pt-link ii bacnet4 technical guide - aaon...• allows bacnet® devices to send schedule events to...
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PT-Link II BACnet4® Technical GuideVCB-X Controller Code: SS1051 Version 2.0
VCM-X Controller Code: SS1026 & Y200920 Version 2.0 and up; VCM-X Modular Controller Code: SS1030 & SS1034
VCM-X WSHP Controller Code: SS1032 & SS1033SA Controller Code: Y200921
VCM Controller Code: SS1016, Y200409, Y200616, Y200822
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ZoneTABLE OF CONTENTS
1. GENERAL INFORMATION ............................................................................... 41.1 Overview and System Requirements ................................................................................................................ 4
1.1.1 Data Sharing ............................................................................................................................................ 41.1.2 Scheduling ............................................................................................................................................... 41.1.3 Hardware Specifications .......................................................................................................................... 41.1.4 System Requirements ............................................................................................................................. 4
2. SETTING UP YOUR PT-LINK II ....................................................................... 52.1 Quick Start Guide .............................................................................................................................................. 52.2 Connection and Wiring Information ................................................................................................................... 62.3 Configuring the PT-Link DIP Switches .............................................................................................................. 7
2.3.1 Set the BACnet® MS/TP Baud Rate ........................................................................................................ 72.3.2 Set the BACnet® MS/TP MAC Address ................................................................................................... 7
3. PT-LINK CONFIGURATION ............................................................................. 83.1 Graphical User Interface ................................................................................................................................... 83.2 PT-Link II Ethernet Connection ......................................................................................................................... 9 3.3 IP Address Configuration ................................................................................................................................ 10
3.3.1 Computer IP Address Setup for Windows 10® ....................................................................................... 103.3.2 BACnet® MS/TP: Setting Node_Offset to Assign Specific Device Instances ......................................... 12
3.4 Verifying Communications .............................................................................................................................. 13
4. UPDATING THE SOFTWARE ......................................................................... 144.1 Updating the PT-Link II Controller ................................................................................................................... 14
4.1.1 Updating the PT-Link II with Prism 2 ..................................................................................................... 144.1.2 Finding What COM Port Number the PT-Link II is Using ....................................................................... 164.1.3 Changing the USB COM Port Number .................................................................................................. 17
4.2 Updating the Field Server Software ................................................................................................................ 18
AAON, Inc.2425 South Yukon Ave.Tulsa, OK 74107-2728www.aaon.comFactory Technical Support Phone: 918-382-6450Controls Support Phone: 866-918-1100AAON® assumes no responsibility for errors or omissions in this document.
AAON P/N: G042790, Rev. 01EAll rights reserved. © April 2020 AAON, Inc.AAON® is a registered trademark of AAON, Inc., Tulsa, OK. BACnet® is a registered trademark of ASHRAE Inc., Atlanta, GA.FieldServer is a Registered Trademark of FieldServer Technologies, Milpetas, CAWindows® 10 is a registered trademark of Microsoft Corporation.This document is subject to change without notice.
This manual is also available for download from www.aaon.com/controlsmanuals, under PT-Link, where you can always find the latest literature updates.
www.aaon.com
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PT-LInk II BACnet4 Technical Guide
TABLE OF CONTENTS
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5. TROUBLESHOOTING ..................................................................................... 195.1 Troubleshooting Communications ................................................................................................................... 19
5.1.1 Check Wiring and Settings .................................................................................................................... 195.1.2 Verifying Communications ..................................................................................................................... 19
5.2 Troubleshooting LEDs ..................................................................................................................................... 205.2.1 PT-Link Board LEDs .............................................................................................................................. 205.2.2 PT-Link Module LEDs ............................................................................................................................ 21
5.3 Troubleshooting the PT-Link Controller ........................................................................................................... 225.3.1 Addressing AAON Devices in a BACnet® Network ................................................................................ 225.3.2 BACnet® Explorer for Validating PT-Link in the Field ............................................................................. 225.3.3 Viewing Diagnostic Information ............................................................................................................. 23
5.4 FieldServer Diagnostic Utilities ....................................................................................................................... 245.4.1 Diagnostic Capture Procedures ............................................................................................................. 24
6. DATA ARRAYS ................................................................................................ 266.1 VCCX2 Data Arrays ........................................................................................................................................ 266.2 VCB-X Data Arrays ......................................................................................................................................... 276.3 VCM-X Modular & VCM-X WSHP (Tulsa) Data Arrays ................................................................................... 286.4 VCM-X WSHP (Coil) & VCM-X Data Arrays ................................................................................................... 296.5 SA & VCM Data Array ..................................................................................................................................... 30
7. PARAMETER TABLES .................................................................................... 307.1 VCCX2 BACnet® Parameters ......................................................................................................................... 31
7.1.1 VCCX2 PT-Link II BACnet® Property Identifier ...................................................................................... 467.2 VCB-X BACnet® Parameters........................................................................................................................... 47
7.2.1 VCB-X PT-Link II BACnet® Property Identifier ....................................................................................... 587.3 VCM-X Modular BACnet® Parameters ............................................................................................................ 597.4 VCM-X WSHP (Tulsa) BACnet® Parameters .................................................................................................. 60 7.5 VCM-X WSHP (Coil) BACnet® Parameters ..................................................................................................... 627.6 VCM-X BACnet® Property Identifier ................................................................................................................ 63
7.6.1 VCM-X PT-Link II BACnet® Property Identifier ...................................................................................... 687.7 SA Controller BACnet® Parameters ................................................................................................................ 69
7.7.1 SA Controller PT-Link II BACnet® Property Identifier ............................................................................. 727.8 VCM BACnet® Parameters.............................................................................................................................. 73
7.8.1 VCM PT-Link II BACnet® Property Identifier .......................................................................................... 78
8. FIELDSERVER GRAPHICAL USER INTERFACE .......................................... 798.1 The FieldServer Graphical User Interface (FS-GUI) with Configuration Parameter Page Navigation Tree .... 798.2 Network Settings ............................................................................................................................................. 808.3 Setting a Password for the FS-GUI ................................................................................................................. 80
9. MAC ADDRESS & DEVICE INSTANCE ......................................................... 82
10. BACNET PIC STATEMENT ........................................................................... 8410.1 Protocessor Driver - (PICS) BACnet® Protocol Implementation Conformance Statement ........................... 84
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PT-LInk II BACnet4 Technical Guide4
The PT-Link II BACnet4® provides bi-directional communication be-tween your BACnet® MS/TP protocol network and up to four* of any of the following types of Orion controllers—VCCX2, VCB-X, VCM-X, SA, VCM, MUA II, or VAV/CAV:
VCCX2 Controller (SS1088)
VCB-X Controller (SS1051)
VCM-X Controller (SS1026, SS1030, SS1032, SS1033, SS1034, Y200920)
SA Controller (Y200921)
VCM Controller (SS1016, Y200409, Y200616, Y200822)
**VAV/CAV Controller (SS1003, Y200301) and MUA II Controller (SS1004, Y200405)
To determine what controller you have, you must look at the software label located on the controller. NOTE: The label is located on the EPROM on older devices. If the controller label does not match any of the SS or Y numbers listed above, your controller will not work with the PT-Link II BACnet®.
*NOTE: The PT-Link II BACnet® device can be used to con-nect to four Orion controllers. If more than four Orion controllers are present in a system, you will need ad-ditional PT-Link II BACnet® devices.
**NOTE: Documentation is available for MUA II/VAV/CAV on our website: www.aaon.com/controlsmanuals under Previous Generation Controls.
1.1.1 Data Sharing
• Provides values from points on the Orion side of the gateway to BACnet® devices as if the values were originating from BACnet® objects.
• Allows BACnet® devices to modify point values on the Orion controller side of the PT-Link II BACnet® by using standard BACnet® write services.
1.1.2 Scheduling
• Allows BACnet® devices to send Schedule events to the Orion controller side of the gateway by using standard BACnet® services.
1.1.3 Hardware Specifications
Technical DataBACnet®-MS/TP Loop 9600, 19200, 38400, 76800 Mbps
Controller Loop RS-485, 9600 Baud Rate
Network Protocol BACnet®
Protocol (Watt Comm Loop)
HSI Open Protocol Token Passing
Power Input Voltage 18-30 VAC
Power Consumption 10 VA Maximum
Operating Temp -30°F to 150°F
Operating Humidity 0-95% RH Non-Condensing
Weight 4.5 oz.
Table 1: PT-Link II BACnet® Interface Technical Data
1.1.4 System Requirements
• The PT-Link II BACnet® interface is packaged and assembled for panel mounting. Panel mounting components are included for your convenience.
• Computer running Microsoft® Windows 10 operating system.
• Ethernet Crossover Cable (supplied).• PT-Link II BACnet software—located on included flash drive and downloadable from www.aaon.com/controlstech support.
1.1 Overview and System Requirements
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2.1 Quick Start Guide
Figure 1: PT-Link II BACnet® Dimensions and Components
The following steps will get you up and running in no time:
1. Familiarize yourself with the PT-Link II components (Figure 1).
2. Connect your PT-Link II to the Controller(s) on your system (up to four) and connect your PT-Link II to the BACnet® Network (Figure 2). NOTE: Controllers must be addressed as 1, 2, 3 & 4.
3. Obtain the following from your Building Automation System Integrator: the BACnet® MAC address (System Node ID) and the MS/TP network baud rate. Also, relay to your System Integrator that the BACnet® Device Instance Number for the PT-Link will be the MAC address + 50,000 (50,000 is the default Device Instance Number). If you want the Device Instance number to be anything other than 50,000, you will need to access the FS-GUI Toolbox. See Section 3.3.2, page 12.
4. Configure your PT Link DIP Switches. See Section 2.3, page 7.
• Set the BACnet® MS/TP baud rate via the B Bank set of DIP switches.
• Set the BACnet® MS/TP MAC Address using the PT-Link A Bank DIP switches. The BACnet® MS/TP MAC Address MUST be set between 1 and 127.
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2.2 Connection and Wiring Information
Figure 2: PT-Link II BACnet® Interface Wiring
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2.3 Configuring the PT-Link DIP Switches
The DIP Switches allow you to set the protocol between BACnet® MS/TP and BACnet® IP (AAON only supports BACnet® MS/TP appli-cations), set the BACnet® MS/TP baud rate, set the BACnet® MS/TP MAC address, and set the BACnet® MS/TP device instance. You can obtain the MAC address, Device Instance, and baud rate from your Building Automation System (BAS) Integrator. The DIP Switches are shown in Figure 3.
NOTE: You must cycle power after making changes to the DIP Switch Settings for the settings to take effect.
