verasys system user’s guidecgproducts.johnsoncontrols.com/met_pdf/12012371.pdfconnecting to the...

Verasys System User’s Guide

LIT-12012371Johnson Controlswww.johnsoncontrols.com2019-06-04

ContentsContentsIntroduction to Verasys................................................................................................................... 5

Features and benefits...................................................................................................................... 5

Related documentation................................................................................................................... 6

How to use this document.............................................................................................................. 6

Connecting to the SBH..........................................................................................................................6

Facility......................................................................................................................................................7

HVAC view.................................................................................................................................... 7

Lighting view................................................................................................................................8

Refrigeration view.......................................................................................................................8

Changing the name of a facility................................................................................................ 8

Devices.................................................................................................................................................... 9

Editing device details..................................................................................................................9

Removing offline devices........................................................................................................... 9

Graphics.................................................................................................................................................. 9

Editing graphics on a SMART device.........................................................................................9

Data share............................................................................................................................................ 10

Interlocks.............................................................................................................................................. 12

Configuring Verasys IOM interlocks.......................................................................................12

Verasys schedules................................................................................................................................13

Configuring a schedule............................................................................................................ 13

Setting exceptions.....................................................................................................................13

Settings................................................................................................................................................. 14

Wi-Fi access point......................................................................................................................14

Backup........................................................................................................................................ 14

Restore....................................................................................................................................... 15

Ethernet......................................................................................................................................15

Load shedding...........................................................................................................................17

Global shutdown....................................................................................................................... 17

System settings......................................................................................................................... 18

Verasys Enterprise.................................................................................................................... 18

BACnet routing.......................................................................................................................... 18

Broadcast management...........................................................................................................19

SSL...............................................................................................................................................19

Alarm notifications....................................................................................................................19

Chain of trust.............................................................................................................................20

Self-signed certificates and certificates signed by a public certificate authority..............20

Public and private keys.............................................................................................................21

Using Google as an SMTP host............................................................................................... 21

Software updates...................................................................................................................... 21

Administration...........................................................................................................................22

Audit log..................................................................................................................................... 23

Custom logo...............................................................................................................................23

Diagnostics.................................................................................................................................24

System setup...................................................................................................................................24

VAV system setup procedures........................................................................................................... 24

Planning the zone bus layout..................................................................................................24

Mounting and wiring................................................................................................................24

Configuring a Smart Equipment unit for VAV system using the SBH.................................25

Configuring a VEC using the SBH........................................................................................... 25

VAV controller zone setup procedures............................................................................................. 26

Configuring a VAV controller for a VAV system (ZEC410) for temperatureand flow control........................................................................................................................ 26

COBP system setup procedures........................................................................................................ 29

Planning the zone bus layout..................................................................................................29

Mounting and wiring................................................................................................................29

Configuring a COBP zone damper (BYP200) for flow control............................................. 30

Configuring a Smart Equipment unit for COBP control using the SBH............................. 30

Verasys System User’s Guideii

Configuring a VEC for COBP using the SBH.......................................................................... 31

Configuring a change-over bypass zone damper (BYP200) for flow control.................... 31

COBP zone setup procedures............................................................................................................ 32

Configuring a COBP zone damper (ZEC310) for temperature and flow control...............32

Configuring a VAV controller for a COBP system (ZEC410) for temperatureand flow control........................................................................................................................ 34

ZEC firmware download......................................................................................................................36

Upgrading the firmware.......................................................................................................... 37

Upgrading from a v3.2 coordinator build to a v3.2 or newer build....................................37

Verasys IOM......................................................................................................................................... 37

Configuring an IOM (LC-VAC1002-0)...................................................................................... 38

Appendix A - JCI-manufactured VAV box characteristics...........................................................39

Appendix B: Objects and parameters..........................................................................................40

Points of single contact............................................................................................................... 111

iiiVerasys System User’s Guide

Introduction to Verasys®The Verasys® system provides bundled equipment and controls solutions that are well-proven.Verasys is a plug and play solution that is part of the Johnson Controls® SMART Systems. TheVerasys system features both simple, configurable controllers and HVACR equipment from thefactory or installed in the field. You can use Verasys to configure many HVACR controls applicationsfor one building or an entire enterprise comprised of multiple buildings, without using specialprogramming tools or control engineering.

Verasys has a key role in the Internet of Things (IoT) ecosystem in the light commercial market.The technology is based on the SMART equipment technology and uses the core assets of JohnsonControls Metasys® product lines. You can use Verasys to create installation use cases that providestandard feature sets for the light commercial space.This document describes how to configure the Verasys system for operation.

Features and benefitsPlug and play:

Provides access to all identifiable and supported devices connected to the field bus withoutthe need for any tool.

Remote access:

You can access device information through any supported web browser using a secureconnection and access level.

Alarm notifications:

When you are connected to the Internet, you can configure email alerts for alarms.

Facility view:

Facility view provides a quick overview of each facility and can intuitively change thefacilities’ working conditions.

Data share:

Facilitates the sharing of meaningful data between smart system components.

Advanced features:

You can view alarms, events, trends. You can also view export trends into CSV file format,modify schedules, and commission devices.

Schedule sync:

You can view the synchronized schedules between different smart system components andaccess them for monitoring and editing from a single view.

5Verasys System User’s Guide

Home screen with graphics:

You can view high-level information about the device under this feature. It provides keyinformation about the controlled device for normal operation. Also, certain devices underthe Verasys ecosystem provide a graphical display of the HVAC equipment.

Related documentationTable 1 describes the Verasys documentation.Table 1: Verasys documentation

For informationabout See document LIT or Part No.Smart Building Hubsetup procedures

Smart Building Hub Installation Instructions Part No. 24-10737-00237

Smart Building Hubfeatures and benefits

Verasys® System Product Bulletin LIT-12012342

ZEC310 Zone and BYP200 Bypass DamperControllers Installation Instructions

Part No. 24-10143-1248

Verasys Equipment Controller (VEC) InstallationInstructions

Part No. 24-10143-1272

ZEC410 VAV Controller Installation Instructions Part No. 24-10143-1264Input/Output Module (IOM) InstallationInstructions LC-IOM100-0

Part No. 24-10143-1256

Verasys ZEC510 VAV Installation Instructions Part No. 24-10143-01760Verasys 18 point 240V Application ControllerInstallation Instructions

Part No. 24-10143-01507

Verasys 32 point 24V Application ControllerInstallation Instructions LC-VAC300x-0

Part No. 24-10143-01515

Verasys 18 point 24V Application ControllerInstallation Instructions LC-VAC100x-0

Part No. 24-10143-01477

Installing Verasyscontrollers

Verasys Input/Output Module InstallationInstructions LC-IOM3711

Part No. 24-10143-01736

How to use this documentThis document explains the setup process for the Smart Building Hub (SBH) and all of the Verasyscontrollers. The sections that follow the SBH setup are tailored to the specific controllers in theVerasys system. Use these sections as quick start guides for setting up your systems.

Connecting to the SBHThe information in the following task supports the information from the Verasys® Smart BuildingHub Quick Start Guide (Part No. 24-10737-00245). The default login credentials for each SBH are inthe quick start guide that ships with each device. Use your SBH through your Wi-Fi network. If youconnect your SBH to an Ethernet network, see the Ethernet section.To connect to the SBH for the first time, complete the following steps:

1. Use the supplied field bus adapter to connect the RS-485 port on the SBH to the field bus porton the equipment controller.

Verasys System User’s Guide6

2. Insert the provided WLAN USB adapter into either USB port on the SBH200. The flashing LEDsindicate that the device is initializing. The SBH is ready for use when the FAULT LED turns Offand the Wi-Fi AP flashes.

3. Use your default credentials to connect the SBH to your Wi-Fi network.These credentials areincluded on a sticker in the Smart Building Hub Quick Start Guide (Part No. 24-10737-00245).

4. In your browser, navigate to the following URL: www.smartbuildinghub.com to open the SBHinterface.

Note: The SBH ships with a private Smartbuildinghub.com SSL certificate pre-installed toensure secure communication. However, this certificate does not indicate that it is trustedin a browser. If you want to install your own certificate, refer to Public and private keys.

5. Read and accept the SBH license agreement. The Change Password and Passphrase pageappears.

6. Change the Admin password and Wi-Fi passphrase. Click Save.Note: For information on how to reset your password refer to the Smart Building HubInstallation Instructions (Part No. 24-10737-113).

FacilityFacility is the first screen that appears when you log in to an SBH. The Facility home page displaysthe devices that are directly serving tenant areas. The Facility feature provides an enhancement tothe previous Spaces view and includes HVAC, lighting, and refrigeration devices. It also provides asummary of the current system status and enables changes to setpoints and modes.On the Facility view, the devices are categorized into three tabs at the top of the screen:

• HVAC

• Lighting

• Refrigeration

These tabs dynamically populate depending on the type of equipment connected to the SBH.

HVAC viewThe Facility view for HVAC has four or five columns, depending on what controllers are connectedto the network. The name of the space appears in the first column, beside the + symbol. The spacenames come from the device that controls a particular space.The second column contains information about the space temperature. The color of the textdepends on the space status.The third column displays the space status. The Status column displays as one of the followingparameters:

• HEATING

• COOLING

• SATISFIED

• FAULT

• UNAVAILABLE

• SYSTEM OFF


http://www.smartbuildinghub.com

The fourth column displays the space occupancy status, either Occupied or Unoccupied.The optional fifth column appears on devices with energy indicator setbacks. An extra option toreset the setpoints back to energy efficient default values appears if the controllers on the networkprovides it.If you select the + symbol, the Facility view expands to a simplified graphical user interface. Thecurrent temperature and status of the space change colors depending on the status of the facility.The setpoints that the space controls appear below the circle. You can use the up and down arrowsto adjust the actual setpoint. You can use the unit enable button to shut down or enable the unit. Allother parameters are read-only.In the bottom right corner, a link to the equipment associated to the space appears. Select the linkto gain access to the Equipment details page. With the appropriate access rights, you can click theEquipment shortcut to adjust other parameters. In addition to the equipment link, there are iconsthat directly take you to the alarms, schedules, or trends of that device.

Note: Access rights are granted to you when you sign in using your password.

Lighting viewThe facility view for lighting has two columns. The first column displays the name of the lightingzone beside the + symbol. An admin or technical user can define the zone name in the menu of thelighting controller.The second column displays the status of the zone.If you select the + symbol, the Facility view expands to a simplified graphical user interface. A largelightbulb icon shows the current status. If the lights are off, you can turn them on and adjust howlong they must be on. Additionally, you can directly access the lighting device and its associatedschedule.

Refrigeration viewThe Facility view for refrigeration has four columns. The first column displays the name of thecooler beside the + symbol. The cooler names come from the device that controls a particularspace.The second column contains information about the cooler temperature.The third column displays the refrigeration status. The Refrigeration column displays as either onor off depending on if the compressor is energized.The fourth column displays the defrost status. The defrost status displays as either on or off.If you select the + symbol, the Facility view expands to a simplified graphical user interface. Thesetpoint that the cooler controls to appears below the circle. Use the up and down arrows to adjustthe setpoint.In the bottom right corner, a link to the equipment associated to the cooler appears. Select the linkto gain access to the Equipment details page. With the appropriate access rights, you can click theEquipment shortcut to adjust other parameters. In addition to the equipment link, there is an iconthat directly takes you to the alarm page of the device.

Changing the name of a facilityYou can change the name of a facility to the name of the building or site it controls. This nameappears in the place of Facility in the SBH menu structure. To change the name, complete thefollowing steps:

1. Navigate to Settings and select Alarm Notifications.

2. Navigate to the Site Name field and change the name.

3. Click Save.


DevicesThe DEVICES tab on the navigation tree provides a list of all the online and offline Verasys devices.The system organizes the devices based on the bus connection type. The system bus addressappears in a solid blue box on the right followed by the device name, device description, and status.To view the devices, complete the following steps:

1. In the navigation tree, click the Devices tab. The system scans all the devices on the systembus and creates a list of all the online devices.

2. Click a specific device to explore the parameters. The first selection in all devices is the homescreen. The home screen consists of a graphic section and status section. The Status sectioncontains information about current system conditions. For more information about thegraphics, see the Graphics section in this document.

3. Click the Devices tab to return to the main Devices screen.

Editing device detailsComplete the following steps on the DEVICES screen to edit device names and descriptions:

1. Click Edit Device Details.

2. Edit the device names and descriptions. Both the name and description have a 30-characterlimit.

3. Click Save Device Details.

Removing offline devicesTo remove offline devices, navigate to the DEVICES screen and at the bottom right of the screen,click Remove Offline Devices.

GraphicsYou can use the SBH to associate simple graphics on a device by device basis. SMART Equipmentdevices such as TEC3000 Thermostats, zone controllers, and SMART rooftop controllers comepreloaded with a standard graphic image. All devices can display a user-uploaded graphic whichyou can use to upload images of equipment, floor plans, and more.

Editing graphics on a SMART deviceTo edit standard graphics on a SMART Device, complete the following steps:

1. Click Devices.

2. Select the device that you want to change the graphics on.

3. To change the graphic, select the Change Graphic button on the devices homepage.

4. On the Change graphics home page, navigate to Uploaded Images.

5. Choose an existing image or select the Upload button to upload your own graphic. The graphicmust be under 15 megapixels and less than 10 MB.

6. Click Apply.


Data shareYou can use the data share feature to share the value of a point from the list of shareable pointsfrom one device to other devices. The data selection defines what object or parameter is availablefor sharing to controllers with similar objects. The source selection sets which controller is thesource. The destination selection sets the controller that receives the data.Outdoor Air Temperature (OAT) is an example of data share. Instead of installing a physical sensoron every unit, you can connect a single OAT sensor and share the value to all other equipment.Occupied setpoints are another example. Set one device as the source and all other devices as thedestination. You can simply change the setpoints on one device and share to all others.

Note: When you share the occupied cooling setpoint and unoccupied heating and coolingsetpoints, the RTU becomes the master controller for the space. The fan coil unit setpointsmatch up to the master RTU. Verasys sends the source data values to the destinationcontrollers when the value of the data changes. If a destination controller goes offline andthen comes back online, the data share function sends the latest value to that controller.

To configure data share, complete the following steps:

1. Click the Data Share tab.

2. Click the Add Data Share button.

3. In the Data drop-down list, select an object or parameter.

4. In the Source drop-down list, select the controller that you want to define as the source.

5. In the Destination drop-down list, select the controllers with which you want to share the data.

Table 2 lists the shareable data points.

Table 2: Shareable data points

Controllers Data in Data outHumidity Setpoint Humidity SetpointIndoor Air Quality Indoor Air QualityOccupied Cooling Setpoint Occupied Cooling SetpointOccupied Heating Setpoint Occupied Heating SetpointOutdoor Air Temperature Outdoor Air HumidityStandby Cooling Setpoint Outdoor Air TemperatureStandby Heating Setpoint Standby Cooling SetpointUnoccupied Cooling Setpoint Standby Heating SetpointUnoccupied Heating Setpoint Unoccupied Cooling Setpoint

Unoccupied Heating SetpointWarm/Cool Adjust

Smart EquipmentRooftop Unit, SE-SPU100xx-1

Zone/Space Temperature

Zone/Space TemperatureCommon Setpoint Common SetpointHumidity Setpoint Humidity SetpointOccupied Cooling Setpoint Occupied Cooling SetpointOccupied Heating Setpoint Occupied Heating SetpointOutdoor Air Temperature Outdoor Air Temperature

Terminal EquipmentController, SE-TEC3xxx-0

Standby Cooling Setpoint Return Air Humidity


Table 2: Shareable data points

Controllers Data in Data outStandby Heating Setpoint Standby Cooling SetpointUnoccupied Cooling Setpoint Standby Heating SetpointUnoccupied Heating Setpoint Unoccupied Cooling Setpoint

Unoccupied Heating SetpointWarm/Cool Adjust

Zone/Space Temperature

Zone/Space TemperatureIndoor Air QualityOutdoor Air HumidityOutdoor Air Temperature

Verasys GenericIO Controller, LC-VAC1002-0

NONE

Zone/Space TemperatureHumidity Setpoint Humidity SetpointOutdoor Air Temperature Indoor Air QualityStandby Cooling Setpoint Outdoor Air HumidityStandby Heating Setpoint Outdoor Air TemperatureUnoccupied Cooling Setpoint Standby Cooling SetpointUnoccupied Heating Setpoint Standby Heating Setpoint

Unoccupied Cooling SetpointUnoccupied Heating SetpointZone Temperature Setpoint

Verasys ConstantVolume Application,LC-VAC1000-0, LC-VAC3000-0

Zone Temperature Setpoint

Zone/Space TemperatureOccupied Cooling Setpoint Indoor Air QualityOccupied Heating Setpoint Occupied Cooling SetpointStandby Cooling Setpoint Occupied Heating SetpointStandby Heating Setpoint Standby Cooling SetpointUnoccupied Cooling Setpoint Standby Heating SetpointUnoccupied Heating Setpoint Unoccupied Cooling SetpointWarmer/Cooler Adjust Unoccupied Heating Setpoint

Warmer/Cooler Adjust

VAV Box Controller,LC-ZEC410-0, LC-ZEC510-0, LC-ZEC310-0

Zone TemperatureZone Temperature

Fan Mode Fan ModeHeat Cool Mode Heat Cool ModeIndoor Air Quality Indoor Air QualityOutdoor Air Temperature Outdoor Air TemperatureStandby Cooling Setpoint Standby Cooling SetpointStandby Heating Setpoint Standby Heating SetpointUnit Enable Unit EnableUnoccupied Cooling Setpoint Unoccupied Cooling SetpointUnoccupied Heating Setpoint Unoccupied Heating Setpoint

Advanced TerminalUnit Controller, LC-ATC1xxx-0

Zone/Space Temperature Zone/Space Temperature


InterlocksThrough the interlocks feature, the Verasys control system can create and execute simple logicalautomation functions. The interlocks feature can also interface entitled devices with externaldevices and equipment through physical connections. For example, you can connect the VAC withthe generic IOM application.

Configuring Verasys IOM interlocks

Introduction to interlocksInterlocks use simple logic to bring conditions together within a system. An example of a simpleinterlock is the interaction between a lighting switch or sensor, and a lighting circuit. To applyan interlock, you must have a Verasys IOM device within the system. An input sensor, or aninput switch, such as a dry contact, identifies as a trigger point of the lighting action. The inputdetermines the action of either turning on or off the lights. All outputs must be wired to a VerasysIOM module for all interlock logic.You can use the interlock setup wizard to set up interlocks. You can configure interlock conditionson Verasys IOM Binary Output (BO), using the interlock set-up.Interlocks can contain one condition or two conditions. In two-condition interlocks, you can define alogical AND or a logical OR connection between the conditions. The system performs the interlockaction if both conditions are true (AND) or if one of the conditions is true (OR).Interlock configuration includes the following tasks:

• Configuring a one-condition interlock

• Configuring a two-condition interlock where both conditions must be true (AND), or eithercondition may be true (OR)

• Disabling an interlock

• Viewing IOM controller interlock summary

• Viewing IOM controller interlock details

Note: You must add interlock functions as a new entry. You must enable interlocking for thisfeature to function. You can disable a specific interlock from functioning at any time.

Adding a new interlock

1. From the main device list page, click Interlocks.

2. Click Add New Interlock.

3. In the ADD/EDIT INTERLOCK screen, enter the new interlock information.

4. Enter a unique name for the interlock. For example, OAT reset.

5. Use the optional Description field to include additional information about the Interlock. TheInterlock defaults to Enabled. You can modify or edit the interlock later.

Configuring a one-condition interlock

1. On the Interlock Condition area, from the Device drop-down list select the device that youwant to associate with the interlock to show all the points you can assign between the deviceand the interlock.

2. From the Points drop-down list, select the Point you want to associate with the interlock. Thisaction makes the point part of the Interlock logic.


3. From the Operator drop-down list, select the operator for the point.

4. Enter the value.

5. Enter the Differential +/- variance.

6. Under Input Conditions, select One Condition.

7. In the Interlock Action area, select the device and point on which you want to perform theinterlock action. You can configure an action when the interlock is true or false.

8. Click Save to enable the interlock.

Verasys schedulesYou can use the SBH to create and update system schedules. You can also use the SBH tosynchronize different devices on the network for all connected devices and equipment. The SmartEquipment devices, including the TEC3000 Thermostats, and Verasys Application Controllers,contain embedded schedules that you can synchronize from the SBH. The SBH supports unlimitedschedules in which you can assess and modify schedules hosted on remote devices.The SBH200 supports the creation of local On/Off and Occupied/Unoccupied types of schedules.These schedules are associated with objects hosted in devices that do not support the featurelocally. For example, devices such as the TUC and the ATC.

Configuring a schedule

1. Click Schedules. Click Add New Schedule.

2. Enter a new schedule name. The new schedule defaults to Enabled.

3. Select the schedule type through the drop down list. The available schedule types are On/Offor Occupied/Unoccupied.

4. Select the scheduled objects that you want to control with this time schedule. The list of objectsdepends on the connected devices and on the schedule type selected.

5. Click the clock icon to enter the schedule.Note:

- When you select individual sections, a time entry dialog box appears where you canselect specific times for each section.

- When you select the hours section of the dialog box, a screen appears whereyou can adjust the time. The time box converts the selected 24-hour clock to thestandard 12-hour time with AM and PM adjusted.

6. Click Save and the completed schedule appears.

Setting exceptionsAs part of the schedule functionality, you can set exceptions such as holidays, or any otherexceptions to a normal weekly schedule. To set an exception, complete the following steps:

1. Click SCHEDULES and select the schedule you want to add an exception to.

2. Click Add Exception.


3. Select the required dates for the exception. Once selected, the dates appear in the SelectedDates field.

4. Select the Add New Event button to configure the times you want the exceptions to operateon.

5. Click Save and the device returns to the Schedules page.

Settings

Wi-Fi access pointFrom the Settings tab, locate the Wi-Fi access point tab. You can change the Wi-Fi SSID name andthe connection passphrase. When you first log in, you are prompted to change the passphrase butnot the SSID name. The SSID name appears when you search for Wi-Fi connections and defaults toVerasys SBH.

BackupUsing the backup feature, you can save all the settings for the device into a file. You can back up anindividual device or all of the devices simultaneously. Backup is supported on all SMART Equipmentcontrollers. Table 3 shows controller backup version requirements.Table 3: Controller backup version requirements

Controller VersionVerasys ApplicationControllers

All versions

TEC3000 Thermostats 3.0.0.0128 and newer, wired2.0.0.1007 and newer, wireless

Simplicity SmartEquipment Rooftop

3.3.1.186 and newer

To back up a device, complete the following steps:

1. Navigate to the Settings tab, and click the Backup tab.

2. From the Select device for backup drop-down list, select the device that you want to backup.

3. Click Backup All.Note: During a backup procedure, a progress bar appears for all the devices includedin the backup. Successful backups appear with a completed progress bar at 100% and aClose button. When the backup fails, an error message appears and your backup does notappear in the list.

