Honeywell Furnace 62 2030 01 User Manual

Stryker VAV User Guide  
USER GUIDE  
CONTENTS  
1.  
ABOUT STRYKER VAV............................................... 2  
8.  
9.  
CONFIGURING THE CONTROL PARAMETERS.......15  
1.1  
Overview ........................................................... 2  
Features available in the Stryker VAV  
8.1  
Fields................................................................15  
1.2  
CONFIGURING THE PID............................................16  
Configuration Tool ............................................. 2  
Acronyms and Definitions.................................. 2  
Icons available in the Styker  
9.1  
Fields............................................................... 16  
1.3  
1.4  
10. CONFIGURING THE ACCESSORY LOOPS..............17  
10.1 Fields................................................................17  
Configuration Tool ............................................. 3  
2.  
CONFIGURATION ....................................................... 4  
11. CONFIGURING THE CUSTOM WIRING ....................19  
11.1 Fields................................................................19  
2.1  
Adding a device................................................. 4  
Configuring the Stryker VAV Device.................. 4  
Fields................................................................. 4  
2.2  
2.3  
12. ALARM VIEW..............................................................19  
12.1 Fields................................................................20  
3.  
4.  
5.  
6.  
7.  
CONFIGURING THE OUTPUTS.................................. 5  
3.1  
Fields................................................................. 6  
13. DIAGNOSTICS........................................................... 21  
13.1 Fields................................................................21  
CONFIGURING THE INPUTS...................................... 8  
4.1  
Fields................................................................. 8  
14. FLOW BALANCING....................................................22  
14.1 Fields................................................................22  
CONFIGURING THE SCHEDULE..............................10  
5.1  
Fields................................................................10  
15. MONITORING..............................................................23  
15.1 Fields................................................................24  
CONFIGURING THE TEMPERATURE SETPOINTS .11  
6.1  
Fields................................................................11  
16. SENSOR CALIBRATION ............................................25  
16.1 Fields................................................................25  
CONFIGURING THE FLOW SETPOINTS..................13  
7.1  
7.2  
Procedure.........................................................13  
Fields................................................................13  
17. SETTING TIME........................................................... 26  
17.1 Fields................................................................26  
18. ONLINE OPERATION .................................................26  
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STRYKER VAV USER GUIDE  
1.4 Icons available in the Stryker VAV Configuration Tool  
Table 2. Available Icons.  
Device Icon  
Icon Status  
Download State  
Description  
This icon indicates that the configuration from the station has been  
written to the device via the Asc Download action or the configuration  
from the device has been updated in the station via the Asc Upload  
action.  
Download Pending State  
This is a download pending icon. It appears when the device is  
dropped onto the Nav pane.  
Entering numeric values that are very close to the  
valid range for a given field.  
Tip  
Numeric values are stored in the application in a defined  
unit. When these values are loaded in the configuration  
wizard they may be displayed in a different unit. Each unit  
has a defined precision. Because of this difference in the  
precision and the unit, there may be loss of data when  
loading the numeric values into the wizard and when  
saving the numeric values. This loss of data is of very small  
magnitude and will not affect the functioning of the  
controller.  
When the configuration is uploaded from the device, if the  
input and output configuration in the device is different from  
the input and output configuration in the database then the  
user configured input and output names will be lost. The  
default input and output names will be displayed.  
The progress bar indicates the current progress in the  
wizard. Sometimes it may take few minutes to load the  
progress bar, and the progress bar will not give the  
accurate progress during loading.  
Each unit has a pre-defined configuration. If the user  
configures the device different from the pre-defined  
configuration, the wizard displays a warning message. The  
warning message is just to notify the user about the  
configuration. The user can ignore the warning message  
and continue with the configuration.  
You may experience this loss during the following  
scenarios.  
Setting the unit system to English and entering values  
in fields such as flow set points and temperature set  
points.  
For Example:  
Predefined configuration: A Series Fan configuration should be combined with the Pressure Independent air flow con-  
trol.  
Actual Configuration: If the user combines the Series Fan configuration with the Pressure Dependent air flow control,  
the wizard displays the following warning message.  
To view all the warning messages displayed during the configuration, click the  
messages are displayed as shown in the following image.  
button. The warning  
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2. CONFIGURATION  
2.1 Adding a device  
Use this page to add an Stryker VAV device to the LON network. You can add a device either in the online mode or the offline  
mode.  
To add an Stryker VAV device:  
Step  
Action  
1
2
3
4
From the Lon Device Manager, click New. The New dialog box appears.  
Select AscLonVAV Device from the Type to Add list.  
Type one in the Number to Add box. Click Ok. The details of the device are displayed.  
Enter information in the available fields.  
Click Ok. You can view the newly added device under Local Lon Device items in the Nav palette.  
Note: The other way to add a new device is by using the Lon Discover option.  
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2.2 Configuring the Stryker VAV Device  
Use this page to configure an Stryker VAV device on the LON network. You can configure the device either in the online mode or  
the offline mode.  
To configure the Stryker VAV device:  
Step  
Action  
From the Nav menu, choose Station > Driver > LON network > AscLonVAV device.  
Double click AscLonVAVDevice. The VAV Configuration Wizard page appears.  
Enter information in the available fields.  
1
2
3
4
5
6
Click Next to display the Outputs page.  
Click UndoAll to revert to the last saved settings.  
Click Finish to save settings to station.  
2.3 Fields  
Table 3. Stryker VAV Device Fields.  
Name  
Controller Type  
Pressure Type  
Definition  
Displays the Controller Type such as With Actuator or Without Actuator.  
Displays the VAV Terminal Unit pressure control operation for this application. This selection defines  
how the controller will operate the VAV Terminal Units damper. Valid selections for this field are:  
Pressure Independent - The controller uses airflow as the primary means of controlling the VAV  
Terminal Damper.  
Pressure Dependent - The controller uses space temperature as the primary means of controlling  
the VAV Terminal Damper.  
Box Type  
Displays the physical type of VAV Terminal. This selection determines what control options are  
available for the VAV Terminal. Valid selections for this field are:  
Single Duct: This VAV Terminal type consists of a single primary air supply inlet connection with or  
without a primary flow sensor. This box type is primarily used for cooling only applications, cooling  
with local reheat or dual temperature (central heating/cooling) systems.  
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Table 3. Stryker VAV Device Fields. (Continued)  
Definition  
Name  
Flow Type  
Displays the control flow algorithm used by the controller. The selection available depends on the  
Pressure Type and Box Type selected. Valid selections for this field are:  
Flow Normal: The flow is controlled to satisfy the temperature control algorithm.  
Flow Tracking: This VAV Terminal type consists of a single inlet air connection receiving its primary  
source from the conditioned space. The outlet of the terminal is connected to a return air (or exhaust  
air) system. The temperature control is turned off and the air flow is controlled to balance the flow  
between several input vav boxes and one exhaust vav box in a room. This flow type is selectable  
only when the Pressure Type is set to pressure independent.  
Shared Wall Module: The temperature control loop is turned off and the flow is controlled by the  
wall module at another master node. The NV nviShare of this controller must be bound to nvoShare  
of the master node and the information received in nviShare is used to control the air flow. The  
master node must have the temperature sensor connected to it and controls the space temperature  
using its own damper and the other dampers of all nodes bound to it. This feature is used when only  
one temperature sensor is used in a large area to control several boxes or when there is a need to  
reprogram multiple satellite controllers based on flexible floor plans.  
