Page 1: User Guide
For a L network, ORKS WebVision acts as an offline configuration tool that helps the logical address refers to Subnet/NodeID. contractor to configure site project that consists of multiple unitary controllers. The contractor can commission all the controllers by connecting through a LAN, WAN, or Dial-up.
Page 2: Features
WEBVISION™ FEATURES • Support up to 120 XL10s, XL15Cs, VFDs, and 3rd Party 2. Type your WebVision login name in the User Name LON devices field. • Perform Auto Discovery and Wizard based 3. Type your Password. configuration of controllers 4.
Page 3: Working With Tables
WEBVISION™ Fig. 4. Graphics Tab. There are 3 locations in the WebVision where you can view and setup graphics. These are: Fig. 3. Password Reminder screen. • Network Tree > WebVision Node (Max 1 Graphic) • Network Tree > Device Node. One graphic for each device.
Page 4 3. Click OK. The Point properties are displayed in the NOTE: To abort the action, click Cancel. background image. NOTE: A maximum of fifty links can be inserted in a graphic NOTE: To abort the action, click Cancel. in WebVision. 95-7769—01...
Page 5 2. Click . The Properties page appears. saving programs. • No Event – WebVision displays the default state as Occupied when no event is configured. NOTE: Apart from the Contractor (who has all the privileges in WebVision) all the users who add new schedules have access to all the schedules created by them.
Page 6: Assign Devices
All the devices that are already assigned to schedules are listed in the Currently Assigned Schedule column. If a device is already assigned to a schedule, WebVision un-assigns the device from the earlier schedule and assigns it to the current schedule. 6. Click Finish to save the settings.
Page 7: Delete Schedules
Fig. 14. Add Special Event dialog box - Week and Day. Special events are not executed if you commit an error in specifying them. WebVision cannot validate 4. Enter/select the following information under Select State the dates you enter for a special event. No error is •...
Page 8 • Priority – Indicates the priority level of an alarm. There are and prioritize them. You can also acknowledge alarms and ten priority levels defined in WebVision - 1 through 10. 1 is delete acknowledged alarms. low and 10 is the highest priority level.
Page 9: Alarm Configuration And Use
4. Click Open to open the file and click Save to save the file on your computer. Example: For Occupancy State, you can select alarm value as Unoccupied in which case WebVision raises an alarm To E-Mail alarms: whenever the point has Unoccupied as its value.
Page 10 WEBVISION™ To replicate an alarm: Add, Edit, or Delete Alarm E-Mail Recipient 1. Click the Alarms tab. The View Alarms page appears. 2. Click the Alarm Setup tab on the View Alarms page. To add an alarm E-Mail recipient's details: The Alarm Setup page appears.
Page 11 When you add a device, all the default trends present in that TIP: Use Filters to quickly search the required trend. device are added to WebVision. All the default trends are disabled. Use one of the following filter options to search for the required trend: You can create and view a maximum of 100 trends.
Page 12 Select the number of samples to be generated from the list. NOTE: WebVision uses the polling mechanism to read point values at regular interval. It may take up to 30 seconds to detect a point value. If the point value changes at a higher frequency than 30 seconds, Fig.
Page 13 User ID and Password security standards to enforce user compliance when creating a user profile. As Graphics (continued) WebVision is a secure server, you need to log in with a pre- Edit Graphics assigned user ID and password. The user ID and password...
Page 14 WEBVISION™ Table 3. Role Matrix. (Continued) Table 3. Role Matrix. (Continued) Privilege Depends Facility Privilege Depends Facility Privileges Contractor Manager Tenant Privileges Contractor Manager Tenant Alarms (continued) System View Priority 7 General Alarms Configuration View Priority 8 IP Network Alarms...
Page 15 • Office Phone – The user's office contact number. on this WebVision tab. • Residence Phone – The user's residence contact • Add new User only in the WebVision that is configured as number. Network Server in networked WebVision. • Mobile Phone – The user's mobile contact number.
Page 16 . The Add Device dialog box appears. Devices Enter the following details: Device List You can view all the devices present in WebVision. All the information related to name, type, status, and so on is available. Fig. 25. Add Device dialog box.
Page 17 However, it is advised to provide all 4. Click Discover to start discovery. Once the discovery is the information in the fields, so that WebVision completed, WebVision lists the discovered new devices can provide more manageable features. on the left side list.
Page 18 Once you have made all of the necessary configuration 3. The following information displays in tabular format: settings to a device in WebVision, you will need to download • Source Device – Lists the source device involved in the configuration to the device.
Page 19: Device Configuration
5. Click Delete Point Group. A confirmation message controllers. You can create a maximum of fifty point groups in appears. WebVision and add a maximum of fifty points to each point 6. Click Yes to delete the selected points. group.
Page 20: Set Points
To set the setpoint for a device: • Device Name: Name of the device • Channel Name: Name of the channel on which the On the left corner of the screen, WebVision is listed. Expand device exists. WebVision to view all the devices associated with it.
Page 21: Demand Limit Control (Dlc)
DLC window close to the utility company's demand window Rotating loads are not restored until their Minimum period. This in turn will help WebVision to follow the same Shed Time has elapsed. criteria as that of the utility company when taking KW demand Rotating loads can't be in Shed time not more than shed decisions.
Page 22 Staging Interval drop-down list. The valid range modes present are: Disable, Deadband, Shed, and is in steps of 20 seconds to 120 seconds. Restore. WebVision collects the KW samples for every 15 NOTE: Use Filters to quickly search the required DLC mode. 95-7769—01...
Page 23 Assign Load It displays the status of an individual load assignment or all load assignments. If the DLC load configuration is modified, then the load assignment status is displayed as Normal. WebVision restores all the load assignments immediately by 95-7769—01...
Page 24 Internet Time Server. • Shed Method: Displays the method used to shed Ensure that the DNS server that WebVision uses load. For example, it can be Rotating, Off (DNS configuration done in Network Server) for Continuous, and so on.
Page 25 • IP Settings: (continued) setting the Engineering Units. All the point values in • IP Address: A 32 bit address used to identify the WebVision user interface are shown in the selected WebVision on IP network. This address is unit.
Page 26 3. Select required option from the Dial Up Type group box. Whenever you are not on network and still want to access WebVision, you can use the Dial-in facility. Using this feature you can access WebVision from anywhere. 4. Enter the following details.
Page 27 WEBVISION™ 4. Select the Connect to the Internet option and click 7. Type the name of the service provider and click Next. Next. Fig. 38. Connection Name - Service Provider. Fig. 35. Network Connection Type screen. 8. Type your phone number and click Next.