4. When the backup completes, close the progress bar. The system updates the time stamp andstores the file. You can also download individual files with the download icon. To remove thefile, click the trash can icon.

Use the check boxes on the left to select any, or all of the files to download one backup file forall the selected controllers. The file transfers to your download folder on Microsoft® Windows®operating system. You can also download individual files with the download icon. To remove a file,click the trash can icon.


RestoreUse the restore feature to restore the backed-up controller setting to the selected device. You canrestore an individual device or all of the devices. Restore is supported on Verasys Smart Equipmentcontrollers. See Table 2 for supported controller versions.To perform a restore procedure, complete the following steps:

1. Go to the Settings tab and click Restore.

2. Under Restore Devices, select the device from the drop down list.

3. Choose whether to restore from a file or the SBH.

4. If you choose to restore from a file, select the controller that you want to restore and thenselect the restore file. If the controller is within the download file, the Restore Settings pageappears.

5. Click Restore. The devices reboot after the restore procedures.

6. To select another backup file, navigate to Settings and select the Backup tab.Note: Devices reboot after restore procedures. If the device you selected is not in thedownload file, a circular icon appears. You can switch to the Backup tab and see whichdevices have associated backup files. When you restore from a file, the data overwrites thedata on the SBH.

7. To restore a backup from the files on the SBH, select the From SBH button and the device thatyou want to restore. If the device has a backup file on the SBH, the file appears and you canload it. If no file appears, return to the Backup tab and check that the device has an associatedbackup file.

EthernetThe Ethernet tab is located under the Settings section. Use the Ethernet tab to set up theconnections to an Ethernet network. Under this tab, you can set several parameters to customizethe device for your network. Table 4 describes each parameter.Table 4: Ethernet Tab

Field DescriptionEthernet Defaulted to Off. Set this to On when you want to connect to an Ethernet

network.Hostname The hostname is the name of the device as it appears on an Ethernet

network. For example, all computers have a computer name. Thecomputer name is the hostname for that device.

Domain Name Suffix If the network to which you are connecting uses a domain name, itappears here. Most networks leave this field blank.

Ethernet MACAddress

All devices that connect to an Ethernet network, hardwired or Wi-Fi, havea MAC Address for each connection.


Table 4: Ethernet Tab

Field DescriptionAuto DHCP Configure When set to On, the SBH tries to find the DHCP server and requests an

IP address. If the network is configured to automatically provide an IPaddress, the IP address, Subnet Mask, and Default Gateway appear.

If you set this to Off, then you need to enter the IP Address, SubnetMask, and Default Gateway manually. Ask the network administratorperson how to configure this setting.

If the connection is configured with DHCP, the address to connect to canchange. Therefore, you might need to use a static address. If the networkadministrator requires that you set the device to DHCP, ask for a DHCPconnection that always has the same address. The IT person needs toknow the Ethernet MAC Address above so they can configure this type ofconnection.

IP Address This is the address of the SBH. If your laptop, phone, or tablet isconnected to this subnet, you can open your browser and enter the IPaddress in the URL section of the browser to access the SBH.

Note: This is a connection for this subnet only. To connect to outsidesubnets, you need to perform additional settings, see BACnetrouting.

Subnet Mask Defines the maximum number of devices that may be a part of thesubnet.

Default Gateway This is the IP Address of the gateway device or server that allows traffic togo outside the local subnet. You must populate this to connect the SBH tothe Internet.

Auto DNS Configure In the same way as with Auto DHCP Configure, a request to the DHCPpopulates the Domain Name Service (DNS). DNS servers are necessaryfor the email and texting features to work. If you are using Google® asyour SMTP, you can set one or both of the DNS servers to the GoogleDNS servers. Addresses 8.8.8.8 and 8.8.4.4 are the two Google DNSservers.

SBH internet connectivityWhen you connect to the internet for remote access, there are different methods of connection.Each method has a different level of security assurance.You can connect to the internet for remote access through the following options:

• Virtual private network (VPN) device - Highest level of security assurance: This is the mostsecure method of remote access to Verasys. Make sure that you configure the VPN connectionproperly, and that you meet the minimum password strength requirements. As this method isthe most complex option for remote access, it is best practice to work with your IT departmentwhen you implement a VPN solution.


• Simple port forwarding - Lowest level of security assurance: This is the least secure methodof remote access to Verasys. After you connect the SBH to your local subnet, use simple portforwarding to configure the system so it is accessible from any internet connection. The routermust apply port forwarding for port 443, which is the most secure access port for a browser. Youmust use an IP Address that is a WAN IP address or a public address that routes to the connectedrouter. When you type the address in the browser, you must start with https:// followed by theWAN IP address. The https:// prefix ensures the browser uses port 443. If you forward port 80address, the WAN IP device switches to Port 443. For security reasons, most IT personnel do notconsider this a secure connection. For best security practices, use strong passwords and rotatethem often.

• Simple port forwarding and installed certificate - Medium level of assurance: After youconfigure the system for port forwarding, install a certificate. See the Verasys® Smart BuildingHub Network and IT Guidance Technical Bulletin LIT-12012324.

Note: Installing a certificate only protects the session, it does not mitigate the risks associatedwith exposing the web ports to the Internet.

Load sheddingIn the load shedding settings, you can select the device that can initiate the load shedding feature.With the load shedding feature, you can decrease the HVAC consumption in a building with a singlephysical input. You can use this feature in correlation with demand response pricing incentivesprovided by a local utility. This functionality requires either an LC-IOM100-0 or LC-VAC1002-0 on thesystem bus. To configure load shedding, complete the following steps:

1. Navigate to the Settings tab.

2. Click Load Shedding.

3. Under the Select Device tab, select the device you want to enable for load shedding.

4. Click Save.

Not all Verasys devices support load shedding. On the devices that do support load shedding, usethe Control Setup menu to configure how far to spread the control band during a load sheddingevent. You can also adjust how quickly the setpoints change.For example, if you set the Load Shed Rate Limit to 0.066 °F/min and the Load Shed Adjust to4°F, and the normal occupied setpoints are 72°F for cooling and 68°F for heating, the setpointstemporarily change to 76°F and 64°F during a load shedding period. The BI-2 has a closed contacton either the LC-IOM100-0 or LC-VAC1002-0 that triggers this. After it opens, the setpoints rampback at the same rate.

Global shutdownIn the global shutdown settings, you can select the device that can initiate a global shutdown ofthe entire HVAC system. This functionality requires either an LC-IOM100-0 or LC-VAC1002-0 on thesystem bus. To set up global shutdown, complete the following steps:


2. Click Global Shutdown and choose the device you want to enable for global shutdown.

All devices that participate in global shutdown disable outputs when BI-1 on either LC-IOM100-0 orLC-VAC1002-0 devices is closed. Once BI-1 re-opens, the devices return to normal operation.


System settingsUse the System Settings menu to adjust the date, time, and timezone. You can also configure theunits that appear in the application, and set the BACnet Encoding type for the controllers on thesystem. When you set the date and time, the system starts with the date and time of the deviceconnected to the SBH.On the SYSTEM SETTINGS menu, click each of the following icons, to adjust the settings:

1. Click on the calender icon under the Date heading, to select the date.

2. Click on the clock icon under the Time heading, to select the time.

3. Click the Timezone drop-down list, to select the time zone.

The time setting converts the selected 24-hour clock to the standard 12-hour time with AM andPM adjusted. When you adjust the settings and click Save, the time synchronizes to all deviceswith a time clock. To verify the time synchronized on the devices, navigate to the controller. On theController tab, the date and time appears.

Verasys EnterpriseThe Verasys Enterprise section is used to add the Verasys Enterprise site to a collection of sites sothat all user facilities are available in a single location. For information about setting up the VerasysEnterprise site, refer to the Verasys Enterprise Configuration and User Guide (LIT-12012995).On the Verasys Enterprise tab, you can enable the Verasys Enterprise Services and you can getthe device ID that you need to add to the enterprise site. Also within this section, you can subscribeto automatic updates to the SBH from the cloud services, and decide at what time you receive theupdates.

Note: The SBH reboots after an update.

The Verasys Enterprise tab also shows the status of the enterprise connection and the last time itupdated. The following enterprise connection shows the status of your connection:

• OK: The connection is working.

• WARNING: Possibly connected, but one or more issues may be present. See the diagnostic linkbelow the status for more information.

• PROBLEM: Not connected. See the diagnostic link below the status for more information.

BACnet routingUse the BACnet Router feature to add all the controllers under the control of a SBH, into a largersupervisory system via BACnet/IP integration. You can use this feature in a number of situations.For example:

• A new addition

• A segregated wing of a building

• A remote building that you want to tie into an existing Building Automation System (BAS).

The SBH has a list of devices on the system bus that are connected by RS-485 and an active BACnet/MSTP. When the BAS sends out the Who-Is message, the SBH responds for itself and all devicesunder its control. Optionally, you can set up a BACnet IP Broadcast Management Device (BBMD) ifthe SBH and BAS are on different subnets.To configure the BACnet router feature, complete the following steps:



2. Under the Settings tab, select the BACnet Settings option and adjust the followingparameters:

- Device Object Identifier – Identifies the SBH as a unique device on a BACnet network.Adjustable: 0 to 4194303, default 1.

- MAC Address – Sets the address on the system bus for the MS/TP network. Adjustable: 4to 127, default 117.

- Network Number – Sets the routing address for devices under the SBH. Adjustable: 1to 65534, default 64999. It is best practice to leave the network number on the defaultsetting.

- Routing Mode – In this mode, the SBH can utilize the routing feature which identifiesMS/TP devices over the IP integration.

- UDP Port – Defines the port for the UDP traffic. By default, BACnet uses 47808 but theuse of other ports are optional. Adjustable: 47808 to 4782.

Broadcast managementThe second set of options for this feature are for a BACnet IP Broadcast Management Device(BBMD). The BBMD enables an SBH on one subnet to communicate with a supervisory device onanother subnet.To set up the router feature for the BBMD, complete the following steps on the SBH and thesupervisor:

1. On the SBH, configure the following for each BBMD:

- IP Address – The IP address of the supervisor with which the BBMD communicates.

- UDP Port –UDP Port of the supervisor with which the BBMD communicates. It is differentfrom the UDP port of the SBH itself.

- IP Broadcast Mask – Needs to match on both the SBH and the supervisor.

SSLWhen you log in to an SBH for the first time, your web browser instantly switches to a secure port(Port 443). A secure port requires certificates that authenticate it as a trusted site. With GoogleChrome, the URL you entered appears with a red slash.The https:// means you are communicating with a secure port. The red slash through https://means the site is not a trusted site. An error appears in the browser and prompts you to continueto the site even though it is not secure. Different browsers provide a similar action as GoogleChrome. You can continue to the site and log in knowing that the security required for this port hasnot been configured.To connect to a secured site, you must add a certificate that is private or public. The purpose of thecertificate is to configure a chain of trust. You must set up the public or private keys in order to setup a chain of trust. These keys make sure that the site trusts your device.

Alarm notificationsYou can configure email and text alarms using alarm notifications. Click the Alarm Notificationsfrom the Settings tab to set the parameters. First, you must connect the SBH to an Ethernetnetwork and define the DNS servers. See the Ethernet section of this document to set up theEthernet connection for the SBH. The following table describes each alarm notification parameter:


Table 5: Alarm notification

Field Setting DescriptionEnabled Default is Off. Set to On to use the email and text alarm function.Use TLS Set to Yes to use transport layer security (TLS).Host SMTP relay host address where alarms are sent.Port When the server sends an email to the host, this is the port the server

uses.From Email Address This email address appears as the sender of the email.Site Name In the subject line of the email, the site name appears with the controller

it came from, and the alarm. You can specify the name of the site in thesubject line.

User Name To connect to the host server you must log in. This is the user name ofthat login.

Set Password This check box opens up a dialog box to enter the password. You mustopen the dialog box with the password entered in order to test alarms.When testing is complete, click Save.

Password The password for the account used to log in to the SMTP host.Test Email Address You can use this dialog box to test an email. Make sure you open the

password dialog box and enter a password. Press Send when you havefinished writing the email. The top of the screen indicates if the systemsent the email successfully.

Chain of trustA chain of trust enables multiple users to create and use software on a system. Digital certificatesare verified in a chain configuration, and their keys are not stored directly in hardware. When youattempt to use the SBH without the software being digitally signed, the UI issues warnings. Thesigning authority only signs boot programs that enforce security, such as only running programsthat are themselves signed, or allowing only signed code to have access to certain features of themachine. This process may continue for several layers.

Self-signed certificates and certificates signed by a public certificateauthorityA self-signed certificate is a certificate that is signed by the same entity that it certifies. This termdoes not refer to the identity of the person or organization that actually performed the signingprocedure. A self-signed certificate is a certificate signed with its own private key, which means theentity signing the certificate is also the entity that created the certificate.The SBH ships with a default Johnson Controls® self-signed certificate that provides securecommunication. You can only install one certificate on an SBH at a time. When you install a newcertificate on a SBH, you overwrite the existing certificate. You can run an SBH on your network witha self-signed certificate.However, if you need to expose the SBH UI on a public network and have browsers that indicate atrusted site, you must get a signed certificate matching your domain name. You can acquire a validsigned certificate from your IT department or purchase it from a public Certificate Authority (CA)using a certificate signing request (CSR). A certificate signed by a CA is used to establish a secureconnection between your browser and the SBH.


Public and private keysPublic and private keys are used to verify that the entity requesting access to a system is who orwhat it claims to be. For information on configuring your secure site, refer to the Verasys® SmartBuilding Hub Network and IT Guidance Technical Bulletin LIT-12012324. Use your default Admin logincredentials that are included on a sticker in the Smart Building Hub Quick Start Guide (Part No.24-10737-00245).

Using Google as an SMTP hostIf you do not have an email service to connect to the SBH, configure an SMTP host for these alarms.You can set it up a couple ways.Option 1: To use Transport Layer Security (TLS) encryption, use the settings in Table 6.Table 6: TLS encryption - On

Field Description or SettingTLS OnHost smtp.gmail.comPort 465From Email Address Email address for sender of messageSite Name Name of the siteUser Name Google account User namePassword Google account password

Option 2: If you do not want to use TLS encryption, use the settings in Table 7.Table 7: TLS encryption - Off

Field Description or SettingTLS OffHost smtp.gmail.comPort 587From Email Address Email address for sender of messageSite Name Name of the siteUser Name Google account user namePassword Google account password

Note:

• If you are using Google as an SMTP Host, you can set the DNS server in the Settings >Ethernet section to the Google DNS Servers (IP addresses 8.8.8.8 and 8.8.4.4).

• The first time you connect your Google account and send the first email, Google blocks it.You then receive a notification in your Gmail inbox that it does not recognize the device thatis trying to access the account. You need to change the account to give access to less secureapplications.

Software updatesUse the Software Updates tab to update the SBH. The current software version of the SBH appearson the lower left-hand corner of the screen, under the Verasys logo.


To update the software to the latest version, complete the following steps:

1. Click the Settings tab and navigate to the Software Updates tab.

2. Click the Choose File button.

3. Select the .bin file with the updated software.

4. Select Upload. The SBH uploads the file and prepares the update. When the upload iscomplete, the SBH displays Upload Successful.

5. Select Install.

A red warning bar notifies you that an update is in progress and a countdown begins before theSBH disconnects from the network.

Note: When you update the software, the device retains your previous settings. Set up andupdate new features before you update the software. When complete, log in to the SBH andtake note of the new version number.

AdministrationThe Administration tab is located on the Settings tab. You can configure users and userpermissions from the Administration tab. By default, the system creates an Admin user role. Forfirst-time login information, see Connecting to the SBH and refer to the Smart Building Hub QuickStart Guide (Part No. 24-10737-00245).After you have logged in, you are prompted to change the default password. This dialog box iswhere you change the Admin password again, configure the Admin user, or add more users to thesystem. Configuring multiple users helps distinguish who makes adjustments to the systems andwhen they access the system. See Table 8.Table 8: New User

Field DescriptionName Identifies the individual obtaining an account.Username Identifies the user. This unique identifier can not contain spaces.Password/VerifyPassword

The password must contain 8 or more characters, 1 uppercase letter, 1number.


Table 8: New User

Field DescriptionRoles Roles include:

Tenant: This role provides access to devices, facility, and schedules.Tenant permissions include device homepage, alarm notifications, andpassword settings.

Tech: This role is similar to the admin role. Tech permissions provideaccess to the Settings tab.

• Facility: Viewable and adjustable• Wi-Fi Access Point: Viewable and adjustable• Ethernet: Viewable and adjustable• Load Shedding: Viewable and adjustable• Global Shutdown: Viewable and adjustable• Alarm Notification: Viewable, not adjustable• Software Updates: Able to install updates• System Settings: Viewable and adjustableAdmin: This role provides access to all settings and adjustments withinthe Verasys System.

Alarm NotificationLevel

Sets the user alarm notification levels. The four options include:Disable: User does not receive notifications via email or text message.Service: User receives all alarms (service, service priority, and critical).Service Priority: User receives only service priority and critical alarms.Critical Alarms: User only receives critical alarms.

Email addressand SMS messagenotifications

You can enter the email address and SMS notifications into the followingfields:• Email Address 1 field• Email Address 2 field

Audit logThe SBH Audit Log tab tracks who logs in and out of the system and what changes are made.The information is stored in a text file on the SBH. To view a current copy of this text file, click theDownload button and search through the log to find the information about what changes havebeen made.The text file contains all the events. If you have Microsoft Excel, you can rename the file extensionfrom a .txt to a .csv and open it with Excel to make it easier to read.

Custom logoYou can use the custom logo feature to upload a logo of your choice. Once uploaded, thecustomized logo appears above the Verasys logo on the left side of the navigation and on theVerasys login page.To add a custom logo, complete the following steps:

1. Navigate to the Settings tab and select Custom Logo.

2. Click Choose file and select a logo to upload.


3. Tick the Apply product logo box.

4. Click Save. The custom logo appears above the Verasys logo and on the Verasys login page.

DiagnosticsThe SBH diagnostics section is available for troubleshooting field issues. Ignore this tab unlesssupport personnel direct you to generate a report.

System setupVAV system setup proceduresThe Verasys system uses plug and play to communicate to the zone coordinator. However, youmust configure the system to ensure proper operation and control of the equipment connected tothe devices. This section instructs you how to set up the zone coordinator for a VAV system.

Planning the zone bus layoutPlan out the zone bus layout. It is best practice to connect the devices in the following sequence:

1. The first devices on the zone bus are the RTU and the Bypass damper.

2. The next devices on the zone bus are zone or VAV boxes, connect these in a daisy chain wiringconfiguration.

Note: For full wiring details and diagrams refer to the ZEC510 VAV Controllers InstallationInstructions, 24-10143-01485.

Mounting and wiringTo keep the space temperature under control during installation, complete the following steps:

1. Mount the VAV boxes.

2. Open the damper positions fully.

3. Mount the zone coordinator.

4. Wire power to the zone coordinator.

5. Connect the SBH. To do this, wire the BAS port directly to the SBH.

6. Log in to the SBH.

7. Check that the zone coordinator appears in the menu.

8. Connect the RTU to the zone bus trunk.

9. Set the end-of-line (EOL) switch on the RTU to ON to make it the EOL on the trunk.

10. Turn on the RTU. Make sure it connects to the zone coordinator. See the following sections andcomplete the relevant steps before proceeding to step 12.

- If the RTU is a smart equipment unit, see Setting up a smart equipment unit for VAVsystem using the SBH.

- If it is a Verasys Equipment Controller, see Setting up a VEC using the SBH.


11. You can use the RTU to supply the air to the space. To do this, do not apply power to the VAVbox controller and use the red manual override button to open up the damper and adjust thesupply air setpoint on the RTU.

12. Wire the VAV boxes and make sure they connect to the zone coordinator.

13. When you connect the trunk to get the zones online, turn off the EOL switch that wastemporarily set in Step 9 and set the actual end of the line on the trunk.

14. Use the following sections to check your configuration:

- Setting up a VAV controller for a VAV system (ZEC410) for temperature and flow control

- Checking the VAV box

15. Configure the schedule. See Verasys schedules.

Configuring a Smart Equipment unit for VAV system using the SBHThe Smart Equipment unit is delivered with partial factory setup completed. Follow this procedureto check that the minimal settings have been performed.


2. From the device list screen, select the Smart Equipment unit. The RTU home page and the RTUmenu structure appear.

3. Navigate to the Details > Service > Factory section, and click the Miscellaneous section.

4. In the Miscellaneous section, set the unit Rooftop Controller Type to VAV. If it is not set toVAV, the zone coordinator does not control as a VAV system.

5. Navigate to the Details > Service > Factory section, and verify that Fan Control Type is set toVariable Speed.

Note: In newer versions of Smart Equipment firmware, Rooftop Controller Type islocated in Controller > Description and Fan Control Type is located in Details > Indoor >Fan > Setup.

6. Check the operation of the unit. Use the steps in the Setting the temperature control and flowparameters section to complete the configuration.

Note: Make sure you have some zones blocked open to relieve duct pressure.

Configuring a VEC using the SBHThe Verasys Equipment Controller (VEC) is by default a change-over bypass system. You mustchange this to a VAV system. Complete the following procedures to check that the minimal settingshave been performed.


2. From the device list screen, select VEC. The VEC home page and the VEC menu structureappear.

3. The VEC home page provides an overview of the status of the unit. Check that the Supply AirTemperature (SAT) appears properly.

Note: For the unit to have control, you need minimum one SAT sensor.

4. Navigate to the Details > Service > Factory tab. From this tab, complete the following actions:


- Adjust the setup of the unit to the third-party equipment.

- Set the number of stages of heating and cooling that the unit has.

- If the VEC has control of the economizer, set it to Yes.Note: You must have an outside air temperature installed for the economizer tomodulate.

- Set the RTU controller type to VAV. It defaults to change-over bypass so you must changeit.

Testing the unitTo test the unit, navigate to the VEC Commissioning page and complete the following steps:

1. Set the Start Commission parameter to Trigger.

2. Block zones open.

3. Turn on the fan.

4. If the unit has heating capability, turn on heating stages and make sure the SAT increases.Most VAV systems do not have heat, but if your system does have heat, you need to install areturn air sensor that can use the heat for morning warm-up.

5. Turn on cooling stages and make sure the SAT decreases.

6. Set the Start Commission parameter back to Normal to finish unit testing.

VAV controller zone setup proceduresThe Verasys zone controllers come with predefined parameters and are plug-and-play when theycommunicate to the zone coordinator. However, you need to configure temperature control andflow control to ensure proper operation and control of the equipment connected to the devices.This section instructs you how to set up the zone controllers for temperature and flow control.