Wall Module Type  
Displays the type of wall module to be used for this application. This selection determines the type of  
control and options that are available from the wall module. Valid selections for this field are:  
None: There is no physical wall module connection to this controller.  
Conventional Wall Module: Select this when using the TR21, TR22 and TR23 series of wall  
modules.  
TR71/75 Wall Module: These wall modules provide access to configuration parameters and  
schedule events.  
Controller Power up  
Disable Time  
Enables you to set controller power disable time. The digital outputs of the controller are disabled for  
this duration after power-up. This configuration is ignored by the controller when it is in emergency  
mode.  
Set Time During  
Download  
Enable this option to set the controller time during the download operation.  
Daylight Savings  
Settings  
This feature enables you to select the Daylight Savings Settings. The available options enable you  
to select Start Month, Start Day, End Month and End Day.  
The tool validates the correct start and end date selection for day light savings. If the start and end  
date configured is not valid then the tool displays an error and prevents the day light savings  
th  
st  
configuration from being saved. Examples of invalid date are: February 30 , June 31 , September  
31 .  
st  
RELATED TOPICS  
3. CONFIGURING THE OUTPUTS  
Use this page to configure the outputs of the Stryker VAV device as well as the parameters used to control the outputs.  
To configure outputs:  
Step  
Action  
1
2
3
4
5
From the left pane of the VAV Configuration Wizard, select Outputs.  
Enter information in the available fields.  
Click Undo All to revert to the last saved settings.  
Click Next to display the Inputs page.  
Click Finish to save settings to station.  
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3.1 Fields  
Table 4. Output Fields.  
Definition  
Name  
Output  
Displays the list of Outputs that can be controlled such as: Damper motor, Reheat, Peripheral heat,  
Fan and Wall module occupancy status LED.  
Output Assignment Displays the mode of output assignment for all output types.  
Damper Motor: Enables you to select the damper motor control type as Analog Control, PWM  
Control, and Floating Control.  
NOTE: Floating actuators are recommended for pressure independent control since the Ana-  
log or PWM type of actuators do not provide the required resolution for achieving sta-  
ble flow.  
Reheat: This enables you to configure modulating reheat or upto 3 stages of reheat.  
NOTE: Damper is controlled during reheat based on the 'Modulate Reheat Flow' configura-  
tion. This is available under 'Output parameters' for Reheat  
Peripheral Heat: This enables you to configured staged or modulating control of peripheral heat.  
NOTE: When both Reheat and peripheral heat are configured, the sequence of control is  
determined by the 'Heating sequence' configuration under Output Parameters. When  
modulating control is selected for peripheral heat, the minimum peripheral heat modu-  
lating valve position can be configured under Ouput Parameters.  
Fan: Enables you to select the fan types such as No Fan, Series Fan, Parallel Temperature Control,  
Parallel Flow Control, Parallel PWM Control fan, and Parallel speed control for float and analog.  
Wallmodule Occupancy Status LED: This output controls the LED available on the TR21-series  
wallmodules.  
Additional Outputs: The following optional outputs can be configured:  
Auxiliary Digital Output: This output is activated when the effective occupancy is 'Occupied'.  
Auxiliary Pulse On: This output is pulsed when the effective occupancy changes to 'Occupied'.  
Auxiliary Pulse Off: This output is pulsed when the effective occupancy changes to 'UnOccupied'.  
Free Digital Output, Free Pulse On and Free Pulse Off: These outputs are controlled from the  
network through nviFree1Dig.  
Free Analog output: This output is controlled from the network through nviFree1Mod.  
Output Name  
Enables you to edit the default output name.  
NOTE: A maximum length of 18 characters is allowed. The following characters are valid a-z,  
A-Z, 0-9, under-score and space.  
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Table 4. Output Fields. (Continued)  
Definition  
Name  
Output Parameters  
Damper Motor,  
Reheat, Peripheral  
Heat, Fan,  
FreeAnalog and Wall  
Mod LED  
When these outputs are configured as Analog, PWM or floating outputs, the corresponding output  
control parameters can be configured.  
Analog Control: This option enables you to enter analog output mode and analog output control for  
damper motor.  
PWM Control: This option enables you to enter Pulse Width Modulation (PWM) period, zero scale  
and full scale.  
Floating Control: This option enables you to enter floating motor travel time, startup sync position,  
startup delay, auto sync position and auto sync interval.  
'Unocc sync Position' can be used to configure whether the floating output should be synchronized  
when effective occupancy transitions to 'Unoccupied'.  
'Network sync Position' can be used to configure whether the floating output should be synchronized  
on an active nviFree1Dig signal.  
Note on configuring reverse action for outputs:  
Analog: Use the 'Analog Output control' field to configure the output ranges that map to 0-100%.  
PWM: To get reverse acting PWM, configure PWM zero scale with a higher value compared to PWM  
Full scale.  
Floating: Use the 'Action' field to change direction of control. Alternately, the pins assigned to 'Open'  
and 'Close' can be swapped in the custom wiring screen to reverse the action.  
Modulate Reheat  
Flow  
Enables you to configure whether airflow and damper should be controlled (between minimum position  
and fixed reheat position) according to the temperature control loop.  
Peripheral minimum This feature can be used to maintain flow in pipes that may otherwise freeze. If the outdoor air  
position  
temperature value is connected to the zone terminal, the minimum position is active when the outdoor  
air temperature is below 40F.  
Heating Sequence  
When both reheat and peripheral heat are configured, this allows you to specify the sequence in which  
these outputs are controlled.  
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4. CONFIGURING THE INPUTS  
Use this page to configure the inputs used by the Stryker VAV device. This page is also used to configure the optional 10-point  
custom sensor curves.  
To set inputs:  
Step  
Action  
1
2
From the left pane of the VAV Configuration Wizard, select Inputs.  
For configuring various inputs to be used by the controller, use the Inputs tab. The Custom Sensors tab  
can be used to configure 10-point custom sensor curves.  
3
4
5
6
Enter information in the available fields.  
Click Undo All to revert to the last saved settings.  
Click Next to display the Temperature Setpoints page.  
Click Finish to save settings to station.  
4.1 Fields  
Table 5. Input Fields.  
Definition  
Name  
Input  
Displays the list of inputs that can be configured to be used by the controller.  
The following modulating inputs can be configured:  
Space temperature, outdoor air temperature, outdoor humidity, Airflow velocity pressure,  
Wallmodule occupancy override, discharge temperature, supply temperature, space temperature  
setpoint, space relative humidity, space CO2, static pressure, MonitorSensor and peripheral  
minimum position  
The following binary inputs can be configured:  
Occupancy sensor, Window open sensor, heat cool changeover switch, MonitorSwitch and  
Wallmodule occupancy override button.  
Input Source  
Enables you to select the Input Source based on input type. The input can be configured as a  
sensor connected to the hardware input or as a Lon network input. Some of the inputs can also be  
configured as Sylk bus inputs. If the Input source is selected as one of the following types, an  
Analog or Digital pin is assigned:  
20kntc, TR2x_20kntc, RH 0 to 10V dc, RH 2 to 10V dc, Pressure 0 to 5 in.Wc, Pressure 0 to 2.5  
in.Wc, Pressure 0 to 0.25 in.Wc, CO2 0to2000 ppm or a generic 0-10V voltage sensor.  
