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VERASYS LC-SBH200-0 Smart Building Hub User Guide

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Verasys System User's Guide

Building Technologies & Solutions www.johnsoncontrols.com 2021-04-01

LC-SBH200-0

LIT-12012371 Release 4.0

Verasys System User's Guide

Contents
ContesIntroduction to Verasys................................................................................................................................. 7 Features and benefits.................................................................................................................................... 7 Related documentation................................................................................................................................. 8 How to use this document.......................................................................................................................... 10 Connecting to the SBH................................................................................................................................ 10 Facility............................................................................................................................................................ 11
HVAC view........................................................................................................................................... 11 Lighting view...................................................................................................................................... 12 Refrigeration view............................................................................................................................. 12 Changing the name of a facility....................................................................................................... 12 Devices........................................................................................................................................................... 13 Editing device details........................................................................................................................ 13 Removing offline devices.................................................................................................................. 13 Viewing site alarms...................................................................................................................................... 13 Graphics........................................................................................................................................................ 13 Editing graphics on a SMART device............................................................................................... 14 Data share..................................................................................................................................................... 14 Interlocks....................................................................................................................................................... 16 Introduction to interlocks................................................................................................................. 16 Adding a new interlock..................................................................................................................... 17 Configuring a one-condition interlock............................................................................................ 17 Verasys schedules........................................................................................................................................ 17 Configuring a schedule..................................................................................................................... 18 Setting exceptions............................................................................................................................. 18 Settings.......................................................................................................................................................... 18 Wi-Fi access point.............................................................................................................................. 18 Backup................................................................................................................................................ 19 Restore................................................................................................................................................ 19 Profile management......................................................................................................................... 20
Creating a profile for a BACnet device.................................................................................................. 20 Applying a profile to a BACnet device................................................................................................... 21 Editing profile configuration................................................................................................................... 21 Removing a profile from a BACnet device............................................................................................ 21 Switching profiles for a BACnet device.................................................................................................. 22 Exporting a profile................................................................................................................................... 22 Importing a profile................................................................................................................................... 22 Device cloning.................................................................................................................................... 22 Ethernet.............................................................................................................................................. 23 SBH Internet connectivity....................................................................................................................... 24 Load shedding................................................................................................................................... 24

Verasys System User's Guide

Global shutdown............................................................................................................................... 25 System settings.................................................................................................................................. 25 Verasys Enterprise............................................................................................................................. 25 BACnet routing.................................................................................................................................. 26 Broadcast management................................................................................................................... 26 SSL....................................................................................................................................................... 26 Alarm notifications............................................................................................................................ 27 Chain of trust..................................................................................................................................... 27 Self-signed certificates and certificates signed by a public certificate authority...................... 28 Public and private keys..................................................................................................................... 28 Using Google as an SMTP host........................................................................................................ 28 Software updates.............................................................................................................................. 29 Administration................................................................................................................................... 29 Custom logo....................................................................................................................................... 30 Audit log............................................................................................................................................. 31 Diagnostics......................................................................................................................................... 31 System setup................................................................................................................................................ 31 VAV system setup procedures......................................................................................................... 31
Planning the zone bus layout................................................................................................................. 31 Mounting and wiring............................................................................................................................... 31 Configuring a Smart Equipment unit for VAV system using the SBH................................................ 32 Configuring a VEC using the SBH.......................................................................................................... 32 VAV controller zone setup procedures........................................................................................... 33 Configuring a VAV controller for a VAV system (ZEC510) for temperature and flow control........................................................................................................................................................ 33 COBP system setup procedures...................................................................................................... 36 Planning the zone bus layout................................................................................................................. 36 Mounting and wiring............................................................................................................................... 37 Configuring a COBP zone damper (BYP200) for flow control............................................................ 37 Configuring a Smart Equipment unit for COBP control using the SBH............................................ 38 Configuring a VEC for COBP using the SBH......................................................................................... 38 Configuring a change-over bypass zone damper (BYP200) for flow control................................... 39 COBP zone setup procedures.......................................................................................................... 39 Configuring a COBP zone damper (ZEC310) for temperature and flow control.............................. 40 Configuring a VAV controller for a COBP system (ZEC510) for temperature and flow control........................................................................................................................................................ 42 ZEC firmware download................................................................................................................... 45 Upgrading from a coordinator build earlier than v3.2........................................................................ 45 Upgrading from a v3.2 coordinator build to a v3.2 or newer build................................................... 46 Configuring a Verasys IOM.............................................................................................................. 46 Configuring binary and analog inputs.................................................................................................. 46 Configuring the IOM load shed............................................................................................................. 47 Appendix A: Johnson Controls manufactured VAV box characteristics................................................. 47

Verasys System User's Guide

Appendix B: Objects and parameters........................................................................................................ 49 Product warranty....................................................................................................................................... 152 Software terms........................................................................................................................................... 152 Patents......................................................................................................................................................... 152 Single point of contact............................................................................................................................... 152 Contact information................................................................................................................................... 152

Verasys 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. The Verasys system features both simple, configurable controllers and HVACR equipment from the factory or installed in the field. You can use Verasys to configure many HVACR controls applications for one building or an entire enterprise comprised of multiple buildings, without using special programming 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 Johnson Controls Metasys product lines. You can use Verasys to create installation use cases that provide standard feature sets for the light commercial space.
Features and benefits
Plug and play: Provides access to all identifiable and supported devices connected to the field bus without the need for any tool.
Remote access: You can access device information through any supported web browser using a secure connection 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 the facilities' 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 and access them for monitoring and editing from a single view.

Verasys System User's Guide

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

Tags

You can apply metadata tags to the point to specify the type of data that the point represents, for example zone temperature setpoint, and so on. These tags determine if the point shows an option in some of the native Verasys features.

Verasys System User's Guide

Table 4: Point configuration options for a profile

Option Alarm

Description
Select the Alarm checkbox to add alarms. Specify the low limit and high limit conditions, the corresponding messages, differential, delay, and the priority for the alarm.

This action creates an alarm object when you apply this profile to a device.
Select the Trend checkbox to add trends. This action creates a trend object when you apply this profile to a device.

Trend Schedule

The trend objects are created with predefined settings based on the object type. You can view the trend objects on the Trend view of the device navigation screen when you apply the profile to a device.
Select the Schedule checkbox to specify that Verasys schedules can include this point. Create separate schedule objects under the Schedules view.

6. When you finish point configuration, click Done.
7. When you finish object configuration, click the Save button to save the profile.
Note: If you navigate away from the profile editing screens, you lose all progress and start over.

Applying a profile to a BACnet device
About this task: To apply a profile to a device, complete the following steps:

1. Navigate to the Devices page. 2. Select the device you want to apply a profile to. 3. Go to the Profile view. 4. Select the appropriate profile from the drop-down list and click Apply Profile.

Editing profile configuration
About this task: When you update a profile, you lose all alarm and trend data. To edit a profile, complete the following steps:

1. Navigate to Settings > Profiles and click the profile you want to edit.
2. Change the name and the description if needed and click Next to proceed.
3. When the list of all the objects in the profile appears, follow the same process as in Creating a profile for a BACnet device to modify points. When you are ready, click Save to save the profile.
Note: When you save the edited profile, it applies to all the devices that used the old profile.

Removing a profile from a BACnet device
About this task: Removing a profile from a device removes it from all Verasys features. To remove a profile from a BACnet device, complete the following steps:

Verasys System User's Guide

1. Click on the device in the device list and navigate to the Profile view. 2. Click the Reset to defaults button at the bottom of the page to disassociate the profile from
the device and rediscover the device inside of Verasys.
Switching profiles for a BACnet device
About this task: When you apply a profile, you lose all previous feature configurations that included the device. This includes alarm and trend data. To switch profile for a BACnet device, complete the following steps:
1. Click on the device in the device list and navigate to the Profile view. 2. Under the Configuration section, select the new profile that you want to use on the device
and click Apply Profile.
Exporting a profile
About this task: To export a profile, complete the following steps:
1. Navigate to Settings > Profiles and select an existing profile. 2. Click the Export Profile button.
Note: An exported profile is saved locally to the PC according to your browser's settings. For example, when you use Google Chrome, the files are saved to C:\Users\<user name>\Downloads.
Importing a profile
About this task: You can import a profile previously exported from another SBH. To import a profile, complete the following steps:
1. Click Settings > Profiles > Import Profile. 2. In the screen that appears, select the profile stored on your PC. 3. Click Import. The imported profile appears in the list of profiles under Settings > Profile.
Device cloning
About this task: Copy configuration parameters to other devices of the same type using device cloning. To clone a device, complete the following steps:
1. Navigate to Settings > Clone. 2. Select a source device from the drop-down list.
Note: The list contains only the devices that support the cloning feature. 3. Select a destination device from the drop-down list.
Note: The choice of devices in the destination devices drop-down list is limited to compatible devices to the source. 4. Click Clone. Note: When you click Clone, a progress bar appears showing how many attributes are successfully cloned.

Verasys System User's Guide

Ethernet

The Ethernet tab is located under the Settings section. Use the Ethernet tab to set up the connections to an Ethernet network. Under this tab, you can set several parameters to customize the device for your network. The following table describes each parameter.

Table 5: Ethernet Tab

Field

Description

Ethernet

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. The computer name is the hostname for that device.

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

Ethernet MAC Address

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

Auto 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 IP address, the IP address, Subnet Mask, and Default Gateway appear.

If you set this to Off, then you need to enter the IP Address, Subnet Mask, and Default Gateway manually. Ask the network administrator person how to configure this setting.

IP Address
Subnet Mask Default Gateway Auto DNS Configure

If the connection is configured with DHCP, the address to connect to can change. Therefore, you might need to use a static address. If the network administrator requires that you set the device to DHCP, ask for a DHCP connection that always has the same address. The IT person needs to know the Ethernet MAC Address above so they can configure this type of connection.
This is the address of the SBH. If your laptop, phone, or tablet is connected to this subnet, you can open your browser and enter the IP address in the URL section of the browser to access the SBH.
Note: This is a connection for this subnet only. To connect to outside subnets, you need to perform additional settings, see BACnet routing.
Defines the maximum number of devices that may be a part of the subnet.
This is the IP Address of the gateway device or server that allows traffic to go outside the local subnet. You must populate this to connect the SBH to the Internet.
In the same way as with Auto DHCP Configure, a request to the DHCP populates the Domain Name Service (DNS). DNS servers are necessary for the email and texting features to work. If you are using Google� as your SMTP, you can set one or both of the DNS servers to the Google DNS servers. Addresses 8.8.8.8 and 8.8.4.4 are the two Google DNS servers.

Verasys System User's Guide

SBH Internet connectivity
When 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 most secure method of remote access to Verasys. Make sure that you configure the VPN connection correctly, and that you meet the minimum password strength requirements. As this method is the most complex option for remote access, it is best practice to work with your IT department when you implement a VPN solution.
� Simple port forwarding - Lowest level of security assurance: This is the least secure method of remote access to Verasys. After you connect the SBH to your local subnet, use simple port forwarding to configure the system so it is accessible from any Internet connection. The router must apply port forwarding for port 443, which is the most secure access port for a browser. You must use an IP Address that is a WAN IP address or a public address that routes to the connected router. When you type the address in the browser, you must start with https:// followed by the WAN IP address. The https:// prefix ensures the browser uses port 443. If you forward port 80 address, the WAN IP device switches to Port 443. For security reasons, most IT personnel do not consider this a secure connection. For best security practices, use strong passwords and rotate them often.
� Simple port forwarding and installed certificate - Medium level of assurance: After you configure the system for port forwarding, install a certificate. See the Verasys Smart Building Hub (SBH) Network and IT Guidance Technical Bulletin (LIT-12012324).
Note: Installing a certificate only protects the session, it does not mitigate the risks associated with exposing the web ports to the Internet.
Load shedding
In 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 single physical input. You can use this feature in correlation with demand response pricing incentives provided by a local utility. This functionality requires either an LC-IOM100-0 or LC-VAC1002-0 on the system 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, use the Control Setup menu to configure how far to spread the control band during a load shedding event. 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 to 4�F, and the normal occupied setpoints are 72�F for cooling and 68�F for heating, the setpoints temporarily change to 76�F and 64�F during a load shedding period. The BI-2 has a closed contact on either the LC-IOM100-0 or LC-VAC1002-0 that triggers this. After it opens, the setpoints ramp back at the same rate.

Verasys System User's Guide

Global shutdown
In the global shutdown settings, you can select the device that can initiate a global shutdown of the entire HVAC system. This functionality requires either an LC-IOM100-0 or LC-VAC1002-0 on the system bus. To set up global shutdown, complete the following steps:
1. Navigate to the Settings tab.
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 or LC-VAC1002-0 devices is closed. Once BI-1 re-opens, the devices return to normal operation.
System settings
Use the System Settings menu to adjust the date, time, and timezone. You can also configure the units that appear in the application, and set the BACnet Encoding type for the controllers on the system. When you set the date and time, the system starts with the date and time of the device connected to the SBH.
On the SYSTEM SETTINGS menu, click each of the following icons to adjust the settings:
1. Click on the calendar 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 and PM adjusted. When you adjust the settings and click Save, the time synchronizes to all devices with a time clock. To verify the time synchronized on the devices, navigate to the controller. On the Controller tab, the date and time appears.
Verasys Enterprise
The Verasys Enterprise section is used to add the Verasys Enterprise site to a collection of sites so that all user facilities are available in a single location. For information about setting up the Verasys Enterprise 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 get the device ID that you need to add to the enterprise site. Also within this section, you can subscribe to automatic updates to the SBH from the cloud services, and decide at what time you receive the updates.
Note: The SBH reboots after an update.
The Verasys Enterprise tab also shows the status of the enterprise connection and the last time it updated. 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 link below the status for more information.
� PROBLEM: Not connected. See the diagnostic link below the status for more information.

Verasys System User's Guide

BACnet routing
Use the BACnet Router feature to add all the controllers under the control of a SBH, into a larger supervisory 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 devices under its control. Optionally, you can set up a BACnet IP Broadcast Management Device (BBMD) if the SBH and BAS are on different subnets.
To configure the BACnet router feature, complete the following steps:
1. Navigate to the Settings tab.
2. Under the Settings tab, select the BACnet Settings option and adjust the following parameters:
- 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: 4 to 127, default 117.
- Network Number � Sets the routing address for devices under the SBH. Adjustable: 1 to 65534, default 64999. It is best practice to leave the network number on the default setting.
- Routing Mode � In this mode, the SBH can utilize the routing feature which identifies MS/ TP devices over the IP integration.
- UDP Port � Defines the port for the UDP traffic. By default, BACnet uses 47808 but the use of other ports are optional. Adjustable: 47808 to 47823.
Broadcast management
The 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 on another subnet.
To set up the router feature for the BBMD, complete the following steps on the SBH and the supervisor:
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 different
from the UDP port of the SBH itself. - IP Broadcast Mask � Needs to match on both the SBH and the supervisor.
SSL
When 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 Google Chrome, the URL you entered appears with a red slash.

Verasys System User's Guide

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 continue to the site even though it is not secure. Different browsers provide a similar action as Google Chrome. You can continue to the site and log in knowing that the security required for this port has not been configured.
To connect to a secured site, you must add a certificate that is private or public. The purpose of the certificate is to configure a chain of trust. You must set up the public or private keys in order to set up a chain of trust. These keys make sure that the site trusts your device.

Alarm notifications

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

Table 6: Alarm notification

Field

Setting Description

Enabled

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 the subject line.

User Name

To connect to the host server you must log in. This is the user name of that login.

Set Password

This check box opens up a dialog box to enter the password. You must open 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 have finished writing the email. The top of the screen indicates if the system sent the email successfully.

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

Verasys System User's Guide

Self-signed certificates and certificates signed by a public
certificate authority
A self-signed certificate is a certificate that is signed by the same entity that it certifies. This term does not refer to the identity of the person or organization that actually performed the signing procedure. A self-signed certificate is a certificate signed with its own private key, which means the entity signing the certificate is also the entity that created the certificate.
The SBH ships with a default Johnson Controls� self-signed certificate that provides secure communication. You can only install one certificate on an SBH at a time. When you install a new certificate on a SBH, you overwrite the existing certificate. You can run an SBH on your network with a self-signed certificate.
However, if you need to expose the SBH UI on a public network and have browsers that indicate a trusted site, you must get a signed certificate matching your domain name. You can acquire a valid signed 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 secure connection between your browser and the SBH.

Public and private keys
Public and private keys are used to verify that the entity requesting access to a system is who or what it claims to be. For information on configuring your secure site, refer to the Verasys Smart Building Hub (SBH) Network and IT Guidance Technical Bulletin (LIT-12012324). Use your default Admin login credentials that are included on a sticker in the Smart Building Hub Quick Start Guide (Part No. 24-10737-00229).

Using Google as an SMTP host

If you do not have an email service to connect to the SBH, configure an SMTP host for the alarms. The configuration is different depending on whether you want to use TLS encryption.

Option 1: To use Transport Layer Security (TLS) encryption, use the settings in Table 7.

Table 7: TLS encryption - On

Field

Description or Setting

TLS

Host

smtp.gmail.com

Port

465

From Email Address Email address for sender of message

Site Name

Name of the site

User Name

Google account User name

Password

Google account password

Option 2: If you do not want to use TLS encryption, use the settings in Table 8.

Table 8: TLS encryption - Off

Field

Description or Setting

TLS

Off

Host

smtp.gmail.com

Port

587

From Email Address Email address for sender of message

Verasys System User's Guide

Table 8: TLS encryption - Off

Field

Description or Setting

Site Name

Name of the site

User Name

Google account user name

Password

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 that is trying to access the account. You need to change the account to give access to less secure applications.

Software updates
Use the Software Updates tab to update the SBH. The current software version of the SBH appears on 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 is complete, 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 the SBH disconnects from the network.
Note: When you update the software, the device retains your previous settings. Set up and update new features before you update the software. When complete, log in to the SBH and take note of the new version number.
Administration
The Administration tab is located on the Settings tab. You can configure users and user permissions from the Administration tab. By default, the system creates an Admin user role. For first-time login information, see Connecting to the SBH and refer to the Smart Building Hub Quick Start Guide (Part No. 24-10737-00229).
After you have logged in, you are prompted to change the default password. This dialog box is where you change the Admin password again, configure the Admin user, or add more users to the system. Configuring multiple users helps distinguish who makes adjustments to the systems and when they access the system. See the following table.

Verasys System User's Guide

Table 9: New User Field Name Username Password/Verify Password Roles
Alarm Notification Level
Email address and SMS message notifications

Description Identifies the individual obtaining an account. Identifies the user. This unique identifier can not contain spaces. The password must contain 8 or more characters, 1 uppercase letter, 1 number. Roles include:
Tenant: This role provides access to devices, facility, and schedules. Tenant permissions include device homepage, alarm notifications, and password settings.
Tech: This role is similar to the admin role. Tech permissions provide access 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 adjustable Admin: This role provides access to all settings and adjustments within the Verasys System. 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.
You can enter the email address and SMS notifications into the following fields:
� Email Address 1 field � Email Address 2 field

Custom logo
About this task: You can use the custom logo feature to upload a logo of your choice. After you upload the logo, it appears above the Verasys logo on the left side of the navigation and on the Verasys 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. Select the Apply product logo checkbox. 4. Click Save. The custom logo appears above the Verasys logo and on the Verasys login page.

Verasys System User's Guide

Audit log
The 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 the Download button and search through the log to find the information about what changes have been made. The text file contains all the events. If you have Microsoft Excel, you can rename the file extension from a .txt to a .csv and open it with Excel to make it easier to read.
Diagnostics
The SBH diagnostics section is available for troubleshooting field issues. Ignore this tab unless support personnel direct you to generate a report.
System setup
This section acts as quick start guides for setting up your systems and is tailored to the specific controllers in the Verasys system.
VAV system setup procedures
The Verasys system uses plug and play to communicate to the zone coordinator. However, you must configure the system to ensure proper operation and control of the equipment connected to the devices. This section instructs you how to set up the zone coordinator for a VAV system.
Planning the zone bus layout
Plan the zone bus layout. For more information about communications buses, refer to the Verasys BACnet MS/TP Communications Technical Bulletin (LIT-12012362). 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 wiring
configuration.
Note: For full wiring details and diagrams refer to the ZEC510 VAV Controllers Installation Guide (Part No. 24-10143-01485).
Mounting and wiring
To 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.

Verasys System User's Guide

10. Turn on the RTU. Make sure it connects to the zone coordinator. See the following sections and complete the relevant steps before proceeding.
- If the RTU is a smart equipment unit, see Configuring a Smart Equipment unit for VAV system using the SBH.
- If it is a Verasys Equipment Controller, see Configuring 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 VAV box controller and use the red manual override button to open up the damper and adjust the supply 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 was
temporarily set in Set the end-of-line (EOL) switch on the RTU to ON to make it the EOL on the trunk. and set the actual end of the line on the trunk. 14. Use the following sections to check your configuration:
- Configuring a VAV controller for a VAV system (ZEC510) 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 SBH
The Smart Equipment unit is delivered with partial factory setup completed. Follow this procedure to check that the minimal settings have been performed.
1. Log in to the SBH. 2. From the device list screen, select the Smart Equipment unit. The RTU home page and the RTU
menu structure appear. 3. Navigate to Controller > Description. 4. Set Rooftop Controller Type to VAV. If it is not set to VAV, the zone coordinator does not
control as a VAV system. 5. Navigate to Details > Indoor Fan > Setup, and verify that Fan Control Type is set to Variable
Speed.
Note: In older versions of Smart Equipment firmware, Rooftop Controller Type is located in the Details > Service > Factory > Miscellaneous section, and Fan Control Type is located in Details > Service > Factory.
6. Check the operation of the unit. Use the steps in the Setting the temperature control and flow parameters section to complete the configuration.
Note: Make sure you have some zones blocked open to relieve duct pressure.
Configuring a VEC using the SBH
The Verasys Equipment Controller (VEC) is by default a change-over bypass system. You must change this to a VAV system. Complete the following procedures to check that the minimal settings have been performed.
1. Log in to the SBH. 2. From the device list screen, select VEC. The VEC home page and the VEC menu structure
appear.

Verasys System User's Guide

3. The VEC home page provides an overview of the status of the unit. Check that the Supply Air Temperature (SAT) appears properly.
Note: For the unit to have control, you need at least 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 to modulate. - Set the RTU controller type to VAV. It defaults to change-over bypass so you must change it.
Testing the unit To 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 a return air sensor that can control the heat for warm-up mode. 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 procedures
The Verasys zone controllers come with predefined parameters and are plug-and-play when they communicate to the zone coordinator. However, you need to configure temperature control and flow 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 (ZEC510) for temperature and flow control
This method uses the SBH connected to a zone coordinator. To configure a VAV controller for a VAV system, 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 that the zone coordinator communicates to the SBH. If necessary, you can refer
to the Verasys Zone Coordinator Installation Guide (Part No. 24-10143-1280) and navigate to the Troubleshooting section for information about LED flash rates and voltage measurements to verify communication.
Checking the VAV box About this task:
Note: This procedure is for the ZEC VAV controllers and it is the minimal configuration needed for temperature and flow control.

Verasys System User's Guide

Complete the following steps to check the VAV box:
1. Log in to the SBH. 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 Control Setup tab and ensure that Control Application Type has the correct
setting. Important: When you change this parameter, the controller restarts and you lose all other parameter settings.
7. Navigate to the Equipment Setup tab. 8. Turn the blade extension shafts a certain direction to open the dampers mechanically. 9. Check which direction closes the dampers and use the Damper Polarity parameter to set
that position. 10. Set the Actuator Stroke Time to 60 seconds. 11. Before you continue, make sure you can manually move the actuator. To test this, hold down
the red gear release button and turn the damper shaft. The red button unlocks the gear of the actuator and the collar can then move freely. If it cannot move freely, loosen the locking mechanism and move it 90 degrees, then lock it down again. Figure 1: Moving the Actuator

Table 10: Moving the actuator

Number

Description

Damper

Damper shaft

Gear release button

Verasys System User's Guide

12. If the VAV box has heating functionality, set the parameters for the heating. 13. If the VAV box has a fan, set the parameters for the fan type. 14. If you want to calibrate the temperature, adjust the ZNT SENSOR OFFSET so the temperature
matches the sensor you are calibrating to. 15. See Appendix A: Johnson Controls manufactured VAV box characteristics for directions to
close the various JCI 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 24 Load Shed parameters. To ensure proper temperature control, use the design flow schedule for the system, which is usually found on the mechanical plans for the job, to set the following flow parameters:
Note: The VAV box controls the amount of supply air from the unit into the VAV box. It is not the flow coming out of the box. Equipment such as a series fan, could increase the flow 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 after cooling. Adjustable: 0 cfm to 10,000 cfm.
c. Occupied Heating Min Flow � Sets the minimum supply air flow of the VAV box when heating. 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: 0 cfm to 10,000 cfm.
e. Unoccupied Cooling Min Flow � Sets the minimum supply air flow of the VAV box when in unoccupied cooling mode. Adjustable: 0 cfm to 10,000 cfm.
f. Unoccupied Heating Min Flow � Sets the minimum supply air flow of the VAV box when in unoccupied heating mode. Adjustable: 0 cfm to 10,000 cfm.
g. Supply Area: The supply inlet area used to calculate the supply flow. Adjustable: 0 sq. ft to 8.0 sq. ft.
h. Pickup Gain: Shows the K factor for the box. This parameter calibrates the flow. Adjustable, see Appendix A: Johnson Controls manufactured VAV box characteristics for the pickup gains, and for directions on how to close JCI brands of VAV boxes. Each manufacturer 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 than Staged Reheat Min Flow.

Verasys System User's Guide

2. After you have set the flow parameters, it is best practice to issue an auto calibration command. You must have air flow coming from the unit before you do this.
a. To start an auto calibration, set the Auto Calibration Command parameter to True. The auto calibration drives the damper closed and your velocity pressure must read near zero. The Auto Calibration Offset parameter is set to this value and the box reads zero flow.
Note: A common issue is incorrect damper polarity. The damper does not close, but instead it opens fully and offsets the flow. Ensure the damper polarity set in Checking the VAV box is correct.
b. When the Auto Calibration Status parameter shows that auto calibration is complete, set Auto Calibration Command to False.
3. Select the Control Setup tab and check that each parameter is set to customize the zone to the customer's needs. For example, check if a Warmer cooler adjustment is needed or if you need temporary occupancy.
Note: See Appendix B: Objects and parameters for information about the controller parameters. Your supply air flow controls to the supply air setpoint. The supply air setpoint increases from minimum to maximum depending on the temperature demand of the zone. You can use the Trends tab to diagnose issues and see the history of the zone temperature.
Configuring zone groups for scheduling About this task: Group schedules is a feature in the zone coordinator to simplify the creation of zone controller schedules. You can assign each zone controller to one of four zone groups, and you can create a schedule for each zone group in the zone coordinator. This way, you can create the same schedule and add exceptions for multiple zone controllers.
Note: By default, zone controllers are in zone group 1 until you move them to a different group.
To assign a zone controller to a zone group, complete the following steps:
1. Select the controller device. 2. Click Control Setup. 3. In the Zone Group Number field, enter the zone group number in the range of 1 to 4.
What to do next: Assign all zone controllers to a zone group. When you create a schedule for the zone coordinator, you can also select the zone group that you want to add the schedule to.
COBP system setup procedures
The Verasys system uses plug-and-play functionality to set up communication with a zone coordinator. However, you must configure the system to ensure proper operation and control of the equipment connected to the devices. This section instructs you how to set up the zone coordinator for a COBP system.
Planning the zone bus layout
Plan the zone bus layout. For more information about communications buses, refer to the Verasys BACnet MS/TP Communications Technical Bulletin (LIT-12012362).

Verasys System User's Guide

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 wiring
configuration.
Note: For full wiring details and diagrams refer to the ZEC510 VAV Controllers Installation Guide (Part No. 24-10143-01485).
Mounting and wiring
To 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 port
on 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 Verasys
Zone 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. See
the following sections and complete the relevant steps before proceeding.
- If the RTU is a SMART Equipment device, see Configuring a Smart Equipment unit for COBP control using the SBH.
- If a VEC controls the RTU see Configuring 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 set the CONSTRUCTION MODE to deliver Heat or Cool.
Configuring a COBP zone damper (BYP200) for flow control
This method uses the SBH connected to a zone coordinator. To set up a COBP damper, complete the following steps:
1. Wire the zone bus trunk to the zone coordinator. 2. Power on the BYP200 device. 3. Power on the device that communicates to the zone coordinator. 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 was
temporarily set in Mounting and wiring and set the actual EOL on the trunk.
Note: See Configuring a COBP zone damper (ZEC310) for temperature and flow control and Configuring a VAV controller for a COBP system (ZEC510) for temperature and flow control depending on whether you have zone dampers or VAV controllers.

Verasys System User's Guide

7. When you connect all the zones, switch the unit out of construction mode, synchronize time to the zone coordinator, and set up the schedule.
Configuring a Smart Equipment unit for COBP control using the SBH
The Smart Equipment unit comes with partial factory setup completed. Follow this procedure to check that the minimal settings have been performed.
1. Log in to the SBH. 2. From the device list screen, select the Smart Equipment unit. The RTU home page and the RTU
menu structure appear. 3. Navigate to Controller > Description. 4. Set Rooftop Controller Type to Changeover bypass. 5. Navigate to Details > Indoor Fan > Setup, and verify that Fan Control Type is set to Single
Speed or Fixed Variable.
Note: In older versions of Smart Equipment firmware, Rooftop Controller Type is located in the Details > Service > Factory > Miscellaneous section, and Fan Control Type is located in Details > Service > Factory.
6. Check the operation of the unit. Verify that you have some zones blocked open. 7. After verifying, see Configuring a COBP zone damper (BYP200) for flow control to configure the
bypass damper.
Configuring a VEC for COBP using the SBH
The VEC is by default a COBP system. Partial factory setup is already completed. Complete the following procedures to check that the minimal settings have been performed.
1. Log in to the SBH. 2. From the device list screen, select VEC. The VEC home page and the VEC menu structure
appear. 3. The VEC home page provides an overview of the status of the unit. Check that the SAT sensor
reading 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-party equipment.
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.

Verasys System User's Guide

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 control
This method uses the SBH connected to a zone coordinator. To set up a COBP damper, complete the following steps:
1. Wire the zone bus trunk to the zone coordinator. 2. Power on the BYP200 device. 3. Power on the device that communicates to the zone coordinator. 4. Check that the zone coordinator communicates with the SBH.
Checking the bypass damper Once these requirements are established, use the following procedure to check the bypass damper:
1. Log in to the SBH. 2. From the device list screen, select the COBP damper. The home page and the bypass damper
menu 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. The controller 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 second damper. Any other actuator used needs to have a means to switch the action of the actuator 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 procedures
The Verasys zone controllers come with predefined controllers and use plug and play functionality to configure communication with a zone coordinator. However, you must configure the following settings to ensure correct operation and control of the connected devices. This section instructs you how to configure the zone controllers for temperature and flow control.
Note: For full wiring details and diagrams refer to the ZEC510 VAV Controllers Installation Guide (Part No. 24-10143-01485).

Verasys System User's Guide

Configuring a COBP zone damper (ZEC310) for temperature and flow control
This method uses the SBH connected to a zone coordinator. To configure a COBP zone damper, 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. Check that the zone coordinator communicates to the SBH.
Checking the zone damper About this task:
Note: This procedure is for the ZEC310 zone dampers and it is the minimal configuration needed for temperature and flow control.
Complete the following steps to check the zone damper:
1. Log in to the SBH. 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. 7. Turn the blade extension shafts a certain direction to open the dampers mechanically. Check
the rotation before you tighten the locking collar to the damper shaft. 8. Check which direction closes the dampers and use the Damper Polarity parameter to set
that position. 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 down
the red gear release button and turn the damper shaft. The red button unlocks the gear of the actuator and the collar can then move freely. If it cannot move freely, loosen the locking mechanism and move it 90 degrees, then lock it down again.

Verasys System User's Guide

Figure 2: Moving the actuator

Table 11: Moving the actuator

Number 1 2 3

Description Damper Damper shaft Gear release button

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 to appear.

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 the damper open and closed. Select heating or cooling depending on the current state of the box.
Note: If the damper is not opening and closing, press the red button on the actuator, and check that it can move freely. This button unlocks the actuator so you can manually move it. Reconnect the actuator so it moves freely. Make sure the direction to close is what you set earlier in this procedure.
b. Once the actuator works properly, set the minimum and maximum damper positions for each 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 the customer's needs. For example, check if a warmer cooler adjustment is needed, or if you need temporary occupancy, or set the zone weight and the zone's voting options. Use the Trends tab to diagnose issues and see the history of the zone temperature.

