 / F
4 / F
5
Set
Tem
pera
ture
Mon
itor
Ana
log
Inpu
t Obj
ect(0
) 0
0000
0 FC
U(n
) 1-1
28
0x04
0x
0000
xx04
Fr
om 1
8.0
to 2
9.0
( ℃)
From
64.
0 to
84.
0 (°
F)
Con
trol
Ana
log
Out
put O
bjec
t(1)
1 00
000
FCU
(n) 1
-128
0x
84
0x00
40xx
84
From
18.
0 to
29.
0 ( ℃
) Fr
om 6
4.0
to 8
4.0
(°F)
Roo
m T
empe
ratu
re
Ana
log
Inpu
t Obj
ect(0
) 0
0000
0 FC
U(n
) 1-1
28
0x08
0x
0000
xx08
Fr
om -3
9.0
to 1
50.0
( ℃)
From
-38.
2 to
302
.0 (°
F)
Per
mit
/ P
rohi
bit
of
Loca
l
Mon
itor
Mul
ti-st
ate
Inpu
t Obj
ect(1
3)
13
0000
0 FC
U(n
) 1-1
28
0x09
0x
0340
xx09
- S
tart/
Stop
- O
pera
tion
Mod
e - T
empe
ratu
re S
ettin
g
Con
trol
Mul
ti-st
ate
Out
put O
bjec
t(14)
14
00
000
FCU
(n) 1
-128
0x
89
0x03
80xx
89
- Sta
rt/St
op
- Ope
ratio
n M
ode
- Tem
pera
ture
Set
ting
Err
or s
tatu
s B
inar
y In
put O
bjec
t(3)
3 00
000
FCU
(n) 1
-128
0x
40
0x00
C0x
x40
Err
or /
No
Err
or
Err
or C
ode
Mul
ti-st
ate
Inpu
t Obj
ect(1
3)
13
0000
0 FC
U(n
) 1-1
28
0x01
0x
0340
xx01
Fr
om 0
x00
to 0
xFF
7 /
39
1 Fe
brua
ry 2
012
4. O
bjec
t Inf
orm
atio
n
4.1
Gat
eway
Dev
ice
N
ame
Dat
a O
bjec
t Typ
e 8
Equi
pmen
t Cat
egor
y 00
00
Equi
pmen
t Num
ber
0 In
stan
ce N
umbe
r IP
Add
ress
O
bjec
t Typ
e D
evic
e O
bjec
t
Pro
perty
Iden
tifire
Pr
oper
ty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Stat
usC
hang
eR
emar
ks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0x
c4)
‘**
**’ :
Inst
ance
Num
ber
Dev
ice
obje
ct
0x02
00**
**
Obj
ect N
ame(
77)
Cha
ract
er s
tring
R
A
pplic
atio
n Ta
g ch
arac
ter s
tring
(0x
750E
)
S
tring
“A
C_C
ON
TRO
LLE
R“
Obj
ect T
ype(
79)
BA
Cne
t Obj
ect T
ype
R
App
licat
ion
Tag
enum
erat
ed(0
x91)
Dev
ice(
8)
Dev
ice
obje
ct
0x08
Sys
tem
Sta
tus(
112)
B
AC
net D
evic
e St
atus
R
*
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
valu
e O
PER
ATIO
NA
L0x
00N
ON
_ O
PER
ATIO
NA
L 0x
04
Vend
er N
ame(
121)
C
hara
cter
stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0x
750F
)
va
lue
Tosh
iba
Car
rier C
orp.
Ve
nder
Id
entif
ier(
120)
U
nsig
ned
R
App
licat
ion
Tag
Uns
igne
d(0x
21)
valu
e 0x
81
Mod
el N
ame(
70)
Cha
ract
er s
tring
R
A
pplic
atio
n Ta
g ch
arac
ter s
tring
va
lue
BMS
-STB
N09
UL
Firm
war
e R
evis
ion(
44)
Cha
ract
er s
tring
R
A
pplic
atio
n Ta
g ch
arac
ter s
tring
va
lue
*.**.
**
App
licat
ion
Sof
twar
e Ve
rsio
n(12
) C
hara
cter
stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng
valu
e *.*
*.**
P
roto
col
Vers
ion(
98)
Uns
igne
d R
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
va
lue
0x01
P
roto
col
Rev
isio
n(13
9)
Uns
igne
d R
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
va
lue
0x04
8 /
39
1 Fe
brua
ry 2
012
Pro
perty
Iden
tifire
Pr
oper
ty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Pro
toco
l S
ervi
ce
Sup
porte
d(97
) B
AC
net
Ser
vice
S
uppo
rted
R
App
licat
ion
Tag
Bit s
tring
6By
te
valu
e
Firs
t Byt
e 0x
00
Afte
r the
sec
ond
Byt
e60
0BC
83C
E0S
ervi
ce N
ame
Ac
know
ledg
emen
tAla
rm
N/A
co
nfirm
edC
OV
Not
ifica
tion
✓
conf
irmed
Eve
ntN
otifi
catio
n ✓
ge
tAla
rmSu
mm
ary
N/A
ge
tEnr
ollm
entS
umm
ary
N/A
su
bscr
iveC
OV
N/A
at
mic
Rea
dFile
N
/A
atm
icW
riteF
ile
N/A
ad
dLis
tEle
men
tN
/Are
mov
eLlis
tEle
men
t N
/A
crea
teO
bjec
t N
/A
dele
teO
bjec
t N
/A
read
Pro
perty
✓
re
adP
rope
rtyC
ondi
tiona
l N
/A
read
Pro
perty
Mul
tiple
✓
w
riteP
rope
rty
✓
writ
ePro
perty
Mul
tiple
✓
de
vice
Com
mun
ucat
ionC
ontro
l ✓
co
nfirm
edP
rivat
eTra
nsfe
r N
/A
conf
irmed
Text
Mes
sage
N
/A
rein
itial
izeD
evic
e ✓
vt
Ope
n N
/Avt
Clo
se
N/A
vt
Dat
a N
/A
Aith
rntic
ate
N/A
re
ques
tKey
N
/A
i-Am
✓
i-H
ave
✓
unco
nfirm
edC
OV
notif
icat
ion
✓
unco
nfirm
edE
vent
Not
ifica
tion
✓
unco
nfirm
edP
rivat
eTra
nsfe
r N
/A
unco
nfirm
edTe
xtM
essa
geN
/Atim
eSyn
cron
izat
ion
✓
Who
-Has
✓
W
ho-Is
✓
R
eadR
ange
N
/A
utcT
imeS
yncr
oniz
atio
nN
/Alif
eSaf
tyO
pera
tion
N/A
su
bscr
ibeC
OV
Pro
perty
N
/A
getE
vent
Info
rmat
ion
N/A
9 /
39
1 Fe
brua
ry 2
012
Pro
perty
Iden
tifire
Pr
oper
ty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Pro
toco
l O
bjec
t Ty
pes
Sup
porte
d(96
)
Pro
toco
l O
bjec
t Ty
pes
Sup
porte
d R
App
licat
ion
Tag
Bit
strin
g 5B
yte
valu
e
Firs
t Byt
e 0x
07
Afte
r the
sec
ond
Byt
e 0x
D88
7000
0 O
bjec
t Typ
e
Ana
log-
inpu
t ✓
A
nalo
g-ou
tput
✓
A
nalo
g-va
lue
N/A
Bi
nary
-inpu
t ✓
B
inar
y-ou
tput
✓
B
inar
y-va
lue
N/A
C
alen
dar
N/A
C
omm
and
N/A
D
evic
e ✓
E
vent
-enr
ollm
ent
N/A
fil
e N
/A
Gro
up
N/A
Lo
op
N/A
M
ulti-
stat
e-in
put
✓
Mul
ti-st
ate-
outp
ut
✓
Not
ifica
tion-
clas
s ✓
P
rogr
am
N/A
S
ched
ule
N/A
Av
erag
e N
/A
Mul
ti-st
ate-
valu
e N
/A
Tren
d-lo
g N
/A
Life
-saf
ety-
poin
t N
/A
Life
-saf
ety-
zone
N
/A
Acc
umul
ator
N
/A
Pul
se-c
onve
rter
N/A
Obj
ect L
ist(7
6)
BA
Cne
tAR
RAY
[N]o
f B
AC
netO
bjec
tIden
tifie
r R
*
A
pplic
atio
n Ta
g [0
]:Uns
igne
d(0x
22)
[1-N
]: ob
ject
iden
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(0xc
4)
valu
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]:num
ber o
f obj
ects
(N)
[1-N
]: ob
ject
iden
tifire
M
AX
_AP
DU
le
ngth
S
uppo
rted(
62)
Uns
igne
d R
A
pplic
atio
n Ta
g U
nsig
ned(
0x22
)
va
lue
1024
Byt
e(0x
0400
) S
egm
enta
tion
Sup
porte
d(10
7)
BA
Cne
t Seg
men
tatio
n R
A
pplic
atio
n Ta
g E
num
erat
ed(0
x91)
va
lue
No-
segm
enta
tion(
0x03
)
Loca
l Tim
e(57
) Ti