Page 28 This allows you to install software updates, if any, that are published by Honeywell for WebVision. 2. Click Install. Reboot WebVision 1. Click the Reboot button to reboot WebVision. This logs you out and then initiates reboot. 2. Re-logon after 5 to 10 minutes after the reboot is completed.
Page 29: Migration Of Lcbs Sites In Webvision
This may take about 5 to 10 minutes. 6. “LONSpec Changes” on page 32) 3. Logon to WebVision again, after 5 to 10 minutes. 7. “WebVision Configuration Steps” on page 32 NOTE: When saving the file, the default File Type option is .dist.
Page 30 XL15A has to be purchased separately and will not bindings are present to read/command all I/Os on RIO be provided along with WebVision. even if they are not used. WebVision does not have concept of associating RIOs with XL15Cs. Therefore, Decommissioning XL15B following is the behavior during migration: a.
Page 31 To fix the configuration error, use the following procedure: LonSpec downloads metric values to the controller. 1. Open the configuration of each XL15C and go to WebVision does not do any unit conversion of XL15C Control Loops tab. configuration values when displaying in the user interface.
Page 32 Click Network > Edit on the menu bar. The Edit WebVision Configuration Steps Network dialog box appears. Start the migration process on a fresh WebVision without any existing config file. There should not be any devices present in WebVision 1. Configure WebVision as given in the Quick Start Guide and connect it to Ethernet and LON network.
Page 33: Warranty And Returns
(especially for XL15C), user should wait a minute and retry the operation. WebVision does not support access through Refer the user to Honeywell's standard warranty policy in the PPPoE connection. PPPoE is the data link layer Environmental and Combustion Controls Product Catalog protocol used for broadband internet connections.
Page 34: Appendix A – Supported Devices
Go to the Devices tab. Expand the list of devices on the left The controller automatically disables heat and cool control pane (listed under WebVision). Select a device to view its until the window is closed again. Frost protection remains properties.
Page 35: Chc Outputs
WEBVISION™ Fan fail When configured with an air flow detector, the Table 7. Input/Output Detail. (Continued) controller protects equipment by disabling the system when the fan fails (for fan coil units with manual fan speed control). Function Number Characteristics Changeover The controller operates two-pipe units OUTPUTS configured with a changeover input.
Page 36 WEBVISION™ Table 8. CHC Outputs - Field Definitions. (Continued) Name Definition Application (continued) No Condensation Protection Disable the dew-point temperature calculation and protection. The cold water temperature and the humidity are not needed by the controller; the chilled ceiling protection can still be performed by the condensation switch.
Page 37: Chc Inputs
WEBVISION™ Table 8. CHC Outputs - Field Definitions. (Continued) Name Definition Control Outputs (continued) Three Stage A three-stage switched output. Terminals 14/17 are switched for stage 1, terminals 15/18 are switched for stage 2. Both terminal 14+15 and/or 17+18 are switched for stage 3.
Page 38 The setpoint knob is available in different types of scale, and with different setpoint meanings, based on the country of usage. The temperature engineering unit used (°C or °F) is the setting made in WebVision when creating the new project. That setting is used for the total project.
Page 39 WEBVISION™ Table 9. CHC Inputs - Field Definitions. (Continued) Name Field and Definition Input Ports Specifies usage of the controller inputs Analog Input 1 and Analog Input 2 Window Closed Indicates if a window is closed. Close window disables the controller operation. If the contact is closed, the window is closed.
Page 40 WEBVISION™ CHC Equipment Control Procedure 1. Click the Equipment Control button on the left pane to open the Equipment Control Configuration page. Purpose 2. Enter information into available fields. Define the main control features of controller outputs. 3. Click Commit to save the settings or Reset to revert to the last saved settings.
Page 41 WEBVISION™ CHC Switching Levels 3. Click Commit to save the settings or Reset to revert to the last saved settings. 4. Click Next to display the Miscellaneous Configuration Purpose page or Back to display the Switching Levels Configuration page. To configure the staged output switching levels.
Page 42 WEBVISION™ Table 11. CHC - Miscellaneous Options. (Continued) Name Option and Definition Energy Management DLC SetPoint Bump For load shedding applications, define the temporary setpoint shift to be added to the setpoint when the controller receives a Load Shedding command. By raising the setpoint during cooling operation, or reducing the setpoint during heating operation, the controller reduces the amount of heat or cool energy dissipated as a contribution to load shed algorithms.
Page 43: Chc Wiring Diagram
Go to the Devices tab. Expand the list of devices on the left Floating 14 On = open valve 17 On = open valve pane (listed under WebVision). Select a device to view its properties. 15 On = close valve 18 On = close valve...
Page 44: Cvahu Outputs
Enter all outputs, including optional outputs, to be controlled Controller Installation Instructions (form 95-7521) for by the CVAHU Controller. more information. This literature is available on customer.honeywell.com. Mode Try the following link for any document: http://customer.honeywell.com/request.cfm?form=xx-xxxx Configuration can be performed with the wizard Off-line or On-line.
Page 45 WEBVISION™ 7. Choose the number of cooling stages (1-4) or the type 9. Configure the Optional points. Refer to Table 16 on (PWM or Floating) from the Cooling list. page 45 for possible values. 8. Select the type of economizer from the Economizer list.
Page 46: Cvahu Inputs
WEBVISION™ CVAHU Inputs Table 17. CVAHU Outputs Fields. (Continued) Name Definition Description Motor Speed You can configure three Motor Speed settings: To select the wall module type, voltage and resistive inputs for • Heating a CVAHU application. • Cooling • Economizer Purpose Enter all inputs to be wired to the CVAHU.
Page 47 WEBVISION™ Table 19. CVAHU Inputs Fields. (Continued) Table 19. CVAHU Inputs Fields. (Continued) Name Definition Name Definition Optional Digital You can configure digital inputs. The Optional Analog You can configure both resistive and Inputs W7750A can be configured with a Inputs voltage type analog inputs.
Page 48: Cvahu Equipment Control
WEBVISION™ Table 21. CVAHU Equipment Control Fields. (Continued) Table 20. Use Wall Module vs. Override Priority. Name Definition Use Override Cascade Control Configure cascade control. Default is No. Use Wall Priority Module as Yes is available only if both a Discharge...
Page 49: Cvahu Economizer
WEBVISION™ CVAHU Economizer Table 22. CVAHU Economizer Fields. (Continued) Name Definition Purpose IAQ Position Minimum Position of Damper used when poor Indoor Air Quality conditions exist Define the four settings for using an economizer in a CVAHU (IAQ sensor > IAQ Setpoint, or if Digital application.
Page 50: Cvahu Zone Options
(form 74-2958) at for a discussion of the temperature during Occupied times while recovery ramp feature of the CVAHU. in the cooling mode. • This literature is available on customer.honeywell.com. Try the Cooling Standby Temperature range is 50 to 90 ºF following link: Setpoint (10 to 32 ºC).