Verasys System User's Guide

Configuring zone groups for scheduling About this task: Group schedules is a feature in the zone coordinator to simplify the creation of zone controller schedules. You can assign each zone controller to one of four zone groups, and you can create a schedule for each zone group in the zone coordinator. This way, you can create the same schedule and add exceptions for multiple zone controllers.
Note: By default, zone controllers are in zone group 1 until you move them to a different group.
To assign a zone controller to a zone group, complete the following steps:
1. Select the controller device. 2. Click Control Setup. 3. In the Zone Group Number field, enter the zone group number in the range of 1 to 4.
What to do next: Assign all zone controllers to a zone group. When you create a schedule for the zone coordinator, you can also select the zone group that you want to add the schedule to.
Configuring a VAV controller for a COBP system (ZEC510) for temperature and flow control
This method uses the SBH connected to a zone coordinator. To set up a VAV controller for a COBP system, 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. Check that the zone coordinator communicates to the SBH.
Checking the VAV box About this task:
Note: This procedure is for the ZEC510 VAV controller, and it is the minimal setup needed for temperature and flow control.
Use the following procedure to check the VAV box:
1. Log in to the SBH. 2. From the device list screen, select the VAV zone you want to configure. The zone home page
and 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. Navigate to the Control Setup tab and ensure that Control Application Type has the correct
setting. Important: When you change this parameter, the controller restarts and you lose all other parameter settings.
7. Select the Equipment Setup tab. 8. Turn the blade extension shafts a certain direction to open the dampers mechanically. 9. Check which direction closes the dampers and use the Damper Polarity parameter to set
that position. 10. Set the Actuator Stroke Time to 60 seconds.

Verasys System User's Guide

11. Before you continue, make sure you can manually move the actuator. To test this, hold down the red gear release button and turn the damper shaft. The red button unlocks the gear of the actuator and the collar can then move freely. If it cannot move freely, loosen the locking mechanism and move it 90 degrees, then lock it down again.
Figure 3: Moving the actuator

Table 12: Moving the actuator

Number 1 2 3

Description Damper Damper shaft Gear release button

Verasys System User's Guide

Setting the temperature control and flow parameters
1. Select the Commissioning tab to set the flow, DCV, and Title 24 Load Shed parameters. To ensure proper temperature control, use the design flow schedule for the system, which is usually 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 after cooling. Adjustable: 0 to 10,000 cfm.
c. Occupied Heating Min Flow � Sets the minimum supply air flow of the VAV box when heating. 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 to 10,000 cfm.
e. Unoccupied Cooling Min Flow � Sets the minimum supply air flow of the VAV box when in unoccupied cooling mode. Adjustable: 0 to 10,000 cfm.
f. Unoccupied Heating Min Flow � Sets the minimum supply air flow of the VAV box when in unoccupied heating mode. Adjustable: 0 to 10,000 cfm
g. Supply Area � The supply inlet area used to calculate the supply flow. Adjustable: 0 to 8.0 sq. ft.
h. Pickup Gain � Shows the K factor for the box. This parameter calibrates the flow. Adjustable, see Appendix A: Johnson Controls manufactured VAV box characteristics for the pickup gains, and for directions on how to close JCI brands of VAV boxes. Each manufacturer 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 than Staged Reheat Min Flow.
2. After you have set the flow parameters, it is best practice to issue an auto calibration command. You must have air flow coming from the unit before you do this.
a. To start an auto calibration, set the Auto Calibration Command parameter to True. The auto calibration drives the damper closed and your velocity pressure must read near zero. The Auto Calibration Offset parameter is set to this value and the box reads zero flow.
Note: A common issue is incorrect damper polarity. The damper does not close, but instead it opens fully and offsets the flow. Ensure the damper polarity set in Checking the VAV box is correct.
b. When the Auto Calibration Status parameter shows that auto calibration is complete, set Auto Calibration Command to False.
3. Select the Control Setup tab and check that each parameter is set to customize the zone to the customer's needs. For example, check if a warmer cooler adjustment is needed or if you need temporary occupancy or set the zone weight and the zone's voting options. Use the Trends tab to diagnose issues and see the history of the zone temperature.
Note: See Appendix B: Objects and parameters for information about the controller parameters.

Verasys System User's Guide

After completing the procedures outlined above, the zone controls properly. Your supply air flow controls to the supply air setpoint. The supply air setpoint increases from minimum to maximum depending on the temperature demand of the zone. You can use the Trends Tab to diagnose issues and see the history of the zone temperature.
Configuring zone groups for scheduling About this task: Group schedules is a feature in the zone coordinator to simplify the creation of zone controller schedules. You can assign each zone controller to one of four zone groups, and you can create a schedule for each zone group in the zone coordinator. This way, you can create the same schedule and add exceptions for multiple zone controllers.
Note: By default, zone controllers are in zone group 1 until you move them to a different group.
To assign a zone controller to a zone group, complete the following steps:
1. Select the controller device. 2. Click Control Setup. 3. In the Zone Group Number field, enter the zone group number in the range of 1 to 4.
What to do next: Assign all zone controllers to a zone group. When you create a schedule for the zone coordinator, you can also select the zone group that you want to add the schedule to.
ZEC firmware download
You can use the ZEC firmware download feature to upgrade all the zone controllers in a zoning system through the USB upgrade of the Verasys Zone Coordinator (VZC100). This feature means future enhancements to the zone controllers are possible without physically replacing the hardware. The firmware download supports the following zone controller devices:
� LC-ZEC310-0 � LC-ZEC510-1 � LC-ZEC510-2 � LC-ZEC510-3
Note: The download process takes between five and seven minutes for each zone.
Upgrading from a coordinator build earlier than v3.2
If the VZC firmware is earlier than v3.2, you must upgrade the VZC firmware to a v3.2 or newer build before you can upgrade the firmware in the ZECs. To upgrade the VZC to a v3.2 or newer build, complete the following steps:
1. Log in to the SBH. 2. Physically remove the zone bus from the VZC100. For more information about VZC zone bus
wiring, refer to the Verasys Zone Coordinator (VZC) Installation Guide (Part No. 24-10143-1280). 3. Navigate to the Devices page on the SBH200, and wait until all devices under the zone
coordinator that you are updating, switch to offline. 4. When all devices under the zone coordinator go offline, click Remove Offline Devices. 5. Copy vvvvvv_VZCUSB.pkg to the root directory of a USB 2.0 drive.
Note: The USB drive must have a FAT or FAT32 file system. NTFS and USB 3.0 are not supported.

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6. Insert the USB drive into the VZC. A red fault light flashes rapidly to indicate that the upgrade is taking place. If the red fault light does not flash, recycle power to the VZC.
7. When the upgrade is complete, the fault light is solid off.
8. Remove the USB drive.
9. Reconnect the zone bus and wait for all devices to appear under the zone coordinator.
10. Continue with the procedure in Upgrading from a v3.2 coordinator build to a v3.2 or newer build to upgrade the firmware in the ZECs.
Upgrading from a v3.2 coordinator build to a v3.2 or newer build
If the VZC firmware is v3.2 or newer, you can upgrade the firmware in the ZECs and the VZC firmware in the following upgrade procedure. If the VZC is already at the same firmware version as the upgrade file, but the ZECs are at an older firmware version, then the ZECs receive the upgrade. This upgrade process also clears the error that firmware versions do not match the package.
To upgrade the ZEC firmware or both the ZEC and VZC firmware from a v3.2 or newer build, complete the following steps:
1. Copy vvvvvv_VZCUSB.pkg to a USB drive, and insert the USB drive into the VZC. A red fault light 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 upgrade. The status appears under the device that is in provision.
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 home page. You can see the firmware version of each zone listed under the zone coordinator.
5. Reboot the SBH.
Configuring a Verasys IOM
The Verasys IOM LC-VAC1002-0 provides additional controls for monitoring and controlling ancillary devices. You can use the IOM to monitor temperature, pressure, air flow, or other inputs based on the input type. The IOM can also use its binary output options to control lighting, 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 feature to 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 is based on the number of inputs and outputs. One IOM consists of nine binary outputs, four binary inputs, and five analog inputs.
To configure IOM points, navigate to Devices and select the IOM device you want to update. For more information about configuring the IOM, refer to the Verasys Input Output Module Application Note (LIT-12012992).
Configuring binary and analog inputs
To 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. - States Text

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- Delay Type - Off Delay - On Delay - Alarm priority - Alarm Text - Alarm State - Alarm Delay
3. Select the Point Type of the analog input you are using. You can adjust the Value of the Point Type 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 a different sensor than what is provided in the VAC1002 accessories list is used. The IOM home page 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 respond requirement for a Verasys system, the binary input must be set to On, based on dry contact. A load shed sequence then goes into affect. You can use this feature for State of California Title 24 Requirements for a zoning system.

Appendix A: Johnson Controls manufactured VAV box characteristics

Table 13: Manufacturer damper data

Manufacturer

Default direction to close

Environmental Technologies Inc.

Clockwise

Krueger

Counterclockwise

Titus

Counterclockwise

Tuttle and Bailey�

Counterclockwise

Verasys System User's Guide

Table 14: Quickfill defaults

Pickup gain (sq ft)

Box duct size

Area (sq ft)

ETI with a 45 degree rotation

ETI with a 90 degree rotation

0.09

1.71

1.63

0.14

1.69

1.66

0.20

1.67

2.90

0.27

n/a

0.35

1.61

2.52

0.44

n/a

0.55

1.63

2.41

0.79

1.61

2.38

1.07

1.59

2.29

1.40

1.61

2.29

n/a

1.59

2.43

n/a

2.92

0.78

1.61

n/a

0.78

1.60

2.65

n/a

1.00

n/a

2.67

n/a

Krueger 2.32 2.31 2.32 2.32 2.33 2.33 2.32 2.32 2.33 2.33 n/a n/a n/a 2.33 n/a n/a n/a n/a

Tuttle and bailey 2.80 3.00 2.90 3.00 2.90 n/a 3.00 3.00 3.00 3.00 3.00 n/a n/a 3.00 n/a n/a 3.00 n/a

Titus 1.63 1.95 3.07 2.57 2.39 2.30 2.31 2.76 2.02 2.12 n/a n/a 2.19 2.19 n/a 2.57 n/a 2.22

Verasys System User's Guide

Appendix B: Objects and parameters

You can find the objects and parameters for the different Verasys System controllers in the following tables and documents:
� SSE RTU controller: Table 15 � VZC100: Table 16 � BYP200: Table 17 � ZEC510: Table 18 � ZEC310: Table 19 � TEC363x: Table 20 � Generic IOM LC-VAC1002-0: Table 21 � Lighting controller LC-VAC1001-0: Table 22 � VEC100: refer to the application note for the application that you use.

- VEC100 Generic RTU Controller, Modulated Heating and Modulated Cooling Application Note (LIT-12013484)
- VEC100 Generic RTU Controller, Modulated Heating and Staged Cooling Application Note (LIT-12013361)
- VEC100 Generic RTU Controller, Staged Heating and Modulated Cooling Application Note (LIT-12013485)
- VEC100 Generic RTU Controller, Staged Heating and Staged Cooling Application Note (LIT-12013443)
- VEC100 Generic RTU Heat Pump Controller Application Note (LIT-12013452)

Table 15: SSE RTU controller

Menu Status: Thermostat
Status: Smoke Control

Object or Parameter

Description

Y1 - Thermostat

First stage cooling thermostat call

Y2 - Thermostat

Second stage cooling thermostat call

Y3 - Thermostat

Third stage cooling thermostat call

Y4 - Thermostat

Fourth stage cooling thermostat call

W1 - Thermostat

First stage heating thermostat call

W2 - Thermostat

Second stage heating thermostat call

W3 - Thermostat

Third stage heating thermostat call

G - Thermostat

Binary fan thermostat call

Local Occupancy Input - Local occupancy mode of the unit

Thermostat

Operating Purge Command Displays if unit is purged or not

Purge Command Source Command source of purge command

Local Purge Command

Economizer Purge command input

Input

Network Override Purge Network Override purge command

Command

Shutdown Input/Smoke

Smoke detector input; a closed contact equates

Detector

an alarm condition

Adjustable Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only
Read Only Read Only Read Only
Adjustable: False/True
Read Only

Verasys System User's Guide

Table 15: SSE RTU controller

Object or Parameter

Description

Adjustable

Status: Status

Unit Status

The current status or state of the unit

Read Only

Economizer Status

The Economizer operational status

Read Only

Exhaust Fan Status

The Exhaust Fan operational status

Read Only

Fan Status

The current status of the fan

Read Only

Hot Gas Reheat Status

The Hot Gas Reheat operational status

Read Only

Cooling Status

The Cooling Control operational status

Read Only

Dirty Filter Switch

The switch that suggests that the filter is dirty Read Only

UCB 24VAC Input

Analog input stating the current status of VAC Read Only

supply

Status: Control Econ Controller

The current connection status of the economizer Read Only

board. Not present means that the board has not

been installed. Offline means that the board is

installed but not online. Online means that the

board is installed and online.

4 Stage Controller

This input is the current communication status of Read Only

the four stage add-on board.

FDD Master Controller

This input is the current communication status of Read Only

the FDD1 add-on board.

FDD Subordinate Controller This input is the current communication status of Read Only

the FDD2 add-on board.

Summary:

Operational Outdoor Air Analog input of the current operational outdoor Read Only

Sensors:

Temperature

air temperature

Operational Mode Operational Space

Analog input of the current operational space Read Only

Temperature

temperature

Operational Space

Analog input of current space temperature

Read Only

Temperature Setpoint

setpoint offset

Offset

Operational Space Humidity Analog input of the current operational space Read Only

humidity

Operational Outdoor Air Analog input of the current operational outdoor Read Only

Humidity

humidity

Operational Indoor Air

Analog input of the current operational indoor Read Only

Quality

humidity

Operational Outdoor Air Analog input of the current operational outdoor Read Only

Quality

humidity

Operating Purge Command Indicates if unit is purged or not

Read Only

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Summary: Sensors: Sensors
Summary: Unit

Object or Parameter

Description

Adjustable

Supply Air Temperature

The present value of the supply air temperature Read Only

analog input.

Return Air Temperature The present value of the Return Air Temperature Read Only

analog input

Outdoor Air Temperature The present value of the Outdoor Air

Read Only

Input

Temperature analog input

Outdoor Air Temperature The source of the Outdoor Air Temperature

Read Only

Source

analog input

Space Temperature Input The present value of the Space Temperature

Read Only

Input

Space Temperature Source The source of the Space Temperature Input

Read Only

Space Temperature Alarm The present value of the Space Temperature

Adjustable: 0 to 25�F

Setpoint Offset

Alarm Setpoint Offset set by the user

Space Temperature Alarm The present value of the Space Temperature

Adjustable: 0 to 120

Time Delay

Alarm Time Delay set by the user

minutes

Space Temp Setpoint Offset The present value of the Space Temp Setpoint Read Only

Input

Offset Input

Space Temperature Setpoint The source of the Space Temperature Setpoint Read Only

Offset Source

Offset input

Space Temperature Setpoint The Space Temperature Setpoint Offset range set Adjustable: 0 to 5 delta

Offset Range

by the user

�F

Space Humidity RAH Input The present value of the Space Humidity RAH

Read Only

Input

Space Humidity Source

The source of the Space Humidity input

Read Only

Outdoor Air Humidity Input The present value of the Outdoor Air Humidity Read Only

Input

Outdoor Air Humidity

The source of the Outdoor Air Humidity input

Read Only

Source

Indoor Air Quality

The present value of the Indoor Air Quality

Read Only

Indoor Air Quality Source The source of the Indoor Air Quality input

Read Only

Outdoor Air Quality Input The present value of the Outdoor Air Quality

Read Only

Input

Outdoor Air Quality Source The source of the Outdoor Air Quality input

Read Only

Purge Command Source The source of the Purge Command input

Read Only

Supply Air Humidity

The present value of the Supply Air Humidity

Read Only

Mixed Air Temperature

The present value of the Mixed Air Temperature Read Only

Building Static Pressure

The present value of the Building Static Pressure Read Only

Duct Static Pressure

The present value of the Duct Static Pressure

Read Only

Unit Name

The name of the Unit

Adjustable

Unit Model Number

Indicates the firmware version of the controller Adjustable

Unit Serial Number

Indicates the serial number of the controller

Adjustable

Model Name

Indicates the model name of the controller

Read Only

Unit Status

Indicates in current status of the controller

Read Only

Unit Enable

Indicates if the unit is enabled by the user

Adjustable: Shutdown/

Enable

Hardware Reset

Indicates if the hardware is being reset by the Adjustable: No/Yes

user

Reset Lockouts

Indicates if any reset lockouts are present

Adjustable: Off/On

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Commissioning: Quick Start
Commissioning: Standard

Object or Parameter

Description

Adjustable

Number of Cooling Stages Sets the number of Cooling Stages installed

Adjustable: 1 to 4

Installed

Number of Heating Stages Sets the number of Heating Stages installed

Adjustable: 0 to 3

Installed

Number of Heat Pump

Sets the number of Heat Pump Stages installed Adjustable: 0 to 2

Stages Installed

Number of Refrig Systems Sets the number of Refrig Systems installed

Adjustable: 0 to 4

Installed

Fan Control Type

Sets the Fan Control Type

Adjustable: SE RTU Fan

Control Type

Thermostat Only Control Sets the control to Thermostat Only mode

Adjustable: No/Yes

Enabled

Continuous Fan Operation Sets the control for Continuous Fan during

Adjustable: No/Yes

in Occupied Mode

Occupied

Economizer Minimum

Sets the Economizer Minimum Position

Adjustable: 0 to 100

Position Setpoint

Supply Air Temperature

The current Supply Air Temperature

Read Only

Return Air Temperature

The current Return Air Temperature

Read Only

Outdoor Air Temperature The current Outdoor Air Temperature (Input)

Read Only

Input

Cooling Status

The current Cooling Control Status

Read Only

Heating Status

The current Heating Control Status

Read Only

Cooling Mode Enabled For Allows Cooling Mode to be enabled for operation Adjustable: No/Yes

Operation

Heating Mode Enabled For Allows Heating Mode to be enabled for operation Adjustable: No/Yes

Operation

Unique Equipment

Sets the current Equipment configuration specific Adjustable: SE

Identifier

to the unit

RTU Equipment

Configuration

Occupancy Mode

Sets the Occupancy Mode of the controller

Adjustable: SE

Occupancy Mode

Thermostat Only Control Sets the control to Thermostat Only mode

Adjustable: No/Yes

Enabled

Cooling Mode Enabled For Allows Cooling Mode to be enabled for operation Adjustable: No/Yes

Operation

Number of Cooling Stages Sets the number of Cooling Stages installed

Adjustable: 1 to 4

Installed

Heating Mode Enabled For Allows Heating Mode to be enabled for operation Adjustable: No/Yes

Operation

Number of Heating Stages Sets the number of Heating Stages installed

Adjustable: 0 to 3

Installed

Economizer Enabled For

Determines if an Economizer is enabled for

Adjustable: No/Yes

Operation

operation

Economizer Minimum

Determines the Economizer minimum position Adjustable: 0 to 100%

Position Setpoint

Economizer Damper

Determines the Economizer min position on low Adjustable: 0 to 100%

Minimum Position Low

fan speed

Speed Fan

Continuous Fan Operation Sets the control for Continuous Fan during

Adjustable: Yes/No

in Occupied Mode

Occupied

SAT Limit for Cooling Enable Allows option for SAT limit for cooling enable

Adjustable: No/Yes

SAT Limit for Cooling

Sets the SAT Limit for Cooling

Adjustable: 40 to 65�F

Setpoint

OAT Cooling Cutout Enabled Allows optional for Cooling Cutout to be enabled Adjustable: No/Yes

OAT Cooling Cutout

Sets the Cooling Cutout Temperature

Adjustable: 0 to 100�F

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Commissioning: Options

Object or Parameter

Description

Adjustable

Fan Control Type

Sets the Fan Control Type

Adjustable: SE RTU Fan

Control Type

Exhaust Type

Sets the Exhaust Setup

Adjustable: SE RTU

Exhaust Setup

Number of Refrig Systems Sets the number of Refrig Systems installed

Adjustable: 0 to 4

Installed

Low Ambient Enabled

Allows Low Ambient to be enabled/disabled

Adjustable: No/Yes

Lead/Lag Equalize Cooling Sets if Lead/Lag functionality should be used for Adjustable: No/Yes

Stage Runtime Enabled

Compressor runtimes

Hot Gas Bypass Present

Determines if Hot Gad Bypass is present in the Adjustable: No/Yes

system

Heating Mode Enabled For Allows Heating Mode to be enabled for operation Adjustable: No/Yes

Operation

Heating Control Type

Sets the Heating Control Type

Adjustable: Heat Cool

Type

SAT Air Temp Limit for

Allows option for SAT Air Temp Limit for Heating Adjustable: No/Yes

Heating Enabled

SAT Air Temp Limit For

Sets the SAT Air Temp Limit for Heating

Adjustable: 100 to

Heating Setpoint

180�F

Outdoor Air Temp Heating Sets the OAT Heating Cutout Setpoint

Adjustable: 0 to 100�F

Cutout Setpoint

Air Proving Switch Setup Sets the Air Proving Switch Setpoint

Adjustable: Fan Setup

Dirty Filter Switch Installed Determines if Dirty Filter Switch is installed

Adjustable: No/Yes

Demand Ventilation Mode Sets the Demand Ventilation Mode of Operation Adjustable: SE RTU DCV

of Operation

for the system

Mode

Hot Gas Reheat Enabled For Determines in Hot Gas Reheat is enabled

Adjustable: No/Yes

Operation

Morning Warmup Enabled Determines if Morning Warmup is enabled

Adjustable: No/Yes

Number of Heat Pump

Sets the number of Heat Pump Stages installed Adjustable: 0 to 2

Stages Installed

Low Ambient Fan Pre-run Sets the Low Ambient Fan Pre-Run Time for

Adjustable: 0 s to 255 s

Time For Cooling

Cooling

PID Tuning Reset

Determines if the PID should be reset or not

Adjustable: False/True

Low Ambient Start

Determines if Low Ambient should be set on start Adjustable: No/Yes

SZ VAV Enabled

Determines if SZ VAV is enabled

Adjustable: Off/On

Network Occupancy

Determines if Network Occupancy Timeout is

Adjustable: Disable/

Timeout Enable

enabled

Enable

Network Occupancy

Sets the Network Occupancy Timeout Time

Adjustable: 5 to 60

Timeout Time

minutes

Pressurize Instead of Purge Sets the option to Pressurize instead of purging Adjustable: No/Yes

the system

Cooling Allowed During

Sets the option to Cool during Heat limit

Adjustable: No/Yes

Heat Limit

operation

FDD Alarm Enable

Determines if FDD Alarm is Enabled

Adjustable: Disable/

Enable

Econ Sensor Fault

Sets the Econ Sensor Fault Indications are present Adjustable- Disable/

Indications

Enable

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Commissioning: Network Setup
Commissioning: Commissioning Mode

Object or Parameter

Description

Adjustable

FC Comm Mode

Set to wired field bus. Wireless is in the future. Read Only

Address

The address of the controller. This address is

Adjustable: 4 to 127

Adjustable via the smart building hub and the

display on the controller.

Device OID

The BACnet Device Object Identifier for the

Adjustable: 0 to

system bus. If on a standalone Verasys System 4,194,302

this parameter is not used, but if connected to a

3rd party facility management system it sets the

BACnet ID for the zone coordinator.

Baud Rate

The ability to set the baud rate. When set to auto Adjustable: MSTPDL

the zone coordinator will set the baud rate for the Baud Rate

controller.

Device Name

The name of the device. This name shows up on Adjustable

the device list.

BACnet Encoding Type

The encoding type set the character set that the Adjustable: Legacy

controller uses.

BACnet Encoding Type

Commissioning Mode

Sets the controller into Commissioning Mode

Adjustable: Disable/

Enable

Commissioning Time

The time remaining until Commissioning Mode Read Only

Remaining

ends

Extend Commissioning

Allows the user to extend Commissioning Mode Adjustable: Disable/

Time

Enable

Unit Enable

Sets the Unit to Shutdown/Enable

Adjustable: Shutdown/

Enable

Supply Fan Command

Sets the Fan to Off/On

Adjustable: Off/On

Fan % Command

Adjusts Fan Speed to 0 to 100%

Adjustable: 0 to 100

Compressor Stage

Turns On/Off Compressor Stage 1

Adjustable: Off/On

Command 1

Compressor Stage

Turns On/Off Compressor Stage 2

Adjustable: Off/On

Command 2

Compressor Stage

Turns On/Off Compressor Stage 3

Adjustable: Off/On

Command 3

Compressor Stage

Turns On/Off Compressor Stage 4

Adjustable: Off/On

Command 4

Condenser Fan 1

Turns On/Off Condenser Fan 1

Adjustable: Off/On

Condenser Fan 2

Turns On/Off Condenser Fan 2

Adjustable: Off/On

Heating Stage Command 1 Turns On/Off Heating Stage 1

Adjustable: Off/On

Heating Stage Command 2 Turns On/Off Heating Stage 2

Adjustable: Off/On

Heating Stage Command 3 Turns On/Off Heating Stage 3

Adjustable: Off/On

Hot Gas Reheat (Binary)

Enables Hot Gas Reheat

Adjustable: Off/On

Hot Gas Reheat (Analog) Sets the Hot Gas Reheat percentage 0 to 100% Adjustable: 0 to 100

Hot Gas Reheat Bleed Valve Sets the Hot Gas Reheat Bleed Valve Open/Close Adjustable: Close/Open

Command

Economizer Damper %

Adjusts the Economizer Damper % Command Adjustable: 0 to 100

Command

Exhaust Fan VFD %

Adjusts The Exhaust Fan VFD % Command

Adjustable: 0 to 100

Command

Exhaust Fan Command

Sets the Exhaust Fan Command Off/On

Adjustable: Off/On

Exhaust Damper %

Adjusts the Exhaust Damper %

Adjustable: 0 to 100

Cancel ASCD Timers

Clears any ASCD Timers to test the controller in a Adjustable: No/Yes

more time efficient manner

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Controller: Network

Object or Parameter Device Name
Address

Time Zone
Description
Communication Status FC Comm Mode Operating Baud Rate Baud Rate

Device OID

Language
Units Number of Network Sensors Online Relearn System BACnet Encoding Type
Radio Code Version Active Channel Signal Strength Connection Status Network State Short Address Baud Rate
Parity

Stop Bits

Controller: Firmware: UCB
Controller: Firmware: Econ

Firmware Status Firmware Version Firmware Main Version Application Version Hardware Version Firmware Main Version Application Version Hardware Version

Description

Adjustable

The name of the device. This name shows up on Adjustable

the device list.

The address of the controller. This address is

Adjustable: 4 to 127

Adjustable via the smart building hub and the

display on the controller.

The time zone the controller is using

Adjustable: SE RTU

Time Zone

The description of the device. This description Adjustable

shows up on the device list.

The status of the zone bus communication.

Read Only

Set to wired field bus. Wireless is in the future. Read Only

Shows the baud rate the controller is talking.

Read Only

The ability to set the baud rate. When set to auto Adjustable: MSTPDL

the zone coordinator will set the baud rate for the Baud Rate

controller.

The BACnet Device Object Identifier for the

Adjustable: 0 to

system bus. If on a standalone Verasys System 4,194,302

this parameter is not used, but if connected to a

3rd party facility management system it sets the

BACnet ID for the zone coordinator.

Sets the language the controller uses

Adjustable: SE RTU

Languages

Sets the units the controller uses

Adjustable: Unit Set

Indicates how many Network sensors are online Read Only

Relearns the sensors connected to the controller Adjustable: Relearn

The encoding type set the character set that the Adjustable: Legacy

controller uses.

BACnet Encoding Type

This is the current radio code version

Read Only

This is the active channel

Read Only

This is the signal strength of the connectivity

Read Only

This is the status of the connection

Read Only

This is the state of the network

Read Only

This is the short address for the control

Read Only

The ability to set the baud rate. When set to auto Adjustable: Baud Rate

the zone coordinator will set the baud rate for the

controller.

A parity bit, or check bit, is a bit added to a string Adjustable: Pager

of binary code to ensure that the total number of Parity

1-bits in the string is even or odd. Parity bits are

used as the simplest form of error detecting code.

The stop bit is used to signal the end of a frame. Adjustable: Stop bits

The data is contained in the data bits and the

parity bit is an extra bit that is often used to

detect transmission errors

Indicates the status of the Firmware

Read Only

Indicates the firmware version of the controller. Read Only

Indicates what firmware is in the controller

Read Only

Indicates the version of the application.

Read Only

Indicates the hardware version of the controller Read Only

Indicates what firmware is in the controller

Read Only

Indicates the version of the application.

Read Only

Indicates the hardware version of the controller Read Only

Verasys System User's Guide

Table 15: SSE RTU controller

Object or Parameter

Controller:

Firmware Main Version

Firmware: 4 Stage Application Version

Hardware Version

Controller:

Firmware Main Version

Firmware: FDD Master

Application Version Hardware Version

Controller:

Firmware Main Version

Firmware: FDD Subordinate

Application Version Hardware Version

Controller:

Network Override Space

Network Inputs Temperature

Network Override Space

Setpoint Offset

Network Override Zone

Humidity

Network Occupancy

Request

Network Temporary

Occupancy Request

Network Override Indoor

Air Quality

Network Override Fan

Request

Network Override Outdoor

Air Temperature

Network Override Outdoor

Air Humidity

Network Override Outdoor

Air Quality

Network Override Purge

Command

Direct Loadshed

Redline

Description

Adjustable

Indicates what firmware is in the controller

Read Only

Indicates the version of the application.

Read Only

Indicates the hardware version of the controller Read Only

Indicates what firmware is in the controller

Read Only

Indicates the version of the application.

Read Only

Indicates the hardware version of the controller Read Only

Indicates what firmware is in the controller

Read Only

Indicates the version of the application.

Read Only

Indicates the hardware version of the controller Read Only

Overrides the Space Temperature per user

Adjustable: 0 to 100�F

request

Overrides the Space Temperature Setpoint Offset Adjustable: -5 to 5 delta

per user request

�F

Overrides the Zone Humidity per user request Adjustable: 0 to 100%

Overrides the Occupancy Request per user

Adjustable: Occ Sensor

request

Overrides the Temporary Occupancy Request per Adjustable: False/True

user request

Overrides the Indoor Air Quality per user request Adjustable: 0 to 5,000

ppm

Overrides the Fan Request per user Request

Adjustable: Off/On

Overrides the Outdoor Air Temperature per user request Overrides the Outdoor Air Humidity per user request Overrides the Outdoor Air Quality per user request Overrides the Purge Command per user request

Adjustable: -50 to 125�F
Adjustable: 0 to 100% RH Adjustable: 0 to 5,000 ppm Adjustable: False/True

Overrides the Direct Loadshed per user request Adjustable: No/Yes

Overrides the Redline per user request

Adjustable: No/Yes

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Controller: FDD

Object or Parameter Unit Type

EER

Subcooling Goal Refrigerant Type

High Side Port Location

Evaporator Coil Type

Condenser Coil Type

Indoor Metering Device Type Outdoor Metering Device Type Unit Capacity

Fan Power

Super Heat Goal Altitude

Controller: Time

Time Date Time Zone

Daylight Savings Enable Time Format

Controller: Description

Rooftop Controller Type Rooftop Equipment Type

Description

Adjustable

Selects the SE RTU equipment type for the FDD Adjustable: SE RTU

board.

Equipment Type

Selects the energy efficient ration based on the Adjustable: 0 to 20

system configuration

Selects the subcooling temperature decrease

Adjustable: -10 to 20�F

Selects which refrigerant is being used in the

Adjustable: SE RTU

system

Refrigerant Type

Selects where the High Side port is located

Adjustable: SE RTU

High Side Port

Selects which types of evaporator coil is being Adjustable: Cooling

used

Coil Type

Selects which type of condenser coil is being used Adjustable: Cooling

Coil Type

Selects which Indoor metering device is sensing Adjustable: SE RTU

the expansion valve

Expansion Device

Select which Outdoor metering device is sensing Adjustable: SE RTU

the expansion valve

Expansion Device

Selects the Unit capacity based on the equipment Adjustable: 0 to 130

configuration

tons

Selects the Fan power based on the equipment Adjustable: 0 to 19 kW

configuration

Selects the super heat temperature increase

Adjustable: 10 to 30�F

Selects the altitude in which the system is

Adjustable: -1,500 to

installed

30,000 ft

The time setting that the controller is using

Read Only

The date that the controller is using

Read Only

The time zone that the controller is using

Adjustable: SE RTU

Time Zone

Enable or disables daylight savings time

Adjustable: No/Yes

This controls which format the time should be Adjustable: States

displayed

Indicates which type the Rooftop Controller is Adjustable: LCCS

Controller Type

Indicates which equipment configuration the

Adjustable: LCCS

system is using

Equipment Type

Verasys System User's Guide

Table 15: SSE RTU controller

Object or Parameter

Description

Adjustable

Details:

Occupancy Mode

Sets the Occupancy Mode that the controller will Adjustable: SE

Occupancy Status

use

Occupancy Mode

Occupancy Input

Indicates if the controller is occupied or

Read Only

unoccupied

Operational Occupancy

This output shows the current value of the

Read Only

Effective Occupancy. This allows the Setpoint

Determination module to switch to the Standby

mode setpoints.