Configuring a VAV controller for a VAV system (ZEC410) for temperature andflow controlThis method uses the SBH connected to a zone coordinator. To configure a VAV controller for a VAVsystem, complete the following steps:

1. Wire the zone bus trunk to the zone coordinator.

2. Power on the ZEC device.

3. Power on the device that communicates to the zone coordinator.

4. Make sure the zone coordinator communicates to the SBH. If necessary, you can refer tothe Verasys Zone Coordinator Installation Instructions, 24-10143-1280 and navigate to theTroubleshooting section, which explains LED flash rates and voltage measurements to verifycommunication.

Checking the VAV boxComplete the following steps to check the VAV box:

Note: This procedure is for the ZEC VAV controllers and it is the minimal configuration neededfor temperature and flow control.



2. From the device list, select the VAV zone you want to configure.

3. On the zone home page, you can see an overview of the status of the unit.

4. Check that the Zone Temperature appears properly.

5. Check that the Warmer Cooler Adjustment works properly.

6. Navigate to the Equipment Setup tab.

7. Turn the blade extension shafts a certain direction to open the dampers mechanically.

8. Check which direction closes the dampers and use the Damper Polarity parameter to set thatposition.

9. Set the Actuator Stroke Time to 60 seconds.

10. Before you continue, make sure you can manually move the actuator. To test this, hold downthe red gear release button and turn the damper shaft. The red button unlocks the gear ofthe actuator and the collar can then move freely. If it cannot move freely, loosen the lockingmechanism and move it 90 degrees, then lock it down again.

Figure 1: Moving the Actuator

Table 9: Moving the actuator

Number Description1 Damper2 Damper shaft3 Gear release button

11. If the VAV box has heating functionality, set the parameters for the heating.

12. If the VAV box has a fan, set the parameters for the fan type.


13. If you want to calibrate the temperature, adjust the ZNT SENSOR OFFSET so the temperaturematches the sensor you are calibrating to.

14. See Appendix A - JCI-manufactured VAV box characteristics for directions to close the variousJCI brands of VAV boxes.

Setting the temperature control and flow parameters

1. Select the Commissioning tab to set the flow, demand control ventilation (DCV), and Title 24Load Shed parameters. To ensure proper temperature control, use the design flow schedulefor the system, which is usually found on the mechanical plans for the job, to set the followingflow parameters:

Note: The VAV box controls the amount of supply air from the unit into the VAV box. It isnot the flow coming out of the box. Equipment such as a series fan, could increase theflow leaving the box.

a. Cooling Max Flow – Sets the maximum supply air flow of the VAV box when cooling.Adjustable: 0 cfm to 10,000 cfm.

b. Cooling Min Flow – Sets the minimum flow that enters the box when it is satisfied aftercooling. Adjustable: 0 cfm to 10,000 cfm.

c. Occupied Heating Min Flow – Sets the minimum supply air flow of the VAV box whenheating. Adjustable: 0 cfm to 10,000 cfm.

d. Staged Reheat Min Flow – Sets the minimum heating flow for electric reheat control.This parameter serves an additional control safety to the high-limit switches in the box.It is best practice to set this parameter to 70 cfm per kW of electric heat. Adjustable: 0cfm to 1,000 cfm.

e. Unoccupied Cooling Min Flow – Sets the minimum supply air flow of the VAV box whenin unoccupied cooling mode. Adjustable: 0 cfm to 1,000 cfm.

f. Unoccupied Heating Min Flow – Sets the minimum supply air flow of the VAV box whenin unoccupied heating mode. Adjustable: 0 cfm to 1,000 cfm.

g. Supply Area: The supply inlet area used to calculate the supply flow. Adjustable: 0 sq. ftto 8.0 sq. ft.

h. Pickup Gain: Shows the K factor for the box. This parameter calibrates the flow.Adjustable: True/False. See Appendix A - JCI-manufactured VAV box characteristicsfor the pickup gains, and for directions on how to close JCI brands of VAV boxes. Eachmanufacturer has different pickup gains (K Values) associated with their air flow rings.Check with the manufacturer for their values.

Note: Set Occupied Cooling and Heating Min Flow at least 10% higher thanStaged Reheat Min Flow.

2. After you have set the flow parameters, it is best practice to issue an auto calibrationcommand. You must have air flow coming from the unit before you do this. The autocalibration drives the damper closed and your velocity pressure must read near zero. The autocalibration offset is set to this value and the box reads zero flow.

Note: A common issue is incorrect damper polarity. The damper does not close, butinstead it opens fully and offsets the flow. Ensure the damper polarity set in Step 8 iscorrect.


3. Select the Control Setup tab and check that each parameter is set to customize the zone tothe customer’s needs. For example, check if a Warmer cooler adjustment is needed or if youneed temporary occupancy.

Note: See Appendix B: Objects and parameters for all of the parameters for a ZEC410controller and a description of what each parameter is used for.

Your supply air flow controls to the supply air setpoint. The supply air setpoint increases fromminimum to maximum depending on the temperature demand of the zone. You can use theTrends tab to diagnose issues and see the history of the zone temperature.

COBP system setup proceduresThe Verasys system uses plug-and-play functionality to set up communication with a zonecoordinator. However, you must configure the system to ensure proper operation and controlof the equipment connected to the devices. This section instructs you how to set up the zonecoordinator for a COBP system.

Planning the zone bus layoutPlan the zone bus layout. It is best practice to connect the devices in the following sequence:

1. The first devices on the zone bus are the RTU and the bypass damper.

2. The next devices on the zone bus are zone or VAV boxes. Connect these in a daisy chain wiringconfiguration.


Mounting and wiringTo keep the space temperature under control during installation, complete the following steps:

1. Mount the zone controllers with the zone dampers or VAV boxes.

2. Open the damper positions fully.

3. Mount the zone coordinator.

4. Wire power to the zone coordinator.

5. Connect the SBH. To do this, wire the BAS port directly to the SBH or connect the BAS RJ12 porton the board.

6. Log into the SBH.

7. Check that the zone coordinator appears in the menu.

8. Connect the RTU and the bypass damper to the zone bus trunk.

9. In the SBH, temporarily set the EOL switch on the last device on the SBH.

10. Set the EOL switch to the ON position on the last device on the zone bus. Refer to the VerasysZone Coordinator Installation Instructions, 24-10143-1280 for more details.

11. Turn on the unit RTU and bypass damper. Make sure they connect to the zone coordinator. Seethe following sections and complete the relevant steps before proceeding to step 12.

- If the RTU is a SMART Equipment device, see Setting up a smart equipment unit for COBPcontrol using the SBH.


- If a VEC controls the RTU see Setting up a VEC for COBP using the SBH.

12. Use the unit to supply the air to the space. To do this, navigate to the zone coordinator and setthe CONSTRUCTION MODE to deliver Heat or Cool.

Configuring a COBP zone damper (BYP200) for flow controlThis method uses the SBH connected to a zone coordinator. To set up a COBP damper, completethe following steps:


2. Power on the BYP200 device.


4. Check that the zone coordinator communicates to the SBH.

5. Wire the zone dampers and ensure that they communicate to the zone coordinator.

6. When you connect the trunk to get the zones online, turn off the EOL switch that wastemporarily set in Step 9 and set the actual EOL on the trunk.

Note: See Setting up a COBP zone damper (ZEC310) for temperature and flow control andSetting up a VAV controller for a COBP system (ZEC410) for temperature and flow controldepending on whether you have zone dampers or VAV controllers.

7. When you connect all the zones, switch the unit out of construction mode, synchronize time tothe zone coordinator, and set up the schedule.

Configuring a Smart Equipment unit for COBP control using the SBHThe Smart Equipment unit comes with partial factory setup completed. Follow this procedure tocheck that the minimal settings have been performed.


2. From the device list screen, select the Smart Equipment unit. The RTU home page and the RTUmenu structure appear.

3. Navigate to the Details > Service > Factory section.

4. Under the Miscellaneous section, set the unit Rooftop Controller Type to Changeoverbypass.

Note: In newer versions of Smart equipment firmware, Rooftop Controller Type islocated in Controller > Description and Fan Control Type is located in Details > IndoorFan > Setup.

5. Under the Details > Service > Factory section, verify that the Fan Control Type is set to SingleSpeed.

6. Check the operation of the unit. Verify you have some zones blocked open.

7. After verifying, see Setting up a COBP zone damper (BYP200) for flow control to configure thebypass damper.


Configuring a VEC for COBP using the SBHThe VEC is by default a COBP system. Partial factory setup is already completed. Complete thefollowing procedures to check that the minimal settings have been performed.


2. From the device list screen, select VEC. The VEC home page and the VEC menu structureappear.

3. The VEC home page provides an overview of the status of the unit. Check that the SAT sensorreading is correct.

Note: For the unit to have control, you need minimum one SAT sensor.

4. Navigate to the Details > Service > Factory tab to adjust the setup of the unit to the third-partyequipment.

a. Set the number of stages of heating and cooling that the unit has.

b. If the VEC controls the economizer, set it to yes.Note: An outside air temperature is required for the economizer to modulate.

c. Set the RTU controller type to COBP.

Testing the unit

1. Navigate to the VEC Commissioning page to test the unit.

2. Before you turn on the fan, block zones open or make sure the bypass damper is operational.

3. Set the Start Commission parameter to Trigger.

4. Turn on the fan.

5. Turn on the heating stages and make sure the SAT increases.

6. Turn on the cooling stages and make sure the SAT decreases.

7. To finish testing the unit, set the Start Commission parameter back to Normal.

Configuring a change-over bypass zone damper (BYP200) for flow controlThis method uses the SBH connected to a zone coordinator. To set up a COBP damper, completethe following steps:


2. Power on the BYP200 device.


4. Check that the zone coordinator communicates with the SBH.

Checking the bypass damperOnce these requirements are established, use the following procedure to check the bypass damper:



2. From the device list screen, select the COBP damper. The home page and the bypass dampermenu structure appear.

3. From the BYP200 home page you can see an overview of how the damper controls the zone.

4. Start the supply fan.Note: Ensure you have some zones blocked open to relieve system pressure.

5. Check the differential pressure sensor to make sure it is reading properly.

6. Navigate to the Setup tab and complete the following steps:

a. Set the direction to Close on the damper.Note: This setting only affects the actuator connected to the controller. Thecontroller has the option to add a second actuator wired to a 0 V to 10 V output.If you are using the M9106-GGA-2 actuator, a jumper setting closes the seconddamper. Any other actuator used needs to have a means to switch the action of theactuator on the actuator by either a jumper or a switch.

b. If installed, verify the second bypass damper actuator.

c. Set the Unit Enable to Enable.

d. Set the Scheduled Occupancy to Occupied.

e. Set a Differential pressure setpoint that the damper can maintain.

f. Navigate to the home screen. The damper modulates to maintain this pressure setpoint.

g. Move the pressure setpoint back to the pressure you want to maintain in the system.

COBP zone setup proceduresThe Verasys zone controllers come with predefined controllers and use plug and play functionalityto configure communication with a zone coordinator. However, you must configure the followingsettings to ensure correct operation and control of the connected devices. This section instructs youhow to configure the zone controllers for temperature and flow control.


Configuring a COBP zone damper (ZEC310) for temperature and flow controlThis method uses the SBH connected to a zone coordinator. To configure a COBP zone damper,complete the following steps:





Checking the zone damperThis procedure is for the ZEC310 zone dampers and it is the minimal configuration needed fortemperature and flow control. Complete the following steps to check the zone damper:



2. From the device list, select the COBP zone you want to configure.

3. Navigate to the zone home page to see an overview of the status of the unit.

4. Check that the Zone Temperature reads properly.

5. Check that the Warmer Cooler Adjustment works properly.

6. Navigate to the Equipment Setup tab.





Figure 2: Moving the actuator



11. Select the Commissioning tab to set the flow, DCV, and Title 24 Load Shed.Note: If you cannot see the DCV tab, set the DCV Enable parameter to CO2 for it toappear.

12. Select the Flow tab to check damper operation and set flow parameters.


a. Set the minimum positions settings for heating or cooling to 0% and 100% to drive thedamper open and closed. Select heating or cooling depending on the current state ofthe box.

Note: If the damper is not opening and closing, press the red button on theactuator, and check that it can move freely. This button unlocks the actuator so youcan manually move it. Reconnect the actuator so it moves freely. Make sure thedirection to close is what you set in Step 6.

b. Once the actuator works properly, set the minimum and maximum damper positions foreach zone. This helps balance the system flows.

13. Select the Control Setup tab and check that each parameter is set to customize the zone to thecustomer’s needs. For example, check if a warmer cooler adjustment is needed, or if you needtemporary occupancy, or set the zone weight and the zone’s voting options. Use the Trendstab to diagnose issues and see the history of the zone temperature.

Configuring a VAV controller for a COBP system (ZEC410) for temperatureand flow controlThis method uses the SBH connected to a zone coordinator. To set up a VAV controller for a COBPsystem, complete the following steps:





Checking the bypass damperThis procedure is for the ZEC410 VAV controller, and it is the minimal setup needed for temperatureand flow control. Use the following procedure to check the bypass damper:


2. From the device list screen, select the VAV zone you want to configure. The zone home pageand the zone menu structure appears.

3. Navigate to the zone home page to see the details of the status of the unit.

4. Check that the zone temperature reads properly.

5. Check that the warmer cooler adjustment works properly.

6. Select the Equipment Setup tab.






Figure 3: Moving the actuator



11. If the VAV box has heating functionality, set the parameters for the heating.

12. If the VAV box has a fan, set the parameters for the fan type.

13. If you want to calibrate the temperature, adjust the ZNT Sensor Offset so the temperaturematches the sensor you are calibrating to.

14. See Appendix A - JCI-manufactured VAV box characteristics for directions to close the variousJCI brands of VAV boxes.

Setting the temperature control and flow parameters

1. Select the Commissioning tab to set the flow, DCV, and Title 24 Load Shed parameters. Toensure proper temperature control, use the design flow schedule for the system, which isusually found on the mechanical plans for the job, to set the following flow parameters:

a. Cooling Max Flow – Sets the maximum supply air flow of the VAV box when cooling.Adjustable: 0 to 10,000 cfm.

b. Cooling Min Flow – Sets the minimum flow that enters the box when it is satisfied aftercooling. Adjustable: 0 to 10,000 cfm.


c. Occupied Heating Min Flow – Sets the minimum supply air flow of the VAV box whenheating. Adjustable: 0 to 10,000 cfm.

d. Staged Reheat Min Flow – Sets the minimum heating flow for electric reheat control.This parameter serves an additional control safety to the high-limit switches in the box.It is best practice to set this parameter to 70 cfm per kW of electric heat. Adjustable: 0 to1,000 cfm.

e. Unoccupied Cooling Min Flow – Sets the minimum supply air flow of the VAV box whenin unoccupied cooling mode. Adjustable: 0 to 1,000 cfm.

f. Unoccupied Heating Min Flow – Sets the minimum supply air flow of the VAV box whenin unoccupied heating mode. Adjustable: 0 to 1,000 cfm

g. Supply Area – The supply inlet area used to calculate the supply flow. Adjustable: 0 to8.0 sq. ft.

h. Pickup Gain – Shows the K factor for the box. This parameter calibrates the flow.Adjustable: True or False. See Appendix A - JCI-manufactured VAV box characteristicsfor the pickup gains, and for directions on how to close JCI brands of VAV boxes. Eachmanufacturer has different pickup gains (K values) associated with their air flow rings.Check with the manufacturer for their values.

Note: Set Occupied Cooling and Heating Min Flow at least 10% higher thanStaged Reheat Min Flow.

2. After you have set the flow parameters, it is best practice to issue an auto calibrationcommand. You must have air flow coming from the unit before you do this. The autocalibration drives the damper closed and your velocity pressure must read near zero. The autocalibration offset is set to this value and the box reads zero flow.

Note: A common issue is incorrect damper polarity. The damper does not close, butinstead it opens fully and offsets the flow. Ensure the damper polarity set in Step 8 iscorrect.

3. Select the Control Setup tab and check that each parameter is set to customize the zone to thecustomer’s needs. For example, check if a warmer cooler adjustment is needed or if you needtemporary occupancy or set the zone weight and the zone’s voting options. Use the Trends tabto diagnose issues and see the history of the zone temperature.

Note: See Appendix B: Objects and parameters for all of the parameters for a ZEC410controller with a description of what each parameter is used for.

After completing the procedures outlined above, the zone controls properly. Your supply air flowcontrols to the supply air setpoint. The supply air setpoint increases from minimum to maximumdepending on the temperature demand of the zone. You can use the Trends Tab to diagnose issuesand see the history of the zone temperature.

ZEC firmware downloadYou can use the ZEC firmware download feature to upgrade all the zone controllers in a zoningsystem through the USB upgrade of the Verasys Zone Coordinator (VZC100). This feature meansfuture enhancements to the zone controllers are possible without physically replacing thehardware. The firmware download supports the following zone controller devices:

• LC-ZEC310-0

• LC-ZEC410-1


• LC-ZEC410-2

• LC-ZEC410-3

• LC-ZEC510-1

Note: Once started, the process takes between five and seven minutes per zone.

Upgrading the firmware


2. If you are upgrading from a v3.2 coordinator build to a v3.2 or newer build, use the steps in theUpgrading from a v3.2 coordinator build to a v3.2 or newer build section.

3. Physically remove the zone bus, which is the brown connector, from the VZC100.

4. Navigate to the Devices page on the SBH200, and wait until all devices under the zonecoordinator that you are updating, switch to offline.

5. When all devices under the zone coordinator go offline, click Remove Offline Devices.

6. Copy vvvvvv_VZCUSB.pkg to the root directory of a USB 2.0 drive.

7. Insert the USB drive into the VZC. A red fault light flashes rapidly to indicate that the upgrade istaking place. If the red fault light does not flash, recycle power to the VZC.

Note: The USB drive must have a FAT or FAT32 file system. NTFS and USB 3.0 are notsupported.

8. When the upgrade is complete, the fault light is solid off.

9. Remove the USB drive.

10. Reconnect the zone bus and wait for all devices to populate under the zone coordinator.

Upgrading from a v3.2 coordinator build to a v3.2 or newer build

1. Copy vvvvvv_VZCUSB.pkg to a USB drive, and insert the USB drive into the VZC. A red faultlight flashes rapidly to indicate the upgrade is taking place. If the red fault light does not flash,recycle power to the VZC.

2. Navigate to the Zone Coordinator Unit menu to track the progress of the update.

3. During the update, the zone in provision appears offline in the Devices page.

4. To verify from the SBH UI that the required version was installed, navigate to the VZC100 homepage.

5. Reboot the SBH.

Verasys IOMThe Verasys IOM LC-VAC1002-0 provides additional controls for monitoring and controlling ancillarydevices. You can use the IOM to monitor temperature, pressure, air flow, or other inputs based onthe input type. The IOM can also use its binary output options to control lightning, exhaust fans,motors, or ancillary output that needs to be scheduled or driven by a simple interlock.As stated in the Interlocks section of this document, IOMs are used in conjunction with this featureto drive simple logic for monitoring and control.


There are no limits to the number of IOMs that you can add to a Verasys network. Limitation isbased on the number of inputs and outputs. One IOM consists of 9 binary outputs, 4 binary inputs,and 5 analog inputs.

Configuring an IOM (LC-VAC1002-0)To configure IOM points, navigate to Devices and select the IOM device you want to update.

Configuring binary and analog inputsTo configure binary and analog inputs, complete the following steps:

1. Navigate to the Commissioning tab and select the Inputs tab.

2. On the Generic IOM Inputs screen, configure the following fields:

- Set the Present field to Present.

- Set the States Text field.

- Set the Delay Type

- Set the Alarm priority

3. Select the Point Type of the analog input you are using. You can adjust the Value of the PointType to any of the following:

- Temperature

- Humidity

- CO2

- Light Sensor

- Refrigerant

- Building Pressure

- Steam Pressure

- Voltage

- Current

Note: Voltage and current are fully configurable input types that are meant to be used if adifferent sensor than what is provided in the VAC1002 accessories list is used. The IOM homepage shows the inputs and outputs status and a changeable graphic.

Configuring the IOM load shed

1. Navigate to the Settings options and select Load Shedding.

2. From the drop-down list, select the Verasys IOM.

The BI-2 is automatically assigned to Load Shed. This means if there is a demand respondrequirement for a Verasys system, the binary input must be set to On, based on dry contact. Aload shed sequence then goes into affect. You can use this feature for State of California Title 24Requirements for a zoning system.


Appendix A - JCI-manufactured VAV boxcharacteristicsTable 12: Manufacturer damper data

Manufacturer Default direction to closeEnvironmentalTechnologies Inc.

Clockwise

Krueger CounterclockwiseTitus CounterclockwiseTuttle and Bailey® Counterclockwise

Table 13: Quickfill defaults

Pickup gain (sq ft)

Box ductsize Area (sq ft)

ETI witha45 degreerotation

ETI witha90 degreerotation Krueger

Tuttle andbailey Titus

4 0.09 1.71 1.63 2.32 2.80 1.635 0.14 1.69 1.66 2.31 3.00 1.956 0.20 1.67 2.90 2.32 2.90 3.077 0.27 n/a n/a 2.32 3.00 2.578 0.35 1.61 2.52 2.33 2.90 2.399 0.44 n/a n/a 2.33 n/a 2.3010 0.55 1.63 2.41 2.32 3.00 2.3112 0.79 1.61 2.38 2.32 3.00 2.7614 1.07 1.59 2.29 2.33 3.00 2.0216 1.40 1.61 2.29 2.33 3.00 2.1218 n/a 1.59 2.43 n/a 3.00 n/a19 n/a n/a 2.92 n/a n/a n/a20 0.78 1.61 n/a n/a n/a 2.1922 0.78 1.60 2.65 2.33 3.00 2.1924 n/a n/a n/a n/a n/a n/a26 1.00 n/a n/a n/a n/a 2.5730 n/a n/a n/a n/a 3.00 n/a40 2.67 n/a n/a n/a n/a 2.22


Appendix B: Objects and parametersThis section describes all the parameters and objects for the different Verasys System controllersTable 14: VEC100 parameters and objectsMenu Object or parameter Description AdjustableAlarms Alarms Displays all active alarms. To see the history of

alarms, click All Alarms.Read only

Unit Status Shows the status of the unit. Read onlyEconomizer Status Shows the current status of the economizer. Read onlyFan Status Shows the fan status of the unit. Read onlyCooling Status Shows the cooling status of the unit. Read onlyHeating Status Shows the heating status of the unit. Read onlySupply Air Temperature Shows the SAT of the unit. Read onlyReturn Air Temperature Shows the return air temperature, if installed. Read onlySpace Humidity Input Shows the space humidity of the space, if

installed.Read only

Status

Outdoor Air Temperature Shows the outside air temperature, if installed. Read onlyVAV RTU Heating Setpoint If you have heating installed on a VAV RTU, you

need a return air temperature sensor so theunit can enter into morning warm-up. This is thesetpoint the unit controls the return air to beforethe unit switches to cooling in the morning.