2.3.1 Set the BACnet® MS/TP Baud Rate
“B” bank DIP switches B1 – B4 is used to set the BACnet® MS/TP baud rate of the PT-Link. This matches the baud rate required by the Building
FFP-485
DIP
Switch
Bank A
DIP
Switch
Bank B
Figure 3: DIP Switches
Using B1 – B4 to Set Baud RateBaud B1 B2 B3 B49600 ON ON ON ON19200 OFF OFF OFF ON38400 ON ON OFF ON57600 OFF OFF ON ON76800 ON OFF ON ON
Table 2: Baud Rate Settings
2.3.2 Set the BACnet MS/TP MAC Address
1. Only (1) MAC address is set for the PT-Link regardless of how many devices are connected to it.
2. Set the BACnet® MS/TP MAC addresses of the PT-Link to a value between 1 and 127 (MAC Master Addresses). This is so that the BMS Front End can find the PT-Link via the BACnet® auto discovery func-tion. MAC addresses from 128 to 255 cannot be auto discovered by the BMS Front End.
3. Set “A” bank DIP switches A1 – A7 to assign a MAC Address to the PT-Link for BACnet® MS/TP. Please refer to Section 9, page 82 for the complete range of MAC Addresses and DIP switch settings.
NOTE: The BACnet® Device’s Instance is generated by adding the MAC address to the Node Offset, which defaults to 50,000. If the Device Instance must be set to something other than in the range of 50,001 to 50,127, see Section 3.3.2, page 12 to change the Node Offset value.
CAUTION: DIP Switch 8 in Bank A must always remain OFF for proper operation.
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3.1 Graphical User Interface
The PT-Link is configured using a Graphic User Interface (GUI) which is a password protected web browser-based interface that uses a combination of technologies and devices to provide a platform from which you can gather and process information. The GUI allows you to do the following:
• Change the BACnet® Device Instance to something other than 50,001 to 50,127
• Check the status and diagnostics of the PT-Link, such as network settings, connection information, node information, map descriptors, and error messages
• Monitor the PT-Link’s internal data and parameters
• Change or update the PT-Link’s internal data and parameters
• Restart the PT-Link
The following items are needed to be able to run the GUI:
• PC Requirements—a computer with a web browser that connects over the Ethernet on port 80*
*NOTE: Computer and network firewalls must be opened for Port 80 to allow the GUI to function.
• Software Requirements—Chrome 19.0 and higher, Firefox 13.0 and higher, Opera 11.0 and higher, Microsoft Edge, and Safari 4.1 and higher
NOTE: Internet Explorer is not supported.
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PT-Link II Hardware Connection
1.) Connect the PT-Link II directly to your computer by using a standard CAT5 or crossover cable (by others) as shown. See Figure 4 for details.
2.) Locate a CAT5 cable and plug one end into your computer’s Ethernet port. Plug the other end of the Cable into the Ethernet port on the PT-Link II.
3.) Power up the PT-Link II by plugging in the power cable. The PT-Link II may take up to three minutes to power up completely. Once the PT-Link II is powered up, you should notice that the RUN LED is blinking continuously on the ProtoCessor Board. See Figure 18, page 21 for a diagram showing the location of the ProtoCessor RUN LED.
3.2 PT-Link II Ethernet Connection
Figure 4: Connecting With Crossover Cable
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3.3 IP Address Configuration
3.3.1 Computer IP Address Setup for Windows® 10
In order for the PT-Link II to communicate properly, it is imperative to set the IP address of both the PT-Link II as well as the computer to be within the same netmask. You need to change the IP address on your computer. The following instructions will explain how to configure the IP address for Microsoft® Windows 10 operating system.
NOTE: Consult your IT Specialist to ensure that your Firewall and anti-virus software are turned off before proceeding.
The following instructions explain how to change your computer’s IP address.
1.) Right click the Windows icon or ; then click .
2.) Then click . The Network and Sharing Center Window will appear.
NOTE: If any wireless connections are listed, disable them by right-clicking the connection and selecting .
Figure 6: Local Area Connection Status Window
Figure 5: Network and Sharing Center Window
3.) In the Network and Sharing Center Window, select the Local Area Connection entry. The Local Area Connection Status Window will appear.
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3.3 IP Address Configuration
4.) Click the button. The Local Area Connection Properties Window will appear.
5). In the Connection Items List Box (Figure 7), be sure the Internet Protocol Version (TCP/IPv4) is checked. Click on Internet Protocol (TCP/IP v4) to highlight it and then click . The Internet Protocol Properties Window will appear.
Figure 7: Local Area Connection Properties Window Figure 8: Internet Protocol Properties Window
6). Type in the following information: a.) Make the IP address 192.168.1.5 b.) Make the Subnet mask 255.255.255.0 c.) Blank out the Default gateway setting (leave the setting blank as shown in Figure 8). d.) Blank out the Preferred DNS server setting and the Alternate DNS server setting (see Figure 8).
7.) Select until all of the above windows are closed. You may have to reboot the computer before the new val-ues are valid.
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3.3 IP Address Configuration
Figure 9: BACnet MS/TP Settings for Node_Offset
3.3.2 BACnet MS/TP - Setting Node_ Offset to Assign Specific Device Instances
After setting your PC to be on the same subnet as the PT-Link, open a web browser on your PC and enter the IP address of the PT-Link; the default address is 192.168.1.24.
1. If the IP address of the PT-Link has been changed by previous configuration, you will need to get the assigned IP address from the network administrator or use the FieldServer Toolbox to find the IP Address.
2. The configuration page will be displayed as your landing page. (Figure 9)
3. The node offset can be changed on the configuration page.
4. The Node_Offset field will be presented displaying the current value (default = 50,000).
5. Change the value of Node_Offset to establish the desired Device Instance value, and click .
Device Instance = Node_Offset + A bank DIP switch setting (A1-A7)
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3.4 Verifying Communications
Figure 10: Navigation Window - View Data Arrays
3.4.1 Verifying Communications 1. ) In the Navigation Window on the left of the FS-GUI Main Screen, click and then click . See Figure 10.
2. ) Click on the Controller name. In this case, it is DA_C160_I0, a VCM-X Controller. The Controller’s Data Array Table will display. See Figure 11.
Figure 11: VCM-X Data Array Table
3 ) You can now cross reference the values shown in Figure 11 with the listed parameter names in the appropriate Data Array Table for your controller type. These tables can be found on pages 26-29.
3.4.2 FS-GUI Reference Guide
An FS-GUI Reference Guide can be found in Section 8, page 62.
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4.1.1 Updating the PT-Link II with Prism 2
The PT-Link II is equipped with the ability to update its software with the use of a computer. You will need the following before you begin:
• PT-Link II in need of an update (powered up, no other connections necessary)
• Computer running Microsoft® Windows ®10 operating system
• Prism 2 software from www.aaon.com/prism• Latest version of PT-Link II software and software sheet (e-mailed from AAON Controls Support staff)
• USB Driver Setup.exe file from flash drive or downloaded from www.aaon.com /prism
• USB cable
Follow these simple steps to update the PT-Link II:
1.) Power up the PT-Link II.
2.) Turn on your computer and download the latest Prism 2 software from www.aaon.com/prism
3.) Either download and unzip the PT-Link II update file from aaon.com/controlstechsupport or unzip and save the file to your computer from the e-mail you received from AAON Controls Support. Record the path and name of the file for later use. You will need to know where the file is located for Step 16. Also, print the software sheet provided for future reference. NOTE: You must unzip the file in order for Prism to recognize the hex file.
4.) Run the USB Driver Setup.exe file (found on the PT-Link II flash drive or downloaded from aaon.com/controlstechsupport) so that Prism can communicate to the PT Link II. Unzip the file to the directory where you saved your PT-Link II software.
5.) Plug the USB cable into the computer’s and PT-Link II’s USB ports.
6.) A message will pop-up from the lower menu bar of Windows that reads, “Found New Hardware.” Click on this message and follow the instructions that appear to install the USB drivers. 7.) Open Prism 2 and Login with the User Name, admin and the Pass-word, admin. If successful, “Administrator Access” will appear at the lower right of the Prism program. NOTE: If using a Prism 2 version prior to 4.0, the Login is flash. If successful, “Level 4 Access” will ap-pear at the lower right of the Prism program.
8.) Click on the icon. The Job-Sites Window will appear. In the Type of CommLink Dialog Box, select “CommLink 5 or USB Link II.” Under “Network Configurationm,” select “Single Loop/USB Link.”
9.) In the Job-Sites Window, from the Serial Port drop down list, select the correct COM port. If you don’t know the COM port number or if the number is 10 or higher, follow the directions on pages 16 and 17.
10.) From Prism 2’s Communications tab, select “Flash Selected Controller”, and then select “Manual Flashing.”
11.) The Manual Flash Controller Window will appear.
4.1 Updating the PT-Link II Controller
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4.1 Updating the PT-Link II Controller
15.) The Application ID should be SS1035 and the Application Version should match the software version you will be updating to.
16.) In the HEX File field, enter the path and name of the HEX file you downloaded and/or copied to your hard drive. Use the Browse button (...) to the right of the field if you need help in locating the file.
17.) Now, cycle power to the PT-Link II once again and within 5 seconds click on the button (shown in Step 16). If successful, you should see the Progress Application HEX bar showing the progress percentage.
18.) When the bar shows 100% completed, verify the PT-Link II’s software is running by observing the Timer LED blinking.
19.) Verify the PT-Link II’s Application Version by once again cycling power to the PT-Link II and within 5 seconds clicking the button.
20.) Verify all fields are correct in the information below the button and under “Finalization Data.” The “Int Flash Length” and “Checksum” values should match the values provided with the software sheet.
14.) Cycle power to the PT-Link II and within 5 seconds, click the button in the Flash Controller Window. The PT-Link II in-formation will now appear in the window under the button.
13.) In the Manual Flash Controller Window’s Loop and Unit fields, enter 0 for the Loop and 63 for the Unit, and then press .
12.) From the Manual Flash Controller Window’s Connection tab, select “Direct”. Keep the Flash Controller Window open
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4.1 Updating the PT-Link II Controller
4.1.2 Finding What COM Port Number the PT-Link II is Using (Windows® 10)
1. Right-click on the Windows® icon, located on the bottom left or top left of the Windows® Tool Bar.
2. Click on .
3. Click on to see all of the common ports.
4. Locate the USB Serial Port (COM#). The COM# in parentheses is the port it is located on. Write this COM port number down. You will need to know this when setting up the Prism software.
5. If the COM port number is 10 or greater, go to “Changing the USB COM Port Number” on page 17.
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4.1 Updating the PT-Link II Controller
6. To assign a port number less than 10, click on . The Advanced Settings Window will appear.
7. In the COM Port Number drop box, located at the bottom left, select which COM port you wish to use. Make sure you select a COM port number that is not currently in use (you can see the ports in use in the Device Manager Window). Select a port that is less than 10.
NOTE: Windows® will assign a port number to every de-vice that has ever been installed on your computer. So if there are no available ports below 10, choose a port number less than 10 for a device listed that you know you are not currently using.
