MAP and SBH points - Verasys - LIT-12013364 - LC-VAC1000-0 - Smart equipment controller - Verasys Lighting Controller - 4.2

Verasys Sideloop Controller Application Note

Product
Controls > Lighting Controls > Verasys Lighting Controller
Document type
Application Note
Document number
LIT-12013364
Revision date
2021-07-16
Product status
Active

The following table describes the points in the MAP and SBH user interface that you can use to configure the controller.

Table 1. Status : Control Loop Strategy

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Analog Control Loop 1 This point indicates the control loop strategy for Analog Control Loop 1. Read only  

0= Disable

1= Reset Span

2= PID Control

3= PID Control with Reset

4= Binary to Analog

Analog Control Loop 2 This point indicates the control loop strategy for Analog Control Loop 2. Read only  

0= Disable

1= Reset Span

2= PID Control

3= PID Control with Reset

4= Binary to Analog

Analog Control Loop 3 This point indicates the control loop strategy for Analog Control Loop 3. Read only  

0= Disable

1= Reset Span

2= PID Control

3= PID Control with Reset

4= Binary to Analog

Multistage Control Loop This point indicates the control loop strategy for the Multistage Control Loop. Read only  

0= Disable

1= Reset Span

2= PID Control

3= PID Control with Reset

Binary Control Loop 1 This point indicates the control loop strategy for Binary Control Loop 1. Read only  

0= Disable

5= Analog to Binary

6= Binary Interlock

Binary Control Loop 2 This point indicates the control loop strategy for Binary Control Loop 2. Read only  

0= Disable

5= Analog to Binary

6= Binary Interlock

Binary Control Loop 3 This point indicates the control loop strategy for Binary Control Loop 3. Read only  

0= Disable

5= Analog to Binary

6= Binary Interlock

Binary Control Loop 4 This point indicates the control loop strategy for Binary Control Loop 4. Read only  

0= Disable

5= Analog to Binary

6= Binary Interlock

Binary Control Loop 5 This point indicates the control loop strategy for Binary Control Loop 5. Read only  

0= Disable

5= Analog to Binary

6= Binary Interlock

Binary Control Loop 6 This point indicates the control loop strategy for Binary Control Loop 6. Read only  

0= Disable

5= Analog to Binary

6= Binary Interlock

Table 2. Status : Analog Outputs

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Analog Output 1 This point indicates the current Analog Output 1 percentage value. Read only   0% to 100%
Analog Output 2 This point indicates the current Analog Output 2 percentage value. Read only   0% to 100%
Analog Output 3 This point indicates the current Analog Output 3 percentage value. Read only   0% to 100%
Table 3. Status : Multistate Outputs

Name

(Reference name)

Description Adjustable Defaults Enum set or range
MSC Stage 1 Output This point indicates the current state of the MSC Stage 1 Output. Read only  

0= Off

1= On

MSC Stage 2 Output This point indicates the current state of the MSC Stage 2 Output. Read only  

0= Off

1= On

MSC Stage 3 Output This point indicates the current state of the MSC Stage 3 Output. Read only  

0= Off

1= On

MSC Stage 4 Output This point indicates the current state of the MSC Stage 4 Output. Read only  

0= Off

1= On

MSC Stage 5 Output This point indicates the current state of the MSC Stage 5 Output. Read only  

0= Off

1= On

MSC Stage 6 Output This point indicates the current state of the MSC Stage 6 Output. Read only  

0= Off

1= On

Table 4. Status : Binary Outputs

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Binary Output 1 This point indicates the current state of the Binary Output 1. Read only  

0= Off

1= On

Binary Output 2 This point indicates the current state of the Binary Output 2. Read only  

0= Off

1= On

Binary Output 3 This point indicates the current state of the Binary Output 3. Read only  

0= Off

1= On

Binary Output 4 This point indicates the current state of the Binary Output 4. Read only  

0= Off

1= On

Binary Output 5 This point indicates the current state of the Binary Output 5. Read only  

0= Off

1= On

Binary Output 6 This point indicates the current state of the Binary Output 6. Read only  

0= Off

1= On

Table 5. Status : Analog Inputs

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Analog Input 5 This point indicates the current value of the Analog Input 5. Read only   -
Analog Input 6 This point indicates the current value of the Analog Input 6. Read only   -
Analog Input 7 This point indicates the current value of the Analog Input 7. Read only   -
Analog Input 8 This point indicates the current value of the Analog Input 8. Read only   -
Analog Input 9 This point indicates the current value of the Analog Input 9. Read only   -
Table 6. Status : Binary Inputs

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Binary Input 1 This point indicates the current state of the Binary Input 1. Read only   -
Binary Input 2 This point indicates the current state of the Binary Input 2. Read only   -
Binary Input 3 This point indicates the current state of the Binary Input 3. Read only   -
Binary Input 4 This point indicates the current state of the Binary Input 4. Read only   -
Table 7. Status : Netsensor Plug and Play

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Netsensor 199 Temperature This point indicates the current value of the SAB based Temperature Sensor with address 199. Read only   -
Netsensor 199 Humidity This point indicates the current value of the SAB based Humidity Sensor with address 199. Read only   -
Netsensor 199 CO2 This point indicates the current value of the SAB based CO2 Sensor with address 199. Read only   -
Netsensor 200 Temperature This point indicates the current value of the SAB based Temperature Sensor with address 200. Read only   -
Netsensor 200 Humidity This point indicates the current value of the SAB based Humidity Sensor with address 200. Read only   -
Netsensor 200 CO2 This point indicates the current value of the SAB based CO2 Sensor with address 200. Read only   -
Netsensor 201 Temperature This point indicates the current value of the SAB based Temperature Sensor with address 201. Read only   -
Netsensor 201 Humidity This point indicates the current value of the SAB based Humidity Sensor with address 201. Read only   -
Netsensor 201 CO2 This point indicates the current value of the SAB based CO2 Sensor with address 201. Read only   -
Netsensor 202 Temperature This point indicates the current value of the SAB based Temperature Sensor with address 202. Read only   -
Netsensor 202 Humidity This point indicates the current value of the SAB based Humidity Sensor with address 202. Read only   -
Netsensor 202 CO2 This point indicates the current value of the SAB based CO2 Sensor with address 202. Read only   -
Netsensor 203 Temperature This point indicates the current value of the SAB based Temperature Sensor with address 203. Read only   -
Netsensor 203 Humidity This point indicates the current value of the SAB based Humidity Sensor with address 203. Read only   -
Netsensor 203 CO2 This point indicates the current value of the SAB based CO2 Sensor with address 203. Read only   -
Netsensor 204 Temperature This point indicates the current value of the SAB based Temperature Sensor with address 204. Read only   -
Netsensor 204 Humidity This point indicates the current value of the SAB based Humidity Sensor with address 204. Read only   -
Netsensor 204 CO2 This point indicates the current value of the SAB based CO2 Sensor with address 204. Read only   -
Netsensor 205 Temperature This point indicates the current value of the SAB based Temperature Sensor with address 205. Read only   -
Netsensor 205 Humidity This point indicates the current value of the SAB based Humidity Sensor with address 205. Read only   -
Netsensor 205 CO2 This point indicates the current value of the SAB based CO2 Sensor with address 205. Read only   -
Netsensor 206 Temperature This point indicates the current value of the SAB based Temperature Sensor with address 206. Read only   -
Netsensor 206 Humidity This point indicates the current value of the SAB based Humidity Sensor with address 206. Read only   -
Netsensor 206 CO2 This point indicates the current value of the SAB based CO2 Sensor with address 206. Read only   -
Table 8. Summary : Analog Control Loop x (x = 1 to 3)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Status This point indicates the control loop strategy for the Analog Control Loop. Read only  

0= Disable

1= Reset Span

2= PID Control

3= PID Control with Reset

...