me
R
*
App
licat
ion
Tag
Tim
e(0x
B4)
va
lue
Hou
r, M
inut
e, S
econ
d,
a hu
ndre
dth
of a
sec
ond
is “0
”
Loca
l Dat
e(56
) D
ate
R
*
App
licat
ion
Tag
Dat
e(0x
A4)
va
lue
Year
, Mon
th, D
ay, a
day
of t
he w
eek
APD
U T
imeo
ut(1
1)
Uns
igne
d R
A
pplic
atio
n Ta
g U
nsig
ned1
(0x2
1)
valu
e 0m
sec(
0x00
) N
umbe
r of
AP
DU
R
etrie
s(73
) U
nsig
ned
R
App
licat
ion
Tag
Uns
igne
d1(0
x21)
va
lue
0x00
D
evic
e_A
ddre
ss_B
ind
ing(
30)
List
ofB
AC
netA
ddre
ssB
ind
ing
R
*
App
licat
ion
Tag
-
va
lue
-(em
pty:
no
devi
ce)
Dat
abas
e R
evis
ion(
155)
U
nsig
ned
R
App
licat
ion
Tag
Uns
igne
d(0x
21)
valu
e 0x
00
10 /
39
1 Fe
brua
ry 2
012
4.2
ON
/ O
FF s
tatu
s M
onito
r
Nam
e D
ata
Obj
ect T
ype
3 E
quip
men
t Cat
egor
y 00
00
Equ
ipm
ent N
umbe
r Fr
om 1
to 1
28
Inst
ance
Num
ber
0x02
O
bjec
t Typ
e B
inar
y In
put O
bjec
t
Pro
perty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0x
C4
App
licat
ion
Tag
obje
ct id
entif
ire(0x
c4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
bi
nary
inpu
t obj
ect
0x00
C0*
*02
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
A
pplic
atio
n Ta
g ch
arac
ter s
tring
(0x
751A
)
***’
: air
cond
ition
ing
num
ber
1 –
128
S
tring
“O
N/O
FF_s
tatu
s_M
onito
r_**
*“
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
B
inar
y In
put(3
) an
alog
inpu
t obj
ect
0x03
Pre
sent
val
ue(8
5)
BA
Cne
tBin
aryP
V
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
in
trins
ic
repo
rting
Th
is
prop
erty
is
w
ritab
le
whe
n O
ut_O
f_Se
rvic
e is
TR
UE
Valu
e IN
ACTI
VE
0x00
AC
TIV
E 0x
01
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OVE
RR
IDD
EN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e N
OR
MA
L 0x
00
FAU
LT
0x01
O
FFN
OR
MAL
0x
02
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Bool
ean(
0x1x
)
W
hen
this
pr
oper
ty
is
TRU
E,
Pre
sent
_Val
ue a
re d
ecou
pled
from
the
inpu
t Va
lue
true
0x11
fa
lse
0x10
Pol
arity
(84)
B
AC
netP
olar
ity
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e N
OR
MA
L(0x
00)
11 /
39
1 Fe
brua
ry 2
012
Pro
perty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Tim
e_D
elay
(113
) U
nsig
ned
R
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
0x00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x22
A
pplic
atio
n Ta
g U
nsig
ned(
0x22
)
‘**’
: ai
r co
nditi
onin
g nu
mbe
r 0x
01 –
0x
80
Valu
e 0x
**02
Ala
rm_V
alue
(6)
BA
Cne
tBin
aryP
V
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e AC
TIV
E(0
x01)
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 1
b6(to
_fau
lt)
1 b5
(to_n
orm
al)
1
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 0
b6(to
_fau
lt)
0 b5
(to_n
orm
al)
0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
12 /
39
1 Fe
brua
ry 2
012
4.3
ON
/ O
FF s
tatu
s C
ontro
l
Nam
e D
ata
Obj
ect T
ype
4 E
quip
men
t Cat
egor
y 00
00
Equ
ipm
ent N
umbe
r Fr
om 1
to 1
28
Inst
ance
Num
ber
0x82
O
bjec
t Typ
e Bi
nary
Out
put O
bjec
t
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0x
C4
App
licat
ion
Tag
obje
ct id
entif
ire(0x
c4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
bi
nary
out
put o
bjec
t 0x
0100
**82
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
A
pplic
atio
n Ta
g ch
arac
ter s
tring
(0x7
51A)
***’
: air
cond
ition
ing
num
ber
1 –
128
S
tring
“O
N/O
FF_s
tatu
s_C
ontro
l_**
* “
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x
91)
B
inar
y O
utpu
t(4)
anal
og in
put o
bjec
t 0x
04
Pre
sent
val
ue(8
5)
BA
Cne
tBin
aryP
V
W
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0x
91)
Valu
e IN
AC
TIV
E 0x
00
AC
TIVE
0x
01
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OV
ER
RID
DEN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0x
91)
Valu
e N
OR
MA
L 0x
00
FAU
LT
0x01
O
FFN
OR
MAL
0x
02
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Boo
lean
(0x
1x)
W
hen
this
pr
oper
ty
is
TRU
E,
Pre
sent
_Val
ue a
re d
ecou
pled
from
the
outp
ut
Valu
e tru
e 0x
11
fals
e 0x
10
Pol
arity
(84)
B
AC
netP
olar
ity
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x
91)
Valu
e N
OR
MA
L(0x
00)
Prio
rity_
Arra
y(87
) B
AC
netP
riorit
yArra
y R
*
*0x
91
App
licat
ion
Tag
enum
erat
ed(0x
91)
Valu
e ar
ray[
1]-[1
6]
Rel
inqu
ish_
Def
ault(
104)
B
AC
netB
inar
yPV
W
*
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x
91)
Valu
e IN
AC
TIV
E 0x
00
AC
TIVE
0x
01
13 /
39
1 Fe
brua
ry 2
012
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Tim
e_D
elay
(113
) U
nsig
ned
R
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
60s(
0x3C
)
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x
22
App
licat
ion
Tag
Uns
igne
d(0x
22)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
Va
lue
0x**
82
Feed
back
_Val
ue(4
0)
BA
Cne
tBin
aryP
V
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0x
91)
Valu
e IN
AC
TIV
E 0x
00
AC
TIVE
0x
01
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 0
b6(to
_fau
lt)
0 b5
(to_n
orm
al)
0
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 0
b6(to
_fau
lt)
0 b5
(to_n
orm
al)
0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x
91)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
14 /
39
1 Fe
brua
ry 2
012
4.4
Ope
ratio
n m
ode
Mon
itor
N
ame
Dat
a O
bjec
t Typ
e 13
Eq
uipm
ent C
ateg
ory
0000
Eq
uipm
ent N
umbe
r Fr
om 1
to 1
28
Inst