NOTE: You will be able to view and reassign the pins in the Custom wiring page.  
NOTE: You can also configure the input source as a Sylk sensor. A maximum of 2 Sylk sen-  
sors can be connected (one TR71/T5 and one C7400S sensor).  
Input Name  
Using this field you can edit the default input name.  
NOTE: A maximum length of 18 characters is allowed. The following characters are valid a-  
z, A-Z, 0-9, under-score and space.  
Input Parameters  
Space Temperature  
Setpoint  
The Set Point Knob Type can be configured as Absolute or Relative.  
This option is applicable only when using a TR2x type of wallmodule  
Zio Wall Module  
Enables you to configure the clock format displayed by TR71/75 and the units used to display  
temperature values.  
These settings are applicable only when using a TR71 or TR75 wallmodule.  
You can configure various parameters through Zio wall module. To configure the parameters you  
need to go to contractor mode by entering the password in the Zio wall module. You can ignore  
entering the password in the Zio wall module for every time by configuring the password in the  
Contractor Mode Password field.  
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Table 5. Input Fields. (Continued)  
Definition  
Name  
Occupancy sensor  
Operation  
When an occupancy sensor is configured, this field enables you to configure the following control  
operations to determine the behavior during scheduled unoccupied modes:  
UnoccupiedCleaningCrew: Effective occupancy switches to standby for the comfort of the cleaning  
crew.  
ConferenceRoom: Effective occupancy stays unoccupied independent of the occupancy sensor  
activity. During scheduled occupancy, occupancy sensor changes mode between standby and  
occupied.  
UnoccupiedTenant: When the occupancy sensor is active, effective occupancy switches to  
occupied for the comfort of the tenant.  
Custom Sensors  
Sensor Name  
You can configure custom sensor types when using third party sensors with the controller. You can  
create a maximum of two sensor types. This page allows you to configure a 10-point sensor  
characteristic curve.  
NOTE: Once the sensor is configured, the same sensor name is updated in the Input  
Source drop-down list. Go back to Input Source and select the Custom Sensor.  
Sensor Type  
Unit Measure  
Displays the sensor types such as Voltage, Resistive and Unconfigured.  
Displays all unit categories supported by the controller.  
Specification Sheet Unit Allows you to select the unit used in the specification sheet of the sensor. This allows you to define  
Type  
the sensor characters easily by referring to the specsheet.  
NOTE: The controller uses a 12-bit Analog-to-Digital converter. Please ensure that the sen-  
sor provides adequate resolution in the target control range. To get best perfor-  
mance, make sure that the target range of sensor signals that are important for the  
application can be mapped to the entire range supported by the controller with ade-  
quate resolution.  
Application Unit Type  
This is the unit in which the sensor value will be read by the controller. To use the custom sensor for  
any of the inputs expected by the controller, this unit needs to match the unit expected by the  
controller.  
These are the internal units used by the VAV control application:  
Temperature: DegF Temperature  
Setpoint: DDF or DegF  
Humidity: %  
CO2: ppm  
Pressure: inches of water column  
Import  
Export  
Use this action to share/reuse custom sensor definitions. The user can import the custom sensor  
definitions from other controllers or stations.  
Use this action to save the custom sensor in a text file.  
NOTE: You must save the file with a .sen extension.  
Tip  
Related Topics  
When you upload the input and output values of the  
configured custom sensors, you will not obtain the exact  
values which you configured earlier. There will be slight loss in  
precision always.  
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5. CONFIGURING THE SCHEDULE  
Use this page to configure the schedule events and holidays to be used by the Stryker VAV device. You can also configure  
occupancy override related parameters in this page.  
To set schedule:  
Step  
Action  
1
2
From the left pane of the VAV Configuration Wizard, select Schedule.  
Select the Local Schedule Type from the drop-down list. The available options are Default Occupied, Default  
unoccupied and Custom Schedule.  
3
4
5
6
7
8
Select Custom Schedule to add events. You can add maximum four events in a day.  
Click the Holiday tab to configure holidays.  
Enter information in the available fields.  
Click Next to display the PID page.  
Click Undo All to revert to the last saved settings.  
Click Finish to save settings to station.  
5.1 Fields  
Table 6. Schedule Fields.  
Definition  
Name  
Local Schedule Type The local schedule object present in the Stryker VAV device can be configured as one of three types  
supported:  
Default Occupied, Default Unoccupied or Custom Schedule.  
Apply Event  
Enables you to customize the schedule by adding or editing the events for the selected day. A  
maximum of 4 events can be configured per day. Events can be configured as Occupied, Unoccupied,  
No events or Standby.  
Import Schedule  
Export Schedule  
Enables you to import the schedule settings from external files. You can reuse the preconfigured  
schedule settings.  
Enables you to export the schedule settings to external files.  
Override Button  
Behavior  
Enables you to select the override behavior such as Not used, Connected with full use and Connected  
for bypass options only.  
NOTE: This field is configurable only when the Wall Module type selected is Conventional  
wall module and the Override input is configured.  
Override Duration  
Enables you to enter the override duration. The time range is 0 to 1092 minutes.  
Standby Mode  
Operation  
Enables you to select the standby mode operation such as Unoccupied for the fan and auxiliary output  
and Occupied for the fan and auxiliary output.  
Holiday Type  
There are two types of holidays: Weekday/Month every year, and Specific date every year.  
Configure Holiday  
Enables you to configure holidays by setting months, weekdays and total duration of days. You can  
add US, European, and Canadian holidays as well.  
Holiday List  
Displays the list of holidays after configuration. You can add upto 10 declared holidays in list.  
Enables you to import the holiday settings from an external file.  
Import Holiday  
Export Holiday  
Enables you to save the holiday settings in an external file.  
RELATED TOPICS  
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6. CONFIGURING THE TEMPERATURE SETPOINTS  
Use this page to configure the temperature setpoints used by the Stryker VAV device and other parameters that affect  
temperature control.  
To configure temperature setpoints:  
Step  
Action  
1
From the left pane of the VAV Configuration Wizard, select Temperature Setpoints.  
2
3
4
5
Enter information in the available fields.  
Click Undo All to revert to the last saved settings.  
Click Next to display the Flow Setpoints page.  
Click Finish to save settings to station.  
6.1 Fields  
Table 7. Temperature Setpoint Fields.  
Name  
Definition  
Cooling Setpoint  
Values for the occupied, standby, and unoccupied settings for the cooling setpoints.  
NOTE: All set points must be between 50 Deg F to 90 Deg F or 10 Deg C to 32 Deg C.  
Make sure that unoccupied heat < Standby heat < occupied heat < occupied cool <  
Standby cool < unoccupied cool.  
The following network variables are updated with the cooling set point values.  
nciTempSetpoints.oocupiedCool  
nciTempSetpoints.standbyCool  
nciTempSerpoints.unoccupiedCool  
Heating Setpoint  
Values for the occupied, standby and unoccupied settings for the heating setpoints.  
The following network variables are updated with the heating set point values.  
nciTempSetpoints.oocupiedHeat  
nciTempSetpoints.standbyHeeat  
nciTempSerpoints.unoccupiedHeat  
Wall Module Center  
Setpoint Limits  
Configuration  
Configure the High and Low Setpoint Limits to be used on the wall module.  