Input This point indicates the current value of the Input/Process Variable for the Analog Control Loop. Read only   -
Setpoint This point indicates the current value of the setpoint for the Analog Control Loop. Read only   -
Binary Input This point indicates the current state of the Binary Input for the Analog Control Loop. Applicable only for Binary to Analog control loop strategy. Read only  

0= State 0

1= State 1

Binary Input Setpoint This point indicates the current state of the Binary Input setpoint for the Analog Control Loop x. Applicable only for Binary to Analog control loop strategy. Read only  

0= State 0

1= State 1

Output This point indicates the current Analog Output x percentage value. Read only   -
Table 9. Summary : Multistage Control Loop

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Status This point indicates the control loop strategy for the Multistage Control Loop. Read only  

0= Disable

1= Reset Span

2= PID Control

3= PID Control with Reset

...

Input This point indicates the current value of the Input/Process Variable for the Multistage Control PID Loop. Read only   -
Setpoint This point indicates the current value of the Setpoint for the Multistage Control PID Loop. Read only   -
Number of Stages This point indicates the number of stages for the Multistage Control Loop. Read only   -
MSC Stage 1 Output This point indicates the current state of the MSC Stage 1 Output. Read only  

0= Off

1= On

MSC Stage 2 Output This point indicates the current state of the MSC Stage 2 Output. Read only  

0= Off

1= On

MSC Stage 3 Output This point indicates the current state of the MSC Stage 3 Output. Read only  

0= Off

1= On

MSC Stage 4 Output This point indicates the current state of the MSC Stage 4 Output. Read only  

0= Off

1= On

MSC Stage 5 Output This point indicates the current state of the MSC Stage 5 Output. Read only  

0= Off

1= On

MSC Stage 6 Output This point indicates the current state of the MSC Stage 6 Output. Read only  

0= Off

1= On

Table 10. Summary : Binary Control Loop x (x = 1 to 6)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Status This point indicates the control loop strategy for Binary Control Loop x. Read only  

0= Disable

1= Reset Span

2= PID Control

3= PID Control with Reset

…..

Analog Input This point indicates the current value of the Analog Input for the Binary Control Loop x. Applicable only for Analog to Binary control loop strategy. Read only   -
Binary Input This point indicates the current value of the Binary Input for the Binary Control Loop x. Applicable only for Binary Interlock control loop strategy. Read only  

0= State 0

1= State 1

Output This point indicates the current state of the Binary Output x. Read only  

0= Off

1= On

Table 11. Commissioning : Commissioning

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Start Commissioning To start the commissioning process set this to trigger, then command the below Outputs. Adjustable Normal

0= Normal

1= Trigger

Binary Output 1 When you set Start Commissioning to trigger this object, it tests the Binary Output 1. Adjustable Off

0= Off

1= On

Binary Output 2 When you set Start Commissioning to trigger this object, it tests the Binary Output 2. Adjustable Off

0= Off

1= On

Binary Output 3 When you set Start Commissioning to trigger this object, it tests the Binary Output 3. Adjustable Off

0= Off

1= On

Binary Output 4 When you set Start Commissioning to trigger this object, it tests the Binary Output 4. Adjustable Off

0= Off

1= On

Binary Output 5 When you set Start Commissioning to trigger this object, it tests the Binary Output 5. Adjustable Off

0= Off

1= On

Binary Output 6 When you set Start Commissioning to trigger this object, it tests the Binary Output 6. Adjustable Off

0= Off

1= On

Analog Output 1 When you set Start Commissioning to trigger this object, it tests the Analog Output 1. Adjustable 0% 0% to 100%
Analog Output 2 When you set Start Commissioning to trigger this object, it tests the Analog Output 2. Adjustable 0% 0% to 100%
Analog Output 3 When you set Start Commissioning to trigger this object, it tests the Analog Output 3. Adjustable 0% 0% to 100%
Table 12. Commissioning : Network Setpoint : Analog Control Loop x (x = 1 to 3)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Network Setpoint You can set the setpoint value for Analog Control Loop x. It is applicable for the PID Control control loop strategy. Adjustable 0°F -
Table 13. Commissioning : Network Setpoint : Multistage Control Loop

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Network Setpoint You can set the setpoint value for Multistage Control Loop. It is applicable for only PID Control control loop strategy. Adjustable 0°F -
Table 14. Commissioning : PID Data : Analog Control Loop x (x = 1 to 3)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Tuning Setup

Automatic - This point state tunes the PID automatically.

Manual - You can tune the PID manually.

Adjustable Automatic

0= Automatic

1= Manual

Direct Acting

False - PID works in Reverse acting mode

True - PID works in Direct Acting Mode

Adjustable False

0= False

1= True

Proportional Band If the Tuning Setup is set to Manual, you can set the proportional band for the loop. Adjustable 16 -
Disable Integral Time If the Tuning Setup is set to Manual, you can turn this PID loop into a proportional only loop. Adjustable Enable

0 = Disable

1 = Enable

Integral Time If the Tuning Setup is set to Manual, you can set the integral time for the loop. Adjustable 124 s Interval x 2 to Interval x 30
Saturation Time If the Tuning Setup is set to Manual, you can set the saturation time for the loop. You can use the saturation timer to set timing from one state to another. For example, if you switch from heat to cool, the heating loop reaches 0% and the saturation timer must finish before the switch to cooling occurs. Adjustable 600 s 0 s to 3600 s
Interval If the Tuning Setup is set to Manual, you can set the interval value for the PID loop. Adjustable 60 s -
Process Range If the Tuning Setup is set Manual, you can set the process range for the PID loop. The process range is the magnitude of the range that the Process Variable traverses as the PID varies between its minimum and maximum values. For example, when the process variable ranges between 60 and 90 degrees as the PID value varies from its low limit to its high limit, the process range is set to 30. Adjustable 40°F -
Process ID You can set the process ID for the PID loop. The process ID determines the initial tuning parameters and the expected time constant for the control loop. Adjustable ZN-T

0= Airflow

1= Airflow %

2= Airflow Diff

3= Bldg Static…..

Process Units You can set the Process Units for the PID loop. Adjustable °F

0= sq meter

1= sq ft

2= mA

3= A

...

PID Tuning Reset You can reset the tuning to defaults for PID that is using Auto Tuning. Adjustable Off

0= Off

1= Reset

Eff Proportional Band This point indicates the present value of proportional band the PID is using. Read only   -
Eff Integral Time This point indicates the present value of integral time the PID is using. Read only   -
Table 15. Commissioning : PID Data : Multistage Control Loop

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Tuning Setup

Automatic - This point state tunes the PID automatically.

Manual - You can tune the PID manually.

Adjustable Automatic

0= Automatic

1= Manual

Direct Acting

False - PID works in Reverse acting mode

True - PID works in Direct Acting Mode

Adjustable True

0= False

1= True

Proportional Band If the Tuning Setup is set to Manual, you can set the proportional band for the loop. Adjustable 16 -
Disable Integral Time If the Tuning Setup is set to Manual, you can turn this PID loop into a proportional only loop. Adjustable Enable

0 = Disable

1 = Enable

Integral Time If the Tuning Setup is set to Manual, you can set the integral time for the loop. Adjustable 124 s Interval x 2 to Interval x 30
Saturation Time If the Tuning Setup is set to Manual, you can set the saturation time for the loop. You can use the saturation timer to set timing from one state to another. For example, if you switch from heat to cool, the heating loop reaches 0% and the saturation timer must finish before the switch to cooling occurs. Adjustable 600 s 0 s to 3600 s
Interval If the Tuning Setup is set to Manual, you can set the interval value for the PID loop. Adjustable 60 s -
Process Range If the Tuning Setup is set Manual, you can set the process range for the PID loop. The process range is the magnitude of the range that the Process Variable traverses as the PID varies between its minimum and maximum values. For example, when the process variable ranges between 60 and 90 degrees as the PID value varies from its low limit to its high limit, the process range is set to 30. Adjustable 40°F -
Process ID You can set the process ID for the PID loop. The process ID determines the initial tuning parameters and the expected time constant for the control loop. Adjustable ZN-T

0= Airflow

1= Airflow %

2= Airflow Diff

3= Bldg Static

Process Units You can set the Process Units for the PID loop. Adjustable °F

0= sq meter

1= sq ft

2= mA

3= A

...

