OptiFlex™ Advanced VAV Controller – OF141-E2
The OptiFlex advanced VAV controller, model OF141-E2, is a central component of the WebCTRL system. These controllers are ideal for zone-level temperature and air quality control applications. Designed to operate in a wide range of environmental conditions, these controllers are well suited to satisfy the market demands of Variable Air Volume ( VAV ) and Variable Volume and Temperature ( VVT ) applications. Factory, pre-engineered ASHRAE Guideline 36 compliant control algorithms reduce energy consumption and increase occupant comfort.
Application Features
- Versatile controller suitable for a variety of applications, including zone level temperature, air quality, and energy management
- Standard library of control programs available for most unitary equipment and zone applications
- Supports EIKON® graphical programming software, an object oriented tool that provides complete flexibility for any custom control sequence that you need
- Supports Automated Logic communicating ZS sensors, which are available in a variety of zone and equipment sensing combinations
- Supports OptiPoint™ touchscreen interfaces for managing and troubleshooting the connected equipment easily and for occupant engagement
- Supports OptiPoint smart valves and accessories
- Supports live, visual displays of control logic, helping operators troubleshoot and optimize system operation
Hardware Features
- Employs a bright LED locator light to help determine the unit’s location and a damper rotation direction, minimizing the need to be in front of the electrical panel, in the ceiling, or at the air stream to assess the controller location or operation of the damper
- Includes dual high-speed ethernet ports supporting native BACnet over IP; daisy chain, Spanning Tree Protocol (STP) enabled
- Supports hard-wired and wireless service connections
- Uses non-volatile memory to store control programs and historical data, eliminating the need for batteries
- Features a capacitor-backed real-time clock that keeps time in the event of power failure for up to three days
- Includes USB port for local device updates, hard-wired and wireless service connections
- Features large termination strips for easy installation
- Supports remote firmware upgrades
System Benefits
- Connects seamlessly to the WebCTRL building automation system
- Versatile controller suitable for a variety of applications, including zone level temperature, air quality, and energy management
- Standard library of control programs available for most unitary equipment and zone applications
- Supports EIKON® graphical programming software, an object oriented tool that provides complete flexibility for any custom control sequence that you need
- Supports Automated Logic communicating ZS sensors, which are available in a variety of zone and equipment sensing combinations
- Supports OptiPoint™ touchscreen interfaces for managing and troubleshooting the connected equipment easily and for occupant engagement
- Supports OptiPoint smart valves and accessories
- Supports live, visual displays of control logic, helping operators troubleshoot and optimize system operation
- Employs a bright LED locator light to help determine the unit’s location and a damper rotation direction, minimizing the need to be in front of the electrical panel, in the ceiling, or at the air stream to assess the controller location or operation of the damper
- Includes dual high-speed ethernet ports supporting native BACnet over IP; daisy chain, Spanning Tree Protocol (STP) enabled
- Supports hard-wired and wireless service connections
- Uses non-volatile memory to store control programs and historical data, eliminating the need for batteries
- Features a capacitor-backed real-time clock that keeps time in the event of power failure for up to three days
- Includes USB port for local device updates, hard-wired and wireless service connections
- Features large termination strips for easy installation
- Supports remote firmware upgrades
- Connects seamlessly to the WebCTRL building automation system