Page 51: Cvahu Miscellaneous
WEBVISION™ Table 24. CVAHU Zone Options Fields. (Continued) Table 25. CVAHU Miscellaneous Fields. (Continued) Name Definition Name Definition Max. Limit Provides an upper limit on the allowed Use Wall Module Select one of the following options: Setpoint settings of the setpoint knob of the Wall •...
Page 52: Cvahu Pid
WEBVISION™ CVAHU PID discharge sensors or wiring are in noisy environments and the value reported to the controller is not stable (such that it bounces). The Control Band is used only in modulating Purpose control, and has no purpose when staged control is configured.
Page 53: Cvahu Custom Wiring
WEBVISION™ CVAHU Custom Wiring CVAHU Wiring Diagram Configuring CVAHU Custom Wiring Purpose Use the CVAHU Custom Wiring page to assign configured Display the wiring diagram for the controller. outputs to physical pins. Mode Purpose Configuration can be performed with the wizard Off-line or View or modify sensor output wiring locations.
Page 54: Configuring Fan Coil Unit Controllers (Fcu)
Navigating to FCU Pages Features Go to the Devices tab. Expand the list of devices on the left pane (listed under WebVision). Select a device to view its • LonMark HVAC profile 8020. properties. • Stand-alone operation or on high speed 78 kilobit LON network.
Page 55: Fcu Outputs
WEBVISION™ FCU Outputs • Fan fail When configured with an air flow detector, the controller protects equipment by disabling the system when the fan Description fails FCU applications can have a variable number of heating and • Changeover cooling stages. The number of pipes used on the unit could be The controller operates two-pipe FCUs configured with a two or four.
Page 56 WEBVISION™ Table 32. FCU Outputs - Fields and Definitions. Field Definition Types Select the hardware version to be used for the controller. The different hardware versions have different combinations of inputs and outputs. See the inset table below. The type of hardware you select affects the choices that appear in the rest of the pages for FCU.
Page 57 WEBVISION™ Table 32. FCU Outputs - Fields and Definitions. (Continued) Field Definition Control Configures the two control outputs for the different type of actuators and control sequences required for the Outputs application. Output 1 - The output triac pair connected to terminals 13, 14, and 15 of the controller.
Page 58 WEBVISION™ FCU Inputs fields Table 33 lists the FCU Inputs fields and definitions. Table 33. FCU Inputs Fields. Name Definition Wall Configures the functionality of the connected wall module. Always ensure that the features configured here are the Module same as the features available on the wall module device to be connected.
Page 59 The setpoint knob is available in different types of scales, and with different setpoint meanings, based on the Module Knob country of usage. The temperature engineering unit used (°C or °F) is the setting made in WebVision when (cont.) creating the new project. This setting is used for the total project.
Page 60 WEBVISION™ Table 33. FCU Inputs Fields. (Continued) Name Definition Digital Input Movement Points This selection is used for movement detector configuration where a closed contact indicates movement. (continued) Movement detector is the same as occupancy sensor, but with an additional Hold Time of 15 minutes. This adds a delay to the occupancy signal such that the space is considered occupied until 15 minutes has elapsed since the last movement is detected.
Page 61: Fcu Fan
WEBVISION™ Table 34. FCU Equipment Control Options. (Continued) Name Definitions Output Options (continued) Min Stage Off Time Define the minimum off-time for control outputs configured for operation as staged outputs. This setting is particularly useful for heat exchanger operation or compressor units. Each stage of the controlled output stays off for the minimum period of time before the controller turns it on again.
Page 62: Fcu Switching Levels
WEBVISION™ FCU Switching Levels Table 36. FCU Zone Control Options. (Continued) Name Definitions Purpose Unoccupied Setpoints during Unoccupied mode. Setpoints To configure fan switching level and staged output switching can range from 10 to 35 °C (50 to 95 °F).
Page 63: Fcu Pid
WEBVISION™ Table 37. FCU Miscellaneous Field Options. (Continued) Table 38. FCU PID Options. (Continued) Name Definitions Name Definitions Energy Cool.Rec.Ramp, Heat.Rec.Ramp Thermal Cooling /Heating Management Define the rate at which the setpoint is reset Switching Boost Temp (continued) during changes between occupancy modes...
Page 64 WEBVISION™ LON Bus Configuring Hydronic Controllers The terminals in Table 40 are used to connect the LON Bus (HYD) FTT-10A. The LON terminals are insensitive to polarity, eliminating wiring errors during installation. Recommended Description wire size is level IV 22 AWG nonshielded, twisted pair, solid conductor wired.
Page 65 WEBVISION™ Heat and cool sequences can be selected to be active or not Unoccupied mode active, giving a total of four different sequence options: This mode is used for longer unoccupied periods, such as at • Heat only night or during weekends and holidays.
Page 66 WEBVISION™ HYD Outputs fields Table 43. Hydronic Controller Types and Outputs. Name Definition Types Select the hardware version to be used for the controller. Each hardware version has different combinations of inputs and outputs. The software checks Type against the controller's selected application so that you cannot configure a controller for an application that it cannot perform.
Page 67: Hyd Inputs
WEBVISION™ Table 43. Hydronic Controller Types and Outputs. (Continued) Name Definition Control Output 2- Mode Outputs Output triac pair connected to terminals 16/17/18 of the controller. (cont.) Select the control sequence option to be allocated to output 2. For four-pipe applications, always allocate this output to the cool option to minimize field wiring errors.
Page 68 The setpoint knob is available in different types of scale, and with different setpoint meanings, based on the country of usage. The temperature engineering unit used (°C or °F) is the setting made in WebVision when creating the new project. This setting is used for the total project. Note that the setpoint knob only affects the Occupied and Standby Setpoints.
Page 69: Hyd Equipment Control Outputs
WEBVISION™ Table 44. Wall Module and Hydronic Controller Inputs. (Continued) Name Definition Digital Specifies usage of the controller's digital input. Digital Input 1. Input DI_WINDOW_CLOSED Points Indicates if a window is opened. An open window disables the controller operation. If the contact is closed, the window is closed.
Page 70: Hyd Switching Levels
WEBVISION™ HYD Outputs fields Table 45. Hydronic Controller Outputs Fields. Name Definition Output Defines the operating characteristics of the two valve actuator outputs, Output 1 and Output 2 as configured in the Options Outputs tab. The settings for both Outputs have the same meaning as described in the following text.
Page 71 WEBVISION™ HYD Miscellaneous Parameters Procedure 1. Click the Miscellaneous button on the left pane to open the Miscellaneous Configuration page. Purpose 2. Enter information into available fields. To configure miscellaneous and energy management 3. Click Commit to save the settings or Reset to revert to parameters.