NOTE: The unit and range allowed will vary depending on the Setpoint knob type  
selected in the Inputs page.  
NOTE: These fields are enabled only when the wall module type is configured as "Con-  
ventional Wall Module" or "TR71/75 Wall Module" and the Space Temperature Set-  
point input is configured.  
The range of these fields depends on whether the wall module set point knob type is "absolute" or  
"relative".  
The following network variables are updated with the wall module center setpoint limits.  
nciWallModCom.HighSetPt  
nciWallModCom.LoeSetPt  
NOTE: These nci fields are unit less since the center point value can be in Deg F, Deg C or  
Delta Deg F depending on the wall module type.  
Unit is Deg F for Conventional wall module with Absolute Setpoint knob  
Unit is Delta Deg F for Conventional wall module with Relative Setpoint knob  
Unit is Deg C for TR71/75  
DLC and Setpoint  
Recovery  
Values for Demand limit shed setpoint shift. The space temperature cooling setpoint is shifted up  
and the heating setpoint is shifted down by this value when a DLC shed command is received by  
the controller.  
The following network variables are updated with the DLC Setpoint Bump.  
ncidlcShiftSpt.temp_diff_p  
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Table 7. Temperature Setpoint Fields. (Continued)  
Definition  
Name  
Setpoint Ramp  
Values for cooling and heating setpoint ramp rates. The setpoint Ramp value ranges between 0-  
36 Deg F/Hour.  
Ramp rates are used by adaptive recovery algorithm to recover heating and cooling setpoints  
from their unoccupied values.  
The Ramp Rate decides the rate at which the setpoint will transition from current state setpoint to  
Occupied setpoint.  
The following network variables are updated with the setpoint ramp.  
nciRecovClg.MaxClRmp  
nciRecovClg.MinClRmp  
nciRecovHtg.MaxHtRmp  
nciRecovHtg.MinHtRmp  
OAT Ramp  
Values of Outdoor Air Temperature at which the minimum and maximum setpoint ramp rates are  
to be applied.  
The setpoint point ramp rates are automatically calculated to be between the min and max ramp  
rates as the OAT varies between min and max OAT.  
The value ranges between -30 to 120 Deg F/Hour.  
The following network variables are updated with the OAT ramp.  
nciRecovClg.OTMxClRmp  
nciRecovClg.OTMnClRmp  
nciRecovHtg.OTMxHtRmp  
nciRecovHtg.OTMnHtRmp  
Occupancy Setpoint Limits Values for limiting the occupied heating and cooling setpoints. These are the range stops to limit  
the occupied setpoint values.  
Note that these range stops are also used by TR71/TR75.  
The following network variables are updated with the Occupancy Setpoint Limits.  
nciWallModCom.MinHtgSetPt  
nciWallModCom.MaxClgSetPt  
Space freeze protection  
setpoint  
The space heating setpoint is shifted to this value when a window is opened.  
The following network variable is updated with the Space freeze protection setpoint.  
nciSpSpcFrz.tempP  
Use wallmodule setpoint  
for occupied mode  
This field can be used to configure whether the wallmodule setpoint input needs to be used or  
ignored.  
Note that the Wall Module setpoint is active only when the effective occupancy is Occupied or  
Bypass.  
The following network variable is updated with the Use wallmodule setpoint for occupied  
mode.  
nciWallModCom.UseWmStPt  
Space temp alarm limits  
Configure the high and low limits to be used to report a 'space temperature out-of-range' alarm.  
The space temp alarm disable delay is the delay from a change to occupied mode.  
The following network variables are updated with the Space temp alarm limits.  
nciSpcTempAlm.HiLimit  
nciSpcTempAlm.LoLimit  
nciSpcTempAlm.Delay  
RELATED TOPICS  
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STRYKER VAV USER GUIDE  
7. CONFIGURING THE FLOW SETPOINTS  
Use this page to configure flow setpoints for an Stryker VAV device and other parameters that affect flow/damper control.  
7.1Procedure  
To set flow setpoints:  
Step  
Action  
From the left pane of the VAV Configuration Wizard, select Flow Setpoints.  
Enter information in the available fields.  
1
2
3
4
5
Click Undo All to revert to the last saved settings.  
Click Next to display the Control Parameters page.  
Click Finish to save settings to station.  
7.2 Fields  
NOTE: Flow setpoints are enabled only if Pressure Type  
is selected as Pressure Independent.  
Table 8. Flow Setpoint Fields.  
Name  
Definition  
Use Special SI Units  
Enable this if you want to configure flow setpoints in m3/hr. This option is available only when the  
workbench is configured to use metric unit system.  
Setpoints  
Maximum Flow Setpoint  
Minimum Flow Setpoint  
Standby Flow Setpoint  
Maximum cooling flow setpoint value.  
Minimum cooling flow setpoint during the occupied mode.  
Minimum flow setpoint during the standby mode.  
Maximum Reheat Setpoint Maximum reheat flow setpoint.  
Note that the flow setpoints values must be configured in the order of  
Minimum Flow Setpoint < Reheat Setpoint < Maximum Flow Setpoint.  
Minimum Cooling Flow  
Setpoint During  
Minimum cooling flow setpoint during unoccupied mode.  
Unoccupied Mode  
Fan Flow Setpoint  
Parallel fan starts after the threshold value. During the occupied mode, the fan is started when the  
primary air as a percent of max flow is less than or equal to Fan Flow percent.  
Duct Area  
Diameter  
The area of the cooling duct where the flow sensor is installed. Select Custom_Area if you want to  
enter a specific value in the Area field. Duct area is calculated automatically if you select standard  
duct sizes like 2_In_Round.  
Area  
Values for duct area in square feet. This value is calculated automatically if you select a different  
diameter.  
Room CO2 Level Settings (used for indoor air quality ventilation control)  
Low Level  
High Level  
Low Room CO2 level associated with the minimum flow setpoint.  
High Room CO2 level associated with the highest flow reset. When room CO2 levels vary between  
the configured low and high CO2 level, the minimum air flow is adjusted proportionally.  
Fraction of Maximum Air  
Flow  
This is the fraction of maximum airflow added to the minimum airflow setpoint while coordinating  
CO2 with the effective airflow setpoint.  
Set this value to zero to disable CO2 ventilation.  
Others  
Fresh Air Required  
This is the amount of fresh air required for this zone during scheduled occupancy. This option is  
enabled only if Pressure Independent type is configured.  
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Table 8. Flow Setpoint Fields. (Continued)  
Definition  
Name  
K factor  
This is the VAV Box K-factor used to calculate the flow value.  
IMPORTANT NOTES:  
1. The K factor must be configured before starting the airflow balancing procedure.  
2. The K factor must be obtained from specsheet of the terminal box manufacturer. If this is  
not know, set the value to 1400.  
3. Do not change the K value after the VAV box has been balanced.  
4. Never set the K value to invalid or zero.  
Flow Control Throttling  
Range  
The flow control throttling range is between 0-5000 FPM.  
Flow Control Dead Band The flow control dead band must be configured based on the damper motor speed.  
For Floating actuators:  
Motor Speed (sec)  
Deadband (fpm)  
15  
125  
65  
30  
60  
30  
90 to 420  
20  
For proportional actuators:  
Model Number Deadband (fpm)  
ML7174  
460  
260  
330  
ML7287  
ML7475  
MN7505 or MN7510 45  
NOTE: Proportional actuators are not recommended for pressure independent airflow  
control.  