Adjustable: 40°F to85°F

Summary: RTU

Supply Air TemperatureSetpoint

Shows the SAT that the unit controls to. Read only

Fan Command Shows the current state of the fan. Read onlyFan% Output Shows the fan percent command when set to a

VAV unit.Read only

Duct Static PressureSetpoint

Shows the duct static pressure setpoint when setto a VAV Unit.

Adjustable: 0.00 in. wcto 5.00 in. wc

Summary: Fan

Duct Static Pressure When set to a VAV Unit, this appears and showthe Duct Static Pressure.

Read only

Compressor Stage 1Command

Shows the state of the first stage of cooling. Read only


Shows the state of the second stage of cooling, ifinstalled.

Read only


Shows the state of the third stage of cooling, ifinstalled.


Shows the state of the fourth stage of cooling, ifinstalled

Summary:Cooling

Staged Cooling% Output Shows the percent command of the coolingcontrol loop.

Read only

Heating Stage 1 Command Shows the state of the first stage of heating. Read onlyHeating Stage 2 Command Shows the state of the second stage of heating, if

installed.Read only

Summary:Heating

Staged Heating% Output Shows the percent command of the heatingcontrol loop.

Read only


Table 14: VEC100 parameters and objectsMenu Object or parameter Description Adjustable

Economizer Free CoolingAvailable

Shows the state of the economizer. Read only

Economizer Damper %Output

Shows the percent output of the economizer. Read only

Economizer Outdoor AirTemp Enable Setpoint

Shows the economizer switchover setpoint. Adjustable: 40°F to80°F

Operational Outdoor AirTemperature

Shows the outdoor air temperature.

Note: You require an outdoorair temperature sensor foreconomizer control.

Read only

Summary:Economizer

Space Humidity Shows the value of the space humidity, ifinstalled.

Read only

Demand Ventilation IndoorAir Quality Setpoint

Sets the point where the CO2 level starts DCV.Above this setpoint the zone switches to DCV andstarts using the DCV positions, if enabled on theRTU.

Adjustable: 0 ppm -5000 ppm

Summary:DemandVentilation

Operational Indoor AirQuality

Shows the value of the indoor air quality sensor, ifinstalled.

Read only

Supply Air Temperature Shows the value of the SAT sensor.

Note: This sensor is required.Read only

Return Air Temperature Shows the value of the return air sensor, ifinstalled.

Read only

Space Humidity Input Shows the value of the space humidity, ifinstalled.

Read only

Summary:Sensors


Shows the value of the outdoor air temperature, ifinstalled.

Read only

Summary:Network

Communication Status Shows the status of the zone bus communication. Read only

Start Commission When set to trigger, the commissioningsection can turn on and off equipment to testfunctionality. Set to Normal when completed. Ifset to Trigger, the controller returns to Normalafter two hours.

Adjustable: Normal/Trigger

Heat Stage 1 Turns the heating stage 1 on when startcommission is set to Trigger.

Adjustable: Off/On

Heat Stage 2 Turns the heating stage 2 on when startcommission is set to Trigger.

Adjustable: Off/On

Cool Stage 1 Turns the cooling stage 1 on when startcommission is set to Trigger.

Adjustable: Off/On


Adjustable: Off/On


Adjustable: Off/On


Adjustable: Off/On

Supply Fan Turns the fan on when start commission is set toTrigger.

Adjustable: Off/On

Supply Fan Command The fan speed command is adjustable when thestart commission is set to Trigger.

Adjustable: 0% to 100%

Commissioning:Commissioning

Econ Command The economizer damper command is adjustablewhen the start commission is set to Trigger.




PID Tune Reset Resets the Pattern Recognition Adaptive Control(PRAC +) tuning to the default values.

Adjustable: Enable/Disable

Commissioning:RTU

Temporary OccupancyTimeout

The duration of a temporary occupancy request.This value is also set by the zone coordinator.

Adjustable: 30 min to480 min

Commissioning:Fan


Shows the duct pressure setpoint that thefan modulates to maintain, when set to a VAVcontroller.

Adjustable: 0 in. wc to 5in. wc

Cooling Mode Enabled forOperation

Enables or disables cooling Adjustable: No/Yes

OAT Cooling LockoutEnabled

Enables cooling lockout when the temperaturefalls below the setpoint, if outdoor airtemperature is installed.

Adjustable: No/Yes

Equalize Cooling StagesRuntime

Switches the staging to equalize the runtime onthe compressors.

Adjustable: No/Yes

Commissioning:Cooling


Shows the value of the supply air setpoint. Read only

Heating Mode Enabled forOperation

Enables or disables heating Adjustable: No/Yes

OAT Heating LockoutEnabled

Enables heating lockout when the temperaturerises above the setpoint, if an outdoor airtemperature is installed.

Adjustable: No/Yes

Commissioning:Heating

VAV RAT Heating Setpoint If you have heating installed on a VAV RTU, youmust have a return air temperature sensor sothe unit can enter into morning warmup. Thisis the setpoint that the unit controls the returnair to before the unit switches to cooling in themorning.


Commissioning:Economizer


The economizer switchover setpoint. Adjustable: 40°F to80°F

Demand Ventilation MaxEconomizer Position

Sets the maximum position that the economizerdamper opens to when the units is in a demandventilation cycle.



Sets the point where the CO2 level starts todemand control ventilation. Above this level thezone switches to DCV and starts using the DCVpositions, if enabled on the RTU.

Adjustable: 0 ppm to5000 ppm

Commissioning:DemandVentilation

Indoor Air Quality SensorRange

Sets the range of the installed sensor.

• 0 Volts = 0 ppm• 10 Volts = this setting.• Default is 2000 ppm.

Adjustable: 0 ppm to5,000 ppm

Device Name Sets the name of the device. This name appearson the device list.

Adjustable: 30characters

Commissioning:Network

Address Sets the address of the controller. You can adjustthe address on the local display of the controller,or on the SBH.

Adjustable: 0 to 127



PID Tuning Type Sets whether the Proportional-integral-derivative(PID) is in auto tuning or manual tuning.

Adjustable:Automatic/Manual

Proportional Band Sets how much the error term controls thepresent value. The error term is the differencebetween supply air temperature and the setpoint.

Note: In a VAV setup, this can bethe difference between the returnair temperature and the setpoint.

Lower proportional band means amore aggressive PID.

Adjustable: -100 to 100

Disable Integral Time Enables or disables the integral term, historicalerror.

Adjustable: Disable/Enable

Integral Time Sets how much the historical error controlsthe present value. The historical error is thesummation of past error. The time representshow long it takes for historical error factor toequal as the proportional term.

Adjustable: Varies withinterval setting.Best practice: between2 and 30 x interval

Saturation Time Sets how long it takes to saturate the PID.Saturating means that the present value is equalto 0% (low) or 100% (high) for a certain timeinterval.

Adjustable: 0 s to 3600s

Interval Sets how often the PID calculates a new presentvalue.


Eff Proportional Band Shows the current value of the proportional band,whether manual or automatically tuned.

Read only

Commissioning:Econ Temp PIDData

Eff Integral Time Shows the current value of the integral time,whether manual or automatically tuned.

Read only

PID Tuning Type Sets whether the PID is in auto tuning or manualtuning mode.

Adjustable:Automatic/Manual

Proportional Band Sets how aggressively the error term controls thepresent value. The error term is the differencebetween the supply air temperature and thesetpoint.

Note: In a VAV setup, this can bethe difference between returnair proportional and the setpointLower proportional band means amore aggressive PID.


Disable Integral Time Enables and disables the integral term, historicalerror.

Adjustable: Disable/Enable

Integral Time Sets how much the historical error controlsthe present value. The historical error is thesummation of past error. The time representshow long it takes for historical error factor toequal the proportional term.

Adjustable: Varies withinterval setting, needsto be between 2 and 30x interval

Commissioning:Heating PID Data

Saturation Time Sets how long it takes to saturate the PID.Saturating means that the present value is equalto 0% (Low) or 100% (High) for a certain timeinterval.




Interval Sets how often the PID calculates a new presentvalue.



Read only


Read only

PID Tuning Type Sets whether the PID is in auto tuning or manualtuning mode.

Adjustable: Automatic/Manual

Proportional Band Sets how much the error term, controls thepresent value. The error term is the differencebetween supply air temperature and thesetpoint. Lower proportional band means a moreaggressive PID.


Disable Integral Time Enables and disables the integral term, historicalerror.

Adjustable - Disable/Enable

Integral Time Sets how much the historical error, controlsthe present value. The historical error is thesummation of past error. The time representshow long it takes for historical error factor toequal the same amount as the proportional term.

Adjustable: Varies withinterval setting, rangebetween 2 and 30 xinterval

Saturation Time Sets how long it takes to saturate the PID.Saturating means that the present value is equalto 0% (Low) or 100% (High) for a certain timeinterval.


Interval Sets how often the PID calculates a new presentvalue



Read only

Commissioning:Cooling PID Data


Read only

Controller:Firmware

Firmware Version Displays the firmware version of the controller. Read only

Time The time that was set by the SBH. To change thedate and time go to the settings|systems settingon the SBH and adjust the date and time. Thisadjustment syncs to all online devices.

Read onlyController: Time

Date Shows the date that the controller is set to. Read onlyCommunication Status The status of the zone bus communication. Read onlyDevice Name The name of the device. This name appears on

the device list.Adjustable: 30characters

Device Description The description of the device. This descriptionappears on the device list.


Address The address of the controller. This address isadjustable on the local display of the controllerand on the SBH.


Operating Baud Rate Shows the operating baud rate of the controller. Read onlyBaud Rate Sets the baud rate for the controller. When set to

Auto, the zone coordinator sets the baud rate.Adjustable:Auto/1200/9600/19200/38400/76800

Controller:Network

Device OID This is the BACnet device Object Identifier(OID) for the system bus. If the device is on astandalone Verasys System, this parameter isnot used if the device is connected to a 3rd partyfacility management system, it sets the BACnet IDfor the zone coordinator.

Adjustable: 1 to4,194,303



Language Sets the language of the controller. Adjustable: English/French/Spanish

Units Sets the units of the controller. Adjustable: Imperial/Metric

Relearn System Rediscovers sensors connected to the VEC100.Use when removing optional sensors to removethe unreliable readings from UI

Adjustable: False/True

Controller: Misc

Number of NetworkSensors Online

Shows the number of network sensors that areconnected. A space humidity sensor is the onlysensor that is allowed.

Read only

Unit Status Shows the status of the rooftop units Read onlyUnit Model Number Shows the model number of the unit Adjustable: 30

charactersUnit Serial Number Shows the serial number of the unit Adjustable: 30

charactersModel Name Shows the model name of the controller Read onlyReset Lockouts Shows the object you command to reset the

lockouts that are latching.Adjustable: Off/On

Unit Enable Enables or shuts down the unit. If set toShutdown, the unit remains off until set toenable.

Adjustable: Enable/Shutdown

Details: Unit

Fan Runtime Reset Resets the fan runtime. Adjustable: Off/OnOperational Occupancy The state that the occupancy is in. Read onlySupply Air TemperatureSetpoint

Shows the SAT setpoint that the device controlsto.

Read only

Supply Air Temperature The value of the SAT. Read onlyVAV RTU Heating Setpoint If you have heating installed on a VAV RTU you

must have a return air temperature sensor sothe unit can go into morning warmup. This isthe setpoint that the unit controls the returnair to before the unit switches to cooling in themorning.


Return Air Temperature Shows the value of the return air sensor, ifinstalled.

Adjustable: Off/On

Duct Static Pressure Shows the duct static pressure when set to a VAVunit.

Read only

Details: Setpoints


Shows the duct static pressure setpoint when setto a VAV unit.


Fan Command Shows the current state of the fan. Read onlyFan% Output Shows the fan percent command when set to a

VAV unit.Read only

Fan Status The status of the supply fan. Read onlyAir Proving Switch If supplied, this is the air proving switch for the

supply fan.Read only

Duct Static Pressure The value of the duct static pressure sensor, ifinstalled.

Read only

Supply Air Temperature The value of the SAT. Read onlyFan Accumulated Runtime The value of the runtime since the last reset Read only

Details: Control:Fan: Status

Dirty Filter Switch Shows the value of the dirty switch filter, ifsupplied.

Read only




Shows the duct static pressure setpoint when setto a VAV unit.


Fan Runtime Limit Sets the limit at which the device triggers aservice priority alarm for maintenance. Forexample, to change a filter.

Adjustable: 100 to10,000 hours

Details: Control:Fan: Setup

Fan Runtime Reset Resets the value of the accumulated runtime to 0. Adjustable: Off/OnCooling Status Shows the status of the cooling control. Read onlyNumber of Cooling StagesInstalled

Sets the number of cooling stages that arecontrolled.

Adjustable: 0 to 2

Supply Air Temperature Shows the value of the SAT. Read only

1Details: Control:Cooling: Status1

Staged Cooling% Output Shows the percent output of the cooling controlloop.

Read only

Compressor Stage 1 Status Shows the current status of the compressor. Read onlyCompressor Stage 1Command

Shows the status of the compressor command. Read only

Compressor Stage 1Lockout

Prevents the stage from turning on. If the stagelockout is set to Yes, the compressor is not useduntil set to No.

Adjustable: No/Yes

Min On Time RemainingCompressor 1

Shows a countdown of the time remaining on theminimum on timer.

Read only

Min Off Time RemainingCompressor 1

Shows a countdown of the time remaining on theminimum off timer.

Read only

Details: Control:Cooling: Stage 11

Compressor Stage 1Accumulated Runtime

Shows the amount of runtime accumulated onthe compressor since that last reset of runtime.

Read only

Compressor Stage 2 Status The current status of the compressor Read onlyCompressor Stage 2Command

The status of the compressor command Read only



Adjustable: No/Yes


A countdown of the time remaining on theminimum on timer.

Read only


A countdown of the time remaining on theminimum off timer.

Read only



The amount of runtime accumulated on thecompressor since that last reset of runtime.

Read only

Compressor Stage 3 Status The current status of the compressor. Read onlyCompressor Stage 3Command

The status of the compressor command. Read only



Adjustable: No/Yes



Read only


A countdown of the time remaining on theminimum off timer

Read only




Read only



Compressor Stage 4 Status The current status of the compressor Read onlyCompressor Stage 4Command

The status of the compressor command Read only



Adjustable - No/Yes



Read only




Read only



Read Only

Cooling Mode Enabled forOperation

Enables or disables cooling Adjustable: No/Yes

OAT Cooling LockoutEnabled

If an outdoor air temperature is installed, coolinglockout may occur when the temperature fallsbelow setpoint.

Adjustable: No/Yes

OAT Cooling LockoutTemperature

The outdoor air temperature that sets the lockoutof the compressors.


Equalize Cooling StagesRuntime

Balancing the runtime on the cooling stages.Setting the parameter to yes switches the stagingto equalize the runtime on the compressors.

Adjustable: No/Yes

SAT Limit for Cooling Enable Sets a low SAT limit to drop compressors toprotect equipment.

Adjustable: No/Yes

SAT Limit for CoolingSetpoint

Sets the low SAT limit setpoint. Adjustable: 40°F to 65°F

Cooling Min On Time Configures the minimum runtime for acompressor stage.

Adjustable: 120 s - 360s

Cooling Min Off Time Configures the minimum off time for acompressor stage.

Adjustable: 120 s - 360s

Details: Control:Cooling: Setup1

Cooling Interstage Delay Configures the delay between staging the nextcompressor on.

Adjustable: 30 s - 900 s

Heating Status The status of the heating control. Read onlyNumber of Heating StagesInstalled

Sets the number of heating stages that the devicecontrols.

Adjustable: 0 - 22Details: Control:Heating: Status2

Staged Heating% Output The percent output of the Heating control loop. Read onlyHeating Stage 1 Status The current status of the Heating Stage. Read onlyHeating Stage 1 Command The status of the Heating Stage command. Read onlyHeating Stage 1 Lockout Prevents the stage from turning on. If the stage

lockout is set to Yes, the compressor is not useduntil set to No.

Adjustable: No/Yes

Min On Time RemainingHeating 1


Read only

Min Off Time RemainingHeating 1


Read only

Details: Control:Heating: Stage 12

Heating Stage 1Accumulated Runtime

The amount of runtime accumulated on theHeating Stage since that last reset of runtime.

Read only



Heating Stage 2 Status Shows the current status of the Heating Stage. Read onlyHeating Stage 2 Command Shows the status of the Heating Stage command. Read onlyHeating Stage 2 Lockout Prevents the stage from turning on. If the stage

lockout is set to Yes, the compressor is not useduntil set to No.

Adjustable: No/Yes

Min On Time RemainingHeating 2


Read only

Min Off Time RemainingHeating 2


Read only

Details: Control:Heating: Stage 22

Heating Stage 2Accumulated Runtime

The amount of runtime accumulated on theHeating Stage since that last reset of runtime.

Read only

Heating Mode Enabled forOperation

Enables or disables heating. Adjustable: No/Yes

OAT Heating LockoutEnabled

If an outdoor air temperature is installed, heatinglockout can occur when the temperature fallsbelow setpoint.

Adjustable: No/Yes

OAT Heating LockoutTemperature

The outdoor air temperature that sets the lockoutof the Heating Stages.

0°F to 100°F

SAT Air Temp Limit forHeating Enabled

The user can set a high SAT limit to drop heatingto protect equipment.

Adjustable: No/Yes

SAT Air Temp Limit forHeating Setpoint

Sets the low high limit setpoint. Adjustable: 100°F to180°F

Heating Min On Time Configures the minimum runtime for a heatingstage.


Heating Min Off Time Configures the minimum off time for a heatingstage.


Details: Control:Heating: Setup2

Heating Interstage Delay Configures the delay between staging the nextheating stage on.


Economizer Status The status of the economizer. Read onlyEconomizer Damper%Output

The percent output of the economizer. Read only

Economizer Free CoolingAvailable

The state of the economizer. Read only


The outdoor air temperature. An outdoor airtemperature sensor is required for economizercontrol.

Read only

Space Humidity Input The value of the space humidity if installed. Read only

3Details: Control:Economizer:Status3

Purge Input The value of the purge input if installed. Read onlyEconomizer Installed Shows that the economizer is installed. Adjustable: No/YesEconomizer MinimumPosition Setpoint

The minimum position setting for the economizer Adjustable: 0% to 100%


The economizer switchover setpoint. Adjustable: 40°F to80°F

Economizer Damper ClosedVoltage

The voltage output for closed Adjustable: 0 V to 10 V

Details: Control:Economizer:Setup3

Economizer Damper OpenVoltage

The voltage output for open Adjustable: 0 V to 10 V




The value of the indoor air quality sensor ifinstalled.

Read only

Demand Ventilation MaxEconomizer Position

The maximum position that the economizerdamper opens to when the units is in a demandventilation cycle.



Sets the point where the CO2 level starts demandcontrol ventilation. Above this level the zoneswitches to DCV and starts using the DCVpositions. When you exceed this limit it issues aDCV call to the rooftop unit if DCV is enabled onthe RTU.

Adjustable: 0 ppm -5000 ppm

4Details: Control:DemandVentilation4

Indoor Air Quality SensorRange

Sets the range of the installed sensor. 0 V = 0 ppmand 10 V = this setting. Default is 2000 ppm.

Adjustable: 0 ppm -5,000 ppm

IAQ Offset Used to calibrate the CO2 sensor. Appears hiddenif it is not connected.

Adjustable: -250 ppm -250 ppm

Indoor Air Quality Input The reading from the installed air quality sensor,CO2 sensor

Read only

Space Humidity Input Shows the value of the space humidity if installed. Read onlyOAT Sensor Type Sets the type of sensor used for outdoor air

temperatureAdjustable:

• Nickel• Platinum• A99B• 2.25K NTC• 10K NTC• 10K NTC Type 3

OAT Offset Calibrates the Outside Air Temperature Sensor.Appears hidden if it is not connected.

Adjustable: -5°F to 5°F

Outdoor Air Temperature Shows the value of the outdoor air temperaturesensor if installed.

Read only

SAT Sensor Type Sets the type of sensor used for SAT. Adjustable:


SAT Offset Used to calibrate the SAT Sensor. Adjustable: -5°F - 5°FSupply Air Temperature Shows the value of the SAT sensor if installed. Read only

Details: Service:Inputs: Sensors

RAT Sensor Type Sets the type of sensor used for SAT. Adjustable:




RAT Offset Used to calibrate the Return Air TemperatureSensor. Appears hidden if it is not connected.

Adjustable: -5°F - 5°F

Return Air Temperature The value of the return air temperature sensor ifinstalled.

Read only

Duct Static Pressure The value of the duct static pressure sensor ifinstalled.

Read only

Air Proving Switch The value of the air proving switch if installed. Read onlyDirty Filter Switch The value of the dirty filter switch if installed. Read only

Details: Service:Inputs: BinaryInputs Purge Input The value of the purge input if an economizer is

installed.Read only

Heating Stage 1 Command The value of the heating stage 1 command ifinstalled.

Read only

Heating Stage 2 Command The value of the heating stage 2 command ifinstalled.

Read only


The value of the compressor stage 1 command ifinstalled.

Read only



Read only



Read only



Read only

Details: Service:Outputs: Binary

Fan Command The value of the fan command. Read onlyEconomizer Damper%Output

The value of the economizer damper command ifinstalled.

Read onlyDetails: Service:Outputs: Analog

Fan% Output The value of the fan output if this is a VAV unit. Read onlyNumber of Cooling StagesInstalled

Sets the number of cooling stages controlled. Adjustable: 0 - 2

Number of Heating StagesInstalled

Sets the number of heating stages controlled. Adjustable: 0 - 2

Economizer Installed Declares that economizer is installed. Adjustable: No/YesAir Proving Switch Setup Sets the air proving switch. You can hardwire a

switch or use the static pressure sensor. If thesupply fan runs without proof, the applicationshuts down the fan and retries in 15 minutes.

Adjustable:

• Fan StatusDevice

• Duct StaticPressureSensor

• NoneEqualize Cooling StagesRuntime

Balancing the runtime on the cooling stages.Setting the parameter to yes switches the stagingto equalize the runtime on the compressors.

Adjustable: No/Yes

OAT Cooling LockoutTemperature

The outdoor air temperature that sets the lockoutof the compressors.

Adjustable: 0°F - 100°F

Economizer MinimumPosition Setpoint

The minimum position setting for the economizer Adjustable: 0% to 100%

Details: Service:Factory

Rooftop Controller Type Sets the system type that the controller is tryingto control.