ance
Num
ber
0x03
O
bjec
t Typ
e M
ulti-
Stat
e In
put O
bjec
t
Pro
perty
Iden
tifire
Pr
oper
ty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0xC
4A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0x
c4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
m
ulti-
stat
e in
put o
bjec
t 0x
0340
**03
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0x
751B
)
***’
: air
cond
ition
ing
num
ber
1 –
128
S
tring
“Ope
ratio
n_m
ode_
Mon
itor_
***“
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Mul
ti-S
tate
Inpu
t(13)
M
ulti-
Sta
te In
put o
bjec
t 0x
0D
Pre
sent
val
ue(8
5)
Uns
igne
d W
*
0x44
App
licat
ion
Tag
enum
erat
ed(0
x91)
intri
nsic
re
porti
ng
This
pr
oper
ty
is
writ
able
w
hen
Out
_Of_
Serv
ice
is T
RU
E Va
lue
Hea
ting
0x01
C
oolin
g 0x
02
Fan
0x03
D
ry
0x04
Au
to
0x05
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OVE
RR
IDD
EN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e N
OR
MA
L 0x
00
FAU
LT
0x01
O
FFN
OR
MAL
0x
02
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Bool
ean(
0x1x
)
W
hen
this
pr
oper
ty
is
TRU
E,
Pre
sent
_Val
ue a
re d
ecou
pled
from
the
inpu
t Va
lue
true
0x11
fa
lse
0x10
N
umbe
r_O
f_S
tate
s(7
4)
Uns
igne
d R
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e 0x
05
15 /
39
1 Fe
brua
ry 2
012
Pro
perty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Tim
e_D
elay
(113
) U
nsig
ned
R
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
0x00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x22
A
pplic
atio
n Ta
g U
nsig
ned(
0x22
)
‘**’
: ai
r co
nditi
onin
g nu
mbe
r 0x
01 –
0x
80
Valu
e 0x
**03
Ala
rm_V
alue
s(7)
Li
st o
f Uns
igne
d R
*
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x91
)
Va
lue
1,2,
3,4,
5
Faul
t_Va
lues
(39)
Li
st o
f Uns
igne
d R
*
A
pplic
atio
n Ta
g N
ULL
(0x0
0)
Valu
e N
ULL
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 1
b6(to
_fau
lt)
1 b5
(to_n
orm
al)
1
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
B
itStri
ng
b7(to
_offn
orm
al)
0 b6
(to_f
ault)
0
b5(to
_nor
mal
) 0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
16 /
39
1 Fe
brua
ry 2
012
4.5
Ope
ratio
n m
ode
Con
trol
Nam
e D
ata
Obj
ect T
ype
14
Equi
pmen
t Cat
egor
y 00
00
Equi
pmen
t Num
ber
From
1 to
128
In
stan
ce N
umbe
r 0x
83
Obj
ect T
ype
Mul
ti-S
tate
Out
put O
bjec
t
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0xC
4A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0x
c4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
m
ulti-
stat
e ou
tput
obj
ect
0x03
80**
83
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0x
751B
)
***’
: air
cond
ition
ing
num
ber
1 –
128
S
tring
“O
pera
tion_
mod
e_C
ontro
l_**
*“
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Mul
ti-S
tate
Out
put(1
4)
Mul
ti-S
tate
Out
put o
bjec
t0x
0E
Pre
sent
val
ue(8
5)
Uns
igne
d W
*
0x21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e
Hea
ting
0x01
C
oolin
g 0x
02
Fan
0x03
D
ry
0x04
Au
to
0x05
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OVE
RR
IDD
EN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e N
OR
MA
L 0x
00
FAU
LT
0x01
O
FFN
OR
MAL
0x
02
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Bool
ean(
0x1x
)
W
hen
this
pr
oper
ty
is
TRU
E,
Pre
sent
_Val
ue a
re d
ecou
pled
from
the
outp
ut
Valu
e tru
e 0x
11
fals
e 0x
10
Num
ber_
Of_
Sta
tes(
74)
Uns
igne
d R
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e 0x
05
Prio
rity_
Arra
y(87
) B
AC
netP
riorit
yArra
y R
*
*0x
91
App
licat
ion
Tag
enum
erat
ed(0x
91)
Valu
e ar
ray[
1]-[1
6]
Rel
inqu
ish_
Def
ault(
104)
U
nsig
ned
W
*
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e
Hea
ting
0x01
C
oolin
g 0x
02
Fan
0x03
D
ry
0x04
A
uto
0x05
17 /
39
1 Fe
brua
ry 2
012
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Tim
e_D
elay
(113
) U
nsig
ned
R
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
0x00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x
22
App
licat
ion
Tag
Uns
igne
d(0x
22)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
Va
lue
0x**
83
Feed
back
_Val
ue(4
0)
Uns
igne
d R
0x21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e
Hea
ting
0x01
C
oolin
g 0x
02
Fan
0x03
Dry
0x
04
Aut
o 0x
05
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 0
b6(to
_fau
lt)
0 b5
(to_n
orm
al)
0
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
B
itStri
ng
b7(to
_offn
orm
al)
0 b6
(to_f
ault)
0
b5(to
_nor
mal
) 0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x
91)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
18 /
39
1 Fe
brua
ry 2
012
4.6
Fan
spee
d M
onito
r
Nam
e D
ata
Obj
ect T
ype
13
Equi
pmen
t Cat
egor
y 00
00
Equi
pmen
t Num
ber
From
1 to
128
In
stan
ce N
umbe
r 0x
05
Obj
ect T
ype
Mul
ti-St
ate
Inpu
t Obj
ect
Pro
perty
Iden
tifire
Pr
oper
ty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0xC
4A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0x
c4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
m
ulti-
stat
e in
put o
bjec
t 0x
0340
**05
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0x
7516
)
**
*’ : a
ir co
nditi
onin
g nu
mbe
r 1
– 1
28
Stri
ng“F
an_s
peed
_Mon
itor_
*** “
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Mul
ti-S
tate
Inpu
t(13)
M
ulti-
Sta
te In
put o
bjec
t 0x
0D
Pre
sent
val
ue(8
5)
Uns
