Transcript
ProtoNode Gateway Communication Interface Startup Guide
750-361 08/2014
TO: Owners, Operators and/or Maintenance Personnel This operating manual presents information that will help to properly operate and care for the equipment. Study its contents carefully. The unit will provide good service and continued operation if proper operating and maintenance instructions are followed. No attempt should be made to operate the unit until the principles of operation and all of the components are thoroughly understood. It is the responsibility of the owner to provide training and advice in all aspects of safety not only to his or her personnel, but to any contractors' personnel who will be servicing, repairing, or operating the equipment. Cleaver-Brooks equipment is designed and engineered to give long life and excellent service on the job. The electrical and mechanical devices supplied as part of the unit were chosen because of their known ability to perform; however, proper operating techniques and maintenance procedures must be followed at all times. Any "automatic" features included in the design do not relieve the attendant of any responsibility. Such features merely eliminate certain repetitive chores, allowing more time for the proper upkeep of equipment. It is solely the operator’s responsibility to properly operate and maintain the equipment. No amount of written instructions can replace intelligent thinking and reasoning and this manual is not intended to relieve the operating personnel of the responsibility for proper operation. On the other hand, a thorough understanding of this manual is required before attempting to operate, maintain, service, or repair this equipment. Operating controls will normally function for long periods of time and we have found that some operators become lax in their daily or monthly testing, assuming that normal operation will continue indefinitely. Malfunctions of controls lead to uneconomical operation and damage and, in most cases, these conditions can be traced directly to carelessness and deficiencies in testing and maintenance. The operation of this equipment by the owner and any operating personnel must comply with all requirements or regulations of the insurance company and/or other authority having jurisdiction. In the event of any conflict or inconsistency between such requirements and the warnings or instructions contained herein, please contact Cleaver-Brooks before proceeding.
ProtoNode Gateway RER (BACnet/N2/Modbus) and LER (LonWorks)
for interfacing Cleaver-Brooks products: Falcon Hydronic, Falcon Steam, CB780, CB120, HSC, LCS, PCS, HAWK 1000/4000/5000, HAWK Master Panel, ADAC to Building Energy Management Systems: BACnet MS/TP, BACnet/IP, Modbus/TCP, Modbus RTU, Metasys N2 and LonWorks
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ProtoNode Gateway CONTENTS 1. INTRODUCTION / PARTS AND COMPONENTS 5 1.1 BTL Mark 5 1.2 LonMark Certification 5 1.3 Device Configuration 6 1.4 Cleaver-Brooks Devices and Point Count Available 7 1.5 Part List 8 2. BACNET/LONWORKS SETUP 9 2.1 Record Identification Data 9 2.2 Configuring Ethernet and Serial Device Communications 9 2.3 “S” Bank DIP Switches: Selecting the Desired Field Protocol and Enabling Auto-Discovery 10 2.4 Set MAC Address for BACnet MS/TP; Set Device Instance for BACnet MS/TP and BACnet/IP; Set Node-ID for Metasys N2 and ModbusTCP on ProtoNode RER 11 2.5 Set Baud Rate for BACnet MS/TP on ProtoNode FPC-N34 (BACnet) 13 3. INTERFACING PROTONODE TO DEVICES 14 3.1 ProtoNode RER and LER Showing Connection Ports 14 3.2 Wiring Connections 15 3.3 Wiring ProtoNode RER to RS-485 Field Protocol (BACnet MS/TP or Metasys N2) 16 3.4 Wiring ProtoNode LER Field Port to a LonWorks Network 17 3.5 Power Wiring 17 4. AUTO-DISCOVERY: SAVING RS-485 DEVICE CONFIGURATIONS 18 5. WEB CONFIGURATOR 18 5.1 Connect the PC to ProtoNode via the Ethernet Port 18 5.2 Connecting to ProtoNode's Web Configurator 19 6. RESTARTING - CLEARING PROFILES 20 7. CHANGE THE PROTONODE IP ADDRESS 21 7.1 Connect the PC to ProtoNode via the Ethernet Port 21 7.2 Accessing the FST Web GUI from the Web Configurator 21 7.3 Set IP Address for BACnet/IP and Modbus TCP 22 8. COMMISSIONING PROTONODE LER ON A LONWORKS NETWORK 23 8.1 Commissioning ProtoNode LER on a LonWorks Network 23 9. CAS BACNET EXPLORER FOR VALIDATING PROTONODE IN THE FIELD 25 9.1 Downloading the CAS Explorer and Requesting an Activation Key 25 9.2 CAS BACnet Setup 26 APPENDIX A - TROUBLESHOOTING 27 APPENDIX B - DATA POINT MAPPINGS FOR CLEAVER-BROOKS APPLICATIONS 31 APPENDIX C - MAC ADDRESS DIP SWITCH SETTINGS 85 APPENDIX D - INTERFACING PROTONODE GATEWAY TO BOILER NETWORKS 89 APPENDIX E - WARRANTY 92
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ProtoNode Gateway ProtoNode Specifications
Electrical Connections
Approvals:
ProtoNode RER
ProtoNode LER
One 6‐pin Phoenix connector, one RS‐485 +/‐ ground port, power +/‐ frame ground port One 3‐pin RS‐485 Phoenix connector, one RS‐485 +/‐ ground port One Ethernet‐10/100 Ethernet port
One 6‐pin Phoenix connector, one RS‐485 +/‐ ground port, power +/‐ frame ground port One Ethernet 10/100 BaseT port One FTT‐10 LonWorks port
TUV approved to UL 916 EN 60950‐1, EN 50491‐3 and CSA C22‐2 standards CE & FCC Approved BACnet Marked (BTL) B‐ASC
LonMark Certified
Power Requirements
Multi‐mode power adapter: 9‐30VDC
Physical Dimensions
11.5 cm L x 8.3 cm W x 4.1 cm H (4.5 x 3.2 x 1.6 in.)
Weight:
0.2 kg (0.4 lbs)
Operating Temperature:
‐40°C to 75°C (‐40°F to167°F)
Surge Suppression
EN61000‐4‐2 ESD EN61000‐4‐3 EMC EN61000‐4‐4 EFT
Humidity:
5 ‐ 90% RH (non‐condensing)
(Specifications subject to change without notice)
For UL compliance, the following instructions must be met when operating the ProtoNode. • •
The units shall be powered by listed LPS or Class 2 power supply suited to the expected operating temperature range. The interconnecting power connector and power cable shall: Comply with local electrical code Be suited to the expected operating temperature range Meet the current and voltage rating for the ProtoNode/Net
•
Furthermore, the interconnecting power cable shall: Be of length not exceeding 3.05m (118.3") Be constructed of materials rated VW-1 or FT-1 or better
• •
If the unit is to be installed in an operating environment with a temperature above 65 °C, it should be installed in a Restricted Access Area requiring a key or a special tool to gain access. This device must not be connected to a LAN segment with outdoor wiring.
For the latest edition of this Startup Guide, go to: http://www.cleaverbrooks.com/protonode
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1. INTRODUCTION/PARTS AND COMPONENTS ProtoNode is an external, high performance Building Automation multi-protocol gateway that is preconfigured to automatically communicate between any of Cleaver-Brooks' products (hereafter called "device") to various building automation protocols. These protocols include BACnet® MS/TP, BACnet/IP, Metasys® N2 by JCI, Modbus TCP, Modbus RTU, and LonWorks® . It is not necessary to download any configuration files to support the required applications.
The ProtoNode has been designed to dynamically support both RS-485 and Ethernet devices connected to the ProtoNode, without having to manually build or download any configurations in the field. The ProtoNode has all of the pretest Profiles/Configurations of all supported devices stored internally. See Section 1.3 for a list of supported devices and their configuration options.
1.1 BTL Mark The BTL Mark on the ProtoNode RER indicates that the product has passed a series of rigorous tests conducted by an independent laboratory which verifies that the product correctly implements the BACnet features claimed in the listing. The mark is a symbol of a high-quality BACnet product. Go to http://www.bacnetinternational.net/btl/ for more information about the BACnet Testing Laboratory 1.2 LonMark Certification LonMark International is the recognized authority for certification, education, and promotion of interoperability standards for the benefit of manufacturers, integrators and end users. LonMark International has developed extensive product certification standards and tests to provide the integrator and user with confidence that products from multiple manufacturers utilizing LonMark devices work together. FieldServer Technologies has more LonMark Certified gateways than any other gateway manufacturer, including the ProtoCessor, ProtoCarrier and ProtoNode for OEM applications and the full featured, configurable gateways.
1
BACnet is a registered trademark of ASHRAE
2
Metasys is a registered trademark of Johnson Controls Inc. LonWorks is a registered trademark of Echelon Corporation
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ProtoNode Gateway 1.3 Device Configuration There are two ways in which the ProtoNode can be configured to recognize and communicate with connected devices: •
Auto-Discovery: Supported RS-485 devices can be automatically detected and identified for addition to the ProtoNode's configuration.
•
Web Configurator: For Ethernet devices, and for RS-485 devices that are not supported by Auto-Discovery, use the embedded tool which is accessed with a browser, referred to in this manual as the Web Configurator. Select the device(s) from a drop-down list of known profiles and assign a Modbus Node-ID and/ or IP Address for any C-B Ethernet based devices. Then the ProtoNode automatically builds the configuration to support the device(s) with the desired protocol.
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ProtoNode Gateway A list of C-B products for use with the ProtoNode, together with their respective means of configuration, is shown in the table below. Table 1: Configuring devices
Device Falcon Hydronic Falcon Steam CB780 CB120 HSC LCS PCS HAWK_1000 HAWK_4000* HAWK_5000 HAWK_Master HAWK_ADAC
Type of Communication RS-485 RS-485 RS-485 RS-485 RS-485 RS-485 RS-485 Ethernet Ethernet Ethernet Ethernet Ethernet
Type of Configuration Auto-Discovery or Web Configurator Auto-Discovery or Web Configurator Web Configurator Web Configurator Auto-Discovery or Web Configurator Web Configurator Web Configurator Web Configurator Web Configurator Web Configurator Web Configurator Web Configurator
*Hawk 4000 PLC program must be 985-00479 Rev 3 or higher. For other program numbers contact C-B Service.
1.4 Cleaver-Brooks Devices and Point Count Available When installing the ProtoNode, observe the total combined points (number of value registers) of the devices being connected to the ProtoNode. •
The total number of devices attached to ProtoNode RER cannot exceed 10,000 value registers for BACnet MS/TP, BACnet/IP, Modbus/TCP or Metasys N2.
•
The total number of devices attached to ProtoNode LER cannot exceed 1000 value registers for LonWorks.
•
A single ProtoNode Gateway is capable of supporting up to 16 connected devices. Contact factory for specific configuration capabilities and limits. Table 2: Device point count
Devices Falcon Hydronic Falcon Steam CB780 CB120 HSC LCS PCS HAWK_1000 HAWK_4000 HAWK_5000 HAWK_Master HAWK_ADAC
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Point Count 77 47 93 94 318 59 53 269 283 266 196 265
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ProtoNode Gateway 1.5 Part List
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2. BACNET/LONWORKS SETUP 2.1 Record Identification Data Each ProtoNode has a unique part number located on the underside of the unit. This number should be recorded, as it may be required for technical support. The numbers are as follows: Table 3: ProtoNode part numbers
Model
FieldServer Part Number
Cleaver-Brooks Part Number
ProtoNode RER
FPC-N34-103-122-0676
833-09829-000
ProtoNode LER
FPC-N35-103-401-0688
833-09831-000
•
RER units have the following 3 ports: RS-485 + Ethernet + RS-485
•
LER units have the following 3 ports: LonWorks + Ethernet + RS-485
2.2 Configuring Ethernet and Serial Device Communications 2.2.1 AB Ethernet/IP Host Device Communications •
All of the AB EtherNet/IP devices connected to the ProtoNode MUST have IP addresses on the same Subnet as the ProtoNode.
•
If the Field protocol is BACnet/IP or Modbus TCP, which also use Cat5 cable connections, then the AB EtherNet/IP device cables and the Field network cable must be connected together to the ProtoNode with a Hub/Switch or Router.
•
Note: If the IP address of the ProtoNode is changed to meet Field network address requirements, remember to set the AB EtherNet/IP devices to use the same IP-subnet address. 2.2.2 RS-485 Serial Device Host Communications
•
All of the Serial devices connected to ProtoNode MUST have the same Baud Rate, Data Bits, Stop Bits, and Parity settings.
•
Table 4 specifies the device serial port settings required to communicate with the ProtoNode. The Baud Rate of the C-B device must match the Baud Rate of the ProtoNode's Modbus RTU port. In the Web Configurator, the Baud Rate can be set to 9600, 19200 or 38400 (default). See Section 5.2. Table 4: Modbus RTU COM settings
Device Serial Port Setting Protocol Baud Rate* Parity Data Bits Stop Bits
Falcon Hydronic, Falcon Steam, HSC, PCS and LCS Modbus RTU 38400 None 8 1
CB780, CB120 Modbus RTU 9600, 19200, or 38400 None 8 1
*All connected Modbus RTU devices must be set to the same Baud rate
Set Modbus Node-ID for each of the devices attached to ProtoNode. The Modbus Node-IDs need to be uniquely assigned between 1 and 255. •
The Modbus Node-ID that is assigned for each device needs to be documented.
•
The Modbus Node-ID’s assigned are used for setting the Device Instance for BACnet/IP and BACnet MS/TP (See section 2.4.2)
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The Metasys N2 and Modbus/TCP Node-ID will be set to the same value as the Node-ID of the Modbus RTU device.
2.3 “S” Bank DIP Switches: Selecting the Desired Field Protocol and Enabling Auto-Discovery 2.3.1 Using S0 – S3 bank of DIP Switches •
ProtoNode RER units use the "S" bank of DIP switches (S0 - S2) to select the Field Protocol. See Table 5 for the switch settings to select BACnet MS/TP, BACnet/IP, Modbus/TCP, or Metasys N2. When the "S" bank of switches are all OFF (default setting), BACnet/IP is enabled. The OFF position is when the DIP switches are set closest to the outside of the box.
•
ProtoNode LER units do not use the "S" bank DIP switches (S0 - S2) to select a Field Protocol. On ProtoNode LER units, these switches are disabled; the Field Protocol is always LonWorks
S Bank DIP Switches
S0 S1 S2 S 3
Table 5: BACnet MS/TP, BACnet/IP, Modbus/TCP, and Metasys N2 Settings for ProtoNode RER (BACnet)
ProtoNode RER
S Bank DIP Switches
Profile
S0
S1
S2
BACnet IP
Off
Off
Off
BACnet MSTP
On
Off
Off
Metasys N2
Off
On
Off
Modbus TCP
On
On
Off
Table 6: RER and LER S3 settings
ProtoNode RER and LER
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S3 DIP Switch Auto-Discovery Mode
S3
Auto-Discovery ON - Build New Configuration
On
Auto-Discover OFF - Save Current Configuration
Off
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ProtoNode Gateway 2.3.2 Enabling Auto-Discovery
The S3 DIP switch is used to both enable Auto-Discovery of known devices attached to the ProtoNode, and to save the recently discovered configuration. •
See Table 1 for RS-485 devices that are supported by Auto-Discovery.
•
See Table 5 for the DIP switch setting to enable Auto-Discovery.
•
If the ProtoNode is being installed for the first time, set S3 to the ON position to enable Auto-Discovery.
•
The ON position is when the DIP switches are set closest to the inside of the box.
2.4 Set MAC Address for BACnet MS/TP; Set Device Instance for BACnet MS/TP and BACnet/IP; Set Node-ID for Metasys N2 and Modbus/TCP on ProtoNode RER 2.4.1 Setting the MAC Address for BACnet MS/TP for ProtoNode RER (BACnet)
Only 1 MAC address is set for the ProtoNode regardless of how many devices are connected. Set the BACnet MS/TP MAC address between 1 to 127 (Master MAC address); this is so that the BMS front end can find the ProtoNode via BACnet auto-discovery. Addresses from 128 to 255 are Slave Addresses and can not be discovered by BMS Front Ends that support auto discovery of BACnet MS/TP devices. Note: Never set a BACnet MS/TP MAC Address from 128 to 255. Set DIP switches A0 - A7 to assign MAC Address for BACnet MS/TP for the ProtoNode RER. Please refer to Appendix C for the complete range of MAC Addresses and DIP switch settings. When using Metasys N2 and Modbus/TCP, the A Bank of DIP switches are disabled and not used. They should be set to OFF.
MAC Address DIP Switches
NOTE: When setting DIP Switches, please ensure that power to the board is OFF. 2.4.2 Setting the Device Instance (Node-ID) for BACnet MS/TP and BACnet/IP on ProtoNode RER (BACnet)
The BACnet device instances will be calculated by taking the Node_Offset found in Web Configurator and adding it to the Modbus or EtherNep/IP unique Node-ID (assigned in the Web-Configurator). The BACnet Device Instance can range from 1 to 4,194,303. For example: •
Node_Offset default = 50,000
•
Device 1 has a Modbus/EtherNet IP Node-ID of 1, Device 2 has a Modbus/EtherNet IP Node-ID of 2, Device 3 has a Modbus Node-ID of 3
•
Device 1 - Modbus/EtherNet IP Device Instance = 50,001
•
Device 2 - Modbus/EtherNet IP Device Instance = 50,002
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Device 3 - Modbus/EtherNet IP Device Instance = 50,003
To change the Node_Offset see below. The node offset can be changed from 50,000 to 1 to 4,194,302 via the Web Configurator. 2.4.2.1 Set Node_Off to Assign Specific Device instances for BACnet MS/TP and BACnet/IP
If the Device Instances need to be set for addresses other than 50,000 to 50,127, change the Node+-Offset (50,000 is the default for Node+Offset). The BACnet Device Instance can range from 1 to 4,194,303. BACnet/IP/BACnet MS/TP Addressing: The BACnet device instances will be set by taking the Node_Offset found in Web Configurator (see figure below) and adding it to the Modbus/EtherNet IP Node- ID that was assigned to the device. Set the PC's IP address to be on the same subnet as the ProtoNode. (See section 5.1) Open the PC browser; enter the default IP address of ProtoNode 192.168.1.24, which will bring you to the Web Configurator's landing page for the ProtoNode. (See Section 5.2) Change the Node_Offset to meet the required device instance. For example: Required Device Instance = 20,001 •
Node_Offset changed to = 20,000.
•
Device 1 has a Modbus/EtherNet IP Node-ID of 1, Device 2 has a Modbus/EtherNet IP Node-ID of 2, Device 3 has a Modbus/EtherNet IP Node-ID of 3
•
Device 1 - Modbus/EtherNet IP Device Instance = 20,001
•
Device 2 - Modbus/EtherNet IP Device Instance = 20,002
•
Device 3 - Modbus/EtherNet IP Device Instance = 20,003
NOTE: The Modbus/EtherNet IP Node address + Node_Offset = Device Instance setting
NOTE: Every Hawk selected selected in the Web-Configurator MUST have a unique Node-ID (1-255) If you have both Hawks and RS-485 devices connected to the ProtoNode, they all must have different NodeID's.
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ProtoNode Gateway 2.4.3 Setting the Device Node-ID for Metasys N2 and Modbus/TCP on ProtoNode RER (Metasys N2)
The Modbus RTU Node-IDs assigned to the devices attached to the ProtoNode in Section 2.2 will be the Metasys N2 and Modbus TCP Node_IDs for the field protocols. Metasys N2 and Modbus/TCP Node-ID Addressing: Metasys N2 and Modbus/TCP Node-IDs range from 1-255.
2.5 Set Baud Rate for BACnet MS/TP on ProtoNode FPC-N34 (BACnet) 2.5.1 Setting the Serial Baud Rate (DIP Switch B0 – B3) for BACnet MS/TP
DIP Switches B0 - B3 can be used to set the serial baud rate to match the baud rate provided by the Building Management System for BACnet MS/TP. See Figure 9 for baud rate switch settings.DIP Switches B0 - B3 are disabled on ProtoNode FPC-N35 (LonWorks). The baud rate on ProtoNode for Metasys N2 is set for 9600. DIP Switches B0 - B3 are disabled for Metasys N2 on ProtoNode FPC-N34.
Table 7: Baud Rate DIP Switch Selection
Baud Rate DIP Switches
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Baud
B0
B1
B2
B3
9600
On
On
On
Off
19200
Off
Off
Off
On
38400
On
On
Off
On
57600
Off
Off
On
On
76800
On
Off
On
On
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3. INTERFACING PROTONODE TO DEVICES 3.1 ProtoNode RER and LER Showing Connection Ports
RER
LER
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ProtoNode Gateway 3.2 Wiring Connections 3.2.1 ProtoNode 6 pin Phoenix connector - pin outs to Modbus RTU products
The 6 pin Phoenix connector is the same for ProtoNode RER (BACnet) and ProtoNode LER (LonWorks). Pins 1 through 3 are for Modbus RS-485 connections to the devices and pins 4 through 6 are for power.
Device Pins
ProtoNode Pin #
Pin assignment
Pin RS-485 +
Pin 1
RS-485 +
Pin RS-485 -
Pin 2
RS-485 -
Pin GND
Pin 3
RS-485 GND
Power In (+)
Pin 4
V+
Power In (-)
Pin 5
V-
Frame Ground
Pin 6
FRAME GND
3.2.2 Biasing the Modbus RS-485 network •
An RS-485 network with more than one device needs to have biasing to ensure proper communication. The biasing needs to be done on one device.
•
The ProtoNode has a 510 Ohm resistor switch that is used to set the biasing. The ProtoNode's default position for the Biasing switch is OFF from the factory.
•
It is recommended that the biasing be left in the OFF position, unless there is a problem with communicating with more than one device, then try setting the biasing to ON.
•
The OFF position is when the 2 RED biasing jumpers straddle the 4 pins closest to the outside of the board of the ProtoNode.
RER
LER
RS-485 Bias Switch
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ProtoNode Gateway 3.2.3 End of Line Termination Switch for the Modbus RS-485 port •
On long RS-485 cabling runs, the RS-485 trunk must be properly terminated at each end.
•
If the ProtoNode is placed at one of the ends of the trunk, turn the blue RS-485 End-of-Line Terminating switch to the ON position.
•
On short cabling runs the EOL switch may remain in the default OFF setting.
•
Always leave the single red jumper in the A position.
RER
LER
Modbus RS‐485 EOL Switch
Leave in ‘A’ Position
3.3 Wiring ProtoNode RER to RS-485 Field Protocol (BACnet MS/TP or Metasys N2) Connect the BACnet MS/TP or Metasys N2 network for the Building Management System to the 3pin RS-485 connector on ProtoNode FPC-N34 as shown below. BMS RS-485 Wiring
ProtoNode Pin #
Pin Assignment
RS-485 +
Pin 1
RS-485 +
RS-485 -
Pin 2
RS-485 -
-
Pin 3
RS-485 GND
See Section 7 for information on connecting ProtoNode RER to a BACnet/ IP network. If the ProtoNode is the last device on the BACnet MS/TP or Metasys N2 trunk, then the End-Of-Line Terminator needs to be enabled (see below). It is disabled by default.
End‐of‐Line Switch
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ProtoNode Gateway 3.4 Wiring ProtoNode LER Field Port to a LonWorks Network Connect ProtoNode to the field network with the LonWorks terminal using a twisted pair nonshielded cable. LonWorks has no polarity.
3.5 Power Wiring Ensure that the power supply used complies with the specifications provided. Ensure that the cable is grounded using the "Frame-GND" terminal. ProtoNode accepts either 9-30VDC or 12-24 VAC. Make sure that the S3 DIP switch is in the ON position to enable the ProtoNode "Auto Discovery" mode for RS-485 devices connected to the ProtoNode. See Section 4 before powering up. Table 8: Power Requirement for ProtoNode at 9V through 30 VDC or 12-24 VAC
Current Draw Type ProtoNode Family
12VDC/VAC
24VDC/VAC
30VDC
RER (Typical)
170mA
100mA
80mA
RER (Maximum)
240mA
140mA
100mA
LER (Typical)
210mA
100mA
90mA
LER (Maximum)
250mA
130mA
100mA
Note: These values are 'nominal' and a safety margin should be added to the power supply of the host system. A safety margin of 25% is recommended.
Table 9: Power Connections
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Power to ProtoNode
ProtoNode Pin #
Pin Assignment
Power In (+)
Pin 4
V+
Power In (-)
Pin 5
V-
Frame Ground
Pin 6
FRAME GND
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4. AUTO-DISCOVERY: SAVING RS-485 DEVICE CONFIGURATIONS [There are some RS-485 devices that cannot be recognized by Auto-Discovery; see Section 1.2 for a list of devices. Devices that cannot be configured by Auto-Discovery are set up by using the Web Configurator; see Section 5]. The S3 DIP Switch for Enabling Auto-Discovery should have been set in section 2.3 before applying power to the ProtoNode. Do not Enable Auto-Discovery when the unit is powered. If the ProtoNode has both RS-485 devices that can be Auto-discovered and Ethernet devices connected to it, perform Auto-Discovery FIRST before selecting profiles in the Web-Configurator. •
When power is applied to a ProtoNode that is set to Enable Auto-Discovery, it will take 3 minutes to complete the discovery of all of the RS-485 devices attached to the ProtoNode.
•
Once the ProtoNode has discovered all of the RS-485 devices, set the S3 DIP switch to the OFF position to save the current configuration. Leaving S3 in the ON position will result in repetition of Auto Discovery on every power cycle or reboot of the ProtoNode.
Table 10: S3 DIP Switch Auto-Discovery Mode
S3 Auto-Discovery ON - Build New Configuration
On
Auto-Discover OFF - Save Current Configuration
Off
5. WEB CONFIGURATOR 5.1 Connect the PC to ProtoNode via the Ethernet Port
Ethernet port
•
Connect a standard CAT5 Ethernet cable (straight through or cross-over) between the PC and ProtoNode.
•
The Default IP Address of the ProtoNode is 192.168.1.24, Subnet Mask is 255.255.255.0. If the PC and ProtoNode are on different IP Networks, assign a static IP Address to the PC on the 192.168.1.xxx network.
1. Go to
>
>
2. Right-click on Local Area Connection > Properties 3. Highlight
and go to
4. Select ‘Use the following IP address:’
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5. Click
twice..
5.2 Connecting to ProtoNode's Web Configurator After setting your PC to be on the same subnet as the ProtoNode (Section 5.1), open a web browser on your PC and enter the IP address of the ProtoNode; the default address is 192.168.1.24. If the IP address of the ProtoNode has been changed by previous configuration, you will need to get the assigned IP address from the network administrator. 5.3 Selecting profiles for devices that will be connected to the ProtoNode When you open the Web Configurator, you will see the Active Profiles section on the lower left side of the screen. All Modbus RTU and Ethernet/IP devices can be manually configured with the ProtoNode Web configurator. •
The Active Profiles section lists the currently active device profiles, including previous Web Configurator additions and any devices identified by Auto-Discovery configuration methods. This list will be empty for new installations, or after clearing all configurations.
•
To add an active profile to support a device, click the ADD button under Active Profiles. This will present a dropdown box underneath the Current Profile column that lists all the available profiles. See below. For RER units, profiles for supported devices will be offered in the drop-down box for the Field protocol option selected by the S bank of DIP switches. For LER units, profiles for supported devices will be offered in the drop-down box for the Field protocol LonWorks.
•
For every device that is added, you need to specify the unique Node-ID assigned to the particular device. This specification must match the device's network settings.
•
All Modbus RTU devices must be configured before adding Ethernet IP devices to the configuration. Otherwise the ProtoNode's virtual ID's can be conflicted requiring the Modbus network to be readdressed.
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•
Once the Profile and Modbus Node Address for the device have been selected, then press the ADD button to add the Profile to be configured.
•
Continue this process until all the devices have been added.
•
Completed additions will be listed under Active Profiles as shown above.
6. RESTARTING - CLEARING PROFILES •
After setting your PC to be on the same subnet as the ProtoNode (section 5.1), open a web browser on your PC and enter the IP address of the ProtoNode; the default address is 192.168.1.24.
•
If the IP address of the ProtoNode has been changed by previous configuration, you will need to get the assigned IP address from the network administrator.
•
The Web Configurator will be displayed as your landing page.
•
At the bottom-left of the page, click the "Clear Profiles and Restart" button.
•
Once restart is complete, all the past profiles that were discovered and or added via the Web configurator will be delete. The unit is now ready to be reinstalled.
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7. CHANGE THE PROTONODE IP ADDRESS 7.1 Connect the PC to ProtoNode via the Ethernet Port
Ethernet port
•
Connect a standard CAT5 Ethernet cable (straight through or cross-over) between the PC and ProtoNode.
•
The Default IP Address of ProtoNode is 192.168.1.24, Subnet Mask is 255.255.255.0. If the PC and ProtoNode are on different IP Networks, assign a static IP Address to the PC on the 192.168.1.xxx network.
•
If the IP address of the ProtoNode has been changed by previous configuration, you will need to get the assigned IP address from the network administrator.
1. Go to
>
>
2. Right-click on Local Area Connection > Properties 3. Highlight
and go to
4. Select ‘Use the following IP address:’
5. Click
twice..
7.2 Accessing the FST Web GUI from the Web Configurator •
After setting your PC to be on the same subnet as the ProtoNode (section 5.1), open a web browser on your PC and enter the IP address of the ProtoNode; the default address is 192.168.1.24.
•
If the IP address of the ProtoNode has been changed by previous configuration, you will need to get the assigned IP address from the network administrator.
•
The Web Configurator will be displayed as your landing page (see below).
•
Below the Active Profiles heading you should see profiles listed for connected devices. If no profiles are present, then the wiring, baud rate, and DIP switch settings must be checked, because there is a problem with device communications. All the active profiles must show the correct Node-ID's before proceeding.
•
To access the FST Web GUI, click on the "Diagnostics & Debugging" button in the bottom right side of the page.
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21
ProtoNode Gateway
7.3 Set IP Address for BACnet/IP and Modbus TCP •
From the Web Configurator landing page, click on the "Diagnostics & Debugging" button in the bottom right side of the page to access the FST Web GUI.
•
The FST Web GUI page will be presented.
•
From the FST Web GUI's landing page, click on "Setup" to expand the navigation tree and then select "Network Settings" to access the IP Settings menu.
•
Enter the new IP address for the ProtoNode's Ethernet port in the "N1 IP address" field.
22
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ProtoNode Gateway •
If necessary, change the Subnet Mask setting in the "N1 Netmask" field.
•
If necessary, change the IP Gateway setting in the "Default Gateway" field.
•
Note: If the ProtoNode is connected to a router, the IP Gateway of the ProtoNode should be set to the IP address of the router that it is connected to.
•
Click the "System Restart" button at the bottom of the page to apply changes and restart the ProtoNode.
•
Unplug Ethernet cable from PC and connect the ProtoNode to the network hub or router.
•
Record the IP address assigned to the ProtoNode for future reference.
8. COMMISSIONING PROTONODE LER ON A LONWORKS NETWORK Commissioning may only be performed by the LonWorks administrator.
8.1 Commissioning ProtoNode LER on a LonWorks Network The User will be prompted by the LonWorks Administrator to hit the Service Pin on the ProtoNode LER at the correct step of the Commissioning process which is different for each LonWorks Network Management Tool. •
If an XIF file is required, see steps below to generate XIF.
LonWorks Service Pin
8.1.1 To Upload XIF file from ProtoNode LER using FieldServer GUI Web Server: •
Connect a standard cat5 Ethernet cable between the PC and ProtoNode
•
The Default IP Address of the ProtoNode is 192.168.1.24, Subnet Mask is 255.255.255.0. If the PC and ProtoNode are on different IP Networks, assign a static IP Address to the PC on the 192.168.1.xxx network.
•
For Windows XP:
1. Go to
>
>
2. Right-click on Local Area Connection > Properties 3. Highlight
750-361
and go to
23
ProtoNode Gateway •
For Windows 7:
1. Go to
>
>
>
> 2. Right-click on Local Area Connection > Properties 3. Highlight
•
>
For Windows XP and Windows 7, select: ‘Use the following IP address’
4. Click twice.. 5. Open a web browser and go to the following address: [IP address of ProtoCessor]/fserver.xif
Example: 192.168.1.24/fserver.xif 6. If the web browser prompts you to save file, save the file onto the PC. If the web browser displays the xif file as a web page, save the file on your PC as fserver.xif.
24
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ProtoNode Gateway
9. CAS BACNET EXPLORER FOR VALIDATING PROTONODE IN THE FIELD A complimentary 2 week fully functional copy of CAS BACnet Explorer is available (through Chipkin Automation) that can be used to validate BACnet MS/TP and/or BACnet/IP communications of ProtoNode in the field without having to have the BMS Integrator on site. A Serial or USB to RS-485 converter is needed to test BACnet MS/TP. 9.1 Downloading the CAS Explorer and Requesting an Activation Key To request the complementary BACnet CAS key, go to http://app.chipkin.com/activation/twoweek/ and fill in all the information. Enter Vendor Code "Cleaver12".
