VEC100 Generic RTU Controller Staged Heating and Modulated Cooling User Guide
- June 6, 2024
- VERASYS
Table of Contents
VEC100 Generic RTU Controller, Staged Heating
and Modulated Cooling Quick Start Guide
LIT-12013487
2021-07-14
About this guide
This quick start guide provides the basic information you need to configure
and install the Verasys® Equipment Controller (VEC), LC-VEC100-0, using the
Verasys generic
rooftop unit (RTU) staged heating and modulated cooling controller
application. The application controls a third-party changeover bypass (COBP)
system or a third-party variable air volume (VAV)unit.
For further information, refer to the Verasys Equipment Controller (VEC)
Installation Guide (24-10143-1272) and theVEC100 GenericRTU Controller,
StagedHeating and
Modulated Cooling Application Note (12013485).
Table 1: Application features
| Options available | Possible values |
|---|
Number of Heating
Stages Installed
| 0 to 2
Cooling Valve| • State 0: not installed
•State 1: water coil
Economizer Installed| •State 0: the economizer is not available.
•State 1: the economizer is available.
Air Proving Switch Setup| •State 0: fan status device
•State 1: duct static pressure sensor
•State 2: none
Rooftop Controller Type| •State 0: changeover bypass
• State 1: VAV
Cancel ASCD Timers| •State 0: false
•State 1: true
Demand Ventilation Feature| •State 0: demand ventilation is off.
•State 1: demand ventilation is on.
Mounting the controller
To mount the controller, complete the following steps:
-
Mount a 20 cm (8 in.) section of 35 mm (1.3 in.) DIN rail horizontally.
Note: Mount the controller in the horizontal position. -
On the back of the controller, extend the two mounting clips.
Figure 1: Pull down lower mounting clips
3. Place the controller on the DIN rail.
4. Push the bottom mounting clips inward (up) to secure the controller on the
DIN rail.
Figure 2: Push up lower mounting clips
Wiring the controller
Zone bus terminal block
The zone bus terminal block is a grey, removable, 4terminal plug that fits
into a board-mounted jack. Wire the removable zone bus terminal block plugs on
the controller on the top row of the stacked connector, and other field
controllers in a daisy-chain configuration using a 3-wire twisted, shielded
cable as shown in the following figure.
Figure 3: Zone bus terminal block wiring
Table 2: Zone bus daisy-chaining configuration
| 1 | Terminating device on the sensor bus |
|---|---|
| 2 | Sensor bus terminal block plug on the terminating device |
| 3 | Daisy-chained devise on a sensor bus segment |
| 4 | Sensor bus terminal block plug on the daisy-chained device |
| 5 | Cable shield connection |
| 6 | Connects to the next device on the sensor bus. |
Note: The zone bus shield (SHD) terminal is isolated and can be used to connect (daisy chain) the shields for zone bus wiring.
Supply power terminal block
The 24 VAC supply power terminal block is a gray, removable, 3-terminal plug
that fits into a board-mounted jack on the top right of the controller. Wire
the 24 VAC supply power wires from the transformer to the HOT and COM
terminals on the terminal plug, as shown in the following figure. The middle
terminal on the supply power terminal block is not used.
Figure 5: 24 VAC Supply Power Terminal Block
Note: The supply power wire colors may be different on transformers from other manufacturers. Refer to the transformer manufacturer’s instructions and the project installation drawings for wiring details.
Setting the VEC address using the local display
To set the VEC address using the local display, complete the following steps:
- To access the menu, press the ENT (Enter) button.
- Navigate to the Controller menu with the up and down arrows, and press the ENT button.
- In the Controller menu, navigate to Network and press the ENT button.
- In the Network Parameters section, navigate to Address and press the ENT button. The display shows the default address value.
- Press the ENT button. The address blinks.
- Use the up or down arrow to increase or decrease the address to the value you want. Press the ENT button. The address stops blinking and the display shows the old address.
- Press either the up or down arrow. The screen refreshes to the new address.
- Press ESC (Escape) repeatedly, until you return to the main screen. Ensure that the main screen shows that the system is operational.
Configuring sensors
To configure the installed sensors, complete the following steps:
- Navigate to the Details menu.