8. Once you select the correct COM port number, click and close any windows opened in the process of changing the port number. Make note of this number because you will need it for your Prism setup.
4.1.3 Changing the USB COM Port Number (Windows® 10)
When the PT-Link II is first plugged in, it will be assigned a COM port number to be used for communicating with the Prism 2 software. If the port number is 10 or greater, it needs to be changed to a value less than 10 to be recognized by Prism.
1. Right-click on the Windows® icon, located on the bottom left or top left of the Windows® Tool Bar.
2. Click on .
3. Click on to see all of the common ports.
4. Locate the USB Serial Port (COM#). The COM# in parentheses is the port it is located on.
5. Right-click on “USB Serial Port (COM#)” and select . In the Properties Window, select the tab.
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4.2 Updating the Field Server Software
Figure 12: The FS-GUI Main Screen
1.) Extract and save the update file you receive from Field Server onto your PC.
2.) Open your web browser, and type the IP Address of the PT-Link, which defaults to , and press . The GUI will launch. Click . The Main Screen will appear. See Figure 12.
3.) In the Navigation Window on the left of the FS-GUI Screen, click and then click . See Figure 13.
Figure 13: Navigation Window - File Transfer
4.) Refer to the File Transfer Window below (Figure 14). In the General Tab, click and locate the file you saved in Step 1. Then click on . When the download is complete, click on the button.
Figure 14: File Transfer - General Tab
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No COMS on AAON side
If TX/RX are not flashing rapidly, then there is a COM issue on the AAON side and you need to check the following things:
• Visual observations of LEDs on ProtoNode. (Figure 18, page 21)
• Check baud rate, parity, data bits, stop bits
• Check AAON device address
• Verify wiring
• Verify all the AAON devices that were discovered in FST Web Configurator. (page 12)
NOTE: If the problem still exists, a Diagnostic Capture needs to be taken and sent to AAON Controls Support. See page 24.
Field COM problems
• Visual observations of LEDs on PT-Link. (Figure 17, page 20)
• Visual dipswitch settings (using correct baud rate and device instance)
• Verify IP address setting
• Verify wiring
NOTE: If the problem still exists, a Diagnostic Capture needs to be taken and sent to AAON Controls Support. See page 24.
5.1.1 Check Wiring and Settings
Figure 15: Navigation Window - View Data Arrays
5.1.2 Verifying Communications 1. ) In the Navigation Window on the left of the FS-GUI Main Screen, click and then click . See Figure 15.
Figure 16: VCM-X Data Array Table
3 ) You can now cross reference the values shown in Figure 16 with the listed parameter names in the appropriate Data Array Table for your controller type. These tables can be found on pages 26-30.
2. ) Click on the Controller name. In this case, it is DA_C160_I0, a VCM-X Controller. The Controller’s Data Array Table will display. See Figure 16.
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5.2.1 PT-Link II Board LEDsThe PT-Link II BACnet® is equipped with LEDs that can be used for troubleshooting. There are eight LEDs on the PT-Link board. See Figure 17 for the locations of the LEDs on the PT-Link board. The LED descrip-tions and functions are listed in the following paragraphs.
POWER LEDWhen the PT-Link II BACnet® is powered up, the “POWER” LED should light up and stay on continuously. If it does not light up, check to be sure that you have 24 VAC connected to the board, that the wir-ing connections are tight, and that they are wired for correct polarity. The 24 VAC power must be connected so that all ground wires remain common. If after making all these checks the “POWER” LED still does not light up, please contact AAON Controls Support at our Toll Free number—866-918-1100—for assistance.
LOOP LEDWhen power is applied to the PT-Link II BACnet®, the “LOOP” LED will also light up. The LED should flicker rapidly, indicating that the PT-Link is trying to communicate with the controllers on the loop. A “flicker” is defined as a brief moment when the LED turns off and back on. If the “LOOP” LED does not operate as indicated above, first power down the unit and then reapply power. If this does not work, please con-tact AAON Controls Support at our Toll Free number—866-918-1100—for assistance.
LED 1When power is first applied, “LED 1” will be off temporarily and then will blink one time for each controller it is communicating with. For example, if you have 4 controllers on the loop connected to the PT-Link, “LED 1” will blink 4 times. If the amount of blinks does not match the number of controllers connected to the loop, it indicates there is a com-munications problem. The best way to find out which board is not com-municating is to go to each controller and look at its “COMM” LED. The “COMM” LED should be solid and will flicker occasionally indicating communication with the PT-Link II BACnet®. If the “COMM” LED does not flicker, there is no communication with that controller.
LED 2When power is first applied, “LED 2” will be off temporarily and then will blink slowly indicating that the PT-Link baseboard is communicating with the ProtoCessor Module. If “LED 2” does not blink, check that the ProtoCessor Module is installed correctly on the PT-Link baseboard and that the “PWR” LED is lit up on the ProtoCessor Module.
PROTO LEDWhen the PT-Link II is first powered up, the “PROTO” LED should blink rapidly and may appear to be on solid. This LED verifies com-munication with the board and the ProtoCessor. If the LED doesn’t light up, check that the ProtoCessor is installed correctly and firmly connected to the Base Board. The “PWR” LED should also be lit on the ProtoCessor Module.
TIMER LEDThe “TIMER” LED is used for troubleshooting by AAON Controls Support. The “TIMER” LED should always be blinking steadily.
Figure 17: PT-Link II BACNET® LED Locations
WATCH DOG LEDThe “W-DOG” LED is used for troubleshooting by AAON Controls Support. The “W-DOG” LED should always be on solid.
HEARTBEAT LEDThe “H-BEAT” LED blinks to show the PT-Link II board software is running. If the LED doesn’t light up, and all other checks have been made, please contact AAON Controls Support at our Toll Free num-ber—866-918-1100—for assistance.
5.2 Troubleshooting LEDs
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5.2 Troubleshooting LEDS
Figure 18: PT-Link II BACnet4® LED Locations
5.2.2 PT-Link Module LEDs
Refer to Figure 18 for LED locations.
PWR LEDWhen the PT-Link II is first powered up, the “PWR” green LED should light up and stay on continuously. If the LED doesn’t light up, check that the ProtoCessor is installed correctly and firmly connected to the Base Board.
RX & TX LEDsDuring normal operation, the “RX” LED will flash when a message is received on the field port of the ProtoCessor and the “TX” LED will flash when a message is sent on the field port of the ProtoCessor. The “TX” and “RX” LEDs work together to indicate that communication is being established with the desired protocol network. If both LEDs are blinking, then communication is working properly. If not, check the protocol network wiring and the baud rate in the configuration file.
RUN LEDUpon power up, the “RUN” LED should light up and stay solid for 15 seconds. It should then blink steadily, signifying normal operation. The ProtoCessor will be able to access RUINET once this LED starts flashing.
RUN2 LEDThe “RUN2” LED should blink steadily after power up, signifying normal operation. The Protocessor will be able to access RUINET once this LED starts flashing.
SYS ERR LEDThe “SYS ERR” LED will go on solid 15 seconds after power up and then shut off. A steady red light will indicate there is a system error on the ProtoCessor. If this occurs, immediately report the related “system error” shown in the error screen of the Remote User Interface to Field-Server Technologies for evaluation.
NODE OFFLINE LEDThe “NODE OFFLINE” amber LED will go on solid 15 seconds after power up and then shut off. A steady amber light indicates the ProtoCes-sor is not communicating with a device that it is polling.
NOTE: If all of these tests are made and the controller still doesn’t operate, please contact AAON Controls Support at our Toll Free number—866-918-1100—for assistance.
Figure 19: PT-Link II BACnet4® Components
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5.3 Troubleshooting the PT-Link Controller
5.3.1 Addressing AAON Devices in a BACnet® Network
Each PT-Link II BACnet® generates only one BACnet® device regardless of the number of AAON controls connected to it. This device will have all the properties of all the AAON controls con-nected. The instance of the device is equal to the unit address. The properties of each control can be differentiated by an offset of 500.
Examples:
1.) Properties of the controller address as 1 will range from 0 to 499.2.) Properties of the controller address as 2 will range from 500 to 999.3.) Properties of the controller address as 3 will range from 1000 to 1499.
To search for the instance of a specific property, follow the next formula:
Property Instance = ((Controller Address – 1) * 500) + Instance Number from table.
Example:
1.) The PT-Link II BACnet® has a Node ID equal to five.2.) Two VCM controllers connected and addressed to one and four.3.) Searching for the Outdoor Temperature of each controller.4.) Instance of the Outdoor Temperature in the VCM table equal to AI: 54.5.) Client will only see Device 5. 6.) Under Device 5 it will see AI: 54 for the Outdoor Temperature of the unit addressed as 1 and AI: 1554 for the Outdoor Temperature of the unit addressed as 4.
NOTE: To simplify the calculation, we recommend that the AAON controllers be addressed in sequential order from one to the last controller without any unused address(es) in between.
5.3.2 BACnet® Explorer for Validating PT-Link in the Field
Sierra Monitor Corporation offers a tool, BACnet® Explorer, that can be used to validate BACnet® MS/TP communications of the PT-Link in the field without having to have the BMS Integrator on site.
For instructions on downloading BACnet® Explorer, perform a search in your internet browser for the latest Sierra Monitor’s BACnet® Explorer Start-up Guide.
For purchasing information, go to the BACnet® Explorer page on the Sierra Monitor website (www.sierramonitor.com/connect/all-protocol-gateway-products/bacnet-explorer) and click on the “BUY NOW” tab.
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5.3 Troubleshooting the PT-Link Controller
5.3.3 Viewing Diagnostic Information
1. Type the IP address of the PT-Link into your web browser or use the FieldServer Toolbox to connect to the PT-Link
2. Click on then click on , and then click on . See Figure 20.
3. If there are any errors showing in the Connections Window, please refer to Section 5.1.1, page 19 for the relevant wiring and settings.
Figure 20: Connections Window
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5.4 FieldServer Diagnostic Utilities
5.4.1 Diagnostic Capture Procedures
1. Once the Diagnostic Capture is complete, email it to [email protected]. The Diagnostic Capture will allow us to rapidly diagnose the problem.