•
Once completed, the key will be sent to the email address that was submitted. From this email, the long key will need to be copied and pasted into the CAS key activation page.In the CAS Activation form, enter the email address and paste the CAS key that was sent. Once completed, select Activation.
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25
ProtoNode Gateway 9.2 CAS BACnet Setup To set CAS Explorer up for the first time on BACnet MS/TP and BACnet/IP: 9.2.1 CAS BACnet MS/TP Setup
Using the Serial or USB to RS-485 converter, connect it to your PC and the 3 Pin BACnet MS/TP connector on ProtoNode FPC-N34. In CAS Explorer, do the following: •
Click on Settings
•
Check the BACnet MSTP box and uncheck the BACnet/IP and BACnet Ethernet boxes
•
Set the BACnet MSTP MAC address to 0
•
Set the BACnet MSTP Baud Rate to 38400
•
Click Ok
•
On the bottom right-hand corner, make sure that the BACnet MSTP box is green
•
Click on discover
•
Check all 4 boxes
•
Click Send
9.2.2 CAS BACnet/IP Setup
See Section 7.1 to set the IP address and subnet of the PC that will be running the CAS Explorer. Connect a straight through or cross Ethernet cable from the PC to ProtoNode. In CAS Explorer, do the following: •
Click on settings
•
Check the BACnet/IP box and uncheck the BACnet MSTP and BACnet Ethernet boxes
•
In the "Select a Network Device" box, select the network card of the PC by clicking on it
•
Click Ok
•
On the bottom right-hand corner, make sure that the BACnet/IP box is green
•
Click on discover
•
Check all 4 boxes
•
Click Send
26
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ProtoNode Gateway
APPENDIX A — TROUBLESHOOTING A.1. Check Wiring and Settings No COMS on Modbus RTU side - If Tx/Rx are not flashing rapidly then there is a COM issue on the Modbus side and you need to check the following things: •
Observe LEDs on ProtoNode. (Section A.4)
•
Check baud rate, parity, data bits, stop bits
•
Check Modbus device address
•
Verify wiring
•
Verify all the Modbus RTU devices that were discovered in FST Web Configurator. (See Section 7.2)
Field COM problems: •
Observe LEDs on ProtoNode. (Section A.4)
•
Check dipswitch settings (verify correct baud rate and device instance)
•
Verify IP address setting
•
Verify wiring
If the problem still exists, a Diagnostic Capture needs to be taken and sent to FieldServer.
A.2. Taking a Diagnostic Capture using FieldServer Utilities Once the diagnostic capture is complete, email it to
[email protected].
The diagnostic capture will allow us to rapidly diagnose the problem. Ensure that FieldServer Toolbox is Loaded on the PC that is currently being used, or download FieldServer-Toolbox.zip at http://www.protocessor.com/tech-support/utilities-and-design-documents.php Extract the executable file and complete the installation.
•
Disable any wireless Ethernet adapters on the PC/Laptop
•
Disable firewall and virus protection software if possible
•
Connect a standard CAT5 Ethernet cable between the PC and ProtoNode
•
Double click on the FS Toolbox Utility
750-361
Ethernet Port
27
ProtoNode Gateway Step 1: Take a Log •
Click on the Diagnose button of the desired device
Diagnose
•
Select ‘Full Diagnostic’
•
If desired, the default capture period can be changed.
•
Click on Start Diagnostic
28
750-361
ProtoNode Gateway
•
Wait for Capture period to finish. Diagnostic Test Complete window will appear.
Step 2: Send Log •
Once the Diagnostic test is complete, a .zip file will be saved on the PC.
•
Choose open to launch explorer and have it point directly at the correct folder. Send the Diagnostic zip file to
[email protected]
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29
ProtoNode Gateway A.3. Setting the Network Number for BACnet/IP when more than one ProtoNode is on the same Subnet On the main Web Configurator screen, update the Network Number in the Network_Nr and hit Submit. Please note that the default value is 50.
A.4. LED Diagnostics for Modbus RTU Communications Between ProtoNode and Devices Please see the diagram below for ProtoNode RER and LER LED Locations.
Tag
30
Description
RTC
Unused
RUN
The RUN LED will start flashing 20 seconds after power indicating normal operation.
ERR
The SYS ERR LED will go on solid 15 seconds after power up. It will turn off after 5 seconds. A steady red light will indicate there is a system error on ProtoNode. If this occurs, immediately report the related "system error" shown in the error screen of the GUI interface to FieldServer Technologies for evaluation.
RX
The RX LED will flash when a message is received on the host port.
TX
The TX LED will flash when a message is sent on the host port.
PWR
This is the power light and should show steady green at all times when ProtoNode is powered.
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ProtoNode Gateway
APPENDIX B — DATA POINT MAPPINGS for CLEAVER-BROOKS APPLICATIONS B.1. FALCON HYDRONIC Table 11: FALCON HYDRONIC Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks
PumpA
BACnet Object Type BI
BACnet Object ID 1
N2 Data Type DI
N2 Point Address 1
30003
0
nvoXXXPumpA
SNVT_switch
PumpB
BI
2
DI
2
30003
1
nvoXXXPumpB
SNVT_switch
PumpC
BI
3
DI
3
30003
2
nvoXXXPumpC
SNVT_switch
Blower_Mtr
BI
4
DI
4
30003
3
nvoXXXBlower_Mtr
SNVT_switch
Ext_Ignition
BI
5
DI
5
30003
4
nvoXXXExt_Ignition
SNVT_switch SNVT_switch
Point Name
Modbus Register
(Bit)
Lon Name
Lon SNVT
Pilot‐MainDBI_Valve
BI
6
DI
6
30003
5
nvoXXXPltMnDBIVlv
Main_Valve
BI
7
DI
7
30003
6
nvoXXXMainValve
SNVT_switch
Alarm
BI
8
DI
8
30003
7
nvoXXXAlarm
SNVT_switch
Interlock
BI
9
DI
9
30003
8
nvoXXXInterlock
SNVT_switch
PreIgn_Interlock
BI
10
DI
10
30003
9
nvoXXXPreIgnIntrlk
SNVT_switch
Load_Control_In
BI
11
DI
11
30003
10
nvoXXXLoadCtrlIn
SNVT_switch
Low_Fire_Switch
BI
12
DI
12
30003
11
nvoXXXLoFireSwitch
SNVT_switch
High_Fire_Switch
BI
13
DI
13
30003
12
nvoXXXHiFireSwitch
SNVT_switch
Stat_Demand
BI
14
DI
14
30003
13
nvoXXXStatDem
SNVT_switch
TimeOfDay
BI
15
DI
15
30003
14
nvoXXXTimeOfDay
SNVT_switch
Safety_Relay
BI
16
DI
16
30003
15
nvoXXXSafetyRelay
SNVT_switch
Int_Air_Switch
BI
17
DI
17
30004
0
nvoXXXIntAirSwitch
SNVT_switch
Low_Water
BI
18
DI
18
30004
1
nvoXXXLoWater
SNVT_switch
Aux_Low_Water
BI
19
DI
19
30004
2
nvoXXXAuxLoWater
SNVT_switch
High_Limit
BI
20
DI
20
30004
3
nvoXXXHiLimit
SNVT_switch
High_Gas_Press
BI
21
DI
21
30004
4
nvoXXXHiGasPress
SNVT_switch
Low_Gas_Press
BI
22
DI
22
30004
5
nvoXXXLoGasPress
SNVT_switch
Natural_Gas
BI
23
DI
23
30004
6
nvoXXXNaturalGas
SNVT_switch
Propane_Gas
BI
24
DI
24
30004
7
nvoXXXPropaneGas
SNVT_switch
DEMAND SOURCE
AI
1
AI
1
30007
nvoXXXDemSrc
SNVT_count_f SNVT_temp_p
OUTLET WATER TEMP DEG F
AI
2
AI
2
30008
nvoXXXOutletWtrTmp
FIRING_RATE
AI
3
AI
3
30009
nvoXXXFiringRate
SNVT_count_f
FAN_SPEED
AI
4
AI
4
30010
nvoXXXFanSpeed
SNVT_count_f
FLAME_SIGNAL
AI
5
AI
5
30011
nvoXXXFlameSignal
SNVT_count_f
INLET WATER TEMP DEG F
AI
6
AI
6
30012
nvoXXXInletWtrTemp
SNVT_temp_p
DHW WATER TEMP DEG F
AI
7
AI
7
30013
nvoXXXDHW_WtrTemp
SNVT_temp_p
HEADER or ODT DEG F
AI
8
AI
8
30014
nvoXXXHeaderOrOdt
SNVT_temp_p
STACK TEMP DEG F
AI
9
AI
9
30015
nvoXXXStackTemp
SNVT_temp_p
CH SETPOINT DEG F
AI
11
AI
11
30017
nvoXXXCH_Setpoint
SNVT_temp_p
DHW SETPOINT DEG F
AI
12
AI
12
30018
nvoXXXDHW_Setpoint
SNVT_temp_p
ANALOG_INPUT
AI
14
AI
14
30022
nvoXXXAnalogInput
SNVT_count_f
BURN_CTL_STATUS
AI
15
AI
15
30033
nvoXXXBrnCtlStatus
SNVT_count_f
BURN_CTL_STATE
AI
16
AI
16
30034
nvoXXXBrnCtlState
SNVT_count_f
LOCKOUT_CODE
AI
17
AI
17
30035
nvoXXXLockoutCode
SNVT_count_f SNVT_count_f
HOLD_CODE
AI
18
AI
18
30041
nvoXXXHoldCode
CH STATUS
AI
20
AI
20
30063
nvoXXXCH_Status
SNVT_count_f
CH SETPOINT SOURCE
AI
21
AI
21
30066
nvoXXXCH_SPSrc
SNVT_count_f
CH HEAT DEMAND
AI
22
AI
22
30067
nvoXXXCH_HeatDem
SNVT_count_f
CH BURNER DEMAND
AI
23
AI
23
30068
nvoXXXCH_BurnrDem
SNVT_count_f
CH REQUESTED RATE
AI
24
AI
24
30069
nvoXXXCH_ReqRate
SNVT_count_f
750-361
31
ProtoNode Gateway Table 11: FALCON HYDRONIC Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks
* * * *
* *
CH FROST HEAT DEMAND
AI
25
AI
25
30070
nvoXXXCH_FrstHtDem
SNVT_count_f
CH FROST BURNER DEMAND
AI
26
AI
26
30071
nvoXXXCHFrstBrnDem
SNVT_count_f
DHW STATUS
AI
29
AI
29
30081
nvoXXXDHW_Status
SNVT_count_f
DHW SETPOINT SOURCE
AI
30
AI
30
30082
nvoXXXDHW_SP_Src
SNVT_count_f
DHW HEAT DEMAND
AI
32
AI
32
30084
nvoXXXDHW_HeatDem
SNVT_count_f
DHW BURNER DEMAND
AI
33
AI
33
30085
nvoXXXDHW_BrnrDem
SNVT_count_f
DHW REQUESTED RATE
AI
34
AI
34
30086
nvoXXXDHW_ReqRate
SNVT_count_f
CH PUMP STATUS
AI
39
AI
39
30097
nvoXXXCH_PmpStatus
SNVT_count_f
DHW PUMP STATUS
AI
43
AI
43
30101
nvoXXXDHWPmpStatus
SNVT_count_f
SYSTEM PUMP STATUS
AI
48
AI
48
30106
nvoXXXSysPmpStatus
SNVT_count_f
BOILER PUMP STATUS
AI
51
AI
51
30109
nvoXXXBlrPmpStatus
SNVT_count_f
AUXILIARY1 PUMP STATUS
AI
54
AI
54
30112
nvoXXXAux1PmpStatu
SNVT_count_f
AUXILIARY2 PUMP STATUS
AI
55
AI
55
30114
nvoXXXAux2PmpStatu
SNVT_count_f
BURNER_ENABLE
AI
57
AI
57
30204
nvoXXXBrnrEnable
SNVT_count_f
LEAD/LAG SETPOINT DEG F
AI
60
AI
60
30547
nvoXXXLead_LagSP
SNVT_temp_p
LEAD/LAG_ENABLE
AI
61
AI
61
30556
nvoXXXLead_LagEnbl
SNVT_count_f
CYCLE_COUNT
AI
58
AI
58
30129‐30
nvoXXXCycCount
SNVT_count_f
BURNER RUN_TIME
AI
59
AI
59
30131‐32
nvoXXXBrnrRunTime
SNVT_time_hour
BOILER BURNER ENABLE
AV
1
AO
1
40204
nviXXXBrnrEnable
SNVT_count_f
BOILER LEAD/LAG ENABLE
AV
11
AO
11
40556
nviXXXLead_LagEnbl
SNVT_count_f
BOILER CH SETPOINT DEG F
AV
21
AO
21
40212
nviXXXCH_Setpoint
SNVT_temp_p
BOILER LEAD/LAG SETPOINT DEG F
AV
31
AO
31
40547
nviXXXLead_LagSP
SNVT_temp_p
OUTLET WATER TEMP DEG C
AI
62
AI
62
30008
INLET WATER TEMP DEG C
AI
66
AI
66
30012
DHW WATER TEMP DEG C
AI
67
AI
67
30013
HEADER or ODT DEG C
AI
68
AI
68
30014
STACK TEMP DEG C
AI
69
AI
69
30015
CH SETPOINT DEG C
AI
71
AI
71
30017
DHW SETPOINT DEG C
AI
72
AI
72
30018
LEAD/LAG SETPOINT DEG C
AI
73
AI
73
30547
BOILER CH SETPOINT DEG C
AV
41
AO
41
40212
BOILER LEAD/LAG SETPOINT DEG C
AV
51
AO
51
40547
* Write points
32
750-361
ProtoNode Gateway B.2. FALCON STEAM Table 12: FALCON STEAM Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks
PumpA
BACnet Object Type BI
BACnet Object ID 1
N2 Data Type DI
N2 Point Address 1
Modbus Register 30003
0
nvoXXXPumpA
SNVT_switch
PumpB
BI
2
DI
2
30003
1
nvoXXXPumpB
SNVT_switch
Point Name
* * * *
(Bit)
Lon Name
Lon SNVT
PumpC
BI
3
DI
3
30003
2
nvoXXXPumpC
SNVT_switch
Blower_Mtr
BI
4
DI
4
30003
3
nvoXXXBlower_Mtr
SNVT_switch
Ext_Ignition
BI
5
DI
5
30003
4
nvoXXXExt_Ignition
SNVT_switch
Pilot_Valve
BI
6
DI
6
30003
5
nvoXXXPilotValve
SNVT_switch
Main_Valve
BI
7
DI
7
30003
6
nvoXXXMainValve
SNVT_switch
Alarm
BI
8
DI
8
30003
7
nvoXXXAlarm
SNVT_switch
Interlock
BI
9
DI
9
30003
8
nvoXXXInterlock
SNVT_switch
PreIgn_Interlock
BI
10
DI
10
30003
9
nvoXXXPreIgnIntrlk
SNVT_switch SNVT_switch
Load_Control_In
BI
11
DI
11
30003
10
nvoXXXLoadCtrlIn
Low_Fire_Switch
BI
12
DI
12
30003
11
nvoXXXLoFireSwitch
SNVT_switch
High_Fire_Switch
BI
13
DI
13
30003
12
nvoXXXHiFireSwitch
SNVT_switch
Stat_Demand
BI
14
DI
14
30003
13
nvoXXXStatDem
SNVT_switch
TimeOfDay
BI
15
DI
15
30003
14
nvoXXXTimeOfDay
SNVT_switch
Safety_Relay
BI
16
DI
16
30003
15
nvoXXXSafetyRelay
SNVT_switch
Int_Air_Switch
BI
17
DI
17
30004
0
nvoXXXIntAirSwitch
SNVT_switch
Low_Water
BI
18
DI
18
30004
1
nvoXXXLoWater
SNVT_switch
Aux_Low_Water
BI
19
DI
19
30004
2
nvoXXXAuxLoWater
SNVT_switch
High_Limit
BI
20
DI
20
30004
3
nvoXXXHiLimit
SNVT_switch
High_Gas_Press
BI
21
DI
21
30004
4
nvoXXXHiGasPress
SNVT_switch
Low_Gas_Press
BI
22
DI
22
30004
5
nvoXXXLoGasPress
SNVT_switch
High_Water
BI
23
DI
23
30004
6
nvoXXXHigh_Water
SNVT_switch
Feed_Water
BI
24
DI
24
30004
7
nvoXXXFeed_Water
SNVT_switch
DEMAND SOURCE
AI
1
AI
1
30007
nvoXXXDemSrc
SNVT_count_f
FIRING_RATE
AI
2
AI
2
30009
nvoXXXFiringRate
SNVT_count_f
FAN_SPEED
AI
3
AI
3
30010
nvoXXXFanSpeed
SNVT_count_f
FLAME_SIGNAL
AI
4
AI
4
30011
nvoXXXFlameSignal
SNVT_count_f
STEAM_PRESSURE
AI
5
AI
5
30021
nvoXXXSteamPress
SNVT_count_f
ANALOG_INPUT
AI
6
AI
6
30022
nvoXXXAna_Input
SNVT_count_f
ACTIVE_STEAM_SP
AI
7
AI
7
30023
nvoXXXActSteamSP
SNVT_count_f
BURN_CTL_STATUS
AI
8
AI
8
30033
nvoXXXBrnCtlStats
SNVT_count_f
BURN_CTL_STATE
AI
9
AI
9
30034
nvoXXXBrnCtlState
SNVT_count_f
LOCKOUT_CODE
AI
10
AI
10
30035
nvoXXXLockoutCode
SNVT_count_f
HOLD_CODE
AI
11
AI
11
30041
nvoXXXHoldCode
SNVT_count_f
CYCLE_COUNT
AI
12
AI
12
30129‐30
nvoXXXCycleCount
SNVT_count_f
RUN_TIME
AI
13
AI
13
30131‐32
nvoXXXRunTime
SNVT_count_f
BURNER_ENABLE
AI
16
AI
16
30204
nvoXXXBrnrEnbl
SNVT_count_f
STEAM_PRESSURE_SETPOINT
AI
14
AI
14
30221
nvoXXXStmPressSP
SNVT_count_f
LEAD/LAG_STEAM_PRESS_SETPOINT
AI
15
AI
15
30739
nvoXXXLdLgStmPrSP
SNVT_count_f
LEAD/LAG_HEADER_STEAM_PRESS
AI
17
AI
17
30807
nvoXXXLdLgHdStmPr
SNVT_count_f
VESSEL WATER TEMP (Deg C)
AI
18
AI
18
30008
nvoXXXVesWtrTmp
SNVT_count_f
VESSEL WATER TEMP (Deg F)
AI
19
AI
19
30008
BURNER ENABLE
AV
1
AO
1
40204
nvi1BrnrEnbl
SNVT_count_f
STEAM_PRESSURE_SETPOINT
AV
21
AO
21
40221
nvi1StmPressSP
SNVT_count_f
LEAD/LAG_ENABLE
AV
11
AO
11
40556
nvo/nviXXXLead_LagEnbl
SNVT_count_f
LEAD/LAG_SETPOINT
AV
31
AO
31
40739
nvo/nviXXXLead_LagSP
SNVT_count_f
*Write points 750-361
33
ProtoNode Gateway B.3. CB780 Table 13: CB780 Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks
BC_Initiate
BACnet Object Type BI
1
N2 Data Type DI
40013
0
nvoXXXBCInitiate
SNVT_switch
BC_Standby
BI
2
DI
2
40013
1
nvoXXXBCStandby
SNVT_switch
BC_Purge
BI
3
DI
3
40013
2
nvoXXXBCPurge
SNVT_switch
BC_Pilot_Ignition
BI
4
DI
4
40013
3
nvoXXXBCPlt_Igntn
SNVT_switch
BC_Main_Ignition
BI
5
DI
5
40013
4
nvoXXXBCMainIgntn
SNVT_switch
BC_Run_Mode
BI
6
DI
6
40013
5
nvoXXXBCRunMode
SNVT_switch
BC_Postpurge
BI
7
DI
7
40013
6
nvoXXXBCPostpurge
SNVT_switch
BC_Preignition
BI
8
DI
8
40013
7
nvoXXXBCPreignitn
SNVT_switch
BC_Alarm_Out
BI
9
DI
9
40013
13
nvoXXXBCAlarmOut
SNVT_switch
BC_Lockout
BI
10
DI
10
40013
15
nvoXXXBCLockout
SNVT_switch
BC_Fault_Code
AI
1
AI
1
40001
nvoXXXBCFltCode
SNVT_count_f
BC_Fault_String_Code
AI
2
AI
2
40002
nvoXXXBCFltStrnCod
SNVT_count_f
BC_Sequence_State
AI
3
AI
3
40003
nvoXXXBCSeqState
SNVT_count_f
BC_State_String_Code_L1
AI
4
AI
4
40004
nvoXXXBCStStrnCdL1
SNVT_count_f SNVT_count_f
Point Name
See Tables 23-25
34
BACnet Object ID
N2 Point Address 1
Modbus Register
(Bit)
Lon Name
Lon SNVT
BC_State_String_Code_L2
AI
5
AI
5
40005
nvoXXXBCStStrnCdL2
BC_Sequence_Time
AI
6
AI
6
40006
nvoXXXBCSeqTime
SNVT_count_f
BC_Flame_Signal_Strength
AI
7
AI
7
40011
nvoXXXBCFlmSigStre
SNVT_count_f
BC_State_Bits
AI
8
AI
8
40013
nvoXXXBCStateBits
SNVT_count_f
BC_Flt_Hist_Code_Rec1
AI
9
AI
9
40017
nvoXXXBCFtHtCodRc1
SNVT_count_f
BC_Flt_Hist_String_Rec1
AI
10
AI
10
40018
nvoXXXBCFtHtStrRc1
SNVT_count_f
BC_Flt_Hist_State_Rec1
AI
11
AI
11
40019
nvoXXXBCFtHtStRc1
SNVT_count_f
BC_Flt_Hist_Line1_Rec1
AI
12
AI
12
40020
nvoXXXBCFtHtLn1Rc1
SNVT_count_f
BC_Flt_Hist_Line2_Rec1
AI
13
AI
13
40021
nvoXXXBCFtHtLn2Rc1
SNVT_count_f
BC_Flt_Hist_Time_Rec1
AI
14
AI
14
40022
nvoXXXBCFtHtTimRc1
SNVT_count_f
BC_Flt_Hist_Code_Rec2
AI
15
AI
15
40027
nvoXXXBCFtHtCodRc2
SNVT_count_f
BC_Flt_Hist_String_Rec2
AI
16
AI
16
40028
nvoXXXBCFtHtStrRc2
SNVT_count_f
BC_Flt_Hist_State_Rec2
AI
17
AI
17
40029
nvoXXXBCFtHtStRc2
SNVT_count_f
BC_Flt_Hist_Line1_Rec2
AI
18
AI
18
40030
nvoXXXBCFtHtLn1Rc2
SNVT_count_f
BC_Flt_Hist_Line2_Rec2
AI
19
AI
19
40031
nvoXXXBCFtHtLn2Rc2
SNVT_count_f
BC_Flt_Hist_Time_Rec2
AI
20
AI
20
40032
nvoXXXBCFtHtTimRc2
SNVT_count_f
BC_Flt_Hist_Code_Rec3
AI
21
AI
21
40037
nvoXXXBCFtHtCodRc3
SNVT_count_f
BC_Flt_Hist_String_Rec3
AI
22
AI
22
40038
nvoXXXBCFtHtStrRc3
SNVT_count_f
BC_Flt_Hist_State_Rec3
AI
23
AI
23
40039
nvoXXXBCFtHtStRc3
SNVT_count_f
BC_Flt_Hist_Line1_Rec3
AI
24
AI
24
40040
nvoXXXBCFtHtLn1Rc3
SNVT_count_f
BC_Flt_Hist_Line2_Rec3
AI
25
AI
25
40041
nvoXXXBCFtHtLn2Rc3
SNVT_count_f
BC_Flt_Hist_Time_Rec3
AI
26
AI
26
40042
nvoXXXBCFtHtTimRc3
SNVT_count_f
BC_Flt_Hist_Code_Rec4
AI
27
AI
27
40047
nvoXXXBCFtHtCodRc4
SNVT_count_f
BC_Flt_Hist_String_Rec4
AI
28
AI
28
40048
nvoXXXBCFtHtStrRc4
SNVT_count_f
BC_Flt_Hist_State_Rec4
AI
29
AI
29
40049
nvoXXXBCFtHtStRc4
SNVT_count_f
BC_Flt_Hist_Line1_Rec4
AI
30
AI
30
40050
nvoXXXBCFtHtLn1Rc4
SNVT_count_f
BC_Flt_Hist_Line2_Rec4
AI
31
AI
31
40051
nvoXXXBCFtHtLn2Rc4
SNVT_count_f
BC_Flt_Hist_Time_Rec4
AI
32
AI
32
40052
nvoXXXBCFtHtTimRc4
SNVT_count_f
BC_Flt_Hist_Code_Rec5
AI
33
AI
33
40057
nvoXXXBCFtHtCodRc5
SNVT_count_f
BC_Flt_Hist_String_Rec5
AI
34
AI
34
40058
nvoXXXBCFtHtStrRc5
SNVT_count_f
BC_Flt_Hist_State_Rec5
AI
35
AI
35
40059
nvoXXXBCFtHtStRc5
SNVT_count_f
BC_Flt_Hist_Line1_Rec5
AI
36
AI
36
40060
nvoXXXBCFtHtLn1Rc5
SNVT_count_f
BC_Flt_Hist_Line2_Rec5
AI
37
AI
37
40061
nvoXXXBCFtHtLn2Rc5
SNVT_count_f
750-361
ProtoNode Gateway Table 13: CB780 Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued)
*
BC_Flt_Hist_Time_Rec5
AI
38
AI
38
40062
nvoXXXBCFtHtTimRc5
SNVT_count_f
BC_Flt_Hist_Code_Rec6
AI
39
AI
39
40067
nvoXXXBCFtHtCodRc6
SNVT_count_f
BC_Flt_Hist_String_Rec6
AI
40
AI
40
40068
nvoXXXBCFtHtStrRc6
SNVT_count_f
BC_Flt_Hist_State_Rec6
AI
41
AI
41
40069
nvoXXXBCFtHtStRc6
SNVT_count_f
BC_Flt_Hist_Line1_Rec6
AI
42
AI
42
40070
nvoXXXBCFtHtLn1Rc6
SNVT_count_f
BC_Flt_Hist_Line2_Rec6
AI
43
AI
43
40071
nvoXXXBCFtHtLn2Rc6
SNVT_count_f
BC_Flt_Hist_Time_Rec6
AI
44
AI
44
40072
nvoXXXBCFtHtTimRc6
SNVT_count_f
BC_Rem_Comd_Stat
AI
45
AI
45
40085
nvoXXXBCRemCmdStat
SNVT_count_f
BC_Vlv_Prov_Mode
AI
46
AI
46
40104
nvoXXXBCVlvProvMod
SNVT_count_f
BC_Vlv_Prov_Time
AI
47
AI
47
40106
nvoXXXBCVlvProvTim
SNVT_count_f
BC_Rem_Command
AI
48
AI
48
40128
nvoXXXBCRemCommand
SNVT_count_f
BC_Total_Cycles
AI
50
AI
50
40007
nvoXXXBCTotCycles
SNVT_count_f
BC_Total_Hours
AI
51
AI
51
40009
nvoXXXBCTotalHours
SNVT_time_hour
BC_Flt_Hist_Cyc_Rec1
AI
52
AI
52
40023
nvoXXXBCFtHtCycRc1
SNVT_count_f
BC_Flt_Hist_Hrs_Rec1
AI
53
AI
53
40025
nvoXXXBCFtHtHrsRc1
SNVT_count_f
BC_Flt_Hist_Cyc_Rec2
AI
54
AI
54
40033
nvoXXXBCFtHtCycRc2
SNVT_count_f
BC_Flt_Hist_Hrs_Rec2
AI
55
AI
55
40035
nvoXXXBCFtHtHrsRc2
SNVT_count_f
BC_Flt_Hist_Cyc_Rec3
AI
56
AI
56
40043
nvoXXXBCFtHtCycRc3
SNVT_count_f
BC_Flt_Hist_Hrs_Rec3
AI
57
AI
57
40045
nvoXXXBCFtHtHrsRc3
SNVT_count_f
BC_Flt_Hist_Cyc_Rec4
AI
58
AI
58
40053
nvoXXXBCFtHtCycRc4
SNVT_count_f
BC_Flt_Hist_Hrs_Rec4
AI
59
AI
59
40055
nvoXXXBCFtHtHrsRc4
SNVT_count_f
BC_Flt_Hist_Cyc_Rec5
AI
60
AI
60
40063
nvoXXXBCFtHtCycRc5
SNVT_count_f
BC_Flt_Hist_Hrs_Rec5
AI
61
AI
61
40065
nvoXXXBCFtHtHrsRc5
SNVT_count_f
BC_Flt_Hist_Cyc_Rec6
AI
62
AI
62
40073
nvoXXXBCFtHtCycRc6
SNVT_count_f
BC_Flt_Hist_Hrs_Rec6
AI
63
AI
63
40075
nvoXXXBCFtHtHrsRc6
SNVT_count_f
BC_Rem_Command
AV
1
AO
1
40128
nviXXXBCRemCommand
SNVT_count_f
ExpAnn_First_Out_Code
AI
49
AI
49
40014
nvoXXXExpAn1stOtCd
SNVT_count_f
EA_Valve_POC
BI
11
DI
11
40015
4
nvoXXXEAValvePOC
SNVT_switch
EA_Burner_Switch
BI
12
DI
12
40015
5
nvoXXXEABrnrSwitch
SNVT_switch
EA_Oper_Control
BI
13
DI
13
40015
6
nvoXXXEAOperCtrl
SNVT_switch
EA_Aux_Limit_1
BI
14
DI
14
40015
7
nvoXXXEAAuxLim1
SNVT_switch
EA_Aux_Limit_2
BI
15
DI
15
40015
8
nvoXXXEAAuxLim2
SNVT_switch
EA_LWCO
BI
16
DI
16
40015
9
nvoXXXEALWCO
SNVT_switch
EA_High_Limit
BI
17
DI
17
40015
10
nvoXXXEAHiLim
SNVT_switch
EA_Aux_Limit_3
BI
18
DI
18
40015
11
nvoXXXEAAuxLim3
SNVT_switch
EA_Oil_Select
BI
19
DI
19
40015
12
nvoXXXEAOilSelect
SNVT_switch SNVT_switch
EA_High_Oil_Press
BI
20
DI
20
40015
13
nvoXXXEAHiOilPress
EA_Low_Oil_Press
BI
21
DI
21
40015
14
nvoXXXEALoOilPress
SNVT_switch
EA_High_Oil_Temp
BI
22
DI
22
40015
15
nvoXXXEAHiOilTmp
SNVT_switch
EA_Low_Oil_Temp
BI
23
DI
23
40015
16
nvoXXXEALowOilTmp
SNVT_switch
EA_Gas_Select
BI
24
DI
24
40015