igne
d R
*
0x21
App
licat
ion
Tag
Uns
igne
d(0x
21)
intri
nsic
re
porti
ng
This
pr
oper
ty
is
writ
able
w
hen
Out
_Of_
Serv
ice
is T
RU
E Va
lue
Stop
0x
01
Auto
0x
02
HH
0x
03
H
0x04
L
0x05
LL
0x
06
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OVE
RR
IDD
EN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e N
OR
MA
L 0x
00
FAU
LT
0x01
O
FFN
OR
MAL
0x
02
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Bool
ean(
0x1x
)
W
hen
this
pr
oper
ty
is
TRU
E,
Pre
sent
_Val
ue a
re d
ecou
pled
from
the
inpu
t Va
lue
true
0x11
fa
lse
0x10
N
umbe
r_O
f_S
tate
s(7
4)
Uns
igne
d R
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e 0x
06
19 /
39
1 Fe
brua
ry 2
012
Pro
perty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Tim
e_D
elay
(113
) U
nsig
ned
R
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
0x00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x22
A
pplic
atio
n Ta
g U
nsig
ned(
0x22
)
‘**’
: ai
r co
nditi
onin
g nu
mbe
r 0x
01 –
0x
80
Valu
e 0x
**05
Ala
rm_V
alue
s(7)
Li
st o
f Uns
igne
d R
*
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e 1,
2,3,
4,5,
6
Faul
t_Va
lues
(39)
Li
st o
f Uns
igne
d R
*
A
pplic
atio
n Ta
g N
ULL
(0x0
0)
Valu
e N
ULL
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 1
b6(to
_fau
lt)
1 b5
(to_n
orm
al)
1
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
B
itStri
ng
b7(to
_offn
orm
al)
0 b6
(to_f
ault)
0
b5(to
_nor
mal
) 0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
20 /
39
1 Fe
brua
ry 2
012
4.7
Fan
spee
d C
ontro
l N
ame
Dat
a O
bjec
t Typ
e 14
Eq
uipm
ent C
ateg
ory
0000
Eq
uipm
ent N
umbe
r Fr
om 1
to 1
28
Inst
ance
Num
ber
0x85
O
bjec
t Typ
e M
ulti-
Sta
te O
utpu
t Obj
ect
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0xC
4A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0x
c4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
m
ulti-
stat
e ou
tput
obj
ect
0x03
80**
85
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0x
7516
)
**
*’ : a
ir co
nditi
onin
g nu
mbe
r 1
– 1
28
Stri
ng
“Fan
_spe
ed_C
ontro
l_**
* “
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Mul
ti-S
tate
Out
put(1
4)
Mul
ti-S
tate
Out
put o
bjec
t0x
0E
Pre
sent
val
ue(8
5)
Uns
igne
d W
*
0x21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e
Stop
0x
01
Auto
0x
02
HH
0x
03
H
0x04
L
0x05
LL
0x06
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OVE
RR
IDD
EN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e N
OR
MA
L 0x
00
FAU
LT
0x01
O
FFN
OR
MAL
0x
02
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Bool
ean(
0x1x
)
W
hen
this
pr
oper
ty
is
TRU
E,
Pre
sent
_Val
ue a
re d
ecou
pled
from
the
outp
ut
Valu
e tru
e 0x
11
fals
e 0x
10
Num
ber_
Of_
Sta
tes(
74)
Uns
igne
d R
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e 0x
05
Prio
rity_
Arra
y(87
) B
AC
netP
riorit
yArra
y R
*
*
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Valu
e A
rray[
1]-[1
6]
21 /
39
1 Fe
brua
ry 2
012
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Rel
inqu
ish_
Def
ault(
104)
U
nsig
ned
W
*
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e
Sto
p 0x
01
Aut
o 0x
02H
H
0x03
H
0x
04
L 0x
05
LL
0x06
Tim
e_D
elay
(113
) U
nsig
ned
R
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Valu
e 0x
00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x
22
App
licat
ion
Tag
Uns
igne
d(0x
22)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
Va
lue
0x**
85
Feed
back
_Val
ue(4
0)
Uns
igne
d R
0x21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e
Sto
p 0x
01
Aut
o 0x
02
HH
0x
03
H
0x04
L
0x05
LL
0x06
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 0
b6(to
_fau
lt)
0 b5
(to_n
orm
al)
0
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
B
itStri
ng
b7(to
_offn
orm
al)
0 b6
(to_f
ault)
0
b5(to
_nor
mal
) 0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
22 /
39
1 Fe
brua
ry 2
012
4.8
Louv
er M
onito
r
Nam
e D
ata
Obj
ect T
ype
13
Equi
pmen
t Cat
egor
y 00
00
Equi
pmen
t Num
ber
From
1 to
128
In
stan
ce N
umbe
r 0x
07
Obj
ect T
ype
Mul
ti-St
ate
Inpu
t Obj
ect
Pro
perty
Iden
tifire
Pr
oper
ty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0xC
4A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0x
c4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
m
ulti-
stat
e in
put o
bjec
t 0x
0340
**05
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0x
7513
)
**
*’ : a
ir co
nditi
onin
g nu
mbe
r 1
– 1
28
Stri
ng
“Lou
ver_
Mon
itor_
*** “
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Mul
ti-S
tate
Inpu
t(13)
M
ulti-
Sta
te In
puto
bjec
t0x
0D
Pre
sent
val
ue(8
5)
Uns
igne
d R
*
0x21
App
licat
ion
Tag
Uns
igne
d(0x
21)
intri
nsic
re
porti
ng
This
pr
oper
ty
is
writ
able
w
hen
Out
_Of_
Serv
ice
is T
RU
E Va
lue
SWIN
G
0x01
F1
0x
02
F2
0x03
F3
0x
04
F4
0x05
F5
0x
06
Stop
0x
07
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OVE
RR
IDD
EN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e N
OR
MA
L 0x
00
FAU
LT
0x01
O
FFN
OR
MAL
0x
02
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Bool
ean(
0x1x
)
W
hen
this
pr
oper
ty
is
TRU
E,
Pre
sent
_Val
ue a
re d
ecou
pled
from
the
inpu
t Va
lue
true
0x11
fa
lse
0x10
N
umbe
r_O
f_S
tate
s(7
4)
Uns
igne
d R
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e 0x
07
23 /
39
1 Fe
brua
ry 2