2. Ensure that FieldServer Toolbox is Loaded on the PC that is currently being used, or download FieldServer- Toolbox.zip at www.sierramonitor.com/content/ fieldserver-toolbox-0
3. Extract the executable file and complete the installation.
4. Disable any wireless Ethernet adapters on the PC/Laptop. See Figure 21.
Figure 21: Ethernet Port Location
Figure 22: FieldServer Toolbox - Diagnostic Icon
5. Disable firewall and virus protection software if possible.
6. Connect a standard Cat 5 Ethernet cable between the PC and ProtoNode.
7. Double-click on the FS Toolbox Utility. Refer to Figure 26, page 25 for Toolbox components.
8. Click on the diagnose icon of the desired device. See Figure 22.
Figure 23: Full Diagnostic
9. Select Full Diagnostic. See Figure 23.
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5.4 FieldServer Diagnostic Utilities
10. If desired, the default capture period can be changed. See Figure 24.
11. Click on . Figure 24.
Figure 24: Set Capture Period and Start Diagnostic
12. Wait for the Capture period to finish. The Diagnostic Test Complete Window will appear. Figure 25.
Figure 25: Diagnostic Test Complete Window
13. Once the Diagnostic test is complete, a .zip file will be saved on the PC.
14. Click in the Diagnostic Test Complete Window to launch explorer and have it point directly at the correct folder.
15. Send the Diagnostic zip file to [email protected].
Figure 26: FieldServer Toolbox Components
* Note: Blue: Limited connectivity. You might have an older software version on the FieldServer ProtoCessor. You would need to run the RUINET setup instead of using the FS-GUI interface. Please contact AAON Controls Support for assistance.
*
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Table 3: VCCX2 Data Array For Field Server
VCCX2 Data Array For Field ServerOffset 0 1 2 3 4 5 6 7
0 AppVer CtrlMod CtrlSts HvacMode CtrlTp ClSt HtSt SldAdOfs8 SaTp SaTpSt CoilTpSt SpcTp InRh RaTp RaRH OaTp
16 OaRh OaWtbl OaDewPt SaStRt DuctPr FanVfdSg BuildPr RlfSgl24 OaCFM SaCFM RaCFM EtCFM CO2 EcoPos T24EcFb RaDmp32 RetBydmp MdClSgl MdHtSgl Rt2Pos MdGsVPos A1Cmpr A2Cmpr A1Cndr40 A2Cndr A1SucPr A2SucPr A1HdPr A2HdPr A1SauTp A2SauTp A1SucTp48 A2SucTp A1SupHt A2SupHt A1ExpVv A2ExpVv A1DscTp A2DscTp ALevWtr56 B1Cmpr B2Cmpr B1Cndr B2Cndr B1SucPr B2SucPr B1HdPr B2HdPr64 B1SauTp B2SauTp B1SucTp B2SucTp B1SupHt B2SupHt B1ExpVv B2ExpVv72 B1DscTp B2DscTp BLevWtr C1Cmpr C2Cmpr C1Cndr C2Cndr C1SucPr80 C2SucPr C1HdPr C2HdPr C1SauTp C2SauTp C1SucTp C2SucTp C1SupHt88 C2SupHt C1ExpVv C2ExpVv C1DscTp C2DscTp CLevWtr D1Cmpr D2Cmpr96 D1Cndr D2Cndr D1SucPr D2SucPr D1HdPr D2HdPr D1SauTp D2SauTp
104 D1SucTp D2SucTp D1SupHt D2SupHt D1ExpVv D2ExpVv D1DscTp D2DscTp112 DLevWtr AlmSts PreHtLv1 PreHtLv2 PreHtEnt PreHtRst PreHtScr PreHtPwm120 ClEnbl HtEnbl EcoEnbl AuxHtEn EmHtEnbl Pof EtHood RmOc128 RmCl RmHt RmDhum SaTpAlm RaTpAlm OaTpAlm SpcTpAlm CO2Alm136 RefAlm OaCfmAlm EaCfmAlm SaCfmAlm RaCfmAlm ClAlm HtAlm FanAlm144 DrtFlAlm EmerAlm RlRnTm EcoMs EcoFlA EcoFlB EcoFlC EcoFlD152 EcoFlE HiCfAlm LoCfAlm HiMdAlm LoMdAlm PreHtAlm BadMod1 BadMod2160 BadMod3 BadMod4 BadPreBd BadRhtBd BadMgsBd BadEm1Bd BadExRly OnRly1168 OnRly2 OnRly3 OnRly4 OnRly5 OnRly6 OnRly7 OnRly8 Em1Rly1176 Em1Rly2 Em1Rly3 Em1Rly4 Em1Rly5 ExRly1 ExRly2 ExRly3 ExRly4184 ExRly5 ExRly6 ExRly7 ExRly8 ExRly9 ExRly10 ExRly11 ExRly12192 PreHtEn PreHtEm PreHtBi3 MdGsEn RehtEnbl A1CmpEn A2CmpEn A1Alm200 A2Alm ADfrSw AWtrPf M1Rly1 M1Rly2 M1Rly3 M1Rly4 M1Rly5208 B1CmpEn B2CmpEn B1Alm B2Alm BDfrSw BWtrPf M2Rly1 M2Rly2216 M2Rly3 M2Rly4 M2Rly5 C1CmpEn C2CmpEn C1Alm C2Alm CDfrSw224 CWtrPf M3Rly1 M3Rly2 M3Rly3 M3Rly4 M3Rly5 D1CmpEn D2CmpEn232 D1Alm D2Alm DDfrSw DWtrPf M4Rly1 M4Rly2 M4Rly3 M4Rly4240 M4Rly5 OcpClSt OcpHtSt OaClSt OaHtSt UnClOst UnHtOst MdSelDb248 HiClTpSt LoClTpSt SaClSt SaHtSt SaClRt SaHtRt SaClSgWd SaHtSgWd256 WmupSt WmupSaSt ClDnSaSp ClLkOut HtLkOut LoSaCuOf HiSaCuOf PrHtClSt264 PrHtVtSt PrHtHtSt DptSt EcoEnbl1 HtWhDefr PreHtSp MaxSldEf SpcTpOst272 SaTpOst RaTpOst OaTpOst CO2Ost LWAmbnt LoClRsSr HiClRsSr LoHtRsSr280 HiHtRsSr CTpHiAlO CTpLoAlO HpLkt MaxVfd VFDClMin VFDHtMin VFDVtMin288 MaxEcoHt MinEco MaxEco CO2MinLv CO2MaxLv InRhLoSt InRhHiSt DuctPrSt
6.1 VCCX2 Data Array
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6.2 VCB-X Data Array
Table 4: VCB-X Data Array For Field Server
VCB-X Modular Data Array For Field ServerOffset 0 1 2 3 4 5 6 7 8 9
0 AppVer ClSt HtSt SpcTp SaTp OaTp UnitMode CtrlSts ClEnbl HtEnbl10 EcoEnbl FanDly OnRlys EcoPos VfdBwPos AlmSts AlmGrp1 AlmGrp2 AlmGrp3 SaTpAlm20 OaTpAlm SpcTpAlm MchClAlm MchHtAlm PofAlm DrtFlAlm SmokeAlm LoSaAlm HiSaAlm CtrlTpCF30 CtrlTpHF CtrlTp InRh InRhStM MdClPos MdHtPos OcpClSt OcpHtSt UnClOst UnHtOst40 SaClSt SaHtSt SpcTpOst SaTpOst OaTpOst SchdFrc OnRly1 OnRly2 OnRly3 OnRly4
50 OnRly5 OnRly6 MnExRly1 MnExRly2 MnExRly3 MnExRly4 MnExRly5 RlExRly1 RlExRly2 RlExRly360 RlExRly4 RlExRly5 RlExRly6 RlExRly7 RlExRly8 RlExRly9 RlExRly10 RlExRly11 RlExRly12 MinEcoSt70 OaCFM EtCFM SaCFM FrcHvacM FrcFanSp FrcEcono SaTpStM RaTp OaRh StaticPr80 CO2 BuildPr EtFnSpd CoilTp RaCFM HeadPr RtVlvPos LvWtrTp MdGsVPos HeadPrSt90 CdCtrSg1 OaClSt OaHtSt WmupTg RhDewpSt EcoEnbSt RaTpOst ColTpOft LWAmbnt PreHtAmb
100 C02MinLv C02MaxLv InRhSt StatPrSt RfPrSt OACfmMin HiInRh ClHdPrSt HtHdPrSt LoClTpSt110 HiClTpSt SaClRt SaHtRt ClLoRt ClHiRt HtLoRt HtHiRt CtrlMod DschgTp OaWtbl120 OaDewPt SucPr CoilTpSt RetBydmp RaDmp RaRH SldAdOfs MdSelDb ClStgWdw HtStgWdw130 MchClLkt MchHtLkt LoSaCf HiSaCf DfrSt LvH2OOst CO2Ost CTpHiAlm CTpLoAlm HpLkt140 VFDClMin VFDHtMin VFDVtMin MaxEcoHt MaxEcoCO HpDfrInt AptDfr DuctPfDb RlfPrDb OaCfmDb150 SZVAVFnI SaWmupSt SaCldnSt RehtEnbl EmHtEnbl RaTpAlm MisEM1 ColPfAlm CO2Alm DschgAlm160 OaCfmAlm ExtCmSr SaCfmSr RaCfmSr MisMHGRV MisMDGAS Mis12Rly HiCtrlMd LoCtrlMd DigCmpCf170 DigCmpLk HiHedPr H2OProf LoSucPr HiSucPr – – – – –
VCCX2 Data Array For Field ServerOffset 0 1 2 3 4 5 6 7
296 DuctPrDb RfPrSt RlfPrDb OACfmMin OaCfmDb SZVAVFnI RlRnTmLm HdPrCl304 HdPrDhum SupHtSp HdPrCndr SchdFrc HvacMdOv FanVfdOv EcoOv A1CondST312 A2CondST A1CondSH A2CondSH A1CondEV A2CondEV B1CondST B2CondST B1CondSH320 B2CondSH B2CondSH B2CondEV C1CondST C2CondST C1CondSH C2CondSH C1CondEV328 C2CondEV D1CondST D2CondST D1CondSH D2CondSH D1CondEV D2CondEV AEmShtDn336 BEmShtDn CEmShtDn DEmShtDn SaStOv SpcTVal SpcRhVal Reserved RelFanOV344 RelPrVal CO2Val OaTVal OaRhVal HiLvlEtp LoLvlEtp MxPPrRst MnPPrRst352 EtpEnSp EtpEnDb MxStaRst MnStaRst StaRstIv ClDnTgTp WmUpOv ClDnOv360 RAHiLmtP RALoLmtP EFRAFPOF – – – – –
Table 3, cont.: VCCX2 Data Array For Field Server
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Table 5: VCM-X Modular Data Array For Field Server
VCM-X Modular Data Array For Field ServerOffset 0 1 2 3 4 5 6 7 8 9