17
nvoXXXEAGasSelect
SNVT_switch
EA_High_Gas_Press
BI
25
DI
25
40015
18
nvoXXXEAHiGasPress
SNVT_switch
EA_Low_Gas_Press
BI
26
DI
26
40015
19
nvoXXXEALoGasPress
SNVT_switch
EA_Air_Flow_Switch
BI
27
DI
27
40015
20
nvoXXXEAAirFloSw
SNVT_switch
EA_Aux_Limit_4
BI
28
DI
28
40015
21
nvoXXXEAAuxLim4
SNVT_switch
EA_Aux_Limit_5
BI
29
DI
29
40015
22
nvoXXXEAAuxLim5
SNVT_switch
*Write point
750-361
35
ProtoNode Gateway B.4. CB120 Table 14: CB120 Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks Point Name Safety_Relay Main_Valve_In
BACnet Object Type BI
BACnet Object ID 1
N2 Data Type DI
N2 Point Address 1
BI
2
DI
2
Modbus Register
(Bit)
Lon Name
Lon SNVT
40007
0
nvoXXXSafetyRelay
SNVT_switch
40007
1
nvoXXXMainVlvIn
SNVT_switch
Delayed_Valve_In
BI
3
DI
3
40007
2
nvoXXXDelayVlvIn
SNVT_switch
Pilot_Valve_In
BI
4
DI
4
40007
3
nvoXXXPilotVlvIn
SNVT_switch
Ignition_In
BI
5
DI
5
40007
4
nvoXXXIgnitionIn
SNVT_switch
Blower_In
BI
6
DI
6
40007
5
nvoXXXBlowerIn
SNVT_switch
Op_Cntrl
BI
7
DI
7
40007
6
nvoXXXOpCntrl
SNVT_switch SNVT_switch
Run_Intlck
BI
8
DI
8
40007
7
nvoXXXRunIntlck
LAG1
BI
9
DI
9
40007
8
nvoXXXLAG1
SNVT_switch
LAG2
BI
10
DI
10
40007
11
nvoXXXLAG2
SNVT_switch
Fuel_Vlv_POC
BI
11
DI
11
40007
12
nvoXXXFuelVlvPOC
SNVT_switch
High_Fire_Intlck
BI
12
DI
12
40007
13
nvoXXXHiFireIntlck
SNVT_switch
Low_Fire_Start
BI
13
DI
13
40007
14
nvoXXXLoFireStart
SNVT_switch
Ref_AC_Line
BI
14
DI
14
40007
15
nvoXXXRefACLine
SNVT_switch
Ignition_Out
BI
15
DI
15
40008
1
nvoXXXIgnitionOut
SNVT_switch
Pilot_Valve_Out
BI
16
DI
16
40008
2
nvoXXXPilotVlvOut
SNVT_switch
Blower_Out
BI
17
DI
17
40008
3
nvoXXXBLoerOut
SNVT_switch
Main_Valve_Out
BI
18
DI
18
40008
4
nvoXXXMainVlvOut
SNVT_switch
Delayed_Valve_Out
BI
19
DI
19
40008
5
nvoXXXDelayVlvOut
SNVT_switch
Internal_Safety_Out
BI
20
DI
20
40008
6
nvoXXXIntSafetyOut
SNVT_switch
LowFireOut
BI
21
DI
21
40008
8
nvoXXXLoFireOut
SNVT_switch
HighFireOut
BI
22
DI
22
40008
9
nvoXXXHiFireOut
SNVT_switch
Rel_to_ModOut
BI
23
DI
23
40008
10
nvoXXXReltoModOut
SNVT_switch
Alarm_Out
BI
24
DI
24
40008
11
nvoXXXAlmOut
SNVT_switch
Status
AI
1
AI
1
40001
nvoXXXStatus
SNVT_count_f
Msgn
AI
2
AI
2
40002
nvoXXXMsgn
SNVT_count_f
Gstat
AI
3
AI
3
40003
nvoXXXGstat
SNVT_count_f
Timer
AI
4
AI
4
40004
nvoXXXTimer
SNVT_count_f
Flame
AI
5
AI
5
40005
nvoXXXFlame
SNVT_count_f
Logstat
AI
6
AI
6
40006
nvoXXXLogstat
SNVT_count_f
Lockout_Count
AI
7
AI
7
40015
nvoXXXLockoutCount
SNVT_count_f
Sysmins
AI
8
AI
8
40009‐10
nvoXXXSysmins
SNVT_time_min
Bnrmins
AI
9
AI
9
40011‐12
nvoXXXBnrmins
SNVT_time_min
Cycles
AI
10
AI
10
40013‐14
nvoXXXCycles
SNVT_count_f SNVT_count_f
LOCKOUT1_MSG
AI
11
AI
11
40016
nvoXXXLkot1Msg
LOCKOUT1_MODULE
AI
12
AI
12
40017
nvoXXXLkot1Mod
SNVT_count_f
LOCKOUT2_MSG
AI
13
AI
13
40022
nvoXXXLkot2Msg
SNVT_count_f
LOCKOUT2_MODULE
AI
14
AI
14
40023
nvoXXXLkot2Mod
SNVT_count_f
LOCKOUT3_MSG
AI
15
AI
15
40028
nvoXXXLkot3Msg
SNVT_count_f
LOCKOUT3_MODULE
AI
16
AI
16
40029
nvoXXXLkot3Mod
SNVT_count_f
LOCKOUT4_MSG
AI
17
AI
17
40034
nvoXXXLkot4Msg
SNVT_count_f
LOCKOUT4_MODULE
AI
18
AI
18
40035
nvoXXXLkot4Mod
SNVT_count_f
LOCKOUT5_MSG
AI
19
AI
19
40040
nvoXXXLkot5Msg
SNVT_count_f
LOCKOUT5_MODULE
AI
20
AI
20
40041
nvoXXXLkot5Mod
SNVT_count_f
LOCKOUT6_MSG
AI
21
AI
21
40046
nvoXXXLkot6Msg
SNVT_count_f
LOCKOUT6_MODULE
AI
22
AI
22
40047
nvoXXXLkot6Mod
SNVT_count_f
36
750-361
ProtoNode Gateway Table 14: CB120 Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) LOCKOUT7_MSG
AI
23
AI
23
40052
nvoXXXLkot7Msg
SNVT_count_f
LOCKOUT7_MODULE
AI
24
AI
24
40053
nvoXXXLkot7Mod
SNVT_count_f
LOCKOUT8_MSG
AI
25
AI
25
40058
nvoXXXLkot8Msg
SNVT_count_f
LOCKOUT8_MODULE
AI
26
AI
26
40059
nvoXXXLkot8Mod
SNVT_count_f
LOCKOUT9_MSG
AI
27
AI
27
40064
nvoXXXLkot9Msg
SNVT_count_f
LOCKOUT9_MODULE
AI
28
AI
28
40065
nvoXXXLkot9Mod
SNVT_count_f
LOCKOUT10_MSG
AI
29
AI
29
40070
nvoXXXLkot10Msg
SNVT_count_f
LOCKOUT10_MODULE
AI
30
AI
30
40071
nvoXXXLkot10Mod
SNVT_count_f
LOCKOUT1_BNRHRS
AI
31
AI
31
40018‐19
nvoXXXLkot1BnrHrs
SNVT_time_hour
LOCKOUT1_BNRCYCS
AI
32
AI
32
40020‐21
nvoXXXLkot1BnrCyc
SNVT_count_f
LOCKOUT2_BNRHRS
AI
33
AI
33
40024‐25
nvoXXXLkot2BnrHrs
SNVT_time_hour
LOCKOUT2_BNRCYCS
AI
34
AI
34
40026‐27
nvoXXXLkot2BnrCyc
SNVT_count_f
LOCKOUT3_BNRHRS
AI
35
AI
35
40030‐31
nvoXXXLkot3BnrHrs
SNVT_time_hour
LOCKOUT3_BNRCYCS
AI
36
AI
36
40032‐34
nvoXXXLkot3BnrCyc
SNVT_count_f
LOCKOUT4_BNRHRS
AI
37
AI
37
40036‐37
nvoXXXLkot4BnrHrs
SNVT_time_hour
LOCKOUT4_BNRCYCS
AI
38
AI
38
40038‐39
nvoXXXLkot4BnrCyc
SNVT_count_f
LOCKOUT5_BNRHRS
AI
39
AI
39
40042‐43
nvoXXXLkot5BnrHrs
SNVT_time_hour
LOCKOUT5_BNRCYCS
AI
40
AI
40
40044‐45
nvoXXXLkot5BnrCyc
SNVT_count_f
LOCKOUT6_BNRHRS
AI
41
AI
41
40048‐49
nvoXXXLkot6BnrHrs
SNVT_time_hour
LOCKOUT6_BNRCYCS
AI
42
AI
42
40050‐51
nvoXXXLkot6BnrCyc
SNVT_count_f
LOCKOUT7_BNRHRS
AI
43
AI
43
40054‐55
nvoXXXLkot7BnrHrs
SNVT_time_hour
LOCKOUT7_BNRCYCS
AI
44
AI
44
40056‐57
nvoXXXLkot7BnrCyc
SNVT_count_f
LOCKOUT8_BNRHRS
AI
45
AI
45
40060‐61
nvoXXXLkot8BnrHrs
SNVT_time_hour
LOCKOUT8_BNRCYCS
AI
46
AI
46
40062‐63
nvoXXXLkot8BnrCyc
SNVT_count_f
LOCKOUT9_BNRHRS
AI
47
AI
47
40066‐67
nvoXXXLkot9BnrHrs
SNVT_time_hour SNVT_count_f
LOCKOUT9_BNRCYCS
AI
48
AI
48
40068‐69
nvoXXXLkot9BnrCyc
LOCKOUT10_BNRHRS
AI
49
AI
49
40072‐73
nvoXXXLkot10BnrHrs
SNVT_time_hour
LOCKOUT10_BNRCYCS
AI
50
AI
50
40074‐75
nvoXXXLkot10BnrCyc
SNVT_count_f
Op_Control
BI
25
DI
25
40901
0
nvoXXXOpControl
SNVT_switch
Aux_1
BI
26
DI
26
40901
1
nvoXXXAux1
SNVT_switch
Aux_2
BI
27
DI
27
40901
2
nvoXXXAux2
SNVT_switch
Aux_3
BI
28
DI
28
40901
3
nvoXXXAux3
SNVT_switch
High_water
BI
29
DI
29
40901
4
nvoXXXHiwater
SNVT_switch
Low_Water
BI
30
DI
30
40901
5
nvoXXXLoWater
SNVT_switch
High_Oil_Temp
BI
31
DI
31
40901
6
nvoXXXHiOilTemp
SNVT_switch
Low_Oil_Temp
BI
32
DI
32
40901
7
nvoXXXLoOilTemp
SNVT_switch
Low_Oil_Press
BI
33
DI
33
40902
0
nvoXXXLoOilPress
SNVT_switch
Low_Atom_Media
BI
34
DI
34
40902
1
nvoXXXLoAtomMedia
SNVT_switch
Low_Gas_Press
BI
35
DI
35
40902
2
nvoXXXLoGasPress
SNVT_switch
High_Gas_Press
BI
36
DI
36
40902
3
nvoXXXHiGasPress
SNVT_switch
Aux_Gas
BI
37
DI
37
40902
4
nvoXXXAuxGas
SNVT_switch
High_Press
BI
38
DI
38
40902
5
nvoXXXHiPress
SNVT_switch
High_Temp
BI
39
DI
39
40902
6
nvoXXXHiTemp
SNVT_switch
Aux_4
BI
40
DI
40
40902
7
nvoXXXAux4
SNVT_switch
Aux_5
BI
41
DI
41
40903
0
nvoXXXAux5
SNVT_switch
Aux_6
BI
42
DI
42
40903
1
nvoXXXAux6
SNVT_switch
Aux_7
BI
43
DI
43
40903
2
nvoXXXAux7
SNVT_switch
Air_Flow
BI
44
DI
44
40903
3
nvoXXXAirFLo
SNVT_switch
750-361
37
ProtoNode Gateway B.5. HSC Table 15: HSC Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks BACnet Object Type AI
BACnet Object ID 1
N2 Data Type AI
N2 Point Address 1
Modbus Register 30021
TBD
TBD
C Boiler 1 Alarm Word
AI
2
AI
2
30022
TBD
TBD
C Boiler 1 Hours Word 1
AI
3
AI
3
30023
TBD
TBD
C Boiler 1 Hours Word 2
AI
4
AI
4
30024
TBD
TBD
C Boiler 1 Cycles Word 1
AI
5
AI
5
30025
TBD
TBD
C Boiler 1 Cycles Word 2
AI
6
AI
6
30026
TBD
TBD
C Boiler 1 Status Bits
AI
7
AI
7
30027
TBD
TBD
C Boiler 1 Inlet Temp
AI
8
AI
8
30028
TBD
TBD
C Boiler 1 Fire Delay
AI
9
AI
9
30029
TBD
TBD
C Boiler 1 Outlet Temp
AI
10
AI
10
30030
TBD
TBD
Point Name C Boiler 1 State
Lon Name
Lon SNVT
C Boiler 2 State
AI
11
AI
11
30031
TBD
TBD
C Boiler 2 Alarm Word
AI
12
AI
12
30032
TBD
TBD
C Boiler 2 Hours Word 1
AI
13
AI
13
30033
TBD
TBD
C Boiler 2 Hours Word 2
AI
14
AI
14
30034
TBD
TBD
C Boiler 2 Cycles Word 1
AI
15
AI
15
30035
TBD
TBD
C Boiler 2 Cycles Word 2
AI
16
AI
16
30036
TBD
TBD
C Boiler 2 Status Bits
AI
17
AI
17
30037
TBD
TBD
C Boiler 2 Inlet Temp
AI
18
AI
18
30038
TBD
TBD
C Boiler 2 Fire Delay
AI
19
AI
19
30039
TBD
TBD
C Boiler 2 Outlet Temp
AI
20
AI
20
30040
TBD
TBD
C Boiler 3 State
AI
21
AI
21
30041
TBD
TBD
C Boiler 3 Alarm Word
AI
22
AI
22
30042
TBD
TBD
C Boiler 3 Hours Word 1
AI
23
AI
23
30043
TBD
TBD
C Boiler 3 Hours Word 2
AI
24
AI
24
30044
TBD
TBD
C Boiler 3 Cycles Word 1
AI
25
AI
25
30045
TBD
TBD
C Boiler 3 Cycles Word 2
AI
26
AI
26
30046
TBD
TBD
C Boiler 3 Status Bits
AI
27
AI
27
30047
TBD
TBD
C Boiler 3 Inlet Temp
AI
28
AI
28
30048
TBD
TBD
C Boiler 3 Fire Delay
AI
29
AI
29
30049
TBD
TBD
C Boiler 3 Outlet Temp
AI
30
AI
30
30050
TBD
TBD
C Boiler 4 State
AI
31
AI
31
30051
TBD
TBD
C Boiler 4 Alarm Word
AI
32
AI
32
30052
TBD
TBD
C Boiler 4 Hours Word 1
AI
33
AI
33
30053
TBD
TBD
C Boiler 4 Hours Word 2
AI
34
AI
34
30054
TBD
TBD
C Boiler 4 Cycles Word 1
AI
35
AI
35
30055
TBD
TBD
C Boiler 4 Cycles Word 2
AI
36
AI
36
30056
TBD
TBD
C Boiler 4 Status Bits
AI
37
AI
37
30057
TBD
TBD
C Boiler 4 Inlet Temp
AI
38
AI
38
30058
TBD
TBD
C Boiler 4 Fire Delay
AI
39
AI
39
30059
TBD
TBD
C Boiler 4 Outlet Temp
AI
40
AI
40
30060
TBD
TBD
C Boiler 5 State
AI
41
AI
41
30061
TBD
TBD
C Boiler 5 Alarm Word
AI
42
AI
42
30062
TBD
TBD
C Boiler 5 Hours Word 1
AI
43
AI
43
30063
TBD
TBD
C Boiler 5 Hours Word 2
AI
44
AI
44
30064
TBD
TBD
C Boiler 5 Cycles Word 1
AI
45
AI
45
30065
TBD
TBD
C Boiler 5 Cycles Word 2
AI
46
AI
46
30066
TBD
TBD
C Boiler 5 Status Bits
AI
47
AI
47
30067
TBD
TBD
38
750-361
ProtoNode Gateway Table 15: HSC Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) C Boiler 5 Inlet Temp
AI
48
AI
48
30068
C Boiler 5 Fire Delay
AI
C Boiler 5 Outlet Temp
AI
TBD
TBD
49
AI
49
30069
TBD
TBD
50
AI
50
30070
TBD
TBD
C Boiler 6 State
AI
51
AI
51
30071
TBD
TBD
C Boiler 6 Alarm Word
AI
52
AI
52
30072
TBD
TBD
C Boiler 6 Hours Word 1
AI
53
AI
53
30073
TBD
TBD
C Boiler 6 Hours Word 2
AI
54
AI
54
30074
TBD
TBD
C Boiler 6 Cycles Word 1
AI
55
AI
55
30075
TBD
TBD
C Boiler 6 Cycles Word 2
AI
56
AI
56
30076
TBD
TBD
C Boiler 6 Status Bits
AI
57
AI
57
30077
TBD
TBD
C Boiler 6 Inlet Temp
AI
58
AI
58
30078
TBD
TBD
C Boiler 6 Fire Delay
AI
59
AI
59
30079
TBD
TBD
C Boiler 6 Outlet Temp
AI
60
AI
60
30080
TBD
TBD
C Boiler 7 State
AI
61
AI
61
30081
TBD
TBD
C Boiler 7 Alarm Word
AI
62
AI
62
30082
TBD
TBD
C Boiler 7 Hours Word 1
AI
63
AI
63
30083
TBD
TBD
C Boiler 7 Hours Word 2
AI
64
AI
64
30084
TBD
TBD
C Boiler 7 Cycles Word 1
AI
65
AI
65
30085
TBD
TBD
C Boiler 7 Cycles Word 2
AI
66
AI
66
30086
TBD
TBD
C Boiler 7 Status Bits
AI
67
AI
67
30087
TBD
TBD
C Boiler 7 Inlet Temp
AI
68
AI
68
30088
TBD
TBD
C Boiler 7 Fire Delay
AI
69
AI
69
30089
TBD
TBD
C Boiler 7 Outlet Temp
AI
70
AI
70
30090
TBD
TBD
C Boiler 8 State
AI
71
AI
71
30091
TBD
TBD
C Boiler 8 Alarm Word
AI
72
AI
72
30092
TBD
TBD
C Boiler 8 Hours Word 1
AI
73
AI
73
30093
TBD
TBD
C Boiler 8 Hours Word 2
AI
74
AI
74
30094
TBD
TBD
C Boiler 8 Cycles Word 1
AI
75
AI
75
30095
TBD
TBD
C Boiler 8 Cycles Word 2
AI
76
AI
76
30096
TBD
TBD
C Boiler 8 Status Bits
AI
77
AI
77
30097
TBD
TBD
C Boiler 8 Inlet Temp
AI
78
AI
78
30098
TBD
TBD
C Boiler 8 Fire Delay
AI
79
AI
79
30099
TBD
TBD
C Boiler 8 Outlet Temp
AI
80
AI
80
30100
TBD
TBD
C Boiler 9 State
AI
81
AI
81
30101
TBD
TBD
C Boiler 9 Alarm Word
AI
82
AI
82
30102
TBD
TBD
C Boiler 9 Hours Word 1
AI
83
AI
83
30103
TBD
TBD
C Boiler 9 Hours Word 2
AI
84
AI
84
30104
TBD
TBD
C Boiler 9 Cycles Word 1
AI
85
AI
85
30105
TBD
TBD
C Boiler 9 Cycles Word 2
AI
86
AI
86
30106
TBD
TBD
C Boiler 9 Status Bits
AI
87
AI
87
30107
TBD
TBD
C Boiler 9 Inlet Temp
AI
88
AI
88
30108
TBD
TBD
C Boiler 9 Fire Delay
AI
89
AI
89
30109
TBD
TBD
C Boiler 9 Outlet Temp
AI
90
AI
90
30110
TBD
TBD
C Boiler 10 State
AI
91
AI
91
30111
TBD
TBD
C Boiler 10 Alarm Word
AI
92
AI
92
30112
TBD
TBD
C Boiler 10 Hours Word 1
AI
93
AI
93
30113
TBD
TBD
C Boiler 10 Hours Word 2
AI
94
AI
94
30114
TBD
TBD
C Boiler 10 Cycles Word 1
AI
95
AI
95
30115
TBD
TBD
C Boiler 10 Cycles Word 2
AI
96
AI
96
30116
TBD
TBD
C Boiler 10 Status Bits
AI
97
AI
97
30117
TBD
TBD
750-361
39
ProtoNode Gateway Table 15: HSC Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) C Boiler 10 Inlet Temp
AI
98
AI
98
30118
TBD
TBD
C Boiler 10 Fire Delay C Boiler 10 Outlet Temp
AI
99
AI
100
AI
99
AI
100
30119
TBD
TBD
30120
TBD
NC Boiler A State
AI
101
AI
TBD
101
30121
TBD
NC Boiler A Alarm Word
AI
102
TBD
AI
102
30122
TBD
NC Boiler A Hours Word 1
AI
TBD
103
AI
103
30123
TBD
NC Boiler A Hours Word 2
TBD
AI
104
AI
104
30124
TBD
TBD
NC Boiler A Cycles Word 1
AI
105
AI
105
30125
TBD
TBD
NC Boiler A Cycles Word 2
AI
106
AI
106
30126
TBD
TBD
NC Boiler A Status Bits
AI
107
AI
107
30127
TBD
TBD
NC Boiler A Inlet Temp
AI
108
AI
108
30128
TBD
TBD
NC Boiler A Fire Delay
AI
109
AI
109
30129
TBD
TBD
NC Boiler A Outlet Temp
AI
110
AI
110
30130
TBD
TBD
NC Boiler B State
AI
111
AI
111
30131
TBD
TBD
NC Boiler B Alarm Word
AI
112
AI
112
30132
TBD
TBD
NC Boiler B Hours Word 1
AI
113
AI
113
30133
TBD
TBD
NC Boiler B Hours Word 2
AI
114
AI
114
30134
TBD
TBD
NC Boiler B Cycles Word 1
AI
115
AI
115
30135
TBD
TBD
NC Boiler B Cycles Word 2
AI
116
AI
116
30136
TBD
TBD
NC Boiler B Status Bits
AI
117
AI
117
30137
TBD
TBD
NC Boiler B Inlet Temp
AI
118
AI
118
30138
TBD
TBD
NC Boiler B Fire Delay
AI
119
AI
119
30139
TBD
TBD
NC Boiler B Outlet Temp
AI
120
AI
120
30140
TBD
TBD
NC Boiler C State
AI
121
AI
121
30141
TBD
TBD
NC Boiler C Alarm Word
AI
122
AI
122
30142
TBD
TBD
NC Boiler C Hours Word 1
AI
123
AI
123
30143
TBD
TBD
NC Boiler C Hours Word 2
AI
124
AI
124
30144
TBD
TBD
NC Boiler C Cycles Word 1
AI
125
AI
125
30145
TBD
TBD
NC Boiler C Cycles Word 2
AI
126
AI
126
30146
TBD
TBD
NC Boiler C Status Bits
AI
127
AI
127
30147
TBD
TBD
NC Boiler C Inlet Temp
AI
128
AI
128
30148
TBD
TBD
NC Boiler C Fire Delay
AI
129
AI
129
30149
TBD
TBD
NC Boiler C Outlet Temp
AI
130
AI
130
30150
TBD
TBD
NC Boiler D State
AI
131
AI
131
30151
TBD
TBD
NC Boiler D Alarm Word
AI
132
AI
132
30152
TBD
TBD
NC Boiler D Hours Word 1
AI
133
AI
133
30153
TBD
TBD
NC Boiler D Hours Word 2
AI
134
AI
134
30154
TBD
TBD
NC Boiler D Cycles Word 1
AI
135
AI
135
30155
TBD
TBD
NC Boiler D Cycles Word 2
AI
136
AI
136
30156
TBD
TBD
NC Boiler D Status Bits
AI
137
AI
137
30157
TBD
TBD
NC Boiler D Inlet Temp
AI
138
AI
138
30158
TBD
TBD
NC Boiler D Fire Delay
AI
139
AI
139
30159
TBD
TBD
NC Boiler D Outlet Temp
AI
140
AI
140
30160
TBD
TBD
NC Boiler E State
AI
141
AI
141
30161
TBD
TBD
NC Boiler E Alarm Word
AI
142
AI
142
30162
TBD
TBD
NC Boiler E Hours Word 1
AI
143
AI
143
30163
TBD
TBD
NC Boiler E Hours Word 2
AI
144
AI
144
30164
TBD
TBD
NC Boiler E Cycles Word 1
AI
145
AI
145
30165
TBD
TBD
NC Boiler E Cycles Word 2
AI
146
AI
146
30166
TBD
TBD
NC Boiler E Status Bits
AI
147
AI
147
30167
TBD
TBD
40
750-361
ProtoNode Gateway Table 15: HSC Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) NC Boiler E Inlet Temp
AI
148
AI
148
30168
TBD
TBD
NC Boiler E Fire Delay
AI
149
AI
149
NC Boiler E Outlet Temp
AI
150
AI
150
30169
TBD
TBD
30170
TBD
NC Boiler F State
AI
151
AI
TBD
151
30171
TBD
NC Boiler F Alarm Word
AI
152
TBD
AI
152
30172
TBD
NC Boiler F Hours Word 1
AI
TBD
153
AI
153
30173
TBD
NC Boiler F Hours Word 2
TBD
AI
154
AI
154
30174
TBD
TBD
NC Boiler F Cycles Word 1
AI
155
AI
155
30175
TBD
TBD
NC Boiler F Cycles Word 2
AI
156
AI
156
30176
TBD
TBD
NC Boiler F Status Bits
AI
157
AI
157
30177
TBD
TBD
NC Boiler F Inlet Temp
AI
158
AI
158
30178
TBD
TBD
NC Boiler F Fire Delay
AI
159
AI
159
30179
TBD
TBD
NC Boiler F Outlet Temp
AI
160
AI
160
30180
TBD
TBD
NC Boiler G State
AI
161
AI
161
30181
TBD
TBD
NC Boiler G Alarm Word
AI
162
AI
162
30182
TBD
TBD
NC Boiler G Hours Word 1
AI
163
AI
163
30183
TBD
TBD
NC Boiler G Hours Word 2
AI
164
AI
164
30184
TBD
TBD
NC Boiler G Cycles Word 1
AI
165
AI
165
30185
TBD
TBD
NC Boiler G Cycles Word 2
AI
166
AI
166
30186
TBD
TBD
NC Boiler G Status Bits
AI
167
AI
167
30187
TBD
TBD
NC Boiler G Inlet Temp
AI
168
AI
168
30188
TBD
TBD
NC Boiler G Fire Delay
AI
169
AI
169
30189
TBD
TBD TBD
NC Boiler G Outlet Temp
AI
170
AI
170
30190
TBD
NC Boiler H State
AI
171
AI
171
30191
TBD
TBD
NC Boiler H Alarm Word
AI
172
AI
172
30192
TBD
TBD
NC Boiler H Hours Word 1
AI
173
AI
173
30193
TBD
TBD
NC Boiler H Hours Word 2
AI
174
AI
174
30194
TBD
TBD
NC Boiler H Cycles Word 1
AI
175
AI
175
30195
TBD
TBD
NC Boiler H Cycles Word 2
AI
176
AI
176
30196
TBD
TBD
NC Boiler H Status Bits
AI
177
AI
177
30197
TBD
TBD
NC Boiler H Inlet Temp
AI
178
AI
178
30198
TBD
TBD
NC Boiler H Fire Delay
AI
179
AI
179
30199
TBD
TBD
NC Boiler H Outlet Temp
AI
180
AI
180
30200
TBD
TBD
NC Boiler I State
AI
181
AI
181
30201
TBD
TBD
NC Boiler I Alarm Word
AI
182
AI
182
30202
TBD
TBD
NC Boiler I Hours Word 1
AI
183
AI
183
30203
TBD
TBD
NC Boiler I Hours Word 2
AI
184
AI
184
30204
TBD
TBD
NC Boiler I Cycles Word 1
AI
185
AI
185
30205
TBD
TBD
NC Boiler I Cycles Word 2
AI
186
AI
186
30206
TBD
TBD
NC Boiler I Status Bits
AI
187
AI
187
30207
TBD
TBD
NC Boiler I Inlet Temp
AI
188
AI
188
30208
TBD
TBD
NC Boiler I Fire Delay
AI
189
AI
189
30209
TBD
TBD
NC Boiler I Outlet Temp
AI
190
AI
190
30210
TBD
TBD
NC Boiler J State
AI
191
AI
191
30211
TBD
TBD
NC Boiler J Alarm Word
AI
192
AI
192
30212
TBD
TBD
NC Boiler J Hours Word 1
AI
193
AI
193
30213
TBD
TBD
NC Boiler J Hours Word 2
AI
194
AI
194
30214
TBD
TBD
NC Boiler J Cycles Word 1
AI
195
AI
195
30215
TBD
TBD
NC Boiler J Cycles Word 2
AI
196
AI
196
30216
TBD
TBD
NC Boiler J Status Bits
AI
197
AI
197
30217
TBD
TBD
750-361
41
ProtoNode Gateway Table 15: HSC Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) NC Boiler J Inlet Temp
AI
198
AI
198
30218
TBD
TBD
NC Boiler J Fire Delay
AI
199
AI
199
30219
TBD
TBD
NC Boiler J Outlet Temp
AI
200
AI
200
30220
TBD
TBD
Rem System Pump Module Input Word
AI
201
AI
201
30221
TBD
TBD
Rem System Pump Module Output Word
AI
202
AI
202
30222
TBD
TBD
Number of Remote System Pumps
AI
203
AI
203
30223
TBD
TBD
Pump Module Analog In 1 Scaled Value
AI
247
AI
247
30224
TBD
TBD
Pump Module Analog In 2 Scaled Value
AI
248
AI
248
30226
TBD
TBD
System Pump Speed Requested
AI
249
AI
249
30228
TBD
TBD
Pump PID Process Variable
AI
250
AI
250
30230
TBD
TBD
Pump PID Setpoint
AI
251
AI
251
30232
TBD
TBD
Rem System Pump Lead Pump Number
AI
204
AI
204
30234
TBD
TBD
Rem System Pump Lag1 Pump Number
AI
205
AI
205
30235
TBD
TBD
Rem System Pump Lag2 Pump Number
AI
206
AI
206
30236
TBD
TBD
Rem System Pump Lag3 Pump Number
AI
207
AI
207
30237
TBD
TBD
Alarm Word 1 Value
AI
208
AI
208
30300
TBD
TBD
Alarm Word 2 Value
AI
209
AI
209
30301
TBD
TBD
Digital Input Word Value
AI
210
AI
210
30302
TBD
TBD
Digital Output Word 1 Value
AI
211
AI
211
30303
TBD
TBD
Digital Output Word 2 Value
AI
212
AI
212
30304
TBD
TBD
Number of Cond Boilers Running
AI
213
AI
213
30305
TBD
TBD
Number of Cond Boilers Requested
AI
214
AI
214
30306
TBD
TBD
Number of Non‐Cond Boilers Running
AI
215
AI
215
30307
TBD
TBD
Number of Non‐Cond Boilers Requested
AI
216
AI
216
30308
TBD
TBD
Number of Cond Boilers in System
AI
217
AI
217
30309
TBD
TBD
Number of Non‐Cond Boilers in System
AI
218
AI
218
30310
TBD
TBD
Cond Lead Boiler Number
AI
219
AI
219
30311
TBD
TBD
Cond Lag1 Boiler Number
AI
220
AI
220
30312
TBD
TBD
Cond Lag2 Boiler Number
AI
221
AI
221
30313
TBD
TBD
Cond Lag3 Boiler Number
AI
222
AI
222
30314
TBD
TBD
Cond Lag4 Boiler Number
AI
223
AI
223
30315
TBD
TBD
Cond Lag5 Boiler Number
AI
224
AI
224
30316
TBD
TBD
Cond Lag6 Boiler Number
AI
225
AI
225
30317
TBD
TBD
Cond Lag7 Boiler Number
AI
226
AI
226
30318
TBD
TBD
Cond Lag8 Boiler Number
AI
227
AI
227
30319
TBD
TBD
Cond Lag9 Boiler Number
AI
228
AI
228
30320
TBD
TBD
Non‐Cond Lead Boiler Number
AI
229
AI
229
30321
TBD
TBD
Non‐Cond Lag1 Boiler Number
AI
230
AI
230
30322
TBD
TBD
Non‐Cond Lag2 Boiler Number
AI
231
AI
231
30323
TBD
TBD
Non‐Cond Lag3 Boiler Number
AI
232
AI
232
30324
TBD
TBD
Non‐Cond Lag4 Boiler Number
AI
233
AI
233
30325
TBD
TBD
Non‐Cond Lag5 Boiler Number
AI
234
AI
234
30326
TBD
TBD
Non‐Cond Lag6 Boiler Number
AI
235
AI
235
30327
TBD
TBD
Non‐Cond Lag7 Boiler Number
AI
236
AI
236
30328
TBD
TBD
Non‐Cond Lag8 Boiler Number
AI
237
AI
