The GE IS200VCMIH2CAA is a module for monitoring and controlling the operation of a turbine. The following is a specific description of its parameters, specifications, dimensions, weight, series, characteristics and functions:
Parameters and specifications:
Logic block limit: The maximum loop value allowed for each logic block (main program or subroutine) is 3000, and the logic is repeatedly executed by the PLC.
Programming support: Support a variety of programming languages and development tools, convenient for users to develop and debug programs.
Size and weight:
Size: The exact size information is not given directly, but the regular size may be 430mm(D) x 220mm(W) x 130mm(H) or can be customized on request.
Series:
IS200VCMIH2CAA belongs to a specific family of GE brands, but the specific family name may require further product documentation or contact the manufacturer for confirmation.
Features:
Turbine monitoring: It can monitor various parameters of the turbine, such as temperature, pressure, speed, fuel flow, etc., to ensure that the turbine operates within a safe and effective working range.
Control function: Perform control operations, such as adjusting fuel flow, ignition timing, etc., to maintain the optimal operation of the turbine.
Fault diagnosis and prevention: With fault diagnosis and prevention functions, it can detect and identify potential faults, and take appropriate measures to prevent faults or reduce the impact of faults.
Communication interface: It is a VME communication interface card, supporting a variety of communication interfaces, such as RS-232C, IONet, etc., to achieve data exchange and remote control with other devices or control systems.
Programmability: Users can configure and customize according to specific application requirements to achieve customized control logic and functions.
Easy to use and maintain: Provide easy-to-use configuration software and programming interface, easy for users to develop and maintain.
Functions:
The GE IS200VCMIH2CAA module plays a key role in the turbine control system, ensuring the safe and efficient operation of the turbine through monitoring and control. It can not only provide real-time operating status information, but also execute control commands to optimize gas turbine performance and reduce the occurrence of faults.