NOTE: Set the Flow Control Dead Band to 30fpm when the airflow filter is enabled.  
Maximum Analog Output The flow control maximum analog output change per second.This must be configured based on  
Change per second  
the damper motor speed.  
maxAOchg per sec  
Motor Speed (sec)  
15 to 90  
180  
1.1  
0.56  
0.24  
420  
Minimum Analog Output  
Change per Second  
This is the minimum amount the Analog Output will be changed per second for flow control.  
Enable Low Flow Alarm  
Enable airflow filter  
Enable this option, if you want the controller to track and report low air flow as an alarm.  
Enable this option to filter the air flowing inside the zone.  
NOTE: Note: Set the Flow Control Dead Band to 30 fpm when the airflow filter is enabled.  
RELATED TOPICS  
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8. CONFIGURING THE CONTROL PARAMETERS  
Use this page to set control parameters for an Stryker VAV device that are used to control the damper.  
To set Control Parameters:  
Step  
Action  
1
From the left pane of the VAV Configuration Wizard, select Control Parameters.  
2
3
4
5
Enter information in the available fields.  
Click Undo All to revert to the last saved settings.  
Click Next to display the Schedule page.  
Click Finish to save settings to station.  
8.1 Fields  
NOTE: The Pressurize, Depressurize, Night Purge,  
Emergency Purge and Morning Warmup values  
are configured as a percentage of maximum flow  
(pressure independent) or as percentage of  
damper position (Pressure dependant).  
Table 9. Configuring the Control Parameter Fields.  
Definition  
Name  
Maximum Flow Position VAV Box Maximum damper position. Applies only to pressure dependent control mode or when a  
pressure independent airflow sensor fails.  
Standby Flow Position  
Minimum Flow Position  
Reheat Flow Position  
Window Open  
VAV Box minimum damper position used during standby mode. Applies only to pressure  
dependent control mode.  
Zone terminal minimum cooling damper position during the occupied mode of operation. Applies  
only to pressure dependent control mode or when a pressure independent airflow sensor fails.  
VAV Box maximum damper position in Reheat mode. The cooling air damper will be at this position  
at maximum reheat capacity.  
Window open damper position. When a window is open, air flow control is disabled and the flow  
damper is set to this position until the space temperature drops below the temperature set point.  
Night Purge  
Night purge damper setting.  
Warmup damper setting.  
Morning Warmup  
Morning Warmup Type  
Enables you to select the morning warmup type to be used when a 'MorningWarmup' command is  
received by the controller.  
Mixed Air: The temperature control is turned off, and the damper is controlled as per the Warmup  
setting.  
Warm Air with Reheat: Warm air is being supplied via the duct and the temperature control is  
reverse acting. ReHeat and peripheral may be turned on.  
Warm Air without Reheat: Warm air is being supplied via the duct and the temperature control is  
reverse acting. ReHeat is disabled however peripheral heat may be used.  
Pressurize  
Damper setting to be used when a Pressurize Command is received over the network for smoke  
control operation.  
Depressurize  
Damper setting to be used when a De-Pressurize Command is received over the network for  
smoke control operation.  
Emergency Purge  
Damper setting to be used when an Emergency Purge Command is received over the network.  
Minimum damper position to be used during unoccupied mode.  
Unoccupied Minimum  
Flow Position  
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Table 9. Configuring the Control Parameter Fields. (Continued)  
Definition  
Name  
Flow Tracking Offset  
Represents the flow tracking offset value used when FlowType is configured as FlowTracking. This  
offset is added to the value of nviFlowTrack to determine the flow setpoint.  
Terminal load calculation Enables you to perform the terminal load calculation. You have the option to select 0 or 1 in the  
Terminal load calculation field.  
Select 0 to use the conventional zone terminal load calculation.  
The conventional zone terminal load calculation uses the PID output of heating and cooling  
controls. When the controller is switched to the heating mode, the Terminal load is ? 0.  
Select 1 to use the CZS zone terminal load calculation.  
The CZS zone terminal load calculation uses the proportional output of heating and cooling  
controls. When the controller is switched to the heating mode, the Terminal Load continues to  
report both heating and cooling demand. The terminal load absolute value is truncated at 100%.  
RELATED TOPICS  
9. CONFIGURING THE PID  
Use this page to configure the PID parameters for both the heating and cooling loops in a Stryker VAV device.  
To set PID:  
Step  
Action  
1
2
3
4
5
From the left pane of the VAV Configuration Wizard, select PID.  
Enter information in the available fields.  
Click Next to display the Accessory Loops page.  
Click Undo All to revert to the last saved settings.  
Click Finish to save settings to station.  
9.1 Fields  
Table 10. PID Names.  
Definition  
Name  
Cooling Throttling  
Range  
Value must be between 2 to 30 DDF.  
Cooling Integral Time Value must be between 0 to 9000 sec.  
Cooling Derivative  
Time  
Value must be between 0 to 9000 sec.  
Heating Throttling  
Range  
Value must be configured based on reheat configuration.  
Reheat Type  
modulating  
TR (DegF)  
5
3
4
7
8
1 stage  
2 stage  
3 stage  
4 stage  
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Table 10. PID Names. (Continued)  
Definition  
Name  
Heating Integral Time Value must be configured based on reheat configuration.  
Reheat Type  
modulating  
Integral Time (sec)  
2400  
1 stage  
2 stage  
3 stage  
4 stage  
3100  
2500  
1650  
1200  
Heating Derivative  
Time  
Value must be between 0 to 9000 sec.  
RELATED TOPICS  
10. CONFIGURING THE ACCESSORY LOOPS  
Use this page to configure accessory loops for Stryker VAV device on the LON network.  
To configure Accessory Loops:  
Step  
Action  
1
From the left pane of the VAV Configuration Wizard, select Accessory Loops.  
The Loop1 page appears.  
2
3
4
5
6
7
Enter information in the available fields.  
From the menu bar, click Loop2. The Loop2 page appears.  
Enter information in the available fields.  
Click Next to display the Custom wiring page.  
Click Undo All to revert to the last saved settings.  
Click Finish to save settings to station.  
10.1 Fields  
Table 11. Accessory Loop Fields.  
Definition  
Name  
Loop Name  
Enter a custom name for the loop.  
NOTE: A maximum length of 18 characters is allowed. The following characters are valid  
a-z, A-Z, 0-9, under-score and space.  
Outputs  
Inputs  
Accessory loop can be configured to drive a modulating output, upto 3 staged outputs and an  
auxiliary digital output. The outputs can be configured only when the required pins are available/  
free. Please refer the "3. Configuring the Outputs" section to configure output parameters.  
Staged Control action: Staged outputs can be configured with either as conventional staged  
outputs or as staged outputs with thermostat using 3 Cycles per Hour.  
Please refer the "4. Configuring the Inputs" section.  
To use shared inputs:  
Select the Shared Input from the Input Name drop down list.  
To use main application output as an input:  
Select the Main Application from the Input name drop down list.  
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Table 11. Accessory Loop Fields. (Continued)  
Definition  
Name  
Setpoint  
Configure the setpoints to be used by the loop in different occupancy modes. Configure the  
minimum and maximum reset values to be used and the corresponding reset sensor values.  