PID Tuning Reset You can reset the tuning to defaults for PID that is using Auto Tuning. Adjustable Off

0= Off

1= Reset

Eff Proportional Band This point indicates the present value of proportional band the PID is using. Read only   -
Eff Integral Time This point indicates the present value of integral time the PID is using. Read only   -
Table 16. Controller : Firmware

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Firmware Main Version This point indicates what Firmware is in the controller. Read only   -
Application Name This point indicates the Application Name present in the controller. Read only  
Equipment Template Version This point indicates the Equipment Template version. Read only   -
Equipment Archive Version This point indicates the Equipment Archive version. Read only   -
Equipment View Version This point indicates the Equipment View version. Read only   -
Table 17. Controller : Time

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Time This point indicates the Time the controller is using. Read only   -
Date This point indicates the Date the controller is using. Read only   -
Time Zone This point indicates the Time Zone the controller is using. Adjustable General Time

1 = (UTC+00:00) Monrovia, Reykjavik

2 = (UTC+00:00) Greenwich Mean Time : Dublin, Edinburgh, Lisbon, London

...

Table 18. Controller : Network

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Device Name You can set the Name of the device. Adjustable Verasys Sideloop Application -
Description You can set the Description of the device. Adjustable Verasys Sideloop App - VAC1000 -
Device Address You can set the Address of the controller. (Applicable for N2 Field Bus) Adjustable 4 -
Device Object ID You can set the BACnet ID of the device. Adjustable 5 0-4194302
FC Comm Mode You can set the Communication Mode of the device. Read only  

0 = Wired Field Bus

1 = Wireless Field Bus

2 = N2 Subordinate Field Bus

3 = Modbus Field Bus

.....

Communication Status This point indicates the Status of the controller communication. Read only  

0 = Not Configured

1 = Active

2 = Waiting For Poll For Master

3 = Not Received Token For Long

.....

Operating Baud Rate This point Shows the Operating Baud Rate of the controller. Read only  

0 = Auto

1 = 1200

2 = 9600

3 = 19200

.....

BACnet Encoding Type You can set the Encoding Type the device is using. Adjustable  

0 = ISO 10646 (UCS-2)

1 = ANSI X3.4 (US-ASCII)

2 = Microsoft DBCS code page 932 (Japanese Shift JIS)

3 = ISO 10646 (UTF-8)

Table 19. Controller : Misc

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Language You can set the Language the device is using. Adjustable English (United States)

1 = Czech (Czech Republic)

2 = Chinese (China)

3 = Danish (Denmark)

4 = Dutch (Belgium)

.....

Units You can set the Units the device is using. Adjustable IP

0= IP

1= SI

Display Contrast You can set Display Contrast for the display of controller. Adjustable 5 2 to 6
Relearn System You can Relearn the sensors connected to the controller Adjustable False

0= False

1= True

Table 20. Details : System Configuration : General

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Unit Enable

You can switch the unit on or off.

Shutdown: All loops are inactive.

Enable: All the configured loops are active.

Adjustable Shutdown

0= Shutdown

1= Enable

Analog Control Loop 1 Enable

You can enable or disable this control loop. To configure a control loop, you must enable it first.

Adjustable Disable

0= Disable

1= Enable

Analog Control Loop 2 Enable

You can enable or disable this control loop. To configure a control loop, you must enable it first.

Adjustable Disable

0= Disable

1= Enable

Analog Control Loop 3 Enable

You can enable or disable this control loop. To configure a control loop, you must enable it first.

Adjustable Disable

0= Disable

1= Enable

Multistage Control Loop Enable

You can enable or disable this control loop. To configure a control loop, you must enable it first.

Adjustable Disable

0= Disable

1= Enable

Number of Stages You can select the number of stages for the Multistage Control Loop. Adjustable 2 2 to 6
Binary Control Loop 1 Enable

You can enable or disable this control loop. To configure a control loop, you must enable it first.

Adjustable Disable

0= Disable

1= Enable

Binary Control Loop 2 Enable

You can enable or disable this control loop. To configure a control loop, you must enable it first.

Adjustable Disable

0= Disable

1= Enable

Binary Control Loop 3 Enable

You can enable or disable this control loop. To configure a control loop, you must enable it first.

Adjustable Disable

0= Disable

1= Enable

Binary Control Loop 4 Enable

You can enable or disable this control loop. To configure a control loop, you must enable it first.

Adjustable Disable

0= Disable

1= Enable

Binary Control Loop 5 Enable

You can enable or disable this control loop. To configure a control loop, you must enable it first.

Adjustable Disable

0= Disable

1= Enable

Binary Control Loop 6 Enable

You can enable or disable this control loop. To configure a control loop, you must enable it first.

Adjustable Disable

0= Disable

1= Enable

Table 21. Details : Analog Control Loop x : General (x = 1 to 3)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Analog Output Control Selector

You can select the control loop strategy for Analog Control Loop x.

Reset Span: spans an input range and provides the corresponding output value in the output range.

PID Control: uses PID tuning to control an output process variable to a network setpoint.

PID Control with Reset: sets a network setpoint and uses PID tuning to control an output process variable to that setpoint.

Binary to Analog: provides an analog output value based on the state of a binary input.

Adjustable Reset span

0= Reset Span

1= PID Control

2= PID Control with Reset

3= Binary to Analog

Binary Interlock Enable

You can enable or disable binary interlock for the Analog Control Loop.

Adjustable Disable

0= Disable

1= Enable

Table 22. Details : Analog Control Loop x : Simple Reset (x = 1 to 3)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Input Type

You can select the Analog Input Type for Analog Control Loop x.

SAB Sensor: You can select SAB based Temp/Humidity/CO2 Sensor for control loop strategy.

Wired AI Sensor: You can select Wired AI Sensor for control loop strategy.

Network Shared: This strategy passes Network shared temperature Sensor data to control loop.

Adjustable SAB Sensor

0= SAB Sensor

1= Wired AI Sensor

2= Network Shared

Analog Input Selector You can select the Analog Input for Wired AI Sensor Input Type for control loop strategy. Adjustable Analog Input 5

0= Analog Input 5

1= Analog Input 6

2= Analog Input 7

3= Analog Input 8

4= Analog Input 9

Sensor Type You can select the Sensor type for SAB Sensor Input Type for control loop strategy. Adjustable Temperature

0= Temperature

1= Humidity

2= CO2

Network Address You can select the address for SAB Sensor Input Type for control loop strategy. Adjustable 199 199 to 206
Network Value This point indicates the present value of network shared Temperature Sensor. Applicable only for Network Shared Input type. Read only   -
Change Units This point changes the display units for the input, if you use a network shared variable. Adjustable °F

0= sq meter

1= sq ft

2= mA

3= A

Span Input Low Limit You can define the Input low limit of the span block. Adjustable 0°F 0 to 600 units
Span Input High Limit You can define the Input high limit of the span block. Adjustable 100°F 0 to 600 units
Span Output Low Limit You can define the minimum value of the Analog Output. Adjustable 0% 0 to 100 units
Span Output High Limit You can define the maximum value of the Analog Output. Adjustable 100% 0 to 100 units
Table 23. Details : Analog Control Loop x : Remote Setpoint FB Control (x = 1 to 3)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Input Type

You can select the Analog Input Type for Analog Control Loop x.

SAB Sensor: You can select SAB based Temp/Humidity/CO2 Sensor for control loop strategy.

Wired AI Sensor: You can select Wired AI Sensor for control loop strategy.

Network Shared: This strategy passes Network shared temperature Sensor data to control loop.