Page 72: Hyd Wiring
WEBVISION™ Table 47. Hydronic PID Parameters. (Continued) Name Definition Thermal Cooling/Heating Switching Boost Temp Band/PID Sets a boost band for normal PID operation and when using thermal actuators. The variables indicate a Boost setpoint-space temperature deviation outside which the outputs are switched to full operation to act as a boost function when space temperature deviates significantly from the desired setpoint.
Page 73: Rio Inputs
AI1-4 Name After configuring a resistive analog input, Excel 10 W7761A Remote Input/Output Device System enter a descriptive name (up to 18 Engineering, form 74-2699 for more information. This characters). literature is available on customer.honeywell.com. Try the Voltage UNUSED following link: FIL_ST_PRESS_DIFF_AI http://customer.honeywell.com/request.cfm?form=xx-xxxx...
Page 74: Configuring The Unit Ventilator (Uv)
Go to the Devices tab. Expand the list of devices on the left period. The delta for each sensor is used to reduce LonWorks pane (listed under WebVision). Select a device to view its Bus traffic by reducing the amount of updates on a sensor that properties.
Page 75: Uv Outputs
WEBVISION™ UV Outputs Table 53. Unit Ventilator Outputs. (Continued) Use Table 53 to configure the Unit Ventilator Outputs for Name Definition heating and cooling stages. The outputs could be of stages, Economizer Selection of Economizer mixed air damper PWM, or floating types. In addition, the number of fan speeds actuator type: None (or packaged external and Economizer types must be set.
Page 76 WEBVISION™ Procedure Table 54. Unit Ventilator Inputs. (Continued) 1. Click the Input button on the left pane to open the Input Name Definition Configuration page. Optional User address(es) for analog points. Two 2. Enter information into available fields (see Table 54 on...
Page 77: Uv Economizer Settings
WEBVISION™ Procedure Table 55. .Unit Ventilator Control Options. (Continued) 1. Click the Equipment Control button on the left pane to Name Definition open the Equipment Control Configuration page. Filter Setpoint This option is enabled if an analog Filter 2. Enter information into available fields.
Page 78: Uv Heating/Cooling (H/C) Stages
WEBVISION™ UV Heating/Cooling (H/C) Stages Table 56. Unit Ventilator Economizer Settings. (Continued) Name Definition Use Table 57 to configure the Unit Ventilator H/C Stages to set the minimum on/off times, Cycles/ hour, recovery ramps of a OA Damper Min Minimum position of the Outdoor Damper Unit Vent application for heating and cooling stages.
Page 79: Uv Zone Options
WEBVISION™ UV Zone Options Table 58. Unit Ventilator Zone Options. (Continued) Use Table 58 to configure the Unit Ventilator Zone Options to Name Definition set the heating and cooling setpoints. Max. Limit Provides an upper limit on the allowed Setpoint settings of the Wall Module’s setpoint...
Page 80: Uv Pid Settings
WEBVISION™ Table 59. Unit Ventilator Miscellaneous Settings. CAUTION Name Definition Equipment Damage Possible Override Priority Set the priority scheme for the Bypass Can cause short cycling of compressors or wide override function. You can select one of swings in space temperature and excessive the following options: overdriving of modulating outputs.
Page 81: Uv Outputs Wiring Assignment
WEBVISION™ Table 60. Unit Ventilator PID Settings. (Continued) Table 60. Unit Ventilator PID Settings. (Continued) Name Definition Name Definition Cooling Integral Time Heating Derivative Time or Gain Integral Derivative Time Determines what impact the error-over-time has Time Determines what impact the error rate has on the on the output signal.
Page 82 Navigating to Excel 10 VAV II pages Display the wiring diagram for the UV controller. Go to the Devices tab. Expand the list of devices on the left pane (listed under WebVision). Select a device to view its Mode properties.
Page 83 WEBVISION™ Table 62. Excel 10 VAV II - Configuration Parameters. (Continued) Name Definition Box Type Defines the physical type of VAV Terminal the controller is connected to. This select determines what control options are available for the VAV Terminal. Valid selections for this field are: •...
Page 84 WEBVISION™ Table 62. Excel 10 VAV II - Configuration Parameters. (Continued) Name Definition Output Settings Section Flow Type Defines the control flow algorithm used by the controller. The selection available dependents of the Pressure Type and Box Type selected. Valid selections for this field are: •...
Page 85 WEBVISION™ Table 62. Excel 10 VAV II - Configuration Parameters. (Continued) Name Definition Output Settings Section (continued) Reheat Type • Float Periph Then Reheat – There is a modulating valve for the VAV Terminal reheat and a modulating (continued) valve for the space peripheral reheat. This option uses the series 60 type floating control for both valve outputs.
Page 86: Excel 10 Vav Ii – Inputs
WEBVISION™ Table 62. Excel 10 VAV II - Configuration Parameters. (Continued) Name Definition PWM Settings Section PWM Period Defines the time period of the PWM signal. This is usually the sum of the Zero time value and the Full Time value.
Page 87: Excel 10 Vav Ii – Control Parameters
WEBVISION™ Excel 10 VAV II – Control Parameters parameters. The controlled variable is the variable that should be held constant, for example, a room temperature. The Use Table 64 to configure the Excel 10 VAV II Control reference variable is the prescribed changeable value of the Parameters.
Page 88 WEBVISION™ Excel 10 VAV II Flow Pickup fields Excel 10 VAV II MIscellaneous Settings fields Table 66. VAV II Flow Pickup Fields. Table 67. VAV II MIscellaneous Settings. Name Definition Name Definition Pt 1 through Ten pairs of airflow values (Inw [Differential...
Page 89: Excel 10 Vav Ii – Wiring Diagram
WEBVISION™ Procedure NOTE: Fields appearing grayed out indicate those fields that change based on the Model Type selected on the 1. Click the Custom Wiring button on the left pane to Configuration page. open the Custom Wiring page. 2. You can choose to change the default assignment.
Page 90 WEBVISION™ NXVFD Drive Parameters fields It is mandatory to set the option to Fieldbus for NXVFD to consider the frequency setpoint from the wizard. Table 69. NXVFD Drive Parameters. This configuration can be performed using the Key Pad Point Min.
Page 91: Configuring The Xl15C Plant Controller (Xl15C)
WEBVISION™ Table 69. NXVFD Drive Parameters. (Continued) Each Analog Input may be configured as Analog or Digital. Point Min. Max. Typical Analog Inputs configured as Analog can receive Input from Name Value Value Value Description various types of sensors. Analog Inputs configured as Digital...