0 AppVer ClSt HtSt OaWtbl TpDmnd SpcTp SaTp RaTp OaTp DuctPr10 OaRh UnitMode CtrlSts ClEnbl HtEnbl EcoEnbl FanDly PofCfg CO2Cfg MdHt2Ins
20 Rt2Ins OnRlys ExRlys12 ExRlys34 EcoPos VfdBwPos VfdExPos AlmSts AlmGrp1 AlmGrp230 AlmGrp3 SaTpAlm OaTpAlm SpcTpAlm MchClAlm MchHtAlm PofAlm DrtFAlm SmokeAlm LoSaAlm40 HiSaAlm CtrlTpCF CtrlTpHF CtrlTp InRh InRhStM DptStM MdClPos MdHtPos MdHt2Pos
50 Rt2Pos OcpClSt OcpHtSt UnClOst UnHtOst WtblSt SaClSt SaHtSt WmupSt SpcTpOst60 SaTpOst RaTpOst OaTpOst CoilTpSt DptSt InRhSt DuctPrSt RfPrSt SchdFrc OnRly1
70 OnRly2 OnRly3 OnRly4 OnRly5 ExRly1 ExRly2 ExRly3 ExRly4 ExRly5 ExRly680 ExRly7 ExRly8 ExRly9 ExRly10 ExRly11 ExRly12 ExRly13 ExRly14 ExRly15 ExRly1690 CO2St MinEcoSt CO2Level ByPasDmp RaDmp RfPr OaDwpt CoilTp SaTpStM PreHtSp
100 OaCFM EtCFM SaCFM OACfmSt OACfmRs OACfmStM MdCmp2 HdPr1 HdPr2 CdFan1110 CdFan2 RmVFDPos SaClRt SaHtRt ClLoRt ClHiRt HtLoRt HtHiRt T24EcFb T24TpAlm120 T24NEWS T24EWISN T24DpAlm T24ExsOA RaTpAlm AlmGrp5 HdPr22 HdPr22 CdFan21 CdFan22
6.3 VCM-X Modular & VCM-X WSHP Tulsa Data Arrays
Table 6: VCM-X WSHP (Tulsa) Data Array For Field Server
VCM-X WSHP (Tulsa) Data Array For Field ServerOffset 0 1 2 3 4 5 6 7 8 9
0 AppVer ClSt HtSt OaWtbl TpDmnd SpcTp SaTp RaTp OaTp DuctPr10 OaRh UnitMode CtrlSts ClEnbl HtEnbl EcoEnbl FanDly PofCfg CO2Cfg MdHt2Ins
20 Rt2Ins OnRlys ExRlys12 ExRlys34 EcoPos VfdBwPos VfdExPos AlmSts AlmGrp1 AlmGrp230 AlmGrp3 SaTpAlm OaTpAlm SpcTpAlm MchClAlm MchHtAlm PofAlm DrtFAlm SmokeAlm LoSaAlm40 HiSaAlm CtrlTpCF CtrlTpHF CtrlTp InRh InRhStM DptStM MdClPos MdHtPos MdHt2Pos
50 Rt2Pos OcpClSt OcpHtSt UnClOst UnHtOst WtblSt SaClSt SaHtSt WmupSt SpcTpOst60 SaTpOst RaTpOst OaTpOst CoilTpSt DptSt InRhSt DuctPrSt RfPrSt SchdFrc OnRly1
70 OnRly2 OnRly3 OnRly4 OnRly5 ExRly1 ExRly2 ExRly3 ExRly4 ExRly5 ExRly680 ExRly7 ExRly8 ExRly9 ExRly10 ExRly11 ExRly12 ExRly13 ExRly14 ExRly15 ExRly1690 CO2St MinEcoSt CO2Level ByPasDmp RaDmp RfPr OaDwpt CoilTp SaTpStM PreHtSp
100 OaCFM EtCFM SaCFM OACfmSt OACfmRs OACfmStM MdCmp2 HdPr1 HdPr2 CdFan1110 CdFan2 WaterTpA WaterTpB A1LSPAlm A1LktAlm A2LSPAlm A2LktAlm B1LSPAlm B1LktAlm B2LSPAlm120 B2LktAlm LWT1Alm LWT2Alm POWF1Alm POWF2Alm ComMAlm RmVFDPos SaClRt SaHtRt ClLoRt130 ClHiRt HtLoRt HtHiRt T24EcFb T24TpAlm T24NEWS T24EWISN T24DpAlm T24ExsOA RaTpAlm140 AlmGrp5 HdPr22 HdPr22 CdFan21 CdFan22 – – – – –
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Table 8: VCM-X Data Array For Field Server
VCM-X Data Array For Field ServerOffset 0 1 2 3 4 5 6 7 8 9
0 AppVer ClSt HtSt OaWtbl TpDmnd SpcTp SaTp RaTp OaTp DuctPr10 OaRh UnitMode CtrlSts ClEnbl HtEnbl EcoEnbl FanDly PofCfg CO2Cfg MdHt2Ins
20 Rt2Ins OnRlys ExRlys12 ExRlys34 EcoPos VfdBwPos VfdExPos AlmSts AlmGrp1 AlmGrp230 AlmGrp3 SaTpAlm OaTpAlm SpcTpAlm MchClAlm MchHtAlm PofAlm DrtFAlm SmokeAlm LoSaAlm40 HiSaAlm CtrlTpCF CtrlTpHF CtrlTp InRh InRhStM DptStM MdClPos MdHtPos MdHt2Pos
50 Rt2Pos OcpClSt OcpHtSt UnClOst UnHtOst WtblSt SaClSt SaHtSt WmupSt SpcTpOst60 SaTpOst RaTpOst OaTpOst CoilTpSt DptSt InRhSt DuctPrSt RfPrSt SchdFrc OnRly1
70 OnRly2 OnRly3 OnRly4 OnRly5 ExRly1 ExRly2 ExRly3 ExRly4 ExRly5 ExRly680 ExRly7 ExRly8 ExRly9 ExRly10 ExRly11 ExRly12 ExRly13 ExRly14 ExRly15 ExRly1690 CO2St MinEcoSt CO2Level ByPasDmp RaDmp RfPr OaDwpt CoilTp SaTpStM PreHtSp
100 OaCFM EtCFM SaCFM OACfmSt OACfmRs OACfmStM SaClRt SaHtRt ClLoRt ClHiRt110 HtLoRt HtHiRt – – – – – – – –
6.4 VCM-X WSHP (Coil) & VCM Data Arrays
Table 7: VCM-X WSHP (Coil) Data Array For Field Server
VCM-X WSHP (Coil) Data Array For Field ServerOffset 0 1 2 3 4 5 6 7 8 9
0 AppVer ClSt HtSt OaWtbl TpDmnd SpcTp SaTp RaTp OaTp DuctPr10 OaRh UnitMode CtrlSts ClEnbl HtEnbl EcoEnbl FanDly PofCfg CO2Cfg MdHt2Ins
20 Rt2Ins OnRlys ExRlys12 ExRlys34 EcoPos VfdBwPos VfdExPos AlmSts AlmGrp1 AlmGrp230 AlmGrp3 SaTpAlm OaTpAlm SpcTpAlm MchClAlm MchHtAlm PofAlm DrtFAlm SmokeAlm LoSaAlm40 HiSaAlm CtrlTpCF CtrlTpHF CtrlTp InRh InRhStM DptStM MdClPos MdHtPos MdHt2Pos
50 Rt2Pos OcpClSt OcpHtSt UnClOst UnHtOst WtblSt SaClSt SaHtSt WmupSt SpcTpOst60 SaTpOst RaTpOst OaTpOst CoilTpSt DptSt InRhSt DuctPrSt RfPrSt SchdFrc OnRly1
70 OnRly2 OnRly3 OnRly4 OnRly5 ExRly1 ExRly2 ExRly3 ExRly4 ExRly5 ExRly680 ExRly7 ExRly8 ExRly9 ExRly10 ExRly11 ExRly12 ExRly13 ExRly14 ExRly15 ExRly1690 CO2St MinEcoSt CO2Level ByPasDmp RaDmp RfPr OaDwpt CoilTp SaTpStM PreHtSp
100 OaCFM EtCFM SaCFM OACfmSt OACfmRs OACfmStM MdCmp2 HdPr1 HdPr2 CdFan1110 CdFan2 WaterTpA A1LSPAlm A1LktAlm B1LSPAlm B1LktAlm LWT1Alm POWF1Alm ComMAlm RmVFDPos120 SaClRt SaHtRt ClLoRt ClHiRt HtLoRt HtHiRt T24EcFb T24TpAlm T24NEWS T24EWISN130 T24DpAlm T24ExsOA RaTpAlm – – – – – – –
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Table 9: SA Controller Data Array For Field Server
SA Controller Data Array For Field ServerOffset 0 1 2 3 4 5 6 7 8 9
0 AppVer ClSt HtSt TpDmnd SpcTp SaTp DuctPr UnitMode CtrlSts ClEnbl10 HtEnbl EcoEnbl FanDly MdHt2Ins Rt2Ins EcoPos VfdBwPos SaTpAlm SpcTpAlm MchClAlm
20 MchHtAlm PofAlm DrtFAlm LoSaAlm HiSaAlm CtrlTpCF CtrlTpHF CtrlTp InRh InRhStM30 DptStM MdClPos MdHtPos MdHt2Pos Rt2Pos OcpClSt OcpHtSt UnClOst UnHtOst SaClSt40 SaHtSt WmupSt SpcTpOst SaTpOst CoilTpSt DptSt InRhSt DuctPrSt SchdFrc OnRly1
50 OnRly2 OnRly3 OnRly4 OnRly5 ExRly1 ExRly2 ExRly3 ExRly4 ExRly5 ExRly660 ExRly7 ExRly8 ExRly9 ExRly10 ExRly11 ExRly12 ExRly13 ExRly14 ExRly15 ExRly16
70 CoilTp SaTpStM PreHtSp EaTp EwTp EaRH HdPr1 HdPr2 CoilTp2 EaDpt80 WSEByp WSEByp2 MdCmp2 CoilTpSt CdPos1 CdPos2 EaTpAlm EmerAlm PoWFAlm DrnAlm90 EaTpOst EwTpOst SaClRt SaHtRt ClLoRt ClHiRt HtLoRt HtHiRt – –
VCM Data Array For Field ServerOffset 0 1 2 3 4 5 6 7 8 9
0 AppVer ClSt HtSt OaWtbl TpDmnd SpcTp SaTp RaTp OaTp DuctPr10 OaRh UnitMode CtrlSts ClDmnd HtDmnd DehmDmnd ClEnbl HtEnbl EcoEnbl FanDly
20 WmupDmnd PofCfg CO2Cfg MdHt2Ins Rt2Ins OnRlys ExRlys12 ExRlys34 EcoPos VfdBwPos30 VfdExPos AlmSts AlmGrp1 AlmGrp2 AlmGrp3 SaTpAlm OaTpAlm SpcTpAlm MchClAlm MchHtAlm40 PofAlm DrtFlAlm SmokeAlm LoSaAlm HiSaAlm CtrlTpCF CtrlTpHF CtrlTp InRh InRhStM50 DptStM MdClPos MdHtPos MdHt2Pos Rt2Pos OcpClSt OcpHtSt UnClOst UnHtOst WtblSt60 SaClSt SaHtSt WmupSt SpcTpOst SaTpOst RaTpOst OaTpOst CoilTpSt DptSt InRhSt
70 DuctPrSt RfPrSt SchdFrc OnRly1 OnRly2 OnRly3 OnRly4 OnRly5 ExRly1 ExRly280 ExRly3 ExRly4 ExRly5 ExRly6 ExRly7 ExRly8 ExRly9 ExRly10 ExRly11 ExRly1290 ExRly13 ExRly14 ExRly15 ExRly16 CO2St MinEcoSt CO2Level ByPasDmp RaDmp RfPr
100 OaDwpt CoilTp SaTpStM PreHtSp – – – – – –
Table 10: VCM Data Array For Field Server
6.5 SA & VCM Data Arrays
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BACnet® Properties for the VCCX2 Controller Parameter Name Object Description LimitsApplication
Software Version
AppVer AI: 99 Current version of the software in the unit.