Adjustable SAB Sensor

0= SAB Sensor

1= Wired AI Sensor

2= Network Shared

Analog Input Selector You can select the Analog Input for Wired AI Sensor Input Type for control loop strategy. Adjustable Analog Input 5

0= Analog Input 5

1= Analog Input 6

2= Analog Input 7

3= Analog Input 8

4= Analog Input 9

Sensor Type You can select the Sensor type for SAB Sensor Input Type for control loop strategy. Adjustable Temperature

0= Temperature

1= Humidity

2= CO2

Network Address You can select the address for SAB Sensor Input Type for control loop strategy. Adjustable 199 199 to 206
Network Value This point indicates the present value of network shared Temperature Sensor. Applicable only for Network Shared Input type. Read only   -
Change Units This point changes the display units for the input, if you use a network shared variable. Adjustable °F

0= sq meter

1= sq ft

2= mA

3= A

Setpoint This is the setpoint that the feedback control is compared to. Adjustable 0°F -
Tuning Setup

Automatic - This point state tunes the PID automatically.

Manual - You can tune the PID manually.

Adjustable Automatic

0= Automatic

1= Manual

Direct Acting

False - PID works in Reverse acting mode

True - PID works in Direct Acting Mode

Adjustable True

0= False

1= True

Proportional Band If the Tuning Setup is set to Manual, you can set the proportional band for the loop. Adjustable 16 -
Disable Integral Time If the Tuning Setup is set to Manual, you can turn this PID loop into a proportional only loop. Adjustable Enable

0 = Disable

1 = Enable

Integral Time If the Tuning Setup is set to Manual, you can set the integral time for the loop. Adjustable 124 s Interval x 2 to Interval x 30
Saturation Time If the Tuning Setup is set to Manual, you can set the saturation time for the loop. You can use the saturation timer to set timing from one state to another. For example, if you switch from heat to cool, the heating loop reaches 0% and the saturation timer must finish before the switch to cooling occurs. Adjustable 600 s 0 s to 3600 s
Interval If the Tuning Setup is set to Manual, you can set the interval value for the PID loop. Adjustable 60 s -
Process Range If the Tuning Setup is set Manual, you can set the process range for the PID loop. The process range is the magnitude of the range that the Process Variable traverses as the PID varies between its minimum and maximum values. For example, when the process variable ranges between 60 and 90 degrees as the PID value varies from its low limit to its high limit, the process range is set to 30. Adjustable 40°F -
Process ID You can set the process ID for the PID loop. The process ID determines the initial tuning parameters and the expected time constant for the control loop. Adjustable ZN-T

0= Airflow

1= Airflow %

2= Airflow Diff

3= Bldg Static

Process Units You can set the Process Units for the PID loop. Adjustable °F

0= sq meter

1= sq ft

2= mA

3= A

...

PID Tuning Reset You can reset the tuning to defaults for PID that is using Auto Tuning. Adjustable Off

0= Off

1= Reset

Eff Proportional Band This point indicates the present value of proportional band the PID is using. Read only   -
Eff Integral Time This point indicates the present value of integral time the PID is using. Read only   -
Table 24. Details : Analog Control Loop x : Setpoint Reset from Input FB Control (x = 1 to 3)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Input Type

You can select the Analog Input Type for Analog Control Loop x.

SAB Sensor: You can select SAB based Temp/Humidity/CO2 Sensor for control loop strategy.

Wired AI Sensor: You can select Wired AI Sensor for control loop strategy.

Network Shared: This strategy passes Network shared temperature Sensor data to control loop.

Adjustable SAB Sensor

0= SAB Sensor

1= Wired AI Sensor

2= Network Shared

Analog Input Selector You can select the Analog Input for Wired AI Sensor Input Type for control loop strategy. Adjustable Analog Input 5

0= Analog Input 5

1= Analog Input 6

2= Analog Input 7

3= Analog Input 8

4= Analog Input 9

Sensor Type You can select the Sensor type for SAB Sensor Input Type for control loop strategy. Adjustable Temperature

0= Temperature

1= Humidity

2= CO2

Network Address You can select the address for SAB Sensor Input Type for control loop strategy. Adjustable 199 199 to 206
Network Value This point indicates the present value of network shared Temperature Sensor. Applicable only for Network Shared Input type. Read only   -
Change units This point changes the display units for the input, if you use a network shared variable. Adjustable °F

0= sq meter

1= sq ft

2= mA

3= A

Tuning Setup

Automatic - This point state tunes the PID automatically.

Manual - You can tune the PID manually.

Adjustable Automatic

0= Automatic

1= Manual

Direct Acting

False - PID works in Reverse acting mode

True - PID works in Direct Acting Mode

Adjustable True

0= False

1= True

Proportional Band If the Tuning Setup is set to Manual, you can set the proportional band for the loop. Adjustable 16 -
Disable Integral Time If the Tuning Setup is set to Manual, you can turn this PID loop into a proportional only loop. Adjustable Enable

0 = Disable

1 = Enable

Integral Time If the Tuning Setup is set to Manual, you can set the integral time for the loop. Adjustable 124 s Interval x 2 to Interval x 30
Saturation Time If the Tuning Setup is set to Manual, you can set the saturation time for the loop. You can use the saturation timer to set timing from one state to another. For example, if you switch from heat to cool, the heating loop reaches 0% and the saturation timer must finish before the switch to cooling occurs. Adjustable 600 s 0 s to 3600 s
Interval If the Tuning Setup is set to Manual, you can set the interval value for the PID loop. Adjustable 60 s -
Process Range If the Tuning Setup is set Manual, you can set the process range for the PID loop. The process range is the magnitude of the range that the Process Variable traverses as the PID varies between its minimum and maximum values. For example, when the process variable ranges between 60 and 90 degrees as the PID value varies from its low limit to its high limit, the process range is set to 30. Adjustable 40°F -
Process ID You can set the process ID for the PID loop. The process ID determines the initial tuning parameters and the expected time constant for the control loop. Adjustable ZN-T

0= Airflow

1= Airflow %

2= Airflow Diff

3= Bldg Static

Process Units You can set the Process Units for the PID loop. Adjustable °F

0= sq meter

1= sq ft

2= mA

3= A

...

PID Tuning Reset You can reset the tuning to defaults for PID that is using Auto Tuning. Adjustable Off

0= Off

1= Reset

Eff Proportional Band This point indicates the present value of proportional band the PID is using. Read only   -
Eff Integral Time This point indicates the present value of integral time the PID is using. Read only   -
Setpoint Type

You can select the Analog Input Type for setpoint reset for Analog Control Loop x.

SAB Sensor: You can select SAB based Temp/Humidity/CO2 Sensor to reset PID setpoint.

Wired AI Sensor: You can select Wired AI Sensor to reset PID setpoint.

Network Shared: This strategy passes Network shared temperature Sensor data to reset PID setpoint.

Adjustable SAB Sensor

0= SAB Sensor

1= Wired AI Sensor

2= Network Shared

Analog Setpoint Selector You can select the Analog Input for Wired AI Sensor Input Type to reset PID setpoint. Adjustable Analog Input 5

0= Analog Input 5

1= Analog Input 6

2= Analog Input 7

3= Analog Input 8

4= Analog Input 9

Setpoint Sensor Type You can select the Sensor type for SAB Sensor Input Type to reset PID setpoint. Adjustable Temperature

0= Temperature

1= Humidity

2= CO2

Network Setpoint Address You can select the address for SAB Sensor Input Type to reset PID setpoint. Adjustable 199 199 to 206
Network Setpoint This point indicates the present value of network shared Temperature setpoint. Applicable only for Network Shared Input type. Read only   -
Change units This point changes the display units for the input, if you use a network shared variable. Adjustable °F

0= sq meter

1= sq ft

2= mA

3= A

Span Input Low Limit You can define the Input low limit of the span block used to reset PID setpoint. Adjustable 0°F 0 to 600 units
Span Input High Limit You can define the Input high limit of the span block used to reset PID setpoint. Adjustable 100°F 0 to 600 units
Span Output Low Limit You can define the minimum value of the PID setpoint when it is being reset by an Analog Input. Adjustable 0°F 0 to 600 units
Span Output High Limit You can define the maximum value of the PID setpoint when it is being reset by an Analog Input. Adjustable 100°F 0 to 600 units
Table 25. Details : Analog Control Loop x : Binary to Analog (x = 1 to 3)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Binary Input Selector You can select the Binary Input for control loop strategy. Adjustable Binary Input 1

0= Binary Input 1

1= Binary Input 2

2= Binary Input 3

3= Binary Input 4

Analog Output Setpoint when Match You can define the Analog Output value when the Binary Input state matches the Binary Input setpoint. Adjustable 0% 0% to 100%
Analog Output Setpoint when Mismatch You can define the Analog Output value when the Binary Input state does not match the Binary Input setpoint. Adjustable 0% 0% to 100%
Binary Input This point indicates the current state of the Binary Input selected for control strategy. Read only  

0= State 0

1= State 1

Binary Input Setpoint You can define the binary input state for the comparison. Adjustable State 0

0= State 0

1= State 1

Table 26. Details : Analog Control Loop x : Binary Interlock (x = 1 to 3)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Mode

This point is used to override Binary Interlock point in Binary Interlock control mode.