Adjustable:

• ChangeoverBypass

• VAV



Supply Air TemperatureAlarm Offset

If SAT is not within this value, the SAT alarm delaystarts. Examples: If the supply air setpoint is 55°Fand this is set to 8°F, then the supply air must beunder 63°F or the delay timer starts. If the supplyair setpoint is 110°F and this is set to 8°F then thesupply air must be above 102°F or the delay timerstarts.

Adjustable: 0°F - 25°F

Supply Air TemperatureAlarm Delay

Supply fan alarm delay timer. If the supply aretemperature offset value is not reached then thistimer starts. If the timer times out a SAT alarm issent.

Adjustable: 0 s - 3,600 s

Cancel ASCD Timers Cancels the minimum on and off timers whentriggered.


Demand VentilationFeature

Enables and disables demand ventilation feature Adjustable: Off/On



Unit Status 10 samples in total. One sample taken everychange of value.

Read only

Fan Status 10 samples in total. One sample taken everychange of value.

Read only

Cooling Status 10 samples in total. One sample taken everychange of value.

Read only

Heating Status 10 samples in total. One sample taken everychange of value.

Read only

Economizer Status 10 samples in total. One sample taken everychange of value.

Read only

Operational Occupancy 10 samples in total. One sample taken everychange of value.

Read only

Supply Air Temperature 100 samples are taken at a 15 minute period. Read onlyOperational Outdoor AirTemperature

100 samples are taken at a 15 minute period. Read only

Compressor Stage 1 Status 10 samples in total. One sample taken everychange of value.

Read only

Compressor StageCommand 1

10 samples in total. One sample taken everychange of value.

Read only

Compressor Stage 2 Status 10 samples in total. One sample taken everychange of value.

Read only

Compressor StageCommand 2

10 samples total 1 sample taken every change ofvalue.

Read only

Heating Stage 1 Command 10 samples in total. One sample taken everychange of value.

Read only

Heating Stage 1 Enabled 10 samples in total. One sample taken everychange of value.

Read only

Heating Stage 2 Command 10 samples in total. One sample taken everychange of value.

Read only

Heating Stage 2 Enabled 10 samples in total. One sample taken everychange of value.

Read only

Fan Command 10 samples total. 1 sample taken every change ofvalue.

Read only

Air Proving Switch 10 samples total. 1 sample taken every change ofvalue.

Read only

Fan Status 10 samples total. 1 sample taken every change ofvalue.

Read only

Dirty Filter Switch 10 samples total. 1 sample taken every change ofvalue.

Read only



Return Air Temperature 100 samples are taken at a 15 minute period. Read onlySpace Humidity 100 samples are taken at a 15 minute period. Read onlyEconomizer Damper%Output


Trends

Economizer Status 10 samples total 1 sample taken every change ofvalue.

Read only

1 In order to get the Details | Control | Cooling tabs you must have at least one stage of cooling defined under theDetails | Service | Factory tab.

2 In order to get the Details | Control | Heating tabs you must have at least one stage of heat defined under the Details |Service | Factory tab.

3 In order to get the Details | Control | Economizer tabs you must have the economizer installed parameter set to yesunder the Details | Service | Factory tab.


4 In order to get the Details | Control | Demand Ventilation tabs you must have the economizer installed parameter setto yes and have demand ventilation feature set to on under the Details | Service | Factory tab.

Table 15: VZC100 parameters and objectsMenu Object or parameter Description Adjustable

Fan Status This is the fan status of the change over bypass orVAV unit that is suppling air to the zones.

Read only

Supply Air Temperature This is the SAT of the change over bypass or VAVunit that is suppling air to the zones.

Read only

Unit Status This is the unit status of the change over bypassor VAV unit that is suppling air to the zones.

Read only

Zone Temperature This is the zone temperature of the zone(s)connected to the zone coordinator. The list showseach zone temperature of each zone connected.

Read only

Zone Vote This is the vote sent from the COBP systems tothe zone coordinator from the connected zones.The vote is for either Urgent Heat, Heat, Satisfied,Cool or urgent Cool. The zone coordinatordetermines what state the unit controls to basedon all of the votes from the zones.

Read only

Home Page

Active Mode On VAV systems, this is the current state the zoneis in. Heating, Cooling or Satisfied. Each zoneshows their mode.

Read only

Unit Enable With this object you can command the unit toshut down. This can shut down all of the zones.


Network TemporaryOccupancy Request

If any zone is in a temporary occupancy state thisflags as true. The temporary occupancy commandis then sent for the length of the temporaryoccupancy timeout.


Temporary OccupancyTimeout

The duration of a temporary occupancy request.This value is sent to the rooftop unit controllerwhen adjusted.


Representative Zone On VAV systems this is the zone that representsnight setup and setback zone. You can use this toreset the SAT if it is enabled.

Adjustable: Range:46°F to 99°F

Load Shed Active The status of the load shed command to the zonecoordinator. When active, all zones are in loadshed if the zones are enabled for load shed.

Read only

Unit

Zoning System State This is a trouble shooting object that identifiesmissing rooftop units, or unsupported rooftopunits, a bypass damper when it is not needed, oran unsupported zone.

Read only

Control Mode Sets the mode of the unit. Adjustable:

• Auto• Cool• Heat• Fan Only• Off

Commissioning

Balance Mode When initiated, zone dampers index to theirmaximum positions, VAV boxes index to theircooling maximum flow positions and the bypassdamper closes.




Title 24 Test Mode When you are in title 24 test mode, theeconomizer damper ramp rate drops from 5%every 30 minutes to 5% every two minutes, so youcan test the demand ventilation mode sequencefaster. This does not test the Title 24 load shed.


Construction Mode Sets the mode of the unit during construction.This ignores typical shutdown conditions. Use thisfeature to temper the space during construction.Only available during change over bypass. Alsomake sure zone dampers are blocked open whenyou run the unit in construction mode to relieveduct pressure.

Adjustable:

• Not in Use• Heat• Cool• Fan Only

Firmware Version Displays the firmware version of the controller. Read onlyRelearn System Alerts the zone coordinator to rediscover all of the

devices that are connected to the zone bus.Adjustable: False/True

Address Shows the address of the controller. The addressis set by the dip switches on the controller.

Read only

Device OID This is the BACnet device OID for the system bus.If on a standalone Verasys System this parameteris not used, but if connected to a 3rd party facilitymanagement system it sets the BACnet ID for thezone coordinator.

Adjustable: Range: 1 to4,194,303

Time The time that was set by the SBH. To change thedate and time, navigate to settings > systemson the SBH and adjust the date and time. Thisadjustment syncs to all online devices.

Read only

Controller

Date Shows the date that the controller is set to. Read onlySupply Temperature CoolingSetpoint

On change over bypass systems, this is thesetpoint the RTU controls to when the systemcalls for cooling.


Supply TemperatureHeating Setpoint

On change over bypass systems, this is thesetpoint the RTU controls to when the systemcalls for heating.



On VAV systems, if the supply air temp resetstrategy is set to true, this is the median setpointthe unit controls to.


Maximum Supply TempSetpoint Adjust

On VAV systems, if the supply air temp resetstrategy is set to true, this is the maximumadjustment the of the supply air setpoint plus orminus what it is set to.

Adjustable: 0°F to 5°F

Duct Pressure Setpoint On VAV systems, if the duct static setpoint resetstrategy is set to true, this is the median setpointthe unit controls to.

Adjustable: 0.5 in. wc to4.5 in. wc

Max Duct Static SP Adjust On VAV systems, if the duct static setpoint resetis set to true, this is the maximum adjustment ofthe duct pressure setpoint plus or minus what it isset to.

Adjustable: 0 in. wc to0.5 in. wc

Details: Setpoints

Economizer MinimumPosition Setpoint

Sets the economizer minimum position if theeconomizer is installed on the unit.




Supply Temp Reset Strategy On VAV Systems, if set to true the zonecoordinator resets the SAT based on the zone thatis set as the representative zone. If the zone isproviding as much cooling as it can, it adjusts theSAT down towards the supply air setpoint minusmaximum SAT adjust. If the zone is satisfied itadjusts the SAT up towards the supply air setpointplus maximum SAT adjust.


Duct Static Setpoint ResetEnable

On VAV Systems, if set to true the zonecoordinator resets the duct static pressuresetpoint based on the zone that has the mostopen damper trying to control it between 85%and 95% open. If the zone is less than 85% itadjusts the duct pressure down. If the zone isgreater than 95% it adjusts the duct pressure up.Using the Max Duct Static setpoint adjust to setthe limits.


Unocc Heating CoolingEnable

On VAV systems, this enables the night setup andsetback of the unit based on the conditions of therepresentative zone.


Details: Control

VFD Econ Min Pos Reset On VAV Systems, the VFD economizer minimumposition reset strategy adjusts the economizerminimum position proportional to the supply fanspeed to maintain the outdoor ventilation rate.


Min Requests to Change The system changes from heat to cool when thecooling requests exceeds the minimum numberof requests to change modes and all heatingrequests have been satisfied below this value.The system changes from cool to heat when theheating requests exceeds the minimum numberof requests to change modes and all coolingrequests have been satisfied below this value.

Adjustable: 1 to 4

Min Urgent Requests toChange

The system changes from heat to cool when theurgent cooling requests exceeds the minimumnumber of urgent requests to change modes.The system changes from cool to heat when theurgent heating requests exceeds the minimumnumber of urgent requests to change modes.

Adjustable: 1 to 4

Urgent Heat Requests Number of zones with urgent requests for heat. Ready onlyTotal Heat Requests Number of zones with requests for heat. A

combination of urgent and regular requests.Ready only

Urgent Cool Requests Number of zones with urgent requests forcooling.

Ready only

Total Cool Requests Number of zones with requests for cooling. Acombination of urgent and regular requests.

Ready only

Changeover Min Time A user-set timer prevents cycling between theheat and cool modes. The timer begins runningwhen it enters either the heat or cool mode. Onceit expires, the system may change modes if theother conditions are met. The timer restarts whenthe mode changes.


Details:Changeover

Changeover State The current state of the changeover timer Read only


Table 16: BYP200 parameters and objectsMenu Object or Parameter Description Adjustable

Duct Static Pressure The Duct Static Pressure reading from thedifferential pressure sensor.

Read only


This is the setpoint the controller is modulatingthe bypass damper(s) to.


Damper Position The commanded position of the bypassdamper(s).

Read only

Unit Enable The command given to the bypass damper by thezone coordinator.


Home Page

Scheduled Occupancy The occupied command from the zonecoordinator. When occupied the bypass damperscontrol to setpoint. When unoccupied they are setto 50%.

Adjustable:

• Occupied• Unoccupied• Standby• Not Set

Duct Pressure Setpoint This is the setpoint the controller is modulatingthe bypass damper(s) to.


Damper Maximum Position Sets the maximum position the damper moves to. Adjustable: Range 0%to 100%

Heat Cool Mode Shows what state the unit is in. Heating, Cooling,Fan Only, Balancing, Satisfied or Off.

Read only

Scheduled Occupancy Shows the occupied command from the zonecoordinator. When occupied the bypass damperscontrol to the setpoint. When unoccupied theyare set to 50%.

Adjustable:

• Occupied• Unoccupied• Standby• Not Set

Unit Enable The command given to the bypass damper by thezone coordinator.


Damper Direction to Close Sets the direction to close the bypass damperthat is a part of the controller. To set the secondbypass damper direction you must set a jumperon the actuator.

Adjustable: clockwise/counter clockwise

Setup

Power Fail Restart Enable Upon a power fail the controller delays 5 minutesbefore it comes back operational. This is done soelectrical demand is not spiked.


Firmware Version Displays the firmware version of the controller. Read onlyAddress Shows the address of the controller. The address

is set by the dip switches on the controller.Read only

Controller

Unit Model Number Shows the model number of the controller. Read onlyDuct Static Pressure 288 samples are taken at a 15 minute period. Read onlyScheduled Occupancy 10 samples in total. 1 sample taken every change

of value.Read only

Trends

Damper Position 288 samples are taken at a 15 minute period. Read only


Table 17: ZEC410 objects and parametersMenu Object or Parameter Description Adjustable

Zone Temperature Zone temperature reading from the zone sensor. Read onlyActive Setpoint This is the setpoint the zone controls to, taking

into account occupancy and the warmer/cooleradjustment.

Read only

Operational Occupancy This is the commanded occupancy from the zonecoordinator. The zone is either in an occupied,unoccupied or standby state. Temporaryoccupancy can switch this from unoccupied tooccupied. If a motion sensor is connected andmotion is not sensed it switches to standby.

Read only

Active Mode This is the current state the box is in. Heating,Cooling, Satisfied or Temperature Unreliable. Thisobject only shows up on VAV systems.

Read only

Zone Vote This is the vote sent to the zone coordinator. Thezone votes for either Urgent Heat, Heat, Satisfied,Cool or urgent Cool. The zone coordinatordetermines what state the unit controls to basedon all of the votes from the zones. This object onlyshows up on change over bypass systems.

Read only

Damper Position The commanded position of the zone damper. Read onlySupply Flow The supply air flow measured by the VAV box. Read onlySupply Flow Setpoint The flow setpoint the damper is controlling the

supply air flow to.Read only

Fan Command The VAV box fan command. Read onlyHeating Stage Command 1 The first stage of heating command,

Note: This is only for ZEC410-1 andZEC410-3 controllers.

On the ZEC410-3 this is used forenabling SCR heat.

Read only

Heating Stage Command 2 The second stage of heating command.

Note: This is only for ZEC410-1controllers.

Read only

Supplemental HeatingStage Command

The supplemental heating stage command.

Note: This is only for ZEC410-1controllers.

Read only

Heating Percent Command The box heating percent command

Note: This is only on ZEC410-2 andZEC410-3 controllers.

Read only

Supplemental HeatingPercent Command

The Supplemental heating percent command.

Note: This is only on ZEC410-2 andZEC410-3 controllers.

Read only

Home Page

Temp OCC Temporary Occupancy. If enabled, anyadjustment to the zone sensor during theunoccupied mode places the zone in theoccupied state and this parameter sets to true.The Network Temporary Occupancy Requestparameter also sets to true, and the unit startsand runs for the temporary occupancy duration.

Read only



Warmer/Cooler Adjustment The output value of the adjustment knob at thezone sensor. The warmer/cooler adjustmentrange parameter sets the range of thisadjustment.

Read only

Occupied Cooling Setpoint When occupied the thermostat controls coolingto this level. Set above occupied heating setpoint.Defaults to 72°F.


Occupied Heating Setpoint When occupied the thermostat controls heatingto this level. Set below occupied cooling setpoint.Defaults to 68°F.


Unoccupied CoolingSetpoint

When unoccupied the thermostat controlscooling to this level. Defaults to 80°F.


Unoccupied HeatingSetpoint

When unoccupied the thermostat controlsheating to this level. Set below unoccupiedcooling setpoint. Defaults to 60°F.


Standby Cooling Setpoint In order for the standby cooling setpoint toappear, set the occupancy mode to external.When set to external the zone switches to thissetpoint when motion is no longer sensed andthe unit is occupied. Defaults to 74°F.


Standby Heating Setpoint In order for the standby Heating setpoint toappear, set the occupancy mode to external.When set to external, the zone switches to thissetpoint when motion is no longer sensed andthe unit is occupied. Defaults to 66°F.



This only appears on the ZEC410-2 controller.When the space temperature drops below theheating setpoint, the zone controller starts fromthe supply air temperature setpoint and resetsto the supply air setpoint heating Max. Once theHeating Max setpoint is reached the supply airflow resets from heating minimum flow to coolingmaximum flow.


Supply Air Setpoint HeatingMax

Same as above Adjustable: 45°F to140°F

Setpoints

Warmer/Cooler AdjustRange

This is the range that the warmer cooleradjustment on the sensor can affect thesetpoint. Setting it to zero means the user has noadjustment at the sensor. Default is 5°F


Cooling Maximum Flow Sets the maximum supply air flow of the VAV boxwhen cooling.

Adjustable: 0 cfm to10000 cfm

Occupied Cooling Min Flow Sets the minimum supply air flow of the VAV boxwhen cooling.


Commissioning:Flow

Occupied Heating Min Flow Sets the minimum supply air flow of the VAV boxwhen heating.

Note: When the zone is in heatingmode, the supply air flow isconstant. Thus, no maximumheating air flow.




Unoccupied Cooling MinFlow

Sets the minimum supply air flow of the VAVbox when unoccupied cooling and in the coolingmode.


Unoccupied Heating MinFlow

Sets the minimum supply air flow of the VAV boxwhen unoccupied heating and in the heatingmode.


Warmup Min Flow During morning warmup mode this is theminimum flow to the VAV box.


Staged Reheat Min Flow Sets the minimum heating flow for electric reheatcontrol. This parameter serves an additionalcontrol safety to the high-limit switches in thebox. It is best practice to set this parameter to 70cfm per kW of electric heat.


DCV Max Flow The DCV maximum ventilation flow. Asdetermined by the CO2 setpoint and proportionalband, this is the maximum flow the DCV is setto. For example, if this is set to 700cfm and thecontroller is requiring maximum ventilation asdetermined by the DCV sequence, the systemcontrols to 700cfm. However, if the systemrequires more flow because of temperaturecontrol, the flow setpoint may increase to theoccupied cooling maximum flow setpoint in thissection.


DCV Occupied Cooling MinFlow

While in demand control ventilation (CO2 Control)the minimum cooling supply air flow starts withthis and span to the DCV maximum flow.


DCV Occupied Heating MinFlow

While in demand control ventilation (CO2 Control)the minimum heating supply air flow starts withthis and span to the DCV maximum flow.


Supply Flow Shows the supply air flow measured by the VAVbox.

Read only

Supply Flow Setpoint Shows the flow setpoint the damper is controllingthe supply air flow to.

Read only

Supply Area Shows the supply inlet area used to calculate thesupply flow.

Adjustable: 0 sq. ft. to8.0 sq. ft.

Pickup Gain Shows the K factor for the box. Also used toadjusted the calibrate flow.

Adjustable: 0.1 to 9.9

Velocity Pressure Shows the velocity pressure sensed by the VAVbox.

Read only

Autocalibration Command This feature drives the VAV box damper shut andonce shut offsets the differential pressure sensorso it reads zero.


Autocalibration Offset The resulting offset of the differential pressuresensor after an autocalibration.

Read only

Autocalibration State The current state of the autocalibration mode. Read onlyCommissioning:Title 24 Load Shed

Load Shed Adjust This sets how the setpoint moves when a loadshed command is issued. For example, if theOccupied Cooling Setpoint is 72°F, the coolingsetpoint moves towards 76°F if the adjustmentis set to four. If the Occupied Heating Setpoint is70°F, the heating setpoint moves towards 66°F.




Load Shed Rate Limit This sets the rate at which the controller adjuststhe setpoint until it hits the load shed adjust.

Adjustable: 0 to 1 DegF/min

Load Shed Allowed Enables the user to remove zones from the loadshed command. Set this to false and the zone isremoved from a load shed.


Load Shed Active Shows the current command for a load shedevent.

Read only




Indoor Air Quality PropBand

Sets the rate at which the damper goes fromminimum to maximum position. For example: Ifset at 400ppm and the indoor air quality setpointis at 700ppm, the sensor needs to reach 1100ppmin order for the maximum position to be set. Thecontroller proportionally opens until it reachesthat point.


Commissioning:DCV1

Ventilation Timer This timer starts when you fall below the demandventilation indoor air quality setpoint and afterthis time expires, the DCV call to the rooftop unitexpires and goes back to economizer minimumposition.

Adjustable: 5 min to 30min

System Mode Shows the current mode of the system. Read onlyUnit Enable Enables or shuts down the zone control. Adjustable: Enable/

ShutdownPower Fail Restart Enable When the power fails, the controller delays 5

minutes before it comes back operational. This isdone so electrical demand is not spiked.


Warmer/Cooler AdjustEnable

Enables the warmer/cooler adjustment to offsetthe current setpoint.


Dual Max Enable Enables the Dual Max control sequence Adjustable: Enable/Disable

DCV Enable When set to CO2 the DCV section incommissioning appears and a CO2 sensor, whenconnected, controls the zone damper to addmore ventilation when the CO2 demand increasesabove setpoint.

Adjustable: None/CO2

Temp OCC Enable Temporary Occupancy. If enabled, anyadjustment to the zone sensor during theunoccupied mode places the zone in the occupiedstate and this parameter sets to true. In additionthe zone coordinators Network TemporaryOccupancy Request parameter sets to trueand the unit starts and run for the temporaryoccupancy duration. Setting the parameter todisable does not allow this function to take placefor this zone.


Control Setup

Zone Weight Enables the user to increase the importanceof a zone. For example, if zone weight is set tothree, it counts the vote of the zone three timesas much than a zone set to one. This parameteronly shows up on COBP systems.

Adjustable: 0 to 3



Zone Vote Allowed Enables the user to remove a zone from voting.This parameter only shows up on change overbypass systems.


Lockout Time If the zone stays 3°F away from temperaturesetpoint for this duration, the zone is removedfrom the voting until the zone gets back in rangeat some point.


Occupancy Mode When set to Schedule the zone switchesoccupancy state, using the occupancy schedule ofthe zone coordinator only. When set to External,the controller reads the occupancy sensor contactand toggle between occupancy setpoints andstandby setpoints during occupied mode of theschedule. When the schedule is unoccupied theunit switches to unoccupied setpoint and turnsoff.

Adjustable: External/Schedule

Auto Tune Enable Allows PRAC+ auto tuning algorithm tocontinuously tune the loops in the controller.Setting this to Disable turns off this feature.


PID Tune Reset Resets the PRAC+ tuning to the default values. Adjustable: Enable/Disable

Actuator Stroke Time Sets the damper actuator stroke time. Note: TheZEC410 actuator is a 60 second motor.


Box Heating Stoke Time Sets the actuator stoke time for the incrementalheating valve on a ZEC410-2 controller.


Supplemental HeatingStoke Time

Sets the actuator stoke time for the incrementalsupplemental heating valve on a ZEC410-2 andZEC410-3 controller.


Damper Polarity Sets the direction to close the zone damper. Adjustable: clockwise/counter clockwise

Box Heating Polarity Reverses the direction of the incremental heatingvalve. You can either switch this or reverse thewiring to the actuator. Only for the ZEC410-2controller.

Adjustable: Normal/Reverse

Supplemental HeatingPolarity

Reverses the direction of the incrementalsupplemental heating valve. You can either switchthis or reverse the wiring to the actuator. Only forthe ZEC410-2 and ZEC410-3 controller.


Number of Heating StagesInstalled

Sets the number of box heating stages. Only forthe ZEC410-1 controller.

