Siemens 125-1957 owner manual Valve Configuration, Heating and Cooling Switchover, Control Loops

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Basic Operation

Day Cooling Operation

The controller maintains the room temperature by resetting the unit ventilator's discharge temperature setpoint (2281), running the face-bypass damper at full all the time, modulating or cycling the available coil control device (DX coil – 2284) or positioning the outdoor air damper.

Night Heating Operation

The controller maintains the room temperature turning the fan and heating on and off as required.

Night Cooling Operation

The controller maintains the room temperature by turning the fan and cooling on and off as required.

Night Mode Override Switch

If the RTS has an override switch, it can be used to command the controller into day mode for an adjustable amount of time. This only affects a controller in night mode.

Valve Configuration

2-Pipe Heating/Cooling – units with one valve, controlling a coil that may have hot water or chilled water (depending on the season).

4-Pipe Heating or Cooling – units that are heating or cooling only, units with a heating and a cooling coil, units with electric heating, etc.

Heating and Cooling Switchover

NOTE: For 2-pipe heating/cooling (Application 2281 and 2283), a field panel must control the switchover between heating and cooling.

The heating/cooling switchover determines whether the controller is in heating or cooling mode by monitoring the room temperature and the demand for heating and cooling (as determined by the temperature control loops).

Control Loops

Room Loop – uses the control setpoint and room temperature to set the discharge setpoint between the minimum and maximum discharge temperature (2281, 2284).

Heating Loop – maintains room temperature setpoint by turning valves and/or electric heat stages on and off.

Siemens Building Technologies, Inc.

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Contents 125-1957 Rev. CA, July Apogee Unit Vent Controller ⎯Page Service Statement Page Table of Contents Point Database Troubleshooting Table of Contents Manual Organization How To Use This ManualNotation Symbol Meaning Manual SymbolsManual Conventions Datamate SoftwareGetting Help Where To Send CommentsIntroduction Product OverviewOrdering Notes Standard ApplicationsDigital Hardware InputsAnalog Communication Wiring Power WiringHardware Outputs Analog 0 toRoom Temperature Sensor Controller LED IndicatorsTemperature Sensors Actuators Mixed Air/Discharge Air Temperature SensorDamper Actuators Valve ActuatorsDay/Night Mode Control Temperature SetpointsApplications Basic OperationControl Loops Valve ConfigurationHeating and Cooling Switchover ON/OFF Coil Valve Control Morning Warm-up/Cool-downElectric Heat Fan OperationBasic Operation Application 2281 Control Drawing Application 2281 Control Drawing Application 2281 Control Drawing Application 2283 Control Drawing Application 2283 Control Drawing Application 2283 Control Drawing Application 2284 Control Drawing Application 2284 Heating and DX Cooling, Ashrae Cycles IApplication 2284 Heating and DX Cooling, Ashrae Cycles I Application 2286 Control Drawing Application 2286 Heating and DX Cooling, Ashrae CycleApplication 2286 Heating and DX Cooling, Ashrae Cycle Overview Application 2287 Heating and Cooling Nesbitt Cycle WApplication 2287 Heating and Cooling Nesbitt Cycle W Application 2299 Slave Mode Descriptor Address Application Description Point DatabaseRM Stpt MIN Wall SwitchRM Stpt MAX RM Stpt DialNGT Ovrd Ovrd TimeAUX.NOAUX Free CLGAOV1START AOV1SPANAOV2 Span AOV2 StartEheat NGT CLG ModeEhea T FANOA Dmpr POS CLG OutputCLG P Gain CLG D GainSwitch Time Switch LimitMA Loopout OA LoopoutError Status Switch DbandNGT Dband Morn DbandOverview TroubleshootingBasic Service Information Preventive Maintenance Ordering Replacement PartsSafety Features Controller LEDsAlgorithm GlossaryCentralized control Control loopEquipment controller English unitsField panel InterceptSlave mode Override switchOn text Sl unitsUnbundle BST LED IndexDDC FLNTX LED RTS

125-1957 specifications

Siemens 125-1957, a notable creation of the German engineering giant Siemens, is recognized for its innovative design and advanced technology in the realm of electrical engineering. This model is emblematic of the mid-20th century's commitment to optimizing electrical machinery for industrial applications, contributing to enhanced productivity and efficiency.

One of the main features of the Siemens 125-1957 is its robust construction, designed to withstand the demanding environments of industrial settings. The body of the machine is built from high-grade materials, ensuring durability and longevity. It is also designed to minimize vibration and noise during operation, thus enhancing the user experience.

Technologically, the Siemens 125-1957 incorporates advanced electric motor technology, which provides reliable performance across a variety of applications. The motor is designed for high efficiency, allowing it to operate effectively under load while consuming less energy. This efficiency is crucial in industrial applications where operational costs are significant. The motor is also equipped with thermally protected windings, which prevent overheating and extend the service life of the equipment.

The 125-1957 model is characterized by its adaptability in various operational settings. It is compatible with a range of automation systems, making it a versatile choice for factories and production lines. Its design allows for easy integration with existing equipment, minimizing downtime during installation.

Moreover, the Siemens 125-1957 boasts a user-friendly interface, making it accessible for operators with varying levels of expertise. It comes with comprehensive safety features, including circuit protection and emergency stops, ensuring that it meets the strict industrial safety standards.

In summary, the Siemens 125-1957 represents a blend of robust design, advanced motor technology, and user-oriented features. With its energy-efficient performance and adaptability, it stands out as a key asset in industrial electrical engineering, demonstrating Siemens' commitment to innovation and quality in the manufacturing sector. This model continues to be relevant, supporting various industries in their pursuit of efficiency and reliability.