Off – Control loop is deactivated

On – Control loop works as per requirement

Control – Control loop works as per the state of the Binary Input. State 0 deactivates the control loop and state 1 activates it.

Adjustable Control

0= Off

1= On

2= Control

Binary Input Selector You can select the Binary Input for control loop strategy. Adjustable Binary Input 1

0= Binary Input 1

1= Binary Input 2

2= Binary Input 3

3= Binary Input 4

Delay Type

This point is used to define the type of timer used in Binary Interlock control mode.

None – No timer is used. The Binary interlock changes state at the same instant as the Binary Input.

Off – Off delay timer is used. The Binary interlock changes from State 1 to State 0 after a specified time duration from the change of state (State 1 to State 0) of Binary Input.

On – On delay timer is used. The Binary interlock changes from State 0 to State 1 after a specified time duration from the change of state (State 0 to State 1) of Binary Input.

Both – Both Delay timers are used. On delay followed by Off delay.

Adjustable None

0= None

1= Off

2= On

3= Both

On Delay This point is used to define the On Delay timer duration in Binary Interlock control mode. Adjustable 30 s -
Off Delay This point is used to define the Off Delay timer duration in Binary Interlock control mode. Adjustable 30 s -
Table 27. Details : Multistage Control Loop : General

Name

(Reference name)

Description Adjustable Defaults Enum set or range
MSC Output Control Selector

You can select the control loop strategy for Multistage Control Loop.

Reset Span: spans an input range and provides the corresponding output value in the output range.

PID Control: uses PID tuning to control an output process variable to a network setpoint.

PID Control with Reset: sets a network setpoint and uses PID tuning to control an output process variable to that setpoint.

Adjustable Reset Span

0= Reset Span

1= PID Control

2= PID Control with Reset

Percent Cmd This point indicates the current PID percentage Output that goes to MSC block. Read only   -
Min On Time You can set the Min On time for staged Output. Adjustable 240 s -
Min Off Time You can set the Min Off time for staged Output. Adjustable 120 s -
Binary Interlock Enable

You can enable or disable binary interlock for the Multistage Control Loop.

Adjustable Disable

0= Disable

1= Enable

Table 28. Details : Multistage Control Loop : Simple Reset

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Input Type

You can select the Analog Input Type for Multistage Control Loop.

SAB Sensor: You can select SAB based Temp/Humidity/CO2 Sensor for control loop strategy.

Wired AI Sensor: You can select Wired AI Sensor for control loop strategy.

Network Shared: This strategy passes Network shared temperature Sensor data to control loop.

Adjustable SAB sensor

0= SAB Sensor

1= Wired AI Sensor

2= Network Shared

Analog Input Selector You can select the Analog Input for Wired AI Sensor Input Type for control loop strategy. Adjustable Analog Input 5

0= Analog Input 5

1= Analog Input 6

2= Analog Input 7

3= Analog Input 8

4= Analog Input 9

Sensor Type You can select the Sensor type for SAB Sensor Input Type for control loop strategy. Adjustable Temperature

0= Temperature

1= Humidity

2= CO2

Netsensor Address You can select the address for SAB Sensor Input Type for control loop strategy. Adjustable 199 199 to 206
Network Value This point indicates the present value of network shared Temperature Sensor. Applicable only for Network Shared Input type. Read only   -45 to 122
Span Input Low Limit You can define the Input low limit of the span block. Adjustable 0°F -2000 to 2000 units
Span Input High Limit You can define the Input high limit of the span block. Adjustable 100°F -2000 to 2000 units
Span Output Low Limit You can define the minimum value of the percentcmd for MSC block. Adjustable 0% 0 to 100 units
Span Output High Limit You can define the maximum value of the percentcmd for MSC block. Adjustable 100% 0 to 100 units
Table 29. Details : Multistage Control Loop : Remote Setpoint FB Control

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Input Type

You can select the Analog Input Type for Multistage Control Loop.

SAB Sensor: You can select SAB based Temp/Humidity/CO2 Sensor for control loop strategy.

Wired AI Sensor: You can select Wired AI Sensor for control loop strategy.

Network Shared: This strategy passes Network shared temperature Sensor data to control loop.

Adjustable SAB Sensor

0= SAB Sensor

1= Wired AI Sensor

2= Network Shared

Analog Input Selector You can select the Analog Input for Wired AI Sensor Input Type for control loop strategy. Adjustable Analog Input 5

0= Analog Input 5

1= Analog Input 6

2= Analog Input 7

3= Analog Input 8

4= Analog Input 9

Sensor Type You can select the Sensor type for SAB Sensor Input Type for control loop strategy. Adjustable Temperature

0= Temperature

1= Humidity

2= CO2

Netsensor Address You can select the address for SAB Sensor Input Type for control loop strategy. Adjustable 199 199 to 206
Network Value This point indicates the present value of network shared Temperature Sensor. Applicable only for Network Shared Input type. Read only   -
Network Input You can provide a fixed setpoint for PID operation. Adjustable 0°F -
Tuning Setup

Automatic - This point state tunes the PID automatically.

Manual - You can tune the PID manually.

Adjustable Automatic

0= Automatic

1= Manual

Direct Acting

False - PID works in Reverse acting mode

True - PID works in Direct Acting Mode

Adjustable True

0= False

1= True

Proportional Band If the Tuning Setup is set to Manual, you can set the proportional band for the loop. Adjustable 16 -
Disable Integral Time If the Tuning Setup is set to Manual, you can turn this PID loop into a proportional only loop. Adjustable Enable

0 = Disable

1 = Enable

Integral Time If the Tuning Setup is set to Manual, you can set the integral time for the loop. Adjustable 124 s Interval x 2 to Interval x 30
Saturation Time If the Tuning Setup is set to Manual, you can set the saturation time for the loop. You can use the saturation timer to set timing from one state to another. For example, if you switch from heat to cool, the heating loop reaches 0% and the saturation timer must finish before the switch to cooling occurs. Adjustable 600 s 0 s to 3600 s
Interval If the Tuning Setup is set to Manual, you can set the interval value for the PID loop. Adjustable 60 s -
Process Range If the Tuning Setup is set Manual, you can set the process range for the PID loop. The process range is the magnitude of the range that the Process Variable traverses as the PID varies between its minimum and maximum values. For example, when the process variable ranges between 60 and 90 degrees as the PID value varies from its low limit to its high limit, the process range is set to 30. Adjustable 40°F -
Process ID You can set the process ID for the PID loop. The process ID determines the initial tuning parameters and the expected time constant for the control loop. Adjustable ZN-T

0= Airflow

1= Airflow %

2= Airflow Diff

3= Bldg Static

Process Units You can set the Process Units for the PID loop. Adjustable °F

0= sq meter

1= sq ft

2= mA

3= A

...