Adjustable: 0 - 2

Fan Control Type Set the type of fan for the VAV Box. Adjustable:

• None• Parallel• Series

SAT Offset Used to calibrate the supply air temperaturesensor.

Adjustable: -5°F to 5°F

ZNT Sensor Offset Used to calibrate the zone temperature sensor. Adjustable: -5°F to 5°FCO2 Altitude Compensation Altitude compensation used to calibrate the

Netstat CO2 sensor.Adjustable: 700 hPa -1,200 hPa

Equipment Setup

IAQ Offset Used to Calibrate the CO2 Sensor. Only used forhardwired CO2 sensors not Netstat.

Adjustable: -250 ppmto 250 ppm





Controller

Unit Model Number Shows the model number of the controller. Read onlyZone Temperature 288 samples are taken at a 15 minute period. Read onlyIndoor Air Quality 288 samples are taken at a 15 minute period. Read onlySupply Air Temperature 288 samples are taken at a 15 minute period. Read onlyHeating Percent Command 288 samples are taken at a 15 minute period. Read onlySupplemental HeatingPercent Command


Heating Stage Command 1 10 samples total. 1 sample taken every change ofvalue.

Read only

Heating Stage Command 2 10 samples total. 1 sample taken every change ofvalue.

Read only

Fan Command 10 samples total. 1 sample taken every change ofvalue.

Read only

Supplemental HeatingStage Command

10 samples total. 1 sample taken every change ofvalue.

Read only

Trends

Supply Flow 288 samples are taken at a 15 minute period. Read only

1 Note in order for Commissioning | DCV tab to appear you must set the DCV Enable parameter to CO2.

Table 18: ZEC310 parameters and objectsMenu Object or Parameter Description Adjustable

Zone Temperature Zone temperature reading from the zone sensor. Read onlyActive Setpoint This is the setpoint the zone is controlling to

taking into account occupancy and the warmer/cooler adjustment.

Read only

Operational Occupancy This is the commanded occupancy from the zonecoordinator. The zone is either in an occupied,unoccupied or standby state. Temporaryoccupancy can switch this from unoccupied tooccupied. If a motion sensor is connected andmotion is not sensed, it switches to standby.

Read only

Zone Vote This is the vote sent to the zone coordinator. Thevote is either for Urgent Heat, Heat, Satisfied,Cool or urgent Cool. The zone coordinatordetermines what state the unit controls to, basedon all of the votes from the zones.

Read only

Damper Position The commanded position of the zone damper. Read onlyTemp OCC Temporary Occupancy. If enabled, any

adjustment to the zone sensor during theunoccupied mode places the zone in the occupiedstate and this parameter sets to true. In additionthe zone coordinators Network TemporaryOccupancy Request parameter sets to trueand the unit starts and run for the temporaryoccupancy duration.

Read only

Home Page

Warmer/Cooler Adjustment The output value of the adjustment knob atthe zone sensor. The range of this adjustmentis set by the warmer/cooler adjustment rangeparameter.

Read only



Occupied Cooling Setpoint When occupied, the thermostat controls coolingto this level. Set above occupied heating setpoint.Defaults to 72°F.

Adjustable: 46°F to99°F.

Occupied Heating Setpoint When occupied, the thermostat controls heatingto this level. Set below occupied cooling setpoint.Defaults to 68°F.



When unoccupied, the thermostat controlscooling to this level. Defaults to 80°F.



When unoccupied, the thermostat controlsheating to this level. Set below unoccupiedcooling setpoint. Defaults to 60°F.


Standby Cooling Setpoint In order for the standby cooling setpoint toappear, set the occupancy mode to external.When set to external, the zone switches to thissetpoint when motion is no longer sensed andthe unit is occupied. Defaults to 74°F.


Standby Heating Setpoint In order for the standby heating setpoint toappear, set the occupancy mode to external.When set to external, the zone switches to thissetpoint when motion is no longer sensed andthe unit is occupied. Defaults to 66°F.


Setpoints

Warmer/Cooler AdjustRange

This is the range that the warmer cooleradjustment on the sensor can affect thesetpoint. Setting it to zero means the user has noadjustment at the sensor. Default is 3°F.


Damper Cooling MinPosition

Sets the minimum position that the damperadjust to when the damper is cooling. Default is20%.


Damper Heating MinPosition

Sets the minimum position that the damperadjusts to when the damper is heating. Default is20%.


Commissioning:Flow

Damper Max Position This sets the maximum that the damper canopen. Use this to reduce flow or noise. Default is100%.


Load Shed Adjust The sets how the setpoints move when a loadshed command is issued. For example, if theOccupied Cooling Setpoint is 72°F the coolingsetpoint moves towards 76°F if the adjustmentis set to four. If the Occupied Heating Setpoint is70°F the heating setpoint moves towards 66°F.



Adjustable: 0 to 1 DegF/min

Load Shed Allowed The user can remove zones from the load shedcommand. Set this to false and the zone isremoved from a load shed.


Commissioning:Title 24 Load Shed

Load Shed Active Shows the current command for a load shedevent.

Read only

1Commissioning:DCV1






Indoor Air Quality PropBand

Sets the rate at which the damper goes fromminimum to maximum position. Example: If setat 400ppm and the indoor air quality setpoint isat 700ppm, the sensor needs to reach 1100ppmin order for the maximum position to be set. Thecontroller proportionally opens until it reachesthat point.


Ventilation Timer This timer starts when you fall below the demandventilation indoor air quality setpoint and afterthis time expires the DCV call to the rooftop unitexpires and goes back to economizer minimumposition.

Adjustable: 5 min to 30min

DCV Cooling Min Value The minimum damper position when coolingduring a demand ventilation control state.


DCV Heating Min Value The minimum damper position when heatingduring a demand ventilation control state.


DCV Max Vent Position The maximum ventilation position. As determinedby the setpoint and proportional band, this isthe maximum position to set the ventilation. Forexample, if this is set to 50% and the controller isrequiring maximum ventilation in the system, thedamper adjusts to 50%. However, if the systemrequires more heating or cooling that dampermay open further to the maximum position set inthe Commisioning > Flow section.


System Mode Shows the mode of the system. Read onlyUnit Enable Enables or shuts down the zone control. Adjustable: Enable/

ShutdownPower Fail Restart Enable Upon a power fail the controller delays five

minutes before it comes back operational. This isdone so electrical demand is not spiked.


Warmer/Cooler AdjustEnable

The warmer/cooler adjustment to offset thecurrent setpoint.


DCV Enable When set to CO2 the DCV section incommissioning appears and a CO2 sensor whenconnected, controls the zone damper to addmore ventilation when the CO2 demand increasesabove setpoint.

Adjustable: None/CO2

Temp OCC Enable Setting this parameter to enable means you canadjust the zone sensor during the unoccupiedmode, thus placing the zone in the occupiedstate. In addition, the zone coordinators NetworkTemporary Occupancy Request parametersets to true and the unit starts and runs forthe temporary occupancy duration. Setting theparameter to disable means this function cannottake place in this zone.


Zone Weight The user can increase the importance of a zone.For example, if the zone weight is set to three, itcounts the vote of the zone three times as muchthan a zone set to one.

Adjustable: 0 to 3

Zone Vote Allowed The user can remove a zone from voting. Adjustable: False/True

Control Setup

Lockout Time If the zone stays at 3°F away from thetemperature setpoint, the zone is removed fromthe voting until the zone gets back in range atsome point.




Occupancy Mode When set to schedule, the zone switchesoccupancy state using the occupancy schedule ofthe zone coordinator only. When set to external,the controller looks at the occupancy sensorcontact and toggle between occupancy setpointsand standby setpoints during occupied mode ofthe schedule. When the schedule is unoccupiedthe unit switches to unoccupied setpoint and turnoff.


Auto Tune Enable Allows PRAC+ auto tuning algorithm tocontinuously tune the loops in the controller.Setting this to disable turns off this feature.


PID Tune Reset Resets the PRAC+ tuning to the default values. Adjustable: Enable/Disable

Actuator Stroke Time Sets the damper actuator stroke time. Note: TheZEC310 actuator is a 60 second motor.

Adjustable: 30 s - 120 sEquipment Setup

Damper Polarity Sets the direction to close the zone damper. Adjustable: clockwise/counter clockwise



Controller

Unit Model Number Shows the model number of the controller. Read onlyZone Temperature 288 samples are taken at a 15 minute period. Read onlyTrendsIndoor Air Quality 288 samples are taken at a 15 minute period. Read only

1 Note in order for Commissioning | DCV tab to appear you must set the DCV Enable parameter to CO2.

Table 19: IOM100 objects and parametersMenu Object or Parameter Description Adjustable

BI-1 This is the state of BI-1. Read onlyBI-2 This is the state of BI-2. Read onlyAI-3 This is the value of AI-3. Read onlyAI-4 This is the value of AI-4. Read onlyBO-1 This is the command to BO-1. Adjustable: On/OffBO-2 This is the command to BO-2. Adjustable: On/OffBO-3 This is the command to BO-3. Adjustable: On/Off

Home Page

BO-4 This is the command to BO-4. Adjustable: On/OffBI-1 Current Value The current value of this BI. Read onlyBI-1 Description The description of what this BI is. Adjustable: 30

CharactersBI-2 Current Value The current value of this BI. Read onlyBI-2 Description The description of what this BI is. Adjustable: 30

CharactersAI-3 Current Value The current value of this BI. Read onlyAI-3 Description The description of what this BI is. Adjustable: 30

CharactersAI-4 Current Value The current value of this BI. Read only

Inputs

AI-4 Description The description of what this BI is. Adjustable: 30Characters


Table 19: IOM100 objects and parametersMenu Object or Parameter Description Adjustable

BO-1 Current Value The current value of this BO. Adjustable: On/OffBO-1 Description The description of what this BO is. Adjustable: 30

CharactersBO-2 Current Value The current value of this BO. Adjustable: On/OffBO-2 Description The description of what this BO is. Adjustable: 30

CharactersBO-3 Current Value The current value of this BO. Adjustable: On/OffBO-3 Description The description of what this BO is. Adjustable: 30

CharactersBO-4 Current Value The current value of this BO. Adjustable: On/Off

Outputs

BO-4 Description The description of what this BO is. Adjustable: 30Characters

AI-3 Point Type Defines what the point type is for this object. Adjustable:

• Undefined• Temperature• Humidity

• CO2• Light Sensor• Refrigerant• Building

Pressure 1• Building


Pressure 3

Configuration

AI-4 Point Type Defines what the point type is for this object. Adjustable:

• Undefined• Temperature• Humidity

• CO2• Light Sensor• Refrigerant• Building



Pressure 3


Table 20: TEC363x objects and parametersMenu Object or Parameter Description Adjustable

Zone Temperature On the edge of the circle of comfort, the zonetemperature reading from the zone sensorappears in one of the outer circles.

Read only

Operating Setpoint Inside the circle of comfort, this is the setpoint thezone controls to, taking into account occupancyand the warmer/cooler adjustment.

Read only

Occupied Status Inside the circle of comfort, the unit occupancystatus appears.

Read only

Unit Status Inside the circle of comfort, the unit statusshows the current status of the unit. If the unit issatisfied or off, the circle appears gray. If the unitis in cooling, the circle appears blue. If the unit isin heating, the circle appears red.

Read only

Fan Status Arrows rotate around the circle when the fan ison.

Read only

Cooling Status Shows the cooling status of the unit. Read onlyHeating Status Shows the heating status of the unit. Read onlySupply Air Temperature Shows the supply air temperature of the unit. Read onlyOutdoor Air Temperature If install shows the outside air temperature. Read only

Home Page

Alarms The Alarms tab displays all alarms that are active.Click on All Alarms to see the history of alarms.

Read only

Setpoint Offset This object shows how much was added orsubtracted to the setpoint by the up/down arrowson the front screen. It is adjustable and the limitis adjustable by the MAX Setpoint Offset value.

Adjustable: MAXSetpoint Offset setsrange

Hold/Run If set to hold, the thermostat controls to thissetpoint until it is placed back to run.

Adjustable: Hold/Run

Active Setpoint This is the setpoint the zone controls to, takinginto account occupancy and the warmer/cooleradjustment.

Read only

Unit Enable Enables or shuts down the unit. If set toShutdown, the unit remains off until set toenable.


Fan Override • If set to On, the fan turns to keep thefan on.

• If set to Auto, it follows the fan modeset under the General Settingsmenu.

• If set to Quiet, it follows the fanmode set under the GeneralSettings menu, but keeps multi-speed and variable-speed fans attheir lowest speeds. This option is thesame as Auto for single-speed fans.For the TEC3x3x models the QuietMode does not apply.

Adjustable: On/Auto/Quiet

Effective Zone Temperature The current zone temperature for the zone. Read onlyUnits Status Displays if the controller is cooling, heating, idle,

disabled, or the reason why cooling and heatingis unavailable.

Read only

Overview

Occupancy Status Displays the effective occupancy state for thecontroller.

Read only



Occupied Cooling Setpoint When occupied, the thermostat controls coolingto this level. Set above occupied heating setpoint.Defaults to 72°F.

Adjustable: 60.0°F to100.0°F

Occupied Heating Setpoint When occupied, the thermostat controls heatingto this level. Set below occupied cooling setpoint.Defaults to 68°F.



When unoccupied, the thermostat controlscooling to this level. Defaults to 80°F.



When unoccupied, the thermostat controlsheating to this level. Set below unoccupiedcooling setpoint. Defaults to 60°F.


Standby Cooling Setpoint In order for the standby cooling setpoint toappear, set the occupancy mode to external.When set to external, the zone switches to thissetpoint when motion is no longer sensed andthe unit is occupied. Defaults to 74°F.


Setpoints

Standby Heating Setpoint In order for the standby heating setpoint toappear, set the occupancy mode to external.When set to external, the zone switches to thissetpoint when motion is no longer sensed andthe unit is occupied. Defaults to 66°F.


Optimal Start Enable Enables or disables the optimal start algorithmto automatically start the equipment prior tothe scheduled occupancy period. It does this inorder to reach the occupied setpoint. At the sametime the schedule transitions from unoccupied tooccupied. Setting this option to yes only has aneffect when the local schedule is used.

Adjustable: No/Yes

Temp Occ Duration Sets the duration for which the controller remainsin a temporary occupancy period that is triggeredduring an unoccupied period. Temporaryoccupancy is triggered by interacting with thetouch screen while unoccupied or by activating abinary input configured for temporary occupancy.


Motion Sensor Timeout Sets how long the controller waits to return tostandby mode after the last detection of motionwhile in a scheduled occupied period. Setting thetimeout to zero minutes disables standby mode.


Manual Occupancy Mode Use this mode to override all schedules andother sources of occupancy. You can also putthe controller indefinitely into an occupied orunoccupied state.

Adjustable: NoOverride/Occupied/Unoccupied

Schedule: Options

Schedule Source Sets the source of the occupancy schedule on theTEC. Setting to Local utilizes the internal 7-dayprogrammable schedule, and setting to Externaluses the command from a BAS if it is online. If theBAS is offline, the schedule reverts to the onboardschedule.




Passcode Enabled Setting this to True means you can enter a 4-digitpasscode into the configuration menu. You canonly define a passcode via the local display.

Adjustable: 4 DigitCode

Brightness Setting Sets the brightness of the display when you areinteracting with the display.

Adjustable: Range 0 -10

Enable Backlight Timeout Sets whether the backlight should timeout and goto low brightness after three minutes.

Adjustable: No/Yes

Language Sets the language shown on the screens. Adjustable: English/French/Spanish

Units Sets Imperial (IP) or Metric (SI) units on thedisplay and exposed to a BAS.

Adjustable: IP/SI

Time Sets the time on the controller. Read onlyTime Zone Sets the time zone where the controller is

installed.

Note: Some time zones displayNo DST. This stands for daylightsavings time.

Adjustable: Varies

Set Time Format Sets the display time format on the controller. Adjustable: 12 Hour/24Hour

Date Sets the date on the controller. Read onlySet Date Format Sets the display date format on the controller. AdjustableShow Fan Icon On Home Sets whether the user fan override option is

available on the home screen. This means youcan select the fan mode overrides from the homescreen.

Adjustable: No/Yes

Show Temp On Home Sets whether the current zone temperature isdisplayed on the home screen.

Adjustable: No/Yes

Show Humidity On Home Sets whether the current zone humidity isdisplayed on the home screen. Humidity is alwaysdisplayed when the setting is enabled on athermostat controller with a built-in humiditysensor. The humidity is displayed when a networkoverride is active on thermostat controllerswithout a built-in humidity sensor.

Adjustable: No/Yes

Show Off Button On Home Sets whether the master control On/Off icon isdisplayed on the home screen.

Adjustable: No/Yes

Show Hold Button Sets whether the Hold/Run icon is displayed onthe home screen. The Hold/Run icon is the squarearound the zone setpoint on the right side of thescreen.

Adjustable: No/Yes

Show Setpoint On Home Sets whether the current zone temperaturesetpoint is displayed on the home screen.

Adjustable: No/Yes

Show Alarms On Home Sets whether the current alarm symbol isdisplayed on the home screen when warnings oralarms are active.

Adjustable: No/Yes

Show Occ Status Sets whether the current occupancy status showson the home screen.

Adjustable: No/Yes

Show Unit Status Sets whether the operational status of thecontroller shows on the home screen.

Adjustable: No/Yes

Display Settings

Show Date/Time Sets whether the date and time show on thehome screen.

Adjustable: No/Yes

Control Setup:General

Control Mode Sets the thermostat to operate only in coolingor heating modes, or to automatically switchbetween cooling and heating based on the zonetemperature.

Adjustable: Auto/Heating/Cooling



Unit Enable Enables or disables the control. This option islinked to the Off/On icon on the home screen.The home screen fan override can still turn thefan on when Unit Enable = False


Fan Mode Sets the operational mode of the fan. The optionsinclude:On - The fan runs continuously unless control isdisabled.Auto - The fan cycles with the equipment stages.Smart - The fan operates continuously whileoccupied, and follows the Auto mode whenunoccupied.

Adjustable: On/Auto/Smart

Max Setpoint Offset Sets the maximum deviation above or below theactive programmed setpoint that the user can setfrom the home screen.

Adjustable: Range 0 to20

Fan On Delay Sets how long the fan waits to turn on afterturning on a stage of heating or cooling.

Adjustable: Range: 0 s- 120 s

Fan Off Delay Sets how long the fan waits to turn off afterturning off the last stage of heating or cooling.


Frost Protection Prompts the controller to turn on heatingwhen the zone temperature drops below 42°Fregardless of whether the control is enabled.

Adjustable: No/Yes

Reset PID Tuning Resets the PRAC+ tuning parameters of the PIDcontrollers to the factory defaults.

Adjustable: No/Yes

Auto Tuning Enable Enables the PRAC+ auto tuning algorithm toadjust PID tuning parameters for optimal controlperformance.

Adjustable: No/Yes

Aux Mode Sets the mode that the auxiliary output runs in.Options include:Not Used - Opens the contact.Occupied NO - Closes the contact when thecontroller is occupied.Occupied NC - Opens the contact when thecontroller is occupied.Occupied Fan NO - Closes the contact when thecontroller is occupied and the fan is running.Occupied Fan NC - Opens the contact when thecontroller is occupied and the fan is running.Off - Opens the contact.On - Closes the contact.

Adjustable: NotUsed / OccupiedNO / Occupied NC /Occupied Fan NO /Occupied Fan NC /Off / On

Load Shed Adjust This sets how the setpoints move when a loadshed command is issued. For example, if theOccupied Cooling Setpoint is 72°F the coolingsetpoint moves towards 76°F if the adjustmentis set to four. If the Occupied Heating Setpoint is70°F the heating setpoint moves towards 66°F.

Adjustable: Range: 0°F- 8°F


Adjustable: Range: 0°F/min - 1 °F/min

Fan Alarm Delay If the binary inputs are set to supply fan status,the controller uses this delay parameter to delaya supply fan alarm. If set to zero the alarm turnsoff.

Adjustable: Range 0min to 5 min



Fan Alarm Action When the supply fan alarm delay is above zerothis parameter appears. This sets the action ofthe controller once a fan alarm is sensed.


Fan Alarm Reset When the supply fan alarm delay is above zero,this parameter appears. You can reset the fanalarm here, once it has been triggered.

Adjustable: No/Yes

Fan Runtime Limit The fan runtime limit is used to set a periodicalarm for maintenance. Set the number of hoursyou want the fan to run for and after the limit isreached, an alarm generates. At this time performthe maintenance (i.e. change the filters, clean thecoils) and then reset the alarm. Set this to zerowhen you want to disable it.

Adjustable: Range 0hrs to 9000 hrs

Fan Runtime Reset This parameter appears when the runtime limit isabove zero. It is used to reset the runtime alarm.

Adjustable: No/Yes

Supply Temp Alarm Enable If set to Yes the controller will evaluate the supplyair temperature and issue an alarm if the supplyair temperature does not drop after a coolingcommand or rise after a heating command. Thesupply air temp delay sets how long the wait isbefore the alarm is issued.

Adjustable: No/Yes

Supply Temp Alarm Delay Appears when the supply temperature alarm isenabled. Use this to set how long to delay thesupply air temperature alarm.

Adjustable: 300 s -3,600 s


Table 20: TEC363x objects and parametersMenu Object or Parameter Description AdjustableControl Setup:Inputs

BI1 Config Sets the mode that the first binary input operatesin.

• Occupancy – Direct override ofOccupied/Unoccupied

• Temp Occ – Trigger to placecontroller into TemporaryOccupancy mode

• Motion NO – External motion sensorwith an open contact output when nomotion is detected

• Motion NC – External motion sensorwith a closed contact output when nomotion is detected

• Dirty Filter – Input from theequipment to display a dirty filterfault on the thermostat

• Service – Input from the equipmentto display a service warning on thethermostat

• Fan Lock – Air proof switch inputto shut down control if no airflowis detected within ten seconds ofturning the fan on

• Open Door – Works in conjunctionwith the Motion NO/Motion NCsensor to control occupancy

• Open Window – Sensor to shutdown control if a window is opened.The controller disables control 60seconds after detecting an openedwindow.

• Supply Fan Status - Connect acurrent relay or air proving switchto the input for proof of fan. If thefan alarm delay is set above zerothe controller issues an alarm if thecommanded value does not matchthe measured value.

Adjustable:

• Disabled• Occupancy• Temp Occ• Motion NO• Motion NC• Dirty Filter• Service• Open Door• Open Window• Supply Fan

Status



BI2 Config Sets the mode that the first binary input operatesin.Occupancy – Direct override of Occupied/UnoccupiedTemp Occ – Trigger to place controller intoTemporary Occupancy modeMotion NO – External motion sensor with anopen contact output when no motion is detectedMotion NC – External motion sensor with aclosed contact output when no motion is detectedDirty Filter – Input from the equipment to displaya dirty filter fault on the thermostatService – Input from the equipment to display aservice warning on the thermostatFan Lock – Air proof switch input to shut downcontrol if no airflow is detected within tenseconds of turning the fan onOpen Door – Works in conjunction with theMotion NO/Motion NC sensor to controloccupancyOpen Window – Sensor to shut down control if awindow is opened. The controller disables control60 seconds after detecting an opened windowSupply Fan Status - Connect a current relay or airproving switch to the input for proof of fan. If thefan alarm delay is set above zero the controllerissues an alarm if the commanded value does notmatch the measured value.