Page 92 WEBVISION™ • 20KNTC put together). The pulse must last for at least 20 • Digital Active Short milliseconds frequency must not be greater than • Digital Active Open 15 Hz. • Pulsemeter - At the most two digital inputs can NOTE: The Analog Inputs may be configured as analog or be configured as Pulsemeters.
Page 93 WEBVISION™ Purpose The control portion of the loop is an Enhanced PID (EPID) algorithm. The user configures control algorithm type (PID or To configure setpoint values for the XL15C. Non-linear), bias (position of set point within the proportional band (i.e. 0% or 50%), direct/reverse acting output, which...
Page 94 WEBVISION™ • Setpoint Override: A configured setpoint it to three separate analog outputs. Each of the overrides the existing setpoint if the sequenced analog outputs ranges from 0 to corresponding Digital Input is TRUE. The Digital 100%. The uses are controlling heating,...
Page 95 WEBVISION™ Purpose • On Delay Time: The delay in time for switching from one state to another before the output value To configure logic loops. switches to ON. • Off Delay Time: The delay in time for switching Procedure from one state to another before the output value 1.
Page 96 WEBVISION™ 7. Select the following time options: a. Choose the output to be defined. There are two pos- • Min On Time: Default minimum on time for sible analog outputs. Click the down arrow to view equipment is 5 minutes. Enter new value, if the list of outputs.
Page 97 4. Click Next to display the Keypad/Display Configuration page. Go to the Devices tab. Expand the list of devices on the left pane (listed under WebVision). Select a device to view its T7350 General Configuration fields properties. See Table 70.
Page 98 Min Ramp and OAT at Max Ramp fields in Setpoints page are disabled. Remote: Select this option if an outdoor air temperature sensor is hard-wired to the thermostat. The thermostat is compatible with the following Honeywell outdoor air sensors: C7170A1002 and C7089A1002 PT3000 PTC temperature sensor element (3484 ohms at 77 °F) Network: Select this option when the outdoor air temperature input is required over the network from other controllers.
Page 99 WEBVISION™ Table 70. T7350 General Configuration Fields (Continued) Name Definition Daylight Use this option to configure the settings for daylight savings. The following describes each field: Savings Enable Daylight Savings: This option is enabled by default. Disable this option if the daylight savings feature is not required to be followed by the thermostat.
Page 100 WEBVISION™ Table 70. T7350 General Configuration Fields (Continued) Name Definition Heat/Cool When the model is selected as T7350H1009 and the equipment type as Standard, the tool allows to configure for Stages up to three stages of heating and three stages of cooling. The fourth stage of cooling is available for selection as (continued) long as the 0/1/2 heat stages are selected.
Page 101 WEBVISION™ Keypad/Display Configuration fields Mode Configuration can be performed with the wizard Off-line or Table 71. Keypad/Display Configuration Fields. On-line. Name Definition Procedure Keypad Lockout Use this option to configure the keypad 1. Click the Setpoints button on the left pane to open the lockout enable/disable through special Setpoints Configuration page.
Page 102 WEBVISION™ Table 72. Heating and Cooling Setpoints. (Continued) HIGH LIMIT Use this to specify the high limit for the dehumidification to Min. and start. Default Max. Setpoint Value Ranges Description Any combination of the following 3 strategies is allowed: Heat 67 °F...
Page 103 WEBVISION™ MINIMUM RAMP RATE NOTE: This data is applicable when the unoccupied setpoints change to occupied or standby modes. Minimum Cool and heat recovery ramp rates are selectable from 0 to 20 DDF/hr. (0 to 11 DDC/hr.). A ramp rate of 0...
Page 104 WEBVISION™ T7350 Equipment Control fields Table 73. T7350 Equipment Control Fields. Name Definition Heating Fan On with Heat Selections This field specifies the selection of fan operation OFF with Heat The equipment (i.e. plenum switch) controls the fan operation in heat mode. The thermostat controls the fan operation in cool mode.
Page 105 WEBVISION™ Table 73. T7350 Equipment Control Fields. (Continued) Name Definition Loop This section allows the user to configure the loop tuning parameters. Tuning Throttling Range Use this screen to configure the heat and cool throttling ranges. The wizard automatically modifies the heat and cool throttling ranges when the number of stages configured is changed.
Page 106: Appendix B – Device Point Tables
WEBVISION™ APPENDIX B – DEVICE POINT TABLES This appendix provides a table for the points detail and a table for the application of points of the following controllers and devices: • W7763C/D/E Chilled Ceiling Controller (CHC) .. page 106 • Constant Volume Air Handling Unit Controller (CVAHU) ..............page 114...
Page 107 WEBVISION™ Table 74. CHC Point Details. (Continued) Point Name Network Variable Field Name Point Type Condensation State nvoChcStatus condensationState EnumPoint Cool Output nvoUnitStatus coolOutput NumericPoint Cool Temperature nvoChcStatus coolTemp NumericPoint DLC Shed nvoChcStatus dlcShed EnumPoint Economizer Output nvoUnitStatus econOutput NumericPoint...
Page 108 WEBVISION™ Table 75. CHC Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Standby Heat (Setpoint) Units=ºC Precision=2 Min=10.0 Max=35.0 Unoccupied Heat (Setpoint) Units=ºC Precision=2 Min=10.0 Max=35.0 Current State Default Occupied Unoccupied Bypass Standby Next State...
Page 109 WEBVISION™ Table 75. CHC Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Fan Speed Zero Medium High Auto Manual Mode Default Normal Disabled Update Status Self Test Update Alarm Report Mask Override Enable Remove Override...
Page 110 WEBVISION™ Table 75. CHC Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Alarm Type Node Off Frost Invalid Setpoint Temperature Sensor Restored Setpoint Knob Restored Fan Speed Switch Restored Fan Normal SpaceTemp Com Restored...
Page 111 WEBVISION™ Table 75. CHC Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values DLC Shed Restored or Shed Economizer Output Units=% Precision=1 Min=-163.8 Max=163.8 Effective Occupancy Default Occupied Unoccupied Bypass Standby Effective Sensor Occupancy X...
Page 112 WEBVISION™ Table 75. CHC Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Unit Status Mode Default Auto Heat Morning Warmup Cool Night Purge Pre-cool Test Emergency Heat Fan Only Free Cool Maximum Heat Economy...
Page 113 WEBVISION™ Table 75. CHC Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Scheduled Occupancy Default Occupied Unoccupied Bypass Standby Secondary Heat Output Units=% Precision=1 Min=-163.8 Max=163.8 Sensor Occupancy Default Occupied Unoccupied Bypass Standby Space Temperature Units=ºC...