Occupancy Input Source Indicates the input source in which the controller Read Only

is reading from

Temporary Occupancy

Allows the Temp Occ feature to be disabled. This Adjustable: Disable/

Input

only applies to a SE RTU that is not connected to Enable

a Verasys system. Some building owners do not

want this feature.

Temporary Occupancy

The amount of time(secs) that the module will be Adjustable: 30 to 480

Timeout

in the Temp Occ (Bypass) mode.

minutes

Off During Unoccupied

Enables and disables heating and cooling during Adjustable: No/Yes

unoccupied.

Optimal Start Enabled

Boolean input provides an indication that this Adjustable: No/Yes

module will use the information from the Optimal

Start block as it determines the current Warm-Up

or Cool-Down mode.

Early Start Period

This is the early start period that is used when Adjustable: 0 to 120

Occupancy BI Enable is true. It is also used to

minutes

determine when to start if Optimal Start Enable is

false.

Pre Occupancy Purge

Control input to determine if the Differential CO2 Adjustable: Disable/

Enable

mode is used.

Enable

Pre Occupancy Purge Time This value is the amount of time (in minutes) prior Adjustable: 1 to 120

to the system switching to occupied mode that minutes

the pre-occupancy purge sequence will run.

Pre Occupancy Purge Upper This is the maximum value of the supply air

Adjustable: 80 to 100�F

SAT Setpoint

temperature that the system will allow.

Pre Occupancy Purge Lower This is the minimum value of the supply air

Adjustable: 35�F to

SAT Setpoint

temperature that the system will allow.

55�F

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Cooling: Setup

Object or Parameter

Description

Adjustable

Cooling Mode Enabled For This allows cooling mode to be enabled or

Adjustable: No/Yes

Operation

disabled.

Number of Cooling Stages This is the number of cooling stages installed. Adjustable: 1 to 4

Installed

Number of Refrig Systems This is the number of refrigeration systems

Adjustable: 0 to 4

Installed

installed

CV Occupied Cooling

This is the Control Volume Occupied Cooling

Adjustable: 45 to 98�F

Setpoint

CV Unoccupied Cooling

This is the Control Volume Unoccupied Cooling Adjustable: 46 to 99�F

Setpoint

SZ VAV Occupied Cooling This is the Single Zone Variable Air Volume

Adjustable: 45 to 98�F

Setpoint

Occupied Cooling Setpoint

SZ VAV Unoccupied Cooling This is the Single Zone Variable Air Volume

Adjustable: 45 to 98�F

Setpoint

unoccupied Cooling Setpoint

Common Setpoint

This is the common setpoint; available in

Adjustable: 45 to 98�F

common setpoint mode. This setpoint will not be

in effect in the individual setpoint mode

Auto Changeover

Differential that is used to limit switching

Adjustable: 2 to 5�F

between heating and cooling (present when Heat

Cool Setpoint Mode = Common Setpoint)

Heat Cool Setpoint Mode This allows user to switch between single

Adjustable: Common

occupied setpoint and individual heating/cooling Setpoint / Individual

setpoint

Setpoints

Compressor Stage 1 Enabled This is enabled if there is 1 stage of cooling in the Adjustable: Yes/No

system

Compressor Stage 2 Enabled This is enabled if there is 2 stages of cooling in Adjustable: Yes/No

the system

Compressor Stage 3 Enabled This is enabled if there is 3 stages of cooling in Adjustable: Yes/No

the system

Compressor Stage 4 Enabled This is enabled if there is 4 stages of cooling

Adjustable: Yes/No

enabled

Minimum Runtime for a This is the minimum runtime a cooling stage

Adjustable: 3 to 10

Cooling Stage

must be running before it will turn off. The

minutes

cooling stage will continue to run even for this

duration even if the cooling call is lost.

Cooling Adaptive Tuning This determines whether adaptive tuning is

Adjustable: No/Yes

Enable

allowed to operate. When set to False, adaptive-

tuning is disabled

Low Ambient Enabled

Control input to determine if the Low ambient Adjustable: No/Yes

setpoint is used

Low Ambient Cooling

This is the temperature that the Outdoor Air

Adjustable: 0 to 60�F

Stages 10 on 5 off Setpoint temperature (OAT) is compared with in order to

detect the low ambient condition

Lead/Lag Equalize Cooling This input is used to determine if runtime/start Adjustable: No/Yes

Stage Runtime Enabled

count equalization functionality is being used.

If enabled, resetting the stage from a direct

thermostat signal is not possible.

OAT Cooling Cutout Enabled Specifies whether Cooling is locked out when free Adjustable: No/Yes

cooling is available.

OAT Cooling Cutout

This is the value the outside air temperature

Adjustable: 0 to 100�F

must go below in order to lockout the cooling. ie

change from False to True Note: True=Lockout

Cooling, False=Enable Cooling

Verasys System User's Guide

Table 15: SSE RTU controller

Object or Parameter

Description

Adjustable

Details: Cooling: SAT Limit for Cooling Enable This input Indicates that SAT Cooling Limit control Adjustable: No/Yes

Setup (continued)

is determining the damper minimum position in

the Damper Minimum Position Determination

module.

SAT Limit for Cooling

This is the minimum value that the supply air

Adjustable: 40 to 65�F

Setpoint

temperature is allowed to assume.

Hot Gas Bypass Present

Determines if the Hot Gas Bypass stream is

Adjustable: No/Yes

present in the system

Freeze Condition Setpoint Determines what temperature the freeze

Adjustable: 20 to 32�F

condition is at

Pump Out Enable

Determines if the pump out is enabled or

Adjustable: Disable/

disabled

Enable

Low Ambient Fan Pre-run Determines if the Low Ambient Fan Pre-

Adjustable: 0 s to 255 s

Time For Cooling

run time. In cooling conditions and is in low

ambient conditions, the fan will turn on before

compressors begin

Cooling Manual Tuning

Selects the range when Cooling manual tuning Adjustable: 1 to 2.5

begins

delta �F

Low Ambient Start

Determines if Low Ambient should be set on start Adjustable: No/Yes

4 Pipe Split Enable

Determines if the system is set up in a 4 pipe split Adjustable: No/Yes

configuration

Details: Cooling: Staged Cooling Command Indicates the staged cooling command

Read Only

Service: Unit

CV Operating Cooling

Indicates the calculated control volume operating Read Only

Setpoint

cooling setpoint

SZ VAV Operating Cooling Indicates the SZ VAV operating cooling setpoint Read Only

Setpoint

Cooling Status

Indicates the status of the cooling control

Read Only

Operational Outdoor Air Indicates the calculated operating outdoor air Read Only

Temperature

temperature for cooling

Operational Space

Indicates the calculated operational space

Read Only

Temperature

temperature for cooling

Return Air Temperature

Indicates the return air temperature

Read Only

Econ Free Cooling Available Indicates if economizer free cooling is available Read Only

rooting from the outdoor conditions

Supply Air Temperature

Indicates the current supply air temperature

Read Only

being discharged from the duct

Y1 - Thermostat

Indicates the Y1 cooling call from the Thermostat Read Only

Y2 - Thermostat

Indicates the Y2 cooling call from the Thermostat Read Only

Y3 - Thermostat

Indicates the Y3 cooling call from the Thermostat Read Only

Y4 - Thermostat

Indicates the Y4 cooling call from the Thermostat Read Only

Condenser Fan 1

Indicates the status of Condenser Fan 1

Read Only

Condenser Fan 2

Indicates the status of Condenser Fan 2

Read Only

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Cooling: Service: Stage 1
Details: Cooling: Service: Stage 2

Object or Parameter

Description

Adjustable

Compressor Stage 1 Status Indicates the status of compressor stage 1

Read Only

Compressor Stage

Indicates the command of compressor stage 1 Read Only

Command 1

Min On Time Remaining 1 Indicates the remaining minimum runtime for the Read Only

compressor. Once the timer expires, and cooling

call is removed, the compressor may turn off.

Anti-Short Cycle Delay Time Indicates the remaining anti-short cycle delay Read Only

Remaining 1

time.

Compressor Stage

Indicates the accumulated runtime for

Adjustable: 0 to 10,000

Accumulated Runtime 1 compressor stage 1. This is how long the

hours

compressor has run since last power cycle

Efficiency Index 1

Indicates the current efficiency index rating based Read Only

for cooling stage 1

Capacity Index 1

Indicates the capacity index for cooling stage 1 Read Only

Condensing Temperature Indicates the condensing temperature during Read Only

over Ambient 1

ambient conditions for stage 1

Evaporating Temperature Indicates the evaporating temperature value in Read Only

Value Circuit 1

the refrigeration circuit for cooling stage 1

Cooling Circuit Test Status The status of the cooling circuit test

Read Only

Superheat

Indicates the Superheat temperature

Read Only

Subcooling

Indicates the Subcooling temperature

Read Only

Compressor Stage 2 Status Indicates the status of compressor stage 2

Read Only

Compressor Stage

Indicates the command of compressor stage 2 Read Only

Command 2

Min On Time Remaining 2 Indicates the remaining minimum runtime for the Read Only

compressor. Once the timer expires, and cooling

call is removed, the compressor may turn off.

Anti-Short Cycle Delay Time Indicates the remaining anti-short cycle delay Read Only

Remaining 2

time.

Compressor Stage

Indicates the accumulated runtime for

Adjustable: 0 to 10,000

Accumulated Runtime 2 compressor stage 2. This is how long the

hours

compressor has run since last power cycle

Efficiency Index 2

Indicates the current efficiency index rating based Read Only

for cooling stage 2

Capacity Index 2

Indicates the capacity index for cooling stage 2 Read Only

Condensing Temperature Indicates the condensing temperature during Read Only

over Ambient 2

ambient conditions for stage 2

Evaporating Temperature Indicates the evaporating temperature value in Read Only

Value Circuit 2

the refrigeration circuit for cooling stage 2

Cooling Circuit Test Status The status of the cooling circuit test

Read Only

Superheat

Indicates the Superheat temperature

Read Only

Subcooling

Indicates the Subcooling temperature

Read Only

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Cooling: Service: Stage 3
Details: Cooling: Service: Stage 4

Object or Parameter

Description

Adjustable

Compressor Stage 3 Status Indicates the status of compressor stage 3

Read Only

Compressor Stage

Indicates the command of compressor stage 3 Read Only

Command 3

Min On Time Remaining 3 Indicates the remaining minimum runtime for the Read Only

compressor. Once the timer expires, and cooling

call is removed, the compressor may turn off.

Anti-Short Cycle Delay Time Indicates the remaining anti-short cycle delay Read Only

Remaining 3

time.

Compressor Stage

Indicates the accumulated runtime for

Adjustable: 0 to 10,000

Accumulated Runtime 3 compressor stage 3. This is how long the

hours

compressor has run since last power cycle

Efficiency Index 3

Indicates the current efficiency index rating based Read Only

for cooling stage 3

Capacity Index 3

Indicates the capacity index for cooling stage 3 Read Only

Condensing Temperature Indicates the condensing temperature during Read Only

over Ambient 3

ambient conditions for stage 3

Evaporating Temperature Indicates the evaporating temperature value in Read Only

Value Circuit 3

the refrigeration circuit for cooling stage 3

Cooling Circuit Test Status The status of the cooling circuit test

Read Only

Superheat

Indicates the Superheat temperature

Read Only

Subcooling

Indicates the Subcooling temperature

Read Only

Compressor Stage 4 Status Indicates the status of compressor stage 4

Read Only

Compressor Stage

Indicates the command of compressor stage 4 Read Only

Command 4

Min On Time Remaining 4 Indicates the remaining minimum runtime for the Read Only

compressor. Once the timer expires, and cooling

call is removed, the compressor may turn off.

Anti-Short Cycle Delay Time Indicates the remaining anti-short cycle delay Read Only

Remaining 4

time.

Compressor Stage

Indicates the accumulated runtime for

Adjustable: 0 to 10,000

Accumulated Runtime 4 compressor stage 4. This is how long the

hours

compressor has run since last power cycle

Efficiency Index 4

Indicates the current efficiency index rating based Read Only

for cooling stage 4

Capacity Index 4

Indicates the capacity index for cooling stage 4 Read Only

Condensing Temperature Indicates the condensing temperature during Read Only

over Ambient 4

ambient conditions for stage 4

Evaporating Temperature Indicates the evaporating temperature value in Read Only

Value Circuit 4

the refrigeration circuit for cooling stage 4

Cooling Circuit Test Status The status of the cooling circuit test

Read Only

Superheat

Indicates the Superheat temperature

Read Only

Subcooling

Indicates the Subcooling temperature

Read Only

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Cooling: Sensors

Object or Parameter Evaporator Coil Temp 1 Condenser Coil Temp 1 Suction Pressure 1 Liquid Pressure 1 Suction Temperature 1 Liquid Temperature 1 Evaporator Coil Temp 2 Condenser Coil Temp 2 Suction Pressure 2 Liquid Pressure 2 Suction Temperature 2 Liquid Temperature 2 Evaporator Coil Temp 3 Condenser Coil Temp 3 Suction Pressure 3 Liquid Pressure 3 Suction Temperature 3 Liquid Temperature 3 Evaporator Coil Temp 4 Condenser Coil Temp 4 Suction Pressure 4 Liquid Pressure 4 Suction Temperature 4 Liquid Temperature 4

Description The temperature reading for Evaporator Coil 1 The temperature reading for Condenser Coil 1 The pressure reading in Suction Line 1 The pressure reading in Liquid Line 1 The temperature reading in Suction Line 1 The temperature reading in Suction Line 1 The temperature reading for Evaporator Coil 2 The temperature reading for Condenser Coil 2 The pressure reading in Suction Line 2 The pressure reading in Liquid Line 2 The temperature reading in Suction Line 2 The temperature reading in Suction Line 2 The temperature reading for Evaporator Coil 3 The temperature reading for Condenser Coil 3 The pressure reading in Suction Line 3 The pressure reading in Liquid Line 3 The temperature reading in Suction Line 3 The temperature reading in Suction Line 3 The temperature reading for Evaporator Coil 4 The temperature reading for Condenser Coil 4 The pressure reading in Suction Line 4 The pressure reading in Liquid Line 4 The temperature reading in Suction Line 4 The temperature reading in Suction Line 4

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Cooling: Safeties

Object or Parameter High Pressure Limit 1 High Pressure Lockout 1 Low Pressure Limit 1 Low Pressure Lockout 1 Freeze Condition 1
Freeze Condition Lockout 1 High Pressure Limit 2 High Pressure Lockout 2 Low Pressure Limit 2 Low Pressure Lockout 2 Freeze Condition 2
Freeze Condition Lockout 2 High Pressure Limit 3 High Pressure Lockout 3 Low Pressure Limit 3 Low Pressure Lockout 3 Freeze Condition 3
Freeze Condition Lockout 3 High Pressure Limit 4 High Pressure Lockout 4 Low Pressure Limit 4 Low Pressure Lockout 4 Freeze Condition 4
Freeze Condition Lockout 4

Description

Adjustable

This is the High Pressure Alarm No. 1 input from Read Only

the High Pressure Event Primitive.

If High Pressure Limit 1 is tripped enough times, Read Only

High Pressure Lockout 1 will take effect.

This is the Low Pressure Alarm No. 1 input from Read Only

the Low Pressure Event Primitive.

If the Low Pressure Limit 1 is tripped enough

Read Only

times, Low Pressure Lockout 1 will take effect.

This is the Freeze condition for evaporator coil 1. Read Only

If the temperature goes below this, it will trigger

an alarm.

If the Freeze Condition 1 is tripped enough times, Read Only

the Freeze Condition Lockout 1 will take effect.

This is the High Pressure Alarm No. 2 input from Read Only

the High Pressure Event Primitive.

If High Pressure Limit 2 is tripped enough times, Read Only

High Pressure Lockout 2 will take effect.

This is the Low Pressure Alarm No. 2 input from Read Only

the Low Pressure Event Primitive.

If the Low Pressure Limit 2 is tripped enough

Read Only

times, Low Pressure Lockout 2 will take effect.

This is the Freeze condition for evaporator coil 2. Read Only

If the temperature goes below this, it will trigger

an alarm.

If the Freeze Condition 2 is tripped enough times, Read Only

the Freeze Condition Lockout 2 will take effect.

This is the High Pressure Alarm No. 3 input from Read Only

the High Pressure Event Primitive.

If High Pressure Limit 3 is tripped enough times, Read Only

High Pressure Lockout 3 will take effect.

This is the Low Pressure Alarm No. 3 input from Read Only

the Low Pressure Event Primitive.

If the Low Pressure Limit 3 is tripped enough

Read Only

times, Low Pressure Lockout 3 will take effect.

This is the Freeze condition for evaporator coil 3. Read Only

If the temperature goes below this, it will trigger

an alarm.

If the Freeze Condition 3 is tripped enough times, Read Only

the Freeze Condition Lockout 3 will take effect.

This is the High Pressure Alarm No. 4 input from Read Only

the High Pressure Event Primitive.

If High Pressure Limit 4 is tripped enough times, Read Only

High Pressure Lockout 4 will take effect.

This is the Low Pressure Alarm No. 4 input from Read Only

the Low Pressure Event Primitive.

If the Low Pressure Limit 4 is tripped enough

Read Only

times, Low Pressure Lockout 4 will take effect.

This is the Freeze condition for evaporator coil 4. Read Only

If the temperature goes below this, it will trigger

an alarm.

If the Freeze Condition 4 is tripped enough times, Read Only

the Freeze Condition Lockout 4 will take effect.

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Cooling: Misc

Object or Parameter

Description

Adjustable

Maximum Temperature / This is the maximum temperature humidity

Adjustable: 0 to 5 delta

Humidity Setpoint Offset setpoint offset.

�F

Temperature/Humidity

This input defines the dehumidification set point Adjustable: 20 to 80%

Setpoint

during the Occupied mode.

Temperature/Humidity

This enables the return temperature/humidity Adjustable: No/Yes

(Return) Control Enable

control.

Operational Space Humidity This is the present value of the operational space Read Only

humidity.

CV Occupied Cooling

The Occupied Cooling Setpoint

Adjustable: 45 to 98�F

Setpoint

CV Operating Cooling

The operating cooling setpoint used by the

Read Only

Setpoint

controller. Operating setpoints are calculated

setpoints to make the system more efficient

SZ VAV Occupied Cooling The Single Zone Variable Air Volume occupied Adjustable: 45 to 98�F

Setpoint

setpoint used by the controller

SZ VAV Operating Cooling The Single Zone Variable Air Volume operating Read Only

Setpoint

setpoint used by the controller. Operating

setpoints are calculated setpoints to make the

system more efficient

Common Setpoint

The common setpoint is used when the control is Adjustable: 45 to 98�F

in Common Setpoint mode. This setpoint controls

both heating and cooling

Auto Changeover

Differential that is used to limit switching

Adjustable: 2 to 5�F

between heating and cooling (present when Heat

Cool Setpoint Mode = Common Setpoint)

Temperature / Humidity The humidity per degree offset to compensate for Adjustable: 1 to 10%

Value per Degree Offset uncomfortable dry or wet conditions

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Heating: Setup

Object or Parameter

Description

Adjustable

Heating Mode Enabled For Enables heating mode for operation. If No, the Adjustable: No/Yes

Operation

heating mode still be disabled

Number of Heating Stages The number of heating stages installed. The

Adjustable: 0 to 3

Installed

maximum allowable stages is 3.

Heating Control Type

Determines the Heating control type for the

Adjustable: Heat Cool

system

Type

CV Occupied Heating

The occupied heating setpoint when configured Adjustable: 46 to 99�F

Setpoint

to individual setpoint mode

CV Unoccupied Heating

The unoccupied setpoint when configured to

Adjustable: 45 to 98�F

Setpoint

individual setpoint mode

VAV Occupied Heating

The Variable Air Volume occupied heating

Adjustable: 46 to 99�F

Setpoint

setpoint

VAV Unoccupied Heating The Variable Air Volume unoccupied heating

Adjustable: 45 to 98�F

Setpoint

setpoint

SZ VAV Occupied Heating The Single Zone Variable Air Volume occupied Adjustable: 46 to 99�F

Setpoint

heating setpoint in individual setpoint mode

SZ VAV Unoccupied Heating The Single Zone Variable Air Volume unoccupied Adjustable: 45 to 98�F

Setpoint

heating setpoint in individual setpoint mode

Common Setpoint

The common setpoint is used when the control is Adjustable: 45 to 98�F

in Common Setpoint mode. This setpoint controls

both heating and cooling

Auto Changeover

Differential that is used to limit switching

Adjustable: 2 to 5�F

between heating and cooling (present when Heat

Cool Setpoint Mode = Common Setpoint)

Heat Cool Setpoint Mode This allows user to switch between single

Adjustable: Common

occupied setpoint and individual heating/cooling Setpoint / Individual

setpoint

Setpoints

Heating Adaptive Tuning This allows adaptive tuning to be enabled for

Adjustable: No/Yes

Enable

heating control

SAT Air Temp Limit for

This allowing the maximum supply air

Adjustable: No/Yes

Heating Enabled

temperature limit to be set

SAT Air Temp Limit For

The supply air temperature limit for heating. This Adjustable: 100 to

Heating Setpoint

is the maximum the heating setpoint can be set 180�F

Outdoor Air Temp Heating The outdoor air temp heating cutout setpoint Adjustable: 0 to 100�F

Cutout Setpoint

determines when the damper should be open/

closed.

Number of Gas Valves

Configured to the system to determine how many Adjustable: 0 to 3

Installed

gas valves are installed. The maximum number of

gas valves this control supports is 3.

Number of Limit Switches Configured to the system to determine how many Read Only

limit switches are installed.

Low Limit Enable

Allows Low limit control to be enabled/disabled Adjustable: Disable/

Enable

Low Limit Upper SAT

This is the low limit upper supply air temperature Adjustable: 65 to 85�F

Setpoint

setpoint

Low Limit Lower SAT

This is the low limit lower supply air temperature Adjustable: 60 to 80�F

Setpoint

setpoint.

Heating Manual Tuning

Allows the range for manual tuning to be set in Adjustable: 1 to 2.5

heating setup.

delta �F

Cooling Allowed During

Enables cooling allowed while control is in

Adjustable: Off/On

Heat Limit

heating limit

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Heating: Service

Object or Parameter

Description

Adjustable

Staged Heating Command Indicates the staged heating command

Read Only

CV Operating Heating

The control volume calculated operating setpoint Read Only

Setpoint

SZ VAV Operating Heating The single zone variable air volume calculated Read Only

Setpoint

operating setpoint

VAV Operating Heating

the variable air volume calculated operating

Read Only

Setpoint

heating setpoint

Heating Status

The current status of the heating control

Read Only

Operational Outdoor Air The current operational outdoor air temperature Read Only

Temperature

Operational Space

The current operational space temperature

Read Only

Temperature

Return Air Temperature The current return air temperature

Read Only

W1 - Thermostat

Indicates the W1 heating call from the thermostat Read Only

W2 - Thermostat

Indicates the W2 heating call from the thermostat Read Only

W3 - Thermostat

Indicates the W3 heating call from the thermostat Read Only

G - Thermostat

Indicates the G fan call from the thermostat

Read Only

Heating Stage 1 Status

The current status of heating stage 1

Read Only

Heating Stage Command 1 The current command of heating stage 1

Read Only

Heating Stage 1 Min On

The remaining minimum on time for heating

Read Only

Time Remaining

stage 1. Once expired, heating is allowed to turn

off.

Heating Stage 1 Anti-Short The time remaining on the Anti-Short-Cycle-Delay Read Only

Cycle Delay Time Remaining (ASCD) for heating stage 1

Heating Stage 1

The accumulated runtime for heating stage 1

Adjustable: 0 to 10,000

Accumulated Runtime

hours

Heating Stage Command 2 The current command of heating stage 2

Read Only

Heating Stage 2 Status

The current status of heating stage 2

Read Only

Heating Stage 2 Min On

The remaining minimum on time for heating

Read Only

Time Remaining

stage 2. Once expired, heating is allowed to turn

off.

Heating Stage 2 Anti-Short The time remaining on the Anti-Short-Cycle-Delay Read Only

Cycle Delay Time Remaining (ASCD) for heating stage 2

Heating Stage 2

The accumulated runtime for heating stage 2

Adjustable: 0 to 10,000

Accumulated Runtime

hours

Heating Stage Command 3 The current command of heating stage 3

Read Only

Heating Stage 3 Status

The current status of heating stage 3

Read Only

Heating Stage 3 Min On

The remaining minimum on time for heating

Read Only

Time Remaining

stage 3. Once expired, heating is allowed to turn

off.

Heating Stage 3 Anti-Short The time remaining on the Anti-Short-Cycle-Delay Read Only

Cycle Delay Time Remaining (ASCD) for heating stage 3

Heating Stage 3

The accumulated runtime for heating stage 3

Adjustable: 0 to 10,000

Accumulated Runtime

hours

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Heating: Safeties
Details: Heating: Proportional: Setup
Details: Heating: Proportional: Service

Object or Parameter

Description

Adjustable

Heat Limit1 Switch

This is the first limit switch. If triggered, the fan Read Only

will turn on

Heat Limit1 Switch Lockout If the first limit switch is triggered enough, the Read Only

heat limit switch lockout will turn on and lock the

fan on

Heat Limit2 Switch

This is the second limit switch. If triggered, the Read Only

fan will turn on

Heat Limit2 Switch Lockout If the second limit switch is triggered enough, the Read Only

heat limit switch lockout will turn on and lock the

fan on

Heat Limit3 Switch

This is the third limit switch. If triggered, the fan Read Only

will turn on

Heat Limit3 Switch Lockout If the third limit switch is triggered enough, the Read Only

heat limit switch lockout will turn on and lock the

fan on

Gas Valve1 Input

Indicates that the first gas valve is open/closed Read Only

Gas Valve2 Input

Indicates that the second gas valve is open/closed Read Only

Gas Valve3 Input

Indicates that the third gas valve is open/closed Read Only

Hydronic Heating Stage #1 This is the supply air setpoint for the first

Adjustable: 80 to 180�F

Supply Air Setpoint

stage of hydronic heating. These setpoints are

traditionally higher because they must radiate

their heat through a medium.

Hydronic Heating Stage #2 This is the supply air setpoint for the second

Adjustable: 80 to 180�F

Supply Air Setpoint

stage of hydronic heating. These setpoints are

traditionally higher because they must radiate

their heat through a medium.

Hydronic Heat SAT

Allows Hydronic supply air temperature to be

Adjustable: No/Yes

Tempering Enabled

enabled

Hydronic Heat SAT

Determines the hydronic heating supply air

Adjustable: 40 to 60�F

Tempering Setpoint

temperature setpoint

Hydronic Heat Valve

Allows the hydronic heating valve to enable the Adjustable: No/Yes

Reverse Acting

reverse acting functionality

CV Occupied Heating

The control volume occupied heating setpoint Adjustable: 46 to 99�F

Setpoint

CV Unoccupied Heating

The control volume unoccupied heating setpoint Adjustable: 45 to 98�F

Setpoint

CV Operating Heating

The control volume calculated operating heating Read Only

Setpoint

setpoint

VAV Operating Heating

the variable air volume calculated operating

Read Only

Setpoint

heating setpoint

SZ VAV Operating Setpoint The single zone variable air volume calculated Read Only

operating setpoint

Operational Space

The present value of the operational space

Read Only

Temperature

temperature

Supply Air Temperature

The present value of the supply air temperature Read Only

W1 - Thermostat

Indicates the W1 heating call from the thermostat Read Only

W2 - Thermostat

Indicates the W2 heating call from the thermostat Read Only

Hydronic Heat Valve %

The % command for the hydronic heating valve Read Only

Command

Hydronic Heat Valve

Determines if the hydronic heat valve is reverse Adjustable: No/Yes

Reverse Acting

acting or not

Hot Water Freeze Stat

Indicates if the hot water line is experiencing frost Read Only

on it. Usually occurs when hydronic heat is idle for

longer durations in low ambient conditions

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Indoor Fan: Setup

Object or Parameter

Description

Adjustable

Fan Control Type

Determines the fan control type that the system Adjustable: SE RTU Fan

uses

Control Type

Continuous Fan Operation Allows fan to run continuously during occupied Adjustable: Yes/No

in Occupied Mode

state

Fan On Delay for Heat

Determines the Fan On Delay when heating is Adjustable: 0 to 30

called

seconds

Fan Off Delay for Heat

Determines the Fan Off Delay when heating is Adjustable: 0 s to 255 s

removed

Turn Off Continuous Fan Allows continuous fan mode to be turned off

Adjustable: Yes/No

Operation When Starting during heating mode

Heat

Fan On Delay for Cool

Determines the Fan On Delay when cooling is Adjustable: 0 to 30

called

seconds

Fan Off Delay for Cool

Determines the Fan Off Delay when cooling is Adjustable: 0 s to 255 s

removed

Occupied: No Heat or Cool Indicates the occupied no heat/cool fan percent Adjustable: 0 to 100%

% Command

command for the indoor

Occupied: One Stage of Cool Indicates the occupied first stage of cooling fan Adjustable: 0 to 100%

% Command

percent command for the indoor fan

Occupied: Two Stage of Cool Indicates the occupied second stage of cooling Adjustable: 0 to 100%

% Command

fan percent command for the indoor fan

Occupied: Three Stage of Indicates the occupied third stage of cooling fan Adjustable: 0 to 100%

Cool % Command

percent command for the indoor fan

Occupied: Four Stage of

Indicates the occupied fourth stage of cooling fan Adjustable: 0 to 100%

Cool % Command

percent command for the indoor fan

Occupied: One Stage of

Indicates the occupied first stage of heating fan Adjustable: 0 to 100%

Heat % Command

percent command for the indoor fan

Occupied: Two Stage of

Indicates the occupied second stage of heating Adjustable: 0 to 100%

Heat % Command

fan percent command for the indoor fan

Occupied: Three Stage of Indicates the occupied third stage of heating fan Adjustable: 0 to 100%

Heat % Command

percent command for the indoor fan

Dehumidification %

Indicates the fan percent command during

Adjustable: 0 to 100%

Command

dehumidification for the indoor fan

Low Ambient Fan Pre-run Indicates how long the fan will blow in low

Adjustable: 0 s to 255 s

Time For Cooling

ambient conditions before cooling starts up. This

strategy blows the ambient cool air through the

system before engaging the compressors

Air Proving Switch Setup Indicates if the air proving switch is set up for the Adjustable: Fan Setup

indoor fan

Dirty Filter Switch

Indicates if the indoor fan filter is dirty or not. If Read Only

dirty, it may be time to change the filter

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Indoor Fan: Service

Object or Parameter G - Thermostat Fan Status Fan Command Fan Accumulated Runtime
Operating Fan Request Fan Request Source Air Proving Switch Fan Overload Fan VFD Fault

Description

Adjustable

Indicates the G fan call from the thermostat

Read Only

Indicates the current status of the indoor fan

Read Only

Indicates the current fan percent command for Read Only

the indoor fan

Indicates how long the fan has been running.

Adjustable: 0 to 10,000

This value is adjustable; however should not be hours

changed unless a software update requires it

Indicates the calculated operating fan request for Read Only

the indoor fan

Indicates where the fan request is coming from. Read Only

This could be from the user or controller.

Indicates the status of the air proving switch for Read Only

the indoor fan

Indicates if the fan load exceeded the maximum Read Only

percent.

