Siemens Terminal Box Controller (APOGEE Automation System )
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The document describes the Siemens Terminal Box Controller, which provides direct digital control for variable air volume HVAC systems. The controller can operate independently or as part of the APOGEE Automation System to control various HVAC applications. It interfaces with sensors, actuators, and the Portable Operator's Terminal for monitoring and configuration. Key features include PID control, unique control algorithms, HVAC diagnostics, and energy management capabilities.
Siemens Terminal Box Controller (APOGEE Automation System )
- 2. The Terminal Box Controller is an integral part of the APOGEE¥ Automation System. The controller provides high performance Direct Digital Control (DDC) technology for room temperature control in Variable Air Volume (VAV) systems. The Terminal Box Controller and related components provide a totally electronic control system. The Terminal Box Controller can operate independently, stand-alone or networked to perform complex HVAC control, monitoring and energy management functions without relying on a higher level processor. The totally electronic approach to temperature control includes the following features.
- 3. Features PID control of HVAC systems to minimize offset and maintain tighter set point control, Unique control algorithms for specific applications, Reports airflow in CFM (l/s), HVAC diagnostics through communication with a Portable Operator's Terminal at a room sensor or any field panel, Set points and control parameters assigned and changed using the Portable Operator's Terminal, Electrically Erasable Programmable Read Only Memory (EEPROM) used for storing set points and control parameters no battery backup required,
- 4. Features Returns from power failure without operator intervention, Meets low duct static pressure requirements, Uses proven APOGEE Automation System DDC architecture, No calibration required, thereby reducing maintenance costs, and Separate minimum and maximum air volume setting for heating and cooling modes.
- 5. Applications Operating independently, or as a part of the APOGEE Automation System, the Terminal Box Controller can control a variety of Variable Air Volume (VAV) pressure independent terminal box applications, including: VAV Cooling Only, VAV Cooling or Heating, VAV with Hot Water Reheat (proportional), VAV with Electric Reheat (one-, two-, or threestage), VAV Fan Powered Series or Parallel with Hot Water Reheat, and VAV Fan Powered Series or Parallel with Electric Reheat (one-, two-, or three-stage).
- 6. Description The Terminal Box Controller consists of a differential pressure transducer and an electronic controller assembly. An Auto zero Module is available for mounting on the controller for those applications where uninterrupted airflow is necessary. A Pneumatic Transducer provides for control of pneumatic damper and valve actuators. Control algorithms are preprogrammed. The controller is ready to operate after selecting the application and assigning the unit's controller address with the Portable Operator's Terminal If desired, the operator may use the Portable Operator's Terminal to adjust the air volume set points in CFM (l/s), room temperature set points and other parameters. The controller is designed for operation and modification without vendor assistance.
- 7. Differential Pressure Transducer The averaging air velocity sensor (provided by the VAV terminal unit manufacturer) sends an average air velocity measurement of the duct air velocity to the controller. The air velocity sensor connects to the differential pressure transducer (which is mounted in the Terminal Box Controller) and measures the average differential pressure. The Terminal Box Controller converts this value to actual airflow in CFM (l/s).
- 8. Specifications Temperature Range 48 F to 112 F (9 C to 45 C) Measurement Range 0 to 4000 fpm (0 to 20 m/s) Measurement Resolution r4 fpm (r0.02 m/s) Measurement Accuracy 300 to 4000 fpm (1.5 to 20 m/s) r5% of actual reading 200 to 300 fpm (1 to 1.5 m/s) +12% to -15% of actual reading Repeatability r8 fpm (0.04 m/s) *All specifications assume an unadjusted flow coefficient of 1.
- 9. Terminal Box Controller This controller provides all wiring terminations: input/ output, system and local communication and power. The cable from the room sensor connects to a RJ- 11 jack on the controller. All other connections are removable terminal blocks. The controller assembly is mounted on a plastic track that is mounted directly on the terminal box. An optional enclosure protects the controller assembly.
- 10. Terminal Box Controller The controller interfaces with the following external devices: Averaging air velocity sensor provided by VAV terminal unit manufacturers, Floating control valve and damper actuators, Temperature sensors (room, duct, immersion, and outside air), Portable Operator's Terminal, APOGEE Automation System, Digital input devices (dry contacts from motion sensors, alarm contacts), and Digital output devices (fan, stages of electric heat).
- 11. Technical Power Requirements Operating Range 18 to 28 Vac 50 or 60 Hz Power Consumption 3.5 VA (Nominal) to 5.0 VA (Peak) @ 24 Vac (plus loads) Inputs Analog 1 room temperature sensor 1 velocity sensor 1 set point (optional) 1 auxiliary temperature sensor Digital 2 dry contacts Outputs 6 DO 24 Vac optically isolated solid state switches @ 0.5 amp Controlled Temperature Accuracy, Heating or Cooling r1.5qF (0.9 C)
- 12. Technical Dimensions 4-1/8" W x 7-3/4" L x 1-1/2" H (105 mm x 197 mm x 38 mm) Weight approx. 3 lbs. (1.35 kg) Communications Remote LAN Trunk Local Portable Operator's Terminal Ambient Conditions Storage Temperature -20 F to 167 F (-29 C 75 C) Operating Temperature 32 F to 122 F (0 C to 50 C) Humidity Range 10% to 95% (non-condensing) Agency Listings UL Listing UL 916, PAZX, UL 864, UDTZ CSA Certified FCC Compliance
- 13. Optional Accessories The optional Autozero Module is required when continuous operation at occupied flow is required for an area. The Autozero Module is connected to the air velocity inlet ports of the Terminal Box Controller and provides periodic recalibration of the air velocity transducer without changing air volume being delivered to a room. This recalibration ensures long-term precise airflow delivery. Specifications Power Consumption 1.5 VA @ 24 Vac max. Dimensions 2-1/2" W x 2-1/2" H x 1"D (64 mm x 64 mm x 32) Weight 0.5 lb. (0.2 kg)
- 14. Pneumatic Transducer The PTS Pneumatic Transducer contains the transducers that provide the signal conversion from electronic to pneumatic. The module is piped to the pneumatic actuator and wired to the Terminal Box Controller. This transducer provides for accurate control of pneumatic actuators for precise temperature and air volume control. Specifications Maximum Input Pressure 30 psi (207 kPa) Air Consumption 0 SCIM Power Consumption 4 VA @ 24 Vac max. Dimensions 3-1/2" L x 2-1/4" W x 1-1/2" H (87 mm x 57 mm x 38 mm) Weight 9 oz (0.3 kg)
- 15. Terminal Box Controller Communication Up to 32 Terminal Box Controllers or other Terminal Equipment Controllers can be connected to each of the three field panel LAN trunks. Communication with the Terminal Box Controller can be initiated from any system field panel on the system network. The system network does not require additional hardware to connect Terminal Equipment Controllers. When Terminal Equipment Controllers are wired to a field panel, features such as energy management programs, alarm reporting, centralized control, modification of the system database, system- wide troubleshooting, and the global commanding of devices are available to them.
- 16. Portable Operator's Terminal The DOS-based laptop computer serving as the Portable Operator's Terminal can communicate with Terminal Box Controllers or any field panel. The terminal connects to the controller, the room temperature sensor associated with the Terminal Box Controller or field panel. The terminal can be used to remotely adjust air volume settings or temperature set points, to troubleshoot and start-up the system. When connected to the RS-232 port of a field panel, the terminal provides system-wide communication. The terminal uses full English language for all functions, eliminating the need to remember coded commands.
- 17. Portable Operator’s Terminal Sample Display.
- 18. APOGEE Automation System Architecture