237
30329
TBD
TBD
Non‐Cond Lag9 Boiler Number
AI
238
AI
238
30330
TBD
TBD
Damper Mod 1 Input (Prove) Data
AI
239
AI
239
30340
TBD
TBD
Damper Mod 1 Output (Reqired) Data
AI
240
AI
240
30341
TBD
TBD
Damper Mod 2 Input (Prove) Data
AI
241
AI
241
30342
TBD
TBD
Damper Mod 2 Output (Reqired) Data
AI
242
AI
242
30343
TBD
TBD
42
750-361
ProtoNode Gateway Table 15: HSC Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued)
* * * *
Damper Mod 3 Input (Prove) Data
AI
243
AI
243
30344
TBD
TBD
Damper Mod 3 Output (Reqired) Data
AI
244
AI
244
30345
TBD
TBD
Damper Mod 4 Input (Prove) Data
AI
245
AI
245
30346
TBD
TBD
Damper Mod 4 Output (Reqired) Data
AI
246
AI
246
30347
TBD
TBD
Cond Boiler Header Temp
AI
252
AI
252
40280
TBD
TBD
Main Supply Header Temp
AI
253
AI
253
40282
TBD
TBD
System Return Temp
AI
254
AI
254
40284
TBD
TBD
OA Temp or Remote Analog SP Value
AI
255
AI
255
40286
TBD
TBD
DHW Setpoint
AI
256
AI
256
40300
TBD
TBD
Cold Building Setpoint
AI
257
ADF
1
40304
TBD
TBD
Remote Analog Input Setpoint Value
AI
258
ADF
2
40306
TBD
TBD
Remote Modbus Setpoint Value
AV
1
AO
1
40308
TBD
TBD
Remote Modbus Outdoor Air Temp
AV
2
AO
2
40310
TBD
TBD
Remote Modbus System Enable
AV
3
AO
3
40312
TBD
TBD
Modbus Heartbeat
AV
4
AO
4
40314
TBD
TBD
Deadband Cond/Non‐Cond Mode Sw Temp
AI
259
ADF
3
40318
TBD
TBD
OA Temp Low Value for Reset Curve
AI
260
ADF
4
40320
TBD
TBD
OA Temp High Value for Reset Curve
AI
261
ADF
5
40322
TBD
TBD
Loop Setpoint at Cold (low) OAT
AI
262
ADF
6
40324
TBD
TBD
Loop Setpoint at Warm (high) OAT
AI
263
ADF
7
40326
TBD
TBD
Min Inlet Temp for Non‐Cond Boilers
AI
264
ADF
8
40328
TBD
TBD
Non‐Cond Reset Shift
AI
265
ADF
9
40336
TBD
TBD
NC/Cond Switch Temp
AI
266
ADF
10
40338
TBD
TBD
Read only NC Header SP (active)
AI
267
ADF
11
40340
TBD
TBD
Read only Cond Header SP (active)
AI
268
ADF
12
40342
TBD
TBD
System Mode
AI
312
ADF
13
40344
TBD
TBD
Cond Boiler Status
AI
313
ADF
14
40345
TBD
TBD
Non‐Cond Boiler Status
AI
314
ADF
15
40346
TBD
TBD
Firing rate for Cond boiler group
AI
269
ADF
16
40348
TBD
TBD
Firing rate for non‐Cond boiler group
AI
270
ADF
17
40350
TBD
TBD
Warm Weather Shutdown Temp
AI
271
ADF
18
40352
TBD
TBD
Cond Boiler 1 Run Hours
AI
272
ADF
19
40390
TBD
TBD
Cond Boiler 2 Run Hours
AI
273
ADF
20
40392
TBD
TBD
Cond Boiler 3 Run Hours
AI
274
ADF
21
40394
TBD
TBD
Cond Boiler 4 Run Hours
AI
275
ADF
22
40396
TBD
TBD
Cond Boiler 5 Run Hours
AI
276
ADF
23
40398
TBD
TBD
Cond Boiler 6 Run Hours
AI
277
ADF
24
40400
TBD
TBD
Cond Boiler 7 Run Hours
AI
278
ADF
25
40402
TBD
TBD
Cond Boiler 8 Run Hours
AI
279
ADF
26
40404
TBD
TBD
Cond Boiler 9 Run Hours
AI
280
ADF
27
40406
TBD
TBD
Cond Boiler 10 Run Hours
AI
281
ADF
28
40408
TBD
TBD
Non‐Cond Boiler A Run Hours
AI
282
ADF
29
40410
TBD
TBD
Non‐Cond Boiler B Run Hours
AI
283
ADF
30
40412
TBD
TBD
Non‐Cond Boiler C Run Hours
AI
284
ADF
31
40414
TBD
TBD
Non‐Cond Boiler D Run Hours
AI
285
ADF
32
40416
TBD
TBD
Non‐Cond Boiler E Run Hours
AI
286
ADF
33
40418
TBD
TBD
Non‐Cond Boiler F Run Hours
AI
287
ADF
34
40420
TBD
TBD
Non‐Cond Boiler G Run Hours
AI
288
ADF
35
40422
TBD
TBD
Non‐Cond Boiler H Run Hours
AI
289
ADF
36
40424
TBD
TBD
Non‐Cond Boiler I Run Hours
AI
290
ADF
37
40426
TBD
TBD
750-361
43
ProtoNode Gateway Table 15: HSC Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Non‐Cond Boiler J Run Hours
AI
291
ADF
38
40428
TBD
TBD
Cond Boiler 1 Run Cycles
AI
292
ADF
39
40430
TBD
TBD
Cond Boiler 2 Run Cycles
AI
293
ADF
40
40432
TBD
TBD
Cond Boiler 3 Run Cycles
AI
294
ADF
41
40434
TBD
TBD
Cond Boiler 4 Run Cycles
AI
295
ADF
42
40436
TBD
TBD
Cond Boiler 5 Run Cycles
AI
296
ADF
43
40438
TBD
TBD
Cond Boiler 6 Run Cycles
AI
297
ADF
44
40440
TBD
TBD
Cond Boiler 7 Run Cycles
AI
298
ADF
45
40442
TBD
TBD
Cond Boiler 8 Run Cycles
AI
299
ADF
46
40444
TBD
TBD TBD
Cond Boiler 9 Run Cycles
AI
300
ADF
47
40446
TBD
Cond Boiler 10 Run Cycles
AI
301
ADF
48
40448
TBD
TBD
Non‐Cond Boiler A Run Cycles
AI
302
ADF
49
40450
TBD
TBD
Non‐Cond Boiler B Run Cycles
AI
303
ADF
50
40452
TBD
TBD
Non‐Cond Boiler C Run Cycles
AI
304
ADF
51
40454
TBD
TBD
Non‐Cond Boiler D Run Cycles
AI
305
ADF
52
40456
TBD
TBD
Non‐Cond Boiler E Run Cycles
AI
306
ADF
53
40458
TBD
TBD
Non‐Cond Boiler F Run Cycles
AI
307
ADF
54
40460
TBD
TBD
Non‐Cond Boiler G Run Cycles
AI
308
ADF
55
40462
TBD
TBD
Non‐Cond Boiler H Run Cycles
AI
309
ADF
56
40464
TBD
TBD
Non‐Cond Boiler I Run Cycles
AI
310
ADF
57
40466
TBD
TBD
Non‐Cond Boiler J Run Cycles
AI
311
ADF
58
40468
TBD
TBD
*Write points
44
750-361
ProtoNode Gateway B.6. LCS Table 16: LCS Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks
Tank 1 Level
BACnet Object Type AI
BACnet Object ID 101
N2 Data Type AI
N2 Point Address 1
Modbus Register 40050
Tank 2 Level
AI
102
AI
2
40051
Point Name
Lon Name
Lon SNVT
TBD
TBD
TBD
TBD
Primary Valve Position
AI
103
AI
3
40052
TBD
TBD
Secondary Valve Position
AI
104
AI
4
40053
TBD
TBD
Digital Inputs
AI
105
AI
5
40054
TBD
TBD
Digital Outputs
AI
106
AI
6
40055
TBD
TBD
Alarm Word
AI
107
AI
7
40056
TBD
TBD
Tank 1 Level Setpoint
AI
108
AI
8
40057
TBD
TBD
Tank 2 Level Setpoint
AI
109
AI
9
40058
TBD
TBD
Common Alarm
BI
230
DI
30
10001
TBD
TBD
Tank 1 LWCO Alarm
BI
231
DI
31
10002
TBD
TBD
Tank 1 LLW Alarm
BI
232
DI
32
10003
TBD
TBD
Tank 1 LW Alarm
BI
233
DI
33
10004
TBD
TBD
Tank 1 HW Alarm
BI
234
DI
34
10005
TBD
TBD
Tank 1 HHW Alarm
BI
235
DI
35
10006
TBD
TBD
Tank 2 LWCO Alarm
BI
236
DI
36
10007
TBD
TBD
Tank 2 LLW Alarm
BI
237
DI
37
10008
TBD
TBD
Tank 2 LW Alarm
BI
238
DI
38
10009
TBD
TBD
Tank 2 HW Alarm
BI
239
DI
39
10010
TBD
TBD
Tank 2 HHW Alarm
BI
240
DI
40
10011
TBD
TBD
Analog In Failure
BI
241
DI
41
10012
TBD
TBD
Spare Alarm Bit 40056_12
BI
242
DI
42
10013
TBD
TBD
Spare Alarm Bit 40056_13
BI
243
DI
43
10014
TBD
TBD
Spare Alarm Bit 40056_14
BI
244
DI
44
10015
TBD
TBD
Spare Alarm Bit 40056_15
BI
245
DI
45
10016
TBD
TBD
Tank 1 LWCO Contacts
BI
246
DI
46
10017
TBD
TBD
Tank 1 LLW Contacts
BI
247
DI
47
10018
TBD
TBD
Tank 1 LW Contacts
BI
248
DI
48
10019
TBD
TBD
Tank 1 HW Contacts
BI
249
DI
49
10020
TBD
TBD
Tank 1 HHW Contacts
BI
250
DI
50
10021
TBD
TBD
Tank 2 LWCO Contacts
BI
251
DI
51
10022
TBD
TBD
Tank 2 LLW Contacts
BI
252
DI
52
10023
TBD
TBD
Tank 2 LW Contacts
BI
253
DI
53
10024
TBD
TBD
Tank 2 HW Contacts
BI
254
DI
54
10025
TBD
TBD
Tank 2 HHW Contacts
BI
255
DI
55
10026
TBD
TBD
Digital Input 1 Status
BI
256
DI
56
10027
TBD
TBD
Digital Input 2 Status
BI
257
DI
57
10028
TBD
TBD
Digital Input 3 Status
BI
258
DI
58
10029
TBD
TBD
Digital Input 4 Status
BI
259
DI
59
10030
TBD
TBD
Digital Input 5 Status
BI
260
DI
60
10031
TBD
TBD
Digital Input 6 Status
BI
261
DI
61
10032
TBD
TBD
Digital Input 7 Status
BI
262
DI
62
10033
TBD
TBD
Digital Input 8 Status
BI
263
DI
63
10034
TBD
TBD
Digital Input 9 Status
BI
264
DI
64
10035
TBD
TBD
Digital Input 10 Status
BI
265
DI
65
10036
TBD
TBD
Digital Input 11 Status
BI
266
DI
66
10037
TBD
TBD
Digital Input 12 Status
BI
267
DI
67
10038
TBD
TBD
750-361
45
ProtoNode Gateway Table 16: LCS Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Digital Output 1 Status
BI
268
DI
68
10039
TBD
TBD
Digital Output 2 Status
BI
269
DI
69
10040
TBD
TBD
Digital Output 3 Status
BI
270
DI
70
10041
TBD
TBD
Digital Output 4 Status
BI
271
DI
71
10042
TBD
TBD
Digital Output 5 Status
BI
272
DI
72
10043
TBD
TBD
Digital Output 6 Status
BI
273
DI
73
10044
TBD
TBD
Digital Output 7 Status
BI
274
DI
74
10045
TBD
TBD
Digital Output 8 Status
BI
275
DI
75
10046
TBD
TBD
Digital Output 9 Status
BI
276
DI
76
10047
TBD
TBD
Digital Output 10 Status
BI
277
DI
77
10048
TBD
TBD
Digital Output 11 Status
BI
278
DI
78
10049
TBD
TBD
Digital Output 12 Status
BI
279
DI
79
10050
TBD
TBD
46
750-361
ProtoNode Gateway B.7. PCS Table 17: PCS Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks
Header Pressure/Tank Level
BACnet Object Type AI
BACnet Object ID 1
N2 Data Type AI
N2 Point Address 1
Modbus Register 40050
VSD Speed PID Loop Setpoint
AI
2
AI
2
40051
Reserved
AI
3
AI
3
VSD Speed PID Loop Output
AI
4
AI
4
Digital Input Word
AI
5
AI
Digital Output Word
AI
6
Alarm Word 1
AI
Alarm Word 2
Point Name
Lon Name
Lon SNVT
TBD
TBD
TBD
TBD
40052
TBD
TBD
40053
TBD
TBD
5
40054
TBD
TBD
AI
6
40055
TBD
TBD
7
AI
7
40056
TBD
TBD
AI
8
AI
8
40057
TBD
TBD
Lead Pump
AI
9
AI
9
40058
TBD
TBD
Lag 1 Pump
AI
10
AI
10
40059
TBD
TBD
Lag 2 Pump
AI
11
AI
11
40060
TBD
TBD
Standby Pump
AI
12
AI
12
40061
TBD
TBD
Pump 1 Hours (10 000s)
AI
13
AI
13
40062
TBD
TBD
Pump 1 Hours (1s)
AI
14
AI
14
40063
TBD
TBD
Pump 2 Hours (10 000s)
AI
15
AI
15
40064
TBD
TBD
Pump 2 Hours (1s)
AI
16
AI
16
40065
TBD
TBD
Pump 3 Hours (10 000s)
AI
17
AI
17
40066
TBD
TBD
Pump 3 Hours (1s)
AI
18
AI
18
40067
TBD
TBD
Pump 4 Hours (10 000s)
AI
19
AI
19
40068
TBD
TBD
Pump 4 Hours (1s)
AI
20
AI
20
40069
TBD
TBD
VSD Speed Output Signal
AI
21
AI
21
40070
TBD
TBD
Pump 1 Fault
BI
1
DI
1
10001
TBD
TBD
Pump 2 Fault
BI
2
DI
2
10002
TBD
TBD
Pump 3 Fault
BI
3
DI
3
10003
TBD
TBD
Pump 4 Fault
BI
4
DI
4
10004
TBD
TBD
Header Pressure Low Alm
BI
5
DI
5
10005
TBD
TBD
Header Pressure High Alm
BI
6
DI
6
10006
TBD
TBD
Analog Signal Failure
BI
7
DI
7
10007
TBD
TBD
Datalog SD Card Full
BI
8
DI
8
10008
TBD
TBD
Pump 1 in Manual Mode
BI
9
DI
9
10009
TBD
TBD
Pump 2 in Manual Mode
BI
10
DI
10
10010
TBD
TBD
Pump 3 in Manual Mode
BI
11
DI
11
10011
TBD
TBD
Pump 4 in Manual Mode
BI
12
DI
12
10012
TBD
TBD
Source Tank LWCO
BI
13
DI
13
10013
TBD
TBD
Low Battery
BI
14
DI
14
10014
TBD
TBD
External Alm
BI
15
DI
15
10015
TBD
TBD
Level Low Alm
BI
16
DI
16
10016
TBD
TBD
Level High Alm
BI
17
DI
17
10017
TBD
TBD
Alarm Word Bit 1
BI
18
DI
18
10018
TBD
TBD
Alarm Word Bit 2
BI
19
DI
19
10019
TBD
TBD
Alarm Word Bit 3
BI
20
DI
20
10020
TBD
TBD
Alarm Word Bit 4
BI
21
DI
21
10021
TBD
TBD
Alarm Word Bit 5
BI
22
DI
22
10022
TBD
TBD
Alarm Word Bit 6
BI
23
DI
23
10023
TBD
TBD
Alarm Word Bit 7
BI
24
DI
24
10024
TBD
TBD
Alarm Word Bit 8
BI
25
DI
25
10025
TBD
TBD
Alarm Word Bit 9
BI
26
DI
26
10026
TBD
TBD
750-361
47
ProtoNode Gateway Table 17: PCS Modbus RTU Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Alarm Word Bit 10
BI
27
DI
27
10027
TBD
TBD
Alarm Word Bit 11
BI
28
DI
28
10028
TBD
TBD
Alarm Word Bit 12
BI
29
DI
29
10029
TBD
TBD
Alarm Word Bit 13
BI
30
DI
30
10030
TBD
TBD
Alarm Word Bit 14
BI
31
DI
31
10031
TBD
TBD
Alarm Word Bit 15
BI
32
DI
32
10032
TBD
TBD
48
750-361
ProtoNode Gateway B.8. HAWK 1000 Table 18: Hawk 1000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks BACnet Object Type BI
BACnet Object ID 1
Modbus Comm Error
BI
2
Lo Water
BI
Burner Control Alm Boiler Limits Open
N2 Data Type
N2 Point Address
Modbus Register
Lon Name
Lon SNVT
DI
1
10001
TBD
TBD
DI
2
10002
TBD
TBD
3
DI
3
10003
TBD
TBD
BI
4
DI
4
10004
TBD
TBD
BI
5
DI
5
10005
TBD
TBD
Hi Stack Temp Alm
BI
6
DI
6
10006
TBD
TBD
Hi Stack Temp Shutdown
BI
7
DI
7
10007
TBD
TBD
External Interlock
BI
8
DI
8
10008
TBD
TBD
I/O module fault
BI
9
DI
9
10009
TBD
TBD
Steam Sensor Fail
BI
10
DI
10
10010
TBD
TBD
Air Actuator Out Of Pos Alm
BI
11
DI
11
10011
TBD
TBD
Point Name Drive Fault
NG Actuator Out Of Pos Alm
BI
12
DI
12
10012
TBD
TBD
F/A Ratio Controller Fault
BI
13
DI
13
10013
TBD
TBD
No Fuel Selected
BI
14
DI
14
10014
TBD
TBD
Lo ControlLogix Battery
BI
15
DI
15
10015
TBD
TBD
Non Recycle Limit Relay Fail
BI
16
DI
16
10016
TBD
TBD
Recyle Limit Relay Fail
BI
17
DI
17
10017
TBD
TBD
Remote Modulation Signal Fail
BI
18
DI
18
10018
TBD
TBD
Header Pressure Sensor Fail
BI
19
DI
19
10019
TBD
TBD
Temperature Channel 0‐5 Failure
BI
20
DI
20
10020
TBD
TBD
Lo O2 Alm
BI
21
DI
21
10021
TBD
TBD
Hi Limit Alm
BI
22
DI
22
10022
TBD
TBD
ALWCO
BI
23
DI
23
10023
TBD
TBD
Lo Gas Pressure/Lo Oil Temp
BI
24
DI
24
10024
TBD
TBD
Hi Gas Pressure/Hi Oil Temp
BI
25
DI
25
10025
TBD
TBD
Lo Oil Pressure
BI
26
DI
26
10026
TBD
TBD
Hi Oil Pressure
BI
27
DI
27
10027
TBD
TBD
Oil Drawer Switch Not Made
BI
28
DI
28
10028
TBD
TBD
Lo Atomizing Air Pressure
BI
29
DI
29
10029
TBD
TBD
Lo Combustion Air Pressure
BI
30
DI
30
10030
TBD
TBD
AUX Alm 1
BI
31
DI
31
10031
TBD
TBD
AUX Alm 2
BI
32
DI
32
10032
TBD
TBD
Blower On
BI
33
DI
33
10033
TBD
TBD
Purge Input
BI
34
DI
34
10034
TBD
TBD
Release To Modulate Input
BI
35
DI
35
10035
TBD
TBD TBD
Lo Fire Switch
BI
36
DI
36
10036
TBD
Hi Fire Switch
BI
37
DI
37
10037
TBD
TBD
Ready to start/Limits Closed
BI
38
DI
38
10038
TBD
TBD
External Start Interlock
BI
39
DI
39
10039
TBD
TBD
ALFCO
BI
40
DI
40
10040
TBD
TBD
Pilot
BI
41
DI
41
10041
TBD
TBD
Main Fuel Valve Open
BI
42
DI
42
10042
TBD
TBD
Fuel 1 Selected
BI
43
DI
43
10043
TBD
TBD
Fuel 2 Selected
BI
44
DI
44
10044
TBD
TBD
Heart Beat To BMS
BI
45
DI
45
10045
TBD
TBD
LWCO Shutdown
BI
46
DI
46
10046
TBD
TBD
750-361
49
ProtoNode Gateway Table 18: Hawk 1000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Remote Enable Input
BI
47
DI
47
10047
TBD
TBD
Burner Switch
BI
48
DI
48
10048
TBD
TBD
Recycle Limit Relay
BI
49
DI
49
10049
TBD
TBD
External Device Start
BI
50
DI
50
10050
TBD
TBD
Non Recycle Limit Relay
BI
51
DI
51
10051
TBD
TBD
Drive to Lo Fire (FARC)
BI
52
DI
52
10052
TBD
TBD
Start Slave Blr (2 Blr LL)
BI
53
DI
53
10053
TBD
TBD
Load Demand Output
BI
54
DI
54
10054
TBD
TBD
Alm Output
BI
55
DI
55
10055
TBD
TBD
Boiler Ready (LL)
BI
56
DI
56
10056
TBD
TBD
Boiler Load Demand
BI
57
DI
57
10057
TBD
TBD
Firing Rate Remote/Llag
BI
58
DI
58
10058
TBD
TBD
Firing Rate Manual
BI
59
DI
59
10059
TBD
TBD
Firing Rate Auto
BI
60
DI
60
10060
TBD
TBD
Hot Stand By
BI
61
DI
61
10061
TBD
TBD
Warm Up
BI
62
DI
62
10062
TBD
TBD
Fuel 3 Selected
BI
63
DI
63
10063
TBD
TBD
Aux Alm 3
BI
64
DI
64
10064
TBD
TBD
Steam or Hot Water 1 = Steam
BI
65
DI
65
10065
TBD
TBD
Level Master Present
BI
66
DI
66
10066
TBD
TBD
Variable Speed Drive Present
BI
67
DI
67
10067
TBD
TBD
Economizer Present
BI
68
DI
68
10068
TBD
TBD
Combustion Air Temp Present
BI
69
DI
69
10069
TBD
TBD
Economizer Inlet FW Sensor Present
BI
70
DI
70
10070
TBD
TBD
O2 Analyzer Present
BI
71
DI
71
10071
TBD
TBD
Feedwater or Return Temp Present
BI
72
DI
72
10072
TBD
TBD
Outdoor Reset Selected
BI
73
DI
73
10073
TBD
TBD
Parallel Posing Selected
BI
74
DI
74
10074
TBD
TBD
Two Boiler Lead Lag Master Select
BI
75
DI
75
10075
TBD
TBD
Two Boiler Lead Lag Slave Select
BI
76
DI
76
10076
TBD
TBD
Master Panel Select
BI
77
DI
77
10077
TBD
TBD
Hot Stand By Select
BI
78
DI
78
10078
TBD
TBD
Dual Setpoint Select
BI
79
DI
79
10079
TBD
TBD
Slot 8 Ch 0 Analog Input Selected
BI
80
DI
80
10080
TBD
TBD
Slot 8 Ch 1 Analog Input Selected
BI
81
DI
81
10081
TBD
TBD
Slot 8 Ch 2 Analog Input Selected
BI
82
DI
82
10082
TBD
TBD
Slot 8 Ch 3 Analog Input Selected
BI
83
DI
83
10083
TBD
TBD
Honeywell or Fireye 1 = Fireye
BI
84
DI
84
10084
TBD
TBD
Hi Water Alm
BI
85
DI
85
10085
TBD
TBD
Oil Actuator Out Of Pos Alm
BI
86
DI
86
10086
TBD
TBD
FGR Actuator Out Of Pos Alm
BI
87
DI
87
10087
TBD
TBD
Air Actuator Feedback Fail Lo Alm
BI
88
DI
88
10088
TBD
TBD
Air Actuator Feedback Fail Hi Alm
BI
89
DI
89
10089
TBD
TBD
NG Actuator Feedback Fail Lo Alm
BI
90
DI
90
10090
TBD
TBD
NG Actuator Feedback Fail Hi Alm
BI
91
DI
91
10091
TBD
TBD
Oil Actuator Feedback Fail Lo Alm
BI
92
DI
92
10092
TBD
TBD
Oil Actuator Feedback Fail Hi Alm
BI
93
DI
93
10093
TBD
TBD
FGR Actuator Feedback Fail Lo Alm
BI
94
DI
94
10094
TBD
TBD
FGR Actuator Feedback Fail Hi Alm
BI
95
DI
95
10095
TBD
TBD
VSD Deviation Alm
BI
96
DI
96
10096
TBD
TBD
50
750-361
ProtoNode Gateway Table 18: Hawk 1000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Increase MSG Register Size Bit
BI
Air/Fuel Deviation Alm
BI
2nd Stage CEC Economizer Selected
BI
Fuel3 Actuator Out Of Pos Alm
BI
Fuel3 Actuator Feedback Fail Lo Alm
BI
Fuel3 Actuator Feedback Fail Hi Alm
97
DI
97
10097
TBD
TBD
98
DI
98
10098
TBD
TBD
99
DI
99
10099
TBD
TBD
100
DI
100
10100
TBD
TBD
101
DI
101
10101
TBD
TBD
BI
102
DI
102
10102
TBD
TBD
Stack Pressure Input Fail
BI
103
DI
103
10103
TBD
TBD
Hi Stack Pressure Alm
BI
104
DI
104
10104
TBD
TBD
Stack Damper Not Open Alm
BI
105
DI
105
10105
TBD
TBD
O2 Calibration Failed
BI
106
DI
106
10106
TBD
TBD
Lo Steam Pressure/Water Temp Alm
BI
107
DI
107
10107
TBD
TBD
Processor Test Fail Alm
BI
108
DI
108
10108
TBD
TBD
O2 Trim Internal Alm
BI
109
DI
109
10109
TBD
TBD
Firetube or Flextube 1 = Flextube
BI
110
DI
110
10110
TBD
TBD
Reserved for Cleaver‐Brooks
BI
111
DI
111
10111
TBD
TBD
VSD Limits Internal Alm
BI
112
DI
112
10112
TBD
TBD
Gas Actuator 2 Out Of Pos Alm
BI
113
DI
113
10113
TBD
TBD
Gas Actuator 2 Feedback Fail Lo Alm
BI
114
DI
114
10114
TBD
TBD
Gas Actuator 2 Feedback Fail Hi Alm
BI
115
DI
115
10115
TBD
TBD
Actuator Modbus Communication Error
BI
116
DI
116
10116
TBD
TBD
Air Actuator Modbus Comm Error Node 1
BI
117
DI
117
10117
TBD
TBD
Gas Actuator Modbus Comm Error Node 2
BI
118
DI
118
10118
TBD
TBD
Gas Act 2 Modbus Comm Error Node 3
BI
119
DI
119
10119
TBD
TBD
Oil Actuator Modbus Comm Error Node 5
BI
120
DI
120
10120
TBD
TBD
FGR Actuator Modbus Comm Error Node 7
BI
121
DI
121
10121
TBD
TBD
Reserved
BI
122
DI
122
10122
TBD
TBD
Reserved
BI
123
DI
123
10123
TBD
TBD
2nd Stg Outlet Wtr Temp Sensor Failed
BI
124
DI
124
10124
TBD
TBD
Wtr Temp Second Stg Out Hi
BI
125
DI
125
10125
TBD
TBD
Air Actuator Man Override Btn Press
BI
126
DI
126
10126
TBD
TBD
Gas Actuator 1 Man Override Btn Press
BI
127
DI
127
10127
TBD
TBD
Gas Actuator 2 Man Override Btn Press
BI
128
DI
128
10128
TBD
TBD
Oil Actuator Man Override Btn Press
BI
129
DI
129
10129
TBD
TBD
FGR Actuator Man Override Btn Press
BI
130
DI
130
10130
TBD
TBD
Fuel 3 Act 1 Man Override Btn Press
BI
131
DI
131
10131
TBD
TBD
Fuel 3 Act 2 Man Override Btn Press
BI
132
DI
132
10132
TBD
TBD
Communication from BMS Failed
BI
133
DI
133
10133
TBD
TBD
Combustion Air Pressure Hi
BI
134
DI
134
10134
TBD
TBD
Wtr FLo Lo
BI
135
DI
135
10135
TBD
TBD
Wtr Level Signal Failed
BI
136
DI
136
10136
TBD
TBD
Remote Setpoint Signal Failed
BI
137
DI
137
10137
TBD
TBD
Lo O2 Shutdown
BI
138
DI
138
10138
TBD
TBD
Air Actuator Fault
BI
139
DI
139
10139
TBD
TBD
Fuel 1 Actuator 1 Fault
BI
140
DI
140
10140
TBD
TBD
Fuel 1 Actuator 2 Fault
BI
141
DI
141
10141
TBD
TBD
Fuel 2 Actuator 1 Fault
BI
142
DI
142
10142
TBD
TBD
Fuel 2 Actuator 2 Fault
BI
143
DI
143
10143
TBD
TBD
FGR Actuator Fault
BI
144
DI
144
10144
TBD
TBD
Fuel 2 Actuator 2 Pos Deviation
BI
145
DI
145
10145
TBD
TBD
Fuel 2 Actuator 2 Feedback Lo
BI
146
DI
146
10146
TBD
TBD
750-361
51
ProtoNode Gateway Table 18: Hawk 1000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Fuel 2 Actuator 2 Feedback Hi
BI
147
DI
147
10147
TBD
TBD
Fuel 2 Actuator 2 Man PB Press
BI
148
DI
148
10148
TBD
TBD
VFD Feedback Lo
BI
149
DI
149
10149
TBD
TBD
VFD Feedback Hi
BI
150
DI
150
10150
TBD
TBD
Master PIDE Instruction Fault
BI
151
DI
151
10151
TBD
TBD
FGEN Fault
BI
152
DI
152
10152
TBD
TBD
Outdoor Temp/Retrun Temp Sensor Failed
BI
153
DI
153
10153
TBD
TBD
Combustion Air Temp Sensor Failed
BI
154
DI
154
10154
TBD
TBD
O2 Sensor Fault
BI
155
DI
155
10155
TBD
TBD
AB[9]11
BI
156
DI
156
10156
TBD
TBD
AB[9]12
BI
157
DI
157
10157
TBD
TBD
AB[9]13
BI
158
DI
158
10158
TBD
TBD
AB[9]14
BI
159
DI
159
10159
TBD
TBD
Hawk 1000 system
BI
160
DI
160
10160
TBD
TBD
Flame Strength Honeywell
AI
1
AI
1
30001
TBD
TBD
Combustion Air Fan Speed
AI
2
AI
2
30003
TBD
TBD
AR[2]
AI
3
AI
3
30005
TBD
TBD
Boiler Efficiency
AI
4
AI
4
30007
TBD
TBD
Firing Rate
AI
5
AI
5
30009
TBD
TBD
O2 Level
AI
6
AI
6
30011
TBD
TBD
SP Steam Pressure/Wtr Temp
AI
7
AI
7
30013
TBD
TBD
Wtr Level
AI
8
AI
8
30015
TBD
TBD
Steam Pressure or Hot Wtr Temp
AI
9
AI
9
30017
TBD
TBD
AR[9]
AI
10
AI
10
30019
TBD
TBD
Stack Temp Before Economizer
AI
11
AI
11
30021
TBD
TBD
Combustion Air Temp
AI
12
AI
12
30023
TBD
TBD
Wtr Temp Shell/Outdoor Temp
AI
13
AI
13
30025
TBD
TBD