Indicates if the Variable Frequency Drive indoor Read Only

fan is in fault or not

Verasys System User's Guide

Table 15: SSE RTU controller

Object or Parameter

Description

Adjustable

Details:

Economizer Enabled For Determines if the installed economizer is installed Adjustable: No/Yes

Economizer: Setup Operation

or not. If an economizer is not installed, this

should be set to no

Economizer Minimum

Determines the economizer minimum position Adjustable: 0 to 100%

Position Setpoint

setpoint

Economizer Damper

Determines the economizer minimum position Adjustable: 0 to 100%

Minimum Position Low

when the fan is running at low speed

Speed Fan

Low Ambient Economizer Determines the economizer minimum position in Adjustable: 0 to 100%

Minimum Position

low ambient conditions

Low Ambient Economizer Determines when the economizer should be

Adjustable: 0 to 60�F

Setpoint

enabled/disabled in low ambient conditions

Free Cooling Selection

Determines the economizer type that has been Adjustable: Economizer

installed. Single Temperature, Single Enthalpy, Type

Dual Enthalpy and Auto are the types of support

economizers

Free Cooling Current Mode The current free cooling status

Read Only

All Compressors Off in Free Determines if all compressors should be off in Adjustable: No/Yes

Cooling

free cooling mode. This allows the system to only

use the outdoor air damper to cool the system in

free cooling mode

Economizer Outdoor Air Determines the setpoint for when the economizer Adjustable: 40 to 80�F

Temp Enable Setpoint

should be enabled.

Economizer Outdoor Air Determines the outdoor air enthalpy setpoint for Adjustable: 10 to 50

Enthalpy Setpoint

when the economizer should be enabled.

Btu/lb dry air

Demand Ventilation Mode Determines the mode for when the economizer Adjustable: SE RTU DCV

of Operation

should be enabled. This allows the economizer to Mode

open/close based on IAQ and OAQ

Demand Ventilation

Determines the maximum position for the

Adjustable: 0 to 100%

Maximum Economizer

economizer when it receives a ventilation request

Position

Demand Ventilation Indoor Determines the indoor air quality setpoint for Adjustable: 0 to 5,000

Air Quality Setpoint

when the economizer should begin ventilation ppm

Demand Ventilation

Determines when the economizer should begin Adjustable: 0 to 5,000

Differential Setpoint

ventilation based on indoor and outdoor air

ppm

quality differential

Indoor Air Quality Sensor Determines the Indoor air quality sensor range Adjustable: 0 to 5,000

Range

ppm

Outdoor Air Quality Sensor Determines the outdoor air quality sensor range Adjustable: 0 to 5,000

Range

ppm

Economizer Loading

Determines if the economizer should adjusted Adjustable: No/Yes

Enabled

based indoor desired setpoint and outdoor air

temperature

Fresh Air Intake Setpoint Determines how much air should be taken in

Adjustable: 0 to 50000

when receiving a ventilation request

cfm

Fresh Air Intake Max Sensor Determines the maximum sensor range for the Adjustable: 0 to 50,000

Range

air velocity

cfm

EconMech Setup

Determines if economizer + mechanical cooling is Adjustable: SE RTU

setup

EconMech Setup

Economizer Fault Detection Determines if the economizer fault detection

Adjustable: Disable/

Enable

sensor is enabled

Enable

Calibration Fault Detect Determines if the calibration fault detection

Adjustable: Disable/

Enable

sensor is enabled.

Enable

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Economizer: Service
Details: Demand Ventilation

Object or Parameter

Description

Adjustable

Cooling Status

Indicates the current cooling status

Read Only

Economizer Status

Indicates the current economizer status

Read Only

Econ Free Cooling Available Indicates if free cooling is available

Read Only

Economizer Damper %

Indicates the economizer damper percent

Read Only

Command

command

Supply Air Temperature

Indicates the supply air temperature of the

Read Only

economizer

Operational Outdoor Air Indicates the operational outdoor air temperature Read Only

Temperature

Outdoor Air Enthalpy

Indicates the outdoor air enthalpy

Read Only

Return Air Enthalpy

Indicates the return air enthalpy

Read Only

Operational Indoor Air

Indicates the operational indoor air quality

Read Only

Quality

Operational Outdoor Air Indicates the operational outdoor air quality

Read Only

Quality

Fresh Air Intake Value

Indicates the amount of fresh air coming into the Read Only

system

Economizer Damper

Indicates the damper position of the economizer Read Only

Position

FDD Economizer Alarm

Determines the FDD economizer alarm delay

Adjustable: 0 to 3,600

Delay

seconds

FDD Economizer Damper Determines the allowable error for the

Adjustable: 0 to 100%

Allowed Error

economizer

FDD Damper Min Position Determines the damper min position tolerance Adjustable: 0 to 100%

Tolerance

Economizer Enabled For

Determines if the economizer is enabled for

Adjustable: No/Yes

Operation

ventilation

Demand Ventilation Mode Determines the demand ventilation mode of

Adjustable: SE RTU DCV

of Operation

operation

Mode

Demand Ventilation

Determines the maximum economizer position Adjustable: 0 to 100%

Maximum Economizer

during demand ventilation

Position

Demand Ventilation Indoor Determines the IAQ setpoint for demand

Adjustable: 0 to 5,000

Air Quality Setpoint

ventilation

ppm

Demand Ventilation

Determines the Air quality differential setpoint for Adjustable: 0 to 5,000

Differential Setpoint

demand ventilation

ppm

Indoor Air Quality Sensor Determines the IAQ sensor range for Demand Adjustable: 0 to 5,000

Range

Ventilation

ppm

Outdoor Air Quality Sensor Determines the OAQ sensor range for demand Adjustable: 0 to 5,000

Range

ventilation

ppm

Operational Indoor Air

Indicates the current operational IAQ

Read Only

Quality

Operational Outdoor Air Indicates the current operational OAQ

Read Only

Quality

Economizer Damper

Indicates the current economizer damper

Read Only

Position

position

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Air Monitor Station
Details: Power Exhaust: Setup
Details: Power Exhaust: Service

Object or Parameter

Description

Adjustable

Economizer Enabled For Determines if the economizer is enabled for air Adjustable: No/Yes

Operation

monitor station

Fresh Air Intake Enable

Determines if the economizer is available to

Adjustable: Disable/

intake fresh air

Enable

Fresh Air Intake Setpoint Determines how much air should be taken in at Adjustable: 0 to 50,000

the air monitor station

cfm

Fresh Air Intake Max Sensor Determines the maximum cfm that should be Adjustable: 0 to 50,000

Range

taken in at the air monitor station

cfm

Fresh Air Intake Value

Indicates the current CFM that the economizer is Read Only

taking in

Economizer Damper

Indicates the current damper position of the

Read Only

Position

economizer

Fresh Air Range

Determines the cfm range for fresh air to be

Adjustable: 0 to 5,000

taken in

cfm

Exhaust Type

Determines the exhaust type used in the Power Adjustable: SE RTU

exhaust configuration

Exhaust Setup

Economizer Damper

Determines the economizer damper position that Adjustable: 20 to 99%

Position for Exhaust Fan to allows the exhaust fan to turn on

Turn On

Economizer Damper

Determines the economizer damper position that Adjustable: 10 to 89%

Position for Exhaust Fan to turns off the exhaust fan

Turn Off

Exhaust Damper Position Determines the damper position that allows the Adjustable: 20 to 99%

for Exhaust Fan to Turn On exhaust fan to turn on

Exhaust Damper Position Determines the damper position that turns off Adjustable: 10 to 89%

for Exhaust Fan to Turn Off the exhaust fan

Building Pressure Setpoint Determines the Building pressure setpoint to be Adjustable: -0.25 to

used by the power exhaust configuration

0.25 in wc

Duct Static Pressure

Indicates the current duct static pressure

Read Only

Exhaust Fan Status

Indicates the current exhaust fan status

Read Only

Exhaust Fan Command

Indicates the exhaust fan percent command

Read Only

Building Static Pressure

Indicates the building static pressure

Read Only

Exhaust Damper %

Indicates how far exhaust damper is open

Read Only

Command

Exhaust Fan VFD %

Indicates how fast the exhaust fan vfd is running Read Only

Command

Exhaust Fan Accumulated Indicates how long the exhaust fan has been

Read Only

Runtime

running

Exhaust Fan VFD Fault

Indicates if the exhaust fan is experiencing a VFD Read Only

fault

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: FanVFD: Setup

Object or Parameter

Description

Adjustable

Fan Control Type

Determines the Fan control type

Adjustable: SE RTU Fan

Control Type

Duct Pressure Setpoint

Determines the Duct Pressure setpoint

Adjustable: 0 to 5 in wc

Duct Pressure Shutdown Determines the duct pressure shutdown setpoint. Adjustable: 0 to 5 in wc

Setpoint

The fan will shutdown if this setpoint is hit.

VAV Cooling Supply Air

Determines the upper VAV cooling SAT setpoint Adjustable: 41 to 70�F

Temp Upper Setpoint

VAV Cooling Supply Air

Determines the lower VAV cooling setpoint

Adjustable: 40 to 69�F

Temp Lower Setpoint

VAV Supply Air Temp Reset Determines the SAT setpoint after reset

Adjustable: 40 to 85�F

Setpoint

VAV Unoccupied Cooling Determines the unoccupied VAV cooling setpoint Adjustable: 46 to 99�F

Setpoint

Morning Warmup Enabled Determines if the morning warmup algorithm Adjustable: No/Yes

should be enabled

Morning Warmup/Return If enabled, determines the warmup and return air Adjustable: 50 to 85�F

Air Temp Setpoint

temperature setpoints

VAV Occupied Heating

Determines if VAV heating during occupied

Adjustable: No/Yes

Enabled

should be enabled

VAV Occupied Heating

If enabled, determines the VAV occupied heating Adjustable: 40 to 85�F

Setpoint

setpoint

Unoccupied Heating

Determines if VAV heating during unoccupied is Adjustable: No/Yes

Enabled

enabled

VAV Unoccupied Heating If enabled, determines the VAV occupied heating Adjustable: 45 to 98�F

Setpoint

setpoint

Morning Cooldown Enabled Determines if morning cooldown is enabled

Adjustable: No/Yes

Morning Cooldown/Return If enabled, determines the morning cooldown/ Adjustable: 50 to 85�F

Air Temp Setpoint

return air temp setpoints

Optimal Start Enabled

Determines if optimal start is enabled

Adjustable: No/Yes

Early Start Period

Determines how early the optimal start should Adjustable: 0 to 120

begin before occupancy

minutes

Discharge Air Static

Determines the minimum discharge air static

Adjustable: 0.01 to 1 in.

Pressure Minimum

pressure

wc.

Discharge Air Static

Determines how long it will take for the alarm to Adjustable: 0 to 600

Pressure Alarm Delay

trigger once it has been sensed

seconds

COBP Occupied Heating

Determines if COBP occupied heating is enabled Adjustable: No/Yes

Enabled

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: FanVFD: Service
Details: Single Zone VAV: Setup

Object or Parameter

Description

Adjustable

Fan % Command

Indicates the current Fan % command for the VFD Read Only

fan

Duct Static Pressure

Indicates the current duct static pressure

Read Only

Duct Pressure Setpoint

Determines the duct pressure setpoint

Adjustable: 0 to 5 in wc

VAV Operating Cooling

Indicates the VAV Operating cooling SAT SP

Read Only

Supply Air Temp Setpoint

Supply Air Temperature

Indicates the current SAT

Read Only

Staged Cooling Command Indicates the current staged cooling command Read Only

Cooling Status

Indicates the current status of cooling operation Read Only

Econ Free Cooling Available Indicates if the economizer free cooling is

Read Only

available

Compressor Stage

Indicates the current command for Compressor Read Only

Command 1

Stage 1

Compressor Stage

Indicates the current command for Compressor Read Only

Command 2

Stage 2

Compressor Stage

Indicates the current command for Compressor Read Only

Command 3

Stage 3

Compressor Stage

Indicates the current command for f Compressor Read Only

Command 4

Stage 4

VAV Operating Heating

Indicates the current VAV operating heating

Read Only

Setpoint

setpoint

Staged Heating Command Indicates the current staged heating command Read Only

Operational Space

Indicates the calculated operational space

Read Only

Temperature

temperature

Heating Status

Displays the current status of heating operation Read Only

Heating Stage Command 1 Indicates the current command for Heating Stage Read Only

Heating Stage Command 2 Indicates the current command for Heating Stage Read Only

Heating Stage Command 3 Indicates the current command for Heating Stage Read Only

VAV Box Heat Command Indicates the heat command of the VAV box. This Read Only

value will indicate if the VAV box is being used to

heat the space

SZ VAV Enabled

Determines if Single Zone VAV is installed and Adjustable: Off/On

enabled

SZ VAV Minimum Fan Speed Determines the minimum fan speed for the SZ Adjustable: 0 to 100%

VAV

SZ VAV Occupied Cooling Determines the occupied cooling setpoint for the Adjustable: 45 to 98�F

Setpoint

SZ VAV

SZ VAV Unoccupied Cooling Determines the unoccupied cooling setpoint for Adjustable: 45 to 98�F

Setpoint

SZ VAV

VAV Occupied Heating

Determines the Occupied Heating Setpoint for Adjustable: 40 to 85�F

Setpoint

the VAV

VAV Unoccupied Heating Determines the unoccupied heating setpoint for Adjustable: 45 to 98�F

Setpoint

the VAV

DAT Max Heating SP

Determines the maximum allowable heating

Adjustable: 80 to 110�F

setpoint for the discharge air temperature

DAT Satisfied SP

Determines the satisfied setpoint discharge air Adjustable: 65 to 75�F

temperature setpoint

VAV Cooling Supply Air

Determines the Upper cooling SAT setpoint for Adjustable: 41 to 70�F

Temp Upper Setpoint

the VAV

VAV Cooling Supply Air

Determines the Lower cooling SAT setpoint for Adjustable: 40 to 69�F

Temp Lower Setpoint

the VAV

Verasys System User's Guide

Table 15: SSE RTU controller

Object or Parameter

Details: Single SZ VAV Operating Cooling

Zone VAV: Service Setpoint

SZ VAV Cooling Load

SZ VAV Heating Load

Operational Space

Temperature

Supply Air Temperature Fan % Command

Economizer Damper % Command Compressor Stage Command 1 Compressor Stage Command 2 Compressor Stage Command 3 Compressor Stage Command 4

Description

Adjustable

Indicates the calculated operational cooling

Read Only

setpoint for SZ VAV

Indicates the current cooling load for SZ VAV

Read Only

Indicates the current heating load for SZ VAV

Read Only

Indicates the calculated operational space

Read Only

temperature in the zone in which the SZ VAV is

feeding into

Indicates the current SAT for the SZ VAV

Read Only

Indicates the current fan % command in the VAV Read Only

box.

Indicates the current economizer damper

Read Only

position for the VAV box

Indicates the current command for Compressor Read Only

Stage 1

Indicates the current command for Compressor Read Only

Stage 2

Indicates the current command for Compressor Read Only

Stage 3

Indicates the current command for f Compressor Read Only

Stage 4

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Hot Gas Reheat: Setup

Object or Parameter

Description

Adjustable

Hot Gas Reheat Enabled For Determines if Hot Gas Reheat is installed and

Adjustable: No/Yes

Operation

enabled

Dehumidify In Satisfied

Displays if the dehumidification requirements are Read Only

satisfied and requires no humidification process

Hot Gas Reheat Alternate Used for selecting whether the hot gas reheat Adjustable: No/Yes

Operation Enabled

alternate operation is in effect

Hot Gas Reheat Alternate This input tells the control application if the

Adjustable: No/Yes

Operation Writeable

alternate operation mode is writeable

Hot Gas Reheat Humidity Determines the HGR humidity setpoint

Adjustable: 0 to 100%

Setpoint

HGR Enabled for

Determines if HGR will be enabled for unoccupied Adjustable: No/Yes

Unoccupied Operation

operation

HGR Unoccupied Humidity If enabled, determines the unoccupied humidity Adjustable: 0 to 100%

Setpoint

setpoint

HGR Humidity Setpoint

Determines the HGR setpoint differential. This Adjustable: 1 to 10%

Differential

can be seen as a dead band for the setpoint when

HGR should turn on

Aux Mode

Determines if auxiliary mode should be used for Adjustable: Off/On

HGR

Use DFS for Dehum

Determines if the Dirty Filter Switch binary input, Read Only

used for detecting when the system needs to

enter dehumidification, should be used

VAV Cooling Supply Air

Determines the Upper cooling SAT setpoint for Adjustable: 41 to 70�F

Temp Upper Setpoint

the VAV

VAV Cooling Supply Air

Determines the Lower cooling SAT setpoint for Adjustable: 40 to 69�F

Temp Lower Setpoint

the VAV

VAV Supply Air Temp Reset Determines the setpoint that should be used after Adjustable: 40 to 85�F

Setpoint

reboot cycles

Dehum Evap Low Setpoint Determines the dehumidification evap low

Adjustable: 40 to

setpoint

7017�F

Occupied Cooling Setpoint Determines the occupied cooling setpoint for

Adjustable: 45 - 98�F

HGR

Dehumidification %

Determines the dehumidification % command Adjustable: 0 to 100%

Command

during HGR

Proportional Min Out Value Determines the proportional min out value for Adjustable: 0 to 100%

HGR

Proportional Max Out Value Determines the proportional max out value for Adjustable: 0 to 100%

HGR

Condenser Fan 2 OAT

Determines when CF2 should cut out due to OAT Adjustable: 50 to 85�F

Cutout Setpoint

Modulating HGR Value Full Determines if modulating HGR should be able to Adjustable: No/Yes

Open Allowed

open fully.

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Details: Hot Gas Reheat: Service
Details: Heat Pump

Object or Parameter

Description

Adjustable

Staged Cooling Command Displays the current staged cooling command for Read Only

hot gas reheat

CV Operating Cooling

Displays the current CV operating cooling

Read Only

Setpoint

setpoint for hot gas reheat

Operational Space

Displays the calculated operational space

Read Only

Temperature

temperature used by HGR

Operational Evap

Displays the calculated operational evap

Read Only

Temperature Setpoint

temperature setpoint used by HGR

Evaporator Coil Temp

Displays the current temperature of the

Read Only

evaporator coil

Hot Gas Reheat Humidity Determines the HGR humidity setpoint.

Adjustable: 0 to 100%

Setpoint

Operational Space Humidity Displays the calculated operational space

Read Only

humidity based on controller logic

Hot Gas Reheat Status

Displays the current status of hot gas reheat

Read Only

Hot Gas Reheat Command Displays the current HGR command outputted by Read Only

the control

Operational HGR

Displays the calculated operational HGR

Read Only

Temperature Setpoint

temperature setpoint

Supply Air Temperature

Displays the current supply air temperature used Read Only

by HGR

Hot Gas Reheat Bleed Valve Displays the HGR bleed valve command. This will Read Only

Command

indicate the position of the bleed valve

Compressor Stage

Indicates the current command for Compressor Read Only

Command 1

Stage 1

Compressor Stage

Indicates the current command for Compressor Read Only

Command 2

Stage 2

Compressor Stage

Indicates the current command for Compressor Read Only

Command 3

Stage 3

Compressor Stage

Indicates the current command for f Compressor Read Only

Command 4

Stage 4

Space Humidity RAH Input Indicates the return air humidity inputted from Read Only

the space

Number of Heat Pump

Determines the number of heat pump stages

Adjustable: 0 to 2

Stages Installed

installed in the system

Test Defrost Enable

Determines if the defrost functionality should be Adjustable: False/True

tested

Compressor Delay Enable Determines if there should be a compressor delay Adjustable: False/True

when using heat pump

Defrost Curve Selection

Determines the Defrost Curve that should

Adjustable: SE RTU

be used for the unit. When the current curve

Defrost Curves

selection equals 6 this value is used for the

current Defrost Terminate Curve value. This value

is adjustable at the factory.

Reversing Valve

Indicates the status of the reversing valve

Read Only

Auxiliary Heat

Indicates if Aux heat is enabled

Read Only

Mode

Indicates which mode the heat pump is currently Read Only

OAT Defrost Permission

Determines the OAT in which the defrost cycle Adjustable: 45 to 60�F

can perform

Verasys System User's Guide

Table 15: SSE RTU controller

Object or Parameter

Description

Adjustable

Details: ERV

ERV Enabled

Determines if energy recovery ventilators are

Adjustable: No/Yes

installed

ERV Unoccupied Fan

Determines if ERV will run fan during unoccupied Adjustable: No/Yes

Enabled

Fan Control Type

Determines the fan control type for the energy Adjustable: SE RTU Fan

recovery ventilator

Control Type

Fan Command

Indicates the current fan for the energy recovery Read Only

ventilator

Econ Free Cooling Available Indicates if the economizer is available to benefit Read Only

the ERV

Exhaust Fan Command

Indicates the current exhaust fan command

Read Only

outputted from the system

Details: Load Shed Load Shed Rate Limit

Determines the load shed rate limit

Adjustable: 0 to 1�F/

min

Load Shed Adjust

Determines the load shed offset/adjust

Adjustable: 0 to 8 delta

�F

Load Shed Active

Determines if the load shed functionality should Adjustable: No/Yes

be used

Clone: Full Clone Device Name

Determines the device name of the clone

Adjustable

Unit Name

Determines the name of the unit

Adjustable

Unit Model Number

Determines the model number of the clone

Adjustable

Unit Serial Number

Determines the serial number of the clone

Adjustable

Model Name

Determines the model name of the clone

Read Only

Fan Accumulated Runtime Indicates how long the fan has been running.

Adjustable: 0 to 10,000

This value is adjustable; however should not be hours

changed unless a software update requires it

Compressor Stage

Indicates the accumulated runtime for

Adjustable: 0 to 10,000

Accumulated Runtime 1 compressor stage 1. This is how long the

hours

compressor has run since last power cycle

Compressor Stage

Indicates the accumulated runtime for

Adjustable: 0 to 10,000

Accumulated Runtime 2 compressor stage 2. This is how long the

hours

compressor has run since last power cycle

Compressor Stage

Indicates the accumulated runtime for

Adjustable: 0 to 10,000

Accumulated Runtime 3 compressor stage 3. This is how long the

hours

compressor has run since last power cycle

Compressor Stage

Indicates the accumulated runtime for

Adjustable: 0 to 10,000

Accumulated Runtime 4 compressor stage 4. This is how long the

hours

compressor has run since last power cycle

Heating Stage 1

The accumulated runtime for heating stage 1. Adjustable: 0 to 10,000

Accumulated Runtime

This is how long the heating element has run

hours

since last power cycle

Heating Stage 2

The accumulated runtime for heating stage 2. Adjustable: 0 to 10,000

Accumulated Runtime

This is how long the heating element has run

hours

since last power cycle

Heating Stage 3

The accumulated runtime for heating stage 3. Adjustable: 0 to 10,000

Accumulated Runtime

This is how long the heating element has run

hours

since last power cycle

Time Zone

Determines which time zone the controller is

Adjustable: SE RTU

using

Time Zone

Address

Determines the IP address for the controller

Adjustable: 4 to 127

Device OID (Device ID)

Determines the Device ID of the controller

Adjustable: 0 to 99,999

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Clone: Partial Clone 1

Object or Parameter

Description

Adjustable

Duct Pressure Setpoint

Determines the Duct Pressure setpoint

Adjustable: 0 to 5 in.

wc.

Duct Pressure Shutdown Determines the duct pressure shutdown setpoint. Adjustable: 0 to 5 in.

Setpoint

The fan will shutdown if this setpoint is hit.

wc.

Continuous Fan Operation Sets the control for Continuous Fan during

Adjustable: Yes/No

in Occupied Mode

Occupied for the clone

Turn Off Continuous Fan Allows continuous fan mode to be turned off

Adjustable: Yes/No

Operation When Starting during heating mode

Heat

Occupied : No Heat or Cool Indicates the occupied no heat/cool fan percent Adjustable: 0 to 100%

$ Command

command for the clone

Occupied : One Stage of

Indicates the occupied first stage of cooling fan Adjustable: 0 to 100%

Cool % Command

percent command for the clone

Occupied: Two Stage of Cool Indicates the occupied second stage of cooling Adjustable: 0 to 100%

% Command

fan percent command for the clone

Occupied: Three Stage of Indicates the occupied third stage of cooling fan Adjustable: 0 to 100%

Cool % Command

percent command for the clone

Occupied: Four Stage of

Indicates the occupied fourth stage of cooling fan Adjustable: 0 to 100%

Cool % Command

percent command for the clone

Occupied: One Stage of

Indicates the occupied first stage of heating fan Adjustable: 0 to 100%

Heat % Command

percent command for the clone

Occupied: Two Stage of

Indicates the occupied second stage of heating Adjustable: 0 to 100%

Heat % Command

fan percent command for the clone

Occupied: Three Stage of Indicates the occupied third stage of heating fan Adjustable: 0 to 100%

Heat % Command

percent command for the clone

VAV Cooling Supply Air

Determines the upper VAV cooling SAT setpoint Adjustable: 41 to 70�F

Temp Upper Setpoint

VAV Cooling Supply Air

Determines the lower VAV cooling setpoint

Adjustable: 40 to 69�F

Temp Lower Setpoint

VAV Supply Air Temp Reset Determines the SAT setpoint after reset

Adjustable: 40 to 85�F

Setpoint

VAV Operating Cooling

Indicates the VAV Operating cooling SAT SP

Read Only

Supply Air Temp Setpoint

CV Occupied Cooling

This is the Control Volume Occupied Cooling

Adjustable: 45 to 98�F

Setpoint

CV Unoccupied Cooling

This is the Control Volume Unoccupied Cooling Adjustable: 46 to 99�F

Setpoint

VAV Occupied Heating

Determines if VAV heating during occupied

Adjustable: No/Yes

Enabled

should be enabled

VAV Occupied Heating

If enabled, determines the VAV occupied heating Adjustable: 40 to 85�F

Setpoint

setpoint

Unoccupied Heating

Determines if VAV heating during unoccupied is Adjustable: No/Yes

Enabled

enabled

VAV Unoccupied Heating If enabled, determines the VAV unoccupied

Adjustable: No/Yes

Setpoint

heating setpoint

SZ VAV Occupied Cooling This is the Single Zone Variable Air Volume

Adjustable: 45 to 98�F

Setpoint

Occupied Cooling Setpoint

SZ VAV Unoccupied Cooling This is the Single Zone Variable Air Volume

Adjustable: 45 to 98�F

Setpoint

unoccupied Cooling Setpoint

Morning Warmup Enabled Determines if the morning warmup algorithm Adjustable: No/Yes

should be enabled

Morning Warmup/Return If enabled, determines the warmup and return air Adjustable: 50 to 85�F

Air Temp Setpoint

temperature setpoints

CV Occupied Heating

The occupied heating setpoint when configured Adjustable: 46 to 99�F

Setpoint

to individual setpoint mode

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Clone: Partial Clone 1 (continued)
Clone: Network Override
Self Test Results
Trend: Status

Object or Parameter

Description

Adjustable

CV Unoccupied Heating

The unoccupied setpoint when configured to

Adjustable: 45 to 98�F

Setpoint

individual setpoint mode

Low Ambient Economizer Determines when the economizer should be

Adjustable: 0 to 60�F

Setpoint

enabled/disabled in low ambient conditions

Low Ambient Economizer Determines the economizer minimum position in Adjustable: 0 to 100%

Minimum Position

low ambient conditions

Language

Sets the language the controller uses

Adjustable: SE RTU

Languages

Units

Sets the units the controller uses

Adjustable: IP/SI

BAS Communication

Displays the current status of the BAS

Read Only

communication

Network Override Space Overrides the space temperature to what the user Adjustable: 0 to 100�F

Temperature

desires

Network Override Indoor Overrides the indoor air quality to what the user Adjustable: 0 to 5,000

Air Quality

desires

ppm

Network Override Zone

Overrides the zone humidity to what the user

Adjustable: 0 to 100%

Humidity

desires

Network Override Fan

Overrides the fan request to what the user

Adjustable: Off/On

Request

desires

Network Override Space Overrides the space temperature setpoint offset Adjustable: -5 to 5 delta

Setpoint Offset

to what the user desires

�F

Network Override Outdoor Overrides the outdoor air temperature to what Adjustable: -50 to 125�F

Air Temperature

the user desires

Network Override Outdoor Overrides the outdoor air humidity to what the Adjustable: 0 to 100%

Air Humidity

user desires

Network Override Outdoor Overrides the outdoor air quality to what the user Adjustable: 0 to 5000

Air Quality

desires

ppm

Network Override Purge Overrides the purge command to what the user Adjustable: False/True

Command

desires

Fan Result

The Fan results from the Self Test

Read Only

C1 Result

The Compressor 1 results from the Self Test

Read Only

C2 Result

The Compressor 2 results from the Self Test

Read Only

C3 Result

The Compressor 3 results from the Self Test

Read Only

C4 Result

The Compressor 4 results from the Self Test

Read Only

H1 Result

The Heating 1 results from the Self Test

Read Only

H2 Result

The Heating 2 results from the Self Test

Read Only

H3 Result

The Heating 3 results from the Self Test

Read Only

Econ Result

The Economizer results from the Self Test

Read Only

Exhaust Result

The Exhaust results from the Self Test

Read Only

Network Override

Network Override trend

Read Only

Network Override

Network Override trend

Read Only

Cooling Status

Cooling Status trend

Read Only

Heating Status

Heating Status trend

Read Only

Economizer Status

Economizer Status trend

Read Only

Hot Gas Reheat Status

Hot Gas Reheat Status trend

Read Only

Operational Occupancy

Operational Occupancy trend

Read Only

Operational Space

Operational Space Temperature trend

Read Only

Temperature

Supply Air Temperature

Supply Air Temperature trend

Read Only

Mixed Air Temperature

Mixed Air Temperature trend

Read Only

Operational Outdoor Air Operational Outdoor Air Temperature trend

Read Only

Temperature

Return Air Temperature Return Air Temperature trend

Read Only

Outdoor Air Enthalpy

Outdoor Air Enthalpy trend

Read Only

Verasys System User's Guide

Table 15: SSE RTU controller

Object or Parameter

Trend: Cooling: Cooling Status

Status

Supply Air Temperature

VAV Operating Cooling

Supply Air Temp Setpoint

CV Operating Cooling

Setpoint

Trend: Cooling: Y1 - Thermostat

Stage 1

Compressor Stage 1 Status

Compressor Stage

Command 1

Trend: Cooling: Y2 - Thermostat

Stage 2

Compressor Stage 2 Status

Compressor Stage

Command 2

Trend: Cooling: Y3 - Thermostat

Stage 3

Compressor Stage 3 Status

Compressor Stage

Command 3

Trend: Cooling: Y4 - Thermostat

Stage 4

Compressor Stage 4 Status

Compressor Stage

Command 4

Trend: Heating: Heating Status

Status

Supply Air Temperature

VAV Operating Heating

Setpoint

CV Operating Heating

Setpoint

Trend: Heating: W1 - Thermostat

Stage 1

Heating Stage Command 1

Heating Stage 1 Enabled

Trend: Heating: W2 - Thermostat

Stage 2

Heating Stage Command 2

Heating Stage 2 Status

Trend: Heating: W3 - Thermostat

Stage 3

Heating Stage Command 3

Heating Stage 3 Status

Trend: Fan: Indoor G - Thermostat

Fan

Fan Status

Fan Command

Fan % Command

Air Proving Switch

Trend: Fan:

Exhaust Fan Command

Exhaust Fan

Exhaust Fan VFD %

Command

Trend: Fan:

Condenser Fan 1

Condenser Fans Condenser Fan 2

Description Cooling Status trend Supply Air Temperature trend VAV Operating Cooling Supply Air Temp Setpoint trend CV Operating Cooling Setpoint trend

Adjustable Read Only Read Only Read Only
Read Only

The Y1 cooling call trend from the thermostat The Status trend for Compressor Stage 1 The Command trend from Compressor 1

Read Only Read Only Read Only

The Y2 cooling call trend from the thermostat The Status trend for Compressor Stage 2 The Command trend from Compressor 2

Read Only Read Only Read Only

The Y3 cooling call trend from the thermostat The Status trend for Compressor Stage 3 The Command trend from Compressor 3

Read Only Read Only Read Only

The Y4 cooling call trend from the thermostat The Status trend for Compressor Stage 4 The Command trend from Compressor 4

Read Only Read Only Read Only

Heating Status trend Supply Air Temperature trend VAV Operating Heating Setpoint trend

Read Only Read Only Read Only

CV Operating Heating Setpoint trend

Read Only

The W1 heating call trend from the thermostat The Command trend for first stage of heating The Status trend for the first stage of heating The W2 heating call trend from the thermostat The Command trend for second stage of heating The Status trend for the second stage of heating The W3 heating call trend from the thermostat The Command trend for third stage of heating The Status trend for the third stage of heating The G fan call trend from the thermostat The Fan Status trend from the indoor fan The Fan command trend from the indoor fan The Fan % command trend from the indoor fan The Air Proving switch trend from the indoor fan Exhaust Fan Command trend Exhaust Fan VFD % Command trend