Reset value to be added to the setpoint is calculated by the controller as a value between min max  
reset values in proportion to the reset sensor value.  
Control Parameters Parameters that affect the output and the loop behavior can be configured. Below are the  
configurable parameters and its descriptions.  
NOTE: If derivative time is set to zero, it disables derivative action.  
NOTE: Modulating output threshold value for activating the Auxiliary output can be con-  
figured to control the auxiliary output based on the value of PID loops modulating  
output.  
Control Parameters Configurable Parameters  
Description  
Throttling range  
This is the proportional change in the sensed variable  
required to change the control output from 0 to 100 percent.  
This needs to be configured in the engineering unit of the  
main input sensor  
Integral time  
This determines the integral gain of the PID loop. The  
greater the time in seconds, the less the integral change per  
second. A setting of 0 eliminates the integral function.  
Derivative time  
PID action  
Determines the derivative gain in a PID loop. The greater the  
time in seconds, the greater the derivative effect per second  
Direct Acting or Reverse Acting selection determines the  
behavior of the loop output. In a direct acting control loop the  
output increases as the input sensor value rises above the  
setpoint. In a reverse acting control loop the output  
increases as the input falls below the setpoint.  
Control Parameters Aux DO action  
This determines the Aux DO behavior. The Aux output can  
be configured for either continuous or intermittent operation.  
This selection applies to occupied and standby modes only.  
Unoccupied is always intermittent. In continuous operation  
the output is continuous, regardless of the operation of the  
other outputs of the loop. In intermittent operation the output  
is on only when the modulating output of the loop is greater  
than 0 or at least one of the staged outputs is on.  
Modulating control for Aux  
This option allows the Aux DO to be controlled based on the  
value of the loops modulating output.  
Modulating output threshold for Aux Modulating output threshold value for controlling the  
Auxiliary output. The Aux DO is activated if the PID  
modulating output is greater than the threshold value  
Aux output minimum off time  
The auxiliary digital output minimum off time.  
NOTE: When staged outputs are configured this value  
must be configured to be less than (Cycler and  
stager interstage minimum on time - Aux output  
run on time).  
Control Parameters Aux output run on time  
The auxiliary digital output run-on time. A value of 0 disables  
the run-on time. This is typically used when the AuxDo is  
configured for intermittent operation.  
For example, If the AuxDO is controlling the fan, this  
parameter can be used to keep the fan running for certain  
duration after the cooling or heating process has stopped.  
Minimum off time  
This is the minimum off time for the staged outputs  
Cycler and stager interstage  
minimum on time  
This is minimum amount of time a lower numbered stage  
must be on before the next stage can turn on.  
Minimum on time  
This is the minimum on time for the Aux DO and staged  
outputs  
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Related Topics  
11. CONFIGURING THE CUSTOM WIRING  
Use this page to customize the wiring/pin assignment of IOs for an Stryker VAV device on the LON network.  
The custom wiring is allowed only for the inputs and outputs parameters that are configured.  
To configure custom wiring:  
Step  
Action  
1
2
From the left pane of the VAV Configuration Wizard, select Custom Wiring.  
To reassign inputs or outputs to different pins, simply select the input/output in the relevant drop-down.  
Click Terminal Overlay Diagram to generate the terminal overlay diagram.  
NOTE: Note: The terminal overlay diagram is formatted to match the size of the terminal overlay  
present on the controller. Only 6 characters will be displayed in the generated terminal over-  
lay diagram.  
3
This allows you to print the Terminal Overlay to use it on the relevant controller.  
4
Click Wiring Diagram to see the wiring between inputs and outputs. This wiring diagram shows how the  
controller is connected with the external inputs and outputs.  
5
6
Click Undo All to revert to the last saved settings.  
Click Finish to save settings to station.  
RELATED TOPICS  
11.1 Fields  
None  
12. ALARM VIEW  
Use this page to view errors logged by the Stryker VAV device.  
This action can be performed only when the device is in the  
online mode.  
This means that several different errors of the same type will  
be reported as a single alarm.  
For Example: Multiple sensors connected to the controller  
may read invalid values and the controller will log individual  
errors for each sensor.  
The controller must be in a commissioned state.  
NOTE: Note: The controller is capable of tracking and  
reporting several types of errors.  
However a single 'SensorFailure' alarm will be reported.  
Groups of errors of the same type are also reported as an  
alarm by the controller using nvoAlarmH.  
This page displays all the errors that are currently active and  
reported by the controller.  
To view alarms:  
Step  
Action  
1
2
From the Nav menu, choose Station > Driver > LON network > Stryker VAV device.  
Right-click the device and choose Views > Alarms View from device items. The Alarm screen appears.  
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12.1 Fields  
There are five categories of alarms:  
Name  
Definition  
Error  
Displays the name of the error.  
Type of error  
Displays the type of the error. Errors could be one of the following types:  
1. Sensor Error  
2. Lon Network Communication Error  
3. Control Error  
4. Sylkbus communication error  
5. Node disabled error  
For more information, see the descriptions below this table.  
Details  
This is a description of the error.  
Enable Auto Alarm  
Refresh  
When the Auto Refresh checkbox is selected, the alarms view/data refreshes automatically every  
30 seconds.  
Refresh  
Click Refresh to refresh the error list manually and see the current errors.  
Sensor Errors: These errors are generated for all the sensors  
that are connected to the onboard UI pins in the controller.  
Network Variable  
nviOdTemp  
All such sensors are monitored by the controller for out-of-  
range/invalid values.  
nviSetPoint  
nviShare  
Lon Network Communication Errors: These errors can  
occur for Lon NetworkVariable Inputs that are bound to other  
controllers when the source controller fails to send the  
data.The controller tracks and reports network communication  
errors for the following list of NVs when they are bound:  
nviSpaceCO2  
nviSpaceHum  
nviSpaceTemp  
nviSupplyTemp  
nviTodEvent  
nviWindow  
Network Variable  
nviBypass  
nviFlowOverride  
nviSupplyTemp  
nviMonDig  
nviApplicMode  
nviDlcShed  
nviDschrgAirTemp  
nviFan  
nviManOcc  
nviEmergCmd  
nviSetPointOvr  
nviSetPtOffset  
nviMonSensor  
nviFlowOffset  
nviFlowTrack  
nviFree1Dig  
nviFree1Mod  
nviOccCmd  
Control Alarms: These are application specific alarms tracked and reported by the controller.  
Alarm Name  
Alarm Description  
The space temperature detected is below the freeze protect limit.  
One of the temperature set points is not in the valid range.  
The air flow control loop has been overridden.  
Frost  
Invalid Set Point  
Flow Override  
Emergency Override  
Fan Override  
An emergency override command has been received from the network.  
The fan is in the manual override state.  
Reheat or Peripheral Heat  
Override  
The reheat or peripheral heat outputs are overridden.  
IAQ alarm  
The indoor air quality sensor has detected that the indoor air quality is poorer than the  
desired standard.  
Occupied Space Temperature The space temperature detected is out of range of the configured limits.  
Low Air Flow  
Air flow detected is too low to perform the flow control operation.  
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Sylkbus Alarm: The Sylkbus communication alarm occurs  
when the communication link between the Sylk sensor and  
the controller is lost or when the Sylk sensor is configured with  
the wrong address.  
5Node disabled Error: The node disabled error is reported  
when the control execution is disabled.  