Adjustable:

• Disabled• Occupancy• Temp Occ• Motion NO• Motion NC• Dirty Filter• Service• Open Door• Open Window• Supply Fan

Status

Supply Temp Sensor Sets the type of analog supply temperaturesensor connected to the controller.

Adjustable: Nickel/Platinum/A99B/2.25KNTC/10K NTC/10K NTCType 3

Supply Temp Offset Sets the offset applied to the supply/dischargetemperature reading.

Adjustable: Range: -5.0- 5.0

Zone Temp Sensor Sets the type of analog zone temperature sensorconnected to the controller.


Zone Temp Offset Sets the offset applied to the zone temperaturedisplayed on the screen and used for control.

Adjustable: -5.0 - 5.0

Outdoor Air Temp Sensor Sets the type of analog outdoor air temperaturesensor connected to the controller.


Outdoor Air Temp Offset Sets the offset applied to the outdoortemperature reading.

Adjustable: -5.0 to 5.0

Reset Sensors Resets sensor inputs back to factory state. Thisclears alarms for sensors which were connectedat one point and are no longer connected.

Adjustable: No/Yes

Zone Temp Alarm Enabled If set to yes, the controller evaluates the zonetemperature and issues an alarm if the zonetemperature rises about the high limit or fallsbelow the low limit.

Adjustable: No/Yes

Zone Temp Low Limit Appears when the zone temperature alarm isset to yes. Use this to set how low the zone tempdrops before an alarm issues.


Zone Temp High Limit Appears when the zone temperature alarm is setto yes. Use this to set how high the zone temprises before an alarm issues.




FC Comm Mode Sets BACnet or N2 communications mode. Onlyadjustable at the stat. For a Verasys system setthis to BACnet.

Read only

BACnet Instance ID Sets the instance ID of the controller when on aBACnet network.

Adjustable: 1 to4,194,303

BACnet Address Sets the physical network address on a BACnetnetwork.


MSTP Baud Rate When set to auto the SBH sets the baud rate forthe controller.

Adjustable:Auto/1200/9600/19200/38400/76800

Network Setup

BACnet Encoding Type Sets the encoding type to use on the BACnetnetwork. Verasys uses ISO 10646 (UCS-2).

Adjustable: ISO 10646(UCS-2)/ANSI X3.4 (US-ACSII)

Number of Compressors Sets the number of compressors in a rooftop unitor heat pump.

Adjustable: Not Used/One Stage/Two Stage

Runtime Equalization When enabled, the controller alternates betweenY1 and Y2 calls when cycling 2-stage compressors,to ensure both compressors are equally used.

Adjustable: No/Yes

Number of Heating Stages Sets the number of heat stages in a rooftop unit.This option does not exist on heat pumps. HeatPumps support a single stage of supplementalheating on top of compressor heating.

Adjustable: Not Used/One Stage/Two Stage

Compressor Min On Time Sets the minimum time that a compressor runsunder normal control conditions.

Adjustable: 0 s to 360 s

Compressor Min Off Time Sets the minimum time that a compressor mustbe off for before turning on again.


Heating Min On Time Sets the minimum time that the heating valve/stage is open under normal conditions.


Heating Min Off Time Sets the minimum time that the heating valve/stage is closed before opening again.


Cooling Lockout Temp Sets the outdoor temperature below whichcooling does not run regardless of zonetemperature.


Equipment Setup:General

Heating Lockout Temp Sets the outdoor temperature above whichheating does not run regardless of zonetemperature. Note: Frost Protection overridesthis lockout.


Economizer Installed Sets if economizer damper control is required onthe rooftop or heat pump unit.

Adjustable: No/Yes

Minimum Position Sets the minimum economizer position when thefan is running.

Adjustable: 0% - 100%

Closed Voltage Sets the voltage corresponding to the damperbeing fully shut.

Adjustable: 0 V - 10 V

Open Voltage Sets the voltage corresponding to the damperbeing fully opened.

Adjustable: 0 V - 10 V

Dry Bulb Setpoint Sets the outdoor air temperature. When in drybulb mode and the TEC only has outdoor andzone temperature, the economizer does notoperate above this temp.


Equipment Setup:Economizer

Outdoor Enthalpy Setpoint Sets the outdoor air enthalpy. When the TEC hasoutdoor temperature, outdoor humidity and zonetemperature, the economizer cooling does notoperate when in single enthalpy mode.

Adjustable: 10 to 50Btu/lb dry air



Heat Pump Supported Sets whether the W1 output is used to controla reversing valve (O/B) and if Y1/Y2 controlscompressors for both cooling and heating.Supp Heating Installed – Sets if a stage ofsupplemental heating is connected to the W2output. Many heat pumps with integrated controlunits use traditional thermostat controllerwiring (Y, W, and G inputs). Only set this optionto Yes on the heat pump units where thethermostat controller controls an O/B input onthe equipment.

Adjustable: No/Yes

Supp Heating Supported Sets the minimum economizer position when thefan is running.

Adjustable: No/Yes

Equipment Setup:Heat Pump

Reverse Valve Polarity Sets the voltage corresponding to the damperbeing fully shut.

Adjustable: NormalHeat/Normal Cool

Occupancy Source Displays the current source of the TEC controller’soccupancy.

Read only

Unit Status Displays if the controller is cooling, heating, idle,disabled, or the reason why cooling and heatingis unavailable.

Read only

Outdoor Air Temperature If installed, displays the outdoor air temperaturevalue in the controller.

Read only

Supply Air Temperature If installed, displays the supply air temperaturevalue in the controller.

Read only

Economizer Available Displays the status if the outdoor conditions aresuitable for economizer cooling.

Read only

Cooling OAT Lockout Displays if cooling is being locked out due to lowoutdoor air temperature.

Read only

Heating OAT Lockout Displays if heating is being locked out due to highoutdoor air temperature.

Read only

Comp Low OAT Lockout Displays if compressor heating is locked out dueto low outdoor air temperature.

Read only

Zone Temp Source Displays the source of the zone temperaturereading in the TEC controller.

Read only

System Status

Fan Accumulated Runtime Displays the accumulated runtime. Read onlyControl % Command Displays the current PID controller percent

command.Read only

Heating % Command Displays the current PID controller percentcommand.

Read only

Economizer % Command Displays the current PID controller percentcommand.

Read only

Cool Stage 1 Displays if the first stage of cooling is on. Read onlyCool Stage 2 Displays if the second stage of cooling is on. Read onlyHeat Stage 1 Displays if the first stage of heating is on. Read onlyHeat Stage 2 Displays if the second stage of heating is on. Read only

Control Status

Fan Displays the current fan command Read onlyModel Name Displays the firmware version of the controller. Read onlySoftware Version Shows the address of the controller. The address


Unit Name The name of the unit. Adjustable: 30characters

Device Name The name of the device. This name shows up onthe device list.


Controller

Device Description The description of the device. This descriptionshows up on the device list.




Effective Zone Temperature 100 samples are taken at a 15 minute period. Read onlyActive Setpoint 100 samples are taken at a 15 minute period. Read onlyHumidity 100 samples are taken at a 15 minute period. Read onlyBI1 Status 100 samples are taken at a 15 minute period. Read onlyBI2 Status 100 samples are taken at a 15 minute period. Read onlyOperational Outdoor AirTemperature


Supply Air Temperature 100 samples are taken at a 15 minute period. Read onlyFan Command 25 samples in total. 1 sample taken every change

of value.Read only

Cool Stage 1 On 25 samples in total. 1 sample taken every changeof value.

Read only

Cool Stage 2 On 25 samples in total. 1 sample taken every changeof value.

Read only

Heat Stage 1 On 25 samples in total. 1 sample taken every changeof value.

Read only

Heat Stage 2 On 25 samples in total. 1 sample taken every changeof value.

Read only

Economizer PID Cmd 100 samples are taken at a 15 minute period. Read onlyHeat PID Cmd 100 samples are taken at a 15 minute period. Read only

Trends

Cool/Dehum PID Cmd 100 samples are taken at a 15 minute period. Read only


Table 21: LC-VAC1002-0 Input Output Module parameters and objectsMenu Object or Parameter Description Adjustable

Binary Input 1 StatusBinary Input 2 StatusBinary Input 3 StatusBinary Input 4 StatusAnalog Input 5 StatusAnalog Input 6 StatusAnalog Input 7 StatusAnalog Input 8 StatusAnalog Input 9 StatusNetsensor 1TemperatureNetsensor 2TemperatureNetsensor 3TemperatureNetsensor 4TemperatureNetsensor 5TemperatureNetsensor 1 HumidityNetsensor 2 HumidityNetsensor 3 HumidityNetsensor 4 HumidityNetsensor 5 HumidityOutput 1 StatusOutput 2 StatusOutput 3 StatusOutput 4 StatusOutput 5 StatusOutput 6 StatusOutput 7 StatusOutput 8 StatusOutput 9 StatusEnergy Meter 1ConsumptionEnergy Meter 2ConsumptionEnergy Meter 3Consumption

Home Page

Energy Meter 4Consumption

The input is defined on the Commissioning tab. Read only

Alarms Alarms To see the history of alarms, click All Alarms. Read onlyBinary Input 1 StatusBinary Input 2 StatusBinary Input 3 StatusBinary Input 4 StatusAnalog Input 5 StatusAnalog Input 6 StatusAnalog Input 7 StatusAnalog Input 8 Status

Status: Inputs

Analog Input 9 Status




Output 1 StatusOutput 2 StatusOutput 3 StatusOutput 4 StatusOutput 5 StatusOutput 6 StatusOutput 7 StatusOutput 8 Status

Status: Outputs

Output 9 Status


Netsensor 1TemperatureNetsensor 1 HumidityNetsensor 2TemperatureNetsensor 2 HumidityNetsensor 3TemperatureNetsensor 3 HumidityNetsensor 4TemperatureNetsensor 4 HumidityNetsensor 5Temperature

Status:Netsensor Plugand Play

Netsensor 5 Humidity


Energy Meter 1AddressEnergy Meter 2AddressEnergy Meter 3Address

Summary:General

Energy Meter 4Address

Sets the address of the energy meter. Adjustable: Enter thelast 3 digits of theserial number.

Description Sets the name of the energy meter. AdjustablePeak Demand Shows the maximum amount of energy consumed in

the demand window time.Energy Consumption Shows the electrical meter consumption since the last

reset.Voltage Shows the average voltage of the meter phases.Current Shows the average current of the meter phases.Frequency Shows the measured frequency of the signal.Current Demand Shows the amount of energy consumed in the demand

window time.Input 1 If present, shows the consumption of the pulse

meter hooked to input 1. The input is defined on theCommissioning tab.

Input 2 If present, shows the consumption of the pulse meterhooked to input 2. The name of the input is definedunder the Commissioning tab.

Read onlySummary:Energy Meter 1

Clear Statistics Clears or resets the statistics of the meter. Adjustable: True/False








Input 2 If present, shows the consumption of the pulse meterhooked to input 2. The name of the input is definedunder the Commissioning tab.


Clear Statistics Clears or resets the statistics of the meter. Adjustable: True/FalseDescription Sets the name of the energy meter. AdjustablePeak Demand Shows the maximum amount of energy consumed in





Input 2 If present, shows the consumption of the pulsemeter hooked to input 2. The input is defined on theCommissioning tab.


Clear Statistics Clears or resets the statistics of the meter. Adjustable: True/FalseDescription Sets the name of the energy meter. AdjustablePeak Demand Shows the maximum amount of energy consumed in





Input 2 If present, shows the consumption of the pulsemeter hooked to input 2. The input is defined on theCommissioning tab.


Clear Statistics Clears or resets the statistics of the meter. Adjustable: True/False




the demand window time.Voltage Shows the average voltage of the meter phases.Current Shows the average current of the meter phases.Frequency Shows the measured frequency of the signal.Current Demand Shows the amount of energy consumed in the demand

window time.Last Demand Shows the amount of energy consumed in the last

demand window time.

Read only

Demand Window Time Sets the period in which the demand is monitored. Adjustable: 5 min to 60min

Elapsed DemandWindow

Shows the amount of time elapsed in the demandwindow time.

Demand WindowCount

Shows the number of demand windows since the lastreset.

Energy Consumption The electrical meter consumption of all phases since thelast reset.

Read only

Clear Statistics Clears or resets the statistics of the meter. AdjustableInput 1 Sets whether Input 1 is used to accumulate.

Commissioning:Energy Meter 1:System

Input 2 Sets whether Input 2 is used to accumulate.Adjustable: Present/Absent

Voltage Shows the voltage of the meter phases.Current Shows the current of the meter phases.Energy Consumption Shows the electrical meters phase consumption since

the last reset.

Read only

Alarm Priority If set to something other than Disable, the object issuesalarms. The state set is the priority set for the alarm.

Adjustable: Disable/Critical / ServicePriority / Service

High Alarm Text Sets the text that is sent with the alarm for High AlarmLimit.

Low Alarm Text Sets the text that is sent with the alarm for Low AlarmLimit.

Adjustable

High Alarm Limit Shows the value for the High Alarm Limit.Low Alarm Limit Shows the value for the Low Alarm Limit.

Adjustable: 90 V to 600V

Commissioning:Energy Meter 1:R Phase

Differential Sets the alarm differential. Adjustable: 0 V to 10 VVoltage Shows the voltage of the meter phases.Current Shows the current of the meter phases.Energy Consumption Shows the electrical meters phase consumption since

the last reset.

Read only





Adjustable



Commissioning:Energy Meter 1: SPhase

Differential Sets the alarm differential. Adjustable: 0 V to 10 V




the last reset.

Read only




Low Alarm Text Sets the text that is sent with the alarm for Low AlarmLimit

Adjustable



Commissioning:Energy Meter 1:T Phase

Differential Sets the alarm differential. Adjustable: 0 V to 10 VDescription Shows the description of this pulse input. AdjustablePulse Counter Shows the number of pulses since last reset.Present Value If present, shows the consumption of the pulse meter

hooked to the input. The name of the input is defined bythe description.

Read only

Scale Factor Shows the value of each pulse. Multiplying the scalefactor by the pulse count gives the present value.

Adjustable: 0.01 to1000

Commissioning:Energy Meter 1:Input 1

Change Units Change the display units of the present value. AdjustableDescription The description of this pulse input. AdjustablePulse Counter Shows the number of pulses since last reset.Present Value If present, shows the consumption of the pulse meter


Read only




Change Units Change the display units of the present value. AdjustableDescription Sets the name of the energy meter. AdjustablePeak Demand Shows the maximum amount of energy consumed in



demand window time.

Read only




Demand WindowCount

Shows the number of demand windows since the lastreset.

Energy Consumption Shows the electrical meter consumption of all phasessince the last reset.

Read only

Clear Statistics Clears or resets the statistics of the meter AdjustableInput 1 Sets whether Input 1 is used to accumulate.






the last reset.

Read only





Adjustable

High Alarm Limit Shows the value for the High Alarm Limit.,Low Alarm Limit Shows the value for the Low Alarm Limit.




the last reset.

Read only





Adjustable





the last reset.

Read only





Adjustable




Differential Sets the alarm differential. Adjustable: 0 V to 10 VDescription Shows the description of this pulse input. AdjustablePulse Counter Shows the number of pulses since last reset.Present Value If present, shows the consumption of the pulse meter


Read only

Scale Factor The value of each pulse. Multiplying the scale factor bythe pulse count gives the present value.



Change Units Change the display units of the present value. Adjustable



Description Shows the description of this pulse input. AdjustablePulse Counter Shows the number of pulses since last reset.Present Value If present, shows the consumption of the pulse meter


Read only




Change Units Change the display units of the present value. AdjustableDescription Sets the name of the energy meter. AdjustablePeak Demand Shows the maximum amount of energy consumed in


window time.Last Demand Shows theamount of energy consumed in the last

demand window time.

Read only




Demand WindowCount

Number of demand windows since the last reset.


Read only




Voltage Shows the voltage of the meter phases.Current Shows the current of the meter phases.Energy Consumption The electrical meters phase consumption since the last

reset.

Read only





Adjustable








reset.

Read only





Adjustable





the last reset.

Read only





Adjustable

High Alarm Limit The value for the High Alarm Limit.Low Alarm Limit The value for the Low Alarm Limit.



Differential Sets the alarm differential. Adjustable: 0 V to 10 VDescription The description of this pulse input. AdjustablePulse Counter The number of pulses since last reset.Present Value If present, shows the consumption of the pulse meter


Read only




Change Units Change the display units of the present value AdjustableDescription Shows the description of this pulse input. AdjustablePulse Counter Shows the number of pulses since last reset.Present Value If present, shows the consumption of the pulse meter


Read only




Change Units Change the display units of the present value. Adjustable






demand window time.

Read only



The amount of time elapsed in the demand windowtime.

Demand WindowCount

Number of demand windows since the last reset.

Energy Consumption The electrical meter consumption of all phases since thelast reset.

Read only





the last reset.

Read only





Adjustable





the last reset.

Read only





Adjustable








reset.

Read only





Adjustable




Differential Sets the alarm differential. Adjustable: 0 V to 10 VDescription The description of this pulse input. AdjustablePulse Counter The number of pulses since last reset.Present Value If present, shows the consumption of the pulse meter


Read only




Change Units Change the display units of the present value. AdjustableDescription The description of this pulse input. AdjustablePulse Counter The number of pulses since last reset.Present Value If present, shows the consumption of the pulse meter


Read only




Change Units Change the display units of the present value. AdjustablePresent Sets whether or not this input is in use. Adjustable: Present/

AbsentStates Text Sets the enumeration that the object shows on screen. AdjustableInput The current state of the input; the name of this is

reflected in the Description field.Read only

Description The description of the input. AdjustableDelay Type If this a momentary input, this parameter sets the delay

type for the input.Adjustable: None/Off/On/Both

Off Delay If the delay type is set to Off or Both, this sets the DelayOff timer.

On Delay If the delay type is set to On or Both, this sets the DelayOn timer.

Adjustable: 1 min to360 mins



Alarm Text Sets the text that is sent with the alarm.Alarm State Sets which state issues the alarm.

Adjustable

Commissioning:Inputs: BinaryInput 1

Alarm Delay Delays the alarm if needed. Adjustable: 0 mins to100 mins



Present Sets whether or not this input is in use. Adjustable: Present/Absent

States Text Sets the enumeration that the object shows on screen. AdjustableInput The current state of the input; the name of this is


Description The description of the input. AdjustableDelay Type If this a momentary input, this sets the delay type for

the input.Adjustable: None/Off/On/Both







Adjustable



Present Sets whether this input is being used or not. Adjustable: Present/Absent



Description The description of the input AdjustableDelay Type If this a momentary input, this parameter sets the delay

type for the input.Adjustable: None/Off/On/Both







Adjustable





Present Sets whether or not this input is in use. Adjustable: Present/Absent



Description The description of the input. AdjustableDelay Type If this a momentary input, this sets the delay type for

the input.Adjustable: None/Off/On/Both







Adjustable



Point Type Sets what kind of input the point is defined as. Adjustable:Undefined/Temperature/Humidity/CO2/LightSensor/Refrigerant/Building Pressure/Steam Pressure/Voltage/Current

Description The description of the input. AdjustableInput The current value of the input; the name of this is


Change Units Change the units for user defined voltage or currentinputs.

Change DisplayPrecision

Change the display precision which also changes thechange of value (COV) increment, for user definedvoltage or current inputs.

Adjustable

Setup When point type is set to Temperature Inputs, this setsthe type of sensor used.


Input Range Low When point type is set to Building Pressure Voltageand Current, this parameter sets the voltage or currentfor the minimum value.

Adjustable: 0 to 10 (Vor mA depending onthe input)

Input Range High When the point type is set to Voltage and Current, thisparameter sets the voltage or current for the max value.

Adjustable: 5 to 20, V ormA depending on theinput

Voltage Range When point type is set to Building Pressure, thisparameter sets the voltage input for the sensor.

Adjustable: 0 to 10 V/2to 10 V/0 to 5 V

Commissioning:Inputs: AnalogInput 5

Device Type Point type is set to Steam Pressure and assumes thesensor is DPT2090-25G. This parameter sets whetherthe sensor sends a current or voltage. If it sendsvoltage, the range is 0-5.5 VDC. If it sends current, therange is 4-20 mA.

Adjustable: Current/Voltage



Output Range Low Point type set to Voltage and Current. Sets theminimum value of the range for the sensor.

Adjustable:100,000 to100,000

Output Range High Point type set to Building Pressure Voltage andCurrent. Sets the maximum value of the range for thesensor.


Offset Use this parameter to offset the present value of theanalog input.

Adjustable: +/-10% offull range (dynamic)





Unreliable Sensor Sets the text that is sent when the sensor is unreliable.

Adjustable

High Alarm Limit Shows the value for the High Alarm Limit.Low Alarm Limit Shows the value for the Low Alarm Limit.Alarm Delay Delays the alarm if needed.

Adjustable: Dynamicbased on point type

Alarm Differential Sets the alarm differential. Adjustable: +/- 10% offull range (dynamic)

Trend Enables or disables the trend. Adjustable: Enable/Disable

Interval Sets the interval of the trend samples. Adjustable: 0 secondsto 900 seconds

Point Type Sets what kind of input the point is defined as. Adjustable:Undefined/Temperature/Humidity/CO2/LightSensor/Refrigerant/Building Pressure/Steam Pressure/Voltage/Current





Change the display precision, also changes the COVincrement, for user defined voltage or current inputs.

Adjustable


Setup When point type is set to Temperature Inputs, thisparameter sets the type of sensor used.




Input Range Low When point type is set to Building Pressure Voltageand Current. Sets the voltage or current for theminimum value.

Adjustable: 0 to 10 ,Vor mA depending oninput

Input Range High When point type is set to Voltage and Current. Thisparameter sets the voltage or current for the max value.

Adjustable: 5 to 20, Vor mA depending oninput

Voltage Range When point type is set to Building Pressure. Thisparameter sets the voltage input for the sensor.


Device Type Point type is set to Steam Pressure and assumes thesensor is DPT2090-25G. This parameter sets whetherthe sensor sends a current or voltage. If it sendsvoltage, the range is 0-5.5 VDC. If it sends current, therange is 4 to 20 mA.