FeedWtr Temp/Econ Wtr Out Temp
AI
14
AI
14
30027
TBD
TBD
Stack Temp After Econ/Return HW
AI
15
AI
15
30029
TBD
TBD
Economizer Wtr In Temp
AI
16
AI
16
30031
TBD
TBD
AI Slot8 Ch0 Value 2Stg Econ Temp IN
AI
17
AI
17
30033
TBD
TBD
AI Slot8 Ch1 Value 2Stg Econ Temp OUT
AI
18
AI
18
30035
TBD
TBD
AI Slot8 Ch2 Value (EU)
AI
19
AI
19
30037
TBD
TBD
AI Slot8 Ch3 Value (EU)
AI
20
AI
20
30039
TBD
TBD
Safety Valve Setting or Max Wtr Temp
AI
21
AI
21
30041
TBD
TBD
Header Pressure or Temp 2 Boiler LL
AI
22
AI
22
30043
TBD
TBD
SP 2 Boiler LL
AI
23
AI
23
30045
TBD
TBD
Boiler Off Point
AI
24
AI
24
30047
TBD
TBD
Boiler On Point
AI
25
AI
25
30049
TBD
TBD
Condensate Return Valve Output Command Makeup Bypass Valve Output Command
AI
26
AI
26
30051
TBD
TBD
AI
27
AI
27
30053
TBD
TBD
Slot8 Ch0 FLo Total
AI
28
AI
28
30055
TBD
TBD
Slot8 Ch1 FLo Total
AI
29
AI
29
30057
TBD
TBD
Slot8 Ch2 FLo Total
AI
30
AI
30
30059
TBD
TBD
Slot8 Ch3 FLo Total
AI
31
AI
31
30061
TBD
TBD
AR[31]
AI
32
AI
32
30063
TBD
TBD
AR[32]
AI
33
AI
33
30065
TBD
TBD
AR[33]
AI
34
AI
34
30067
TBD
TBD
AR[34]
AI
35
AI
35
30069
TBD
TBD
AR[35]
AI
36
AI
36
30071
TBD
TBD
52
750-361
ProtoNode Gateway Table 18: Hawk 1000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued)
* * * * * * * * * * * * * * * * * * * *
AR[36]
AI
37
AI
37
30073
TBD
TBD
AR[37]
AI
38
AI
38
30075
TBD
TBD
AR[38]
AI
39
AI
39
30077
TBD
TBD
AR[39]
AI
40
AI
40
30079
TBD
TBD
AR[40]
AI
41
AI
41
30081
TBD
TBD
AR[41]
AI
42
AI
42
30083
TBD
TBD
AR[42]
AI
43
AI
43
30085
TBD
TBD
AR[43]
AI
44
AI
44
30087
TBD
TBD
AR[44]
AI
45
AI
45
30089
TBD
TBD
AR[45]
AI
46
AI
46
30091
TBD
TBD
AR[46]
AI
47
AI
47
30093
TBD
TBD
AR[47]
AI
48
AI
48
30095
TBD
TBD
AR[48]
AI
49
AI
49
30097
TBD
TBD
AR[49]
AI
50
AI
50
30099
TBD
TBD
Burner Control Status Line 1 Honeywell
AI
52
AI
52
30102
TBD
TBD
Burner Control Status Line 2 Honeywell
AI
53
AI
53
30103
TBD
TBD
Burner Control Status Line 1 Fireye
AI
54
AI
54
30104
TBD
TBD
Burner Control Status Line 2 Fireye
AI
55
AI
55
30105
TBD
TBD
Flame Signal Fireye
AI
56
AI
56
30106
TBD
TBD
Fuel 1Type
AI
57
AI
57
30107
TBD
TBD
Fuel 2 Type
AI
58
AI
58
30108
TBD
TBD
Fuel 3 Type
AI
59
AI
59
30109
TBD
TBD
Elapsed Time (First 16 Bits)
AI
61
AI
61
30111
TBD
TBD
Elapsed Time (Second 16 Bits)
AI
62
AI
62
30112
TBD
TBD
Number Of Cycles (First 16 Bits)
AI
63
AI
63
30113
TBD
TBD
Number Of Cycles (Second 16 Bits)
AI
64
AI
64
30114
TBD
TBD
AI[13]
AI
65
AI
65
30115
TBD
TBD
AI[14]
AI
66
AI
66
30116
TBD
TBD
Elapsed Time
AI
67
AI
67
30117
TBD
TBD
Number Of Cycles
AI
68
AI
68
30119
TBD
TBD
Heart Beat From BMS
BV
1
DO
1
00001
TBD
TBD
Remote Start From BMS
BV
2
DO
2
00002
TBD
TBD
AWB[0]2
BV
3
DO
3
00003
TBD
TBD
AWB[0]3
BV
4
DO
4
00004
TBD
TBD
AWB[0]4
BV
5
DO
5
00005
TBD
TBD
AWB[0]5
BV
6
DO
6
00006
TBD
TBD
AWB[0]6
BV
7
DO
7
00007
TBD
TBD
AWB[0]7
BV
8
DO
8
00008
TBD
TBD
AWB[0]8
BV
9
DO
9
00009
TBD
TBD
AWB[0]9
BV
10
DO
10
00010
TBD
TBD
AWB[0]10
BV
11
DO
11
00011
TBD
TBD
AWB[0]11
BV
12
DO
12
00012
TBD
TBD
AWB[0]12
BV
13
DO
13
00013
TBD
TBD
AWB[0]13
BV
14
DO
14
00014
TBD
TBD
AWB[0]14
BV
15
DO
15
00015
TBD
TBD
AWB[0]15
BV
16
DO
16
00016
TBD
TBD
AWB[1]0
BV
17
DO
17
00017
TBD
TBD
AWB[1]1
BV
18
DO
18
00018
TBD
TBD
AWB[1]2
BV
19
DO
19
00019
TBD
TBD
AWB[1]3
BV
20
DO
20
00020
TBD
TBD
750-361
53
ProtoNode Gateway Table 18: Hawk 1000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued)
* * * * * * * * * * * * * * * * * * * *
AWB[1]4
BV
21
DO
21
00021
TBD
TBD
AWB[1]5
BV
22
DO
22
00022
TBD
TBD
AWB[1]6
BV
23
DO
23
00023
TBD
TBD
AWB[1]7
BV
24
DO
24
00024
TBD
TBD
AWB[1]8
BV
25
DO
25
00025
TBD
TBD
AWB[1]9
BV
26
DO
26
00026
TBD
TBD
AWB[1]10
BV
27
DO
27
00027
TBD
TBD
AWB[1]11
BV
28
DO
28
00028
TBD
TBD
AWB[1]12
BV
29
DO
29
00029
TBD
TBD
AWB[1]13
BV
30
DO
30
00030
TBD
TBD
AWB[1]14
BV
31
DO
31
00031
TBD
TBD
AWB[1]15
BV
32
DO
32
00032
TBD
TBD
Rem Op SP Boiler
AV
1
AO
1
40001
TBD
TBD
Rem Firing Rate
AV
2
AO
2
40003
TBD
TBD
Rem Op SP 2 boiler Lead/Lag
AV
3
AO
3
40005
TBD
TBD
AWR[3]
AV
4
AO
4
40007
TBD
TBD
AWR[4]
AV
5
AO
5
40009
TBD
TBD
AWR[5]
AV
6
AO
6
40011
TBD
TBD
AWR[6]
AV
7
AO
7
40013
TBD
TBD
AWR[7]
AV
8
AO
8
40015
TBD
TBD
*
AWR[8]
AV
9
AO
9
40017
TBD
TBD
*
AWR[9]
AV
10
AO
10
40019
TBD
TBD
*Write points
54
750-361
ProtoNode Gateway B.9. HAWK 4000 Table 19: Hawk 4000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks Point Name Drive Fault Modbus Comm Error
BACnet Object Type BI
BACnet Object ID 1
N2 Data Type DI
N2 Point Address 1
Modbus Register 10001
BI
2
DI
2
10002
Lon Name
Lon SNVT
TBD
TBD
TBD
TBD
Lo Water
BI
3
DI
3
10003
TBD
TBD
Burner Control Alm
BI
4
DI
4
10004
TBD
TBD
Boiler Limits Open
BI
5
DI
5
10005
TBD
TBD
Hi Stack Temp Alm
BI
6
DI
6
10006
TBD
TBD
Hi Stack Temp Shutdown
BI
7
DI
7
10007
TBD
TBD
External Interlock
BI
8
DI
8
10008
TBD
TBD
I/O module fault
BI
9
DI
9
10009
TBD
TBD
Steam Sensor Fail
BI
10
DI
10
10010
TBD
TBD
Air Actuator Out Of Pos Alm
BI
11
DI
11
10011
TBD
TBD
NG Actuator Out Of Pos Alm
BI
12
DI
12
10012
TBD
TBD
F/A Ratio Controller Fault
BI
13
DI
13
10013
TBD
TBD
No Fuel Selected
BI
14
DI
14
10014
TBD
TBD
Lo ControlLogix Battery
BI
15
DI
15
10015
TBD
TBD
Non Recycle Limit Relay Fail
BI
16
DI
16
10016
TBD
TBD
Recyle Limit Relay Fail
BI
17
DI
17
10017
TBD
TBD
Rem Modulation Signal Fail
BI
18
DI
18
10018
TBD
TBD
Header Pressure Sensor Fail
BI
19
DI
19
10019
TBD
TBD
Temp Channel 0‐5 Fail
BI
20
DI
20
10020
TBD
TBD
Lo O2 Alm
BI
21
DI
21
10021
TBD
TBD
Hi Limit Alm
BI
22
DI
22
10022
TBD
TBD
ALWCO
BI
23
DI
23
10023
TBD
TBD
Lo Gas Pressure/Lo Oil Temp
BI
24
DI
24
10024
TBD
TBD
Hi Gas Pressure/Hi Oil Temp
BI
25
DI
25
10025
TBD
TBD
Lo Oil Pressure
BI
26
DI
26
10026
TBD
TBD
Hi Oil Pressure
BI
27
DI
27
10027
TBD
TBD
Oil Drawer Switch Not Made
BI
28
DI
28
10028
TBD
TBD
Lo Atomizing Air Pressure
BI
29
DI
29
10029
TBD
TBD
Lo Combustion Air Pressure
BI
30
DI
30
10030
TBD
TBD
AUX Alm 1
BI
31
DI
31
10031
TBD
TBD
AUX Alm 2
BI
32
DI
32
10032
TBD
TBD
Blower On
BI
33
DI
33
10033
TBD
TBD
Purge Input
BI
34
DI
34
10034
TBD
TBD
Release To Modulate Input
BI
35
DI
35
10035
TBD
TBD
Lo Fire Switch
BI
36
DI
36
10036
TBD
TBD
Hi Fire Switch
BI
37
DI
37
10037
TBD
TBD
Ready to start/Limits Closed
BI
38
DI
38
10038
TBD
TBD
External Start Interlock
BI
39
DI
39
10039
TBD
TBD
ALFCO
BI
40
DI
40
10040
TBD
TBD
Pilot
BI
41
DI
41
10041
TBD
TBD
Main Fuel Valve Open
BI
42
DI
42
10042
TBD
TBD
Fuel 1 Selected
BI
43
DI
43
10043
TBD
TBD
Fuel 2 Selected
BI
44
DI
44
10044
TBD
TBD
Heart Beat To BMS
BI
45
DI
45
10045
TBD
TBD
LWCO Shutdown
BI
46
DI
46
10046
TBD
TBD
Rem Enable Input
BI
47
DI
47
10047
TBD
TBD
750-361
55
ProtoNode Gateway Table 19: Hawk 4000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Burner Switch
BI
48
DI
48
10048
TBD
TBD
Recycle Limit Relay
BI
49
DI
49
10049
TBD
TBD
External Device Start
BI
50
DI
50
10050
TBD
TBD
Non Recycle Limit Relay
BI
51
DI
51
10051
TBD
TBD
Drive to Lo Fire (FARC)
BI
52
DI
52
10052
TBD
TBD
Start Slave Blr (2 Blr LL)
BI
53
DI
53
10053
TBD
TBD
Load Demand Output
BI
54
DI
54
10054
TBD
TBD
Alm Output
BI
55
DI
55
10055
TBD
TBD
Boiler Ready (LL)
BI
56
DI
56
10056
TBD
TBD
Boiler Load Demand
BI
57
DI
57
10057
TBD
TBD
Firing Rate Rem/Llag
BI
58
DI
58
10058
TBD
TBD
Firing Rate Manual
BI
59
DI
59
10059
TBD
TBD
Firing Rate Auto
BI
60
DI
60
10060
TBD
TBD
Hot Stand By
BI
61
DI
61
10061
TBD
TBD
Warm Up
BI
62
DI
62
10062
TBD
TBD
Fuel 3 Selected
BI
63
DI
63
10063
TBD
TBD
Aux Alm 3
BI
64
DI
64
10064
TBD
TBD
Steam or Hot Water 1 = Steam
BI
65
DI
65
10065
TBD
TBD
Level Master Present
BI
66
DI
66
10066
TBD
TBD
Variable Speed Drive Present
BI
67
DI
67
10067
TBD
TBD
Economizer Present
BI
68
DI
68
10068
TBD
TBD
Combustion Air Temp Present
BI
69
DI
69
10069
TBD
TBD
Economizer Inlet FW Sensor Present
BI
70
DI
70
10070
TBD
TBD
O2 Analyzer Present
BI
71
DI
71
10071
TBD
TBD
Feedwater or Return Temp Present
BI
72
DI
72
10072
TBD
TBD
Outdoor Reset Selected
BI
73
DI
73
10073
TBD
TBD
Parallel Posing Selected
BI
74
DI
74
10074
TBD
TBD
Two Boiler Lead Lag Master Select
BI
75
DI
75
10075
TBD
TBD
Two Boiler Lead Lag Slave Select
BI
76
DI
76
10076
TBD
TBD
Master Panel Select
BI
77
DI
77
10077
TBD
TBD
Hot Stand By Select
BI
78
DI
78
10078
TBD
TBD
Dual Setpoint Select
BI
79
DI
79
10079
TBD
TBD
Slot 8 Ch 0 AI Selected
BI
80
DI
80
10080
TBD
TBD
Slot 8 Ch 1 AI Selected
BI
81
DI
81
10081
TBD
TBD
Slot 8 Ch 2 AI Selected
BI
82
DI
82
10082
TBD
TBD
Slot 8 Ch 3 AI Selected
BI
83
DI
83
10083
TBD
TBD
Honeywell or Fireye 1 = Fireye
BI
84
DI
84
10084
TBD
TBD
Hi Water Alm
BI
85
DI
85
10085
TBD
TBD
Oil Actuator Out Of Pos Alm
BI
86
DI
86
10086
TBD
TBD
FGR Actuator Out Of Pos Alm
BI
87
DI
87
10087
TBD
TBD
Air Actuator Feedback Fail Lo Alm
BI
88
DI
88
10088
TBD
TBD
Air Actuator Feedback Fail Hi Alm
BI
89
DI
89
10089
TBD
TBD
NG Actuator Feedback Fail Lo Alm
BI
90
DI
90
10090
TBD
TBD
NG Actuator Feedback Fail Hi Alm
BI
91
DI
91
10091
TBD
TBD
Oil Actuator Feedback Fail Lo Alm
BI
92
DI
92
10092
TBD
TBD
Oil Actuator Feedback Fail Hi Alm
BI
93
DI
93
10093
TBD
TBD
FGR Actuator Feedback Fail Lo Alm
BI
94
DI
94
10094
TBD
TBD
FGR Actuator Feedback Fail Hi Alm
BI
95
DI
95
10095
TBD
TBD
VSD Deviation Alm
BI
96
DI
96
10096
TBD
TBD
Increase MSG Reg Size Bit (CB Only)
BI
97
DI
97
10097
TBD
TBD
56
750-361
ProtoNode Gateway Table 19: Hawk 4000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Air/Fuel Deviation Alm
BI
98
DI
2nd Stage CEC Economizer Selected Fuel3 Actuator Out Of Pos Alm
BI
99
DI
BI
100
DI
Fuel3 Actuator Feedback Fail Lo Alm
BI
101
DI
Fuel3 Actuator Feedback Fail Hi Alm
BI
102
Stack Pressure Input Fail
BI
Hi Stack Pressure Alm Stack Damper Not Open Alm
98
10098
TBD
TBD
99
10099
TBD
TBD
100
10100
TBD
TBD
101
10101
TBD
TBD
DI
102
10102
TBD
TBD
103
DI
103
10103
TBD
TBD
BI
104
DI
104
10104
TBD
TBD
BI
105
DI
105
10105
TBD
TBD
O2 Calibration Failed
BI
106
DI
106
10106
TBD
TBD
Lo Steam Pressure/Water Temp Alm
BI
107
DI
107
10107
TBD
TBD
Processor Test Fail Alm
BI
108
DI
108
10108
TBD
TBD
O2 Trim Internal Alm
BI
109
DI
109
10109
TBD
TBD
Firetube or Flextube 1 = Flextube
BI
110
DI
110
10110
TBD
TBD
Reserved for Cleaver‐Brooks
BI
111
DI
111
10111
TBD
TBD
VSD Limits Internal Alm
BI
112
DI
112
10112
TBD
TBD
Gas Actuator 2 Out Of Pos Alm
BI
113
DI
113
10113
TBD
TBD
Gas Actuator 2 Feedback Fail Lo Alm
BI
114
DI
114
10114
TBD
TBD
Gas Actuator 2 Feedback Fail Hi Alm
BI
115
DI
115
10115
TBD
TBD
Actuator Modbus Communication Error
BI
116
DI
116
10116
TBD
TBD
Air Actuator Modbus Comm Error Node 1
BI
117
DI
117
10117
TBD
TBD
Gas Actuator Modbus Comm Error Node 2
BI
118
DI
118
10118
TBD
TBD
Gas Act 2 Modbus Comm Error Node 3
BI
119
DI
119
10119
TBD
TBD
Oil Actuator Modbus Comm Error Node 5
BI
120
DI
120
10120
TBD
TBD
FGR Actuator Modbus Comm Error Node 7
BI
121
DI
121
10121
TBD
TBD
Reserved
BI
122
DI
122
10122
TBD
TBD
Reserved
BI
123
DI
123
10123
TBD
TBD
2nd Stage Outlet Wtr Temp Sensor Fail
BI
124
DI
124
10124
TBD
TBD
Water Temp Second Stage Out Hi
BI
125
DI
125
10125
TBD
TBD
Air Actuator Man Override Btn Press
BI
126
DI
126
10126
TBD
TBD
Gas Actuator 1 Man Override Btn Press
BI
127
DI
127
10127
TBD
TBD
Gas Actuator 2 Man Override Btn Press
BI
128
DI
128
10128
TBD
TBD
Oil Actuator Man Override Btn Press
BI
129
DI
129
10129
TBD
TBD
FGR Actuator Man Override Btn Press
BI
130
DI
130
10130
TBD
TBD
Fuel 3 Act 1 Man Override Btn Press
BI
131
DI
131
10131
TBD
TBD
Fuel 3 Act 2 Man Override Btn Press
BI
132
DI
132
10132
TBD
TBD
Communication from BMS Failed
BI
133
DI
133
10133
TBD
TBD
Low O2 Shutdown
BI
134
DI
134
10134
TBD
TBD
AB[8]6
BI
135
DI
135
10135
TBD
TBD
AB[8]7
BI
136
DI
136
10136
TBD
TBD
AB[8]8
BI
137
DI
137
10137
TBD
TBD
AB[8]9
BI
138
DI
138
10138
TBD
TBD
AB[8]10
BI
139
DI
139
10139
TBD
TBD
AB[8]11
BI
140
DI
140
10140
TBD
TBD
AB[8]12
BI
141
DI
141
10141
TBD
TBD
AB[8]13
BI
142
DI
142
10142
TBD
TBD
AB[8]14
BI
143
DI
143
10143
TBD
TBD
AB[8]15
BI
144
DI
144
10144
TBD
TBD
AB[9]0
BI
145
DI
145
10145
TBD
TBD
AB[9]1
BI
146
DI
146
10146
TBD
TBD
AB[9]2
BI
147
DI
147
10147
TBD
TBD
750-361
57
ProtoNode Gateway Table 19: Hawk 4000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) AB[9]3
BI
148
DI
148
10148
TBD
TBD
AB[9]4
BI
149
DI
149
10149
TBD
TBD
AB[9]5
BI
150
DI
150
10150
TBD
TBD
AB[9]6
BI
151
DI
151
10151
TBD
TBD
AB[9]7
BI
152
DI
152
10152
TBD
TBD
AB[9]8
BI
153
DI
153
10153
TBD
TBD
AB[9]9
BI
154
DI
154
10154
TBD
TBD
AB[9]10
BI
155
DI
155
10155
TBD
TBD
AB[9]11
BI
156
DI
156
10156
TBD
TBD
AB[9]12
BI
157
DI
157
10157
TBD
TBD
AB[9]13
BI
158
DI
158
10158
TBD
TBD
AB[9]14
BI
159
DI
159
10159
TBD
TBD
AB[9]15
BI
160
DI
160
10160
TBD
TBD
Flame Strength Honeywell
AI
1
AI
1
30001
TBD
TBD
Combustion Air Fan Speed
AI
2
AI
2
30003
TBD
TBD
AR[2]
AI
3
AI
3
30005
TBD
TBD
Boiler Efficiency
AI
4
AI
4
30007
TBD
TBD
Firing Rate
AI
5
AI
5
30009
TBD
TBD
O2 Level
AI
6
AI
6
30011
TBD
TBD
SP Steam Pressure/Water Temp
AI
7
AI
7
30013
TBD
TBD
Water Level
AI
8
AI
8
30015
TBD
TBD TBD
Steam Pressure or Hot Water Temp
AI
9
AI
9
30017
TBD
AR[9]
AI
10
AI
10
30019
TBD
TBD
Stack Temp Before Economizer
AI
11
AI
11
30021
TBD
TBD
Combustion Air Temp
AI
12
AI
12
30023
TBD
TBD
Water Temp Shell/Outdoor Temp
AI
13
AI
13
30025
TBD
TBD
Feedwater Temp/Econ Water Out Temp
AI
14
AI
14
30027
TBD
TBD
Stack Temp After Econ/Return HW
AI
15
AI
15
30029
TBD
TBD
Economizer Water In Temp
AI
16
AI
16
30031
TBD
TBD
AI Slot8Ch0 Value/2Stg Econ Temp IN
AI
17
AI
17
30033
TBD
TBD
AI Slot8Ch1 Value/2Stg Econ Temp OUT
AI
18
AI
18
30035
TBD
TBD
AI Slot8 Ch2 Value (EU)
AI
19
AI
19
30037
TBD
TBD
AI Slot8 Ch3 Value (EU)
AI
20
AI
20
30039
TBD
TBD
Safety Valve Setting or Max Water Temp
AI
21
AI
21
30041
TBD
TBD
Header Pressure or Temp 2 Boiler LL
AI
22
AI
22
30043
TBD
TBD
SP 2 Boiler LL
AI
23
AI
23
30045
TBD
TBD
Boiler Off Point
AI
24
AI
24
30047
TBD
TBD
Boiler On Point
AI
25
AI
25
30049
TBD
TBD
Condensate Return Valve Output Command Makeup Bypass Valve Output Command
AI
26
AI
26
30051
TBD
TBD
AI
27
AI
27
30053
TBD
TBD
Slot8 Ch0 FLo Total
AI
28
AI
28
30055
TBD
TBD
Slot8 Ch1 FLo Total
AI
29
AI
29
30057
TBD
TBD
Slot8 Ch2 FLo Total
AI
30
AI
30
30059
TBD
TBD
Slot8 Ch3 FLo Total
AI
31
AI
31
30061
TBD
TBD
AR[31]
AI
32
AI
32
30063
TBD
TBD
AR[32]
AI
33
AI
33
30065
TBD
TBD
AR[33]
AI
34
AI
34
30067
TBD
TBD
AR[34]
AI
35
AI
35
30069
TBD
TBD
AR[35]
AI
36
AI
36
30071
TBD
TBD
AR[36]
AI
37
AI
37
30073
TBD
TBD
58
750-361
ProtoNode Gateway Table 19: Hawk 4000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued)
* * * * * *
AR[37]
AI
38
AI
38
30075
TBD
TBD
AR[38]
AI
39
AI
39
30077
TBD
TBD
AR[39]
AI
40
AI
40
30079
TBD
TBD
AR[40]
AI
41
AI
41
30081
TBD
TBD
AR[41]
AI
42
AI
42
30083
TBD
TBD
AR[42]
AI
43
AI
43
30085
TBD
TBD
AR[43]
AI
44
AI
44
30087
TBD
TBD
AR[44]
AI
45
AI
45
30089
TBD
TBD
AR[45]
AI
46
AI
46
30091
TBD
TBD
AR[46]
AI
47
AI
47
30093
TBD
TBD
AR[47]
AI
48
AI
48
30095
TBD
TBD
AR[48]
AI
49
AI
49
30097
TBD
TBD
AR[49]
AI
50
AI
50
30099
TBD
TBD
Burner Control Status Line 1 Honeywell
AI
52
AI
52
30102
TBD
TBD
Burner Control Status Line 2 Honeywell
AI
53
AI
53
30103
TBD
TBD
Burner Control Status Line 1 Fireye
AI
54
AI
54
30104
TBD
TBD
Burner Control Status Line 2 Fireye
AI
55
AI
55
30105
TBD
TBD
Flame Signal Fireye
AI
56
AI
56
30106
TBD
TBD
Fuel 1Type
AI
57
AI
57
30107
TBD
TBD
Fuel 2 Type
AI
58
AI
58
30108
TBD
TBD
Fuel 3 Type
AI
59
AI
59
30109
TBD
TBD
Elapsed Time (First 16 Bits)
AI
61
AI
61
30111
TBD
TBD
Elapsed Time (Second 16 Bits)
AI
62
AI
62
30112
TBD
TBD
Number Of Cycles (First 16 Bits)
AI
63
AI
63
30113
TBD
TBD
Number Of Cycles (Second 16 Bits)
AI
64
AI
64
30114
TBD
TBD
AI[13]
AI
65
AI
65
30115
TBD
TBD
AI[14]
AI
66
AI
66
30116
TBD
TBD
AI[15]
AI
67
AI
67
30117
TBD
TBD
AI[16]
AI
68
AI
68
30118
TBD
TBD
AI[17]
AI
69
AI
69
30119
TBD
TBD
AI[18]
AI
70
AI
70
30120
TBD
TBD
AI[19]
AI
71
AI
71
30121
TBD
TBD
AI[20]
AI
72
AI
72
30122
TBD
TBD
AI[21]
AI
73
AI
73
30123
TBD
TBD
AI[22]
AI
74
AI
74
30124
TBD
TBD
AI[23]
AI
75
AI
75
30125
TBD
TBD
AI[24]
AI
76
AI
76
30126
TBD
TBD
AI[25]
AI
77
AI
77
30127
TBD
TBD
AI[26]
AI
78
AI
78
30128
TBD
TBD
AI[27]
AI
79
AI
79
30129
TBD
TBD
AI[28]
AI
80
AI
80
30130
TBD
TBD
AI[29]
AI
81
AI
81
30131
TBD
TBD
Elapsed Time
AI
82
AI
82
30132
TBD
TBD
Number Of Cycles
AI
83
AI
83
30134
TBD
TBD
Heart Beat From BMS
BV
1
DO
1
00001
TBD
TBD
Rem Start From BMS
BV
2
DO
2
00002
TBD
TBD
AWB[0]2
BV
3
DO
3
00003
TBD
TBD
AWB[0]3
BV
4
DO
4
00004
TBD
TBD
AWB[0]4
BV
5
DO
5
00005
TBD
TBD
AWB[0]5
BV
6
DO
6
00006
TBD
TBD
750-361
59
ProtoNode Gateway Table 19: Hawk 4000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued)
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
AWB[0]6
BV
7
DO
7
00007
TBD
TBD
AWB[0]7
BV
8
DO
8
00008
TBD
TBD
AWB[0]8
BV
9
DO
9
00009
TBD
TBD
AWB[0]9
BV
10
DO
10
00010
TBD
TBD
AWB[0]10
BV
11
DO
11
00011
TBD
TBD
AWB[0]11
BV
12
DO
12
00012
TBD
TBD
AWB[0]12
BV
13
DO
13
00013
TBD
TBD
AWB[0]13
BV
14
DO
14
00014
TBD
TBD
AWB[0]14
BV
15
DO
15
00015
TBD
TBD
AWB[0]15
BV
16
DO
16
00016
TBD
TBD
AWB[1]0
BV
17
DO
17
00017
TBD
TBD
AWB[1]1
BV
18
DO
18
00018
TBD
TBD
AWB[1]2
BV
19
DO
19
00019
TBD
TBD
AWB[1]3
BV
20
DO
20
00020
TBD
TBD
AWB[1]4
BV
21
DO
21
00021
TBD
TBD
AWB[1]5
BV
22
DO
22
00022
TBD
TBD
AWB[1]6
BV
23
DO
23
00023
TBD
TBD
AWB[1]7
BV
24
DO
24
00024
TBD
TBD
AWB[1]8
BV
25
DO
25
00025
TBD
TBD
AWB[1]9
BV
26
DO
26
00026
TBD
TBD
AWB[1]10
BV
27
DO
27
00027
TBD
TBD
AWB[1]11
BV
28
DO
28
00028
TBD
TBD
AWB[1]12
BV
29
DO
29
00029
TBD
TBD
AWB[1]13
BV
30
DO
30
00030
TBD
TBD
AWB[1]14
BV
31
DO
31
00031
TBD
TBD
AWB[1]15
BV
32
DO
32
00032
TBD
TBD
Rem Op SP Boiler
AV
1
AO
1
40001
TBD
TBD
Rem Firing Rate
AV
2
AO
2
40003
TBD
TBD
Rem Op SP 2 boiler Lead/Lag
AV
3
AO
3
40005
TBD
TBD
AWR[3]
AV
4
AO
4
40007
TBD
TBD
AWR[4]
AV
5
AO
5
40009
TBD
TBD
AWR[5]
AV
6
AO
6
40011
TBD
TBD
AWR[6]
AV
7
AO
7
40013
TBD
TBD
AWR[7]
AV
8
AO
8
40015
TBD
TBD
AWR[8]
AV
9
AO
9
40017
TBD
TBD
AWR[9]
AV
10
AO
10
40019
TBD
TBD
*Write points
60
750-361
ProtoNode Gateway B.10. HAWK 5000 Table 20: Hawk 5000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks BACnet Object Type BI
BACnet Object ID 1
N2 Data Type DI
N2 Point Address 1
Modbus Register 10001
TBD
TBD
FSG Purge Cmd
BI
2
DI
2
10002
TBD
TBD
FSG Release To Modulate Cmd
BI
3
DI
3
10003
TBD
TBD
Actuators At Lo Fire
BI
4
DI
4
10004
TBD
TBD
Actuators At Hi Fire
BI
5
DI
5
10005
TBD
TBD
Ready To Start/ Limits Closed
BI
6
DI
6
10006
TBD
TBD
Ext. Start Interlock Proven
BI
7
DI
7
10007
TBD
TBD
ALFCO
BI
8
DI
8
10008
TBD
TBD
FSG Pilot Terminal Energized
BI
9
DI
9
10009
TBD
TBD
FSG Main Fuel Terminal Energized
BI
10
DI
10
10010
TBD
TBD
Fuel Selector Switch ‐ Fuel 1 Pos
BI
11
DI
11
10011
TBD
TBD
Fuel Selector Switch ‐ Fuel 2 Pos
BI
12
DI
12
10012
TBD
TBD
FSG Burner Control Com Alm
BI
13
DI
13
10013
TBD
TBD
Point Name Comb Air Blower Running
Lon Name
Lon SNVT
Lo Water Cutoff (LWCO)
BI
14
DI
14
10014
TBD
TBD
FSG Lo Fire Cmd
BI
15
DI
15
10015
TBD
TBD
Burner Start Relay Energized
BI
16
DI
16
10016
TBD
TBD
Hi Water Cutoff (HWCO)
BI
17
DI
17
10017
TBD
TBD
Yokagawa O2 Analyzer Ready Status
BI
18
DI
18
10018
TBD
TBD
VSD Bypass Switch ‐ Bypass Pos
BI
19
DI
19
10019
TBD
TBD
Hi Steam Press Switch
BI
20
DI
20
10020
TBD
TBD
Aux Lo Water Cutoff (ALWCO)
BI
21
DI
21
10021
TBD
TBD
Lo Gas Press/Oil Temp Switch (LGP/LOT)
BI
22
DI
22
10022
TBD
TBD
Hi Gas Press/Oil Temp Switch (HGP/HOT)
BI
23
DI
23
10023
TBD
TBD
Lo Oil Press (LOP)
BI
24
DI
24
10024
TBD
TBD
Hi Oil Press (HOP)
BI
25
DI
25
10025
TBD
TBD
Atomizing Media Flo and Press Switches
BI
26
DI
26
10026
TBD
TBD
Lo Water Alm
BI
27
DI
27
10027
TBD
TBD
Comb Air Press Switch
BI
28
DI
28
10028
TBD
TBD
Hi Water Alm
BI
29
DI
29
10029
TBD
TBD
Hi Stack/ Furnace Press Switch
BI
30
DI
30
10030
TBD
TBD
Lo Inst Air Press Switch
BI
31
DI
31
10031
TBD
TBD
Oil Gun Inserted Limit Switch