Page 114 WEBVISION™ Constant Volume Air Handling Unit Controller (CVAHU) Table 76 provides the CVAHU points detail and Table 77 on page 115 provides the CVAHU application of points. Table 76. CVAHU Point Details Display Name Network Variable Field Name Point Type...
Page 115 WEBVISION™ Table 76. CVAHU Point Details (Continued) Display Name Network Variable Field Name Point Type Economizer Position nvoData2 EconPos NumericPoint Effective Occupancy nvoData1 EffectOcc EnumPoint Effective Setpoint nvoEffectSetPt tempP NumericPoint Fan Status nvoData1 FanOn EnumPoint Filter Air Pressure nvoData2 FilterPressure...
Page 116 WEBVISION™ Table 77. CVAHU Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Unoccupied Cool (Setpoint) Units=ºC Precision=2 Min=10.0 Max=35.0 Occupied Heat (Setpoint) Units=ºC Precision=2 Min=10.0 Max=35.0 Standby Heat (Setpoint) Units=ºC Precision=2 Min=10.0 Max=35.0 Unoccupied Heat (Setpoint) Units=ºC...
Page 117 WEBVISION™ Table 77. CVAHU Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Application Mode Default Auto Heat Morning Warmup Cool Night Purge Pre-cool Test Emergency Heat Fan Only Free Cool Maximum Heat Economy Dehumidify...
Page 118 WEBVISION™ Table 77. CVAHU Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Cool Position Units=% Precision=0 Min=-128.0 Max=127.0 Cool Stages On Units=null Precision=0 Min=0.0 Max=7.0 DLC Shed Restored or Shed Data1 Field No Update All 1...
Page 119 WEBVISION™ Table 77. CVAHU Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Discharge Air Temperature Units=ºF Precision=1 Min=-256.0 Max=256.0 Discharge Setpoint Units=ºF Precision=1 Min=-256.0 Max=256.0 Economizer Enable Default Medium High Economizer Float Synch Off or On...
Page 120 WEBVISION™ Table 77. CVAHU Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Mode Startup Wait Heat Cool Disabled Emergency Heat Smoke Emergency Freeze Protect Manual Factory Test Fan Only Monitor Switch Off or On...
Page 121 WEBVISION™ Table 77. CVAHU Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Return Air Temperature Units=ºF Precision=1 Min=-256.0 Max=256.0 Scheduled Occupancy Default Occupied Unoccupied Bypass Standby ShutDown False or True Smoke Monitor False or True...
Page 122: Fan Coil Unit Controller (Fcu)
WEBVISION™ Fan Coil Unit Controller (FCU) Table 78 provides the FCU points detail and Table 79 on page 123 provides the FCU application of points. Table 78. FCU Points Details Point Name Network Variable Field Point Type Occupied Cool nciSetPnts...
Page 123 WEBVISION™ Table 78. FCU Points Details (Continued) Point Name Network Variable Field Point Type Fan Feedback nvoFcuStatus fanFeedback NumericPoint External Active nvoFcuStatus externalActive NumericPoint Fan Stages Active nvoFcuStatus fanStagesActive EnumPoint Output Position 0 nvoFcuStatus outputPosition0 NumericPoint Output Position 1 nvoFcuStatus...
Page 124 WEBVISION™ Table 79. FCU Application of Points (Continued) Point name Graphics Alarms Trends Commandable Internal Use Valid Values Next State Default Occupied Unoccupied Bypass Standby Time To Next State Units=min Precision=0 Min=0.0 Max=65535.0 DLC Shed Shed or Restore Out Of Limits...
Page 125 WEBVISION™ Table 79. FCU Application of Points (Continued) Point name Graphics Alarms Trends Commandable Internal Use Valid Values Manual Mode Default Normal Disabled Update Status Self Test Update Alarm Report Mask Override Enable Remove Override Clear Status Clear Alarm Alarm Notify Enabled...
Page 126 WEBVISION™ Table 79. FCU Application of Points (Continued) Point name Graphics Alarms Trends Commandable Internal Use Valid Values Alarm Type Node Off Frost Invalid Setpoint Temperature Sensor Restored Setpoint Knob Restored Fan Speed Switch Restored Fan Normal SpaceTemp Com Restored...
Page 127 WEBVISION™ Table 79. FCU Application of Points (Continued) Point name Graphics Alarms Trends Commandable Internal Use Valid Values Effective Occupancy Default Occupied Unoccupied Bypass Standby Effective Sensor Occupancy Default Occupied Unoccupied Bypass Standby Effective Window Open Closed or Open External Active...
Page 128 WEBVISION™ Table 79. FCU Application of Points (Continued) Point name Graphics Alarms Trends Commandable Internal Use Valid Values FCU Status Mode Disabled Cool Heat Pressurize Depressurize Manual Mode Factory Test Mode Floating Out of Sync Fan Switch Off Startup Wait...
Page 129: Hydronic Controller (Hyd)
WEBVISION™ Hydronic Controller (HYD) Table 80 provides the HYD points detail and Table 81 on page 130 provides the HYD application of points. Table 80. HYD Point Details. Point Name Network Variable Field Name Point Type Occupied Cool nciSetPnts occupiedCool...
Page 130 WEBVISION™ Table 80. HYD Point Details. (Continued) Point Name Network Variable Field Name Point Type RO LED nvoHydStatus rOLed EnumPoint HYD Status Mode nvoHydStatus mode EnumPoint Alarm Type nvoHydStatus alarmType EnumPoint DLC Shed nvoHydStatus dlcShed NumericPoint Effective Window Open nvoHydStatus...
Page 131 WEBVISION™ Table 81. HYD Application of Points. (Continued) Point name Graphics Alarms Trends Commandable Internal Use Valid Values Next State Default Occupied Unoccupied Bypass Standby Time To Next State Units=min Precision=0 Min=0.0 Max=65535.0 DLC Shed Shed or Restore Out Of Limits...
Page 132 WEBVISION™ Table 81. HYD Application of Points. (Continued) Point name Graphics Alarms Trends Commandable Internal Use Valid Values Manual Mode Default Normal Disabled Update Status Self Test Update Alarm Report Mask Override Enable Remove Override Clear Status Clear Alarm Alarm Notify Enabled...
Page 133 WEBVISION™ Table 81. HYD Application of Points. (Continued) Point name Graphics Alarms Trends Commandable Internal Use Valid Values Alarm Type Node Off Frost Invalid Setpoint Temperature Sensor Restored Setpoint Knob Restored Fan Speed Switch Restored Fan Normal SpaceTemp Com Restored...
Page 134 WEBVISION™ Table 81. HYD Application of Points. (Continued) Point name Graphics Alarms Trends Commandable Internal Use Valid Values Effective Occupancy Default Occupied Unoccupied Bypass Standby Effective Sensor Occupancy Default Occupied Unoccupied Bypass Standby Effective Window Open Closed or Open External Active...