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

Condenser Fan 1 trend Condenser Fan 2 trend

Read Only Read Only

Verasys System User's Guide

Table 15: SSE RTU controller

Object or Parameter

Description

Trend: Sensors Space Temperature Input Space Temperature Input trend

Supply Air Temperature

Supply Air Temperature trend

Mixed Air Temperature

Mixed Air Temperature trend

Supply Air Humidity

Supply Air Humidity trend

Operational Space

Operational Space Temperature trend

Temperature

Operational Indoor Air

Operational Indoor Air Quality trend

Quality

Operational Space Humidity Operational Space Humidity trend

Operational Outdoor Air Operational Outdoor Air Temperature trend

Temperature

Operational Outdoor Air Operational Outdoor Air Quality trend

Quality

Trend: Economizer Economizer Damper %

Economizer Damper % Command trend

Command

Econ Free Cooling Available Econ Free Cooling Available trend

Economizer Status

Economizer Status trend

Return Air Enthalpy

Return Air Enthalpy trend

Building Pressure Setpoint Building Pressure Setpoint trend

Building Static Pressure

Building Static Pressure trend

Reversing Valve

Reversing Valve trend

Trend: Misc: Hot Hot Gas Reheat Command Hot Gas Reheat Command trend

Gas Reheat

Hot Gas Reheat Status

Hot Gas Reheat Status trend

Hot Gas Reheat Humidity Hot Gas Reheat Humidity Setpoint trend

Setpoint

Trend: Misc:

Fresh Air Intake Setpoint Fresh Air Intake Setpoint trend

Demand Ventilation

Fresh Air Intake Value

Fresh Air Intake Value trend

Trend: Fault: Misc X-OUT

X-OUT trend

Dirty Filter Switch

Dirty Filter Switch trend

Trend: Fault:

Heat Limit1 Switch

Heat Limit1 Switch trend

Heating Stage 1 Heat Limit1 Switch Lockout Heat Limit1 Switch Lockout trend

Trend: Fault:

Heat Limit2 Switch

Heat Limit2 Switch trend

Heating Stage 2 Heat Limit2 Switch Lockout Heat Limit2 Switch Lockout trend

Trend: Fault:

Heat Limit3 Switch

Heat Limit3 Switch trend

Heating Stage 3 Heat Limit3 Switch Lockout Heat Limit3 Switch Lockout trend

Trend: Fault:

High Pressure Limit

High Pressure Limit trend

Cooling Stage 1 High Pressure Lockout

High Pressure Lockout trend

Low Pressure Limit

Low Pressure Limit trend

Low Pressure Lockout

Low Pressure Lockout trend

Freeze Condition

Freeze Condition trend

Freeze Condition Lockout Freeze Condition Lockout trend

Evaporator Coil Temp

Evaporator Coil Temp trend

Condenser Coil Temp

Condenser Coil Temp trend

Trend: Fault:

High Pressure Limit

High Pressure Limit trend

Cooling Stage 2 High Pressure Lockout

High Pressure Lockout trend

Low Pressure Limit

Low Pressure Limit trend

Low Pressure Lockout

Low Pressure Lockout trend

Freeze Condition

Freeze Condition trend

Freeze Condition Lockout Freeze Condition Lockout trend

Evaporator Coil Temp

Evaporator Coil Temp trend

Condenser Coil Temp

Condenser Coil Temp trend

Adjustable 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 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 Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only Read Only

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Trend: Fault: Cooling Stage 3
Trend: Fault: Cooling Stage 4
Trend: Diagnostics: Cooling Stage 1
Trend: Diagnostics: Cooling Stage 2
Trend: Diagnostics: Cooling Stage 3

Object or Parameter High Pressure Limit High Pressure Lockout Low Pressure Limit Low Pressure Lockout Freeze Condition Freeze Condition Lockout Evaporator Coil Temp Condenser Coil Temp High Pressure Limit High Pressure Lockout Low Pressure Limit Low Pressure Lockout Freeze Condition Freeze Condition Lockout Evaporator Coil Temp Condenser Coil Temp Suction Pressure Liquid Pressure Suction Temperature Liquid Temperature Superheat Subcooling Condensing Temperature over Ambient Efficiency Index Capacity Index Suction Pressure Liquid Pressure Suction Temperature Liquid Temperature Superheat Subcooling Condensing Temperature over Ambient Efficiency Index Capacity Index Suction Pressure Liquid Pressure Suction Temperature Liquid Temperature Superheat Subcooling Condensing Temperature over Ambient Efficiency Index Capacity Index

Description High Pressure Limit trend High Pressure Lockout trend Low Pressure Limit trend Low Pressure Lockout trend Freeze Condition trend Freeze Condition Lockout trend Evaporator Coil Temp trend Condenser Coil Temp trend High Pressure Limit trend High Pressure Lockout trend Low Pressure Limit trend Low Pressure Lockout trend Freeze Condition trend Freeze Condition Lockout trend Evaporator Coil Temp trend Condenser Coil Temp trend Suction Pressure trend Liquid Pressure trend Suction Temperature trend Liquid Temperature trend Superheat trend Subcooling trend Condensing Temperature over Ambient trend
Efficiency Index trend Capacity Index trend Suction Pressure trend Liquid Pressure trend Suction Temperature trend Liquid Temperature trend Superheat trend Subcooling trend Condensing Temperature over Ambient trend
Efficiency Index trend Capacity Index trend Suction Pressure trend Liquid Pressure trend Suction Temperature trend Liquid Temperature trend Superheat trend Subcooling trend Condensing Temperature over Ambient trend
Efficiency Index trend Capacity Index trend

Adjustable 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 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 Read Only Read Only Read Only Read Only Read Only
Read Only Read Only

Verasys System User's Guide

Table 15: SSE RTU controller

Menu Trend: Diagnostics: Cooling Stage 4
Set Schedule

Object or Parameter Suction Pressure Liquid Pressure Suction Temperature Liquid Temperature Superheat Subcooling Condensing Temperature over Ambient Efficiency Index Capacity Index Occupancy Schedule

Description Suction Pressure trend Liquid Pressure trend Suction Temperature trend Liquid Temperature trend Superheat trend Subcooling trend Condensing Temperature over Ambient trend
Efficiency Index trend Capacity Index trend The set occupancy schedule determined in system configuration

Adjustable Read Only Read Only Read Only Read Only Read Only Read Only Read Only
Read Only Read Only Read Only

Table 16: VZC100 parameters and objects

Menu Home Page

Object or parameter Fan Status Supply Air Temperature Unit Status Zone Temperature Zone Vote
Zone Can Vote
Active Mode Firmware Main Version Application Version Application Name

Description

Adjustable

This is the fan status of the change over bypass or Read only VAV unit that is suppling air to the zones.

This is the SAT of the change over bypass or VAV Read only

unit that is suppling air to the zones.

This is the unit status of the change over bypass Read only or VAV unit that is suppling air to the zones.

This is the zone temperature of the zone(s)

Read only

connected to the zone coordinator. The list shows each zone temperature of each zone connected.

This is the vote sent from the COBP systems to Read only

the zone coordinator from the connected zones. The vote is for either Urgent Heat, Heat, Satisfied,

Cool or urgent Cool. The zone coordinator determines what state the unit controls to based

on all of the votes from the zones.

In COBP systems, this parameter indicates if the Read only zone is currently allowed to vote. This parameter

shows false if a zone is locked out from voting by a manual setting or because it cannot reach the

temperature within the Lockout Time.

On VAV systems, this is the current state the zone Read only is in. Heating, Cooling or Satisfied. Each zone

shows their mode.

Displays the firmware version for the given zone Read only controller. The list shows this parameter for each

connected zone controller.

Displays the application version for the given

Read only

zone controller. The list shows this parameter for

each connected zone controller.

Displays the application name for the given zone Read only controller. It can be Verasys Incremental Heating

Application, Verasys Staged Heating Application, Verasys SCR Heating Application, or Verasys

Zone Damper Application. The list shows this parameter for each connected zone controller.

Verasys System User's Guide

Table 16: VZC100 parameters and objects

Menu Unit

Object or parameter Unit Enable Network Temporary Occupancy Request
Temporary Occupancy Timeout Representative Zone
Load Shed Active
Zoning System State
Device Being Provisioned
Provisioning Command Provisioning Detail Code Provisioning Error Code Provisioning Status System Package Mismatch Information

Description

Adjustable

With this object you can command the unit to Adjustable: Enable/

shut down. This can shut down all of the zones. Shutdown

If any zone is in a temporary occupancy state this Adjustable: False/True

flags as true. The temporary occupancy command

is then sent for the length of the temporary

occupancy timeout.

The duration of a temporary occupancy request. Adjustable: 30 min to

This value is sent to the rooftop unit controller 480 min

when adjusted.

On VAV systems this is the zone that represents Adjustable: Range:

night setup and setback zone. You can use this to 46�F to 99�F

reset the SAT if it is enabled.

The status of the load shed command to the zone Read only

coordinator. When active, all zones are in load

shed if the zones are enabled for load shed.

This is a trouble shooting object that identifies Read only

missing rooftop units, or unsupported rooftop

units, a bypass damper when it is not needed, or

an unsupported zone.

While performing a VZC100 update, this menu Read only

parameter indicates the device that is currently

being provisioned and can be either the VZC or

one of the ZECs connected on the zone bus. When

no update is in process, this parameter is empty.

Provides a high level description of the state of Read only

the provisioning.

Provides a detailed description of the state of the Read only

provisioning.

Indicates if there was an error with provisioning. Read only

Shows the status of provisioning.

Read only

Indicates if the current version of any of the ZECs Read only

or the VZC do not match the expected package

version. Most often this occurs when an older ZEC

is connected to a newer VZC. The red fault LED on

the VZC slowly blinks while in a mismatch state.

Verasys System User's Guide

Table 16: VZC100 parameters and objects

Menu Commissioning

Object or parameter Control Mode

Description Sets the mode of the unit.

Adjustable Adjustable:
� Auto � Cool � Heat � Fan Only � Off

Balancer Mode Title 24 Test Mode Construction Mode

Controller

Firmware Version Relearn System
Address
Device OID

Time Date

When initiated, zone dampers index to their

Adjustable: Enable/

maximum positions, VAV boxes index to their

Disable

cooling maximum flow positions and the bypass

damper closes.

When you are in title 24 test mode, the

Adjustable: False/True

economizer damper ramp rate drops from 5%

every 30 minutes to 5% every two minutes, so you

can test the demand ventilation mode sequence

faster. This does not test the Title 24 load shed.

Sets the mode of the unit during construction. Adjustable:

This ignores typical shutdown conditions. Use this �

feature to temper the space during construction. �

Only available during change over bypass. Also make sure zone dampers are blocked open when

�

you run the unit in construction mode to relieve �

Not in Use Heat Cool Fan Only

duct pressure.

Displays the firmware version of the controller. Read only

Alerts the zone coordinator to rediscover all of the Adjustable: False/True

devices that are connected to the zone bus.

Shows the address of the controller. The address Read only

is set by the dip switches on the controller.

This is the BACnet device OID for the system bus. Adjustable: Range: 1 to

If on a standalone Verasys System this parameter 4,194,303

is not used, but if connected to a 3rd party facility

management system it sets the BACnet ID for the

zone coordinator.

The time that was set by the SBH. To change the Read only

date and time, navigate to settings > systems

on the SBH and adjust the date and time. This

adjustment syncs to all online devices.

Shows the date that the controller is set to.

Read only

Verasys System User's Guide

Table 16: VZC100 parameters and objects

Menu Details: Setpoints
Details: Control

Object or parameter

Description

Adjustable

Supply Temperature Cooling On change over bypass systems, this is the

Adjustable: 40�F to

Setpoint

setpoint the RTU controls to when the system 69�F

calls for cooling.

Supply Temperature

On change over bypass systems, this is the

Adjustable: 90�F to

Heating Setpoint

setpoint the RTU controls to when the system 130�F

calls for heating.

Supply Air Temperature

On VAV systems, if the supply air temp reset

Adjustable: 40�F to

Setpoint

strategy is set to true, this is the median setpoint 70�F

the unit controls to.

Maximum Supply Temp

On VAV systems, if the supply air temp reset

Adjustable: 0�F to 5�F

Setpoint Adjust

strategy is set to true, this is the maximum

adjustment the of the supply air setpoint plus or

minus what it is set to.

Duct Pressure Setpoint

On VAV systems, if the duct static setpoint reset Adjustable: 0.5 in. wc to

strategy is set to true, this is the median setpoint 4.5 in. wc

the unit controls to.

Max Duct Static SP Adjust On VAV systems, if the duct static setpoint reset Adjustable: 0 in. wc to

is set to true, this is the maximum adjustment of 0.5 in. wc

the duct pressure setpoint plus or minus what it is

set to.

Economizer Minimum

Sets the economizer minimum position if the

Adjustable: 0% to 100%

Position Setpoint

economizer is installed on the unit.

Supply Temp Reset Strategy On VAV Systems, if set to true the zone

Adjustable: Enable/

coordinator resets the SAT based on the zone that Disable

is set as the representative zone. If the zone is

providing as much cooling as it can, it adjusts the

SAT down towards the supply air setpoint minus

maximum SAT adjust. If the zone is satisfied it

adjusts the SAT up towards the supply air setpoint

plus maximum SAT adjust.

Duct Static Setpoint Reset On VAV Systems, if set to true the zone

Adjustable: Enable/

Enable

coordinator resets the duct static pressure

Disable

setpoint based on the zone that has the most

open damper trying to control it between 85%

and 95% open. If the zone is less than 85% it

adjusts the duct pressure down. If the zone is

greater than 95% it adjusts the duct pressure up.

Using the Max Duct Static setpoint adjust to set

the limits.

Unocc Heating Cooling

On VAV systems, this enables the night setup and Adjustable: Enable/

Enable

setback of the unit based on the conditions of the Disable

representative zone.

VFD Econ Min Pos Reset

On VAV Systems, the VFD economizer minimum Adjustable: False/True

position reset strategy adjusts the economizer

minimum position proportional to the supply fan

speed to maintain the outdoor ventilation rate.

Verasys System User's Guide

Table 16: VZC100 parameters and objects

Menu Details: Changeover

Object or parameter Min Requests to Change
Min Urgent Requests to Change
Urgent Heat Requests Total Heat Requests Urgent Cool Requests Total Cool Requests Changeover Min Time
Changeover State

Description

Adjustable

The system changes from heat to cool when the Adjustable: 1 to 4

cooling requests exceeds the minimum number

of requests to change modes and all heating

requests have been satisfied below this value.

The system changes from cool to heat when the

heating requests exceeds the minimum number

of requests to change modes and all cooling

requests have been satisfied below this value.

The system changes from heat to cool when the Adjustable: 1 to 4

urgent cooling requests exceeds the minimum

number of urgent requests to change modes.

The system changes from cool to heat when the

urgent heating requests exceeds the minimum

number of urgent requests to change modes.

Number of zones with urgent requests for heat. Ready only

Number of zones with requests for heat. A

Ready only

combination of urgent and regular requests.

Number of zones with urgent requests for

Ready only

cooling.

Number of zones with requests for cooling. A

Ready only

combination of urgent and regular requests.

A user-set timer prevents cycling between the Adjustable: 10 min to

heat and cool modes. The timer begins running 60 min

when it enters either the heat or cool mode. Once

it expires, the system may change modes if the

other conditions are met. The timer restarts when

the mode changes.

The current state of the changeover timer

Read only

Table 17: BYP200 parameters and objects

Menu Home Page

Object or Parameter Duct Static Pressure
Duct Static Pressure Setpoint Damper Position
Unit Enable
Scheduled Occupancy

Description

Adjustable

The Duct Static Pressure reading from the differential pressure sensor.

Read only

This is the setpoint the controller is modulating Adjustable: 0 in. wc to

the bypass damper(s) to.

5.0 in. wc

The commanded position of the bypass damper(s).

Read only

The command given to the bypass damper by the Adjustable: Enable/

zone coordinator.

Shutdown

The occupied command from the zone

Adjustable:

coordinator. When occupied the bypass dampers �

control to setpoint. When unoccupied they are set �

to 50%.

�

Occupied Unoccupied Standby

� Not Set

Verasys System User's Guide

Table 17: BYP200 parameters and objects

Menu Setup

Object or Parameter

Description

Adjustable

Duct Pressure Setpoint

This is the setpoint the controller is modulating Adjustable: 0 in. wc to

the bypass damper(s) to.

5.0 in. wc

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, Read only Fan Only, Balancing, Satisfied or Off.

Scheduled Occupancy

Shows the occupied command from the zone

Adjustable:

coordinator. When occupied the bypass dampers �

control to the setpoint. When unoccupied they

�

are set to 50%.

�

Occupied Unoccupied Standby

� Not Set

Controller Trends

Unit Enable Damper Direction to Close
Power Fail Restart Enable
Firmware Version Address Unit Model Number Duct Static Pressure Scheduled Occupancy Damper Position

The command given to the bypass damper by the Adjustable: Enable/

zone coordinator.

Shutdown

Sets the direction to close the bypass damper Adjustable: clockwise/

that is a part of the controller. To set the second counter clockwise

bypass damper direction you must set a jumper

on the actuator.

Upon a power fail the controller delays 5 minutes Adjustable: Enable/

before it comes back operational. This is done so Disable

electrical demand is not spiked.

Displays the firmware version of the controller. Read only

Shows the address of the controller. The address Read only

is set by the dip switches on the controller.

Shows the model number of the controller.

Read only

288 samples are taken at a 15 minute period.

Read only

10 samples in total. 1 sample taken every change Read only

of value.

288 samples are taken at a 15 minute period.

Read only

Verasys System User's Guide

Table 18: ZEC510 objects and parameters

Menu Home Page

Object or Parameter Zone Temperature Active Setpoint
Operational Occupancy
Active Mode
Zone Vote
Network Override Supply Air Temperature Damper Position Discharge Air Temperature
Supply Flow Supply Flow Setpoint Indoor Air Quality
Fan Command Heating Stage Command 1

Description

Adjustable

Zone temperature reading from the zone sensor. Read only

This is the setpoint the zone controls to, taking Read only

into account occupancy and the warmer/cooler

adjustment.

This is the commanded occupancy from the zone Read only

coordinator. The zone is either in an occupied,

unoccupied or standby state. Temporary

occupancy can switch this from unoccupied to

occupied. If a motion sensor is connected and

motion is not sensed it switches to standby.

This is the current state the box is in. Heating, Read only

Cooling, Satisfied or Temperature Unreliable. This

object only shows up on VAV systems.

This is the vote sent to the zone coordinator. The Read only

zone votes for either Urgent Heat, Heat, Satisfied,

Cool or urgent Cool. The zone coordinator

determines what state the unit controls to based

on all of the votes from the zones. This object only

shows up on change over bypass systems.

This is the supply air temperature as measured by Read only

the RTU/AHU and shared over the network to the

ZEC through the VZC100.

The commanded position of the zone damper. Read only

This is the temperature of the air that leaves the Read only

VAV box. The discharge air temperature sensor is

typically installed to measure the heat rise of the

box heater.

The supply air flow measured by the VAV box. Read only

The flow setpoint the damper is controlling the Read only

supply air flow to.

This is the measurement of CO2 in the space. If it Read only is too high, the system drives more fresh air into

the space.

The VAV box fan command.

Read only

The first stage of heating command.

Read only

Note: This parameter is visible if you use staged or proportional SCR heat. If you use proportional SCR heat, this parameter shows whether SCR heat is enabled.

Heating Stage Command 2 The second stage of heating command.

Read only

Note: This parameter is visible if you use staged heat.

Heating Stage Command 3 The third stage of heating command.

Read only

Note: This parameter is visible if you use staged heat.

Box Heating Status
Supplemental Heating Stage Command

This parameter shows when the box heating is able to activate based on flow. The supplemental heating stage command.
Note: This parameter is visible if you use staged heat.

Read only Read only

Verasys System User's Guide

Table 18: ZEC510 objects and parameters

Menu Home Page (continued)

Object or Parameter

Description

Heating Percent Command The box heating percent command.

Adjustable Read only

Note: This parameter is visible if you use incremental or proportional SCR heat.

Supplemental Heating Percent Command

The supplemental heating percent command.
Note: This parameter is visible if you use incremental or proportional SCR heat.

Read only

Temp Occ

Temporary Occupancy. If enabled, any

Read only

adjustment to the zone sensor during the

unoccupied mode places the zone in the

occupied state and this parameter sets to true.

The Network Temporary Occupancy Request

parameter also sets to true, and the unit starts

and runs for the temporary occupancy duration.

Ventilation Request

Indicates whether the zone CO2 level is currently Read only higher than the setpoint and the zone needs

additional ventilation.

Box Heating Type

Shows the type of heat installed in the VAV box. Read only

Supplemental Heating Type Shows the type of heat installed for supplemental Read only

or perimeter heat.

Cooling PID Saturation

Overview of the cooling PID loop status. A normal Read only

Status

status indicates that cooling can occur at any time

or cooling is currently on. The timing high status

indicates that the output is at 100%, and the high

status indicates 100% for more than five minutes.

Heating PID Saturation

Overview of the heating PID loop status. A normal Read only

Status

status indicates that heating can occur at any

time or heating is currently on. The timing high

status indicates that the output is at 100%, and

the high status indicates 100% for more than five

minutes.

Verasys System User's Guide

Table 18: ZEC510 objects and parameters

Menu Setpoints

Object or Parameter Occupied Cooling Setpoint
Occupied Heating Setpoint
Unoccupied Cooling Setpoint Unoccupied Heating Setpoint Standby Cooling Setpoint
Standby Heating Setpoint
Supply Air Temperature Setpoint
Warmer/Cooler Adjust Range
Warmup Diff

Description

Adjustable

When occupied the thermostat controls cooling Adjustable: 46�F to

to this level. Set above occupied heating setpoint. 99�F

Defaults to 72�F.

When occupied the thermostat controls heating Adjustable: 45�F to

to this level. Set below occupied cooling setpoint. 98�F

Defaults to 68�F.

When unoccupied the thermostat controls

Adjustable: 46�F to

cooling to this level. Defaults to 80�F.

99�F

When unoccupied the thermostat controls

Adjustable: 45�F to

heating to this level. Set below unoccupied

98�F

cooling setpoint. Defaults to 60�F.

In order for the standby cooling setpoint to

Adjustable: 46�F to

appear, set the occupancy mode to external.

99�F

When set to external the zone switches to this

setpoint when motion is no longer sensed and

the unit is occupied. Defaults to 74�F.

In order for the standby Heating setpoint to

Adjustable: 45�F to

appear, set the occupancy mode to external.

98�F

When set to external, the zone switches to this

setpoint when motion is no longer sensed and

the unit is occupied. Defaults to 66�F.

When the space temperature drops below the Adjustable: 45�F to

heating setpoint, the zone controller starts from 130�F

the supply air temperature setpoint and resets

to the supply air setpoint heating Max. Once the

Heating Max setpoint is reached the supply air

flow resets from heating minimum flow to cooling

maximum flow.

This is the range that the warmer cooler

Adjustable: 0�F to 5�F

adjustment on the sensor can affect the

setpoint. Setting it to zero means the user has no

adjustment at the sensor. Default is 5�F

This parameter indicates the amount with which Adjustable: -25 delta �F

the supply temperature must exceed the current to 100 delta �F

zone temperature so that the controller detects a

warmup condition.

Verasys System User's Guide

Table 18: ZEC510 objects and parameters

Menu Commissioning: Flow

Object or Parameter

Description

Adjustable

Cooling Maximum Flow

Sets the maximum supply air flow of the VAV box Adjustable: 0 cfm to

when cooling.

10,000 cfm

Occupied Cooling Min Flow Sets the minimum supply air flow of the VAV box Adjustable: 0 cfm to

when cooling.

10,000 cfm

Occupied Heating Min Flow Sets the minimum supply air flow of the VAV box Adjustable: 0 cfm to

when heating.

10,000 cfm

Note: When the zone is in heating mode, the supply air flow is constant. Thus, no maximum heating air flow.

Unoccupied Cooling Min Sets the minimum supply air flow of the VAV

Adjustable: 0 cfm to

Flow

box when unoccupied cooling and in the cooling 10,000 cfm

mode.

Unoccupied Heating Min Sets the minimum supply air flow of the VAV box Adjustable: 0 cfm to

Flow

when unoccupied heating and in the heating

10,000 cfm

mode.

Warmup Min Flow

During warmup mode this is the minimum flow to Adjustable: 0 cfm to

the VAV box.

10,000 cfm

Staged Reheat Min Flow Sets the minimum heating flow for electric reheat Adjustable: 0 cfm to

control. This parameter serves an additional

10,000 cfm

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.

DCV Max Flow

The DCV maximum ventilation flow. As

Adjustable: 0 cfm to

determined by the CO2 setpoint and proportional 10,000 cfm band, this is the maximum flow the DCV is set

to. For example, if this is set to 700cfm and the

controller is requiring maximum ventilation as

determined by the DCV sequence, the system

controls to 700cfm. However, if the system

requires more flow because of temperature

control, the flow setpoint may increase to the

occupied cooling maximum flow setpoint in this

section.

DCV Occupied Cooling Min While in demand control ventilation (CO2 Control) Adjustable: 0 cfm to

Flow

the minimum cooling supply air flow starts with 10,000 cfm

this and span to the DCV maximum flow.

DCV Occupied Heating Min While in demand control ventilation (CO2 Control) Adjustable: 0 cfm to

Flow

the minimum heating supply air flow starts with 10,000 cfm

this and span to the DCV maximum flow.

Supply Flow

Shows the supply air flow measured by the VAV Read only

box.

Supply Flow Setpoint

Shows the flow setpoint the damper is controlling Read only

the supply air flow to.

Supply Area

Shows the supply inlet area used to calculate the Adjustable: 0 sq. ft. to

supply flow.

8.0 sq. ft.

Pickup Gain

Shows the K factor for the box. Also used to

Adjustable: 0.1 to 9.9

adjusted the calibrate flow.

Velocity Pressure

Shows the velocity pressure sensed by the VAV Read only

box.

Auto Calibration Command This feature drives the VAV box damper shut and Adjustable: False/True

when it is shut, it offsets the differential pressure

sensor so that it reads zero.

Auto Calibration Status

The current status of the automatic calibration Read only

mode.

Auto Calibration Offset

The resulting offset of the differential pressure Read only

sensor after an automatic calibration.

Verasys System User's Guide

Table 18: ZEC510 objects and parameters

Menu Commissioning: Load Shed
Commissioning: DCV11

Object or Parameter

Description

Adjustable

Load Shed Adjust

This sets how the setpoint moves when a load Adjustable: 0�F to 8�F

shed command is issued. For example, if the

Occupied Cooling Setpoint is 72�F, the cooling

setpoint moves towards 76�F if the adjustment

is set to four. If the Occupied Heating Setpoint is

70�F, the heating setpoint moves towards 66�F.

Load Shed Rate Limit

This sets the rate at which the controller adjusts Adjustable: 0 to 1�F/

the setpoint until it hits the load shed adjust.

min

Load Shed Allowed

Enables the user to remove zones from the load Adjustable: False/True

shed command. Set this to false and the zone is

removed from a load shed.

Load Shed Active

Shows the current command for a load shed

Read only

event.

Demand Ventilation Indoor Sets the point where the CO2 level starts demand Adjustable: 0 ppm to

Air Quality Setpoint

control ventilation. Above this level the zone

5,000 ppm

switches to DCV and starts using the DCV

positions. When you exceed this limit it issues a

DCV call to the rooftop unit if DCV is enabled on

the RTU.

Indoor Air Quality Prop

Sets the rate at which the damper goes from

Adjustable: 0 ppm to

Band

minimum to maximum position. For example: If 1,000 ppm

set at 400ppm and the indoor air quality setpoint

is at 700ppm, the sensor needs to reach 1100ppm

in order for the maximum position to be set. The

controller proportionally opens until it reaches

that point.

Ventilation Timer

This timer starts when you fall below the demand Adjustable: 5 min to 30

ventilation indoor air quality setpoint and after min

this time expires, the DCV call to the rooftop unit

expires and goes back to economizer minimum

position.

Verasys System User's Guide

Table 18: ZEC510 objects and parameters

Menu Control Setup

Object or Parameter System Mode Control Application Type
Unit Enable Power Fail Restart Enable Warmer/Cooler Adjust Enable DCV Enable
Temp Occ Enable
Zone Weight
Zone Vote Allowed Lockout Enable Lockout Time Occupancy Mode
Auto Tuning Enable

Description Shows the current mode of the system. This parameter sets the type of box heating installed.
Important: When you change this parameter, the controller reboots and all other parameter settings are lost.

Adjustable Read only Adjustable: Incremental/Staged/ Proportional SCR

Enables or shuts down the zone control.

Adjustable: Enable/

Shutdown

When the power fails, the controller delays 5

Adjustable: Enable/

minutes before it comes back operational. This is Disable

done so electrical demand is not spiked.

Enables the warmer/cooler adjustment to offset Adjustable: False/True

the current setpoint.

When set to CO2 the DCV section in commissioning appears and a CO2 sensor, when connected, controls the zone damper to add

Adjustable: None/CO2

more ventilation when the CO2 demand increases above setpoint.

Temporary Occupancy. If enabled, any

Adjustable: Enable/

adjustment to the zone sensor during the

Disable

unoccupied mode places the zone in the occupied

state and this parameter sets to true. In addition

the zone coordinators Network Temporary

Occupancy Request parameter sets to true

and the unit starts and run for the temporary

occupancy duration. Setting the parameter to

disable does not allow this function to take place

for this zone.

Enables the user to increase the importance

Adjustable: 0 to 3

of a zone. For example, if zone weight is set to

three, it counts the vote of the zone three times

as much than a zone set to one. This parameter

only shows up on COBP systems.

Enables the user to remove a zone from voting. Adjustable: False/True

This parameter only shows up on change over

bypass systems.

This parameter enables or disables the rogue

Adjustable: Disable/

zone logic that takes a zone out of voting if it

Enable

remains far away from the setpoint for too long.

If the zone stays 3�F away from temperature

Adjustable: 15 min to

setpoint for this duration, the zone is removed 90 min

from the voting until the zone gets back in range

at some point.

When set to Schedule the zone switches

Adjustable: External/

occupancy state, using the occupancy schedule of Schedule

the zone coordinator only. When set to External,

the controller reads the occupancy sensor contact

and toggle between occupancy setpoints and

standby setpoints during occupied mode of the

schedule. When the schedule is unoccupied the

unit switches to unoccupied setpoint and turns

off.

Allows PRAC+ auto tuning algorithm to

Adjustable: Enable/

continuously tune the loops in the controller.

Disable

Setting this to Disable turns off this feature.

Verasys System User's Guide

Table 18: ZEC510 objects and parameters

Menu Control Setup (continued)

Object or Parameter PID Tuning Reset Power Fail Restart Time Standalone Mode
Occ Min Flow 1
SAT Limit Control High SAT Limit Setpoint Zone Group Number

Description

Adjustable

Resets the PRAC+ tuning to the default values. Adjustable: Enable/

Disable

Use this parameter to set how long the control Adjustable: 30 s to 600

remains idle before starting after a power loss. s

Use this parameter to set whether the controller Adjustable: Off/On

is in standalone mode and determines occupancy

based on flow, or it is connected to a BAS. If the

ZEC is connected to a zone coordinator as part of

a Verasys zoning system, set standalone mode to

off.

Use this parameter in standalone mode to set the Adjustable: 0 cfm to

minimum expected flow when the RTU or AHU 1,000 cfm

is running. The box flow must be greater than

this parameter for the ZEC to switch to occupied

mode.

Use this parameter to enable the checking of

Adjustable: False/True

supply air that enters the VAV box and to disable

box heating if the supply air temperature exceeds

the setpoint.

Configure this setpoint when you enable SAT limit Adjustable: 50�F to

control. If the supply air temperature exceeds this 150�F

setpoint, box heating is disabled because the RTU

or AHU already supplies hot air.

Use this parameter to indicate to the VZC100 the Adjustable: 1 to 4

group schedule that this zone follows. You can

choose from four independent schedules.

Verasys System User's Guide

Table 18: ZEC510 objects and parameters

Object or Parameter

Equipment Setup Min Valve Position

Max Valve Position

Box Heating Stroke Time
Supplemental Heating Stroke Time Actuator Stroke Time
Damper Direction to Close
Box Heating Polarity
Supplemental Heating Polarity
Number of Heating Stages Installed Fan Control Type

Description Use this parameter to set the position of the heating valve when no heat is needed.

Adjustable Adjustable: 0% to 100%

Note: This parameter is used for proportional SCR heat.

