GE IS200BICLH1AFD

Operation Parameters

Nominal Power Supply: 24 V DC

Operating Voltage Range: 18 V DC to 32 V DC

Current Consumption: Typically 0.5 A at 24 V DC (current may vary depending on the configuration)

Communication Ports:Ethernet Communication: Supports Profinet, Ethernet/IP, and Modbus TCP protocols for high-speed communication over Ethernet.

Serial Communication: RS-232 and RS-485 ports for connecting to legacy devices that require serial communication.

Ingress Protection (IP) Rating: Typically IP20 (suitable for indoor use in enclosures or control panels)

Product Features

Interface Bridging: GE IS200BICLH1AFD serves as a crucial bridge between the innovation series drive main control PCB and several bridge personality interface PCB components., acting as a bridge between them. It allows for the transfer of control signals, feedback signals, and data between various parts of the system, facilitating effective communication and coordination.

Temperature monitoring: The board supports ambient and bridge temperature monitoring The control system can remotely prevent overheating by detecting the system temperature and estimating the efficiency of the electronic devices.

PWM Speed Control: GE IS200BICLH1AFD can interface with a pulse width modulated speed control system, which can also control the speed of whatever it is connected to (generally motors and generators) within the industrial gas or steam turbine systems.

Fault String Handling:  GE IS200BICLH1AFD can connect with panel and system fault strings for displaying fault messages/alarms. So, the operators can monitor the system and see the critical parameters in real-time so, they can take further corrective actions accordingly.

Installation

Backplane Slot: GE IS200BICLH1AFD is placed in a specific slot (typically slot 5) in the drive assembly. Insert the board into the proper slot (to avoid making wrong connections and damaging the board).

Connector Connection:P1 and P2 connectors on the base plate of the board connect it to the VME type rack. Installing these connectors into the appropriate sockets on rack provides a reliable means of electrical connection.

Anti-static precautions: It is important to enforce anti-static measures while mounting the components. This means wearing a ground strap to prevent electrostatic discharge that may damage the sensitive electronic components on the board.

Ejector Tab Usage: An ejector tab must be lifted before the user attempts to extract the board from the VME rack as that action is necessary to release the proper components of the board from the assembly.

Application Range

Gas and Steam Turbine Systems: A constituent of the General Electric Mark VI turbine control system, which was developed for the control, protection, and monitoring of industrial gas and steam turbines. The system includes the interfaces and control functions required for the safe and efficient operation of these turbines.

Application: In a wide range of industrial automation scenarios where accurate control of motors, generators, or similar electrical devices is necessary, the GE IS200BICLH1AFD can act as an interface and provide the control functionalities needed for dependable operation.

Troubleshooting

Power Supply Problems: If the board doesn't come up, start by checking the power supply connections to the board and the power supply module. The voltage of the power supply should be within the specified range. If voltage is normal then you should check the blowing fuses or damaged components in the power supply.

Signal Transmission Issues: If there are errors in signal transmission, such as differences with expected values or error messages, check that the connectors and cables are correctly glued and there are no breaks or shorts.

Temperature Monitoring Failures:  If the temperature monitoring function is working improperly, check the temperature sensors and their associated connections to the board. Make sure that the equipment is working properly and the temperature sensor is calibrated.

Fault string problems: If the fault string handling does not function as expected, check the connections between the board and the fault string device or fault string management device. Test that the fault messages are transmitted and displayed correctly.