BI
32
DI
32
10032
TBD
TBD
Recycle Limit Relay
BI
33
DI
33
10033
TBD
TBD
Ext. Device Start Interlock
BI
34
DI
34
10034
TBD
TBD
Non‐Recycle Limit Relay
BI
35
DI
35
10035
TBD
TBD
Proof Of Lo Fire
BI
36
DI
36
10036
TBD
TBD
Proof Of Hi Fire
BI
37
DI
37
10037
TBD
TBD
Load Demand
BI
38
DI
38
10038
TBD
TBD
Alm Bell Relay
BI
39
DI
39
10039
TBD
TBD
Boiler Ready
BI
40
DI
40
10040
TBD
TBD
AB[2].8
BI
41
DI
41
10041
TBD
TBD
AB[2].9
BI
42
DI
42
10042
TBD
TBD
AB[2].10
BI
43
DI
43
10043
TBD
TBD
AB[2].11
BI
44
DI
44
10044
TBD
TBD
AB[2].12
BI
45
DI
45
10045
TBD
TBD
AB[2].13
BI
46
DI
46
10046
TBD
TBD
AB[2].14
BI
47
DI
47
10047
TBD
TBD
750-361
61
ProtoNode Gateway Table 20: Hawk 5000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) AB[2].15
BI
48
DI
48
10048
TBD
TBD
Bad Ql‐ Steam Press (06:00)
BI
49
DI
49
10049
TBD
TBD
Bad Ql‐ Drum Level (06:01)
BI
50
DI
50
10050
TBD
TBD
Bad Ql‐ Stack Temp (06:02)
BI
51
DI
51
10051
TBD
TBD
Bad Ql‐ Remote Modulation (06:03)
BI
52
DI
52
10052
TBD
TBD
Bad Ql‐ Steam Flo (06:04)
BI
53
DI
53
10053
TBD
TBD
Bad Ql‐ Mud Drm Shell Tmp (06:05)
BI
54
DI
54
10054
TBD
TBD
Bad Ql‐ Act5 (VSD) FB (06:06)
BI
55
DI
55
10055
TBD
TBD
Bad Ql‐ Flue Gas O2 (06:07)
BI
56
DI
56
10056
TBD
TBD
Bad Ql‐ F1 Flo or Usr Def (07:00)
BI
57
DI
57
10057
TBD
TBD
Bad Ql‐ F2 Flo or Usr Def (07:01)
BI
58
DI
58
10058
TBD
TBD
Bad Ql‐ Stack Draft or Usr Def (07:02)
BI
59
DI
59
10059
TBD
TBD
Bad Ql‐ Feedwtr Flo or Usr Def (07:03)
BI
60
DI
60
10060
TBD
TBD
Bad Ql‐ Ecn Out FG Tmp ‐Usr Def (07:04
BI
61
DI
61
10061
TBD
TBD
Bad Ql‐ Ecn In FW Tmp ‐ Usr Def (07:05
BI
62
DI
62
10062
TBD
TBD
Bad Ql‐ Ecn Out FW Tmp ‐Usr Def (07:06
BI
63
DI
63
10063
TBD
TBD
Bad Ql‐ Air Flo or Usr Def (07:07)
BI
64
DI
64
10064
TBD
TBD
Bad Ql‐ Actuator1 (Air) FB (09:00)
BI
65
DI
65
10065
TBD
TBD
Bad Ql‐ Actuator2 (F1) FB (09:01)
BI
66
DI
66
10066
TBD
TBD
Bad Ql‐ Actuator3 (F2) FB (09:02)
BI
67
DI
67
10067
TBD
TBD
Bad Ql‐ Actuator (FGR) FB (09:03)
BI
68
DI
68
10068
TBD
TBD
Bad Ql‐ Actuator8 (2nd Air) FB (09:04)
BI
69
DI
69
10069
TBD
TBD
Bad Ql‐ Actuator9 (2nd F1) FB (09:05)
BI
70
DI
70
10070
TBD
TBD
Bad Ql‐ Reserved (09:06)
BI
71
DI
71
10071
TBD
TBD
Bad Ql‐ Reserved (09:07)
BI
72
DI
72
10072
TBD
TBD
HAlm ‐ Steam Press (Xmtr)
BI
73
DI
73
10073
TBD
TBD
HAlm ‐ Drum Level (xmtr)
BI
74
DI
74
10074
TBD
TBD
HAlm ‐ Stack Temp (Xmtr)
BI
75
DI
75
10075
TBD
TBD
HAlm ‐ Remote Modulation Input
BI
76
DI
76
10076
TBD
TBD
HAlm ‐ Steam Flo (Xmtr)
BI
77
DI
77
10077
TBD
TBD
HAlm ‐ Mud Drum Shell Temp (Xmtr)
BI
78
DI
78
10078
TBD
TBD
HAlm ‐ VSD Speed Feedback (Xmtr)
BI
79
DI
79
10079
TBD
TBD
HAlm ‐ Flue Gas O2 (Xmtr)
BI
80
DI
80
10080
TBD
TBD
HAlm ‐ F1 Flo (Xmtr)
BI
81
DI
81
10081
TBD
TBD
HAlm ‐ F2 Flo (Xmtr)
BI
82
DI
82
10082
TBD
TBD
HAlm ‐ Stack Draft (Xmtr)
BI
83
DI
83
10083
TBD
TBD
HAlm ‐ Feedwater Flo (Xmtr)
BI
84
DI
84
10084
TBD
TBD
HAlm ‐ Econ Outlet FG Temp (Xmtr)
BI
85
DI
85
10085
TBD
TBD TBD
HAlm ‐ Econ Inlet FW Temp (Xmtr)
BI
86
DI
86
10086
TBD
HAlm ‐ Econ Outlet FW Temp (Xmtr)
BI
87
DI
87
10087
TBD
TBD
HAlm ‐ Air Flo Hi (Xmtr)
BI
88
DI
88
10088
TBD
TBD
HHAlm ‐ Stack Tmp Hi‐Hi SHUTDWN (Xmtr) HAlm ‐ Hi Water Cutoff (Contact)
BI
89
DI
89
10089
TBD
TBD
BI
90
DI
90
10090
TBD
TBD
HAlm ‐ Hi Gas Pressure (Contact)
BI
91
DI
91
10091
TBD
TBD
HAlm ‐ Hi Oil Temp (Contact)
BI
92
DI
92
10092
TBD
TBD
HAlm ‐ Hi Oil Pressure (Contact)
BI
93
DI
93
10093
TBD
TBD
HAlm ‐ Hi Water Alm (Contact)
BI
94
DI
94
10094
TBD
TBD
HHAlm ‐ Hi‐Hi Furn Press SHTDWN
BI
95
DI
95
10095
TBD
TBD
Reserved
BI
96
DI
96
10096
TBD
TBD
LAlm ‐ Steam Press (Xmtr)
BI
97
DI
97
10097
TBD
TBD
62
750-361
ProtoNode Gateway Table 20: Hawk 5000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) LAlm ‐ Drum Level (Xmtr)
BI
98
DI
98
10098
TBD
LAlm ‐ Stack Temp (Xmtr) LAlm ‐ Remote Modulation
BI
99
BI
100
LAlm ‐ Steam Flo (Xmtr)
BI
LAlm ‐ Mud Drum Shell Temp (Xmtr)
BI
LAlm ‐ VSD Speed Feedback
TBD
DI
99
10099
TBD
TBD
DI
100
10100
TBD
TBD
101
DI
101
10101
TBD
TBD
102
DI
102
10102
TBD
TBD
BI
103
DI
103
10103
TBD
TBD
LAlm ‐ Flo Gas O2 (Xmtr)
BI
104
DI
104
10104
TBD
TBD
LAlm ‐ F1 Flo (Xmtr)
BI
105
DI
105
10105
TBD
TBD
LAlm ‐ F2 Flo (Xmtr)
BI
106
DI
106
10106
TBD
TBD
LAlm ‐ Stack Draft (Xmtr)
BI
107
DI
107
10107
TBD
TBD
LAlm ‐ Feedwtr Flo (Xmtr)
BI
108
DI
108
10108
TBD
TBD
LAlm ‐ Econ Outlet FG Temp (Xmtr)
BI
109
DI
109
10109
TBD
TBD
LAlm ‐ Econ Inlet Feedwtr Temp (Xmtr)
BI
110
DI
110
10110
TBD
TBD
LAlm ‐ Econ Outlet Feedwtr Temp (Xmtr)
BI
111
DI
111
10111
TBD
TBD
LAlm ‐ Air Flo (Xmtr)
BI
112
DI
112
10112
TBD
TBD
LAlm ‐ Lo wtr Cutoff (Contact)
BI
113
DI
113
10113
TBD
TBD
LAlm ‐ Aux Lo wtr Cutoff (Contact)
BI
114
DI
114
10114
TBD
TBD TBD
LAlm ‐ Lo Gas Press (Contact)
BI
115
DI
115
10115
TBD
LAlm ‐ Lo Oil Temp (Contact)
BI
116
DI
116
10116
TBD
TBD
LAlm ‐ Lo Oil Press (Contact)
BI
117
DI
117
10117
TBD
TBD
LAlm ‐ Lo wtr Alm (Contact)
BI
118
DI
118
10118
TBD
TBD
LAlm ‐ Lo Comb Air Press (Contact)
BI
119
DI
119
10119
TBD
TBD
LAlm ‐ Lo Inst Air Press (Contact)
BI
120
DI
120
10120
TBD
TBD
LLAlm ‐ Flo Gas O2 Lo‐Lo SHUTDOWN
BI
121
DI
121
10121
TBD
TBD
AB[7].9
BI
122
DI
122
10122
TBD
TBD
AB[7].10
BI
123
DI
123
10123
TBD
TBD
AB[7].11
BI
124
DI
124
10124
TBD
TBD
AB[7].12
BI
125
DI
125
10125
TBD
TBD
AB[7].13
BI
126
DI
126
10126
TBD
TBD
AB[7].14
BI
127
DI
127
10127
TBD
TBD
AB[7].15
BI
128
DI
128
10128
TBD
TBD
Burner Control Alm (Contact)
BI
129
DI
129
10129
TBD
TBD
Yokagawa O2 Analyzer Not Ready
BI
130
DI
130
10130
TBD
TBD
Lo Atomizing Media (Contact)
BI
131
DI
131
10131
TBD
TBD
Oil Gun Pos Switch Not Made (Contact)
BI
132
DI
132
10132
TBD
TBD
Recycle Limit Relay (RLR) Fault
BI
133
DI
133
10133
TBD
TBD
Non‐Recycle Limit Relay (NRLR) Fault
BI
134
DI
134
10134
TBD
TBD
Actuator1 (Air) Out Of Pos Alm
BI
135
DI
135
10135
TBD
TBD
Actuator2 (F1) Out Of Pos Alm
BI
136
DI
136
10136
TBD
TBD
Actuator3 (F2) Out Of Pos Alm
BI
137
DI
137
10137
TBD
TBD
Actuator (FGR) Out Of Pos Alm
BI
138
DI
138
10138
TBD
TBD
Act1 (Air) Feedback Outside Cal Rng
BI
139
DI
139
10139
TBD
TBD
Act2 (F1) Feedback Outside Cal Rng
BI
140
DI
140
10140
TBD
TBD
Act3 (F2) Feedback Outside Cal Rng
BI
141
DI
141
10141
TBD
TBD
Actu (FGR) Feedback Outside Cal Rng
BI
142
DI
142
10142
TBD
TBD
Ext. Start Interlock Not Closed Alm
BI
143
DI
143
10143
TBD
TBD
Actuator5 (VSD) FB / CVDeviation Alm
BI
144
DI
144
10144
TBD
TBD
A‐B VSD Fault Alm
BI
145
DI
145
10145
TBD
TBD
Modbus Comm Error
BI
146
DI
146
10146
TBD
TBD
I/O Module ## Fault Detected Alm
BI
147
DI
147
10147
TBD
TBD
750-361
63
ProtoNode Gateway Table 20: Hawk 5000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Burner Control Fault Alm
BI
148
DI
148
10148
TBD
TBD
Hi Limit Cutoff Alm
BI
149
DI
149
10149
TBD
TBD
CPU Battery Alm
BI
150
DI
150
10150
TBD
TBD
Actuator8 (2nd Air) Out Of Pos Alm
BI
151
DI
151
10151
TBD
TBD
Actuator9 (2nd F1) Out Of Pos Alm
BI
152
DI
152
10152
TBD
TBD
Actuator8 (2nd Air) FB Outside Cal Rng
BI
153
DI
153
10153
TBD
TBD
Actuator9 (2nd F1) FB Outside Cal Rng
BI
154
DI
154
10154
TBD
TBD
Reserved
BI
155
DI
155
10155
TBD
TBD
Reserved
BI
156
DI
156
10156
TBD
TBD
Reserved
BI
157
DI
157
10157
TBD
TBD
No Fuel Selected
BI
158
DI
158
10158
TBD
TBD
EIP Comm Link FAULT ‐ Master Panel
BI
159
DI
159
10159
TBD
TBD
Reserved
BI
160
DI
160
10160
TBD
TBD
HAlm ‐ Usr Def (07:00)
BI
161
DI
161
10161
TBD
TBD
HAlm ‐ Usr Def (07:01)
BI
162
DI
162
10162
TBD
TBD
HAlm ‐ Usr Def (07:02)
BI
163
DI
163
10163
TBD
TBD
HAlm ‐ Usr Def (07:03)
BI
164
DI
164
10164
TBD
TBD
HAlm ‐ Usr Def (07:04)
BI
165
DI
165
10165
TBD
TBD
HAlm ‐ Usr Def (07:05)
BI
166
DI
166
10166
TBD
TBD
HAlm ‐ Usr Def (07:06)
BI
167
DI
167
10167
TBD
TBD
HAlm ‐ Usr Def (07:07)
BI
168
DI
168
10168
TBD
TBD
Input Bad Quality ‐ Usr Def (07:00)
BI
169
DI
169
10169
TBD
TBD
Input Bad Quality ‐ Usr Def (07:01)
BI
170
DI
170
10170
TBD
TBD
Input Bad Quality ‐ Usr Def (07:02)
BI
171
DI
171
10171
TBD
TBD
Input Bad Quality ‐ Usr Def (07:03)
BI
172
DI
172
10172
TBD
TBD
Input Bad Quality ‐ Usr Def (07:04)
BI
173
DI
173
10173
TBD
TBD
Input Bad Quality ‐ Usr Def (07:05)
BI
174
DI
174
10174
TBD
TBD
Input Bad Quality ‐ Usr Def (07:06)
BI
175
DI
175
10175
TBD
TBD
Input Bad Quality ‐ Usr Def (07:07)
BI
176
DI
176
10176
TBD
TBD
LAlm ‐ Usr Def (07:00)
BI
177
DI
177
10177
TBD
TBD
LAlm ‐ Usr Def (07:01)
BI
178
DI
178
10178
TBD
TBD
LAlm ‐ Usr Def (07:02)
BI
179
DI
179
10179
TBD
TBD
LAlm ‐ Usr Def (07:03)
BI
180
DI
180
10180
TBD
TBD
LAlm ‐ Usr Def (07:04)
BI
181
DI
181
10181
TBD
TBD
LAlm ‐ Usr Def (07:05)
BI
182
DI
182
10182
TBD
TBD
LAlm ‐ Usr Def (07:06)
BI
183
DI
183
10183
TBD
TBD
LAlm ‐ Usr Def (07:07)
BI
184
DI
184
10184
TBD
TBD
Reserved
BI
185
DI
185
10185
TBD
TBD
Reserved
BI
186
DI
186
10186
TBD
TBD
Reserved
BI
187
DI
187
10187
TBD
TBD
Reserved
BI
188
DI
188
10188
TBD
TBD
Reserved
BI
189
DI
189
10189
TBD
TBD
Reserved
BI
190
DI
190
10190
TBD
TBD
Reserved
BI
191
DI
191
10191
TBD
TBD
Reserved
BI
192
DI
192
10192
TBD
TBD
Steam Press
AI
1
AI
1
30001
TBD
TBD
Drum Level
AI
2
AI
2
30003
TBD
TBD
Stack Temp
AI
3
AI
3
30005
TBD
TBD
Remote Modulation
AI
4
AI
4
30007
TBD
TBD
Steam Flo
AI
5
AI
5
30009
TBD
TBD
64
750-361
ProtoNode Gateway Table 20: Hawk 5000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Mud Drum Shell Temp
AI
6
AI
6
30011
TBD
TBD
VSD Speed Feedback
AI
7
AI
7
30013
TBD
TBD
Flue Gas O2
AI
8
AI
8
30015
TBD
TBD
F1 Flo or Usr Def
AI
9
AI
9
30017
TBD
TBD
F2 Flo or Usr Def
AI
10
AI
10
30019
TBD
TBD
Stack Draft or Usr Def
AI
11
AI
11
30021
TBD
TBD
Feedwtr Flo or Usr Def
AI
12
AI
12
30023
TBD
TBD
Econ Outlet FG Temp or Usr Def
AI
13
AI
13
30025
TBD
TBD
Econ Inlet FW Temp or Usr Def
AI
14
AI
14
30027
TBD
TBD
Econ Outlet FW Temp or Usr Def
AI
15
AI
15
30029
TBD
TBD
Air Flo or Usr Def
AI
16
AI
16
30031
TBD
TBD
Steam Press SP
AI
17
AI
17
30033
TBD
TBD
Drum Level SP
AI
18
AI
18
30035
TBD
TBD
Flue Gas O2 SP
AI
19
AI
19
30037
TBD
TBD
Boiler Effiiciency
AI
20
AI
20
30039
TBD
TBD
VSD Motor KW
AI
21
AI
21
30041
TBD
TBD
VSD Motor Current
AI
22
AI
22
30043
TBD
TBD
Firing Rate
AI
23
AI
23
30045
TBD
TBD
Drum Level %
AI
24
AI
24
30047
TBD
TBD
Jackshaft Actuator (Pct)
AI
25
AI
25
30049
TBD
TBD
Actuator7 (Feedwtr Valve) (Pct)
AI
26
AI
26
30051
TBD
TBD
Actuator5 (VSD) (Pct)
AI
27
AI
27
30053
TBD
TBD
Actuator6 (Outlet Damper) (Pct)
AI
28
AI
28
30055
TBD
TBD
Actuator1 (Air) CV (POSP_SP)
AI
29
AI
29
30057
TBD
TBD
Actuator2 (F1) CV (POSP_SP)
AI
30
AI
30
30059
TBD
TBD
Actuator3 (F2) CV (POSP_SP)
AI
31
AI
31
30061
TBD
TBD
Actuator4 (FGR) CV (POSP_ SP)
AI
32
AI
32
30063
TBD
TBD
VSD Speed (Hz)
AI
33
AI
33
30065
TBD
TBD
Boiler Number Derrived From IP Address
AI
34
AI
34
30067
TBD
TBD
Reserved
AI
35
AI
35
30069
TBD
TBD
Reserved
AI
36
AI
36
30071
TBD
TBD
Reserved
AI
37
AI
37
30073
TBD
TBD
Reserved
AI
38
AI
38
30075
TBD
TBD
Reserved
AI
39
AI
39
30077
TBD
TBD
Reserved
AI
40
AI
40
30079
TBD
TBD
Elapsed Time
AI
41
AI
41
30081
TBD
TBD
Number Of Cycles
AI
42
AI
42
30082
TBD
TBD
Steam Press (06:00)
AI
43
AI
43
30083
TBD
TBD
Drum Level (06:01)
AI
44
AI
44
30084
TBD
TBD
Stack Temp (06:02)
AI
45
AI
45
30085
TBD
TBD
Remote Modulation (06:03)
AI
46
AI
46
30086
TBD
TBD
Steam Flo (06:04)
AI
47
AI
47
30087
TBD
TBD
Mud Drum Shell Temp (06:05)
AI
48
AI
48
30088
TBD
TBD
Actuator5 (VSD) FB (06:06)
AI
49
AI
49
30089
TBD
TBD
Flue Gas O2 (06:07)
AI
50
AI
50
30090
TBD
TBD
F1 Flo or Usr Def (07:00)
AI
51
AI
51
30091
TBD
TBD
F2 Flo or Usr Def (07:01)
AI
52
AI
52
30092
TBD
TBD
Stack Draft or Usr Def (07:02)
AI
53
AI
53
30093
TBD
TBD
Feedwtr Flo or Usr Def (07:03)
AI
54
AI
54
30094
TBD
TBD
Econ Outlet FG Temp or Usr Def (07:04)
AI
55
AI
55
30095
TBD
TBD
750-361
65
ProtoNode Gateway Table 20: Hawk 5000 Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Econ Inlet FW Temp or Usr Def (07:05)
AI
56
AI
56
30096
TBD
TBD
Econ Outlet FW Temp or Usr Def (07:06)
AI
57
AI
57
30097
TBD
TBD
Air Flo or Usr Def (07:07)
AI
58
AI
58
30098
TBD
TBD
Alm Tickler State Register
AI
59
AI
59
30099
TBD
TBD
Fuel 1 Type
AI
60
AI
60
30100
TBD
TBD
Fuel 2 Type
AI
61
AI
61
30101
TBD
TBD
Flame Strength ‐ CB120
AI
62
AI
62
30102
TBD
TBD
Flame Strength ‐ CB780
AI
63
AI
63
30103
TBD
TBD
Main Flame Flicker
AI
64
AI
64
30104
TBD
TBD
Reserved
AI
65
AI
65
30105
TBD
TBD
Reserved
AI
66
AI
66
30106
TBD
TBD
Burner Control Status Line 00
AI
67
AI
67
30107
TBD
TBD
Burner Control Diagnostics 05
AI
68
AI
68
30108
TBD
TBD
Failed I/O Module Number
AI
69
AI
69
30109
TBD
TBD
IP Address 00
AI
70
AI
70
30110
TBD
TBD
IP Address 01
AI
71
AI
71
30111
TBD
TBD
IP Address 02
AI
72
AI
72
30112
TBD
TBD
IP Address 03
AI
73
AI
73
30113
TBD
TBD
IP Address 04
AI
74
AI
74
30114
TBD
TBD
66
750-361
ProtoNode Gateway B.11. HAWK MASTER PANEL Table 21: Hawk Master Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks
Boiler A Ethernet Comm Error
BACnet Object Type BI
BACnet Object ID 1287
N2 Data Type DI
N2 Point Address 1
Modbus RTU Register 11287
Boiler B Ethernet Comm Error
BI
1288
DI
2
11288
Boiler C Ethernet Comm Error
BI
1289
DI
3
Boiler D Ethernet Comm Error
BI
1290
DI
4
Steam/Water Sensor Fail
BI
1291
DI
5
Point Name
Lon Name
Lon SNVT
TBD
TBD
TBD
TBD
11289
TBD
TBD
11290
TBD
TBD
11291
TBD
TBD
Low Steam Pressure
BI
1292
DI
6
11292
TBD
TBD
Boiler A Power Failure
BI
1293
DI
7
11293
TBD
TBD TBD
Boiler B Power Failure
BI
1294
DI
8
11294
TBD
Boiler C Power Failure
BI
1295
DI
9
11295
TBD
TBD
Boiler D Power Failure
BI
1296
DI
10
11296
TBD
TBD
Boiler A Ready
BI
1297
DI
11
11297
TBD
TBD
Boiler B Ready
BI
1298
DI
12
11298
TBD
TBD
Boiler C Ready
BI
1299
DI
13
11299
TBD
TBD
Boiler D Ready
BI
1300
DI
14
11300
TBD
TBD
Power To Boiler A
BI
1301
DI
15
11301
TBD
TBD
Power To Boiler B
BI
1302
DI
16
11302
TBD
TBD
Power To Boiler C
BI
1303
DI
17
11303
TBD
TBD
Power To Boiler D
BI
1304
DI
18
11304
TBD
TBD
Boiler A Start Output
BI
1305
DI
19
11305
TBD
TBD
Boiler B Start Output
BI
1306
DI
20
11306
TBD
TBD
Boiler C Start Output
BI
1307
DI
21
11307
TBD
TBD
Boiler D Start Output
BI
1308
DI
22
11308
TBD
TBD
Unison Modulation
BI
1309
DI
23
11309
TBD
TBD
L/Lag Modulation
BI
1310
DI
24
11310
TBD
TBD
English System
BI
1311
DI
25
11311
TBD
TBD
Metric System
BI
1312
DI
26
11312
TBD
TBD
Auto Rotation On
BI
1313
DI
27
11313
TBD
TBD
AMB[1]11
BI
1314
DI
28
11314
TBD
TBD
AMB[1]12
BI
1315
DI
29
11315
TBD
TBD
AMB[1]13
BI
1316
DI
30
11316
TBD
TBD
AMB[1]14
BI
1317
DI
31
11317
TBD
TBD
AMB[1]15
BI
1318
DI
32
11318
TBD
TBD
Boiler E Ethernet Comm Error
BI
1319
DI
33
11319
TBD
TBD
Boiler F Ethernet Comm Error
BI
1320
DI
34
11320
TBD
TBD
Boiler G Ethernet Comm Error
BI
1321
DI
35
11321
TBD
TBD
Boiler H Ethernet Comm Error
BI
1322
DI
36
11322
TBD
TBD TBD
I/O Module Failure
BI
1323
DI
37
11323
TBD
AMB[2]5
BI
1324
DI
38
11324
TBD
TBD
Boiler E Power Failure
BI
1325
DI
39
11325
TBD
TBD
Boiler F Power Failure
BI
1326
DI
40
11326
TBD
TBD
Boiler G Power Failure
BI
1327
DI
41
11327
TBD
TBD
Boiler H Power Failure
BI
1328
DI
42
11328
TBD
TBD
Boiler E Ready
BI
1329
DI
43
11329
TBD
TBD
Boiler F Ready
BI
1330
DI
44
11330
TBD
TBD
Boiler G Ready
BI
1331
DI
45
11331
TBD
TBD
Boiler H Ready
BI
1332
DI
46
11332
TBD
TBD
Power To Boiler E
BI
1333
DI
47
11333
TBD
TBD
750-361
67
ProtoNode Gateway Table 21: Hawk Master Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Power To Boiler F
BI
1334
DI
48
11334
TBD
TBD
Power To Boiler G
BI
1335
DI
49
11335
TBD
TBD
Power To Boiler H
BI
1336
DI
50
11336
TBD
TBD
Boiler E Start Output
BI
1337
DI
60
11337
TBD
TBD
Boiler F Start Output
BI
1338
DI
61
11338
TBD
TBD
Boiler G Start Output
BI
1339
DI
62
11339
TBD
TBD
Boiler H Start Output
BI
1340
DI
63
11340
TBD
TBD
AMB[3]6
BI
1341
DI
64
11341
TBD
TBD
AMB[3]7
BI
1342
DI
65
11342
TBD
TBD
AMB[3]8
BI
1343
DI
66
11343
TBD
TBD
AMB[3]9
BI
1344
DI
67
11344
TBD
TBD
AMB[3]10
BI
1345
DI
68
11345
TBD
TBD
AMB[3]11
BI
1346
DI
69
11346
TBD
TBD
AMB[3]12
BI
1347
DI
70
11347
TBD
TBD
AMB[3]13
BI
1348
DI
71
11348
TBD
TBD
AMB[3]14
BI
1349
DI
72
11349
TBD
TBD
AMB[3]15
BI
1350
DI
73
11350
TBD
TBD
Number of units
AI
613
AI
1
31105
TBD
TBD
Boiler A Sequence Status
AI
614
AI
2
31106
TBD
TBD
Boiler B Sequence Status
AI
615
AI
3
31107
TBD
TBD
Boiler C Sequence Status
AI
616
AI
4
31108
TBD
TBD
Boiler D Sequence Status
AI
617
AI
5
31109
TBD
TBD
Auto Sequence Rotation Days Set
AI
618
AI
6
31110
TBD
TBD
Blr A Run Time Since Last Rot (Days)
AI
619
AI
7
31111
TBD
TBD
Blr A Run Time Since Last Rot (Hrs)
AI
620
AI
8
31112
TBD
TBD
Blr A Run Time Since Last Rot (Min)
AI
621
AI
9
31113
TBD
TBD
Blr B Run Time Since Last Rot (Days)
AI
622
AI
10
31114
TBD
TBD
Blr B Run Time Since Last Rot (Hrs)
AI
623
AI
11
31115
TBD
TBD
Blr B Run Time Since Last Rot (Min)
AI
624
AI
12
31116
TBD
TBD
Blr C Run Time Since Last Rot (Days)
AI
625
AI
13
31117
TBD
TBD
Blr C Run Time Since Last Rot (Hrs)
AI
626
AI
14
31118
TBD
TBD
Blr C Run Time Since Last Rot (Min)
AI
627
AI
15
31119
TBD
TBD
Blr D Run Time Since Last Rot (Days)
AI
628
AI
16
31120
TBD
TBD
Blr D Run Time Since Last Rot (Hrs)
AI
629
AI
17
31121
TBD
TBD
Blr D Run Time Since Last Rot (Min)
AI
630
AI
18
31122
TBD
TBD
AMI[18]
AI
631
AI
19
31123
TBD
TBD
AMI[19]
AI
632
AI
20
31124
TBD
TBD
AMI[20]
AI
633
AI
21
31125
TBD
TBD
Boiler E Sequence Status
AI
634
AI
22
31126
TBD
TBD
Boiler F Sequence Status
AI
635
AI
23
31127
TBD
TBD
Boiler G Sequence Status
AI
636
AI
24
31128
TBD
TBD TBD
Boiler H Sequence Status
AI
637
AI
25
31129
TBD
AMI[25]
AI
638
AI
26
31130
TBD
TBD
Blr E Run Time Since Last Rot (Days)
AI
639
AI
27
31131
TBD
TBD
Blr E Run Time Since Last Rot (Hrs)
AI
640
AI
28
31132
TBD
TBD
Blr E Run Time Since Last Rot (Min)
AI
641
AI
29
31133
TBD
TBD
Blr F Run Time Since Last Rot (Days)
AI
642
AI
30
31134
TBD
TBD
Blr F Run Time Since Last Rot (Hrs)
AI
643
AI
31
31135
TBD
TBD
Blr F Run Time Since Last Rot (Min)
AI
644
AI
32
31136
TBD
TBD
Blr G Run Time Since Last Rot (Days)
AI
645
AI
33
31137
TBD
TBD
68
750-361
ProtoNode Gateway Table 21: Hawk Master Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued)
* * *
Blr G Run Time Since Last Rot (Hrs)
AI
Blr G Run Time Since Last Rot (Min)
AI
Blr H Run Time Since Last Rot (Days)
AI
Blr H Run Time Since Last Rot (Hrs)
AI
Blr H Run Time Since Last Rot (Min)
646
AI
34
31138
TBD
TBD
647
AI
35
31139
TBD
TBD
648
AI
36
31140
TBD
TBD
649
AI
37
31141
TBD
TBD
AI
650
AI
38
31142
TBD
TBD
Blr A Lead Lag Entered Seq
AI
651
AI
39
31143
TBD
TBD
Blr B Lead Lag Entered Seq
AI
652
AI
40
31144
TBD
TBD
Blr C Lead Lag Entered Seq
AI
653
AI
41
31145
TBD
TBD
Blr D Lead Lag Entered Seq
AI
654
AI
42
31146
TBD
TBD
Blr E Lead Lag Entered Seq
AI
655
AI
43
31147
TBD
TBD
Blr F Lead Lag Entered Seq
AI
656
AI
44
31148
TBD
TBD
Blr G Lead Lag Entered Seq
AI
657
AI
45
31149
TBD
TBD
Blr H Lead Lag Entered Seq
AI
658
AI
46
31150
TBD
TBD
Blr A Lead Lag Working Seq
AI
659
AI
47
31151
TBD
TBD
Blr B Lead Lag Working Seq
AI
660
AI
48
31152
TBD
TBD
Blr C Lead Lag Working Seq
AI
661
AI
49
31153
TBD
TBD
Blr D Lead Lag Working Seq
AI
662
AI
50
31154
TBD
TBD
Blr E Lead Lag Working Seq
AI
663
AI
51
31155
TBD
TBD
Blr F Lead Lag Working Seq
AI
664
AI
52
31156
TBD
TBD
Blr G Lead Lag Working Seq
AI
665
AI
53
31157
TBD
TBD
Blr H Lead Lag Working Seq
AI
666
AI
54
31158
TBD
TBD
Max Pressure/Temp
AI
401
AI
55
30801
TBD
TBD
Lead Boiler On Point
AI
402
AI
56
30803
TBD
TBD
Lead Boiler Off Point
AI
403
AI
57
30805
TBD
TBD
Operating Pressure/Temp
AI
404
AI
58
30807
TBD
TBD
Low SP Limit
AI
405
AI
59
30809
TBD
TBD
High SP Limit
AI
406
AI
60
30811
TBD
TBD
Days Till Auto Seq Rotation
AI
407
AI
61
30813
TBD
TBD
Hours Till Auto Seq Rotation
AI
408
AI
62
30815
TBD
TBD
Minutes Till Auto Seq Rotation
AI
409
AI
63
30817
TBD
TBD
Seconds Till Auto Seq Rotation
AI
410
AI
64
30819
TBD
TBD
Control Output Boiler A
AI
411
AI
65
30821
TBD
TBD
Control Output Boiler B