PID Tuning Reset You can reset the tuning to defaults for PID that is using Auto Tuning. Adjustable Off

0= Off

1= Reset

Eff Proportional Band This point indicates the present value of proportional band the PID is using. Read only   -
Eff Integral Time This point indicates the present value of integral time the PID is using. Read only   -
Table 30. Details : Multistage Control Loop : Setpoint Reset from Input FB Control

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Input Type

You can select the Analog Input Type for Multistage Control Loop.

SAB Sensor: You can select SAB based Temp/Humidity/CO2 Sensor for control loop strategy.

Wired AI Sensor: You can select Wired AI Sensor for control loop strategy.

Network Shared: This strategy passes Network shared temperature Sensor data to control loop.

Adjustable SAB Sensor

0= SAB Sensor

1= Wired AI Sensor

2= Network Shared

Analog Input Selector You can select the Analog Input for Wired AI Sensor Input Type for control loop strategy. Adjustable Analog Input 5

0= Analog Input 5

1= Analog Input 6

2= Analog Input 7

3= Analog Input 8

4= Analog Input 9

Sensor Type You can select the Sensor type for SAB Sensor Input Type for control loop strategy. Adjustable Temperature

0= Temperature

1= Humidity

2= CO2

Netsensor Address You can select the address for SAB Sensor Input Type for control loop strategy. Adjustable 199 199 to 206
Network Value This point indicates the present value of network shared Temperature Sensor. Applicable only for Network Shared Input type. Read only   -
Change Units This point changes the display units for the input, if you use a network shared variable. Adjustable °F

0= sq meter

1= sq ft

2= mA

3= A

Tuning Setup

Automatic - This point state tunes the PID automatically.

Manual - You can tune the PID manually.

Adjustable Automatic

0= Automatic

1= Manual

Direct Acting

False - PID works in Reverse acting mode

True - PID works in Direct Acting Mode

Adjustable True

0= False

1= True

Proportional Band If the Tuning Setup is set to Manual, you can set the proportional band for the loop. Adjustable 16 -
Disable Integral Time If the Tuning Setup is set to Manual, you can turn this PID loop into a proportional only loop. Adjustable Enable

0 = Disable

1 = Enable

Integral Time If the Tuning Setup is set to Manual, you can set the integral time for the loop. Adjustable 124 s Interval x 2 to Interval x 30
Saturation Time If the Tuning Setup is set to Manual, you can set the saturation time for the loop. You can use the saturation timer to set timing from one state to another. For example, if you switch from heat to cool, the heating loop reaches 0% and the saturation timer must finish before the switch to cooling occurs. Adjustable 600 s 0 s to 3600 s
Interval If the Tuning Setup is set to Manual, you can set the interval value for the PID loop. Adjustable 60 s -
Process Range If the Tuning Setup is set Manual, you can set the process range for the PID loop. The process range is the magnitude of the range that the Process Variable traverses as the PID varies between its minimum and maximum values. For example, when the process variable ranges between 60 and 90 degrees as the PID value varies from its low limit to its high limit, the process range is set to 30. Adjustable 40°F -
Process ID You can set the process ID for the PID loop. The process ID determines the initial tuning parameters and the expected time constant for the control loop. Adjustable ZN-T

0= Airflow

1= Airflow %

2= Airflow Diff

3= Bldg Static

Process Units You can set the Process Units for the PID loop. Adjustable °F

0= sq meter

1= sq ft

2= mA

3= A

...

PID Tuning Reset You can reset the tuning to defaults for PID that is using Auto Tuning. Adjustable Off

0= Off

1= Reset

Eff Proportional Band This point indicates the present value of proportional band the PID is using. Read only   -
Eff Integral Time This point indicates the present value of integral time the PID is using. Read only   -
Setpoint Type

You can select the Analog Input Type for setpoint reset for Multistage Control Loop.

SAB Sensor: You can select SAB based Temp/Humidity/CO2 Sensor to reset PID setpoint.

Wired AI Sensor: You can select Wired AI Sensor to reset PID setpoint.

Network Shared: This strategy passes Network shared temperature Sensor data to reset PID setpoint.

Adjustable SAB Sensor

0= SAB Sensor

1= Wired AI Sensor

2= Network Shared

Analog Setpoint Selector You can select the Analog Input for Wired AI Sensor Input Type to reset PID setpoint. Adjustable Analog Input 5

0= Analog Input 5

1= Analog Input 6

2= Analog Input 7

3= Analog Input 8

4= Analog Input 9

Setpoint Sensor Type You can select the Sensor type for SAB Sensor Input Type to reset PID setpoint. Adjustable Temperature

0= Temperature

1= Humidity

2= CO2

Network Setpoint Address You can select the address for SAB Sensor Input Type to reset PID setpoint. Adjustable 199 199 to 206
Network Setpoint This point indicates the present value of network shared Temperature setpoint. Applicable only for Network Shared Input type. Read only   -
Change Units This point changes the display units for the input, if you use a network shared variable. Adjustable °F

0= sq meter

1= sq ft

2= mA

3= A

Span Input Low Limit You can define the Input low limit of the span block used to reset PID setpoint. Adjustable 0°F 0 to 600 units
Span Input High Limit You can define the Input high limit of the span block used to reset PID setpoint. Adjustable 100°F 0 to 600 units
Span Output Low Limit You can define the minimum value of the PID setpoint when it is being reset by an Analog Input. Adjustable 0% 0 to 600 units
Span Output High Limit You can define the maximum value of the PID setpoint when it is being reset by an Analog Input. Adjustable 100% 0 to 600 units
Table 31. Details : Multistage Control Loop : Binary Interlock

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Mode

This point is used to override Binary Interlock point in Binary Interlock control mode.

Off – Control loop is deactivated

On – Control loop works as per requirement

Control – Control loop works as per the state of the Binary Input. State 0 deactivates the control loop and state 1 activates it.

Adjustable Control

0= Off

1= On

2= Control

Binary Input Selector You can select the Binary Input for control loop strategy. Adjustable Binary Input 1

0= Binary Input 1

1= Binary Input 2

2= Binary Input 3

3= Binary Input 4

Delay Type

This point is used to define the type of timer used in Binary Interlock control mode.

None – No timer is used. The Binary interlock changes state at the same instant as the Binary Input.

Off – Off delay timer is used. The Binary interlock changes from State 1 to State 0 after a specified time duration from the change of state (State 1 to State 0) of Binary Input.

On – On delay timer is used. The Binary interlock changes from State 0 to State 1 after a specified time duration from the change of state (State 0 to State 1) of Binary Input.

Both – Both Delay timers are used. On delay followed by Off delay.

Adjustable None

0= None

1= Off

2= On

3= Both

On Delay This point is used to define the On Delay timer duration in Binary Interlock control mode. Adjustable 30 s -
Off Delay This point is used to define the Off Delay timer duration in Binary Interlock control mode. Adjustable 30 s -
Table 32. Details : Binary Control Loop x : General (x = 1 to 6)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Binary Output Control Selector

You can select the control loop strategy for Binary Control Loop x.

Analog to Binary – In this mode an Analog Input is compared against a high or low or both setpoints and the Binary Output changes state as per the comparator Outputs.

Binary Interlock – In this mode when a Binary Input changes state, the Binary Output changes state after a specified time duration.

Adjustable Analog to Binary

0= Analog to Binary

1= Binary Interlock

Table 33. Details : Binary Control Loop x : Analog to Binary (x = 1 to 6)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Input Type

You can select the Analog Input Type for Binary Control Loop.

SAB Sensor: You can select SAB based Temp/Humidity/CO2 Sensor for control loop strategy.

Wired AI Sensor: You can select Wired AI Sensor for control loop strategy.

Network Shared: This strategy passes Network shared temperature Sensor data to control loop.