Page 135 WEBVISION™ Table 81. HYD Application of Points. (Continued) Point name Graphics Alarms Trends Commandable Internal Use Valid Values HYD Status Mode Disabled Cool Heat Pressurize Depressurize Manual Mode Factory Test Mode Floating Out of Sync Fan Switch Off Startup Wait...
Page 136: Excel 10 Remote Input/Output Device (Rio)
WEBVISION™ Excel 10 Remote Input/Output Device (RIO) Table 82 provides the RIO points detail and Table 83 on page 136 provides the RIO application of points. Table 82. RIO Point Details. Point name Network Variable Field Point Type Communication Failed...
Page 137 WEBVISION™ Table 83. RIO Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Analog In 3 Units=ºF Precision=1 Min=-256.0 Max=256.0 Analog In 4 Units=ºF Precision=1 Min=-256.0 Max=256.0 Analog In 5 Units=null Precision=0 Min=-32768.0 Max=32767.0 Analog In 6...
Page 138: Unit Ventilator (Uv)
WEBVISION™ Unit Ventilator (UV) Table 84 provides the UV points detail and Table 85 on page 139 provides the UV application of points. Table 84. UV Point Details. Point Name Network Variable Field Name Point Type Occupied Cool nciSetpoints occupiedCool...
Page 139 WEBVISION™ Table 84. UV Point Details. (Continued) Point Name Network Variable Field Name Point Type Fan Speed nvoData1 FanSpeed NumericPoint Fan Switch nvoData1 FanSwitch EnumPoint Filter Pressure nvoData2 FilterPressure NumericPoint Free State 1 nvoData1 Free1Stat EnumPoint Heat Source nvoData1 HeatSource...
Page 140 WEBVISION™ Table 85. UV Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Occupied Heat (Setpoint) Units=ºC Precision=2 Min=10.0 Max=35.0 Standby Heat (Setpoint) Units=ºC Precision=2 Min=10.0 Max=35.0 Unoccupied Heat (Setpoint) Units=ºC Precision=2 Min=10.0 Max=35.0 Current State...
Page 141 WEBVISION™ Table 85. UV Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Application Mode Default Auto Heat Morning Warmup Cool Night Purge Pre-cool Test Emergency Heat Fan Only Free Cool Maximum Heat Economy Dehumidify...
Page 142 WEBVISION™ Table 85. UV Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Cool Position Units=% Precision=0 Min=-128.0 Max=127.0 Cool Stages On Units=null Precision=0 Min=0.0 Max=3.0 DLC Shed Restored or Shed Dirty Filter False or True Discharge Air Setpoint Units=ºF...
Page 143 WEBVISION™ Table 85. UV Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Heat Position Units=% Precision=0 Min=-128.0 Max=127.0 Heat Source Default Medium High Heat Stages On Units=null Precision=0 Min=0.0 Max=3.0 Indoor Air Quality Override...
Page 144 WEBVISION™ Table 85. UV Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Outside Air Quality Units=ppm Precision=0 Min=0.0 Max=65535.0 Override Default Occupied Unoccupied Bypass Standby Proof Of Air Flow Default Medium High Return Air Enthalpy...
Page 145: Excel 10 Vav Ii Controller (Vav Ii)
WEBVISION™ Excel 10 VAV II Controller (VAV II) Table 86 provides the VAV II points detail and Table 87 on page 146 provides the VAV II application of points. Table 86. VAV II Point Details. Point Name Network Variable Field...
Page 146 WEBVISION™ Table 86. VAV II Point Details. (Continued) Point Name Network Variable Field Point Type Fan Status nvoData FanOn EnumPoint Field No nvoData FieldNo EnumPoint Flow Sensor nvoIO siFlowSensorS3 NumericPoint Flow Uncorrected nvoIO siFlowUncorrectedS3 NumericPoint Flow Volts nvoIO siFlowVoltsS12 NumericPoint...
Page 147 WEBVISION™ Table 87. VAV II Application of Points (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Unoccupied Cool (Setpoint) Units=ºC Precision=2 Min=10.0 Max=35.0 Occupied Heat (Setpoint) Units=ºC Precision=2 Min=10.0 Max=35.0 Standby Heat (Setpoint) Units=ºC Precision=2 Min=10.0 Max=35.0 Unoccupied Heat (Setpoint) Units=ºC...
Page 148 WEBVISION™ Table 87. VAV II Application of Points (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Application Mode Default Auto Heat Morning Warmup Cool Night Purge Pre-cool Test Emergency Heat Fan Only Free Cool Maximum Heat Economy...
Page 149 WEBVISION™ Table 87. VAV II Application of Points (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Digital In 2 False or True Digital In 3 False or True Digital Out 1 Off or On Digital Out 2...
Page 150 WEBVISION™ Table 87. VAV II Application of Points (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Heat Cool Switch Off or On Heat Stages Units=null Precision=0 Min=0.0 Max=3.0 IO Test In False or True IO Test Switch...
Page 151 WEBVISION™ Table 87. VAV II Application of Points (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Scheduled Occupancy Default Occupied Unoccupied Bypass Standby Sensor Occupancy Default Occupied Unoccupied Bypass Standby Space Temperature Units=ºF Precision=1 Min=-256.0 Max=256.0 Space Temperature IO Units=ºF...
Page 152 WEBVISION™ Vacon NX Frequency Converter (NXVFD) Table 88 provides the NXVFD points detail and Table 89 on page 153 provides the NXVFD application of points. Table 88. NXVFD Point Details. Point Name Network Variable Field Name Point Type Application Type...
Page 153 WEBVISION™ Table 89. NXVFD Application of Points. Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Adjust Input / Actual Value 2 Units=% Precision=1 Min.=-163.8 Max=163.8 Clear Counter Units=% Precision=1 Min=0.0 Max=100.0 Drive Speed Setpoint Units=% Precision=1 Min=0.0 Max=100.0...
Page 154 WEBVISION™ Table 89. NXVFD Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Motor Current Units=% Precision=1 Min=-163.8 Max=163.8 Motor Power Units=% Precision=1 Min=-163.8 Max=163.8 Motor Speed Units=% Precision=1 Min=-163.8 Max=163.8 Motor Torque Units=% Precision=1 Min=-163.8...
Page 155: Xl15C Plant Controller (Xl15C)
WEBVISION™ XL15C Plant Controller (XL15C) Table 90 provides the XL15C points detail and Table 91 on page 158 provides the XL15C application of points. Table 90. XL15C Point Details. Point Name Network Variable Field Point Type Nvo Alarm Status _ St Pt Lp8 Alm...