For example, this error is reported when the controller is  
commanded to manual mode.  
To communicate successfully with an Stryker VAV device,  
TR71/TR75 devices must be configured with the address 1.  
RELATED TOPICS  
To communicate successfully with an Stryker VAV device,  
C7400S sensors must be configured with the address 8.  
13. DIAGNOSTICS  
Use this page to test the outputs of an Stryker VAV device in  
manual mode. This action can be performed with the device in  
online mode. The device must be in downloaded state.  
The Diagnostics screen displays:  
All configured Digital Outputs to command ON/OFF  
All configured Analog Outputs to command the values  
between 0 to 100%  
The values that are sensed (currently) at the outputs  
To diagnose an Stryker VAV device:  
Step  
Action  
1
2
3
4
5
From the Nav menu, choose Station > Driver > LON network > AscLonVAV device.  
Right-click the device and choose Views > Diagnostics from device items. The Diagnostics screen appears.  
Enter information in the available fields.  
Click Refresh to reset the settings.  
Click Set to set the output values for diagnosis.  
13.1 Fields  
Table 12. Diagnostic Fields.  
Definition  
Name  
Name  
Displays the configured parameter names.  
Modulating Output  
Diagnostics  
The number of Modulating Outputs depends on the outputs configured in the application.  
Current Value: Displays the value of the modulating output as read from the controller. This  
field is non-editable.  
Edit Value: Enter the value that the output must be commanded to. The range is 0-100 %.  
Binary Output Diagnostics  
The number of Binary Outputs depends on the outputs configured in the application.  
Current Value: Displays the value of the modulating output as read from the controller. This  
field is non-editable.  
Edit Value: Select ON or OFF.  
Set  
Click Set. The controller is set to 'Manual' control and the commanded output values are written  
to the controller.  
NOTE: Note: If the controller is in Auto mode, click Set to set the controller to Manual  
mode.  
Auto Refresh  
Refresh  
Select the Auto Refresh checkbox to automatically refresh the output values every 30 seconds.  
Select the Refresh to refresh the output values, only when the device is in manual mode.  
Displays the current mode of the device.  
Current Mode  
RELATED TOPICS  
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14. FLOW BALANCING  
The flow balancing view is used to balance a controller that is  
programmed with a standard VAV application. Based on the  
version of the VAV application and its features, the following  
operations can be performed on the view.  
VAV Zone Terminal Single Duct must be selected as the  
Application Type and Air Balance Supported must be  
selected.  
NOTE: Note: The selections must be done before down-  
loading the program to the controller.  
Flow pressure zero calibration  
Two point calibration  
K factor calibration  
Heating coil water flow calibration.  
Pre-requisites  
The controller must be online.  
The controller must be in a commissioned state.  
Select the Reheat Valve Override Supported option to  
calibrate the reheat valve.  
Select the Peripheral Heat Valve Override Supported  
option to calibrate the peripheral heat valve.  
To flow balance:  
Step  
Action  
1
On the Nav palette, browse to Station > Config > Drivers> LonNetwork > LonDevice.  
or  
Browse to Station > Config > Drivers> BacnetNetwork > BacnetDevice.  
2
Right-click ControlProgram and select Views > Flow Balancing View. The Flow Balancing View appears on  
the right pane.  
You can type the values into the following fields.  
14.1 Fields  
Table 13. Flow Balancing Fields.  
Description  
Name  
Actuator Travel Time The actuator travel time is the time required by the actuator to travel from 0% to 100% open or 100% to  
0% open. This time interval depends on the actuator type and can vary from 0 to 500 seconds.  
K Factor  
This field allows you to manually change the K factor value from 0 to 10000.  
Inlet Area  
Displays the area of the duct. Either a standard diameter can be selected or a custom area can be  
entered in this field. The inlet area ranges from 0 to 100 sq.ft.  
Measured Flow  
Displays the actual air flow when measured by the balancer using an accurate device. This field is  
editable.  
Maximum Flow  
Setpoint  
This field allows you to set the flow setpoint from 0 to 138850 cfm for maximum flow calibration and k  
factor calibration. The controller seeks stable flow and when it is reached, it allows you to set the  
calibration source value.  
Minimum Flow  
Setpoint  
This field allows you to set the flow setpoint value from 0 to 138850 cfm. You must set the flow setpoint  
less than the maximum value to obtain minimum flow calibration. The controller seeks stable flow and  
when it is reached, it allows you to set the calibration source value.  
Re-heat Valve  
Override  
This field allows to override the value of the reheat valve in an application built for the reheat valve. This  
field is visible when the Reheat Valve Override Supported feature is selected in the Details View of  
the Control Program.  
Peripheral Heat  
Valve Override  
This field allows to override the value of the peripheral heat valve in an application built for the  
peripheral heat valve. This field is visible when the Peripheral Heat Valve Override Supported feature  
is selected in the Details View of the Control Program.  
Device Mode  
Damper Position  
Sensed Flow  
Flow Pressure  
Displays the current device mode. This is a non-editable field.  
Displays the current damper position. This is a non-editable field.  
Displays the actual air flow that is measured by a pressure sensor. This field is non-editable.  
Displays the current flow pressure. This field is non-editable.  
Flow pressure zero calibration  
The damper is completely closed. If any flow pressure is  
detected, that value is considered to be the flow pressure  
offset. After the completion of zero balancing, the device  
mode is set to automatic operation.  
To start zero balancing:  
Click Start Zero Balancing.  
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Two point calibration  
After the measured flow is entered, the K factor value is  
calculated by the tool and displayed. The tool prompts you to  
write this value to the device. You can choose to calculate the  
K factor without using the tool and set the calculated value in  
the K factor field. The device remains in manual mode (Open  
Maximum) after K factor balancing has been completed.  
You can start either maximum or minimum balancing in any  
order. The tool does not enforce any rules on the order of  
balancing.  
Maximum calibration  
Heating coil water flow calibration  
To start maximum calibration:  
Click Start Maximum Balancing.  
To override the reheat valve position:  
Type the reheat value in percentage and click the Override  
button next to Reheat Valve Override field.  
The device adjusts the damper to try and attain the maximum  
flow setpoint. After the setpoint is attained, the Measured Flow  
field is enabled and the actual measured flow value can be  
entered. The device remains in manual mode (Open  
Maximum) after maximum balancing is complete.  
To override the peripheral heat valve position:  
Type the peripheral heat value in percentage and click the  
Override button next to the Peripheral Heat Valve Override  
field.  
Minimum calibration  
To start minimum calibration:  
Click Start Minimum Balancing.  
NOTE: Note: Click the Auto button to set the reheat and  
peripheral heat valve into automatic operation.  
Setting the device mode to automatic operation  
To set the device to automatic operation:  
The device adjusts the damper to try and attain the minimum  
flow setpoint. After the set point is attained, the Measured  
Flow field is enabled and you can enter the actual measured  
flow value. The device remains in manual mode (Open  
Minimum) after minimum balancing is complete.  
Click Set Mode to Auto when it is enabled.  
While exiting the view if the device is in manual mode, the tool  
prompts you to change the mode to automatic operation.  
K Factor calibration  
To start K factor calibration method:  
Click Start K Factor Balancing.  
Restoring to factory defaults  
To restore to factory defaults:  
After a warning message, the two point calibration data is  
returned to factory defaults.  