AI
412
AI
66
30823
TBD
TBD
Control Output Boiler C
AI
413
AI
67
30825
TBD
TBD
Control Output Boiler D
AI
414
AI
68
30827
TBD
TBD
Control Output Boiler E
AI
415
AI
69
30829
TBD
TBD
Control Output Boiler F
AI
416
AI
70
30831
TBD
TBD
Control Output Boiler G
AI
417
AI
71
30833
TBD
TBD
Control Output Boiler H
AI
418
AI
72
30835
TBD
TBD
Steam Pressure (Water Temp) SP
AI
419
AI
73
30837
TBD
TBD
AMR[19]
AI
420
AI
74
30839
TBD
TBD
AMR[20]
AI
421
AI
75
30841
TBD
TBD
AMR[21]
AI
422
AI
76
30843
TBD
TBD
AMR[22]
AI
423
AI
77
30845
TBD
TBD
AMR[23]
AI
424
AI
78
30847
TBD
TBD
AMR[24]
AI
425
AI
79
30849
TBD
TBD
AMR[25]
AI
426
AI
80
30851
TBD
TBD
Master Write Bit
BV
1
DO
1
00001
TBD
TBD
Setpoint Value Write
AV
51
AO
51
40051
TBD
TBD
N510[0]
AV
1
AO
1
40001
TBD
TBD
750-361
69
ProtoNode Gateway Table 21: Hawk Master Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued)
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
Lag 1 Start Timer Set
AV
2
AO
2
40002
TBD
TBD
Lag 1 Start Point
AV
3
AO
3
40003
TBD
TBD
Lag 1 Stop Point
AV
4
AO
4
40004
TBD
TBD
Lag 1 Stop Timer Set
AV
5
AO
5
40005
TBD
TBD
N510[5]
AV
6
AO
6
40006
TBD
TBD
Lag 2 Start Timer Set
AV
7
AO
7
40007
TBD
TBD
Lag 2 Start Point
AV
8
AO
8
40008
TBD
TBD
Lag 2 Stop Point
AV
9
AO
9
40009
TBD
TBD
Lag 2 Stop Timer Set
AV
10
AO
10
40010
TBD
TBD
N510[10]
AV
11
AO
11
40011
TBD
TBD
Lag 3 Start Timer Set
AV
12
AO
12
40012
TBD
TBD
Lag 3 Start Point
AV
13
AO
13
40013
TBD
TBD
Lag 3 Stop Point
AV
14
AO
14
40014
TBD
TBD
Lag 3 Stop Timer Set
AV
15
AO
15
40015
TBD
TBD
Lead Boiler Selection
AV
16
AO
16
40016
TBD
TBD
Lag 1 Boiler Selection
AV
17
AO
17
40017
TBD
TBD
Lag 2 Boiler Selection
AV
18
AO
18
40018
TBD
TBD
Lag 3 Boiler Selection
AV
19
AO
19
40019
TBD
TBD
Lag 4 Boiler Selection
AV
20
AO
20
40020
TBD
TBD
Lag 5 Boiler Selection
AV
21
AO
21
40021
TBD
TBD
Lag 6 Boiler Selection
AV
22
AO
22
40022
TBD
TBD
Lag 7 Boiler Selection
AV
23
AO
23
40023
TBD
TBD
Lag 4 Start Timer Set
AV
24
AO
24
40024
TBD
TBD
Lag 4 Start Point
AV
25
AO
25
40025
TBD
TBD
Lag 4 Stop Point
AV
26
AO
26
40026
TBD
TBD
Lag 4 Stop Timer Set
AV
27
AO
27
40027
TBD
TBD
Lag 5 Start Timer Set
AV
28
AO
28
40028
TBD
TBD
Lag 5 Start Point
AV
29
AO
29
40029
TBD
TBD
Lag 5 Stop Point
AV
30
AO
30
40030
TBD
TBD
Lag 5 Stop Timer Set
AV
31
AO
31
40031
TBD
TBD
Lag 6 Start Timer Set
AV
32
AO
32
40032
TBD
TBD
Lag 6 Start Point
AV
33
AO
33
40033
TBD
TBD
Lag 6 Stop Point
AV
34
AO
34
40034
TBD
TBD
Lag 6 Stop Timer Set
AV
35
AO
35
40035
TBD
TBD
Lag 7 Start Timer Set
AV
36
AO
36
40036
TBD
TBD
Lag 7 Start Point
AV
37
AO
37
40037
TBD
TBD
Lag 7 Stop Point
AV
38
AO
38
40038
TBD
TBD
Lag 7 Stop Timer Set
AV
39
AO
39
40039
TBD
TBD
N510[39]
AV
40
AO
40
40040
TBD
TBD
N510[40]
AV
41
AO
41
40041
TBD
TBD
N510[41]
AV
42
AO
42
40042
TBD
TBD
N510[42]
AV
43
AO
43
40043
TBD
TBD
N510[43]
AV
44
AO
44
40044
TBD
TBD
N510[44]
AV
45
AO
45
40045
TBD
TBD
N510[45]
AV
46
AO
46
40046
TBD
TBD
N510[46]
AV
47
AO
47
40047
TBD
TBD
N510[47]
AV
48
AO
48
40048
TBD
TBD
N510[48]
AV
49
AO
49
40049
TBD
TBD
N510[49]
AV
50
AO
50
40050
TBD
TBD
*Write points
70
750-361
ProtoNode Gateway B.12. ADAC Table 22: ADAC Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks Point Name Deaerator Lvl BAD QUALITY Deaerator Lvl Hi
BACnet Object Type BI
BACnet Object ID 1
N2 Data Type DI
N2 Point Address 1
Modbus Register 11351
BI
2
DI
2
11352
TBD
Lon Name
Lon SNVT
TBD
TBD
TBD
TBD
Deaerator Lvl Lo
BI
3
DI
3
11353
TBD
Deaerator Lvl Lo‐Lo (LWCO)
BI
4
DI
4
11354
TBD
TBD
Feed Pump 1 Flt
BI
5
DI
5
11355
TBD
TBD
Feed Pump 2 Flt
BI
6
DI
6
11356
TBD
TBD
Feed Pump 3 Flt
BI
7
DI
7
11357
TBD
TBD
Feed Pump 4 Flt
BI
8
DI
8
11358
TBD
TBD
Feed Pump 5 Flt
BI
9
DI
9
11359
TBD
TBD
Feed Pump 6 Flt
BI
10
DI
10
11360
TBD
TBD
Feed Pump 1 OVERLOAD
BI
11
DI
11
11361
TBD
TBD
Feed Pump 2 OVERLOAD
BI
12
DI
12
11362
TBD
TBD
Feed Pump 3 OVERLOAD
BI
13
DI
13
11363
TBD
TBD
Feed Pump 4 OVERLOAD
BI
14
DI
14
11364
TBD
TBD
Feed Pump 5 OVERLOAD
BI
15
DI
15
11365
TBD
TBD
Feed Pump 6 OVERLOAD
BI
16
DI
16
11366
TBD
TBD
Spare
BI
17
DI
17
11367
TBD
TBD
Spare
BI
18
DI
18
11368
TBD
TBD
Spare
BI
19
DI
19
11369
TBD
TBD
Deaerator Temp BAD QUALITY
BI
20
DI
20
11370
TBD
TBD TBD
Deaerator Temp Lo
BI
21
DI
21
11371
TBD
Deaerator Temp Hi
BI
22
DI
22
11372
TBD
TBD
Deaerator Pressure BAD QUALITY
BI
23
DI
23
11373
TBD
TBD
Deaerator Pressure Lo
BI
24
DI
24
11374
TBD
TBD
Deaerator Pressure Hi
BI
25
DI
25
11375
TBD
TBD
Boiler Feed Wtr Header Pressure BQ
BI
26
DI
26
11376
TBD
TBD
Boiler Feed Wtr Header Pressure Lo
BI
27
DI
27
11377
TBD
TBD
Boiler Feed Wtr Header Pressure Hi
BI
28
DI
28
11378
TBD
TBD
DAB1[1]12
BI
29
DI
29
11379
TBD
TBD
DAB1[1]13
BI
30
DI
30
11380
TBD
TBD
DAB1[1]14
BI
31
DI
31
11381
TBD
TBD
DAB1[1]15
BI
32
DI
32
11382
TBD
TBD
DAB1[2]0
BI
33
DI
33
11383
TBD
TBD
DAB1[2]1
BI
34
DI
34
11384
TBD
TBD
DAB1[2]2
BI
35
DI
35
11385
TBD
TBD
DAB1[2]3
BI
36
DI
36
11386
TBD
TBD
DAB1[2]4
BI
37
DI
37
11387
TBD
TBD
DAB1[2]5
BI
38
DI
38
11388
TBD
TBD
DAB1[2]6
BI
39
DI
39
11389
TBD
TBD
DAB1[2]7
BI
40
DI
40
11390
TBD
TBD
DAB1[2]8
BI
41
DI
41
11391
TBD
TBD
DAB1[2]9
BI
42
DI
42
11392
TBD
TBD
DAB1[2]10
BI
43
DI
43
11393
TBD
TBD
DAB1[2]11
BI
44
DI
44
11394
TBD
TBD
DAB1[2]12
BI
45
DI
45
11395
TBD
TBD
DAB1[2]13
BI
46
DI
46
11396
TBD
TBD
DAB1[2]14
BI
47
DI
47
11397
TBD
TBD
750-361
71
ProtoNode Gateway Table 22: ADAC Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) DAB1[2]15
BI
48
DI
48
11398
TBD
TBD
Feed Pump 1 ON
BI
49
DI
49
11399
TBD
TBD
Feed Pump 2 ON
BI
50
DI
50
11400
TBD
TBD
Feed Pump 3 ON
BI
51
DI
51
11401
TBD
TBD
Feed Pump 4 ON
BI
52
DI
52
11402
TBD
TBD
Feed Pump 5 ON
BI
53
DI
53
11403
TBD
TBD
Feed Pump 6 ON
BI
54
DI
54
11404
TBD
TBD
Feed Pump 1 In AUTO
BI
55
DI
55
11405
TBD
TBD
Feed Pump 2 In AUTO
BI
56
DI
56
11406
TBD
TBD
Feed Pump 3 In AUTO
BI
57
DI
57
11407
TBD
TBD
Feed Pump 4 In AUTO
BI
58
DI
58
11408
TBD
TBD
Feed Pump 5 In AUTO
BI
59
DI
59
11409
TBD
TBD
Feed Pump 6 In AUTO
BI
60
DI
60
11410
TBD
TBD
Deaerator No Alarms Relay OK
BI
61
DI
61
11411
TBD
TBD
YelLo Stack Light ON
BI
62
DI
62
11412
TBD
TBD
Green Stack Light ON
BI
63
DI
63
11413
TBD
TBD
Red Stack Light ON
BI
64
DI
64
11414
TBD
TBD
Chemical Feed ON
BI
65
DI
65
11415
TBD
TBD
Deaerator Feed Wtr Valve Open
BI
66
DI
66
11416
TBD
TBD
Feed Pumps ALT MODE ON
BI
67
DI
67
11417
TBD
TBD
DA Lo‐Lo Wtr Cutoff Relay Energized
BI
68
DI
68
11418
TBD
TBD
Deaerator 2nd Feed Wtr Valve Open
BI
69
DI
69
11419
TBD
TBD
Boiler Feed Pump 1 FLo Flt
BI
70
DI
70
11420
TBD
TBD
Boiler Feed Pump 2 FLo Flt
BI
71
DI
71
11421
TBD
TBD
Boiler Feed Pump 3 FLo Flt
BI
72
DI
72
11422
TBD
TBD
Boiler Feed Pump 4 FLo Flt
BI
73
DI
73
11423
TBD
TBD
Boiler Feed Pump 5 FLo Flt
BI
74
DI
74
11424
TBD
TBD
Boiler Feed Pump 6 FLo Flt
BI
75
DI
75
11425
TBD
TBD
PLC Battery Lo Replace Battery
BI
76
DI
76
11426
TBD
TBD
Feed Pump 1 VSD Speed Feedback Bad Q Feed Pump 2 VSD Speed Feedback Bad Q Feed Pump 3 VSD Speed Feedback Bad Q Feed Pump 4 VSD Speed Feedback Bad Q Feed Pump 5 VSD Speed Feedback Bad Q Feed Pump 6 VSD Speed Feedback Bad Q DAB1[5]2
BI
77
DI
77
11427
TBD
TBD
BI
78
DI
78
11428
TBD
TBD
BI
79
DI
79
11429
TBD
TBD
BI
80
DI
80
11430
TBD
TBD
BI
81
DI
81
11431
TBD
TBD
BI
82
DI
82
11432
TBD
TBD
BI
83
DI
83
11433
TBD
TBD
DAB1[5]3
BI
84
DI
84
11434
TBD
TBD
DAB1[5]4
BI
85
DI
85
11435
TBD
TBD
DAB1[5]5
BI
86
DI
86
11436
TBD
TBD
DAB1[5]6
BI
87
DI
87
11437
TBD
TBD
DAB1[5]7
BI
88
DI
88
11438
TBD
TBD
DAB1[5]8
BI
89
DI
89
11439
TBD
TBD
DAB1[5]9
BI
90
DI
90
11440
TBD
TBD
DAB1[5]10
BI
91
DI
91
11441
TBD
TBD
DAB1[5]11
BI
92
DI
92
11442
TBD
TBD
DAB1[5]12
BI
93
DI
93
11443
TBD
TBD
72
750-361
ProtoNode Gateway Table 22: ADAC Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) DAB1[5]13
BI
94
DI
94
11444
TBD
TBD
DAB1[5]14
BI
95
DI
95
11445
TBD
TBD
DAB1[5]15
BI
96
DI
96
11446
TBD
TBD
Surge Tank Lvl BAD QUALITY
BI
97
DI
97
11447
TBD
TBD
Surge Tank Lvl Hi
BI
98
DI
98
11448
TBD
TBD
Surge Tank Lvl Lo
BI
99
DI
99
11449
TBD
TBD
Surge Tank Temp BAD QUALITY
BI
100
DI
100
11450
TBD
TBD
Surge Tank Temp Lo
BI
101
DI
101
11451
TBD
TBD
Surge Tank Temp Hi
BI
102
DI
102
11452
TBD
TBD
Transfer Pump 1 Flt
BI
103
DI
103
11453
TBD
TBD
Transfer Pump 2 Flt
BI
104
DI
104
11454
TBD
TBD
Transfer Pump 3 Flt
BI
105
DI
105
11455
TBD
TBD
Transfer Pump 1 OVERLOAD
BI
106
DI
106
11456
TBD
TBD
Transfer Pump 2OVERLOAD
BI
107
DI
107
11457
TBD
TBD
Transfer Pump 3OVERLOAD
BI
108
DI
108
11458
TBD
TBD
Surge Tank Lo‐Lo (LWCO)
BI
109
DI
109
11459
TBD
TBD
Surge Tank Header Pressure Hi
BI
110
DI
110
11460
TBD
TBD
Surge Tank Header Pressure Lo
BI
111
DI
111
11461
TBD
TBD
Surge Tank Header Pressure BAD QUALITY DAB1[7]0
BI
112
DI
112
11462
TBD
TBD
BI
113
DI
113
11463
TBD
TBD
DAB1[7]1
BI
114
DI
114
11464
TBD
TBD
DAB1[7]2
BI
115
DI
115
11465
TBD
TBD
Surge 2nd Feed Wtr Valve Open
BI
116
DI
116
11466
TBD
TBD
Transfer Pump 1 FLo Flt
BI
117
DI
117
11467
TBD
TBD
Transfer Pump 2 FLo Flt
BI
118
DI
118
11468
TBD
TBD
Transfer Pump 3 FLo Flt
BI
119
DI
119
11469
TBD
TBD
Transfer Pump 1 VSD Speed Feedback BQ Transfer Pump 2 VSD Speed Feedback BQ Transfer Pump 3 VSD Speed Feedback BQ DAB1[7]10
BI
120
DI
120
11470
TBD
TBD
BI
121
DI
121
11471
TBD
TBD
BI
122
DI
122
11472
TBD
TBD
BI
123
DI
123
11473
TBD
TBD
DAB1[7]11
BI
124
DI
124
11474
TBD
TBD
DAB1[7]12
BI
125
DI
125
11475
TBD
TBD
DAB1[7]13
BI
126
DI
126
11476
TBD
TBD
DAB1[7]14
BI
127
DI
127
11477
TBD
TBD
DAB1[7]15
BI
128
DI
128
11478
TBD
TBD
Surge Tank No Alarms Relay OK
BI
129
DI
129
11479
TBD
TBD
YelLo Stack Light ON
BI
130
DI
130
11480
TBD
TBD
Green Stack Light ON
BI
131
DI
131
11481
TBD
TBD
RED Stack Light ON
BI
132
DI
132
11482
TBD
TBD
Surge Tank Feed Wtr Valve Open
BI
133
DI
133
11483
TBD
TBD
ST Lo Lo Wtr Cutoff Relay Energized
BI
134
DI
134
11484
TBD
TBD
Transfer Pump 1 ON
BI
135
DI
135
11485
TBD
TBD
Transfer Pump 2 ON
BI
136
DI
136
11486
TBD
TBD
Transfer Pump 3 ON
BI
137
DI
137
11487
TBD
TBD
Transfer Pump 1 In AUTO
BI
138
DI
138
11488
TBD
TBD
Transfer Pump 2 In AUTO
BI
139
DI
139
11489
TBD
TBD
Transfer Pump 3 In AUTO
BI
140
DI
140
11490
TBD
TBD
750-361
73
ProtoNode Gateway Table 22: ADAC Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) Transfer Pumps ALT MODE ON
BI
141
DI
141
11491
TBD
TBD
DAB1[8]13
BI
142
DI
142
11492
TBD
TBD
DAB1[8]14
BI
143
DI
143
11493
TBD
TBD
DAB1[8]15
BI
144
DI
144
11494
TBD
TBD
DAB1[9]0
BI
145
DI
145
11495
TBD
TBD
DAB1[9]1
BI
146
DI
146
11496
TBD
TBD
DAB1[9]2
BI
147
DI
147
11497
TBD
TBD
DAB1[9]3
BI
148
DI
148
11498
TBD
TBD
DAB1[9]4
BI
149
DI
149
11499
TBD
TBD
DAB1[9]5
BI
150
DI
150
11500
TBD
TBD
DAB1[9]6
BI
151
DI
151
11501
TBD
TBD
DAB1[9]7
BI
152
DI
152
11502
TBD
TBD
DAB1[9]8
BI
153
DI
153
11503
TBD
TBD
DAB1[9]9
BI
154
DI
154
11504
TBD
TBD
DAB1[9]10
BI
155
DI
155
11505
TBD
TBD
DAB1[9]11
BI
156
DI
156
11506
TBD
TBD
DAB1[9]12
BI
157
DI
157
11507
TBD
TBD
DAB1[9]13
BI
158
DI
158
11508
TBD
TBD
DAB1[9]14
BI
159
DI
159
11509
TBD
TBD
DAB1[9]15
BI
160
DI
160
11510
TBD
TBD
Feed Pump 1 Run Time
AI
1
AI
1
30853
TBD
TBD
Feed Pump 2 Run Time
AI
2
AI
2
30855
TBD
TBD
Feed Pump 3 Run Time
AI
3
AI
3
30857
TBD
TBD
Feed Pump 4 Run Time
AI
4
AI
4
30859
TBD
TBD
Feed Pump 5 Run Time
AI
5
AI
5
30861
TBD
TBD
Feed Pump 6 Run Time
AI
6
AI
6
30863
TBD
TBD
DAR1[6]
AI
7
AI
7
30865
TBD
TBD
DAR1[7]
AI
8
AI
8
30867
TBD
TBD
DAR1[8]
AI
9
AI
9
30869
TBD
TBD
Stop Lag Feed Pump Limit
AI
10
AI
10
30871
TBD
TBD
Alternate Feed Pumps
AI
11
AI
11
30873
TBD
TBD
Start Chemical Feed Time Delay
AI
12
AI
12
30875
TBD
TBD
Stop Chemical Feed Time Delay
AI
13
AI
13
30877
TBD
TBD
DAR1[14]
AI
14
AI
14
30879
TBD
TBD
Deaerator Temp
AI
15
AI
15
30881
TBD
TBD
Deaerator Tank Pressure
AI
16
AI
16
30883
TBD
TBD
Deaerator Tank Wtr Lvl
AI
17
AI
17
30885
TBD
TBD
Deaerator Feed Wtr (MUV) Signal
AI
18
AI
18
30887
TBD
TBD
Deaerator Steam PRValve Signal
AI
19
AI
19
30889
TBD
TBD
Boiler Feed Wtr Header Pressure
AI
20
AI
20
30891
TBD
TBD
Deaerator 2nd Feed Wtr (MUV) Signal Start Lag Feed Pump Limit
AI
21
AI
21
30893
TBD
TBD
AI
22
AI
22
30895
TBD
TBD
DA Lvl ‐ Pump Auto‐Restart Lvl
AI
23
AI
23
30897
TBD
TBD
DAR1[24]
AI
24
AI
24
30899
TBD
TBD
DAR1[25]
AI
25
AI
25
30901
TBD
TBD
DAR1[26]
AI
26
AI
26
30903
TBD
TBD
DAR1[27]
AI
27
AI
27
30905
TBD
TBD
DAR1[28]
AI
28
AI
28
30907
TBD
TBD
DAR1[29]
AI
29
AI
29
30909
TBD
TBD
DAR1[30]
AI
30
AI
30
30911
TBD
TBD
74
750-361
ProtoNode Gateway Table 22: ADAC Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) DAR1[31]
AI
31
AI
31
30913
TBD
TBD
DAR1[32]
AI
32
AI
32
30915
TBD
TBD
DAR1[33]
AI
33
AI
33
30917
TBD
TBD
DAR1[34]
AI
34
AI
34
30919
TBD
TBD
DAR1[35]
AI
35
AI
35
30921
TBD
TBD
DAR1[36]
AI
36
AI
36
30923
TBD
TBD
DAR1[37]
AI
37
AI
37
30925
TBD
TBD
DAR1[38]
AI
38
AI
38
30927
TBD
TBD
Surge Header Pressure
AI
39
AI
39
30929
TBD
TBD
Surge Tank Temp
AI
40
AI
40
30931
TBD
TBD
Surge Tank Wtr Lvl
AI
41
AI
41
30933
TBD
TBD
Surge Tank Feed Wtr (MUV) Signal
AI
42
AI
42
30935
TBD
TBD
Transfer Pump 1 Run Time
AI
43
AI
43
30937
TBD
TBD
Transfer Pump 2 Run Time
AI
44
AI
44
30939
TBD
TBD
Transfer Pump 3 Run Time
AI
45
AI
45
30941
TBD
TBD
Alternate Transfer Pumps
AI
46
AI
46
30943
TBD
TBD
Stop Transfer Lag Feed Pump Limit
AI
47
AI
47
30945
TBD
TBD
Surge Tank 2nd Feed Wtr (MUV) Signal Start Lag Feed Pump Limit
AI
48
AI
48
30947
TBD
TBD
AI
49
AI
49
30949
TBD
TBD
Surge Lvl ‐ Pump Auto‐Restart Lvl
AI
50
AI
50
30951
TBD
TBD
DAR1[51]
AI
51
AI
51
30953
TBD
TBD
DAR1[52]
AI
52
AI
52
30955
TBD
TBD
DAR1[53]
AI
53
AI
53
30957
TBD
TBD
DAR1[54]
AI
54
AI
54
30959
TBD
TBD
DAR1[55]
AI
55
AI
55
30961
TBD
TBD
DAR1[56]
AI
56
AI
56
30963
TBD
TBD
DAR1[57]
AI
57
AI
57
30965
TBD
TBD
DAR1[58]
AI
58
AI
58
30967
TBD
TBD
DAR1[59]
AI
59
AI
59
30969
TBD
TBD
DAR1[60]
AI
60
AI
60
30971
TBD
TBD
DAR1[61]
AI
61
AI
61
30973
TBD
TBD
DAR1[62]
AI
62
AI
62
30975
TBD
TBD
DAR1[63]
AI
63
AI
63
30977
TBD
TBD
DAR1[64]
AI
64
AI
64
30979
TBD
TBD
DAR1[65]
AI
65
AI
65
30981
TBD
TBD
Feed Pump 1 LEAD/LAG Status
AI
66
AI
66
30983
TBD
TBD
Feed Pump 2 LEAD/LAG Status
AI
67
AI
67
31159
TBD
TBD
Feed Pump 3 LEAD/LAG Status
AI
68
AI
68
31160
TBD
TBD
Feed Pump 4 LEAD/LAG Status
AI
69
AI
69
31161
TBD
TBD
Feed Pump 5 LEAD/LAG Status
AI
70
AI
70
31162
TBD
TBD
Feed Pump 6 LEAD/LAG Status
AI
71
AI
71
31163
TBD
TBD
DAI1[6]
AI
72
AI
72
31164
TBD
TBD
DAI1[7]
AI
73
AI
73
31165
TBD
TBD
DAI1[8]
AI
74
AI
74
31166
TBD
TBD
DAI1[9]
AI
75
AI
75
31167
TBD
TBD
DAI1[10]
AI
76
AI
76
31168
TBD
TBD
DAI1[11]
AI
77
AI
77
31169
TBD
TBD
DAI1[12]
AI
78
AI
78
31170
TBD
TBD
DAI1[13]
AI
79
AI
79
31171
TBD
TBD
DAI1[14]
AI
80
AI
80
31172
TBD
TBD
750-361
75
ProtoNode Gateway Table 22: ADAC Mappings to BACnet MS/TP, BACnet/IP, Metasys N2, Modbus and LonWorks (Continued) DAI1[15]
AI
81
AI
81
31173
TBD
TBD
DAI1[16]
AI
82
AI
82
31174
TBD
TBD
DAI1[17]
AI
83
AI
83
31175
TBD
TBD
DAI1[18]
AI
84
AI
84
31176
TBD
TBD
DAI1[19]
AI
85
AI
85
31177
TBD
TBD
Transfer Pump 1 LEAD/LAG Status
AI
86
AI
86
31178
TBD
TBD
Transfer Pump 2 LEAD/LAG Status
AI
87
AI
87
31179
TBD
TBD
Transfer Pump 3 LEAD/LAG Status
AI
88
AI
88
31180
TBD
TBD
DAI1[23]
AI
89
AI
89
31181
TBD
TBD
DAI1[24]
AI
90
AI
90
31182
TBD
TBD
DAI1[25]
AI
91
AI
91
31183
TBD
TBD
DAI1[26]
AI
92
AI
92
31184
TBD
TBD
DAI1[27]
AI
93
AI
93
31185
TBD
TBD
DAI1[28]
AI
94
AI
94
31186
TBD
TBD
DAI1[29]
AI
95
AI
95
31187
TBD
TBD
DAI1[30]
AI
96
AI
96
31188
TBD
TBD
DAI1[31]
AI
97
AI
97
31189
TBD
TBD
DAI1[32]
AI
98
AI
98
31190
TBD
TBD
DAI1[33]
AI
99
AI
99
31191
TBD
TBD
DAI1[34]
AI
100
AI
100
31192
TBD
TBD
DAI1[35]
AI
101
AI
101
31193
TBD
TBD
DAI1[36]
AI
102
AI
102
31194
TBD
TBD
DAI1[37]
AI
103
AI
103
31195
TBD
TBD
DAI1[38]
AI
104
AI
104
31196
TBD
TBD
DAI1[39]
AI
105
AI
105
31197
TBD
TBD
76
750-361
ProtoNode Gateway Table 23:
CB780 Sequence State Codes String Code
cb_sqst Value
CB780/784 Sequence State Line 1
LOCKOUT Fault code not zero
Line 2
52
Table 25
Uses mm:ss
Burner Control State Bits 8000h
0
UNUSED HISTORY
0
0
1
INITIATE
48
0
0000h
2
INITIATE HOLD: AC FREQUENCY/ NOISE
49
8
4001h
3
INITIATE HOLD: AC LINE DROPOUT
49
9
4001h
4
INITIATE HOLD: AC FREQUENCY
49
7
4001h
5
INITIATE HOLD: LOW LINE VOLTAGE
49
60
4001h
0001h
6
STANDBY
103
0
0002h
7
STANDBY HOLD: REM REMOTE CONTROL
104
94
4002h
8
STANDBY HOLD: START SWITCH
104
106
4002h
9
STANDBY HOLD: F/G FLAME DETECTED
104
35
4002h
10
STANDBY HOLD: T20 PREIGNITION LOCK
104
86
4002h
11
STANDBY HOLD: T7 RUNNING INTERLOCK
104
101
4002h
12
STANDBY HOLD: T7 LOCKOUT INTERLOCK
104
54
4002h
13
STANDBY HOLD: AIRFLOW SWITCH
104
13
4002h
14
PURGE HOLD: T19 HIGH FIRE SWITCH
93
40
4004h
15
PURGE DELAY: T19 HIGH FIRE JUMPRD
89
39
4004h
16
PURGE HOLD: TEST RUN/TEST SWITCH
93
98
4004h
17
PURGE DELAY: T18 LOW FIRE JUMPRD
89
56
4004h 4004h
18
PURGE HOLD: F/ G FLAME DETECTED
93
35
19
PURGE
87
0
20
PURGE HOLD: T18 LOW FIRE SWITCH
93
58
4004h
21
PURGE HOLD: T7 RUNNING INTERLOCK
93
101
4004h
22
PURGE HOLD: LOCKOUT INTERLOCK
93
54
4004h
0004h
23
PURGE HOLD: AIRFLOW SWITCH
93
13
4004h
24
PURGE HOLD: START SWITCH
93
106
4004h
25
PILOT IGN
78
0
26
PILOT HOLD: TEST RUN/TEST SWITCH
77
98
4008h
27
PILOT HOLD: START SWITCH
77
106
4008h
28
MAIN IGN
66
0
29
MAIN IG HOLD: MANUAL-OPEN SWITCH
67
72
4010h
30
RUN
95
0
0020h
31
RUN PV HOLD: LOW FIRE SWITCH
96
58
32
PVHOLD IGN
77
46
33
PV HOLD: PV HOLD SWITCH
77
45
4008h
34
RUN/LOWFIRE: TEST RUN/TEST SWITCH
97
98
4020h
35
POSTPURGE
83
0
36
STATE UNKNOWN
31
0
0000h
37
RESET/ALARM TEST
111
0
6000h
38
SAFETY START
102
105
4002h
39
SAFETY1-1
102
2
750-361
0008h
0010h
4020h
4008h
0040h
0008h
77
ProtoNode Gateway
40
SAFETY1-2
102
3
0008h
41
SAFETY1-3
102
4
42
SAFETY1-4
102
5
43
SAFETY1-5
102
6
44
Blank
0
0
45
PREIGNITION
84
0
46
SAFETY 1
102
1
47
PILOT STAB.
79
0
48
MAIN TRIAL
68
0
49
MAIN TRIAL
68
0
0010h
50
STANDBY HOLD: RUN/TEST SWITCH
104
98
4002h
51
STATE 51
31
0
A000h
52
STATE 52
31
0
A000h
53
SAFETY 1: RUN/TEST SWITCH
102
98
4008h
0008h 0008h 0008h A000h
0080h 0008h 0008h
0010h
54
STATE 54
31
0
A000h
55
STANDBY HOLD: PURGE FAN SWITCH
104
92
4002h
56
STATE 56
31
0
A000h
57
PURGE HOLD: PURGE FAN SWITCH
93
92
4004h
58
STANDBY HOLD FLAME DETECTED
104
35
4002h
59
STANDBY HOLD COMB. PRESSURE
104
26
4002h
60
VP START
210
0
61
VP MV2 ON
211
0
62
VP LOW DLY
212
0
63
VP LOW TST
213
0
64
VP MV1 ON
214
0
65
VP HIGH DLY
215
0
66
VP HIGH TST
216
0
67
INITIATE HOLD: AC AC PHASE ERROR
49
10
4001h
68
STANDBY HOLD: PREIGNITION LOCK
104
85
4002h
0100h 0100h 4100h 0100h 0100h 4100h 0100h
69
SETUP NEEDED
217
0
A000h
70
STATE 70
31
0
A000h
71
BURNER OFF: T6 BURNER SWITCH
22
23
4002h
72
STANDBY HOLD: T6 (EA) HOLD MSG
184
30
4002h
73
STANDBY HOLD: (EA) CIRCUIT FAULT
184
25
4002h
74
STANDBY HOLD (EA)
184
Varies
4002h
75
PURGE HOLD (EA)
185
Varies
4004h
76
Unused
0
Varies
000h
77
Unused
0
Varies
000h
78
Unused
0
Varies
000h
79
STANDBY HOLD (EA)
184
Varies
4002h
80
PREIGNITION HOLD (EA)
184
Varies
4002h
81
STANDBY HOLD (EA): VALVE CLOSURE
184
109
4002h
82
STANDBY HOLD (EA) OTHER PII
184
75
4002h
750-361
78
ProtoNode Gateway Table 24: String Code
CB780 String Codes
String
47
IGNITION ON
48
INITIATE
(blank)
49
INITIATE HOLD
1
1
50
JUMPERS CHANGED
2
1-1
51
JUMPERS WRONG
3
1-2
52
LOCKOUT
4
1-3
53
LOCKOUT ILK ON
5
1-4
54
LOCKOUT INTERLOCK
6
1-5
55
LOCKOUT SWITCH
7
AC FREQUENCY
56
LOW FIRE JUMPERED
8
AC FREQUENCY/NOISE
57
LOW FIRE SW OFF
9
AC LINE DROPOUT
58
LOW FIRE SWITCH
10
AC PHASE
59
LOW GAS PRESSURE
11
ACCESSORY FAULT
60
LOW LINE VOLTAGE
AIRFLOW SW. ON
61
LOW OIL PRESSURE
13
AIRFLOW SWITCH
62
LOW OIL TEMP
14
ATOMIZING SW
63
LWCO
15
AUX INTERLOCK #4
64
MAIN FLAME FAIL
AUX INTERLOCK #5
65
MAIN FLAME IGN.
17
AUX LIMIT #1
66
MAIN IGN
18
AUX LIMIT #2
67
MAIN IGN HOLD
19
AUX LIMIT #3
68
MAIN TRIAL
BLOCK INTAKE
69
MAIN VALVE ON
BOTH FUELS SELECT
70
MAN‐OPEN SW. OFF
22
BURNER OFF
71
MAN‐OPEN SW. ON
23
BURNER SWITCH
72
MAN‐OPEN SW.