012
Pro
perty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Tim
e_D
elay
(113
) U
nsig
ned
R
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
0x00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x22
A
pplic
atio
n Ta
g U
nsig
ned(
0x22
)
‘**’
: ai
r co
nditi
onin
g nu
mbe
r 0x
01 –
0x
80
Valu
e 0x
**07
Ala
rm_V
alue
s(7)
Li
st o
f Uns
igne
d R
*
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
1,2,
3,4,
5,6,
7
Faul
t_Va
lues
(39)
Li
st o
f Uns
igne
d R
*
A
pplic
atio
n Ta
g N
ULL
(0x0
0)
Valu
e N
ULL
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 1
b6(to
_fau
lt)
1 b5
(to_n
orm
al)
1
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
B
itStri
ng
b7(to
_offn
orm
al)
0 b6
(to_f
ault)
0
b5(to
_nor
mal
) 0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
24 /
39
1 Fe
brua
ry 2
012
4.9
Louv
er C
ontro
l N
ame
Dat
a O
bjec
t Typ
e 14
Eq
uipm
ent C
ateg
ory
0000
Eq
uipm
ent N
umbe
r Fr
om 1
to 1
28
Inst
ance
Num
ber
0x87
O
bjec
t Typ
e M
ulti-
Sta
te O
utpu
t Obj
ect
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0xC
4A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0x
c4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
m
ulti-
stat
e ou
tput
obj
ect
0x03
80**
87
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0x
7513
)
**
*’ : a
ir co
nditi
onin
g nu
mbe
r 1
– 1
28
Stri
ng
“Lou
ver_
Con
trol _
*** “
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Mul
ti-S
tate
Out
put(1
4)
Mul
ti-S
tate
Out
put o
bjec
t0x
0E
Pre
sent
val
ue(8
5)
Uns
igne
d W
*
0x21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e
SWIN
G
0x01
F1
0x
02
F2
0x03
F3
0x
04
F4
0x05
F5
0x06
St
op
0x07
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OVE
RR
IDD
EN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e N
OR
MA
L 0x
00
FAU
LT
0x01
O
FFN
OR
MAL
0x
02
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Bool
ean(
0x1x
)
W
hen
this
pr
oper
ty
is
TRU
E,
Pre
sent
_Val
ue a
re d
ecou
pled
from
the
outp
ut
Valu
e tru
e 0x
11
fals
e 0x
10
Num
ber_
Of_
Sta
tes(
74)
Uns
igne
d R
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e 0x
07
Prio
rity_
Arra
y(87
) B
AC
netP
riorit
yArra
y R
*
*0x
91
App
licat
ion
Tag
enum
erat
ed(0x
91)
Valu
e A
rray
[1]-[
16]
25 /
39
1 Fe
brua
ry 2
012
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Rel
inqu
ish_
Def
ault(
104)
U
nsig
ned
W
*
0x
21
Appl
icat
ion
Tag
Uns
igne
d(0x
21)
Valu
e
SWIN
G
0x01
F1
0x
02F2
0x
03
F3
0x04
F4
0x
05
F5
0x06
S
top
0x07
Tim
e_D
elay
(113
) U
nsig
ned
R
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
0x00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x
22
App
licat
ion
Tag
Uns
igne
d(0x
22)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
Va
lue
0x**
87
Feed
back
_Val
ue(4
0)
Uns
igne
d R
0x91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e
SWIN
G
0x01
F1
0x
02
F2
0x03
F3
0x
04F4
0x
05
F5
0x06
S
top
0x07
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 0
b6(to
_fau
lt)
0 b5
(to_n
orm
al)
0
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
B
itStri
ng
b7(to
_offn
orm
al)
0 b6
(to_f
ault)
0
b5(to
_nor
mal
) 0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
26 /
39
1 Fe
brua
ry 2
012
4.10
Set
tem
pera
ture
Mon
itor
N
ame
Dat
a O
bjec
t Typ
e 0
Equi
pmen
t Cat
egor
y 00
00
Equi
pmen
t Num
ber
From
1 to
128
In
stan
ce N
umbe
r 0x
04
Obj
ect T
ype
Ana
log
Inpu
t Obj
ect
Pro
perty
Iden
tifire
Pr
oper
ty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0xC
4 A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0xc
4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
A
nalo
g in
put o
bjec
t 0x
0000
**04
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0x
751c
)
***’
: air
cond
ition
ing
num
ber
1 –
128
S
tring
“Set
_tem
pera
ture
_Mon
itor_
***“
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Anal
og In
put(0
) an
alog
Inpu
t obj
ect
0x00
Pre
sent
val
ue(8
5)
RE
AL
R
*
0x
44
App
licat
ion
Tag
Rea
l(0x
44)
CO
V Th
is
prop
erty
is
w
ritab
le
whe
n O
ut_O
f_Se
rvic
e is
TR
UE
Valu
e Fr
om 1
8.0
to 2
9.0
( ℃)
From
64.
0 to
84.
0 (°
F)
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OV
ER
RID
DEN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e
NO
RM
AL
0x00
FA
ULT
0x
01
HIG
H-L
IMIT
0x
03
LOW
-LIM
IT
0x04
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Boo
lean
(0x
1x)
W
hen
this
pr
oper
ty
is
TRU
E,
Pres
ent_
Valu
e ar
e de
coup
led
from
the
inpu
t Va
lue
true
0x11
fa
lse
0x10
Uni
ts(1
17)
BA
Cne
tEng
enee
ringU
nits
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e de
gree
-Cel
sius
(62)
( ℃)
degr
ee-F
ahre
nhei
t(64)
( °F)
C
OV
_Inc
rem
ent(2
2)
RE
AL
R
0x
44
App
licat
ion
Tag
Rea
l(0x
44)
Valu
e 0.
0
27 /
39
1 Fe
brua
ry 2
012
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Tim
e_D
elay
(113
) U
nsig
ned
R
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e 0x
00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x22
A
pplic
atio
n Ta
g U
nsig
ned(
0x22
)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
Va
lue
0x**
04
Hig
h_Li
mit(
45)
RE
AL
W
0x
44
App
licat
ion
Tag
Rea
l(0x
44)
Valu
e 17
.0(℃
) 62
.0(°
F)
Low
_Lim
it(59
) R
EAL
W
0x44
A
pplic
atio
n Ta
g R
eal(
0x44
)
Valu
e 30
.0(℃
) 86
.0(°
F)
Dea
dban
d(25
) R
EAL
R
0x44
A
pplic
atio
n Ta
g R
eal(
0x44
)
Valu
e 0.