Control Mode
CtrlMod AI: 97 Configured unit application.
See Control Mode
Bits on page 46.
Control Status
CtrlSts AI: 4 Current Occupied/ Unoccupied Status.
See Control Status Bits on
page 46. Hvac Mode HvacMode AI: 175 Current operational
status.See
HVAC Mode Bits
on page 46.
Control Temperature
CtrlTp AI: 9 Current value of the Control Temperature
Sensor.
Mode Cooling Setpoint
ClSt AI: 7 Cooling Mode En-able Setpoint Mirror
(adjusted by the Space Sensor Slide adjust-ment and/or Night Setback offsets.)
Mode Heating Setpoint
HtSt AI: 31 Heating Mode En-able Setpoint Mirror
(adjusted by the Space Sensor Slide adjust-ment and/or Night Setback offsets.)
Sensor Slide Adjust Effect
SldAdOfs AI: 338 Amount of Current Sensor Slide Offset
Supply Air Temperature
SaTp AI: 83 Current value of the Supply Air
Temperature sensor
Supply Air Setpoint
SaTpSt AI: 81 Current SAT Cooling or Heating Setpoint if
there is no reset source; Current
calculated SAT setpoint with Reset Source
Controlling Coil Temp Setpoint
CoilTpSt AI: 334 This is the current calculated Coil Suction
Temperature target during
Dehumidification Mode.
BACnet® Properties for the VCCX2 Controller Parameter Name Object Description Limits
Space Temperature
SpcTp AI: 72 Current value of the Space Temperature
Sensor.
Space Humidity
InRh AI: 67 Current value of the Space Humidity.
Return Air Temperature
RaTp AI: 64 Current value of the Return Temperature
Sensor.
Return Air Humidity
RaRH AI:337 Current value of the Return Air Humidity.
Outdoor Air Temperature
OaTp AI: 54 Current value of the Outdoor Air
Temperature Sensor.
Outdoor Air Humidity
OaRh AI: 52 Current value of the Outdoor Humidity
Sensor.
Outdoor Air Wetbulb
OaWtbl AI: 55 Current calculated Outdoor Wetbulb
Temperature.
Outdoor Air Dewpoint
OaDewPt AI: 332 Current Calculated Outdoor Air Dewpoint
Temperature.
Supply Air Setpoint
Reset Voltage
SaStRt AI: 290 Supply Air Temp Setpoint Reset Input
Signal
Duct Static Pressure
DuctPr AI: 14 Current Duct Static Pressure
Duct Static Control Signal
FanVfdSg AI: 292 Current Duct Static Control Signal (Fan
VFD)
Building Pressure
BuildPr AI: 272 Current value of the Building Pressure
Sensor.
Building Pressure Control Signal
RlfSgl AI: 293 Current Building Pres-sure Control Signal
Outdoor Airflow
OaCFM AI: 193 Current Outdoor Airflow
Measurement.
Supply Airflow
SaCFM AI: 195 Current Supply Airflow Measurement.
Return Airflow
RaCFM AI: 275 Current Return Airflow Measurement.
Exhaust Airflow
EtCFM AI: 194 Current Exhaust Airflow Measurement
Carbon Dioxide
CO2 AI: 271 Current Indoor CO2 Level.
Desired Economizer
Position
EcoPos AI: 16 Current Modulating Signal to the Econo-
mizer Damper.
Economizer Feedback Position
T24EcFb AI: 384 Title 24 current posi-tion of feedback from Economizer actuator.
NOTE: Objects labeled AI and BI are read-only. Objects labeled AV are read/writeable. Objects labeled AV are read/writeable. You cannot write directly to Sensor Inputs.
7.1 VCCX2 BACnet® Parameters
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BACnet® Properties for the VCCX2 Controller Parameter Name Object Description Limits
Return Damper Position
RaDmp AI: 154 Current Signal to the Return Air Damper if
using Return Air Bypass.
Return Bypass Position
RetBydmp AI: 335 Current Signal to the Return Air Bypass
Damper if using Return Air Bypass.
Modulating Cooling Position
MdClSgl AI: 294 Current percentage of the Modulating Chilled
Water Signal.
Modulating Heat Position
MdHtSgl AI: 295 Current percentage of the Modulating Heating signal
(Hot Water or SCR heat).
Preheater Leaving Air
Temp #1
PrHtLv1 AI: 296 Current Preheater Leaving Air
Temperature #1
Preheater Leaving Air
Temp #2
PrHtLv2 AI: 297 Current Preheater Leaving Air
Temperature #2
Preheater Entering Air
Temp
PrHtEnt AI: 298 Current Entering Air Temperature for
Preheater
Preheater Setpoint Re-set Voltage
PrHtRst AI: 299 Current Voltage Reset Input Value for
Preheater
Preheater SCR Output
Signal
PrHtScr AI: 300 Current Modulat-ing Heat Signal for
Preheater
Preheater PWM Output
Signal
PrHtPwm AI: 301 Current PWM Output Signal for Preheater
Mod Hot Gas Reheat Valve
Position
Rt2Pos AI: 60 Current position of MHGRV Modulating
Hot Gas Reheat Valve.
Mod Gas Heat Valve
Position
MdGsV-Pos
AI: 274 Current position of MODGAS Modulating
Gas Valve Control.
A1 Compressor
Signal
A1Cmpr AI: 400 Current Compressor A1 Modulating Cool-
ing Signal
A2 Compressor
Signal
A2Cmpr AI: 401 Current Compressor A2 Modulating Cool-
ing Signal
A1 Condenser
Signal
A1Cndr AI: 402 Current A1 Condenser Signal
A2 Condenser
Signal
A2Cndr AI: 403 Current A2 Condenser Signal
7.1 VCCX2 BACnet® Parameters
BACnet® Properties for the VCCX2 Controller Parameter Name Object Description LimitsA1 Suction
PressureA1SucPr AI: 404 Current Compressor A1
Suction Pressure
A2 Suction Pressure
A2SucPr AI: 405 Current Compressor A2 Suction Pressure
A1 Head Pressure
A1HdPr AI: 406 Current Compressor A1 Head Pressure
A2 Head Pressure
A2HdPr AI: 407 Current Compressor A2 Head Pressure
A1 Saturation Temperature
A1SauTp AI: 408 Current Compressor A1 Coil Saturation
Temperature
A2 Saturation Temperature
A2SauTp AI: 409 Current Compressor A2 Coil Saturation
Temperature
A1 Suction Line
Temperature
A1SucTp AI: 410 Current Compressor A1 Suction Line Temperature
A2 Suction Line
Temperature
A2SucTp AI: 411 Current Compressor A2 Suction Line Temperature
A1 Condenser
Suction Temp (Heat Pump)
A1CondST AI: 260 Current Compressor A1 Suction Line Temperature (Heat Pump)
A2 Condenser
Suction Temp (Heat Pump)
A2CondST AI: 261 Current Compressor A2 Suction Line Temperature(Heat Pump)
A1 Superheat
Temperature
A1SupHt AI: 412 Current Compressor A1 Superheat Temperature
A2 Superheat
Temperature
A2SupHt AI: 413 Current Compressor A2 Superheat Temperature
Condenser A1
Superheat (Heat Pump)
A1CondSH AI: 262 Current Compressor A1 Superheat Temperature
(Heat Pump)
Condenser A2
Superheat (Heat Pump)
A2CondSH AI: 263 Current Compressor A2 Superheat Temperature
(Heat Pump)
A1 Expansion
Valve Position
A1ExpVv AI: 414 Current position of Compressor A1 Expansion Valve
A2 Expansion Valve Posi-
tion
A2ExpVv AI: 415 Current position of Compressor A2 Expansion Valve
Condenser A1
Expansion Valve
Position
A1CondEV AI: 264 Current position of Condenser A1
Expansion Valve
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7.1 VCCX2 BACnet® Parameters
BACnet® Properties for the VCCX2 Controller Parameter Name Object Description LimitsCondenser
A2 Expansion Valve Position
A2CondEV AI: 265 Current position of Condenser A2
Expansion Valve
A1 Discharge Temperature
A1DscTp AI: 416 Current Compressor A1 Discharge Temperature
A2 Discharge Temperature
A2DscTp AI: 417 Current Compressor A2 Discharge Temperature
A1 Leaving Water Temp
ALevWtr AI: 418 Current A1 Leaving Water Temperature for
WSHP
B1 Compressor
Signal
B1Cmpr AI: 430 Current Compressor B1 Modulating Cooling
Signal
B2 Compressor
Signal
B2Cmpr AI: 431 Current Compressor B2 Modulating Cooling
Signal
B1 Condenser Signal
B1Cndr AI: 432 Current B1 Condenser Signal
B2 Condenser Signal
B2Cndr AI: 433 Current B2 Condenser Signal
B1 Suction Pressure
B1SucPr AI: 434 Current Compressor B1 Suction Pressure
B2 Suction Pressure
B2SucPr AI: 435 Current Compressor B2 Suction Pressure
B1 Head Pressure
B1HdPr AI: 436 Current Compressor B1 Head Pressure
B2 Head Pressure
B2HdPr AI: 437 Current Compressor B2 Head Pressure
B1 Saturation Temperature
B1SauTp AI: 438 Current Compressor B1 Coil
Saturation Temperature
B2 Saturation Temperature
B2SauTp AI: 439 Current Compressor B2 Coil
Saturation Temperature
B1 Suction Line
Temperature
B1SucTp AI: 440 Current Compressor B1 Suction Line Temperature
B2 Suction Line
Temperature
B2SucTp AI: 441 Current Compressor B2 Suction Line Temperature
B1 Condenser Suction Temp (Heat Pump)
B1CondST AI: 266 Current Compressor B1 Suction Line Temperature (Heat Pump)
B2 Condenser Suction Temp (Heat Pump)
B2CondST AI: 267 Current Compressor B2 Suction Line Temperature(Heat Pump)
B1 Superheat Temperature
B1SupHt AI: 442 Current Compressor B1 Superheat Temperature
BACnet® Properties for the VCCX2 Controller Parameter Name Object Description Limits
B2 Superheat Temperature
B2SupHt AI: 443 Current Compressor B2 Superheat Temperature
Condenser B1 Superheat (Heat Pump)
B1CondSH AI: 268 Current Compressor B1 Superheat Temperature
(Heat Pump)
Condenser B2 Superheat (Heat Pump)
B2CondSH AI: 269 Current Compressor B2 Superheat Temperature
(Heat Pump)
B1 Expansion Valve Position
B1ExpVv AI: 444 Current position of Compressor B1 Expansion Valve
B2 Expansion Valve Position
B2ExpVv AI: 445 Current position of Compressor B2 Expansion Valve
Condenser B1 Expansion Valve Position