Adjustable SAB Sensor

0= SAB Sensor

1= Wired AI Sensor

2= Network Shared

Analog Input Selector You can select the Analog Input for Wired AI Sensor Input Type for control loop strategy. Adjustable Analog Input 5

0= Analog Input 5

1= Analog Input 6

2= Analog Input 7

3= Analog Input 8

4= Analog Input 9

Sensor Type You can select the Sensor type for SAB Sensor Input Type for control loop strategy. Adjustable Temperature

0= Temperature

1= Humidity

2= CO2

Netsensor Address You can select the address for SAB Sensor Input Type for control loop strategy. Adjustable 199 199 to 206
Network Value This point indicates the present value of network shared Temperature Sensor. Applicable only for Network Shared Input type. Read only   -
Comparator Mode

Greater Than – This strategy sets the Binary Output to State 1 if the Analog Input is greater than High Limit

Less Than – This strategy sets the Binary Output to State 1 if the Analog Input is less than Low Limit

Both – This strategy sets the Binary Output to State 1 if the Analog Input is greater than High Limit or less than Low Limit.

Adjustable 0

0= Greater Than

1= Less Than

2= Both

Low Limit You can set the Low limit value. Adjustable 0 -
High Limit You can set the High limit value. Adjustable   -
Table 34. Details : Binary Control Loop x : Binary Interlock (x = 1 to 6)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Mode

You can override the Binary Output point in Binary Interlock control mode.

Off – The Binary Output point is overridden to State 0.

On – The Binary Output is overridden to State 1.

Control – The Binary Output changes state according to the Binary Input.

Adjustable Control

0= Off

1= On

2= Control

Binary Input Selector You can select the Binary Input for the control loop strategy. Adjustable Binary Input 1 None

0= Binary Input 1

1= Binary Input 2

2= Binary Input 3

3= Binary Input 4

Delay Type

You can define the type of timer used in Binary Interlock control mode.

None – No timer is used. The Binary Output changes state at the same instant as the Binary Input.

Off – Off delay timer is used. The Binary Output changes from State 1 to State 0 after a specified time duration from the change of State 1 to State 0 of the Binary Input.

On – On delay timer is used. The Binary Output changes from State 0 to State 1 after a specified time duration from the change of State 0 to State 1 of the Binary Input.

Both – Both Delay timers are used. On delay followed by Off delay.

Adjustable  

0= None

1= Off

2= On

3= Both

On Delay You can define the On Delay timer duration in Binary Interlock control mode. Adjustable 30 s -
Off Delay You can define the Off Delay timer duration in Binary Interlock control mode. Adjustable 30 s -
Table 35. Details : Inputs : Binary Input x (x = 1 to 4)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Present This point indicates whether the binary input is used (present) or not (absent). Read only Absent

0= Absent

1= Present

Input This point indicates the present State of Binary Input. Read only   -
States Text You can set the enum state texts for the binary input. Adjustable Off/On

374= Normal/Alarm

647= Off/On

939= Close/Open

1686= On/Off

Description You can add your description for the Binary Input point. Adjustable Binary Input x String
Alarm Priority

Disable – Alarm event and notification is disabled for the Binary Input.

Critical, Service Priority, Service – Alarm event and notification is enabled for the Binary Input.

Adjustable Disable

0= Disable

1= Critical

2= Service Priority

3= Service

Alarm Text You can add your description for the alarm event. This point is available only if the Alarm Priority is not set to Disable. Adjustable Binary Input x Mismatch Alarm String
Alarm State You can define the state that triggers an alarm. This point is available only if the Alarm Priority is not set to Disable. Adjustable Off Enum as defined by States Text point
Alarm Delay You can set the time delay to check the present state of the Binary Input before declaring an active alarm event. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0 minutes -
Table 36. Details : Inputs : Analog Input x (x = 5 to 9)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Point Type

You can configure the Analog Input hardware point to read any of the following parameters: Temperature, Humidity, CO2, Light Sensor, Refrigerant, Building Pressure, Steam Pressure, Voltage, Current.

When set to Undefined, the hardware point and all associated control logic is disabled.

Adjustable  

Undefined

Temperature

Humidity

CO2

...

Input This point indicates the present value of the Analog Input. Read only   -
Description You can add your description for the analog input point. Adjustable Analog Input x String
Setup You can configure the type of temperature Sensor connected to the Analog Input. This point is available only if the Point Type is configured as Temperature. Adjustable Nickel

0= Nickel

1= Platinum

2= A99B

3= 2.25K NTC

Device Type You can configure the signal type for the Analog Input hardware point. This point is available only if the Point Type is configured as Steam Pressure. Adjustable Voltage

0= Voltage

1= Current

Change Units You can configure the units for the Analog Input hardware point. This point is available only if the Point Type is configured as Voltage or Current. Adjustable ppm

0= sq meter

1= sq ft

2= mA

3= A

...

Change Display Precision You can configure the display precision for the Analog Input hardware point. This point is available only if the Point Type is configured as Voltage, Current, or Building Pressure. Adjustable 6= 1s

0= 1000000ths

1= 100000ths

2= 10000ths

3= 1000ths

...

Voltage You can select the voltage signal range for the Analog Input hardware point. This point is available only if the Point Type is configured as Building Pressure. Adjustable 0-10V

0= 0-10V

1= 0-5V

2= 2-10V

Offset You can add an offset to the Analog Input Sensor reading. Adjustable 0°F -
Min Value You can configure the minimum value for the Analog Input hardware point. This point is available only if the Point Type is configured as Voltage, Current, or Building Pressure. Adjustable 0°F -
Max Value You can configure the maximum value for the Analog Input hardware point. This point is available only if the Point Type is configured as Voltage, Current, or Building Pressure. Adjustable 0°F -
Input Range Low You can configure the Input Range Low value for the Analog Input hardware point. This point is available only if the Point Type is configured as Voltage or Current. Adjustable 0 V -
Input Range High You can configure the Input Range High value for the Analog Input hardware point. This point is available only if the Point Type is configured as Voltage or Current. Adjustable 0 V -
Alarm Priority

Disable – Alarm event and notification is disabled for the Analog Input.

Critical, Service Priority, Service – Alarm event and notification is enabled for the Analog Input.

Adjustable Disable

0= Disable

1= Critical

2= Service Priority

3= Service

Low Limit You can define a setpoint for triggering a sensor low reading alarm event. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0°F -
High Limit You can define a setpoint for triggering a sensor high reading alarm event. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0°F -
Low Alarm Text You can add your description for the Analog Input Sensor low reading alarm event. Adjustable Analog Input x Low Alarm String
High Alarm Text You can add your description for the Analog Input Sensor high reading alarm event. Adjustable Analog Input x High Alarm String
Unreliable Sensor Text You can add your description for the Analog Input Sensor unreliable alarm event. Adjustable Analog Input x Unreliable Alarm String
Time Delay You can set the time delay to check the present value of the Analog Input reading before an alarm event is triggered. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0 min -
Differential You can define a differential value for the Analog Input high and low alarm to be disabled. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0°F -
Trend

Disable – Disables Trend data collection of Analog Input.

Enable – Enables Trend data collection of Analog Input.

Adjustable Disable

0= Disable

1= Enable

Sample Interval You can set the time Interval between two consecutive trend samples for Analog Input. Adjustable 900 s -
Table 37. Details : Outputs : Binary Output x (x = 1 to 6)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Present

This point indicates whether the binary output is used (present) or not (absent).

Adjustable Absent

0= Absent

1= Present

Description

You can add your description of the output, for example "Exhaust Fan 1".

Adjustable Binary Output x -
Output This point indicates the present State of the Binary Output. Read only  

0= Off

1= On

Override

You can override the output to on or off.

Adjustable Auto

0= Auto

1= Off

2= On

Polarity

You can change the polarity, that is, to change on between open circuit or closed circuit.

Adjustable Normal

0= Normal

1= Reverse

Table 38. Details : Outputs : Analog Output x (x = 1 to 3)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Output This point indicates the current Analog Output percentage value. Read only   -
Description

You can add your description of the output, for example "Return Damper AO".

Adjustable Analog Output x -
Output Range Low

You can set the lower bound of the output scaling.

Adjustable 0 V -
Output Range High

You can set the upper bound of the output scaling.

Adjustable 10 V -
Trend

You can enable trending for the output.