Page 156 WEBVISION™ Table 90. XL15C Point Details. (Continued) Point Name Network Variable Field Point Type Nvo D I Sensor _on Off7 nvoDISensor/data onOff7 EnumPoint Nvo D I Sensor _on Off8 nvoDISensor/data onOff8 EnumPoint Nvo Cal Cnt _ Cal Count0 nvoCalCnt/data CalCount0...
Page 157 WEBVISION™ Table 90. XL15C Point Details. (Continued) Point Name Network Variable Field Point Type Nvo Appl Mode _hvac Mode temp/NetworkOut/nvoApplMode hvacMode EnumPoint Nvo Econ Enable _value temp/NetworkOut/nvoEconEnable value NumericPoint Nvo Econ Enable _state temp/NetworkOut/nvoEconEnable state EnumPoint Nvo Occupancy _occupancy temp/NetworkOut/nvoOccupancy...
Page 158 WEBVISION™ Table 90. XL15C Point Details. (Continued) Point Name Network Variable Field Point Type Nvo L L Status _or Gate Status temp/LogicLoop_1/nvoLLStatus/data orGateStatus EnumPoint Nvo L L Status _dc Ao Status temp/LogicLoop_1/nvoLLStatus/data dcAoStatus NumericPoint Nvo Bypass _value temp/StartStopLoop_1/nvoBypass value NumericPoint...
Page 159 WEBVISION™ Table 91. XL15C Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Time To Next State Units=min Precision=0 Min=0.0 Max=65535.0 D L C Shed Units=null Precision=0 Min=0.0 Max=255.0 D L C Shed Units=null Precision=0 Min=0.0...
Page 160 WEBVISION™ Table 91. XL15C Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Nvi Bypass _value Units=% Precision=1 Min=0.0 Max=100.0 Nvi Bypass _state Default Nvi Man Occ _occupancy Occupied Unoccupied Bypass Standby Default Nvo A I Sensor _ai Val...
Page 161 WEBVISION™ Table 91. XL15C Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Nvo Occupancy _occupancy Occupied Unoccupied Bypass Standby Default Nvo Cool U T M L _value Units=% Precision=1 Min=0.0 Max=100.0 Nvo Cool U T M L _state...
Page 162 WEBVISION™ Table 91. XL15C Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Nvo F T Status _sensor Occupancy Occupied Unoccupied Bypass Standby Default Nvo F T Status _sys Mode Auto Heat Morning Warmup Cool...
Page 163 WEBVISION™ Table 91. XL15C Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Nvo F T Status _prim Stage3 On False or True Nvo F T Status _prim Stage4 On False or True Nvo F T Status _seq1 Stage1 On...
Page 164 WEBVISION™ Table 91. XL15C Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Nvo St Stp Status _sys Mode Auto Heat Morning Warmup Cool Night Purge Pre-cool Test Emergency Heat Fan Only Free Cool Maximum Heat...
Page 165 WEBVISION™ Table 91. XL15C Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Nvo A I Cnt _ai Chan1 Sensor Units=null Precision=0 Min=0.0 Max=65535.0 Nvo A I Cnt _ai Chan2 Sensor Units=null Precision=0 Min=0.0 Max=65535.0...
Page 166 WEBVISION™ Table 91. XL15C Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Nvo A I Filtered Cnt _ai Chan5 Sensor Units=null Precision=0 Min=0.0 Max=65535.0 Nvo A I Filtered Cnt _ai Chan6 Sensor Units=null Precision=0 Min=0.0...
Page 167 WEBVISION™ Table 91. XL15C Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Nvo Cal Cnt _ Cal Count6 Units=null Precision=0 Min=0.0 Max=65535.0 Nvo Cal Cnt _ Cal Count7 Units=null Precision=0 Min=0.0 Max=65535.0 Nvo Cal Cnt _ Cal Count8...
Page 168: T7350 Thermostat (T)
WEBVISION™ T7350 Thermostat (T7350) Table 92 provides the T7350 points detail and Table 93 on page 169 provides the T7350 application of points. Table 92. T7350 Point Details. Point Name Network Variable Field Point Type Occupied Cool nciSetpoints occupiedCool NumericWritable...
Page 169 WEBVISION™ Table 92. T7350 Point Details. (Continued) Point Name Network Variable Field Point Type Holiday nvoData2 holiday EnumPoint Next State nvoData2 schedNextState EnumPoint Occupancy Sensor nvoData2 occSensor EnumPoint Outdoor Temperature nvoData1 oDTemp NumericPoint Percent Cool Command nvoData1 percentCmdCool NumericPoint Percent Heat Command...
Page 170 WEBVISION™ Table 93. T7350 Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Unoccupied Heat (Setpoint) Units=ºC Precision=2 Min=4.4 Max=32.2 Current State Occupied Unoccupied Bypass Standby Occ Null Next State Occupied Unoccupied Bypass Standby Occ Null...
Page 171 WEBVISION™ Table 93. T7350 Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Manual Mode Default Normal Disabled Update Status Self Test Update Alarm Report Mask Override Enable Remove Override Clear Status Clear Alarm Alarm Notify Enabled...
Page 172 WEBVISION™ Table 93. T7350 Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Economizer Output Units=% Precision=1 Min=-163.8 Max=163.8 Effective Mode Default Cool Heat Emergency Heat Reheat Manual Factory Test Effective Occupancy Default Occupied Unoccupied...
Page 173 WEBVISION™ Table 93. T7350 Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Scheduled State Occupied Unoccupied Bypass Standby Occ Null Space Humidity Units=% Precision=1 Min=-163.8 Max=163.8 Space Temperature Units=ºC Precision=1 Min=-273.2 Max=327.7 Stages Active...
Page 174 WEBVISION™ Table 93. T7350 Application of Points. (Continued) Point Name Graphics Alarms Trends Commandable Internal Use Valid Values Terminal Load Units=% Precision=1 Min=-163.8 Max=163.8 Time To Next State Units=min Precision=0 Min=0.0 Max=65535.0 Total Error Units=ºF Precision=1 Min=-512.0 Max=512.0 95-7769—01...
Page 175: Topic Index
Demand Limit Control (DLC) ........21 UV Heating/Cooling (H/C) Stages ......78 System ............... 24 UV Zone Options ............ 79 Migration of LCBS Sites in WebVision ....... 29 UV Miscellaneous Settings........79 Warranty and Returns ........... 33 UV PID settings ............80 Appendix A –...
Page 176 Microsoft Corporation. ® Niagara Framework and the Niagara framework logo are registered trademarks of Tridium, Inc. WebVision™ and WebStat™ are trademarks of Honeywell International Inc. Automation and Control Solutions Honeywell International Inc. 1985 Douglas Drive North Golden Valley, MN 55422 Honeywell Limited-Honeywell Limitée...

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