Offset Use this to offset the present value of the analog input. Adjustable: +/-10% offull range (dynamic)






Adjustable



Alarm Differential Sets the alarm differential. Adjustable: +/-10% offull range (dynamic)

Trend Enables or disables the trend. Adjustable:Enable/Disable

Interval Sets the interval of the trend samples. Adjustable: 0 s to 900 sPoint Type Sets what kind of input the point is defined as. Adjustable:

Undefined/Temperature/Humidity/CO2/LightSensor/Refrigerant/Building Pressure/Steam Pressure/Voltage/Current





Change the display precision (also changes the COVincrement) for user defined voltage or current inputs.

Adjustable






Input Range Low When point type is set to Building Pressure Voltageand Current. Sets the voltage or current for theminimum value.


Input Range High When point type is set to Voltage and Current. Sets thevoltage or current for the max value.


Voltage Range When point type is set to Building Pressure. This setsthe voltage input for the sensor.


Device Type Point type is set to Steam Pressure and assumes thesensor is DPT2090-25G. This sets whether the sensorsends a current or voltage. If it sends voltage, the rangeis 0-5.5 VDC. If it sends current, the range is 4-20 mA.












Adjustable







Description Shows the description of the input. AdjustableInput Shows the current value of the input; the name of this is




Change the display precision for user defined voltage orcurrent inputs. Also changes the COV increment.

Adjustable






Input Range Low Point type is set to Building Pressure Voltage andCurrent. Sets the voltage or current for the minimumvalue.


Input Range High Point type is set to Voltage and Current. Sets thevoltage or current for the max value.


Voltage Range Point type is set to Building Pressure. This sets thevoltage input for the sensor.


Device Type Point type is set to Steam Pressure and assumes thesensor is DPT2090-25G. This sets whether the sensorsends a current or voltage. If it sends voltage, the rangeis 0-5.5 VDC If it sends current, the range is 4-20 mA.


Output Range Low Point type is set to Voltage and Current. Sets theminimum value of the range for the sensor.


Output Range High Point type is set to Building Pressure Voltage andCurrent. Sets the maximum value of the range for thesensor.








Adjustable











Change the display precision for user defined voltage orcurrent inputs. Also changes the COV increment.

Adjustable






Input Range Low Point type is set to Building Pressure Voltage andCurrent. Sets the voltage or current for the minimumvalue.

Adjustable: 0 to 10, Vor mA depending oninput.

Input Range High Point type is set to Voltage and Current. Sets thevoltage or current for the maximum value.

Adjustable: 5 to 20, Vor mA depending oninput.

Voltage Range Point type is set to Building Pressure .This sets thevoltage input for the sensor.


Device Type Point type is set to Steam Pressure and assumes thesensor is DPT2090-25G. This sets whether the sensorsends a current or voltage. If it sends voltage, the rangeis 0-5.5 VDC. If it sends current, the range is 4-20 mA.



Adjustable: -100,000 to100,000


Adjustable: -100,000 to100,000







Adjustable





Interval Sets the interval of the trend samples. Adjustable: 0 s - 900 sDescription The description of the Output. AdjustableOutput The current state of the Output; the name reflects the

description.Read only

Commissioning:Outputs: Output1

Override The ability to override the Output. Adjustable: Off/OnDescription The description of the Output. AdjustableOutput The current state of the Output; the name reflects the



Override The ability to override the Output. Adjustable: Off/OnDescription The description of the Output. AdjustableOutput The current state of the Output; the name reflects the



Override The ability to override the Output. Adjustable: Off/OnDescription The description of the output. AdjustableOutput The current state of the output; the name reflects the



Override The ability to override the output. Adjustable: Off/OnDescription The description of the output. AdjustableOutput The current state of the output; the name reflects the



Override The ability to override the output. Adjustable: Off/On



Description The description of the output. AdjustableOutput The current state of the output; the name reflects the



Override The ability to override the output. Adjustable: Off/OnDescription Shows the description of the output. AdjustableOutput Shows the current state of the output; the name reflects

the description.Read only


Override The ability to override the output. Adjustable: Off/OnDescription The description of the output. AdjustableOutput Shows the current state of the output; the name reflects

the description.Read only


Override The ability to override the output. Adjustable: Off/OnDescription The description of the output. AdjustableOutput The current state of the output; the name reflects the



Override The ability to override the output. Adjustable: Off/OnTemperature Shows the temperature of the Netsensor at address

199.Read only

Description Shows the description of the Netsensor. AdjustableOffset Use this to offset the present value of the temperature

input.Adjustable: -5°F to 5°F



High Alarm Limit Shows the value for the High Alarm Limit. Adjustable: 0°F to250°F

Low Alarm Limit Shows the value for the Low Alarm Limit. Adjustable: 0°F to250°F

Time Delay Delays the alarm if needed. Adjustable: 0 mins to60 mins

Alarm Differential Sets the alarm differential. Adjustable: 0°F to100°F

Humidity Shows the humidity of the Netsensor at address 199. Read onlyDescription The description of the Netsensor. AdjustableOffset Use this to offset the present value of the humidity

input.Adjustable: -5 to 5% RH




Adjustable: 0% to 100%RH


Alarm Differential Sets the alarm differential. Adjustable: 0% to 100%RH

Commissioning:NetsensorPlug and Play:Netsensor 1

Interval Sets the interval of the trend samples. Adjustable: 1 min to 15mins



Temperature Shows the temperature of the Netsensor at address200.

Read only


inputAdjustable: -5°F to 5°F







Humidity Shows the humidity of the Netsensor at address 200. Read onlyDescription Shows the description of the Netsensor. AdjustableOffset Use this to offset the present value of the humidity

input.Adjustable: -5 RH to 5%RH











Temperature Shows the temperature of the Netsensor at Address201.

Read only









Humidity Shows the humidity of the Netsensor at address 201 Read onlyDescription Shows the description of the Netsensor. AdjustableOffset Use this to offset the present value of the humidity






Time Delay Delays the alarm if needed. Adjustable: 0 min to 60mins



Interval Sets the interval of the trend samples. Adjustable: 1 to 15minutes



Temperature Shows the temperature of the Netsensor at Address 202 Read onlyDescription Shows the description of the Netsensor. AdjustableOffset Use this to offset the present value of the temperature




















Temperature Shows the temperature of the Netsensor at address203.

Read only














Adjustable: 0 to 100%RH





Firmware Status The status of the firmware loaded in the controller.Calibration Data Fault Appears if proper calibration is not loaded at the

factory.Firmware Main Version Displays the firmware version of the controller.Application Version Displays the version of the application.Application Name Displays the name of the application.Equipment TemplateVersion

Displays the version of the template.

Equipment ArchiveVersion

Displays the version of the equipment archive.

Controller:Firmware

Equipment ViewVersion

Displays the version of the view definition.

Read only

Time Shows the time set by the SBH. To change the date andtime, go to the Settings > System Setting on the SBHand adjust the date and time.This adjustment syncs toall online devices.

Date Shows the date that the controller is set to.


Time Zone Shows the time zone the controller is adjusting to. AdjustableDevice Name Shows the name of the device on the device list.Device Description Shows the description of the device on the device list.


Controller:Network

Device OID BACnet Device OID for the system bus. On a standaloneVerasys System, this parameter is not used. If connectedto a 3rd party facility management system, theparameter sets the BACnet ID for the zone coordinator.

Adjustable: Range: 1 -4,194,303



Address Shows the address of the controller; the address isadjustable via the SBH and the display on the controller.


Communication Status Shows the status of the zone bus communication.FC Comm Mode Set to wired field bus.

Note: This feature is not available yet.

Read only

Baud Rate When set to auto, the zone coordinator sets the baudrate for the controller.

Adjustable:Auto/1200/9600/19200/38400/76800

Operating Baud Rate Shows the baud rate of the controller. Read onlyBACnet Encoding Type Shows the encoding type set and the character set that

the controller uses.Adjustable: ISO 10646(UCS-2)/ANSI X3.4(US-ASCII)/MicrosoftDBCS code page 932(Japanese Shift JIS)/ISO106464 (UTF-8)

Language Sets the language of the controller. Read onlyUnits Sets the units of the controller. Adjustable: Imperial/

Metric

Controller: Misc

Relearn system A relearn system tells the controller that sensorsthat were removed and are showing as unreliable isintentional. The system resets the reliability status forthese points.




window time.

Read onlyDetails: EnergyMeter 1: System


Read only

Voltage Shows the voltage of the meter phases.Current Shows the current of the meter phases.

Details: EnergyMeter 1: R Phase

Energy Consumption Shows the electrical meter phase consumption since thelast reset.

Read only


Details: EnergyMeter 1: S Phase

Energy Consumption The electrical meter phase consumption since the lastreset

Read only


Details: EnergyMeter 1: T Phase


Read only

Description Shows the description of this pulse input. AdjustableDetails: EnergyMeter 1: Input 1 Present Value If present, shows the consumption of the pulse meter


Read only

Description Shows the description of this pulse input. AdjustableDetails: EnergyMeter 1: Input 2 Present Value If present, shows the consumption of the pulse meter


Read only



Description Sets the name of the Energy Meter. AdjustablePeak Demand Shows the maximum amount of energy consumed in


window time.



Read only




Read only


Details:EnergyMeter 2: S Phase


Read only




Read only

Description The description of this pulse input. AdjustableDetails: EnergyMeter 2: Input 1 Present Value If present, shows the consumption of the pulse meter


Read only

Description Shows the description of the pulse input. AdjustableDetails: EnergyMeter 2: Input 2 Present Value If present, shows the consumption of the pulse meter


Read only



window time.



Read only




Read only




Read only



Energy Consumption Shows the electrical meters phase consumption sincethe last reset.

Read only





Read only



Read only



window time.



Read only




Read only




Read only




Read only



Read only



Read only

Details: Inputs:Binary Input 1Details: Inputs:Binary Input 2Details: Inputs:Binary Input 3Details: Inputs:Binary Input 4

Input The name of the input is defined under theCommissioning tab.

Read only


Table 21: LC-VAC1002-0 Input Output Module parameters and objectsMenu Object or Parameter Description AdjustableDetails: Inputs:Analog Input 5Details: Inputs:Analog Input 6Details: Inputs:Analog Input 7Details: Inputs:Analog Input 8Details: Inputs:Analog Input 9

Input The name of the input is defined under theCommissioning tab.

Read only

Details: Outputs:Output 1Details: Outputs:Output 2Details: Outputs:Output 3Details: Outputs:Output 4Details: Outputs:Output 5Details: Outputs:Output 6Details: Outputs:Output 7Details: Outputs:Output 8Details: Outputs:Output 9

Output The name of the input is defined under theCommissioning tab.

Read only

Temperature Shows the temperature of the device at address 199.Details:NetsensorPlug and Play:Netsensor 1

Humidity Shows the humidity of the device at address 199.Read only










Table 21: LC-VAC1002-0 Input Output Module parameters and objectsMenu Object or Parameter Description AdjustableTrends: Inputs:Binary Input 1

Binary Input 1

Trends: Inputs:Binary Input 2

Binary Input 2


Binary Input 3


Binary Input 4

Total: 25 samples, 1 sample taken every change ofvalue.

Read only

Trends: Inputs:Analog Input 5

Analog Input 5


Analog Input 6


Analog Input 7


Analog Input 8


Analog Input 9

Total: 200 samples, user defined sample interval inCommissioning menu.

Read only

Output 1Output 2Output 3Output 4Output 5Output 6Output 7Output 8

Trends: Outputs

Output 9


Read only

Trends:Netsensor1: ZoneTemperature

Temperature

Trends:Netsensor 1:Zone Humidity

Humidity


Temperature


Humidity


Temperature


Humidity


Temperature


Read only


Table 21: LC-VAC1002-0 Input Output Module parameters and objectsMenu Object or Parameter Description AdjustableTrends:Netsensor 4:Zone Humidity

Humidity


Temperature


Humidity

ConsumptionTrends: EnergyMeter 1: System Demand


Read only

R Phase VoltageTrends: EnergyMeter 1: R Phase R Phase Current


Read only

S Phase VoltageTrends: EnergyMeter 1: S Phase S Phase Current


Read only

T Phase VoltageTrends: EnergyMeter 1: T Phase T Phase Current


Read only

Trends: EnergyMeter 1: Input 1

Input 1 Present Value Total: 25 samples, 1 sample taken every change ofvalue.

Read only



Read only



Read only



Read only



Read only



Read only



Read only



Read only



Read only



Read only



Read only



Read only



Read only



Read only



Read only



Read only



Read only



Read only


Table 21: LC-VAC1002-0 Input Output Module parameters and objectsMenu Object or Parameter Description AdjustableTrends: EnergyMeter 4: Input 1


Read only



Read only

Table 22: LC-VAC1001-0 Lighting Controller parameters and objectsMenu Object or Parameter Description Adjustable

Lighting 1 Circuit Command The command given to configurable output 1.Lighting 2 Circuit Command The command given to configurable output 2.Lighting 3 Circuit Command The command given to configurable output 3.Lighting 4 Circuit Command The command given to configurable output 4.Lighting 5 Circuit Command The command given to configurable output 5.Lighting 6 Circuit Command The command given to configurable output 6.Lighting 7 Circuit Command The command given to configurable output 7.Lighting 8 Circuit Command The command given to configurable output 8.

Home Page

Lighting 9 Circuit Command The command given to configurable output 9.

Read only

Alarms Alarms The Alarms tab displays all alarms that are active.Click on all alarms and view alarm history.

Read only



Unit Status Shows the status of the controller.Light Level Status Shows the status of the light level.Light Level Shows the analog light level in ft candles.

Read only

Lighting Level Setpoint If the light level is below this setpoint, it is nightand if it is above this setpoint plus the differential,it is day.

Adjustable: 0.0 ft to 200ft candles

Lighting Level Differential When transitioning back to day, this parametersets how many more ft candles are needed toswitch to day.

Adjustable: 0.0 ft to 100ft candles

Zone 1 Command Shows the current state of the zone.Zone 1 Schedule Shows the current state of the zone schedule.

Read only

Zone 1 Override The ability to override the zone. In the Auto state,the zone works from the logic setup for the zone.

Adjustable: Auto/Off/On


Read only




Read only




Read only




Read only




Read only




Read only



Zone 8 Command Shows the current state of the zone.

Status

Zone 8 Schedule Shows the current state of the zone schedule.Read only

Summary:Network

Communication Status The status of the network communication. Read only

Light Level Status Shows the status of the light level.Summary: InputsLight Level Shows the analog light level in ft candles.

Read only

Lighting 1 Circuit Command The command given to configurable output 1.Lighting 2 Circuit Command The command given to configurable output 2.Lighting 3 Circuit Command The command given to configurable output 3.Lighting 4 Circuit Command The command given to configurable output 4.Lighting 5 Circuit Command The command given to configurable output 5.Lighting 6 Circuit Command The command given to configurable output 6.Lighting 7 Circuit Command The command given to configurable output 7.Lighting 8 Circuit Command The command given to configurable output 8.

Summary:Outputs

Lighting 9 Circuit Command The command given to configurable output 9.

Read only



Device Name Sets the name of the device Adjustable: 30characters

Commissioning:Network

Address The address of the controller. This address isadjustable in the SBH and the display on thecontroller.

Adjustable: 4 to 127characters

Lighting Sensor Mode Sets the logic to determine the mode for the lightsensor.Binary Only: Sets sensor to Day or Night fromthe binary input.Analog Only: Sets sensor to Day or Night fromthe analog input.Both ON/Both OFF: Uses both the binary andanalog inputs. Both ON sets the sensor to Night,and Both off sets the sensor to Day.Both ON/Analog OFF - Uses both the binary andanalog inputs. Both ON sets the sensor to Nightand Analog off sets the sensor to Day.Analog ON/Both OFF - Uses both the binary andanalog inputs. Sets the sensor to Night from theanalog input. Sets the sensor to Day when set toBoth OFF.Both ON/Any Off - Uses both the binary andanalog inputs. Both ON sets the sensor to Nightand either binary or analog input sets the sensorto Day.

Adjustable:Binary OnlyAnalog OnlyBoth ON/Both OFFBoth ON/Analog OFFAnalog ON/Both OFFBoth ON/Any OFF

Number of Lighting Circuits Sets the number of circuits that this controllercontrols. Unused circuits do not show on thescreens, except on the trends.

Adjustable: 1 to 9

Number of Lighting Zones Sets the number of controller lighting zones.Each zone may control more than one circuit andmay have different criteria to turn the zone on.Unused zones do not show on the screens, excepton the schedules.

Adjustable: 1 to 9

Commissioning:Control Setup

Zone 1 Control ModeZone 2 Control ModeZone 3 Control ModeZone 4 Control ModeZone 5 Control ModeZone 6 Control ModeZone 7 Control ModeZone 8 Control ModeZone 9 Control Mode

Sets the logic to determine on and off for zones 1to 9.Sensor Only: Controls the zone with the logicfrom the Lighting Sensor Mode. Night turns thezone ON and Day turns the zone OFF.Schedule Only: Turns the zone on and off fromthe Zone 1 Schedule.Both ON/Both OFF: Uses both the sensor andthe schedule. Sensor set to Night and ScheduleON sets the zone to ON. Sensor set to Day andSchedule OFF sets the zone to OFF.Both ON/Schedule OFF: Uses both the sensorand the schedule. Sensor set to Night andSchedule ON sets the zone to ON. Schedule OFFsets the zone to OFF.Schedule ON/Both OFF: Uses both the sensorand the schedule. Sets the schedule to on. Sensorset to Day and Schedule OFF sets the zone toOFF.Both ON/Any OFF: Uses both the sensor and theschedule. Sensor set to Night and Schedule ONsets the zone to ON. The sensor set to Day or theschedule set to OFF sets the zone to OFF.

Adjustable:Sensor OnlySchedule OnlyBoth ON/Both OFFBoth ON/ScheduleOFFSchedule ON/BothOFFBoth ON/Any OFF



Lighting Circuit 1 ZoneSelect

Select which zone associates with lighting circuit1.











Adjustable: Zone 1/Zone2/Zone 3/Zone 4/Zone 5/Zone 6/Zone7/Zone 8/Zone 9







Adjustable: Zone 1/Zone2/Zone 3/Zone 4/Zone 5/Zone 6/Zone7/Zone 8/Zone 9

Circuit 1 Command PolarityCircuit 2 Command PolarityCircuit 3 Command PolarityCircuit 4 Command PolarityCircuit 5 Command PolarityCircuit 6 Command PolarityCircuit 7 Command PolarityCircuit 8 Command PolarityCircuit 9 Command Polarity

Sets whether the command for ON is 24V or 0V:Normal: 24V = OnReverse: 0V = On


Zone 1 Override isMomentary

Switches the input from Maintained toMomentary.

Adjustable: True/False

Zone 1 Override Duration Set the override duration for the zone when theMomentary switch or button is triggered.










Zone 3 Override Duration Sets the override duration for the zone when theMomentary switch or button is triggered.



Switches the input fromMaintained to Momentary.





















Firmware Status Shows the status of the firmware on thecontroller.

Firmware Version Displays the firmware version of the controller.

Controller:Firmware

Application Version Displays the version of the application.

Read only

Time Shows the time that is set by the SBH. To changethe date and time, go to the Settings > SystemSettings on the SBH and adjust the date and time.This adjustment syncs to all online devices.

Date Shows the date that the controller is set to.


Time Zone Shows the time zone the controller adjusts to. AdjustableDevice Name The name of the device on the device list.Device Description The description of the device on the device list.


Device OID This is the BACnet Device OID for the system bus.If on a standalone Verasys System, this parameteris not used. If connected to a 3rd party facilitymanagement system, it sets the BACnet ID for thezone coordinator.

Adjustable: Range: 1 to4,194,303

Address The address of the controller. This address isadjustable via the SBH and the display on thecontroller.


Communication Status The status of the zone bus communication. Read onlyFC COMM Mode Set to wired field bus.

Note: This feature is not availableyet.

Adjustable: WiredField Bus/WirelessField Bus

Baud Rate When set to auto, the zone coordinator sets thebaud rate for the controller.

Adjustable:Auto/1200/9600/19200/38400/76800

Operating Baud Rate Shows the baud rate of the controller Read only

Controller:Network

BACnet Encoding Type The encoding type set and the character set thatthe controller uses

Adjustable: ISO 10646(UCS-2)/ANSI X3.4(US-ASCII)/MicrosoftDBCS code page 932(Japanese Shift JIS)/ISO 106464 (UTF-8)

Language Sets the language of the controller Read onlyUnits Sets the units of the controller Adjustable: Imperial/

Metric

Controller: Misc

Display Contrast Sets the contrast for the display Adjustable: 2 to 6Unit Status The status of the controller Read onlyUnit Serial Number The ability to document a serial number or string Adjustable: 30

charactersModel Name The model name of the controller

Details: Unit

Hardware Version The version of the hardwareRead only

Light Level Status The status of the binary input.Light Level The value of the analog input.Zone 1 Override InputZone 2 Override InputZone 3 Override InputZone 4 Override InputZone 5 Override InputZone 6 Override Input

Details: Inputs

Zone 7 Override Input

The value of the binary input.

Read only



Lighting 1 Circuit Command The command given to configurable output 1. Read onlyLighting 1 Circuit Override The ability to override lighting circuit 1. In the

Auto state, the circuit uses the logic setup for thezone.


Lighting 2 Circuit Command The command given to configurable output 2 Read onlyLighting 2 Circuit Override The ability to override lighting circuit 2. In the





















Lighting 9 Circuit Command The command given to configurable output 9. Read only

Details: Output

Lighting 9 Circuit Override The ability to override lighting circuit 9. In theAuto state, the circuit uses the logic setup for thezone.


Light Level Status Total: 10 samples, 1 sample taken every change ofvalue.

Light Level 100 samples are taken every 15 minutes.

Read only

Lighting 1 Circuit Command Total: 10 samples, 1 sample taken every change ofvalue.

Lighting 2 Circuit CommandLighting 3 Circuit CommandLighting 4 Circuit CommandLighting 5 Circuit CommandLighting 6 Circuit CommandLighting 7 Circuit CommandLighting 8 Circuit Command

Trends

Lighting 9 Circuit Command


Read only


Points of single contactAPAC Europe NA/SAJOHNSON CONTROLS

C/O CONTROLS PRODUCT MANAGEMENT

NO. 32 CHANGJIJANG RD NEW DISTRICT

WUXI JIANGSU PROVINCE 214028

CHINA

JOHNSON CONTROLS

WESTENDHOF 3

45143 ESSEN

GERMANY

JOHNSON CONTROLS

507 E MICHIGAN ST

MILWAUKEE WI 53202

USA

Building Technologies and Solutions507 E Michigan Street, Milwaukee, WI 53202, USA

Verasys® and Johnson Controls® are registered trademarks of Johnson Controls

All other marks herein are the marks of their respective owners. © 2019 Johnson Controls


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