Use this parameter to set the position of the heating valve when maximum heat is needed.

Adjustable: 0% to 100%

Note: This parameter is used for proportional SCR heat.

Sets the actuator stroke time for the incremental heating valve. Sets the actuator stroke time for the incremental supplemental heating valve. Sets the damper actuator stroke time.
Note: The ZEC510 actuator is a 60-second motor.

Adjustable: 30 s to 120 s
Adjustable: 30 s to 120 s
Adjustable: 30 s to 120 s

Sets the direction to close the zone damper.

Adjustable: clockwise/

counter clockwise

Reverses the direction of the incremental heating Adjustable: Normal/

valve. You can either switch this or reverse the Reverse

wiring to the actuator.

Reverses the direction of the incremental

Adjustable: Normal/

supplemental heating valve. You can either switch Reverse

this or reverse the wiring to the actuator.

Sets the number of box heating stages.

Adjustable: 0 - 2

Sets the type of fan for the VAV Box.

Adjustable: � None � Parallel � Series

SAT Offset
ZNT Sensor Offset CO2 Altitude Compensation
IAQ Offset
Heating Priority
Heating Stage Command 1 Polarity
Heating Stage Command 2 Polarity
Heating Stage Command 3 Polarity

Used to calibrate the supply air temperature sensor.
Used to calibrate the zone temperature sensor.
Altitude compensation used to calibrate the Netstat CO2 sensor.
Used to Calibrate the CO2 Sensor. Only used for hardwired CO2 sensors not Netstat.
Use this parameter to set whether to use box heat or supplemental heat first when both are installed.
Use this parameter to set the output action to either normally open or normally closed for heating stage 1.
Use this parameter to set the output action to either normally open or normally closed for heating stage 2.
Use this parameter to set the output action to either normally open or normally closed for heating stage 3.

Adjustable: -5�F to 5�F
Adjustable: -5�F to 5�F Adjustable: 700 hPa to 1,200 hPa Adjustable: -250 ppm to 250 ppm Adjustable: Box/ Supplemental
Adjustable: Normal/ Reverse
Adjustable: Normal/ Reverse
Adjustable: Normal/ Reverse

Verasys System User's Guide

Table 18: ZEC510 objects and parameters

Object or Parameter

Description

Adjustable

Controller

Firmware Version

Displays the firmware version of the controller. Read only

Application Version

This string indicates the build number for the

Read only

current application.

Application Name

This string indicates the name of the application Read only

that is loaded on the controller.

Address

Shows the address of the controller. The address Read only

is set by the dip switches on the controller.

Unit Model Number

Shows the model number of the controller.

Read only

Trends

Zone Temperature

288 samples are taken at a 15 minute period.

Read only

Indoor Air Quality

288 samples are taken at a 15 minute period.

Read only

Supply Air Temperature

288 samples are taken at a 15 minute period.

Read only

Heating Percent Command 288 samples are taken at a 15 minute period.

Read only

Supplemental Heating

288 samples are taken at a 15 minute period.

Read only

Percent Command

Heating Stage Command 1 10 samples total. 1 sample taken every change of Read only

value.

Heating Stage Command 2 10 samples total. 1 sample taken every change of Read only

value.

Fan Command

10 samples total. 1 sample taken every change of Read only

value.

Supplemental Heating

10 samples total. 1 sample taken every change of Read only

Stage Command

value.

Supply Flow

288 samples are taken at a 15 minute period.

Read only

1 In order for Commissioning: DCV tab to appear you must set the DCV Enable parameter to CO2.

Verasys System User's Guide

Table 19: ZEC310 parameters and objects

Menu Home Page

Object or Parameter

Description

Adjustable

Zone Temperature

Zone temperature reading from the zone sensor. Read only

Active Setpoint

This is the setpoint the zone is controlling to

Read only

taking into account occupancy and the warmer/

cooler adjustment.

Operational Occupancy

This is the commanded occupancy from the zone Read only

coordinator. The zone is either in an occupied,

unoccupied or standby state. Temporary

occupancy can switch this from unoccupied to

occupied. If a motion sensor is connected and

motion is not sensed, it switches to standby.

Zone Vote

This is the vote sent to the zone coordinator. The Read only

vote is either for Urgent Heat, Heat, Satisfied,

Cool or urgent Cool. The zone coordinator

determines what state the unit controls to, based

on all of the votes from the zones.

Damper Position

The commanded position of the zone damper. Read only

Temp OCC

Temporary Occupancy. If enabled, any

Read only

adjustment to the zone sensor during the

unoccupied mode places the zone in the occupied

state and this parameter sets to true. In addition

the zone coordinators Network Temporary

Occupancy Request parameter sets to true

and the unit starts and run for the temporary

occupancy duration.

Warmer/Cooler Adjustment The output value of the adjustment knob at

Read only

the zone sensor. The range of this adjustment

is set by the warmer/cooler adjustment range

parameter.

Damper Mode

Indicates the mode of the zone damper. It can Read only

be heating, cooling, satisfied, or temperature

unreliable.

Network Override Supply This is the supply air temperature as measured by Read only

Air Temperature

the RTU and shared over the network to the ZEC

through the VZC100.

Heating PID Saturation

This parameter indicates the status of the PID Read only

Status

loop for heating. Normal indicates normal

control, timing high is when the heating loop is

at 100% and high is when the loop is at 100% for

more than 5 minutes.

Cooling PID Saturation

This parameter indicates the status of the PID Read only

Status

loop for cooling. Normal indicates normal control,

timing high is when the cooling loop is at 100%

and high is when the loop is at 100% for more

than 5 minutes.

100

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Table 19: ZEC310 parameters and objects

Menu Setpoints

Object or Parameter Occupied Cooling Setpoint
Occupied Heating Setpoint
Unoccupied Cooling Setpoint Unoccupied Heating Setpoint
Standby Cooling Setpoint

Standby Heating Setpoint

Warmer/Cooler Adjust Range

Commissioning: Damper Cooling Min

Flow

Position

Damper Heating Min Position

Damper Max Position

Damper Satisfied Min Position
Commissioning: Load Shed Adjust Title 24 Load Shed

Load Shed Rate Limit Load Shed Allowed
Load Shed Active

Description

Adjustable

When occupied, the thermostat controls cooling Adjustable: 46�F to

to this level. Set above occupied heating setpoint. 99�F.

Defaults to 72�F.

When occupied, the thermostat controls heating Adjustable: 45�F to

to this level. Set below occupied cooling setpoint. 98�F

Defaults to 68�F.

When unoccupied, the thermostat controls

Adjustable: 46�F to

cooling to this level. Defaults to 80�F.

99�F

When unoccupied, the thermostat controls

Adjustable: 45�F to

heating to this level. Set below unoccupied

98�F

cooling setpoint. Defaults to 60�F.

In order for the standby cooling setpoint to

Adjustable: 46�F to

appear, set the occupancy mode to external.

99�F

When set to external, the zone switches to this

setpoint when motion is no longer sensed and

the unit is occupied. Defaults to 74�F.

In order for the standby heating setpoint to

Adjustable: 45�F to

appear, set the occupancy mode to external.

98�F

When set to external, the zone switches to this

setpoint when motion is no longer sensed and

the unit is occupied. Defaults to 66�F.

This is the range that the warmer cooler

Adjustable: 0�F to 5�F

adjustment on the sensor can affect the

setpoint. Setting it to zero means the user has no

adjustment at the sensor. Default is 3�F.

Sets the minimum position that the damper

Adjustable: 0% to 100%

adjust to when the damper is cooling. Default is

50%.

Sets the minimum position that the damper

Adjustable: 0% to 100%

adjusts to when the damper is heating. Default is

50%.

This sets the maximum that the damper can

Adjustable: 0% to 100%

open. Use this to reduce flow or noise. Default is

100%.

Sets the minimum position that the damper

adjusts to when the damper is satisfied. Default is

10%.

The sets how the setpoints move when a load Adjustable: 0�F to 8�F

shed command is issued. For example, if the

Occupied Cooling Setpoint is 72�F the cooling

setpoint moves towards 76�F if the adjustment

is set to four. If the Occupied Heating Setpoint is

70�F the heating setpoint moves towards 66�F.

This sets the rate at which the controller adjusts Adjustable: 0 to 1�F/

the setpoint until it hits the load shed adjust.

min

The user can remove zones from the load shed Adjustable: False/True

command. Set this to false and the zone is

removed from a load shed.

Shows the current command for a load shed

Read only

event.

Verasys System User's Guide

101

Table 19: ZEC310 parameters and objects

Commissioning:

DCV

1
1

Object or Parameter

Description

Adjustable

Demand Ventilation Indoor Sets the point where the CO2 level starts demand Adjustable: 0 ppm to

Air Quality Setpoint

control ventilation. Above this level the zone

5,000 ppm

switches to DCV and starts using the DCV

positions. When you exceed this limit it issues a

DCV call to the rooftop unit if DCV is enabled on

the RTU.

Indoor Air Quality Prop

Sets the rate at which the damper goes from

Adjustable: 0 ppm to

Band

minimum to maximum position. Example: If set 1,000 ppm

at 400ppm and the indoor air quality setpoint is

at 700ppm, the sensor needs to reach 1100ppm

in order for the maximum position to be set. The

controller proportionally opens until it reaches

that point.

Ventilation Timer

This timer starts when you fall below the demand Adjustable: 5 min to 30

ventilation indoor air quality setpoint and after min

this time expires the DCV call to the rooftop unit

expires and goes back to economizer minimum

position.

DCV Cooling Min Value

The minimum damper position when cooling

Adjustable: 0% to 100%

during a demand ventilation control state.

DCV Heating Min Value

The minimum damper position when heating

Adjustable: 0% to 100%

during a demand ventilation control state.

DCV Max Vent Position

The maximum ventilation position. As determined Adjustable: 0% to 100%

by the setpoint and proportional band, this is

the maximum position to set the ventilation. For

example, if this is set to 50% and the controller is

requiring maximum ventilation in the system, the

damper adjusts to 50%. However, if the system

requires more heating or cooling that damper

may open further to the maximum position set in

the Commisioning > Flow section.

102

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Table 19: ZEC310 parameters and objects

Menu Control Setup

Object or Parameter System Mode Unit Enable Power Fail Restart Enable Warmer/Cooler Adjust Enable DCV Enable
Temp OCC Enable
Zone Weight
Zone Vote Allowed Lockout Enable Lockout Time
Occupancy Mode
Auto Tune Enable PID Tune Reset Zone Group Number

Description

Adjustable

Shows the mode of the system.

Read only

Enables or shuts down the zone control.

Adjustable: Enable/

Shutdown

Upon a power fail the controller delays five

Adjustable: Enable/

minutes before it comes back operational. This is Disable

done so electrical demand is not spiked.

The warmer/cooler adjustment to offset the

Adjustable: False/True

current setpoint.

When set to CO2 the DCV section in commissioning appears and a CO2 sensor when connected, controls the zone damper to add

Adjustable: None/CO2

more ventilation when the CO2 demand increases above setpoint.

Setting this parameter to enable means you can Adjustable: Enable/

adjust the zone sensor during the unoccupied Disable

mode, thus placing the zone in the occupied

state. In addition, the zone coordinators Network

Temporary Occupancy Request parameter

sets to true and the unit starts and runs for

the temporary occupancy duration. Setting the

parameter to disable means this function cannot

take place in this zone.

The user can increase the importance of a zone. Adjustable: 0 to 3

For example, if the zone weight is set to three, it

counts the vote of the zone three times as much

than a zone set to one.

The user can remove a zone from voting.

Adjustable: False/True

This parameter enables or disables the rogue

Adjustable: Disable/

zone logic that takes a zone out of voting if it

Enable

remains far away from the setpoint for too long.

If the zone stays at 3�F away from the

Adjustable: 15 min to

temperature setpoint, the zone is removed from 90 min

the voting until the zone gets back in range at

some point.

When set to schedule, the zone switches

Adjustable: External/

occupancy state using the occupancy schedule of Schedule

the zone coordinator only. When set to external,

the controller looks at the occupancy sensor

contact and toggle between occupancy setpoints

and standby setpoints during occupied mode of

the schedule. When the schedule is unoccupied

the unit switches to unoccupied setpoint and turn

off.

Allows PRAC+ auto tuning algorithm to

Adjustable: Enable/

continuously tune the loops in the controller.

Disable

Setting this to disable turns off this feature.

Resets the PRAC+ tuning to the default values. Adjustable: Enable/

Disable

Use this parameter to indicate to the VZC100 the Adjustable: 1 to 4

group schedule that this zone follows. You can

choose from four independent schedules.

Verasys System User's Guide

103

Table 19: ZEC310 parameters and objects

Object or Parameter

Equipment Setup Min Valve Position

Description Use this parameter to set the position of the heating valve when no heat is needed.

Adjustable Adjustable: 0% to 100%

Note: This parameter is used for proportional SCR heat.

Max Valve Position

Use this parameter to set the position of the heating valve when maximum heat is needed.

Adjustable: 0% to 100%

Note: This parameter is used for proportional SCR heat.

Box Heating Installed

Use this parameter to specify whether box

Adjustable: No/Yes

heating is installed.

Supplemental Heating

Use this parameter to specify whether

Adjustable: No/Yes

Installed

supplemental heating is installed.

Actuator Stroke Time

Sets the damper actuator stroke time. Note: The Adjustable: 30 s to 120

ZEC310 actuator is a 60 second motor.

Damper Direction to Close Sets the direction to close the zone damper.

Adjustable: clockwise/

counter clockwise

ZNT Sensor Offset

Used to calibrate the zone temperature sensor. Adjustable: -5�F to 5�F

Controller

Firmware Version

Displays the firmware version of the controller. Read only

Application Name

Displays the name of the application.

Read only

Application Version

Displays the version of the application.

Read only

Address

Shows the address of the controller. The address Read only

is set by the dip switches on the controller.

Unit Model Number

Shows the model number of the controller.

Read only

Trends

Zone Temperature

288 samples are taken at a 15 minute period.

Read only

Indoor 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 20: TEC363x objects and parameters

Menu Home Page

Object or Parameter Zone Temperature
Operating Setpoint
Occupied Status Unit Status
Fan Status Cooling Status Heating Status Supply Air Temperature Outdoor Air Temperature Alarms

Description

Adjustable

On the edge of the circle of comfort, the zone temperature reading from the zone sensor

Read only

appears in one of the outer circles.

Inside the circle of comfort, this is the setpoint the Read only zone controls to, taking into account occupancy

and the warmer/cooler adjustment.

Inside the circle of comfort, the unit occupancy status appears.

Read only

Inside the circle of comfort, the unit status

Read only

shows the current status of the unit. If the unit is satisfied or off, the circle appears gray. If the unit

is in cooling, the circle appears blue. If the unit is in heating, the circle appears red.

Arrows rotate around the circle when the fan is Read only

on.

Shows the cooling status of the unit.

Read only

Shows the heating status of the unit.

Read only

Shows the supply air temperature of the unit.

Read only

If install shows the outside air temperature.

Read only

The Alarms tab displays all alarms that are active. Read only Click on All Alarms to see the history of alarms.

104

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Table 20: TEC363x objects and parameters

Menu Overview

Object or Parameter Setpoint Offset
Hold/Run Active Setpoint Unit Enable Fan Override

Description

Adjustable

This object shows how much was added or

Adjustable: MAX

subtracted to the setpoint by the up/down arrows Setpoint Offset sets

on the front screen. It is adjustable and the limit range

is adjustable by the MAX Setpoint Offset value.

If set to hold, the thermostat controls to this setpoint until it is placed back to run.

Adjustable: Hold/Run

This is the setpoint the zone controls to, taking into account occupancy and the warmer/cooler adjustment.

Read only

Enables or shuts down the unit. If set to Shutdown, the unit remains off until set to enable.

Adjustable: Enable/ Shutdown

� If set to On, the fan turns to keep the fan Adjustable: On/Auto/

on.

Quiet

� If set to Auto, it follows the fan mode set under the General Settings menu.

� If set to Quiet, it follows the fan mode set under the General Settings menu, but keeps multi-speed and variable-speed fans at their lowest speeds. This option is the same as Auto for single-speed fans. For the TEC3x3x models the Quiet Mode does not apply.

Effective Zone Temperature The current zone temperature for the zone.

Units Status

Displays if the controller is cooling, heating, idle,

disabled, or the reason why cooling and heating

is unavailable.

Occupancy Status

Displays the effective occupancy state for the

controller.

Read only Read only
Read only

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105

Table 20: TEC363x objects and parameters

Menu Setpoints

Object or Parameter Occupied Cooling Setpoint
Occupied Heating Setpoint
Unoccupied Cooling Setpoint Unoccupied Heating Setpoint
Standby Cooling Setpoint

Standby Heating Setpoint

Occ Setpoint Select Heat Cool Setpoint Mode Schedule: Options Optimal Start Enable

Temp Occ Duration
Motion Sensor Timeout Manual Occupancy Mode Schedule Source

Description

Adjustable

When occupied, the thermostat controls cooling Adjustable: 60.0�F to

to this level. Set above occupied heating setpoint. 100.0�F

Defaults to 72�F.

When occupied, the thermostat controls heating Adjustable: 45.0�F to

to this level. Set below occupied cooling setpoint. 85.0�F

Defaults to 68�F.

When unoccupied, the thermostat controls

Adjustable: 60.0�F to

cooling to this level. Defaults to 80�F.

100.0�F

When unoccupied, the thermostat controls

Adjustable: 45.0�F to

heating to this level. Set below unoccupied

85.0�F

cooling setpoint. Defaults to 60�F.

In order for the standby cooling setpoint to

Adjustable: 60.0�F to

appear, set the occupancy mode to external.

100.0�F

When set to external, the zone switches to this

setpoint when motion is no longer sensed and

the unit is occupied. Defaults to 74�F.

In order for the standby heating setpoint to

Adjustable: 45.0�F to

appear, set the occupancy mode to external.

85.0�F

When set to external, the zone switches to this

setpoint when motion is no longer sensed and

the unit is occupied. Defaults to 66�F.

You can use this parameter to choose whether Adjustable: Setpoint

setpoints shift up and down together with the Offset/Min and Max

same range or if they should have separate

Setpoint

minimum and maximum values.

Option to switch between distinct heating and Adjustable: Individual

cooling setpoints or a common setpoint with

Setpoints/Common

user-defined deadband.

Setpoint

Enables or disables the optimal start algorithm Adjustable: No/Yes

to automatically start the equipment prior to

the scheduled occupancy period. It does this in

order to reach the occupied setpoint. At the same

time the schedule transitions from unoccupied to

occupied. Setting this option to yes only has an

effect when the local schedule is used.

Sets the duration for which the controller remains Adjustable: 0 min to

in a temporary occupancy period that is triggered 300 min

during an unoccupied period. Temporary

occupancy is triggered by interacting with the

touch screen while unoccupied or by activating a

binary input configured for temporary occupancy.

Sets how long the controller waits to return to Adjustable: 0 min to

standby mode after the last detection of motion 240 min

while in a scheduled occupied period. Setting the

timeout to zero minutes disables standby mode.

Use this mode to override all schedules and

Adjustable: No

other sources of occupancy. You can also put

Override/Occupied/

the controller indefinitely into an occupied or

Unoccupied

unoccupied state.

Sets the source of the occupancy schedule on the Adjustable: External/

TEC. Setting to Local utilizes the internal 7-day Schedule

programmable schedule, and setting to External

uses the command from a BAS if it is online. If the

BAS is offline, the schedule reverts to the onboard

schedule.

106

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Table 20: TEC363x objects and parameters

Menu Display Settings

Object or Parameter Passcode Enabled
Brightness Setting Enable Backlight Timeout Language Units Time Time Zone

Description

Adjustable

Setting this to True means you can enter a 4-digit Adjustable: 4 Digit

passcode into the configuration menu. You can Code

only define a passcode via the local display.

Sets the brightness of the display when you are Adjustable: Range 0 -

interacting with the display.

Sets whether the backlight should timeout and go Adjustable: No/Yes

to low brightness after three minutes.

Sets the language shown on the screens.

Adjustable: English/

French/Spanish

Sets Imperial (IP) or Metric (SI) units on the

Adjustable: IP/SI

display and exposed to a BAS.

Sets the time on the controller.

Read only

Sets the time zone where the controller is

Adjustable: Varies

installed.

Note: Some time zones display No DST. This stands for daylight savings time.

Set Time Format Date Set Date Format Show Fan Icon On Home
Show Temp On Home Show Humidity On Home
Show Off Button On Home Show Hold Button
Show Setpoint On Home Show Alarms On Home Show Occ Status Show Unit Status Show Date/Time

Sets the display time format on the controller. Adjustable: 12 Hour/24

Hour

Sets the date on the controller.

Read only

Sets the display date format on the controller. Adjustable

Sets whether the user fan override option is

Adjustable: No/Yes

available on the home screen. This means you

can select the fan mode overrides from the home

screen.

Sets whether the current zone temperature is Adjustable: No/Yes

displayed on the home screen.

Sets whether the current zone humidity is

Adjustable: No/Yes

displayed on the home screen. Humidity is always

displayed when the setting is enabled on a

thermostat controller with a built-in humidity

sensor. The humidity is displayed when a network

override is active on thermostat controllers

without a built-in humidity sensor.

Sets whether the master control On/Off icon is Adjustable: No/Yes

displayed on the home screen.

Sets whether the Hold/Run icon is displayed on Adjustable: No/Yes

the home screen. The Hold/Run icon is the square

around the zone setpoint on the right side of the

screen.

Sets whether the current zone temperature

Adjustable: No/Yes

setpoint is displayed on the home screen.

Sets whether the current alarm symbol is

Adjustable: No/Yes

displayed on the home screen when warnings or

alarms are active.

Sets whether the current occupancy status shows Adjustable: No/Yes

on the home screen.

Sets whether the operational status of the

Adjustable: No/Yes

controller shows on the home screen.

Sets whether the date and time show on the

Adjustable: No/Yes

home screen.

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Table 20: TEC363x objects and parameters

Menu Control Setup: General

Object or Parameter Control Mode

Unit Enable

Fan Mode

Max Setpoint Offset
Fan On Delay Fan Off Delay Frost Protection
Reset PID Tuning Auto Tuning Enable
Aux Mode

Load Shed Adjust Load Shed Rate Limit

Description

Adjustable

Sets the thermostat to operate only in cooling Adjustable: Auto/

or heating modes, or to automatically switch

Heating/Cooling

between cooling and heating based on the zone

temperature.

Enables or disables the control. This option is

Adjustable: Enable/

linked to the Off/On icon on the home screen. Shutdown

The home screen fan override can still turn the

fan on when Unit Enable = False

Sets the operational mode of the fan. The options Adjustable: On/Auto/

include: On - The fan runs continuously unless control is disabled. Auto - The fan cycles with the equipment stages. Smart - The fan operates continuously while occupied, and follows the Auto mode when unoccupied.

Smart

Sets the maximum deviation above or below the Adjustable: Range 0 to

active programmed setpoint that the user can set 20

from the home screen.

Sets how long the fan waits to turn on after

Adjustable: Range: 0 s

turning on a stage of heating or cooling.

- 120 s

Sets how long the fan waits to turn off after

Adjustable: Range: 0 s

turning off the last stage of heating or cooling. - 120 s

Prompts the controller to turn on heating

Adjustable: No/Yes

when the zone temperature drops below 42�F

regardless of whether the control is enabled.

Resets the PRAC+ tuning parameters of the PID Adjustable: No/Yes

controllers to the factory defaults.

Enables the PRAC+ auto tuning algorithm to

Adjustable: No/Yes

adjust PID tuning parameters for optimal control

performance.

Sets the mode that the auxiliary output runs in. Adjustable: Not

Options include:

Used / Occupied

Not Used - Opens the contact. Occupied NO - Closes the contact when the controller is occupied. Occupied NC - Opens the contact when the

NO / Occupied NC / Occupied Fan NO / Occupied Fan NC / Off / On

controller is occupied.

Occupied Fan NO - Closes the contact when the controller is occupied and the fan is running.

Occupied Fan NC - Opens the contact when the controller is occupied and the fan is running.

Off - Opens the contact.

On - Closes the contact.
This sets how the setpoints move when a load shed command is issued. For example, if the Occupied Cooling Setpoint is 72�F the cooling setpoint moves towards 76�F if the adjustment is set to four. If the Occupied Heating Setpoint is 70�F the heating setpoint moves towards 66�F.
This sets the rate at which the controller adjusts the setpoint until it hits the load shed adjust.

Adjustable: Range: 0�F - 8�F
Adjustable: Range: 0�F/ min - 1 �F/min

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Table 20: TEC363x objects and parameters

Menu
Control Setup: General (continued)

Object or Parameter Fan Alarm Delay
Fan Alarm Action

Fan Alarm Reset

Fan Runtime Limit

Fan Runtime Reset
Supply Air Temperature Alarm Offset

Description

Adjustable

If the binary inputs are set to supply fan status, Adjustable: Range 0

the controller uses this delay parameter to delay min to 5 min

a supply fan alarm. If set to zero the alarm turns

off.

When the supply fan alarm delay is above zero Adjustable: Range: 0 s

this parameter appears. This sets the action of - 300 s

the controller once a fan alarm is sensed.

When the supply fan alarm delay is above zero, Adjustable: No/Yes

this parameter appears. You can reset the fan

alarm here, once it has been triggered.

The fan runtime limit is used to set a periodic

Adjustable: Range 0

alarm for maintenance. Set the number of hours hrs to 9000 hrs

you want the fan to run for and after the limit is

reached, an alarm generates. At this time perform

the maintenance (i.e. change the filters, clean the

coils) and then reset the alarm. Set this to zero

when you want to disable it.

This parameter appears when the runtime limit is Adjustable: No/Yes

above zero. It is used to reset the runtime alarm.

Defines the minimum change in supply air

Adjustable: 0 delta �F

temperature when heating or cooling is active. to 10 delta �F

If this offset is not exceeded within the delay, an

alarm occurs.

Note: You can disable the alarm if you set this parameter to 0.

Supply Air Temperature Alarm Delay

If the Supply Air Temperature Alarm Offset is

Adjustable: 300 s to

greater than 0, the supply air temperature alarm 3,600 s

is enabled. Use this parameter to set how long to

delay the supply air temperature alarm.

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Table 20: TEC363x objects and parameters

Menu Control Setup: Inputs

Object or Parameter BI1 Config BI2 Config

Description

Adjustable

Sets the mode that the binary input operates in. Adjustable:

� Occupancy � Direct override of Occupied/ � Disabled

Unoccupied

� Occupancy

� Temp Occ � Trigger to place controller into � Temp Occ

Temporary Occupancy mode

� Motion NO

� Motion NO � External motion sensor with � Motion NC

an open contact output when no motion is detected

�

Dirty Filter

� Motion NC � External motion sensor with � Service

a closed contact output when no motion is � Open Door

detected

� Open Window

� Dirty Filter � Input from the equipment to � Supply Fan

display a dirty filter fault on the thermostat

Status

� Service � Input from the equipment to display a service warning on the thermostat

� Fan Lock � Air proof switch input to shut down control if no airflow is detected within ten seconds of turning the fan on

� Open Door � Works in conjunction with the Motion NO/Motion NC sensor to control occupancy

� Open Window � Sensor to shut down control if a window is opened. The controller disables control 60 seconds after detecting an opened window.

� Supply Fan Status - Connect a current relay or air proving switch to the input for proof of fan. If the fan alarm delay is set above zero the controller issues an alarm if the commanded value does not match the measured value.

Supply Temp Sensor Supply Temp Offset

Sets the type of analog supply temperature sensor connected to the controller.
Sets the offset applied to the supply/discharge temperature reading.

Adjustable: Nickel/ Platinum/A99B/2.25K NTC/10K NTC/10K NTC Type 3
Adjustable: Range: -5.0 - 5.0

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Table 20: TEC363x objects and parameters

Object or Parameter

Control Setup: Zone Temp Sensor

Inputs (continued)

Zone Temp Offset Outdoor Air Temp Sensor

Outdoor Air Temp Offset Reset Sensors
Zone Temp Alarm Enabled

Zone Temp Low Limit Zone Temp High Limit

Description Sets the type of analog zone temperature sensor connected to the controller.
Sets the offset applied to the zone temperature displayed on the screen and used for control. Sets the type of analog outdoor air temperature sensor connected to the controller.
Sets the offset applied to the outdoor temperature reading. Resets sensor inputs back to factory state. This clears alarms for sensors which were connected at one point and are no longer connected. If set to yes, the controller evaluates the zone temperature and issues an alarm if the zone temperature rises about the high limit or falls below the low limit. Appears when the zone temperature alarm is set to yes. Use this to set how low the zone temp drops before an alarm issues. Appears when the zone temperature alarm is set to yes. Use this to set how high the zone temp rises before an alarm issues.

Adjustable Adjustable: Nickel/ Platinum/A99B/2.25K NTC/10K NTC/10K NTC Type 3 Adjustable: -5.0 to 5.0
Adjustable: Nickel/ Platinum/A99B/2.25K NTC/10K NTC/10K NTC Type 3 Adjustable: -5.0 to 5.0
Adjustable: No/Yes
Adjustable: No/Yes
Adjustable: 32�F to 150�F
Adjustable: 32�F to 150�F

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Table 20: TEC363x objects and parameters

Menu Control Setup: Tuning

Object or Parameter Temp Control Setup

Description

Adjustable

Sets Automatic PID Tuning, Manual PID Tuning, Adjustable: Automatic

Deadband Override, or On/Off Control (On/Off PID Tuning/Deadband

Control is available for units with staged control Override/Manual

outputs only).

PID Tuning/On Off

� Automatic PID Tuning - uses PRAC+ (all

Control

units) and PMAC (staged units only) to

satisfy zone demand. Works best with

proportional equipment. Also works with

staged equipment in large zones (500 sq ft

or greater) with a single piece of equipment

operating that space.

� Manual PID Tuning - uses manual tuning parameters to satisfy zone demand, similar to Automatic PID Tuning, but parameters need to be manually adjusted per zone.

� Deadband Override - uses PRAC+ (all units) and PMAC (staged units only) to satisfy zone demand. Allows the user to specify the Deadband parameter that PRAC+ and PMAC use.

� On/Off Control - uses a simple deadband and timer to satisfy zone demand (staged equipment only).

Reset PID Tuning
Deadband Auto Economizer Tuning Heat Prop Band Heat Integral Time Heat Process Range
Heat Saturation Time Heat Time Constant
Heat Process Dead Time Heat Period Cool Prop Band Cool Integral Time Cool Process Range

When Reset Tuning is True, causes the PID to reset the Effective Proportional Band and the Effective Integral Time to the values in Proportional Band and Integral Time. Sets the Effective Deadband.
Determines if the adaptive tuning is allowed to operate for the OA damper. Sets the initial Effective Proportional Band.
Sets the initial Effective Integral Time.
Indicates the magnitude of the range that the process variable traverses as the Present Value of the PID varies between its minimum and maximum values. Sets the Effective Saturation Time.
Indicates the time required for a system to reach 63% of its final magnitude given a 100% step change. Indicates the time required for the process to begin to reflect the results of a step change. Sets the Effective Period.
Sets the initial Effective Proportional Band.
Sets the initial Effective Integral Time.
Indicates the magnitude of the range that the process variable traverses as the Present Value of the PID varies between its minimum and maximum values.

Adjustable: No/Yes
Adjustable: 1.4 delta �F to 3 delta �F Adjustable: Disable/ Enable Adjustable: 5 delta �F to 30 delta �F Adjustable: 300 s to 1600 s Adjustable: 10 delta �F to 100 delta �F
Adjustable: 60 s to 900 s Adjustable: 360 s to 1,440 s
Adjustable: 20 s to 120 s Adjustable: 30 s to 120 s Adjustable: 5 delta �F to 30 delta �F Adjustable: 300 s to 1,600 s Adjustable: 10 delta �F to 100 delta �F

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Table 20: TEC363x objects and parameters

Menu
Control Setup: Tuning (continued)

Object or Parameter Cool Saturation Time
Cool Time Constant

Cool Process Dead Time Cool Period Econ Prop Band Econ Integral Time Econ Process Range

Econ Saturation Time Econ Time Constant
Econ Process Dead Time Econ Period Equipment Size Network Setup FC Comm Mode
BACnet Instance ID BACnet Address MSTP Baud Rate
BACnet Encoding Type

Description Sets the Effective Saturation Time.
Indicates the time required for a system to reach 63% of its final magnitude given a 100% step change. Indicates the time required for the process to begin to reflect the results of a step change. Sets the Effective Period.
Sets the initial Effective Proportional Band.
Sets the initial Effective Integral Time.
Indicates the magnitude of the range that the process variable traverses as the Present Value of the PID varies between its minimum and maximum values. Sets the Effective Saturation Time.
Indicates the time required for a system to reach 63% of its final magnitude given a 100% step change. Indicates the time required for the process to begin to reflect the results of a step change. Sets the Effective Period.
Sets the internal zone temperature response. It can be normal (slower) or Oversized (faster). Sets BACnet or N2 communications mode. Only adjustable at the stat. For a Verasys system set this to BACnet. Sets the instance ID of the controller when on a BACnet network. Sets the physical network address on a BACnet network. When set to auto the SBH sets the baud rate for the controller.
Sets the encoding type to use on the BACnet network. Verasys uses ISO 10646 (UCS-2).