Adjustable Disable

0= Disable

1= Enable

Sample Interval

This point configures how often to take a trend sample for the output. 0 = Change of Value.

Adjustable 900 s -
Table 39. Details : Netsensor Plug and Play : Netsensor x (x = 199 to 206)

Name

(Reference name)

Description Adjustable Defaults Enum set or range
Temperature This point indicates the present temperature value from the SAB based temperature sensor. Read only   -
Description You can add your description for the sensor. Adjustable Temperature x -
Alarm Priority

Disable – Alarm event and notification is disabled for the SAB based Temperature Input.

Critical, Service Priority, Service – Alarm event and notification is enabled for the SAB based Temperature Input.

Adjustable Disable

0= Disable

1= Critical

2= Service Priority

3= Service

High Alarm Text You can add your description for the SAB based Temperature Sensor high reading alarm event. Adjustable Netsensor x Temperature High Alarm String
Low Alarm Text You can add your description for the SAB based Temperature Sensor low reading alarm event. Adjustable Netsensor x Temperature Low Alarm String
High Alarm Limit You can define a setpoint to trigger a sensor high reading alarm event. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0°F  
Low Alarm Limit You can define a setpoint to trigger a sensor low reading alarm event. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0°F  
Time Delay You can set the time delay to check the present value of the SAB based Temperature Input reading before an alarm event is triggered. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0 min -
Alarm Differential You can define a differential value for the SAB based Temperature Input high and low alarm to be disabled. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0 delta °F -
Humidity This point indicates the present humidity value from the SAB based humidity sensor. Read only   -
Description You can add your description for the sensor. Adjustable Humidity x -
Alarm Priority

Disable – Alarm event and notification is disabled for the SAB based Humidity Input.

Critical, Service Priority, Service – Alarm event and notification is enabled for the SAB based Humidity Input.

Adjustable Disable

0= Disable

1= Critical

2= Service Priority

3= Service

High Alarm Text You can add your description for the SAB based Humidity Input Sensor high reading alarm event. Adjustable Netsensor x Humidity High Alarm String
Low Alarm Text You can add your description for the SAB based Humidity Input Sensor low reading alarm event. Adjustable Netsensor x Humidity Low Alarm String
High Alarm Limit You can define a setpoint to trigger a sensor high reading alarm event. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0% RH -
Low Alarm Limit You can define a setpoint to trigger a sensor low reading alarm event. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0% RH -
Time Delay You can set the time delay to check the present value of the SAB based Humidity Input reading before an alarm event is triggered. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0 min -
Alarm Differential You can define a differential value for the SAB based Humidity Input high and low alarm to be disabled. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0% RH -
CO2 This point indicates the present CO2 value from the SAB based CO2 sensor. Read only   -
Description You can add your description for the sensor. Adjustable CO2 x -
Alarm Priority

Disable – Alarm event and notification is disabled for the SAB based CO2 Input.

Critical, Service Priority, Service – Alarm event and notification is enabled for the SAB based CO2 Input.

Adjustable Disable

0= Disable

1= Critical

2= Service Priority

3= Service

High Alarm Text You can add your description for the SAB based CO2 Input Sensor high reading alarm event. Adjustable Netsensor x CO2 High Alarm String
Low Alarm Text You can add your description for the SAB based CO2 Input Sensor low reading alarm event. Adjustable Netsensor x CO2 low Alarm String
High Alarm Limit You can define a setpoint to trigger a sensor high reading alarm event. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0 ppm -
Low Alarm Limit You can define a setpoint to trigger a sensor low reading alarm event. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0 ppm -
Time Delay You can set the time delay to check the present value of the SAB based CO2 Input reading before an alarm event is triggered. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0 min -
Alarm Differential You can define a differential value for the SAB based CO2 Input high and low alarm to be disabled. This point is available only if the Alarm Priority is not set to Disable. Adjustable 0 ppm -
Trend

Disable – Disables Trend data collection of SAB based CO2 Input.

Enable – Enables Trend data collection of SAB based CO2 Input.

Adjustable Disable

0= Disable

1= Enable

Sample Interval You can set the time Interval between two consecutive trend samples for SAB based CO2 Input. Adjustable 900 s -
Table 40. Trend : Inputs : Binary Input 1 to 4

Name

(Reference name)

Description
Binary Input x This point indicates the present State of Binary Input x.
Table 41. Trend : Inputs : Analog Input 5 to 9

Name

(Reference name)

Description
Analog Input x This point indicates the present value of Analog Input x.
Table 42. Trend : Outputs : Binary Output 1 to 6

Name

(Reference name)

Description
Binary Output x This point indicates the present state of Binary Output x.
Table 43. Trend : Outputs : Analog Output 1 to 3

Name

(Reference name)

Description
Analog Output x This point indicates the present state of Analog Output x.
Table 44. Trend : Netsensor 199 : Zone Temperature

Name

(Reference name)

Description
Operational Space Temperature This point indicates the current value of the SAB based Temperature Sensor with address 199.
Table 45. Trend : Netsensor 199 : Zone Humidity

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based Humidity Sensor with address 199.
Table 46. Trend : Netsensor 199 : Indoor Air Quality

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based CO2 Sensor with address 199.
Table 47. Trend : Netsensor 200 : Zone Temperature

Name

(Reference name)

Description
Operational Space Temperature This point indicates the current value of the SAB based Temperature Sensor with address 200.
Table 48. Trend : Netsensor 200 : Zone Humidity

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based Humidity Sensor with address 200.
Table 49. Trend : Netsensor 200 : Indoor Air Quality

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based CO2 Sensor with address 200.
Table 50. Trend : Netsensor 201 : Zone Temperature

Name

(Reference name)

Description
Operational Space Temperature This point indicates the current value of the SAB based Temperature Sensor with address 201.
Table 51. Trend : Netsensor 201 : Zone Humidity

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based Humidity Sensor with address 201.
Table 52. Trend : Netsensor 201 : Indoor Air Quality

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based CO2 Sensor with address 201.
Table 53. Trend : Netsensor 202 : Zone Temperature

Name

(Reference name)

Description
Operational Space Temperature This point indicates the current value of the SAB based Temperature Sensor with address 202.
Table 54. Trend : Netsensor 202 : Zone Humidity

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based Humidity Sensor with address 202.
Table 55. Trend : Netsensor 202 : Indoor Air Quality

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based CO2 Sensor with address 202.
Table 56. Trend : Netsensor 203 : Zone Temperature

Name

(Reference name)

Description
Operational Space Temperature This point indicates the current value of the SAB based Temperature Sensor with address 203.
Table 57. Trend : Netsensor 203 : Zone Humidity

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based Humidity Sensor with address 203.
Table 58. Trend : Netsensor 203 : Indoor Air Quality

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based CO2 Sensor with address 203.
Table 59. Trend : Netsensor 204 : Zone Temperature

Name

(Reference name)

Description
Operational Space Temperature This point indicates the current value of the SAB based Temperature Sensor with address 204.
Table 60. Trend : Netsensor 204 : Zone Humidity

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based Humidity Sensor with address 204.
Table 61. Trend : Netsensor 204 : Indoor Air Quality

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based CO2 Sensor with address 204.
Table 62. Trend : Netsensor 205 : Zone Temperature

Name

(Reference name)

Description
Operational Space Temperature This point indicates the current value of the SAB based Temperature Sensor with address 205.
Table 63. Trend : Netsensor 205 : Zone Humidity

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based Humidity Sensor with address 205.
Table 64. Trend : Netsensor 205 : Indoor Air Quality

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based CO2 Sensor with address 205.
Table 65. Trend : Netsensor 206 : Zone Temperature

Name

(Reference name)

Description
Operational Space Temperature This point indicates the current value of the SAB based Temperature Sensor with address 206.
Table 66. Trend : Netsensor 206 : Zone Humidity

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based Humidity Sensor with address 206.
Table 67. Trend : Netsensor 206 : Indoor Air Quality

Name

(Reference name)

Description
Input This point indicates the current value of the SAB based CO2 Sensor with address 206.