Description
Product Overview
The IS200VCMIH1BCC from GE is a bus master controller board used in Mark VI Speedtronic control systems. It manages communication between the controller, I/O boards, and the IONet network, acting as the VME bus master and ID manager.
This board supports high-speed data transfers via VME block communication and includes multiple interfaces for flexible connectivity. It ensures reliable operation in both simplex and redundant configurations, making it essential for industrial control environments.
Technical Specifications
Specification |
Details |
Manufacturer |
GE |
Part Number |
IS200VCMIH1BCC |
Ordering Code |
IS200VCMIH1B |
Series |
Mark VI |
Voltage |
28 V |
Frame Rate |
10 ms (100 Hz) |
Dimensions |
28 cm × 20 cm × 3 cm |
Weight |
0.8 kg |
Ethernet Ports |
3 IONet 10Base2 with BNC connectors |
Serial Port |
RS-232C, D-style male, 9600–38400 bps |
Parallel Port |
IEEE 1284-1994, EPP v1.7, 8-bit bidirectional |
Communication Method |
VME bus block transfers |
Communication Interfaces
The IS200VCMIH1BCC includes three 10Base2 Ethernet ports for real-time data exchange. It also features an RS-232C serial port and a bi-directional parallel port for versatile device integration. These interfaces comply with industry standards, ensuring compatibility with legacy and modern equipment.
Installation & Configuration
Mount the board in the VME rack and connect it to the control system using standard cables. Use the Ethernet ports for IONet communication and the serial/parallel ports for peripheral integration. The board supports flexible bit rates and high-speed parallel data transfer.
Applications & Compatibility
The IS200VCMIH1BCC is ideal for turbine control, process automation, and industrial networking. It integrates seamlessly with Mark VI systems and supports high-speed communication across multiple devices.
Use this board in environments requiring robust data exchange, real-time control, and multi-interface connectivity. Its compatibility with standard protocols ensures smooth integration into diverse setups.