Adjustable Adjustable: 60 s to 900 s Adjustable: 360 s to 1,440 s
Adjustable: 20 s to 120 s Adjustable: 30 s to 120 s Adjustable: 5 delta �F to 30 delta �F Adjustable: 300 s to 1,600 s Adjustable: 10 delta �F to 100 delta �F
Adjustable: 60 s to 900 s Adjustable: 360 s to 1,440 s
Adjustable: 20 s to 120 s Adjustable: 30 s to 120 s Adjustable: Normal/ Oversized Read only
Adjustable: 1 to 4,194,303 Adjustable: 0 to 127
Adjustable: Auto/1200/9600/1920 0/38400/76800 Adjustable: ISO 10646 (UCS-2)/ANSI X3.4 (USACSII)

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Table 20: TEC363x objects and parameters

Object or Parameter

Equipment Setup: Number of Compressors

General

Runtime Equalization

Number of Heating Stages

Compressor Min On Time Compressor Min Off Time Heating Min On Time Heating Min Off Time Cooling Lockout Temp
Heating Lockout Temp

Unoccupied Off Delay
Equipment Setup: Economizer Installed Economizer
Minimum Position Closed Voltage Open Voltage Dry Bulb Setpoint

Outdoor Enthalpy Setpoint

Description

Adjustable

Sets the number of compressors in a rooftop unit Adjustable: Not Used/

or heat pump.

One Stage/Two Stage

When enabled, the controller alternates between Adjustable: No/Yes

Y1 and Y2 calls when cycling 2-stage compressors,

to ensure both compressors are equally used.

Sets the number of heat stages in a rooftop unit. Adjustable: Not Used/

This option does not exist on heat pumps. Heat One Stage/Two Stage

Pumps support a single stage of supplemental

heating on top of compressor heating.

Sets the minimum time that a compressor runs Adjustable: 0 s to 360 s

under normal control conditions.

Sets the minimum time that a compressor must Adjustable: 0 s to 360 s

be off for before turning on again.

Sets the minimum time that the heating valve/ Adjustable: 0 s to 360 s

stage is open under normal conditions.

Sets the minimum time that the heating valve/ Adjustable: 0 s to 360 s

stage is closed before opening again.

Sets the outdoor temperature below which

Adjustable: 0�F to

cooling does not run regardless of zone

100�F

temperature.

Sets the outdoor temperature above which

Adjustable: 0�F to

heating does not run regardless of zone

100�F

temperature. Note: Frost Protection overrides

this lockout.

Sets the off delay time that the unit will continue 0 min to 10 min

to heat or cool after demand has been met when

in Unoccupied mode.

Sets if economizer damper control is required on Adjustable: No/Yes

the rooftop or heat pump unit.

Sets the minimum economizer position when the Adjustable: 0% to 100%

fan is running.

Sets the voltage corresponding to the damper Adjustable: 0 V to 10 V

being fully shut.

Sets the voltage corresponding to the damper Adjustable: 0 V to 10 V

being fully opened.

Sets the outdoor air temperature. When in dry Adjustable: 40�F to

bulb mode and the TEC only has outdoor and

80�F

zone temperature, the economizer does not

operate above this temp.

Sets the outdoor air enthalpy. When the TEC has Adjustable: 10 to 50

outdoor temperature, outdoor humidity and zone Btu/lb dry air

temperature, the economizer cooling does not

operate when in single enthalpy mode.

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Table 20: TEC363x objects and parameters

Object or Parameter

Description

Adjustable

Equipment Setup: Heat Pump Supported

Sets whether the W1 output is used to control Adjustable: No/Yes

Heat Pump

a reversing valve (O/B) and if Y1/Y2 controls

compressors for both cooling and heating.

Supp Heating Installed � Sets if a stage of

supplemental heating is connected to the W2

output. Many heat pumps with integrated control

units use traditional thermostat controller

wiring (Y, W, and G inputs). Only set this option

to Yes on the heat pump units where the

thermostat controller controls an O/B input on

the equipment.

Supp Heating Supported Sets the minimum economizer position when the Adjustable: No/Yes

fan is running.

Comp Low Lockout Temp Sets the temperature below which compressor -20�F to 100�F

heating does not run.

Supp High OA Lockout Temp Sets the temperature above which supplemental -20�F to 100�F

heating does not run.

Reverse Valve Polarity

Sets the voltage corresponding to the damper Adjustable: Normal

being fully shut.

Heat/Normal Cool

System Status Occupancy Source

Displays the current source of the TEC controller's Read only

occupancy.

Unit Status

Displays if the controller is cooling, heating, idle, Read only

disabled, or the reason why cooling and heating

is unavailable.

Outdoor Air Temperature If installed, displays the outdoor air temperature Read only

value in the controller.

Supply Air Temperature

If installed, displays the supply air temperature Read only

value in the controller.

Economizer Available

Displays the status if the outdoor conditions are Read only

suitable for economizer cooling.

Cooling OAT Lockout

Displays if cooling is being locked out due to low Read only

outdoor air temperature.

Heating OAT Lockout

Displays if heating is being locked out due to high Read only

outdoor air temperature.

Comp Low OAT Lockout

Displays if compressor heating is locked out due Read only

to low outdoor air temperature.

Zone Temp Source

Displays the source of the zone temperature

Read only

reading in the TEC controller.

Fan Accumulated Runtime Displays the accumulated runtime.

Read only

BI1 Status

Displays the current status of BI1.

Read only

BI2 Status

Displays the current status of BI2.

Read only

Control Status Control % Command

Displays the current PID controller percent

Read only

command.

Heating % Command

Displays the current PID controller percent

Read only

command.

Supplemental Heat %

If supplemental heating is installed, this

Read only

Command

parameter displays the current percent command

for supplemental heating.

Economizer % Command Displays the current PID controller percent

Read only

command.

Cool Stage 1

Displays if the first stage of cooling is on.

Read only

Cool Stage 2

Displays if the second stage of cooling is on.

Read only

Heat Stage 1

Displays if the first stage of heating is on.

Read only

Heat Stage 2

Displays if the second stage of heating is on.

Read only

Fan

Displays the current fan command

Read only

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Table 20: TEC363x objects and parameters

Menu Controller Info
Trends

Object or Parameter

Description

Adjustable

Model Name

Displays the firmware version of the controller. Read only

Software Version

Shows the address of the controller. The address Read only

is set by the dip switches on the controller.

Unit Name

The name of the unit.

Adjustable: 30

characters

Device Name

The name of the device. This name shows up on Adjustable: 30

the device list.

characters

Device Description

The description of the device. This description Adjustable: 30

shows up on the device list.

characters

Effective Zone Temperature 100 samples are taken at a 15 minute period.

Read only

Active Setpoint

100 samples are taken at a 15 minute period.

Read only

Humidity

100 samples are taken at a 15 minute period.

Read only

BI1 Status

100 samples are taken at a 15 minute period.

Read only

BI2 Status

100 samples are taken at a 15 minute period.

Read only

Operational Outdoor Air 100 samples are taken at a 15 minute period.

Read only

Temperature

Supply Air Temperature

100 samples are taken at a 15 minute period.

Read only

Fan Command

25 samples in total. 1 sample taken every change Read only

of value.

Cool Stage 1 On

25 samples in total. 1 sample taken every change Read only

of value.

Cool Stage 2 On

25 samples in total. 1 sample taken every change Read only

of value.

Heat Stage 1 On

25 samples in total. 1 sample taken every change Read only

of value.

Heat Stage 2 On

25 samples in total. 1 sample taken every change Read only

of value.

Economizer PID Cmd

100 samples are taken at a 15 minute period.

Read only

Heat PID Cmd

100 samples are taken at a 15 minute period.

Read only

Cool/Dehum PID Cmd

100 samples are taken at a 15 minute period.

Read only

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu Home Page
Alarms Status: Inputs

Object or Parameter Binary Input 1 Status Binary Input 2 Status Binary Input 3 Status Binary Input 4 Status Analog Input 5 Status Analog Input 6 Status Analog Input 7 Status Analog Input 8 Status Analog Input 9 Status Netsensor 1 Temperature Netsensor 2 Temperature Netsensor 3 Temperature Netsensor 4 Temperature Netsensor 5 Temperature Netsensor 1 Humidity Netsensor 2 Humidity Netsensor 3 Humidity Netsensor 4 Humidity Netsensor 5 Humidity Output 1 Status Output 2 Status Output 3 Status Output 4 Status Output 5 Status Output 6 Status Output 7 Status Output 8 Status Output 9 Status Energy Meter 1 Consumption Energy Meter 2 Consumption Energy Meter 3 Consumption Energy Meter 4 Consumption Alarms Binary Input 1 Status Binary Input 2 Status Binary Input 3 Status Binary Input 4 Status Analog Input 5 Status Analog Input 6 Status Analog Input 7 Status Analog Input 8 Status Analog Input 9 Status

Description The input is defined on the Commissioning tab.
To see the history of alarms, click All Alarms. The input is defined on the Commissioning tab.

Adjustable Read only
Read only Read only

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu Status: Outputs
Status: Netsensor Plug and Play
Summary: General
Summary: Energy Meter 1

Object or Parameter Output 1 Status Output 2 Status Output 3 Status Output 4 Status Output 5 Status Output 6 Status Output 7 Status Output 8 Status Output 9 Status Netsensor 1 Temperature Netsensor 1 Humidity Netsensor 2 Temperature Netsensor 2 Humidity Netsensor 3 Temperature Netsensor 3 Humidity Netsensor 4 Temperature Netsensor 4 Humidity Netsensor 5 Temperature Netsensor 5 Humidity Energy Meter 1 Address Energy Meter 2 Address Energy Meter 3 Address Energy Meter 4 Address Description Peak Demand
Energy Consumption
Voltage Current Frequency Current Demand
Input 1
Input 2
Clear Statistics

Description The input is defined on the Commissioning tab.

Adjustable Read only

The input is defined on the Commissioning tab.

Read only

Sets the address of the energy meter.

Adjustable: Enter the last 3 digits of the serial number.

Sets the name of the energy meter. Shows the maximum amount of energy consumed in the demand window time. Shows the electrical meter consumption since the last reset. Shows the average voltage of the meter phases. Shows the average current of the meter phases. Shows the measured frequency of the signal. Shows the amount of energy consumed in the demand window time. If present, shows the consumption of the pulse meter hooked to input 1. The input is defined on the Commissioning tab. If present, shows the consumption of the pulse meter hooked to input 2. The name of the input is defined under the Commissioning tab. Clears or resets the statistics of the meter.

Adjustable Read only
Adjustable: True/False

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu Summary: Energy Meter 2

Object or Parameter Description Peak Demand

Energy Consumption

Voltage Current Frequency Current Demand

Input 1

Input 2

Summary: Energy Meter 3

Clear Statistics Description Peak Demand

Energy Consumption

Voltage Current Frequency Current Demand

Input 1

Input 2

Summary: Energy Meter 4

Clear Statistics Description Peak Demand

Energy Consumption

Voltage Current Frequency Current Demand

Input 1

Input 2

Clear Statistics

Description Sets the name of the energy meter. Shows the maximum amount of energy consumed in the demand window time. Shows the electrical meter consumption since the last reset. Shows the average voltage of the meter phases. Shows the average current of the meter phases. Shows the measured frequency of the signal. Shows the amount of energy consumed in the demand window time. If present, shows the consumption of the pulse meter hooked to input 1. The input is defined on the Commissioning tab. If present, shows the consumption of the pulse meter hooked to input 2. The name of the input is defined under the Commissioning tab. Clears or resets the statistics of the meter. Sets the name of the energy meter. Shows the maximum amount of energy consumed in the demand window time. Shows the electrical meter consumption since the last reset. Shows the average voltage of the meter phases. Shows the average current of the meter phases. Shows the measured frequency of the signal. Shows the amount of energy consumed in the demand window time. If present, shows the consumption of the pulse meter hooked to input 1. The input is defined on the Commissioning tab. If present, shows the consumption of the pulse meter hooked to input 2. The input is defined on the Commissioning tab. Clears or resets the statistics of the meter. Sets the name of the energy meter. Shows the maximum amount of energy consumed in the demand window time. Shows the electrical meter consumption since the last reset. Shows the average voltage of the meter phases. Shows the average current of the meter phases. Shows the measured frequency of the signal. Shows the amount of energy consumed in the demand window time. If present, shows the consumption of the pulse meter hooked to input 1. The input is defined on the Commissioning tab. If present, shows the consumption of the pulse meter hooked to input 2. The input is defined on the Commissioning tab. Clears or resets the statistics of the meter.

Adjustable Adjustable Read only
Adjustable: True/False Adjustable Read only
Adjustable: True/False Adjustable Read only
Adjustable: True/False

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Object or Parameter Description

Adjustable

Commissioning: Description

Sets the name of the energy meter.

Adjustable

Energy Meter 1: Peak Demand System

Shows the maximum amount of energy consumed in the demand window time.

Read only

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.

Demand Window Time Sets the period in which the demand is monitored.

Adjustable: 5 min to 60

min

Elapsed Demand

Shows the amount of time elapsed in the demand

Read only

Window

window time.

Demand Window

Shows the number of demand windows since the last

Count

reset.

Energy Consumption The electrical meter consumption of all phases since the

last reset.

Clear Statistics

Clears or resets the statistics of the meter.

Adjustable

Input 1

Sets whether Input 1 is used to accumulate.

Adjustable: Present/

Input 2

Sets whether Input 2 is used to accumulate.

Absent

Commissioning: Voltage

Shows the voltage of the meter phases.

Read only

Energy Meter 1: Current

Shows the current of the meter phases.

R Phase

Energy Consumption Shows the electrical meters phase consumption since

the last reset.

Alarm Priority

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

High Alarm Text

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Low Alarm Text

Sets the text that is sent with the alarm for Low Alarm

Limit.

High Alarm Limit

Shows the value for the High Alarm Limit.

Adjustable: 90 V to 600

Low Alarm Limit

Shows the value for the Low Alarm Limit.

Differential

Sets the alarm differential.

Adjustable: 0 V to 10 V

Commissioning: Voltage

Shows the voltage of the meter phases.

Read only

Energy Meter 1: S Current

Shows the current of the meter phases.

Phase

Energy Consumption Shows the electrical meters phase consumption since

the last reset.

Alarm Priority

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

High Alarm Text

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Low Alarm Text

Sets the text that is sent with the alarm for Low Alarm

Limit.

High Alarm Limit

Shows the value for the High Alarm Limit.

Adjustable: 90 V to 600

Low Alarm Limit

Shows the value for the Low Alarm Limit.

Differential

Sets the alarm differential.

Adjustable: 0 V to 10 V

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu Commissioning: Energy Meter 1: T Phase
Commissioning: Energy Meter 1: Input 1
Commissioning: Energy Meter 1: Input 2
Commissioning: Energy Meter 2: System

Object or Parameter Voltage Current Energy Consumption
Alarm Priority
High Alarm Text
Low Alarm Text
High Alarm Limit Low Alarm Limit Differential Description Pulse Counter Present Value
Scale Factor
Change Units Description Pulse Counter Present Value
Scale Factor
Change Units Description Peak Demand
Voltage Current Frequency Current Demand
Last Demand
Demand Window Time
Elapsed Demand Window Demand Window Count Energy Consumption
Clear Statistics Input 1 Input 2

Description

Adjustable

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meters phase consumption since

the last reset.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit

Shows the value for the High Alarm Limit.

Adjustable: 90 V to 600

Shows the value for the Low Alarm Limit.

Sets the alarm differential.

Adjustable: 0 V to 10 V

Shows the description of this pulse input.

Adjustable

Shows the number of pulses since last reset.

Read only

If present, shows the consumption of the pulse meter

hooked to the input. The name of the input is defined by

the description.

Shows the value of each pulse. Multiplying the scale Adjustable: 0.01 to

factor by the pulse count gives the present value.

1,000

Change the display units of the present value.

Adjustable

The description of this pulse input.

Adjustable

Shows the number of pulses since last reset.

Read only

If present, shows the consumption of the pulse meter

hooked to the input. The name of the input is defined by

the description.

Shows the value of each pulse. Multiplying the scale Adjustable: 0.01 to

factor by the pulse count gives the present value.

1,000

Change the display units of the present value.

Adjustable

Sets the name of the energy meter.

Adjustable

Shows the maximum amount of energy consumed in Read only

the demand window time.

Shows the average voltage of the meter phases.

Shows the average current of the meter phases.

Shows the measured frequency of the signal.

Shows the amount of energy consumed in the demand

window time.

Shows the amount of energy consumed in the last

demand window time.

Sets the period in which the demand is monitored.

Adjustable: 5 min to 60

min

Shows the amount of time elapsed in the demand

Read only

window time.

Shows the number of demand windows since the last

reset.

Shows the electrical meter consumption of all phases

since the last reset.

Clears or resets the statistics of the meter

Adjustable

Sets whether Input 1 is used to accumulate.

Adjustable: Present/

Sets whether Input 2 is used to accumulate.

Absent

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Energy Meter 2: R Phase

Object or Parameter Voltage Current Energy Consumption

Alarm Priority

High Alarm Text

Low Alarm Text

High Alarm Limit

Low Alarm Limit

Differential

Commissioning: Voltage

Energy Meter 2: S Current

Phase

Energy Consumption

Alarm Priority

High Alarm Text

Low Alarm Text

Commissioning: Energy Meter 2: T Phase

High Alarm Limit Low Alarm Limit Differential Voltage Current Energy Consumption

Alarm Priority

High Alarm Text

Low Alarm Text

Commissioning: Energy Meter 2: Input 1

High Alarm Limit Low Alarm Limit Differential Description Pulse Counter Present Value

Scale Factor Change Units

Description

Adjustable

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meters phase consumption since

the last reset.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit.

Shows the value for the High Alarm Limit.,

Adjustable: 90 V to 600

Shows the value for the Low Alarm Limit.

Sets the alarm differential.

Adjustable: 0 V to 10 V

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meters phase consumption since

the last reset.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit.

Shows the value for the High Alarm Limit.

Adjustable: 90 V to 600

Shows the value for the Low Alarm Limit.

Sets the alarm differential.

Adjustable: 0 V to 10 V

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meters phase consumption since

the last reset.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit.

Shows the value for the High Alarm Limit.

Adjustable: 90 V to 600

Shows the value for the Low Alarm Limit.

Sets the alarm differential.

Adjustable: 0 V to 10 V

Shows the description of this pulse input.

Adjustable

Shows the number of pulses since last reset.

Read only

If present, shows the consumption of the pulse meter

hooked to the input. The name of the input is defined by

the description.

The value of each pulse. Multiplying the scale factor by Adjustable: 0.01 to

the pulse count gives the present value.

1,000

Change the display units of the present value.

Adjustable

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu Commissioning: Energy Meter 2: Input 2
Commissioning: Energy Meter 3: System
Commissioning: Energy Meter 3: R Phase

Object or Parameter Description Pulse Counter Present Value
Scale Factor
Change Units Description Peak Demand
Voltage Current Frequency Current Demand
Last Demand
Demand Window Time
Elapsed Demand Window Demand Window Count Energy Consumption
Clear Statistics Input 1 Input 2 Voltage Current Energy Consumption
Alarm Priority
High Alarm Text
Low Alarm Text
High Alarm Limit Low Alarm Limit Differential

Description

Adjustable

Shows the description of this pulse input.

Adjustable

Shows the number of pulses since last reset.

Read only

If present, shows the consumption of the pulse meter

hooked to the input. The name of the input is defined by

the description.

The value of each pulse. Multiplying the scale factor by Adjustable: 0.01 to

the pulse count gives the present value.

1,000

Change the display units of the present value.

Adjustable

Sets the name of the energy meter.

Adjustable

Shows the maximum amount of energy consumed in Read only

the demand window time.

Shows the average voltage of the meter phases.

Shows the average current of the meter phases.

Shows the measured frequency of the signal.

Shows the amount of energy consumed in the demand

window time.

Shows theamount of energy consumed in the last

demand window time.

Sets the period in which the demand is monitored.

Adjustable: 5 min to 60

min

Shows the amount of time elapsed in the demand

Read only

window time.

Number of demand windows since the last reset.

Shows the electrical meter consumption of all phases

since the last reset.

Clears or resets the statistics of the meter.

Adjustable

Sets whether Input 1 is used to accumulate.

Adjustable: Present/

Sets whether Input 2 is used to accumulate.

Absent

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

The electrical meters phase consumption since the last

reset.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit.

Shows the value for the High Alarm Limit.

Adjustable: 90 V to 600

Shows the value for the Low Alarm Limit.

Sets the alarm differential.

Adjustable: 0 V to 10 V

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Object or Parameter

Commissioning: Voltage

Energy Meter 3: S Current

Phase

Energy Consumption

Alarm Priority

High Alarm Text

Low Alarm Text

Commissioning: Energy Meter 3: T Phase

High Alarm Limit Low Alarm Limit Differential Voltage Current Energy Consumption

Alarm Priority

High Alarm Text

Low Alarm Text

Commissioning: Energy Meter 3: Input 1

High Alarm Limit Low Alarm Limit Differential Description Pulse Counter Present Value

Scale Factor

Commissioning: Energy Meter 3: Input 2

Change Units Description Pulse Counter Present Value

Scale Factor Change Units

Description

Adjustable

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

The electrical meters phase consumption since the last

reset.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit.

Shows the value for the High Alarm Limit.

Adjustable: 90 V to 600

Shows the value for the Low Alarm Limit.

Sets the alarm differential.

Adjustable: 0 V to 10 V

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meters phase consumption since

the last reset.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit.

The value for the High Alarm Limit.

Adjustable: 90 V to 600

The value for the Low Alarm Limit.

Sets the alarm differential.

Adjustable: 0 V to 10 V

The description of this pulse input.

Adjustable

The number of pulses since last reset.

Read only

If present, shows the consumption of the pulse meter

hooked to the input. The name of the input is defined by

the description.

The value of each pulse. Multiplying the scale factor by Adjustable: 0.01 to

the pulse count gives the present value.

1,000

Change the display units of the present value

Adjustable

Shows the description of this pulse input.

Adjustable

Shows the number of pulses since last reset.

Read only

If present, shows the consumption of the pulse meter

hooked to the input. The name of the input is defined by

the description.

Shows the value of each pulse. Multiplying the scale Adjustable: 0.01 to

factor by the pulse count gives the present value.

1,000

Change the display units of the present value.

Adjustable

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Object or Parameter Description

Adjustable

Commissioning: Description

Sets the name of the energy meter.

Adjustable

Energy Meter 4: Peak Demand System

Shows the maximum amount of energy consumed in the demand window time.

Read only

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.

Demand Window Time Sets the period in which the demand is monitored.

Adjustable: 5 min to 60

min

Elapsed Demand

The amount of time elapsed in the demand window

Read only

Window

time.

Demand Window

Number of demand windows since the last reset.

Count

Energy Consumption The electrical meter consumption of all phases since the

last reset.

Clear Statistics

Clears or resets the statistics of the meter.

Adjustable

Input 1

Sets whether Input 1 is used to accumulate.

Adjustable: Present/

Input 2

Sets whether Input 2 is used to accumulate.

Absent

Commissioning: Voltage

Shows the voltage of the meter phases.

Read only

Energy Meter 4: Current

Shows the current of the meter phases.

R Phase

Energy Consumption Shows the electrical meters phase consumption since

the last reset.

Alarm Priority

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

High Alarm Text

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Low Alarm Text

Sets the text that is sent with the alarm for Low Alarm

Limit.

High Alarm Limit

Shows the value for the High Alarm Limit.

Adjustable: 90 V to 600

Low Alarm Limit

Shows the value for the Low Alarm Limit.

Differential

Sets the alarm differential.

Adjustable: 0 V to 10 V

Commissioning: Voltage

Shows the voltage of the meter phases.

Read only

Energy Meter 4: S Current

Shows the current of the meter phases.

Phase

Energy Consumption Shows the electrical meters phase consumption since

the last reset.

Alarm Priority

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

High Alarm Text

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Low Alarm Text

Sets the text that is sent with the alarm for Low Alarm

Limit.

High Alarm Limit

Shows the value for the High Alarm Limit.

Adjustable: 90 V to 600

Low Alarm Limit

Shows the value for the Low Alarm Limit.

Differential

Sets the alarm differential.

Adjustable: 0 V to 10 V

Verasys System User's Guide

125

Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Energy Meter 4: T Phase

Object or Parameter Voltage Current Energy Consumption

Alarm Priority

High Alarm Text

Low Alarm Text

Commissioning: Energy Meter 4: Input 1

High Alarm Limit Low Alarm Limit Differential Description Pulse Counter Present Value

Scale Factor

Commissioning: Energy Meter 4: Input 2

Change Units Description Pulse Counter Present Value

Scale Factor

Commissioning: Inputs: Binary Input 1

Change Units Present
States Text Input

Description Delay Type

Off Delay

On Delay

Alarm Priority

Alarm Text Alarm State Alarm Delay

Description

Adjustable

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

The electrical meters phase consumption since the last

reset.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit.

Shows the value for the High Alarm Limit.

Adjustable: 90 V to 600

Shows the value for the Low Alarm Limit.

Sets the alarm differential.

Adjustable: 0 V to 10 V

The description of this pulse input.

Adjustable

The number of pulses since last reset.

Read only

If present, shows the consumption of the pulse meter

hooked to the input. The name of the input is defined by

the description.

The value of each pulse. Multiplying the scale factor by Adjustable: 0.01 to

the pulse count gives the present value.

1,000

Change the display units of the present value.

Adjustable

The description of this pulse input.

Adjustable

The number of pulses since last reset.

Read only

If present, shows the consumption of the pulse meter

hooked to the input. The name of the input is defined by

the description.

The value of each pulse. Multiplying the scale factor by Adjustable: 0.01 to

the pulse count gives the present value.

1,000

Change the display units of the present value.

Adjustable

Sets whether or not this input is in use.

Adjustable: Present/

Absent

Sets the enumeration that the object shows on screen. Adjustable

The current state of the input; the name of this is

Read only

reflected in the Description field.

The description of the input.

Adjustable

If this a momentary input, this parameter sets the delay Adjustable: None/Off/

type for the input.

On/Both

If the delay type is set to Off or Both, this sets the Delay Adjustable: 1 min to

Off timer.

360 mins

If the delay type is set to On or Both, this sets the Delay

On timer.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm.

Adjustable

Sets which state issues the alarm.

Delays the alarm if needed.

Adjustable: 0 mins to

100 mins

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Inputs: Binary Input 2

Object or Parameter Present
States Text Input

Description Delay Type

Off Delay

On Delay

Alarm Priority

Alarm Text Alarm State Alarm Delay

Commissioning: Inputs: Binary Input 3

Present
States Text Input

Description Delay Type

Off Delay

On Delay

Alarm Priority

Alarm Text Alarm State Alarm Delay

Description

Adjustable

Sets whether or not this input is in use.

Adjustable: Present/

Absent

Sets the enumeration that the object shows on screen. Adjustable

The current state of the input; the name of this is

Read only

reflected in the Description field.

The description of the input.

Adjustable

If this a momentary input, this sets the delay type for Adjustable: None/Off/

the input.

On/Both

If the delay type is set to Off or Both, this sets the Delay Adjustable: 1 min to

Off timer.

360 mins

If the delay type is set to On or Both, this sets the Delay

On timer.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm.

Adjustable

Sets which state issues the alarm.

Delays the alarm if needed.

Adjustable: 0 mins to

100 mins

Sets whether this input is being used or not.

Adjustable: Present/

Absent

Sets the enumeration that the object shows on screen. Adjustable

The current state of the input; the name of this is

Read only

reflected in the Description field.

The description of the input

Adjustable

If this a momentary input, this parameter sets the delay Adjustable: None/Off/

type for the input.

On/Both

If the delay type is set to Off or Both, this sets the Delay Adjustable: 1 min to

Off timer.

360 mins

If the delay type is set to On or Both, this sets the Delay

On timer.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm.

Adjustable

Sets which state issues the alarm.

Delays the alarm if needed.

Adjustable: 0 mins to

100 mins

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Inputs: Binary Input 4

Object or Parameter Present
States Text Input

Description Delay Type

Off Delay

On Delay

Alarm Priority

Alarm Text Alarm State Alarm Delay

Description

Adjustable

Sets whether or not this input is in use.

Adjustable: Present/

Absent

Sets the enumeration that the object shows on screen. Adjustable

The current state of the input; the name of this is

Read only

reflected in the Description field.

The description of the input.

Adjustable

If this a momentary input, this sets the delay type for Adjustable: None/Off/

the input.

On/Both

If the delay type is set to Off or Both, this sets the Delay Adjustable: 1 min to

Off timer.

360 mins

If the delay type is set to On or Both, this sets the Delay

On timer.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm.

Adjustable

Sets which state issues the alarm.

Delays the alarm if needed.

Adjustable: 0 mins to

100 mins

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Inputs: Analog Input 5

Object or Parameter Point Type

Description Input Change Units Change Display Precision Setup
Input Range Low
Input Range High
Voltage Range Device Type
Output Range Low
Output Range High
Offset Alarm Priority
High Alarm Text Low Alarm Text Unreliable Sensor High Alarm Limit Low Alarm Limit Alarm Delay Alarm Differential Trend Interval

Description

Adjustable

Sets what kind of input the point is defined as.

Adjustable:

Undefined/

Temperature/

Humidity/CO2/Light

Sensor/Refrigerant/

Building Pressure/

Steam Pressure/

Voltage/Current

The description of the input.

Adjustable

The current value of the input; the name of this is

Read only

reflected in the Description field.

Change the units for user defined voltage or current Adjustable

inputs.

Change the display precision, which also changes the

change of value (COV) increment, for user defined

voltage or current inputs.

When point type is set to Temperature Inputs, this sets Adjustable: Nickel/

the type of sensor used.

Platinum/A99B/2.25K

NTC/10K NTC/10K NTC

Type 3

When point type is set to Voltage and Current, this

Adjustable: 0 to 10, V or

parameter sets the voltage or current for the minimum mA depending on the

value.

input

When the point type is set to Voltage and Current, this Adjustable: 5 to 20, V or

parameter sets the voltage or current for the max value. mA depending on the

input

When point type is set to Building Pressure, this

Adjustable: 0 to 10 V/2

parameter sets the voltage input for the sensor.

to 10 V/0 to 5 V

Point type is set to Steam Pressure and assumes the Adjustable: Current/

sensor is DPT2090-25G. This parameter sets whether Voltage

the sensor sends a current or voltage. If it sends

voltage, the range is 0-5.5 VDC. If it sends current, the

range is 4-20 mA.

Point type set to Building Pressure, Voltage, or

Adjustable: -100,000 to

Current. Sets the minimum value of the range for the 100,000

sensor.

Point type set to Building Pressure, Voltage, or

Adjustable: -100,000 to

Current. Sets the maximum value of the range for the 100,000

sensor.

Use this parameter to offset the present value of the Adjustable: +/-10% of

analog input.

full range (dynamic)

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit.

Sets the text that is sent when the sensor is unreliable.

Shows the value for the High Alarm Limit.

Adjustable: Dynamic

Shows the value for the Low Alarm Limit.

based on point type

Delays the alarm if needed.

Sets the alarm differential.

Adjustable: +/- 10% of

full range (dynamic)

Enables or disables the trend.

Adjustable: Enable/

Disable

Sets the interval of the trend samples.

Adjustable: 0 s to 900 s

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Inputs: Analog Input 6

Object or Parameter Point Type

Description

Adjustable

Sets what kind of input the point is defined as.

Adjustable:

Undefined/

Temperature/

Humidity/CO2/Light

Sensor/Refrigerant/

Building Pressure/

Steam Pressure/

Voltage/Current

The description of the input.

Adjustable

The current value of the input; the name of this is

Read only

reflected in the Description field.

Change the units for user defined voltage or current Adjustable

inputs.

Change the display precision, also changes the COV

increment, for user defined voltage or current inputs.

