GE IS200TBAIH1CED is an Analog Terminal Board optimized for signal management and system integration in complex industrial environments, ensuring precise control and high-reliability communications.
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Manufacture |
GE |
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Model Number |
IS200TBAIH1CED |
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Series |
Mark VIe |
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Country Of Origin |
USA |
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HS CODE |
8504902000 |
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Dimension |
20*5*5cm |
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Packing Dimension |
20*5*5cm |
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Weight |
0.7kg |
Technical parameters
Input voltage: 24V DC
Power consumption: ≤10W
Communication interface: Support RS-232, RS-485 and high-speed industrial Ethernet
Signal processing: Can manage multiple analog/digital signals at the same time
Working temperature: -20℃ ~ 70℃
Protection level: IP65
Humidity range: 5%~95%
Installation method: Standard DIN rail or control cabinet screw fixation
Functional features
1. Redundant communication and high reliability
GE IS200TBAIH1CED supports triple modular redundant architecture, realizes data synchronization through multi-protocol communication, and ensures "zero single point failure" in key scenarios such as power or chemical industry
2. Dynamic signal processing capability
This module can cooperate with terminal boards such as STAI, TBAIH1C, etc., to convert 20+ analog signals (such as 4-20mA/0-10V) into digital quantities in real time, and transmit them to the main controller through the VME backplane, significantly improving the system response efficiency
3. Intelligent diagnosis and convenient maintenance
GE IS200TBAIH1CED has a built-in self-diagnosis chip, which can monitor voltage fluctuations, communication interruptions and other abnormalities in real time, and provide LED indicators or software alarm prompts, greatly reducing downtime maintenance time.
4. Strong environmental adaptability and industrial-grade protection
With a wide temperature design (-20℃~70℃) and an IP65 protective shell, GE IS200TBAIH1CED can maintain stable operation under harsh working conditions such as mines and oil platforms, and its anti-electromagnetic interference capability meets the IEC 61000 standard.
Application scenarios
Power industry: In the control cabinet of gas turbines/steam turbines, real-time monitoring of generator winding temperature and oil pressure signals are synchronized to the DCS system.
Petrochemical: In the safety interlock system of refineries, redundant signals of reactor pressure and flow sensors are processed.
Water treatment facilities: Integrated PLC controls the start and stop of pump stations, and dynamically adjusts analog parameters such as pH value and turbidity.
Mining and Metallurgy: In high dust environment, connect the rolling mill vibration sensor with the central control room to achieve equipment health prediction
