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  • GE IS200TFBAH1A Temperature Feedback Module
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  • GE IS200TFBAH1A Temperature Feedback Module

    110V-380V
    5W-130W
    1A-30A
    1 year
    30
    United States, France, Japan, Viet Nam, Australia, Russia, Germany, Italy, Arabia

    GE IS200TFBAH1A Temperature Feedback Module

    • ¥50778.05
      ¥50275.02
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    Weight:2.540KG
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Description

GE IS200TFBAH1A Temperature Feedback Module


GE IS200TFBAH1A Temperature Feedback Module

Part Number IS200TFBAH1A Manufacturer General Electric Country of Manufacture As Per GE Manufacturing Policy Series Mark VI/VIe Function Module Availability In StockIS200TFBAH1A is a Temperature Feedback Module manufactured and designed by General Electric as part of the Mark VIe Series used in GE Distributed Turbine Control Systems. The Temperature Feedback Module is a component or device designed to provide feedback on temperature-related information. It can be used in various applications where temperature monitoring and control are essential, such as in industrial processes, electronic systems, environmental monitoring, and many others. 

The module typically consists of a temperature sensor, signal conditioning circuitry, and an output interface. The temperature sensor is responsible for measuring the ambient or object temperature, and it can be based on different technologies, including thermocouples, resistance temperature detectors (RTDs), or thermistors. The signal conditioning circuitry processes the temperature signal from the sensor and converts it into a format suitable for further processing or display. 

This circuitry may include amplification, filtering, linearization, and other necessary adjustments to ensure accurate temperature measurements. The output interface of the module can vary depending on the application requirements. It may include analog outputs, such as voltage or current signals proportional to the temperature, or digital outputs, such as serial communication protocols (e.g., I2C or SPI) or standard interfaces (e.g., USB or Ethernet). 

These outputs allow the temperature information to be utilized by other systems, displayed on screens, logged-in data acquisition systems, or transmitted to remote locations. FUNCTIONS & FEATURES: The Temperature Feedback Module typically offers several features and functions to ensure accurate temperature monitoring and control. Here are some common features you may find in such a module: Temperature Sensing: The module incorporates a temperature sensor, which may be based on different technologies like thermocouples, RTDs, or thermistors. 

These sensors accurately measure the ambient or object temperature. Signal Conditioning: The module includes signal conditioning circuitry that processes the raw temperature signal from the sensor. This circuitry may perform amplification, filtering, linearization, and other adjustments to ensure accurate and reliable temperature measurements. Measurement Range: The module specifies a temperature measurement range within which it can provide accurate readings. The range may vary depending on the specific module and its intended application. 

Accuracy and Precision: The module is designed to provide precise temperature measurements within a specified accuracy range. Accuracy indicates how close the measured temperature is to the actual temperature, while precision refers to the level of consistency and repeatability in the measurements. Compatibility and Integration: Temperature feedback modules are designed to be compatible with various systems, such as process control systems, data acquisition systems, or microcontrollers. They can be easily integrated into existing setups or incorporated into custom designs.

System Overview

The GE Mark VIe control system is a state-of-the-art platform for controlling and monitoring gas and steam turbines, as well as other industrial processes. It features a modular and scalable design that allows for easy customization and expansion, making it suitable for a wide range of applications.

The system consists of hardware and software components, including the human-machine interface (HMI), controllers, I/O modules, and communication networks. The HMI provides operators with a graphical interface to monitor and control the system, while the controllers execute control algorithms and perform safety functions.

The system is equipped with advanced diagnostic and predictive maintenance features that enable early detection of equipment issues and reduce downtime. It also supports remote monitoring and control capabilities, allowing for remote access to the system from anywhere in the world.

It is widely used in the power generation industry, particularly in gas and steam turbine power plants, as well as in oil and gas production and other industrial applications. It is designed to meet the most demanding performance and safety standards, and is continuously updated with the latest technologies to improve system performance and reliability.

By facilitating the selection and voting of sensor inputs, the Mark VIe control system maximizes the available reliability options for a given set of inputs. This means that users can tailor the system to meet specific requirements, ensuring optimal performance and robustness.

The system ensures that this selection and voting capability is seamlessly integrated with the hardware, providing compatibility with output voting components. This harmonious synergy between input selection and output voting hardware creates a comprehensive and dependable control ecosystem.

To make this feature even more adaptable, the Mark VIe control system allows users to apply these reliability options on a per-terminal basis. This means that users can fine-tune the system's reliability configurations according to their specific needs, all while maintaining a high degree of control over the Mark VIe topology.


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