0
Lim
it_En
able
(52)
B
AC
netL
imitE
nabl
e R
0x82
A
pplic
atio
n Ta
g B
it S
tring
(0x
82)
Valu
e b7
(low
Lim
itEna
ble)
1
b6(h
ighL
imitE
nabl
e)
1
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 1
b6(to
_fau
lt)
1 b5
(to_n
orm
al)
1
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
B
itStri
ng
b7(to
_offn
orm
al)
0 b6
(to_f
ault)
0
b5(to
_nor
mal
) 0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0x
91)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
28 /
39
1 Fe
brua
ry 2
012
4.11
Set
tem
pera
ture
Con
trol
N
ame
Dat
a O
bjec
t Typ
e 1
Equi
pmen
t Cat
egor
y 00
00
Equi
pmen
t Num
ber
From
1 to
128
In
stan
ce N
umbe
r 0x
84
Obj
ect T
ype
Ana
log
Out
put O
bjec
t
Pro
perty
Iden
tifire
Pr
oper
ty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0xC
4 A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0xc
4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
A
nalo
g ou
tput
obj
ect
0x00
40**
84
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0x
751c
)
**
*’ : a
ir co
nditi
onin
g nu
mbe
r 1
– 1
28
Stri
ng
“Set
_tem
pera
ture
_Con
trol_
*** “
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Anal
og O
utpu
t(1)
anal
og In
put o
bjec
t0x
01
Pre
sent
val
ue(8
5)
RE
AL
W
*
0x
44
App
licat
ion
Tag
Rea
l(0x
44)
Valu
e Fr
om 1
8.0
to 2
9.0
( ℃)
From
64.
0 to
84.
0 (°
F)
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OV
ERR
IDD
EN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e
NO
RM
AL
0x00
FA
ULT
0x
01
HIG
H-L
IMIT
0x
03
LOW
-LIM
IT
0x04
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Boo
lean
(0x1
x)
W
hen
this
pr
oper
ty
is
TRU
E,
Pres
ent_
Valu
e ar
e de
coup
led
from
the
outp
ut
Valu
e tru
e 0x
11
fals
e 0x
10
Uni
ts(1
17)
BA
Cne
tEng
enee
ringU
nits
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e de
gree
-Cel
sius
(62)
(℃)
degr
ee-F
ahre
nhei
t(64)
( °F)
Prio
rity_
Arra
y(87
) B
AC
netP
riorit
yArra
y R
*
*0x
44
Appl
icat
ion
Tag
Rea
l(0x
44)
Valu
e
Rel
inqu
ish_
Def
ault(
104)
R
EAL
W
*
0x44
A
pplic
atio
n Ta
g R
eal(
0x44
)
Valu
e Fr
om 1
8.0
to 2
9.0
( ℃)
From
64.
0 to
84.
0 (°
F)
CO
V_I
ncre
men
t(22
) R
EAL
R
0x44
A
pplic
atio
n Ta
g R
eal(
0x44
)
Valu
e 0.
0
29 /
39
1 Fe
brua
ry 2
012
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Tim
e_D
elay
(113
) U
nsig
ned
R
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e 0x
00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x22
A
pplic
atio
n Ta
g U
nsig
ned(
0x22
)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
Va
lue
0x**
84
Hig
h_Li
mit(
45)
RE
AL
R
0x
44
App
licat
ion
Tag
Rea
l(0x
44)
Valu
e 17
.0(℃
) 62
.0(°
F)
Low
_Lim
it(59
) R
EAL
R
0x44
A
pplic
atio
n Ta
g R
eal(
0x44
)
Valu
e 30
.0(℃
) 86
.0(°
F)
Dea
dban
d(25
) R
EAL
R
0x44
A
pplic
atio
n Ta
g R
eal(
0x44
)
Valu
e 0.
0
Lim
it_En
able
(52)
B
AC
netL
imitE
nabl
e R
0x82
A
pplic
atio
n Ta
g B
it S
tring
(0x
82)
Valu
e b7
(low
Lim
itEna
ble)
1
b6(h
ighL
imitE
nabl
e)1
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 0
b6(to
_fau
lt)
0 b5
(to_n
orm
al)
0
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 0
b6(to
_fau
lt)
0 b5
(to_n
orm
al)
0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0x
91)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
30 /
39
1 Fe
brua
ry 2
012
4.12
Roo
m te
mpe
ratu
re
N
ame
Dat
a O
bjec
t Typ
e 0
Equi
pmen
t Cat
egor
y 00
00
Equi
pmen
t Num
ber
From
1 to
128
In
stan
ce N
umbe
r 0x
08
Obj
ect T
ype
Ana
log
Inpu
t Obj
ect
Pro
perty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0xC
4 A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0xc
4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
A
nalo
g in
put o
bjec
t 0x
0000
**08
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0x
7515
)
***’
: air
cond
ition
ing
num
ber
1 –
128
S
tring
“R
oom
_tem
pera
ture
_***
“
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Anal
og In
put(0
) an
alog
Inpu
t obj
ect
0x00
Pre
sent
val
ue(8
5)
RE
AL
R
*
0x
44
App
licat
ion
Tag
Rea
l(0x
44)
Th
is
prop
erty
is
w
ritab
le
whe
n O
ut_O
f_Se
rvic
e is
TR
UE
Valu
e Fr
om -3
5.0
to 9
2.5
( ℃)
From
-31.
0 to
198
.5 (°
F)
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OV
ER
RID
DEN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e
NO
RM
AL
0x00
FA
ULT
0x
01
HIG
H-L
IMIT
0x
03
LOW
-LIM
IT
0x04
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Boo
lean
(0x
1x)
W
hen
this
pr
oper
ty
is
TRU
E,
Pres
ent_
Valu
e ar
e de
coup
led
from
the
inpu
t Va
lue
true
0x11
fa
lse
0x10
Uni
ts(1
17)
BA
Cne
tEng
enee
ringU
nits
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e de
gree
-Cel
sius
(62)
(℃)
degr
ee-F
ahre
nhei
t(64)
( °F)
C
OV
_Inc
rem
ent(2
2)
RE
AL
R
0x
44
App
licat
ion
Tag
Rea
l(0x
44)
Valu
e 0.
0
31 /
39
1 Fe
brua
ry 2
012
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Tim
e_D
elay
(113
) U
nsig
ned
R
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e 0x
00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x22
A
pplic
atio
n Ta
g U
nsig
ned(
0x22
)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
Va
lue
0x**
08
Hig
h_Li
mit(
45)
RE
AL
W
0x
44
App
licat
ion
Tag
Rea
l(0x
44)
Valu
e 50
.0(℃
) 12
2.0(
°F)
Low
_Lim
it(59
) R
EAL
W
0x44
A
pplic
atio
n Ta
g R
eal(
0x44
)
Valu
e -2
0.0(℃
) -4
.0(°
F)
Dea
dban
d(25
) R
EAL
R
0x44
A
pplic
atio
n Ta
g R
eal(
0x44
)
Valu
e 0.