When point type is set to Temperature Inputs, this

Adjustable: Nickel/

parameter sets the type of sensor used.

Platinum/A99B/2.25K

NTC/10K NTC/10K NTC

Type 3

When point type is set to Building Pressure Voltage Adjustable: 0 to 10, V

and Current. Sets the voltage or current for the

or mA depending on

minimum value.

input

When point type is set to Voltage and Current. This Adjustable: 5 to 20, V

parameter sets the voltage or current for the max value. or mA depending on

input

When point type is set to Building Pressure. This

Adjustable: 0 to 10 V/2

parameter sets the voltage input for the sensor.

to 10 V/0 to 5 V

Point type is set to Steam Pressure and assumes the Adjustable: Current/

sensor is DPT2090-25G. This parameter sets whether Voltage

the sensor sends a current or voltage. If it sends

voltage, the range is 0-5.5 VDC. If it sends current, the

range is 4 to 20 mA.

Point type set to Building Pressure, Voltage, or

Adjustable: -100,000 to

Current. Sets the minimum value of the range for the 100,000

sensor.

Point type set to Building Pressure, Voltage, or

Adjustable: -100,000 to

Current. Sets the maximum value of the range for the 100,000

sensor.

Use this to offset the present value of the analog input. Adjustable: +/-10% of

full range (dynamic)

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit.

Sets the text that is sent when the sensor is unreliable.

Shows the value for the High Alarm Limit.

Adjustable: Dynamic

Shows the value for the Low Alarm Limit.

based on point type

Delays the alarm if needed.

Sets the alarm differential.

Adjustable: +/-10% of

full range (dynamic)

Enables or disables the trend.

Adjustable:

Enable/Disable

Sets the interval of the trend samples.

Adjustable: 0 s to 900 s

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Inputs: Analog Input 7

Object or Parameter Point Type

Description

Adjustable

Sets what kind of input the point is defined as.

Adjustable:

Undefined/

Temperature/

Humidity/CO2/Light

Sensor/Refrigerant/

Building Pressure/

Steam Pressure/

Voltage/Current

The description of the input.

Adjustable

The current value of the input; the name of this is

Read only

reflected in the Description field.

Change the units for user defined voltage or current Adjustable

inputs.

Change the display precision (also changes the COV

increment) for user defined voltage or current inputs.

When point type is set to Temperature Inputs, this sets Adjustable: Nickel/

the type of sensor used.

Platinum/A99B/2.25K

NTC/10K NTC/10K NTC

Type 3

When point type is set to Building Pressure Voltage Adjustable: 0 to 10, V

and Current. Sets the voltage or current for the

or mA depending on

minimum value.

input

When point type is set to Voltage and Current. Sets the Adjustable: 5 to 20, V

voltage or current for the max value.

or mA depending on

input

When point type is set to Building Pressure. This sets Adjustable: 0 to 10 V/2

the voltage input for the sensor.

to 10 V/0 to 5 V

Point type is set to Steam Pressure and assumes the Adjustable: Current/

sensor is DPT2090-25G. This sets whether the sensor Voltage

sends a current or voltage. If it sends voltage, the range

is 0-5.5 VDC. If it sends current, the range is 4-20 mA.

Point type set to Building Pressure, Voltage, or

Adjustable: -100,000 to

Current. Sets the minimum value of the range for the 100,000

sensor.

Point type set to Building Pressure, Voltage, or

Adjustable: -100,000 to

Current. Sets the maximum value of the range for the 100,000

sensor.

Use this to offset the present value of the analog input. Adjustable: +/-10% of

full range (dynamic)

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit.

Sets the text that is sent when the sensor is unreliable.

Shows the value for the High Alarm Limit.

Adjustable: Dynamic

Shows the value for the Low Alarm Limit.

based on point type

Delays the alarm if needed.

Sets the alarm differential.

Adjustable: +/-10% of

full range (dynamic)

Enables or disables the trend.

Adjustable: Enable/

Disable

Sets the interval of the trend samples.

Adjustable: 0 s to 900 s

Verasys System User's Guide

131

Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Inputs: Analog Input 8

Object or Parameter Point Type

Description

Adjustable

Sets what kind of input the point is defined as.

Adjustable:

Undefined/

Temperature/

Humidity/CO2/Light

Sensor/Refrigerant/

Building Pressure/

Steam Pressure/

Voltage/Current

Shows the description of the input.

Adjustable

Shows the current value of the input; the name of this is Read only

reflected in the Description field.

Change the units for user defined voltage or current Adjustable

inputs.

Change the display precision for user defined voltage or

current inputs. Also changes the COV increment.

When point type is set to Temperature Inputs, this sets Adjustable: Nickel/

the type of sensor used.

Platinum/A99B/2.25K

NTC/10K NTC/10K NTC

Type 3

Point type is set to Building Pressure Voltage and

Adjustable: 0 to 10, V

Current. Sets the voltage or current for the minimum or mA depending on

value.

input

Point type is set to Voltage and Current. Sets the

Adjustable: 5 to 20, V

voltage or current for the max value.

or mA depending on

input

Point type is set to Building Pressure. This sets the Adjustable: 0 to 10 V/2

voltage input for the sensor.

to 10 V/0 to 5 V

Point type is set to Steam Pressure and assumes the Adjustable: Current/

sensor is DPT2090-25G. This sets whether the sensor Voltage

sends a current or voltage. If it sends voltage, the range

is 0-5.5 VDC If it sends current, the range is 4-20 mA.

Point type is set to Building Pressure, Voltage, or

Adjustable: -100,000 to

Current. Sets the minimum value of the range for the 100,000

sensor.

Point type is set to Building Pressure, Voltage, or

Adjustable: -100,000 to

Current. Sets the maximum value of the range for the 100,000

sensor.

Use this to offset the present value of the analog input. Adjustable: +/-10% of

full range (dynamic)

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit.

Sets the text that is sent when the sensor is unreliable.

Shows the value for the High Alarm Limit.

Adjustable: Dynamic

Shows the value for the Low Alarm Limit.

based on point type

Delays the alarm if needed.

Sets the alarm differential.

Adjustable: +/-10% of

full range (dynamic)

Enables or disables the trend.

Adjustable: Enable/

Disable

Sets the interval of the trend samples.

Adjustable: 0 s to 900 s

132

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Inputs: Analog Input 9

Object or Parameter Point Type

Description

Adjustable

Sets what kind of input the point is defined as.

Adjustable:

Undefined/

Temperature/

Humidity/CO2/Light

Sensor/Refrigerant/

Building Pressure/

Steam Pressure/

Voltage/Current

The description of the input.

Adjustable

The current value of the input; the name of this is

Read only

reflected in the Description field.

Change the units for user defined voltage or current Adjustable

inputs.

Change the display precision for user defined voltage or

current inputs. Also changes the COV increment.

When point type is set to Temperature Inputs, this sets Adjustable: Nickel/

the type of sensor used.

Platinum/A99B/2.25K

NTC/10K NTC/10K NTC

Type 3

Point type is set to Building Pressure Voltage and

Adjustable: 0 to 10, V

Current. Sets the voltage or current for the minimum or mA depending on

value.

input.

Point type is set to Voltage and Current. Sets the

Adjustable: 5 to 20, V

voltage or current for the maximum value.

or mA depending on

input.

Point type is set to Building Pressure .This sets the

Adjustable: 0 to 10 V/2

voltage input for the sensor.

to 10 V/0 to 5 V

Point type is set to Steam Pressure and assumes the Adjustable: Current/

sensor is DPT2090-25G. This sets whether the sensor Voltage

sends a current or voltage. If it sends voltage, the range

is 0-5.5 VDC. If it sends current, the range is 4-20 mA.

Point type set to Building Pressure, Voltage, or

Adjustable: -100,000 to

Current. Sets the minimum value of the range for the 100,000

sensor.

Point type set to Building Pressure, Voltage, or

Adjustable: -100,000 to

Current. Sets the maximum value of the range for the 100,000

sensor.

Use this to offset the present value of the analog input. Adjustable: +/-10% of

full range (dynamic)

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Sets the text that is sent with the alarm for High Alarm Adjustable

Limit.

Sets the text that is sent with the alarm for Low Alarm

Limit.

Sets the text that is sent when the sensor is unreliable.

Shows the value for the High Alarm Limit.

Adjustable: Dynamic

Shows the value for the Low Alarm Limit.

based on point type

Delays the alarm if needed.

Sets the alarm differential.

Adjustable: +/-10% of

full range (dynamic)

Enables or disables the trend.

Adjustable: Enable/

Disable

Sets the interval of the trend samples.

Adjustable: 0 s to 900 s

Verasys System User's Guide

133

Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Object or Parameter

Commissioning: Description
Outputs: Output Output 1

Override

Commissioning: Description
Outputs: Output Output 2

Override

Commissioning: Description
Outputs: Output Output 3

Override

Commissioning: Description
Outputs: Output Output 4

Override

Commissioning: Description
Outputs: Output Output 5

Override

Commissioning: Description
Outputs: Output Output 6

Override

Commissioning: Description
Outputs: Output Output 7

Override

Commissioning: Description
Outputs: Output Output 8

Override

Commissioning: Description
Outputs: Output Output 9

Override

Description

Adjustable

The description of the Output.

Adjustable

The current state of the Output; the name reflects the Read only

description.

The ability to override the Output.

Adjustable: Off/On

The description of the Output.

Adjustable

The current state of the Output; the name reflects the Read only

description.

The ability to override the Output.

Adjustable: Off/On

The description of the Output.

Adjustable

The current state of the Output; the name reflects the Read only

description.

The ability to override the Output.

Adjustable: Off/On

The description of the output.

Adjustable

The current state of the output; the name reflects the Read only

description.

The ability to override the output.

Adjustable: Off/On

The description of the output.

Adjustable

The current state of the output; the name reflects the Read only

description.

The ability to override the output.

Adjustable: Off/On

The description of the output.

Adjustable

The current state of the output; the name reflects the Read only

description.

The ability to override the output.

Adjustable: Off/On

Shows the description of the output.

Adjustable

Shows the current state of the output; the name reflects Read only

the description.

The ability to override the output.

Adjustable: Off/On

The description of the output.

Adjustable

Shows the current state of the output; the name reflects Read only

the description.

The ability to override the output.

Adjustable: Off/On

The description of the output.

Adjustable

The current state of the output; the name reflects the Read only

description.

The ability to override the output.

Adjustable: Off/On

134

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Netsensor Plug and Play: Netsensor 1

Object or Parameter Temperature
Description Offset

Alarm Priority

High Alarm Limit
Low Alarm Limit
Time Delay
Alarm Differential
Humidity Description Offset
Alarm Priority

High Alarm Limit Low Alarm Limit Time Delay
Alarm Differential
Interval

Description

Adjustable

Shows the temperature of the Netsensor at address Read only

199.

Shows the description of the Netsensor.

Adjustable

Use this to offset the present value of the temperature Adjustable: -5�F to 5�F

input.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Shows the value for the High Alarm Limit.

Adjustable: 0�F to

250�F

Shows the value for the Low Alarm Limit.

Adjustable: 0�F to

250�F

Delays the alarm if needed.

Adjustable: 0 min to 60

min

Sets the alarm differential.

Adjustable: 0�F to

100�F

Shows the humidity of the Netsensor at address 199. Read only

The description of the Netsensor.

Adjustable

Use this to offset the present value of the humidity

Adjustable: -5 to 5% RH

input.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Shows the value for the High Alarm Limit.

Adjustable: 0% to 100%

Shows the value for the Low Alarm Limit.

Delays the alarm if needed.

Adjustable: 0 min to 60

min

Sets the alarm differential.

Adjustable: 0% to 100%

Sets the interval of the trend samples.

Adjustable: 1 min to 15

min

Verasys System User's Guide

135

Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Netsensor Plug and Play: Netsensor 2

Object or Parameter Temperature
Description Offset

Alarm Priority

High Alarm Limit Low Alarm Limit Time Delay
Alarm Differential
Humidity Description Offset
Alarm Priority

High Alarm Limit Low Alarm Limit Time Delay
Alarm Differential
Interval

Description

Adjustable

Shows the temperature of the Netsensor at address Read only

200.

Shows the description of the Netsensor.

Adjustable

Use this to offset the present value of the temperature Adjustable: -5�F to 5�F

input

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Shows the value for the High Alarm Limit.

Adjustable: 0�F to

Shows the value for the Low Alarm Limit.

250�F

Delays the alarm if needed.

Adjustable: 0 min to 60

min

Sets the alarm differential.

Adjustable: 0�F to

100�F

Shows the humidity of the Netsensor at address 200. Read only

Shows the description of the Netsensor.

Adjustable

Use this to offset the present value of the humidity

Adjustable: -5 RH to 5%

input.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Shows the value for the High Alarm Limit.

Adjustable: 0% to 100%

Shows the value for the Low Alarm Limit.

Delays the alarm if needed.

Adjustable: 0 min to 60

min

Sets the alarm differential.

Adjustable: 0% to 100%

Sets the interval of the trend samples.

Adjustable: 1 min to 15

min

136

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Netsensor Plug and Play: Netsensor 3

Object or Parameter Temperature
Description Offset

Alarm Priority

High Alarm Limit Low Alarm Limit Time Delay
Alarm Differential
Humidity Description Offset
Alarm Priority

High Alarm Limit Low Alarm Limit Time Delay
Alarm Differential
Interval

Description

Adjustable

Shows the temperature of the Netsensor at Address Read only

201.

Shows the description of the Netsensor.

Adjustable

Use this to offset the present value of the temperature Adjustable: -5�F to 5�F

input.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Shows the value for the High Alarm Limit.

Adjustable: 0�F to

Shows the value for the Low Alarm Limit.

250�F

Delays the alarm if needed.

Adjustable: 0 min to 60

min

Sets the alarm differential.

Adjustable: 0�F to

100�F

Shows the humidity of the Netsensor at address 201 Read only

Shows the description of the Netsensor.

Adjustable

Use this to offset the present value of the humidity

Adjustable: -5 to 5% RH

input.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Shows the value for the High Alarm Limit.

Adjustable: 0% to 100%

Shows the value for the Low Alarm Limit.

Delays the alarm if needed.

Adjustable: 0 min to 60

min

Sets the alarm differential.

Adjustable: 0% to 100%

Sets the interval of the trend samples.

Adjustable: 1 min to 15

min

Verasys System User's Guide

137

Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu
Commissioning: Netsensor Plug and Play: Netsensor 4

Object or Parameter Temperature Description Offset

Alarm Priority

High Alarm Limit Low Alarm Limit Time Delay
Alarm Differential
Humidity Description Offset
Alarm Priority

High Alarm Limit Low Alarm Limit Time Delay
Alarm Differential
Interval

Description

Adjustable

Shows the temperature of the Netsensor at Address 202 Read only

Shows the description of the Netsensor.

Adjustable

Use this to offset the present value of the temperature Adjustable: -5�F to 5�F

input.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Shows the value for the High Alarm Limit.

Adjustable: 0�F to

Shows the value for the Low Alarm Limit.

250�F

Delays the alarm if needed.

Adjustable: 0 min to 60

min

Sets the alarm differential.

Adjustable: 0�F to

100�F

Shows the humidity of the Netsensor at address 202. Read only

Shows the description of the Netsensor.

Adjustable

Use this to offset the present value of the humidity

Adjustable: -5 to 5% RH

input.

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

Shows the value for the High Alarm Limit.

Adjustable: 0% to 100%

Shows the value for the Low Alarm Limit.

Delays the alarm if needed.

Adjustable: 0 min to 60

min

Sets the alarm differential.

Adjustable: 0% to 100%

Sets the interval of the trend samples.

Adjustable: 1 min to 15

min

138

Verasys System User's Guide

Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu Commissioning: Netsensor Plug and Play: Netsensor 5
Controller: Firmware
Controller: Time

Object or Parameter Description

Adjustable

Temperature

Shows the temperature of the Netsensor at address Read only

203.

Description

Shows the description of the Netsensor.

Adjustable

Offset

Use this to offset the present value of the temperature Adjustable: -5�F to 5�F

input.

Alarm Priority

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

High Alarm Limit

Shows the value for the High Alarm Limit.

Adjustable: 0�F to

Low Alarm Limit

Shows the value for the Low Alarm Limit.

250�F

Time Delay

Delays the alarm if needed.

Adjustable: 0 min to 60

min

Alarm Differential

Sets the alarm differential.

Adjustable: 0�F to

100�F

Humidity

Shows the humidity of the Netsensor at address 203. Read only

Description

Shows the description of the Netsensor.

Adjustable

Offset

Use this to offset the present value of the humidity

Adjustable: -5 to 5% RH

input.

Alarm Priority

If set to something other than Disable, the object issues Adjustable: Disable/

alarms. The state set is the priority set for the alarm. Critical / Service

Priority / Service

High Alarm Limit

Shows the value for the High Alarm Limit.

Adjustable: 0 to 100%

Low Alarm Limit

Shows the value for the Low Alarm Limit.

Time Delay

Delays the alarm if needed.

Adjustable: 0 min to 60

min

Alarm Differential

Sets the alarm differential.

Adjustable: 0% to 100%

Interval

Sets the interval of the trend samples.

Adjustable: 1 min to 15

min

Firmware Status

The status of the firmware loaded in the controller.

Read only

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 Template Displays the version of the template.

Version

Equipment Archive

Displays the version of the equipment archive.

Version

Equipment View

Displays the version of the view definition.

Version

Time

Shows the time set by the SBH. To change the date and Read only

time, go to the Settings > System Setting 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 is adjusting to.

Adjustable

Verasys System User's Guide

139

Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu Controller: Network

Object or Parameter Description

Adjustable

Device Name

Shows the name of the device on the device list.

Adjustable: 30

Device Description

Shows the description of the device on the device list. characters

Device OID

BACnet Device OID for the system bus. On a standalone Adjustable: Range: 1 to

Verasys System, this parameter is not used. If connected 4,194,303

to a 3rd party facility management system, the

parameter sets the BACnet ID for the zone coordinator.

Address

Shows the address of the controller; the address is

Adjustable: 0 to 127

adjustable via the SBH and the display on the controller.

Communication Status Shows the status of the zone bus communication.

Read only

FC Comm Mode

Set to wired field bus.

Note: This feature is not available yet.

Baud Rate
Operating Baud Rate BACnet Encoding Type
Controller: Misc Language Units
Relearn system
Details: Energy Description Meter 1: System Peak Demand
Voltage Current Frequency Current Demand
Energy Consumption
Details: Energy Voltage Meter 1: R Phase Current
Energy Consumption
Details: Energy Voltage Meter 1: S Phase Current
Energy Consumption
Details: Energy Voltage Meter 1: T Phase Current
Energy Consumption
Details: Energy Description Meter 1: Input 1 Present Value

When set to auto, the zone coordinator sets the baud Adjustable:

rate for the controller.

Auto/1200/9600/19200

/38400/76800

Shows the baud rate of the controller.

Read only

Shows the encoding type set and the character set that Adjustable: ISO 10646

the controller uses.

(UCS-2)/ANSI X3.4

(US-ASCII)/Microsoft

DBCS code page 932

(Japanese Shift JIS)/ISO

106464 (UTF-8)

Sets the language of the controller.

Read only

Sets the units of the controller.

Adjustable: Imperial/

Metric

A relearn system tells the controller that sensors

Adjustable: False/True

that were removed and are showing as unreliable is

intentional. The system resets the reliability status for

these points.

Sets the name of the energy meter.

Adjustable

Shows the maximum amount of energy consumed in Read only

the demand window time.

Shows the average voltage of the meter phases.

Shows the average current of the meter phases.

Shows the measured frequency of the signal.

Shows the amount of energy consumed in the demand

window time.

Shows the electrical meter consumption of all phases Read only

since the last reset.

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meter phase consumption since the

last reset.

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

The electrical meter phase consumption since the last

reset

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meter phase consumption since the

last reset.

Shows the description of this pulse input.

Adjustable

If present, shows the consumption of the pulse meter Read only

hooked to the input. The name of the input is defined by

the description.

140

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Object or Parameter

Details: Energy Description

Meter 1: Input 2 Present Value

Details: Energy Description Meter 2: System Peak Demand
Voltage Current Frequency Current Demand
Energy Consumption
Details: Energy Voltage Meter 2: R Phase Current
Energy Consumption
Details:Energy Voltage Meter 2: S Phase Current
Energy Consumption
Details: Energy Voltage Meter 2: T Phase Current
Energy Consumption
Details: Energy Description Meter 2: Input 1 Present Value

Details: Energy Description Meter 2: Input 2 Present Value

Details: Energy Description Meter 3: System Peak Demand
Voltage Current Frequency Current Demand
Energy Consumption
Details: Energy Voltage Meter 3: R Phase Current
Energy Consumption
Details: Energy Voltage Meter 3: S Phase Current
Energy Consumption

Description

Adjustable

Shows the description of this pulse input.

Adjustable

If present, shows the consumption of the pulse meter Read only

hooked to the input. The name of the input is defined by

the description.

Sets the name of the Energy Meter.

Adjustable

Shows the maximum amount of energy consumed in Read only

the demand window time.

Shows the average voltage of the meter phases.

Shows the average current of the meter phases.

Shows the measured frequency of the signal.

Shows the amount of energy consumed in the demand

window time.

Shows the electrical meter consumption of all phases Read only

since the last reset.

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meter phase consumption since the

last reset.

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meter phase consumption since the

last reset.

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meter phase consumption since the

last reset.

The description of this pulse input.

Adjustable

If present, shows the consumption of the pulse meter Read only

hooked to the input. The name of the input is defined by

the description.

Shows the description of the pulse input.

Adjustable

If present, shows the consumption of the pulse meter Read only

hooked to the input. The name of the input is defined by

the description.

Sets the name of the energy meter.

Adjustable

Shows the maximum amount of energy consumed in Read only

the demand window time.

Shows the average voltage of the meter phases.

Shows the average current of the meter phases.

Shows the measured frequency of the signal.

Shows the amount of energy consumed in the demand

window time.

Shows the electrical meter consumption of all phases Read only

since the last reset.

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meter phase consumption since the

last reset.

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meter phase consumption since the

last reset.

Verasys System User's Guide

141

Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Object or Parameter

Details: Energy Voltage

Meter 3: T Phase Current

Energy Consumption

Details: Energy Description Meter 3: Input 1 Present Value

Details: Energy Description Meter 3: Input 2 Present Value

Details: Energy Description Meter 4: System Peak Demand
Voltage Current Frequency Current Demand
Energy Consumption
Details: Energy Voltage Meter 4: R Phase Current
Energy Consumption
Details: Energy Voltage Meter 4: S Phase Current
Energy Consumption
Details: Energy Voltage Meter 4: T Phase Current
Energy Consumption
Details: Energy Description Meter 4: Input 1 Present Value

Details: Energy Description Meter 4: Input 2 Present Value

Details: Inputs: Binary Input 1
Details: Inputs: Binary Input 2
Details: Inputs: Binary Input 3
Details: Inputs: Binary Input 4

Input

Description

Adjustable

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meters phase consumption since

the last reset.

Shows the description of the pulse input.

Adjustable

If present, shows the consumption of the pulse meter Read only

hooked to the input. The name of the input is defined by

the description.

Shows the description of the pulse input.

Adjustable

If present, shows the consumption of the pulse meter Read only

hooked to the input. The name of the input is defined by

the description.

Sets the name of the energy meter.

Adjustable

Shows the maximum amount of energy consumed in Read only

the demand window time.

Shows the average voltage of the meter phases.

Shows the average current of the meter phases.

Shows the measured frequency of the signal.

Shows the amount of energy consumed in the demand

window time.

Shows the electrical meter consumption of all phases Read only

since the last reset.

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meter phase consumption since the

last reset.

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meter phase consumption since the

last reset.

Shows the voltage of the meter phases.

Read only

Shows the current of the meter phases.

Shows the electrical meter phase consumption since the

last reset.

Shows the description of the pulse input.

Adjustable

If present, shows the consumption of the pulse meter Read only

hooked to the input. The name of the input is defined by

the description.

Shows the description of the pulse input.

Adjustable

If present, shows the consumption of the pulse meter Read only

hooked to the input. The name of the input is defined by

the description.

The name of the input is defined under the

Read only

Commissioning tab.

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Object or Parameter

Details: Inputs: Input

Analog Input 5

Details: Inputs:

Analog Input 6

Details: Inputs:

Analog Input 7

Details: Inputs:

Analog Input 8

Details: Inputs:

Analog Input 9

Details: Outputs: Output

Output 1

Details: Outputs:

Output 2

Details: Outputs:

Output 3

Details: Outputs:

Output 4

Details: Outputs:

Output 5

Details: Outputs:

Output 6

Details: Outputs:

Output 7

Details: Outputs:

Output 8

Details: Outputs:

Output 9

Details:

Temperature

Netsensor Plug and Play:

Humidity

Netsensor 1

Details:

Temperature

Netsensor Plug and Play:

Humidity

Netsensor 2

Details:

Temperature

Netsensor Plug and Play:

Humidity

Netsensor 3

Details:

Temperature

Netsensor Plug and Play:

Humidity

Netsensor 4

Details:

Temperature

Netsensor Plug and Play:

Humidity

Netsensor 5

Trends: Inputs: Binary Input 1

Binary Input 1

Trends: Inputs: Binary Input 2

Binary Input 2

Trends: Inputs: Binary Input 3

Binary Input 3

Trends: Inputs: Binary Input 4

Binary Input 4

Description The name of the input is defined under the Commissioning tab.
The name of the input is defined under the Commissioning tab.
Shows the temperature of the device at address 199. Shows the humidity of the device at address 199. Shows the temperature of the device at address 200. Shows the humidity of the device at address 200. Shows the temperature of the device at address 201. Shows the humidity of the device at address 201. Shows the temperature of the device at address 202. Shows the humidity of the device at address 202. Shows the temperature of the device at address 203. Shows the humidity of the device at address 203. Total: 25 samples, 1 sample taken every change of value.

Adjustable Read only
Read only
Read only Read only Read only Read only Read only Read only

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Menu Trends: Inputs: Analog Input 5 Trends: Inputs: Analog Input 6 Trends: Inputs: Analog Input 7 Trends: Inputs: Analog Input 8 Trends: Inputs: Analog Input 9 Trends: Outputs
Trends: Netsensor 1: Zone Temperature Trends: Netsensor 1: Zone Humidity Trends: Netsensor 2: Zone Temperature Trends: Netsensor 2: Zone Humidity Trends: Netsensor 3: Zone Temperature Trends: Netsensor 3: Zone Humidity Trends: Netsensor 4: Zone Temperature Trends: Netsensor 4: Zone Humidity Trends: Netsensor 5: Zone Temperature Trends: Netsensor 5: Zone Humidity

Object or Parameter Analog Input 5 Analog Input 6 Analog Input 7 Analog Input 8 Analog Input 9 Output 1 Output 2 Output 3 Output 4 Output 5 Output 6 Output 7 Output 8 Output 9 Temperature
Humidity
Temperature
Humidity
Temperature
Humidity
Temperature
Humidity
Temperature
Humidity

Description Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 25 samples, 1 sample taken every change of value.
Total: 200 samples, user defined sample interval in Commissioning menu.

Adjustable Read only
Read only
Read only

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Table 21: LC-VAC1002-0 Input Output Module parameters and objects

Object or Parameter

Trends: Energy Consumption

Meter 1: System Demand

Trends: Energy R Phase Voltage

Meter 1: R Phase R Phase Current

Trends: Energy S Phase Voltage

Meter 1: S Phase S Phase Current

Trends: Energy T Phase Voltage

Meter 1: T Phase T Phase Current

Trends: Energy Input 1 Present Value

Meter 1: Input 1

Trends: Energy Input 2 Present Value

Meter 1: Input 2

Trends: Energy Consumption

Meter 2: System Demand

Trends: Energy R Phase Voltage

Meter 2: R Phase R Phase Current

Trends: Energy S Phase Voltage

Meter 2: S Phase S Phase Current

Trends: Energy T Phase Voltage

Meter 2: T Phase T Phase Current

Trends: Energy Input 1 Present Value

Meter 2: Input 1

Trends: Energy Input 2 Present Value

Meter 2: Input 2

Trends: Energy Consumption

Meter 3: System Demand

Trends: Energy R Phase Voltage

Meter 3: R Phase R Phase Current

Trends: Energy S Phase Voltage

Meter 3: S Phase S Phase Current

Trends: Energy T Phase Voltage

Meter 3: T Phase T Phase Current

Trends: Energy Input 1 Present Value

Meter 3: Input 1

Trends: Energy Input 2 Present Value

Meter 3: Input 2

Trends: Energy Consumption

Meter 4: System Demand

Trends: Energy R Phase Voltage

Meter 4: R Phase R Phase Current

Trends: Energy S Phase Voltage

Meter 4: S Phase S Phase Current

Trends: Energy T Phase Voltage

Meter 4: T Phase T Phase Current

Trends: Energy Input 1 Present Value

Meter 4: Input 1

Trends: Energy Input 2 Present Value

Meter 4: Input 2

Description Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 25 samples, 1 sample taken every change of value. Total: 25 samples, 1 sample taken every change of value. Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 25 samples, 1 sample taken every change of value. Total: 25 samples, 1 sample taken every change of value. Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 25 samples, 1 sample taken every change of value. Total: 25 samples, 1 sample taken every change of value. Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 200 samples, user defined sample interval in Commissioning menu.
Total: 25 samples, 1 sample taken every change of value. Total: 25 samples, 1 sample taken every change of value.

Adjustable 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 Read only Read only Read only Read only Read only Read only

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Table 22: LC-VAC1001-0 Lighting Controller parameters and objects

Menu Home Page Alarms Status
Summary: Network Summary: Inputs

Object or Parameter

Description

Adjustable

Lighting 1 Circuit Command The command given to configurable output 1. Read only

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.

Lighting 9 Circuit Command The command given to configurable output 9.

Alarms

The Alarms tab displays all alarms that are active. Read only

Click on all alarms and view alarm history.

Unit Status

Shows the status of the controller.

Read only

Light Level Status

Shows the status of the light level.

Light Level

Shows the analog light level in ft candles.

Lighting Level Setpoint

If the light level is below this setpoint, it is night Adjustable: 0.0 ft to 200

and if it is above this setpoint plus the differential, ft candles

it is day.

Lighting Level Differential When transitioning back to day, this parameter Adjustable: 0.0 ft to 100

sets how many more ft candles are needed to ft candles

switch to day.

Zone 1 Command

Shows the current state of the zone.

Read only

Zone 1 Schedule

Shows the current state of the zone schedule.

Zone 1 Override

The ability to override the zone. In the Auto state, Adjustable: Auto/Off/

the zone works from the logic setup for the zone. On

Zone 2 Command

Shows the current state of the zone.

Read only

Zone 2 Schedule

Shows the current state of the zone schedule.

Zone 2 Override

The ability to override the zone. In the Auto state, Adjustable: Auto/Off/

the zone works from the logic setup for the zone. On

Zone 3 Command

Shows the current state of the zone.

Read only

Zone 3 Schedule

Shows the current state of the zone schedule.

Zone 3 Override

The ability to override the zone. In the Auto state, Adjustable: Auto/Off/

the zone works from the logic setup for the zone. On

Zone 4 Command

Shows the current state of the zone.

Read only

Zone 4 Schedule

Shows the current state of the zone schedule.

Zone 4 Override

The ability to override the zone. In the Auto state, Adjustable: Auto/Off/

the zone works from the logic setup for the zone. On

Zone 5 Command

Shows the current state of the zone.

Read only

Zone 5 Schedule

Shows the current state of the zone schedule.

Zone 5 Override

The ability to override the zone. In the Auto state, Adjustable: Auto/Off/

the zone works from the logic setup for the zone. On

Zone 6 Command

Shows the current state of the zone.

Read only

Zone 6 Schedule

Shows the current state of the zone schedule.

Zone 6 Override

The ability to override the zone. In the Auto state, Adjustable: Auto/Off/

the zone works from the logic setup for the zone. On

Zone 7 Command

Shows the current state of the zone.

Read only

Zone 7 Schedule

Shows the current state of the zone schedule.

Zone 7 Override

The ability to override the zone. In the Auto state, Adjustable: Auto/Off/

the zone works from the logic setup for the zone. On

Zone 8 Command

Shows the current state of the zone.

Read only

Zone 8 Schedule

Shows the current state of the zone schedule.

Communication Status

The status of the network communication.

Read only

Light Level Status Light Level

Shows the status of the light level. Shows the analog light level in ft candles.

Read only

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Table 22: LC-VAC1001-0 Lighting Controller parameters and objects

Menu Summary: Outputs
Commissioning: Network

Object or Parameter

Description

Lighting 1 Circuit Command The command given to configurable output 1.