- Navigate to the Service menu and select the Inputs section.
- Select the installed sensors using the drop-down menus for each parameter.
Updating the VEC
To update the VEC with the staged heating and modulated cooling application, complete the following steps:
-
Go to verasyscontrols.com, and log in with your credentials.
-
Navigate to Product Information & Support > Device Updates.
-
Download the package file for the application to the root folder of a USB 2.0 drive. The package file name is the following: VEC100-StgHTGModCLG_xxxx.pkg
Note: Ensure that the USB drive is formatted exFAT or FAT32. -
Insert the USB drive into the USB port on the VEC.
-
If the download does not start immediately, then the controller’s local display, select the Update and Load Firmware option, then choose the package file on the USB drive, and press Enter.
-
When the application update finishes, use the Verasys Smart Building Hub (SBH) or the local display to configure the controller.
COBP wiring diagram
Figure 6: Changeover bypass wiring diagram – VEC100
Figure 7: Changeover bypass wiring diagram – IOM3711
Table 4: Changeover bypass wiring diagram
Number| Description| Object name (if
given)
---|---|---
1| Economizer Damper Output (optional)| MAD-O
2| Supply fan output (to fan VFD)| SF-O
3| Cooling valve output| CLG-O
4| Supply fan command (to fan VFD)| SF-C
5| Heating stage 1 command| HTG1-C
6| Heating stage 2 command| HTG2-C
7| 24 V HOT to damper motor|
8| 24 V COM to damper motor| n/a
9| 24 V COM| n/a
10| 24 V HOT| n/a
11| From last device| n/a
12| To next device| n/a
13| Zone humidity sensor – monitor only (optional)| ZN-H
14| Return air CO2
Range: 0 ppm to 2,000 ppm, 0 VDC to 10 VDC
| RA-CO2
15| Return air temperature sensor| RA-T
Table 4: Changeover bypass wiring diagram
Number| Description| Object name (if
given)
---|---|---
16| Outside air temperature sensor
**Note:** This is a required sensor if the VEC100 controls the economizer. Position the sensor in a shaded area on the north side of the building.
| OA-T
17| Discharge air static pressure sensor
Range: 0 in. W.C. to 5 in. W.C., 0 VDC to 5 VDC
| DA-P
18| Discharge air temperature sensor| DA-T
19| Supply fan status (air proving switch, optional)| SF-S
20| Purge input (optional)| PURGE-S
21| Filter status (optional)| FILTER-S
22| From the last SA device| n/a
23| Mixed air temperature sensor
**Note:** You must have a mixed air sensor if the VEC100 controls the economizer for low limit control.
| MA-T
VAV wiring diagram
Figure 8: VAV wiring diagram – VEC100
Figure 9: VAV wiring diagram – IOM3711
Table 5: VAV wiring diagram
| Number | Description | Object name (if given) |
|---|---|---|
| 1 | Economizer Damper Output (optional) | MAD-O |
| 2 | Supply fan output (to fan VFD) | SF-O |
| 3 | Cooling valve output | CLG-O |
| 4 | Supply fan command (to fan VFD) | SF-C |
| 5 | Heating stage 1 command | HTG1-C |
| 6 | Heating stage 2 command | HTG2-C |
| 7 | 24 V HOT to damper motor | n/a |
| 8 | 24 V COM to damper motor | n/a |
| 9 | 24 V COM | n/a |
| 10 | 24 V HOT | n/a |
| 11 | From last device | n/a |
| 12 | To next device | n/a |
| 13 | Zone humidity sensor – monitor only (optional) | ZN-H |
| 14 | Return air CO2 |
Range: 0 ppm to 2,000 ppm, 0 VDC to 10 VDC
| RA-CO2
15| Return air temperature sensor| RA-T
Table 5: VAV wiring diagram
| Number | Description | Object name (if given) |
|---|---|---|
| 16 | Outside air temperature sensor |
**Note:** This is a required sensor if the VEC100 controls the economizer. Position the sensor in a shaded area on the north side of the building.