24
CALL SERVICE
73
NO PURGE CARD
25
CIRCUIT FAULT
74
OTHER INTERLOCKS
26
COMB. PRESSURE
75
OTHER PREIGN ILK
27
CONTROL ON
76
PILOT FLAME FAIL
DELAYED MV ON
77
PILOT HOLD
29
DEVICE SPECIFIC
78
PILOT IGN
30
EA HOLD MESSAGE
79
PILOT STABILIZE
31
UNKNOWN STATE
80
PILOT VALVE 1 ON
32
FLAME AMP TYPE
81
PILOT VALVE 2 ON
33
FLAME AMP/SHUTR
82
POOR FLAME SENSOR
34
FLAME AMPLIFIER
83
POSTPURGE
35
FLAME DETECTED
84
PREIGNITION
36
FLAME TOO STRONG
85
PREIGNITION ILK
37
FLAME‐OUT TIMER
86
PREIGNITION
38
FUEL SELECT OFF
87
PURGE
39
HIGH FIRE JUMPERED
88
PURGE CARD ERROR
HIGH FIRE SWITCH
89
PURGE DELAY
41
HIGH GAS PRESSURE
90
PURGE FAN SW OFF
42
HIGH LIMIT
91
PURGE FAN SW ON
43
HIGH OIL PRESSURE
92
PURGE FAN SWITCH
HIGH OIL TEMP
93
PURGE HOLD
45
HOLD SWITCH
94
REMOTE CONTROL
46
IGNITION
95
RUN
0
12
16
20 21
28
40
44
750-361
79
ProtoNode Gateway 96
RUN HOLD
145
HighFire Sw T19 = 1
97
RUN/LOWFIRE
146
PreIgn ILK T20 = 0
98
RUN/TEST SWITCH
147
PreIgn ILK T20 = 1
99
RUNNING ILK
148
Lockout Inp T20 = 0
100
RUNNING ILK ON
149
Lockout Inp T20 = 1
101
RUNNING INTERLOCK
150
Comb Press T20 = 0
102
SAFETY
151
Comb Press T20 = 1
103
STANDBY
152
Valv/Start T21 = 0
104
STANDBY HOLD
153
Valv/Start T21 = 1
105
START
154
Intmitt PV T21 = 0
106
START SWITCH
155
Intmitt PV T21 = 1
107
START SWITCH ON
156
Terminal T6 = 0
108
TEST STATE
157
Terminal T6 = 1
109
VALVE CLOSURE
158
Terminal T7 = 0
110
ALL SWITCHES ON
159
Terminal T7 = 1
111
RESET/ALARM TEST
160
Terminal T8 = 0
112
Run/Test Switch RUN
161
Terminal T8 = 1
113
Run/Test Switch TEST
162
Terminal T9 = 0
114
Operator Control T6 = 0
163
Terminal T9 = 1
115
Operator Control T6 = 1
164
Terminal T10 = 0
116
Interlock T7 = 0
165
Terminal T10 = 1
117
Interlock T7 = 1
166
Terminal T16 = 0
118
Airflow Interlock T7 = 0
167
Terminal T16 = 1
119
Airflow Interlock T7 = 1
168
Terminal T17 = 0
120
Block Intake T7 = 0
169
Terminal T17 = 1
121
Block Intake T7 = 1
170
Terminal T18 = 0
122
Valve T8 = 0
171
Terminal T18 = 1
123
Valve T8 = 1
172
Terminal T19 = 0
124
Intrptd PV T8 = 0
173
Terminal T19 = 1
125
Intrptd PV T8 = 1
174
Terminal T20 = 0
126
Main Valve T9 = 0
175
Terminal T20 = 1
127
Main Valve T9 = 1
176
Terminal T21 = 0
128
Ignition T10 = 0
177
Terminal T21 = 1
129
Ignition T10 = 1
178
Jumper 1 Intact
130
PV Hold T16 = 0
179
Jumper 1 Clipped
131
PVHold T16 = 1
180
Jumper 2 Intact
132
Input A T16 = 0
181
Jumper 2 Clipped
133
Input A T16 = 1
182
Jumper 3 Intact
134
ManOpenSw T17 = 0
183
Jumper 3 Clipped)
135
ManOpenSw T17 = 1
184
STANDBY HOLD (EA)
136
Input B T17 = 0
185
PURGE HOLD (EA)
137
Input B T17 = 1
186
PILOT HOLD (EA)
138
PreIgn ILK T17 = 0
187
MAIN IG HOLD (EA)
139
PreIgn ILK T17 = 1
188
RUN HOLD (EA)
140
LowFire Sw T18 = 0
189
POSTPURGE HOLD (EA)
141
LowFire Sw T18 = 1
190
PREIGNITION HOLD (EA)
142
Purge Fan T18 = 0
191
-SKIPPED-
143
Purge Fan T18 = 1
192
DEMAND T6 = 0
144
HighFire Sw T19 = 0
193
DEMAND T6 = 1
750-361
80
ProtoNode Gateway 194
PILOT VALVE T8 = 0
195
PILOT VALVE T8 = 1
196
INTERMIT PV T8 = 0
197
INTERMIT PV T8 = 1
198
MAIN VALVE1 T9 = 0
199
MAIN VALVE1 T9 = 1
200
VP SWITCH T16 = 0
201
VP SWITCH T16 = 1
202
MAIN VALVE2 T17 = 0
203
MAIN VALVE2 T17 = 1
204
INTERUPTD PV T21 = 0
205
INTERUPTD PV T21 = 1
206
DELAYED MV T21 = 0
207
DELAYED MV T21 = 1
208
START SW T21 = 0
209
START SW T21 = 1
210
VP START
211
VP MV2 ON
212
VP LOW DLY
213
VP LOW TST
214
VP MV1 ON
215
VP HIGH DLY
216
VP HIGH TST
217
VP SETUP NEEDED
218
MAIN VALVE 1 OFF
219
MAIN VALVE 2 OFF
220
MAIN VALVE 1 ON
221
MAIN VALVE 2 ON
222
VPS OFF
223
VPS ON
224
HIGH CYCLE RATE
750-361
81
ProtoNode Gateway Table 25:
CB780 Fault Codes
Fault Code
0
Blank (no fault)
Fault String Code (Table 24) 0
1
FAULT 1: NO PURGE CARD
73
2
FAULT 2: AC FREQUENY/NOISE 8
3
FAULT 3: AC LINE DROPOUT
(Reg 40001)
Fault Message (NOTE: FAULT n: is not in the Fault and Strings
9
4
FAULT 4: AC FREQUENCY
7
5
FAULT 5: LOW LINE VOLTAGE
60
6
FAULT 6: PURGE CARD ERROR 88
7
FAULT 7: FLAME AMPLIFIER
34
8
FAULT 8: FLAME AMP/SHUTR
33
9
FAULT 9: FLAME DETECTED
35
10
FAULT 10: PREIGNITION ILK
85
11
FAULT 11: RUNNING ILK ON
100
12
FAULT 12: LOCKOUT ILK ON
53
13
FAULT 13: AIRFLOW SW. ON
12
14
FAULT 14: HIGH FIRE SWITCH
40
15
FAULT 15: FLAME DETECTED
35
16
FAULT 16: FLAME‐OUT TIMER
37
17
FAULT 17: MAIN FLAME FAIL
64
18
FAULT 18: FLAME DETECTED
35
19
FAULT 19: MAIN FLAME IGN.
65
20
FAULT 20: LOW FIRE SW OFF
57
21
FAULT 21: RUNNING ILK
99
22
FAULT 22: LOCKOUT ILK
54
23
FAULT 23: AIRFLOW SWITCH
13
24
FAULT 24: CALL SERVICE
24
25
FAULT 25: CALL SERVICE
24
46
FAULT 46: FLAME AMP TYPE
32
47
FAULT 47: JUMPERS CHANGED 50
48
FAULT 48: DELAYED MV ON
28
49
FAULT 49: MAN‐OPEN SW. ON
71
50
FAULT 50: JUMPERS WRONG
51
51
FAULT 51: FLAME TOO STRONG 36
52
FAULT 52: CALL SERVICE
24
53
FAULT 53: LOCKOUT SWITCH
55
54
FAULT 54: COMB. PRESSURE
26
55
FAULT 55: PURGE FAN SW ON
91
56
FAULT 56: BLOCK INTAKE
20
57
FAULT 57: PURGE FAN SW OFF 90
58
FAULT 58: COMB. PRESSURE/
26
59
FAULT 59: CALL SERVICE
24
60
FAULT 60: CALL SERVICE
24
61
FAULT 61: MV1 OFF
218
62
FAULT 62: MV2 OFF
219
63
FAULT 63: MV1 ON
220
64
FAULT 64: MV2 ON
221
65
FAULT 65: VPS OFF
222
66
FAULT 66: VPS ON
223
67
FAULT 67: AC PHASE
10
68
FAULT 68: PREIGNITION ILK
85
69
FAULT 69: CALL SERVICE
24
70
FAULT 70: CALL SERVICE
24
71-75
FAULT 71-75: DEVICE SPECIFIC 29
76-93
FAULT 76-93: ACCESSORY
11
94-127
FAULT 94-127: CALL SERVICE
24
128
FAULT 128: POOR FLAME
82
129–141
FAULT 129-141: CALL SERVICE 24
142
FAULT 68z: OTHER PREIGN
143
FAULT 68y: VALVE CLOSUREEA 109
144
FAULT 33z: OTHER PREIGN
145
FAULT 33y: VALVE CLOSUREEA 109
26
FAULT 26: MAN‐OPEN SW. OFF 70
27
FAULT 27: START SWITCH ON
28
FAULT 28: PILOT FLAME FAIL
76
29
FAULT 29: LOCKOUT ILK
54
30
FAULT 30: RUNNING ILK
101
31
FAULT 31: LOW FIRE SW OFF
57
146
FAULT 32s: OTHER
74
13
147
FAULT 32r: AUX INTERLOCK
16
148
FAULT 32q: AUX INTERLOCK
15
149
FAULT 32p: AIRFLOW SWITCHEA 13
150
FAULT 32o: LOW GAS
71
32
FAULT 32: AIRFLOW SWITCH
33
FAULT 33: PREIGNITION ILK
85
34
FAULT 34: CONTROL ON
27
35
FAULT 35: CALL SERVICE
24
36
FAULT 36: CALL SERVICE
24
37
FAULT 37: CALL SERVICE
24
75 75
59
151
FAULT 32n: HIGH GAS
41
FAULT 32m: ATOMIZING SWEA
14
38
FAULT 38: CALL SERVICE
24
152
39
FAULT 39: CALL SERVICE
24
153
FAULT 32k: LOW OIL TEMPEA
62
40
FAULT 40: CALL SERVICE
24
154
FAULT 32j: HIGH OIL TEMPEA
44
41
FAULT 41: MAIN VALVE ON
69
155
FAULT 32i: LOW OIL
61
42
FAULT 42: PILOT VALVE 1 ON
80
43
FAULT 43: IGNITION ON
47
156
FAULT 32h: HIGH OIL
43
157
FAULT 32g: BOTH FUELS
21
158
FAULT 32f: FUEL SELECT OFFEA 38
44
FAULT 44: PILOT VALVE 2 ON
81
45
FAULT 45: LOW FIRE SW OFF
57
750-361
82
ProtoNode Gateway 159
FAULT 32e: AUX LIMIT #3EA
19
201
FAULT 23r: AUX INTERLOCK
16
160
FAULT 32d: HIGH LIMITEA
42
202
FAULT 23q: AUX INTERLOCK
15
161
FAULT 32c: LWCOEA
63
203
FAULT 23p: AIRFLOW SWITCHEA 13
162
FAULT 32b: AUX LIMIT #2EA
18
204
FAULT 23o: LOW GAS
59
163
FAULT 32a: AUX LIMIT #1EA
17
205
FAULT 23n: HIGH GAS
41
164
FAULT 30s: OTHER
74
206
FAULT 23m: ATOMIZING SWEA
14
165
FAULT 30r: AUX INTERLOCK
16
207
FAULT 23k: LOW OIL TEMPEA
62
166
FAULT 30q: AUX INTERLOCK
15
208
FAULT 23j: HIGH OIL TEMPEA
44
AIRFLOW SWITCHEA
167
FAULT 30p:
13
209
FAULT 23i LOW OIL
61
168
FAULT 30o: LOW GAS
59
210
FAULT 23h: HIGH OIL
43
169
FAULT 30n: HIGH GAS
41
211
FAULT 23g: BOTH FUELS
21
170
FAULT 30m: ATOMIZING SWEA
14
212
FAULT 23f: FUEL SELECT OFFEA 38
171
FAULT 30k: LOW OIL TEMPEA
62
213
FAULT 23e: AUX LIMIT #3EA
19
172
FAULT 30j: HIGH OIL
44
214
FAULT 23d: HIGH LIMITEA
42
173
FAULT 30i: LOW OIL
61
215
FAULT 23c: LWCOEA
63
174
FAULT 30h: HIGH OIL
43
216
FAULT 23b: AUX LIMIT #2EA
18
175
FAULT 30g: BOTH FUELS
21
217
FAULT 23a: AUX LIMIT #1EA
17
TEMPEA
176
FAULT 30f: FUEL SELECT OFFEA 38
218
FAULT 22s: OTHER
74
177
FAULT 30e: AUX LIMIT #3EA
19
219
FAULT 22r: AUX INTERLOCK
16
178
FAULT 30d: HIGH LIMITEA
42
220
FAULT 22q: AUX INTERLOCK
15
179
FAULT 30c: LWCOEA
63
221
FAULT 22p: AIRFLOW SWITCHEA 13
180
FAULT 30b: AUX LIMIT #2EA
18
222
FAULT 22o: LOW GAS
59
181
FAULT 30a: AUX LIMIT #1EA
17
223
FAULT 22n: HIGH GAS
41
182
FAULT 29s: OTHER
74
224
FAULT 22m: ATOMIZING SWEA
14
183
FAULT 29r: AUX INTERLOCK
16
225
FAULT 22k: LOW OIL TEMPEA
62
184
FAULT 29q: AUX INTERLOCK
15
226
FAULT 22j: HIGH OIL TEMPEA
44
185
FAULT 29p:
13
227
FAULT 22i: LOW OIL
61
186
FAULT 29o: LOW GAS
59
228
FAULT 22h: HIGH OIL
43
187
FAULT 29n: HIGH GAS
41
229
FAULT 22g: BOTH FUELS
21
188
FAULT 29m: ATOMIZING SWEA
14
230
FAULT 22f: FUEL SELECT OFFEA 38
189
FAULT 29k: LOW OIL TEMPEA
62
231
FAULT 22e: AUX LIMIT #3EA
19
190
FAULT 29j: HIGH OIL TEMPEA
44
232
FAULT 22d: HIGH LIMITEA
42
191
FAULT 29i LOW OIL
61
233
FAULT 22c: LWCOEA
63
192
FAULT 29h: HIGH OIL
43
234
FAULT 22b: AUX LIMIT #2EA
18
193
FAULT 29g: BOTH FUELS
21
235
FAULT 22a: AUX LIMIT #1EA
17
194
FAULT 29f: FUEL SELECT OFFEA 38
236
FAULT 21s: OTHER
74
195
FAULT 29e: AUX LIMIT #3EA
19
237
FAULT 21r: AUX INTERLOCK
16
196
FAULT 29d: HIGH LIMITEA
42
238
FAULT 21q: AUX INTERLOCK
15
197
FAULT 29c: LWCOEA
63
239
FAULT 21p: AIRFLOW SWITCHEA 13
198
FAULT 29b: AUX LIMIT #2EA
18
240
FAULT 21o: LOW GAS
199
FAULT 29a: AUX LIMIT #1EA
17
241
FAULT 21n: HIGH GAS
41
200
FAULT 23s: OTHER
74
242
FAULT 21m: ATOMIZING SWEA
14
750-361
AIRFLOW SWITCHEA
59
83
ProtoNode Gateway 243
FAULT 21k: LOW OIL TEMPEA
62
244
FAULT 21j: HIGH OIL TEMPEA
44
245
FAULT 21i: LOW OIL
61
246
FAULT 21h: HIGH OIL
43
247
FAULT 21g: BOTH FUELS
21
248
FAULT 21f: FUEL SELECT OFFEA 38
249
FAULT 21e: AUX LIMIT #3EA
19
250
FAULT 21d: HIGH LIMITEA
42
251
FAULT 21c:
63
252
FAULT 21b: AUX LIMIT #2EA
18
253
FAULT 21a: AUX LIMIT #1EA
17
254
FAULT 10z: OTHER PREIGN
75
255
FAULT 10y: VALVE CLOSUREEA 109
750-361
LWCOEA
84
ProtoNode Gateway APPENDIX C — MAC ADDRESS DIP SWITCH SETTINGS
Address
A0
A1
A2
A3
A4
A5
A6
A7
45
On
Off
On
On
Off
On
Off
Off
46
Off
On
On
On
Off
On
Off
Off Off
47
On
On
On
On
Off
On
Off
Address
A0
A1
A2
A3
A4
A5
A6
A7
48
Off
Off
Off
Off
On
On
Off
Off
0
Off
Off
Off
Off
Off
Off
Off
Off
49
On
Off
Off
Off
On
On
Off
Off
1
On
Off
Off
Off
Off
Off
Off
Off
50
Off
On
Off
Off
On
On
Off
Off
2
Off
On
Off
Off
Off
Off
Off
Off
51
On
On
Off
Off
On
On
Off
Off
3
On
On
Off
Off
Off
Off
Off
Off
52
Off
Off
On
Off
On
On
Off
Off
4
Off
Off
On
Off
Off
Off
Off
Off
53
On
Off
On
Off
On
On
Off
Off
5
On
Off
On
Off
Off
Off
Off
Off
54
Off
On
On
Off
On
On
Off
Off
6
Off
On
On
Off
Off
Off
Off
Off
55
On
On
On
Off
On
On
Off
Off
85
7
On
On
On
Off
Off
Off
Off
Off
56
Off
Off
Off
On
On
On
Off
Off
8
Off
Off
Off
On
Off
Off
Off
Off
57
On
Off
Off
On
On
On
Off
Off
9
On
Off
Off
On
Off
Off
Off
Off
58
Off
On
Off
On
On
On
Off
Off
10
Off
On
Off
On
Off
Off
Off
Off
59
On
On
Off
On
On
On
Off
Off
11
On
On
Off
On
Off
Off
Off
Off
60
Off
Off
On
On
On
On
Off
Off
12
Off
Off
On
On
Off
Off
Off
Off
61
On
Off
On
On
On
On
Off
Off
13
On
Off
On
On
Off
Off
Off
Off
62
Off
On
On
On
On
On
Off
Off
14
Off
On
On
On
Off
Off
Off
Off
63
On
On
On
On
On
On
Off
Off
15
On
On
On
On
Off
Off
Off
Off
64
Off
Off
Off
Off
Off
Off
On
Off
16
Off
Off
Off
Off
On
Off
Off
Off
65
On
Off
Off
Off
Off
Off
On
Off
17
On
Off
Off
Off
On
Off
Off
Off
66
Off
On
Off
Off
Off
Off
On
Off
18
Off
On
Off
Off
On
Off
Off
Off
67
On
On
Off
Off
Off
Off
On
Off
19
On
On
Off
Off
On
Off
Off
Off
68
Off
Off
On
Off
Off
Off
On
Off
20
Off
Off
On
Off
On
Off
Off
Off
69
On
Off
On
Off
Off
Off
On
Off
21
On
Off
On
Off
On
Off
Off
Off
70
Off
On
On
Off
Off
Off
On
Off
22
Off
On
On
Off
On
Off
Off
Off
71
On
On
On
Off
Off
Off
On
Off
23
On
On
On
Off
On
Off
Off
Off
72
Off
Off
Off
On
Off
Off
On
Off
24
Off
Off
Off
On
On
Off
Off
Off
73
On
Off
Off
On
Off
Off
On
Off
25
On
Off
Off
On
On
Off
Off
Off
74
Off
On
Off
On
Off
Off
On
Off
26
Off
On
Off
On
On
Off
Off
Off
75
On
On
Off
On
Off
Off
On
Off
27
On
On
Off
On
On
Off
Off
Off
76
Off
Off
On
On
Off
Off
On
Off
28
Off
Off
On
On
On
Off
Off
Off
77
On
Off
On
On
Off
Off
On
Off
29
On
Off
On
On
On
Off
Off
Off
78
Off
On
On
On
Off
Off
On
Off
30
Off
On
On
On
On
Off
Off
Off
79
On
On
On
On
Off
Off
On
Off
31
On
On
On
On
On
Off
Off
Off
80
Off
Off
Off
Off
On
Off
On
Off
32
Off
Off
Off
Off
Off
On
Off
Off
81
On
Off
Off
Off
On
Off
On
Off
33
On
Off
Off
Off
Off
On
Off
Off
82
Off
On
Off
Off
On
Off
On
Off
34
Off
On
Off
Off
Off
On
Off
Off
83
On
On
Off
Off
On
Off
On
Off
35
On
On
Off
Off
Off
On
Off
Off
84
Off
Off
On
Off
On
Off
On
Off
36
Off
Off
On
Off
Off
On
Off
Off
85
On
Off
On
Off
On
Off
On
Off
37
On
Off
On
Off
Off
On
Off
Off
86
Off
On
On
Off
On
Off
On
Off
38
Off
On
On
Off
Off
On
Off
Off
87
On
On
On
Off
On
Off
On
Off
39
On
On
On
Off
Off
On
Off
Off
88
Off
Off
Off
On
On
Off
On
Off
40
Off
Off
Off
On
Off
On
Off
Off
89
On
Off
Off
On
On
Off
On
Off
41
On
Off
Off
On
Off
On
Off
Off
90
Off
On
Off
On
On
Off
On
Off
42
Off
On
Off
On
Off
On
Off
Off
91
On
On
Off
On
On
Off
On
Off
43
On
On
Off
On
Off
On
Off
Off
92
Off
Off
On
On
On
Off
On
Off
44
Off
Off
On
On
Off
On
Off
Off
93
On
Off
On
On
On
Off
On
Off
750-361
ProtoNode Gateway
Address
A0
A1
A2
A3
A4
A5
A6
A7
Address
A0
A1
A2
A3
A4
A5
A6
A7
94
Off
On
On
On
On
Off
On
Off
143
On
On
95
On
On
On
On
On
Off
On
Off
144
Off
Off
On
On
Off
Off
Off
On
Off
Off
On
Off
Off
On
96
Off
Off
Off
Off
Off
On
On
Off
145
On
Off
97
On
Off
Off
Off
Off
On
On
Off
146
Off
On
Off
Off
On
Off
Off
On
Off
Off
On
Off
Off
98
Off
On
Off
Off
Off
On
On
Off
147
On
On
On
Off
Off
On
Off
Off
On
99
On
On
Off
Off
Off
On
On
Off
148
Off
Off
On
Off
On
Off
Off
On
100
Off
Off
On
Off
Off
On
On
Off
101
On
Off
On
Off
Off
On
On
Off
149
On
Off
On
Off
On
Off
Off
On
150
Off
On
On
Off
On
Off
Off
On
102
Off
On
On
Off
Off
On
On
Off
151
On
103
On
On
On
Off
Off
On
On
Off
152
Off
On
On
Off
On
Off
Off
On
Off
Off
On
On
Off
Off
On
104
Off
Off
Off
On
Off
On
On
Off
153
On
Off
Off
On
On
Off
Off
On
105
On
Off
Off
On
Off
On
On
Off
154
Off
On
Off
On
On
Off
Off
On
106
Off
On
Off
On
Off
On
On
Off
155
On
On
Off
On
On
Off
Off
On
107
On
On
Off
On
Off
On
On
Off
156
Off
Off
On
On
On
Off
Off
On
108
Off
Off
On
On
Off
On
On
Off
157
On
Off
On
On
On
Off
Off
On
109
On
Off
On
On
Off
On
On
Off
158
Off
On
On
On
On
Off
Off
On
110
Off
On
On
On
Off
On
On
Off
159
On
On
On
On
On
Off
Off
On
111
On
On
On
On
Off
On
On
Off
160
Off
Off
Off
Off
Off
On
Off
On
112
Off
Off
Off
Off
On
On
On
Off
161
On
Off
Off
Off
Off
On
Off
On
113
On
Off
Off
Off
On
On
On
Off
162
Off
On
Off
Off
Off
On
Off
On
114
Off
On
Off
Off
On
On
On
Off
163
On
On
Off
Off
Off
On
Off
On
115
On
On
Off
Off
On
On
On
Off
164
Off
Off
On
Off
Off
On
Off
On
116
Off
Off
On
Off
On
On
On
Off
165
On
Off
On
Off
Off
On
Off
On
117
On
Off
On
Off
On
On
On
Off
166
Off
On
On
Off
Off
On
Off
On
118
Off
On
On
Off
On
On
On
Off
167
On
On
On
Off
Off
On
Off
On
119
On
On
On
Off
On
On
On
Off
168
Off
Off
Off
On
Off
On
Off
On
120
Off
Off
Off
On
On
On
On
Off
169
On
Off
Off
On
Off
On
Off
On
121
On
Off
Off
On
On
On
On
Off
170
Off
On
Off
On
Off
On
Off
On
122
Off
On
Off
On
On
On
On
Off
171
On
On
Off
On
Off
On
Off
On
123
On
On
Off
On
On
On
On
Off
172
Off
Off
On
On
Off
On
Off
On
124
Off
Off
On
On
On
On
On
Off
173
On
Off
On
On
Off
On
Off
On
125
On
Off
On
On
On
On
On
Off
174
Off
On
On
On
Off
On
Off
On
126
Off
On
On
On
On
On
On
Off
175
On
On
On
On
Off
On
Off
On
127
On
On
On
On
On
On
On
Off
176
Off
Off
Off
Off
On
On
Off
On
128
Off
Off
Off
Off
Off
Off
Off
On
177
On
Off
Off
Off
On
On
Off
On
129
On
Off
Off
Off
Off
Off
Off
On
178
Off
On
Off
Off
On
On
Off
On
130
Off
On
Off
Off
Off
Off
Off
On
179
On
On
Off
Off
On
On
Off
On
131
On
On
Off
Off
Off
Off
Off
On
180
Off
Off
On
Off
On
On
Off
On
132
Off
Off
On
Off
Off
Off
Off
On
181
On
Off
On
Off
On
On
Off
On
133
On
Off
On
Off
Off
Off
Off
On
182
Off
On
On
Off
On
On
Off
On
134
Off
On
On
Off
Off
Off
Off
On
183
On
On
On
Off
On
On
Off
On
135
On
On
On
Off
Off
Off
Off
On
184
Off
Off
Off
On
On
On
Off
On
136
Off
Off
Off
On
Off
Off
Off
On
185
On
Off
Off
On
On
On
Off
On
137
On
Off
Off
On
Off
Off
Off
On
186
Off
On
Off
On
On
On
Off
On
138
Off
On
Off
On
Off
Off
Off
On
187
On
On
Off
On
On
On
Off
On
139
On
On
Off
On
Off
Off
Off
On
188
Off
Off
On
On
On
On
Off
On
140
Off
Off
On
On
Off
Off
Off
On
189
On
Off
On
On
On
On
Off
On
141
On
Off
On
On
Off
Off
Off
On
190
Off
On
On
On
On
On
Off
On
142
Off
On
On
On
Off
Off
Off
On
191
On
On
On
On
On
On
Off
On
750-361
86
ProtoNode Gateway
Address
A0
A1
A2
192
Off
Off
Off
Off
Off
Off
193
On
Off
Off
Off
Off
Off
194
Off
On
Off
Off
Off
Off
On
87
A3
A4
A5
A6
A7
Address
A0
A1
A2
A3
A4
A5
A6
A7
On
On
On
On
241
On
Off
Off
Off
On
On
On
On
242
Off
On
Off
Off
On
On
On
On
On
243
On
On
Off
Off
On
On
On
On On
195
On
On
Off
Off
Off
Off
On
On
244
Off
Off
On
Off
On
On
On
196
Off
Off
On
Off
Off
Off
On
On
245
On
Off
On
Off
On
On
On
On
197
On
Off
On
Off
Off
Off
On
On
246
Off
On
On
Off
On
On
On
On
198
Off
On
On
Off
Off
Off
On
On
247
On
On
On
Off
On
On
On
On
199
On
On
On
Off
Off
Off
On
On
248
Off
Off
Off
On
On
On
On
On
200
Off
Off
Off
On
Off
Off
On
On
249
On
Off
Off
On
On
On
On
On
201
On
Off
Off
On
Off
Off
On
On
250
Off
On
Off
On
On
On
On
On
202
Off
On
Off
On
Off
Off
On
On
251
On
On
Off
On
On
On
On
On
203
On
On
Off
On
Off
Off
On
On
252
Off
Off
On
On
On
On
On
On
204
Off
Off
On
On
Off
Off
On
On
253
On
Off
On
On
On
On
On
On
205
On
Off
On
On
Off
Off
On
On
254
Off
On
On
On
On
On
On
On
206
Off
On
On
On
Off
Off
On
On
255
On
On
On
On
On
On
On
On
207
On
On
On
On
Off
Off
On
On
208
Off
Off
Off
Off
On
Off
On
On
209
On
Off
Off
Off
On
Off
On
On
210
Off
On
Off
Off
On
Off
On
On
211
On
On
Off
Off
On
Off
On
On
212
Off
Off
On
Off
On
Off
On
On
213
On
Off
On
Off
On
Off
On
On
214
Off
On
On
Off
On
Off
On
On
215
On
On
On
Off
On
Off
On
On
216
Off
Off
Off
On
On
Off
On
On
217
On
Off
Off
On
On
Off
On
On
218
Off
On
Off
On
On
Off
On
On
219
On
On
Off
On
On
Off
On
On
220
Off
Off
On
On
On
Off
On
On
221
On
Off
On
On
On
Off
On
On
222
Off
On
On
On
On
Off
On
On
223
On
On
On
On
On
Off
On
On
224
Off
Off
Off
Off
Off
On
On
On
225
On
Off
Off
Off
Off
On
On
On
226
Off
On
Off
Off
Off
On
On
On
227
On
On
Off
Off
Off
On
On
On
228
Off
Off
On
Off
Off
On
On
On
229
On
Off
On
Off
Off
On
On
On
230
Off
On
On
Off
Off
On
On
On
231
On
On
On
Off
Off
On
On
On
232
Off
Off
Off
On
Off
On
On
On
233
On
Off
Off
On
Off
On
On
On
234
Off
On
Off
On
Off
On
On
On
235
On
On
Off
On
Off
On
On
On
236
Off
Off
On
On
Off
On
On
On
237
On
Off
On
On
Off
On
On
On
238
Off
On
On
On
Off
On
On
On
239
On
On
On
On
Off
On
On
On
240
Off
Off
Off
Off
On
On
On
On
750-361
ProtoNode Gateway
750-361
88
ProtoNode Gateway
APPENDIX D — INTERFACING PROTONODE GATEWAY TO BOILER NETWORKS D.1. Boiler Network Wiring Connections to ProtoNode RER and LER 6 Pin Phoenix connector - pin outs
D.2. ClearFire Boiler Modbus Network The diagram below shows a typical application using the ProtoNode Gateway in a ClearFire Lead Lag system
NOTE: In the diagram above there are two independent Modbus networks. One is dedicated for Falcon lead lag control; the other is dedicated to the building EMS gateway interface. DO NOT CROSSCONNECT THESE TWO MODBUS NETWORKS.
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ProtoNode Gateway D.3 Falcon System Display Modbus Gateway Connection (COM2) Wiring to the ProtoNode • • • •
Connect Falcon Display COM 2 port (Modbus A) to Pin 1, labeled Tx/+ on the ProtoNode’s 6 pin Phoenix connector. Connect Falcon Display COM 2 port (Modbus B) to Pin 2, labeled Rx/- on the ProtoNode’s 6 pin Phoenix connector. Ground does not need to be grounded to the ProtoNode. NOTE: the A and B terminal designations on the ProtoNode 6-pin connector do not match the corresponding terminals on the Falcon or CB780E: A+ (Falcon/CB780E) is wired to B+ (ProtoNode) B- (Falcon/CB780E) is wired to A- (ProtoNode)
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ProtoNode Gateway D.4 CB780E Modbus connections to ProtoNode
D.5. CB120E Modbus connections to ProtoNode
D.6. HSC Modbus connections to ProtoNode
MJ2 PORT (HSC SYSTEM ADMINISTRATOR)
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ProtoNode Gateway APPENDIX E — LIMITED 2 YEAR WARRANTY Cleaver-Brooks warrants this product to be free from defects in workmanship or material under normal use and service for two years after date of shipment. C-B will repair or replace any equipment found to be defective during the warranty period. Final determination of the nature and responsibility for defective or damaged equipment will be made by C-B personnel. All warranties hereunder are contingent upon proper use in the application for which the product was intended and do not cover products which have been modified or repaired without C-B approval or which have been subjected to accident, improper maintenance, installation or application, or on which original identification marks have been removed or altered. This Limited Warranty also will not apply to interconnecting cables or wires, consumables or to any damage resulting from battery leakage. In all cases C-B's responsibility and liability under this warranty shall be limited to the cost of the equipment. The purchaser must obtain shipping instructions for the prepaid return of any item under this warranty provision and compliance with such instruction shall be a condition of this warranty. Except for the express warranty stated above, C-B disclaims all warranties with regard to the products sold hereunder including all implied warranties of merchantability and fitness and the express warranties stated herein are in lieu of all obligations or liabilities on the part of C-B for damages including, but not limited to, consequential damages arising out of/or in connection with the use or performance of the product.
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