0
Lim
it_En
able
(52)
B
AC
netL
imitE
nabl
e R
0x82
A
pplic
atio
n Ta
g B
it S
tring
(0x
82)
Valu
e b7
(low
Lim
itEna
ble)
1
b6(h
ighL
imitE
nabl
e)1
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 1
b6(to
_fau
lt)
1 b5
(to_n
orm
al)
1
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
B
itStri
ng
b7(to
_offn
orm
al)
0 b6
(to_f
ault)
0
b5(to
_nor
mal
) 0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0x
91)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
32 /
39
1 Fe
brua
ry 2
012
4.13
Per
mit
/ Pro
hibi
t of L
ocal
Ope
ratio
n M
onito
r N
ame
Dat
a O
bjec
t Typ
e 13
Eq
uipm
ent C
ateg
ory
0000
Eq
uipm
ent N
umbe
r Fr
om 1
to 1
28
Inst
ance
Num
ber
0x09
O
bjec
t Typ
e M
ulti-
Stat
e In
put O
bjec
t
Pro
perty
Iden
tifire
Pr
oper
ty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0xC
4A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0x
c4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
m
ulti-
stat
e in
put o
bjec
t 0x
0340
**09
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0x
751C
)
***’
: air
cond
ition
ing
num
ber
1 –
128
S
tring
“P
erm
it/P
rohi
bit_
Mon
itor_
*** “
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Mul
ti-S
tate
Inpu
t(13)
M
ulti-
Sta
te In
put o
bjec
t 0x
0D
Pre
sent
val
ue(8
5)
Uns
igne
d R
*
0x21
App
licat
ion
Tag
Uns
igne
d(0x
21)
intri
nsic
re
porti
ng
This
pr
oper
ty
is
writ
able
w
hen
Out
_Of_
Serv
ice
is T
RU
E Va
lue
Pro
hibi
tion
Mod
e Te
mp
ON
/OFF
Dat
a -
- -
0x01
✓
-
- 0x
02
- ✓
-
0x03
-
- ✓
0x
04
✓
✓-
0x05
✓
-
✓
0x06
-
✓
✓
0x07
✓
✓
✓
0x
08
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OVE
RR
IDD
EN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e N
OR
MA
L 0x
00
FAU
LT
0x01
O
FFN
OR
MAL
0x
02
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Bool
ean(
0x1x
)
W
hen
this
pr
oper
ty
is
TRU
E,
Pre
sent
_Val
ue a
re d
ecou
pled
from
the
inpu
t Va
lue
true
0x11
fa
lse
0x10
N
umbe
r_O
f_S
tate
s(7
4)
Uns
igne
d R
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e 0x
08
33 /
39
1 Fe
brua
ry 2
012
Pro
perty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Tim
e_D
elay
(113
) U
nsig
ned
R
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
0x00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x22
A
pplic
atio
n Ta
g U
nsig
ned(
0x22
)
‘**’
: ai
r co
nditi
onin
g nu
mbe
r 0x
01 –
0x
80
Valu
e 0x
**09
Ala
rm_V
alue
s(7)
Li
st o
f Uns
igne
d R
*
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e 1,
2,3,
4,5,
6,7,
8
Faul
t_Va
lues
(39)
Li
st o
f Uns
igne
d R
*
A
pplic
atio
n Ta
g N
ULL
(0x0
0)
Valu
e N
ULL
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 1
b6(to
_fau
lt)
1 b5
(to_n
orm
al)
1
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
B
itStri
ng
b7(to
_offn
orm
al)
0 b6
(to_f
ault)
0
b5(to
_nor
mal
) 0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
34 /
39
1 Fe
brua
ry 2
012
4.14
Per
mit
/ Pro
hibi
t of L
ocal
Ope
ratio
n C
ontro
l
Nam
e D
ata
Obj
ect T
ype
14
Equi
pmen
t Cat
egor
y 00
00
Equi
pmen
t Num
ber
From
1 to
128
In
stan
ce N
umbe
r 0x
89
Obj
ect T
ype
Mul
ti-st
ate
Out
put O
bjec
t
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0xC
4A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0x
c4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
m
ultis
tate
out
put o
bjec
t 0x
0380
**89
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0x
751C
)
***’
: air
cond
ition
ing
num
ber
1 –
128
S
tring
“P
erm
it/P
rohi
bit_
Con
trol_
*** “
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Mul
ti-S
tate
Out
put(1
4)
Mul
ti-st
ate
Out
puto
bjec
t0x
14
Pre
sent
val
ue(8
5)
BA
Cne
tBin
aryP
V
W
*
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e
Pro
hibi
tion
Mod
e Te
mp
ON
/OFF
Dat
a -
- -
0x01
✓
-
- 0x
02
- ✓
-
0x03
-
- ✓
0x
04
✓
✓
- 0x
05
✓
- ✓
0x
06
- ✓
✓
0x
07
✓
✓
✓
0x08
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OVE
RR
IDD
EN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e N
OR
MA
L 0x
00
FAU
LT
0x01
O
FFN
OR
MAL
0x
02
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Bool
ean(
0x1x
)
W
hen
this
pr
oper
ty
is
TRU
E,
Pre
sent
_Val
ue a
re d
ecou
pled
from
the
outp
ut
Valu
e tru
e 0x
11
fals
e 0x
10
Num
ber_
Of_
Sta
tes(
74)
Uns
igne
d R
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e 0x
08
Prio
rity_
Arra
y(87
) B
AC
netP
riorit
yArra
y R
*
*0x
91
App
licat
ion
Tag
enum
erat
ed(0x
91)
Valu
e
35 /
39
1 Fe
brua
ry 2
012
Prop
erty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eA
rray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Rel
inqu
ish_
Def
ault(
104)
U
nsig
ned
W
*
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e
Pro
hibi
tion
Mod
e Te
mp
ON
/OFF
Dat
a -
- -
0x01
✓
-
- 0x
02
- ✓
-
0x03
-
- ✓
0x
04
✓
✓
- 0x
05
✓
- ✓
0x
06
- ✓
✓
0x
07
✓
✓
✓
0x08
Tim
e_D
elay
(113
) U
nsig
ned
R
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
0x00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x
22
App
licat
ion
Tag
Uns
igne
d(0x
22)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
Va
lue
0x**
89
Feed
back
_Val
ue(4
0)
Uns
igne
d R
*
0x21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e
Pro
hibi
tion
Mod
e Te
mp
ON
/OFF
Dat
a -
- -
0x01
✓
-
- 0x
02
- ✓
-
0x03
-
- ✓
0x
04
✓
✓
- 0x
05
✓
- ✓
0x
06
- ✓
✓
0x
07
✓
✓
✓
0x08
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 1
b6(to
_fau
lt)
0 b5
(to_n
orm
al)
1
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit
Stri
ng(0x
82)
B
itStri
ng
b7(to
_offn
orm
al)
0 b6
(to_f
ault)
0
b5(to
_nor
mal
) 0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x
91)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
36 /
39
1 Fe
brua
ry 2
012
4.15
Err
or s
tatu
s
Nam
e D
ata
Obj
ect T
ype
3 Eq
uipm
ent C
ateg
ory
0000
Eq
uipm
ent N
umbe
r Fr
om 1
to 1
28
Inst
ance
Num
ber
0x40
O
bjec
t Typ
e B
inar
y In
put O
bjec
t
Pro
perty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0x
C4
App
licat
ion
Tag
obje
ct id
entif
ire(0x
c4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
bi
nary
inpu
t obj
ect
0x00
C0*
*40
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
A
pplic
atio
n Ta
g ch
arac
ter s
tring
(0x
7511
)
**
*’ : a
ir co
nditi
onin
g nu
mbe
r 1
– 1
28
Stri
ng
“Erro
r_st
atus
_***
“
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
B
inar
y In
put(3
) an
alog
inpu
t obj
ect
0x03
Pre
sent
val
ue(8
5)
BA
Cne
tBin
aryP
V
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
in
trins
ic
repo
rting
This
pr
oper
ty
is
writ
able
w
hen
Out
_Of_
Serv
ice
is T
RU
E E
rror C
ode
: ple
ase
refe
r to
‘2.9
Indo
or
unit
Erro
r Cod
e’.