B1CondEV AI: 380 Current position of Condenser B1
Expansion Valve
Condenser B2 Expansion Valve Position
B2CondEV AI: 381 Current position of Condenser B2
Expansion Valve
B1 Discharge Temperature
B1DscTp AI: 446 Current Compressor B1 Discharge Temperature
B2 Discharge Temperature
B2DscTp AI: 447 Current Compressor B2 Discharge Temperature
B1 Leaving Water Temp
BLevWtr AI: 448 Current B1 Leaving Water Temperature for
WSHP
C1 Compressor
Signal
C1Cmpr AI: 460 Current Compressor C1 Modulating Cooling
Signal
C2 Compressor
Signal
C2Cmpr AI: 461 Current Compressor C2 Modulating Cooling
Signal
C1 Condenser Signal
C1Cndr AI: 462 Current C1 Condenser Signal
C2 Condenser Signal
C2Cndr AI: 463 Current C2 Condenser Signal
C1 Suction Pressure
C1SucPr AI: 464 Current Compressor C1 Suction Pressure
C2 Suction Pressure
C2SucPr AI: 465 Current Compressor C2 Suction Pressure
C1 Head Pressure
C1HdPr AI: 466 Current Compressor C1 Head Pressure
C2 Head Pressure
C2HdPr AI: 467 Current Compressor C2 Head Pressure
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BACnet® Properties for the VCCX2 Controller Parameter Name Object Description Limits
C1 Saturation Temperature
C1SauTp AI: 468 Current Compressor C1 Coil Saturation
Temperature
C2 Saturation Temperature
C2SauTp AI: 469 Current Compressor C2 Coil Saturation
Temperature
C1 Suction Line
Temperature
C1SucTp AI: 470 Current Compressor C1 Suction Line Temperature
C2 Suction Line
Temperature
C2SucTp AI: 471 Current Compressor C2 Suction Line Temperature
C1 Condenser
Suction Temp (Heat Pump)
C1CondST AI: 382 Current Compressor C1 Suction Line Temperature (Heat Pump)
C2 Condenser
Suction Temp (Heat Pump)
C2CondST AI: 383 Current Compressor C2 Suction Line Temperature(Heat Pump)
C1 Superheat Temperature
C1SupHt AI: 472 Current Compressor C1 Superheat Temperature
C2 Superheat Temperature
C2SupHt AI: 473 Current Compressor C2 Superheat Temperature
Condenser C1 Superheat (Heat Pump)
C1CondSH AI: 385 Current Compressor C1 Superheat Temperature
(Heat Pump)
Condenser C2 Superheat (Heat Pump)
C2CondSH AI: 386 Current Compressor C2 Superheat Temperature
(Heat Pump)
C1 Expansion
Valve Position
C1ExpVv AI: 474 Current position of Compressor C1 Expansion Valve
C2 Expansion
Valve Position
C2ExpVv AI: 475 Current position of Compressor C2 Expansion Valve
Condenser C1
Expansion Valve
Position
C1CondEV AI: 387 Current position of Condenser C1
Expansion Valve
Condenser C2
Expansion Valve
Position
C2CondEV AI: 388 Current position of Condenser C2
Expansion Valve
C1 Discharge Temperature
C1DscTp AI: 476 Current Compressor C1 Discharge Temperature
BACnet® Properties for the VCCX2 Controller Parameter Name Object Description Limits
C2 Discharge Temperature
C2DscTp AI: 477 Current Compressor C2 Discharge Temperature
C1 Leaving Water Temp
CLevWtr AI: 478 Current C1 Leaving Water Temperature for
WSHP
D1 Compressor
Signal
D1Cmpr AI: 200 Current Compressor D1 Modulating Cooling
Signal
D2 Compressor
Signal
D2Cmpr AI: 201 Current Compressor D2 Modulating Cooling
Signal
D1 Condens-er Signal
D1Cndr AI: 202 Current D1 Condenser Signal
D2 Condens-er Signal
D2Cndr AI: 203 Current D2 Condenser Signal
D1 Suction Pressure
D1SucPr AI: 204 CurrentCompressor D1 Suction Pressure
D2 Suction Pressure
D2SucPr AI: 205 Current Compressor D2 Suction Pressure
D1 Head Pressure
D1HdPr AI: 206 Current Compressor D1 Head Pressure
D2 Head Pressure
D2HdPr AI: 207 Current Compressor D2 Head Pressure
D1 Saturation Temperature
D1SauTp AI: 208 Current Compressor D1 Coil Saturation
Temperature
D2 Saturation Temperature
D2SauTp AI: 209 Current Compressor D2 Coil Saturation
Temperature
D1 Suction Line
Temperature
D1SucTp AI: 210 Current Compressor D1 Suction Line Temperature
D2 Suction Line
Temperature
D2SucTp AI: 211 Current Compressor D2 Suction Line Temperature
D1 Condenser
Suction Temp (Heat Pump)
D1CondST AI: 389 Current Compressor D1 Suction Line Temperature (Heat Pump)
D2 Condenser
Suction Temp (Heat Pump)
D2CondST AI: 390 Current Compressor D2 Suction Line Temperature(Heat Pump)
D1 Superheat Temperature
D1SupHt AI: 212 Current Compressor D1 Superheat Temperature
7.1 VCCX2 BACnet® Parameters
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BACnet® Properties for the VCCX2 Controller Parameter Name Object Description Limits
D2 Superheat Temperature
D2SupHt AI: 213 Current Compressor D2 Superheat Temperature
Condenser D1 Superheat (Heat Pump)
D1CondSH AI: 391 Current Compressor D1 Superheat Temperature
(Heat Pump)
Condenser D2 Superheat (Heat Pump)
D2CondSH AI: 392 Current Compressor D2 Superheat Temperature
(Heat Pump)
D1 Expansion
Valve Position
D1ExpVv AI: 214 Current position of Compressor D1 Expansion Valve
D2 Expansion
Valve Position
D2ExpVv AI: 215 Current position of Compressor D2 Expansion Valve
Condenser D1
Expansion Valve
Position
D1CondEV AI: 393 Current position of Condenser D1
Expansion Valve
Condenser D2
Expansion Valve
Position
D2CondEV AI: 394 Current position of Condenser D2
Expansion Valve
D1 Discharge Temperature
D1DscTp AI: 216 Current Compressor D1 Discharge Temperature
D2 Discharge Temperature
D2DscTp AI: 217 Current Compressor D2 Discharge Temperature
D1 Leaving Water Temp
DLevWtr AI: 218 Current D1 Leaving Water Temperature for
WSHP
Alarm Status AlmSts AI: 1 Indicates an alarm condition.
0 = No Alarms
1 = Alarm(s)
Present
Outdoor Enthalpy
AI: 145 Current Outdoor Enthalpy
Plenum Pressure
AI: 146 Reserved
Return Fan Speed
AI: 147 Reserved
Plenum Calculated Setpoint
AI: 148 Reserved
Return Air Enthalpy
Status
AI: 149 Current value of Return Air Enthalpy.
7.1 VCCX2 BACnet® Parameters
BACnet® Properties for the VCCX2 Controller Parameter Name Object Description Limits
Occupied Cooling Setpoint
OcpClSt AV: 42 If the control tem-perature rises one deadband above this setpoint, the control will acti-vate the cooling demand. This setpoint does not determine
the mode in Oc-cupied operation
if the unit is configured for
Supply Air Cool-ing or Supply Air
Tempering.
1°F -17.2°C
110°F 43.3°C
Occupied Heating Setpoint
OcpHtSt AV: 43 If the control temperature drops
one deadband below this set-
point, the control will activate the heating demand.
This setpoint does not determine
the mode in Oc-cupied operation
if the unit is configured for
Supply Air Cooling or Supply Air Tempering.
1°F -17.2°C
110°F 43.3°C
Hood On Cooling Setpoint
OaClSt AV: 45 This is the Cool-ing Mode Enable
Setpoint used only in Hood On Mode or Space
Temperature Control of High
Percentage Outdoor Air Units
or VAV Tempering.
1°F -17.2°C
110°F 43.3°C
Hood On Heating Setpoint
OaHtSt AV: 46 This is the Heat-ing Mode Enable
Setpoint used only in Hood On Mode or Space
Temperature Control of High
Percentage Outdoor Air Units
or VAV Tempering.
1°F -17.2°C
110°F 43.3°C
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7.1 VCCX2 BACnet® Parameters
BACnet® Properties for the VCCX2 Controller Parameter Name Object Description LimitsUnoccupied
Cooling Offset
UnClOst AV: 124 During the Unoc-cupied Mode of Operation, this Setpoint offsets the Occupied
Cooling Setpoint up by this
user-adjustable amount. If you do not want Cooling to operate during the Unoccupied Mode, use the default setting of 30°F for this
setpoint.
0°F 0°C
30°F 16.6°C
Unoccupied Heating Offset
UnHtOst AV:125 During the Unoc-cupied Mode of Operation, this Setpoint offsets the Occupied
Heating Setpoint down by this
user-adjustable amount. If you do
not want Heating to oper-
ate during the Un-occupied Mode, use the default setting of 30°F
for this setpoint.
0°F 0°C
30°F 16.6°C
Mode Select
Deadband
MdSelDb AV: 339 This value is added to and
subtracted from the HVAC Mode
Setpoints to create a control deadband range.
0°F 0°C
10°F 5.5°C
Max Coil Setpoint
Reset Limit
HiClTpSt AV: 160 This is the highest that the Coil Tem-perature will be reset to during
Space Humidity Reset of the Coil
Suction Temperature
Setpoint. If no coil temperature reset is required, this value should be set the same as the Min Coil
Reset Limit.
35°F 1.7°C
70°F 21.1°C
BACnet® Properties for the VCCX2 Controller Parameter Name Object Description Limits
Min Coil Setpoint
Reset Limit
LoClTpSt AV: 163 This is the lowest that the Coil Tem-perature will be reset to during
Space Humidity Reset of the Coil Suction Tempera-ture Setpoint. If
no coil temperature reset is required, this value should be set the same as the Max Coil Reset Limit.
35°F 1.7°C
70°F 21.1°C
Supply Air Cooling
Setpoint
SaClSt AV: 77 Supply Air Cool-ing
Setpoint. If Sup-ply Air Reset is configured this is the Low SAT Cooling Reset
Value.
30°F -1.1°C
80°F 26.6°C
Supply Air Heating
Setpoint
SaHtSt AV: 78 Supply Air Heat-ing
Setpoint. If Sup-ply Air Reset is configured this is the Low SAT Heating Reset
Value.