| OA-T
17| Discharge air static pressure sensor
Range: 0 in. W.C. to 5 in. W.C., 0 VDC to 5 VDC
| DA-P
18| Discharge air temperature sensor| DA-T
19| Supply fan status (air proving switch, optional)| SF-S
20| Purge input (optional)| PURGE-S
21| Filter status (optional)| FILTER-S
22| From last SA device| n/a
23| Mixed air temperature sensor
**Note:** You must have a mixed air sensor if the VEC100 controls the economizer for low limit control.
| MA-T
Commissioning the system
To activate the outputs and verify system operation, navigate to the Commissioning menu, change Start Commissioning to Trigger, and adjust outputs individually. The following table describes the Details > Service > Factory menu options.
Table 6: Details : Service: Factory
Object or parameter| Description| Adjustable| Defaults|
Enum set or range
---|---|---|---|---
Cooling Valve| Sets the installation of the cooling valve.| Adjustable| Not
Installed| 0 = Not Installed
1 = Water Coil
Number of Heating
Stages Installed
| Sets the number of heating stages installed.| Adjustable| 2| 0 to 2
Economizer Installed| Sets whether the economizer is installed.| Adjustable|
No| 0 = No
1 = Yes
Air Proving Switch Setup| Selects the type of setup for airflow proof.|
Adjustable| None| 0 = Fan Status Device
1 = Duct Static Pressure Sensor
2 = None
OAT Cooling Lockout
Temperature
| Sets the temperature at which outside cooling lockout occurs.| Adjustable|
50°F (10°C)| 0°F to 100°F (-18°C to 38°C)
Economizer Minimum
Position Setpoint
| Sets the minimum outside air damper position.| Adjustable| 20%| 0% to 100%
Rooftop Controller Type| Sets the controller type to changeover bypass or
VAV.| Adjustable| Changeover Bypass| 0 = Changeover Bypass
1 = VAV
Variable Speed Drive| Sets whether the VEC100 controls a VFD fan instead of a
bypass damper when the rooftop controller type is set to changeover
bypass.
| Adjustable| False| 0 = False
1 = True
Supply Air Temperature Alarm Offset| If SAT is not in this value range, the
SAT alarm delay starts. Examples: If the supply air setpoint is 55°F and this
is set to 5°F, then the supply air must be under 60°F, or the delay timer
starts. If the supply air setpoint is 110°F and this is set to 5°F then the
supply
air must be above 105°F, or the delay timer starts.
| Adjustable| 5 delta °F (2.78 delta °C)| 0 delta °F to 25 delta °F (0 delta
°C to 14 delta °C)
Supply Air Temperature
Alarm Delay
| Sets the amount of time that must pass before the SAT alarm
occurs.
| Adjustable| 20 min| 0 min to 120 min
Cancel ASCD Timers| Resets the minimum on and off timers.| Adjustable| False|
0 = False
1 = True
Demand Ventilation Feature| Enables or disables the demand ventilation
feature.| Adjustable| Off| 0 = Off
1 = On
Product warranty
This product is covered by a limited warranty, details
of which can be found at
www.johnsoncontrols.com/buildingswarranty.
Contact Johnson Controls: www.johnsoncontrols.com/contact-
us
Software terms
Use of the software that is in (or constitutes) this product, or access to the
cloud, or hosted services applicable to this product, if any, is subject to
applicable end-user license, open-source software information, and other terms
set forth at
www.johnsoncontrols.com/techterms.
Your use of this product constitutes an agreement to such terms.
Single point of contact
| APAC | Europe | NA/SA |
|---|
JOHNSON CONTROLS
C/O CONTROLS PRODUCT
MANAGEMENT
NO. 32 CHANGJIJANG RD NEW
DISTRICT
WUXI JIANGSU PROVINCE 214028
CHINA| JOHNSON CONTROLWESTENDHOF 3
45143 ESSEN
GERMANY| JOHNSON CONTROLS
507 E MICHIGAN ST
MILWAUKEE WI 53202
USA
Contact information
Contact your local branch office:
www.johnsoncontrols.com/locations
© 2021 Johnson Controls. All rights reserved.
All specifications and other information shown were current as of document
revision and are subject to change without notice.
www.johnsoncontrols.com
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>