Valu
e N
o E
rror
0x00
Err
or
0x01
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OVE
RR
IDD
EN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e N
OR
MA
L 0x
00
FAU
LT
0x01
O
FFN
OR
MAL
0x
02
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Bool
ean(
0x1x
)
W
hen
this
pr
oper
ty
is
TRU
E,
Pre
sent
_Val
ue a
re d
ecou
pled
from
the
inpu
t Va
lue
true
0x11
fa
lse
0x10
Pol
arity
(84)
B
AC
netP
olar
ity
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e N
OR
MA
L(0x
00)
37 /
39
1 Fe
brua
ry 2
012
Pro
perty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Tim
e_D
elay
(113
) U
nsig
ned
R
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
0x00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x22
A
pplic
atio
n Ta
g U
nsig
ned(
0x22
)
‘**’
: ai
r co
nditi
onin
g nu
mbe
r 0x
01 –
0x
80
Valu
e 0x
**40
Ala
rm_V
alue
(6)
BA
Cne
tBin
aryP
V
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e er
ror(
0x01
)
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 1
b6(to
_fau
lt)
1 b5
(to_n
orm
al)
1
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
B
itStri
ng
b7(to
_offn
orm
al)
0 b6
(to_f
ault)
0
b5(to
_nor
mal
) 0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e al
arm
(0x0
0)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
38 /
39
1 Fe
brua
ry 2
012
4.16
Err
or C
ode
N
ame
Dat
a O
bjec
t Typ
e 13
Eq
uipm
ent C
ateg
ory
0000
Eq
uipm
ent N
umbe
r Fr
om 1
to 1
28
Inst
ance
Num
ber
0x01
O
bjec
t Typ
e M
ult-S
tate
Inpu
t Obj
ect
Pro
perty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Stat
us C
hang
eR
emar
ks
Obj
ect I
dent
ifire
(75)
B
AC
net O
bjec
t ID
R
0xC
4A
pplic
atio
n Ta
g ob
ject
iden
tifire
(0x
c4)
‘**
’ :
air
cond
ition
ing
num
ber
0x01
–
0x80
m
ulti-
stat
e in
put o
bjec
t 0x
0340
**01
Obj
ect N
ame(
77)
char
acte
r stri
ng
R
App
licat
ion
Tag
char
acte
r stri
ng(0
x750
F)
**
*’ : a
ir co
nditi
onin
g nu
mbe
r 1
– 1
28
Stri
ng
“Err
or_C
ode_
***“
Obj
ect T
ype(
79)
BA
Cne
tObj
ectT
ype
R
0x
91
App
licat
ion
Tag
enum
erat
ed(0x
91)
M
ulti-
Sta
te In
put(1
3)
Mul
ti-S
tate
inpu
t obj
ect
0x0D
Pre
sent
val
ue(8
5)
Uns
igne
d R
*
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Th
is
prop
erty
is
w
ritab
le
whe
n O
ut_O
f_Se
rvic
e is
TR
UE
. W
hen
is N
o Er
ror,
the
valu
e is
‘0x0
0’.
Valu
e Fr
om 0
x00
to 0
xFF
Sta
tus_
Flag
s(11
1)
BA
Cne
tSta
tusF
lags
R
*
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
IN_A
LAR
M
b6
FAU
LT
b5
OVE
RR
IDD
EN
b4
O
UT_
OF_
SER
VIC
E
Eve
nt_S
tate
(36)
B
AC
netE
vent
Sta
te
R
*
0x
91
App
licat
ion
Tag
enum
erat
ed(0
x91)
Valu
e N
OR
MA
L 0x
00
FAU
LT
0x01
O
FFN
OR
MAL
0x
02
Out
_Of_
Serv
ice(
81)
BO
OLE
AN
W
App
licat
ion
Tag
Bool
ean(
0x1x
)
W
hen
this
pr
oper
ty
is
TRU
E,
Pre
sent
_Val
ue a
re d
ecou
pled
from
the
inpu
t Va
lue
true
0x11
fa
lse
0x10
N
umbe
r_O
f_S
tate
s(7
4)
Uns
igne
d R
0x
21
App
licat
ion
Tag
Uns
igne
d(0x
21)
Valu
e 0x
FF
39 /
39
1 Fe
brua
ry 2
012
Pro
perty
Iden
tifire
P
rope
rty D
ata
Type
R
ead
Writ
e Va
riabl
eAr
ray
List
Ta
g Va
lue
Not
ice
of
Sta
tus
Cha
nge
Rem
arks
Tim
e_D
elay
(113
) U
nsig
ned
R
0x21
A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
0x00
Not
ifica
tion_
Cla
ss(1
7)
Uns
igne
d R
0x22
A
pplic
atio
n Ta
g U
nsig
ned(
0x22
)
‘**’
: ai
r co
nditi
onin
g nu
mbe
r 0x
01 –
0x
80
Valu
e 0x
**01
Ala
rm_V
alue
s(7)
Li
st o
f Uns
igne
d R
*
- A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
NU
LL
Faul
t_Va
lues
(39)
Li
st o
f Uns
igne
d R
*
- A
pplic
atio
n Ta
g U
nsig
ned(
0x21
)
Va
lue
NU
LL
Eve
nt_E
nabl
e(35
) B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
BitS
tring
b7
(to_o
ffnor
mal
) 0
b6(to
_fau
lt)
0 b5
(to_n
orm
al)
0
Ack
ed_T
rans
ition
s(0)
B
AC
netE
vent
Tran
sitio
nBits
R
0x82
App
licat
ion
Tag
Bit S
tring
(0x
82)
B
itStri
ng
b7(to
_offn
orm
al)
0 b6
(to_f
ault)
0
b5(to
_nor
mal
) 0
Not
ify_T
ype(
72)
BA
Cne
tNot
ifyTy
pe
R
0x91
A
pplic
atio
n Ta
g en
umer
ated
(0x9
1)
Valu
e ev
ent(0
x01)
Eve
nt_T
ime_
Sta
mps
(130
) B
AC
netA
RR
AY[3
]of
BA
Cne
tTim
eSta
mp
R
* *
0x
a4
App
licat
ion
Tag
Dat
e(0x
a4)
Valu
e [1
] to
_offn
orm
al d
ateT
ime
[2]
to_f
ault
date
Tim
e [3
] to
_nor
mal
dat
eTim
e
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