Click the Restore to Factory Defaults button to restore the  
default value of the Zero calibration values, K factor calibration  
values, Minimum flow calibration values and Maximum flow  
calibration values.  
The device adjusts the damper to try and attain the maximum  
flow setpoint. After the setpoint is attained, the Measured Flow  
field is enabled and the actual measured flow value can be  
entered.  
RELATED TOPICS  
15. MONITORING  
Use this page to monitor the critical parameters for an Stryker VAV device on the LON network. This action can be performed with  
the device in online mode. The controller must be in a commissioned state.  
To monitor:  
Step  
Action  
1
2
3
4
From the Nav menu, choose Station > Driver > LON network > AscLonVAV device.  
Right-click the device and choose Views > Monitor from device items. The Monitor screen appears.  
If required, you can enter the values in the editable fields.  
Click Write to write edited values to the controller.  
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15.1 Fields  
Table 14. Monitoring Fields.  
Definition  
Name  
Name  
Displays the configured parameter names.  
Read Value  
Displays the current value read from the controller.  
Write Value  
Current Mode  
Units  
Enables you to write the expected value to the controller.  
Displays the current mode of the controller.  
Displays the respective units of the parameters.  
Current Mode  
This fields displays whether the controller is in manual control or in auto mode.  
Temperature set point  
Application Mode  
You can temporarily change/override the setpoint using this field. Enter the setpoint value and  
click the Write button at the bottom of the screen. To remove the temporary override, type 'Nan'  
in this field and click the Write button.  
This field can be used to switch between off, auto, heating and cooling. The following options  
can be selected.  
Auto - Enable this option for auto reheating and cooling  
Heat - Enable this option to supply warm air and reheat  
Morning warmup - Enable this option to supply warm air and to trigger reheat as per the  
'Morning warmup type' configured.  
Cool - Enable this option to supply cool air and lock reheat. Use this mode to disable reheat  
when boiler hot water is unavailable.  
Night purge - Enable this option to supply outdoor air.  
Off - Enable this option to off fan, heating and cooling.  
Fan only - Enable this option to enable only fan, no heating or cooling.  
Note that all other options are ignored by the controller.  
NOTE: Note: Only configurable parameters are dis-  
played in the Monitoring screen.  
NOTE: Note: For the Monitor Sensor input the value will  
be displayed as reported from the controller even  
if the value lies outside the range of the sensor  
type that is configured. If the value reported from  
the controller is +inf or –inf or NaN then the text  
Invalid will be displayed.  
The list of configurable parameters is  
Temporary set point  
Effective temperature set point  
Scheduled Occupancy  
Sensed Occupancy  
Effective Occupancy  
Manual Occupancy  
Application Mode  
Box Flow  
Damper Position  
Fan Speed  
Fan Status  
Heating Stages On  
Reheat percentage  
DLC shed status  
Space Temperature  
Supply Temperature  
Discharge Air  
Outdoor air temperature  
Monitor Switch  
Free Digital Output  
Window Open  
Heat Cool Switch  
Auxiliary Digital Output  
Free 1 Modulating  
Monitor Sensor  
Space CO2  
Space Relative humidity  
Related Topics  
Peripheral Heat  
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16. SENSOR CALIBRATION  
Use this page for sensor calibration in an Stryker VAV device on the LON network. Using Sensor Calibration feature, you can  
correct the input values to the controller. This action can be performed with the device in online mode. The controller must be in a  
commissioned state. While performing Sensor Calibration, the device should not be used by another application. You can  
calibrate only analog inputs to the controllers.  
To calibrate:  
Step  
Action  
1
2
From the Nav menu, choose Station > Driver > LON network > AscLonVAV device.  
Right-click the device and choose Views > Sensor Calibration from device items. The Sensor  
Calibration screen appears.  
3
4
5
Enter information in the available fields.  
Click Refresh to refresh the settings.  
Click Calibrate to calibrate settings.  
16.1 Fields  
Table 15. Sensor Calibration Fields.  
Definition  
Name  
Sensor Name  
Actual Value  
Displays the sensor names.  
Displays the current value of the sensor as read by the controller.  
Enter the calibrated value.  
Calibrated Value  
Offset Value  
Once you click Calibrate, the offset value appears. Offset value is a difference between  
Actual value and Calibrated value.  
Tip  
In this case  
To clear the Offset value for any of the configured  
sensors:  
Calculate the calibrated value using the below formula, type it  
in the Calibrated value field and click Calibrate.  
The Actual value = -324.742  
Old Offset value = 775.102  
Calibrated Value = Actual Value - Old Offset Value  
= -324.742-775.102  
Calibrated Value = Actual Value - Old Offset Value  
For Example:  
= -1099.844 F  
If the configured Sylk bus sensor reads the room temperature  
as 79.88 F and you want to calibrate it to 85.5 F. By mistake if  
you type the calibrated value as 855 F, the offset value will be  
calculated as 775.102 F. This will display the Actual value as -  
324.742 which is abnormal.  
If you type this value in the Calibrated Value field and click  
Calibrate, the Offset value will be cleared.  
RELATED TOPICS  
If you find any abnormal value like this and you want to clear  
the offset value. Calculate the Calibrated value as shown  
below and type the calculated value in the Calibrated Value  
field.  
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17. SETTING TIME  
Use this page to set time for an Stryker VAV device on the LON network. This action can be performed with the device in online  
mode. The controller must be in a commissioned state. Using Set Time feature, you can specify time or use the computer's time  
in the controller. While performing this online operation, the device should not be used by another application.  
To set time parameters:  
Step  
Action  
1
2
3
4
5
From the Nav menu, choose Station > Driver > LON network > AscLonVAV device.  
Right-click the device and choose Views > Set Time from device items.  
The Set Time screen appears.  
Enter information in the available fields.  
Click Apply to set date and time in device.  
17.1 Fields  
Table 16. Time Fields.  
Definition  
Name  
Date  
This option enables you to set date in the controller.  
This option enables you to set time in the controller.  
Time  
RELATED TOPICS  
18. ONLINE OPERATION  
The online operations can be invoked on the Stryker VAV  
device only if the device is not in use by another application.  
valves.  
You can also reset the balancing values to factory  
defaults.  
You can perform following online operations:  
1. Download - Perform this action to download the config-  
uration from tool to controller.  
2. Upload - Invoke this option to read configuration data  
from the controller and update the same in the tool data-  
base.  
3. Calibration - Use this option to calibrate the sensor  
connected to the controller.  
4. Diagnostics - Use this feature to command the device  
to manual mode and to test the outputs.  
5. Set Time - Use this option to set the date and time in  
the controller.  
7. Monitoring - Use the monitoring option to view key  
parameters in the controller.  
You can also temporarily override setpoints and occu-  
pancy status.  
8. Alarms - Use the Alarms option to view the list of  
alarms generated by the controller.  
Related Topics  
6. Flow Balancing - The flow balancing feature allows  
minimum balancing, maximum balancing, zero balanc-  
ing and k factor balancing.  
You can also balance the reheat and peripheral heat  
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Automation and Control Solutions  
Honeywell International Inc.  
1985 Douglas Drive North  
® U.S. Registered Trademark  
Golden Valley, MN 55422  
© 2012 Honeywell International Inc.  
62-2030—01 M.S.  
05-12  
customer.honeywell.com  
Printed in United States  
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