40°F 4.5°C
240°F 115.5°C
Max SAT Cooling Setpoint
Reset Limit
SaClRt AV: 324 If Supply Air Reset is
configured this is the High SAT Cooling Reset
Value.
0°F -17.7°C
100°F 37.7°C
Max SAT Heating Setpoint
Reset Limit
SaHtRt AV: 325 If Supply Air Re-set is configured this is the High SAT Heating Reset Value.
0°F -17.7°C
250°F 121.1°C
Supply Air Cooling Staging Window
SaClSgWd AV: 166 In Cooling Mode, if the Supply
Air Temperature drops below the
Active Supply Air Cooling Setpoint minus this Stag-ing Window, a Cooling Stage will be deacti-vated after its Minimum Run
Time.
1°F 0.6°C
30°F 16.6°C
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BACnet® Properties for the VCCX2 Controller Parameter Name Object Description LimitsMechanical
Cooling Outdoor Air
Lockout
ClLkOut AV: 172 Mechanical Cool-ing will be locked out when the Out-door Air Tempera-ture is below this
Setpoint.
-30°F -34.4°C
100°F 37.7°C
Mechanical Heating
Outdoor Air Lockout
HtLkOut AV: 173 Mechanical Heat-ing will be locked out when the Out-door Air Tempera-ture is above this
Setpoint.
-30°F -34.4°C
150°F 65.5°C
Low Supply Temp Cut-off Alarm
LoSaC-uOf
AV: 344 Cooling will be disabled if the Sup-
ply Air Temperature falls below this value. See sequence for
more details.
0°F -17.7°C
100°F 37.7°C
High Sup-ply Temp
Cutoff Alarm
HiSaC-uOf
AV: 345 Heating will be disabled if the Sup-
ply Air Temperature rises above this value. See sequence for
more details.
0°F -17.7°C
250°F 121.1°C
Preheater Cooling Mode
Setpoint
PrHtClSt AV: 174 If the Preheater is enabled, and the
unit is in the Cool-ing Mode, this setpoint will be
sent to the Preheat-X Controller to
control Leaving Air Temperature.
35°F -17.7°C
90°F 32.2°C
Preheater Venting Mode
Setpoint
PrHtVtSt AV: 176 If the Preheater is enabled, and the
unit is in the Vent Mode, this setpoint will be sent to the
Preheat-X Control-ler to control Leav-
ing Air Temperature.
35°F -17.7°C
90°F 32.2°C
Preheater Heating Mode
Setpoint
PrHtHtSt AV: 177 If the Preheater is enabled, and the
unit is in the Heat-ing Mode, this setpoint will be
sent to the Preheat-X Controller to
control Leaving Air Temperature.
35°F -17.7°C
90°F 32.2°C
BACnet® Properties for the VCCX2 Controller Parameter Name Object Description LimitsSupply Air
Heating Staging Window
SaHtSgWd AV: 167 In Heating Mode, if the Supply Air Temperature rises above the Active
Supply Air Heating Setpoint plus this Staging Window, a Heat-ing Stage will be deactivated after its Minimum Run
Time.
1°F 0.6°C
50°F 27.7°C
Warm-Up Target
Tempera-ture
(See AV: 336 for
Cool-Down Target Tem-
perature)
WmupSt AV: 91 If Morning Warm-Up is
configured, then upon entering oc-cupied mode, the Warm-Up Mode will be activated
if the Return Air is below this temperature by
one degree.
50°F 10°C
90°F 32.2°C
Warm-Up Mode
Supply Air Setpoint
WmupSaSt AV: 168 During Morning Warm-Up, the
Supply Air Temperature will be controlled to this Setpoint.
40°F 4.5°C
240°F 115.5°C
Cool-Down Mode
Supply Air Setpoint
ClDnSaSp AV: 171 During Morning Cool-Down, the
Supply Air Temperature will be controlled to this Setpoint.
30°F -1.1°C
80°F 26.6°C
Mechanical Cooling
Outdoor Air Lockout
ClLkOut AV: 172 Mechanical Cool-ing will be locked
out when the Outdoor Air Tem-perature is below
this Setpoint.
-30°F -34.4°C
100°F 37.7°C
Mechanical Heating
Outdoor Air Lockout
HtLkOut AV: 173 Mechanical Heat-ing will be locked
out when the Outdoor Air Tem-perature is above
this Setpoint.
-30°F -34.4°C
150°F 65.5°C
7.1 VCCX2 BACnet® Parameters
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Zone7. PARAMETER TABLES
PT-LInk II BACnet4 Technical Guide38
7.1 VCCX2 BACnet® Parameters
BACnet® Properties for the VCCX2 Controller Parameter Name Object Description LimitsOutdoor Air Dewpoint Setpoint
DptSt AV: 13 On an MUA unit, if the OA dewpoint
rises above this setpoint,
Dehumidification is initiated.
35°F 1.7°C
80°F 26.6°C
Economizer Enable
Setpoint
EcoEnbl AV: 283 The economizer is enabled if the outdoor drybulb, dewpoint, or wet-bulb temperature falls below this
setpoint.
-30°F -34.4°C
80°F 26.6°C
Heat Wheel Defrost Enable
Setpoint
HtWh-Defr
AV: 178 The unit will go into Heat Wheel
Defrost if the Out-door Air is below
this setpoint.
0°F -17.7°C
50°F 10°C
PreHeat Enable
Setpoint
PreHtSp AV: 196 If the Supply Fan is energized this is the temperature at which the Preheat Relay will activate or the Preheat-X Controller will
activate. Operates only in the
Occupied Mode.
-30°F -34.4°C
70°F 21.1°C
Sensor Slide Offset Max
Effect
MaxSldEf AV: 179 If your space sen-sor has the optional
slide adjustment feature,
this is the maxi-mum amount the
slide can adjust the current heating and cooling setpoints up or down with full deflection of
the slide.
0°F 0°C
10°F 5.5°C
Space Sen-sor Calibra-tion Offset
SpcTpOst AV: 71 If the Space Tem-perature
Sensor is reading incorrectly, you
can use this option to enter an offset temperature to
adjust the Sensor’s Temperature.
-100°F -55.5°C
100°F 55.5°C
Supply Air Sensor
Calibration Offset
SaTpOst AV: 80 If the Supply Air Temperature Sen-
sor is reading incorrectly,
you can use this option to enter an offset temperature to adjust the Sen-
sor’s Temperature.
-100°F -55.5°C
100°F 55.5°C
BACnet® Properties for the VCCX2 Controller Parameter Name Object Description LimitsReturn Air
Sensor Calibration
Offset
RaTpOst AV: 65 If the Return Temperature Sen-
sor is reading incorrectly,
you can use this option to enter an offset temperature to adjust the Sen-
sor’s Temperature.
-100°F -55.5°C
100°F 55.5°C
Outdoor Air Sensor
Calibration Offset
OaTpOst AV: 53 If the Outdoor Temperature
Sensor is reading incorrectly, you can
use this option to enter an offset tem-perature to adjust
the Sensor’s Temperature.
-100°F-55.5°C
100°F 55.5°C
Carbon Dioxide Sensor
Calibration Offset
CO2Ost AV: 348 If the CO2 Sen-sor is
reading incorrectly, you can use this option to enter
an offset value to adjust the Sensor’s
CO2 reading.
-500 500
Low Ambient
Protection Setpoint
LWAmbnt AV: 285 Temperature at which the Low Ambient Relay
will activate in the Occupied or Unoc-
cupied Mode.
-30°F -34.4°C
70°F 21.1°C
SAT Cool Setpoint Re-set Source Low Limit
LoClRsSr AV: 164 If doing Supply Air Setpoint Reset, this
is the Low Reset Source value in
Cooling that will correspond to the Supply Air
Cool High Reset Setpoint.
-30°F -34.4°C
150°F 65.5°C
SAT Cool Setpoint Re-set Source High Limit
HiClRsSr AV: 161 If doing Supply Air Setpoint Reset, this is the High Reset Source value in
Cooling that will correspond to the
Supply Air Cooling Setpoint (Low
Reset).
0°F -17.7°C
150°F 65.5°C
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BACnet® Properties for the VCCX2 Controller Param-
eterName Object Description Limits
SAT Heat Setpoint
Reset Source
Low Limit
LoHtRsSr AV: 165 If doing Supply Air Setpoint
Reset, this is the Low Reset Source value in Heating
that will correspond to the Supply Air Heat-ing High Reset
Setpoint.
-30°F -34.4°C
150°F 65.5°C
SAT Heat Setpoint
Reset Source
High Limit
HiHtRsSr AV: 162 If doing Supply Air Setpoint Reset, this is
the High Reset Source value in Heating that will correspond to the Supply Air Heat-ing Setpoint (Low
Reset).
0°F -17.7°C
150°F 65.5°C
Control Tempera-ture High
Alarm Offset
CTpHiAlO AV: 169 If the temperature of the controlling sensor rises above
the Occupied Cooling Setpoint
by this value, a High Control
Temp Alarm will occur. Only ap-
plies if configured for Space or
Return Air Temp Control, or as
Single Zone VAV.
0°F 0°C
50°F 27.7°C
Control Tempera-ture Low
Alarm Offset
CTpLoAlO AV: 170 If the temperature of the controlling sensor falls below
the Occupied Heating Setpoint
by this value, a Low Control
Temp Alarm will occur. Only ap-
plies if configured for Space or
Return Air Temp Control, or as
Single Zone VAV.
0°F 0°C
50°F 27.7°C
Heat Pump Compres-sor Heat Lockout
HpLkt AV: 351 Compressor Heat will be locked out below this
setpoint.
-30°F -34.4°C
100°F 37.7°C
Maximum Main Fan VFD in SZ VAV Heating Mode
MaxVfd AV: 180 In Single Zone VAV configura-tion, this is the max fan speed the VFD can
modulate up to in Heat Mode.
0 100
7.1 VCCX2 BACnet® Parameters
BACnet® Properties for the VCCX2 Controller Param-
eterName Object Description Limits
Minimum Main Fan VFD in Cooling Mode
VFDClMin AV: 319 In Single Zone VAV configura-tion, this is the
fan speed at which the VFD will start when Cooling is initi-ated. In a VAV
configuration this is the lowest fan speed allowed in the Cooling Mode. In CAV
and MUA configurations
this should be set to 100%.
0 100
Minimum Main Fan VFD in Heating Mode
VFDHtMin AV: 320 In Single Zone VAV configura-tion, this is the
fan speed at which the VFD will start when Heating is initi-ated. In a VAV
configuration this is the lowest fan speed allowed in the Heating Mode. In CAV and MUA con-figurations this should be set to
100%.
0 100
Minimum Main Fan VFD in
Vent Mode
VFDVtMin AV: 322 Speed at which the VFD will op-erate