Description
Overview
The GE IS200EISBH1A Exciter ISBus Board belongs to the Mark VIe series and plays a critical role in fiber-optic communication. Measuring 2x18.6x12.8cm and weighing 0.12kg, this compact module integrates seamlessly into DCS systems. Manufactured in the USA, it supports Ethernet router communication and ensures reliable data transmission in turbine control environments.
Engineers designed the IS200EISBH1A with six fiber-optic connectors, RS-232C ports, and a single-slot 3U form factor. Its robust construction guarantees durability, while its ability to handle both current and voltage inputs enhances system reliability.
Technical Specifications
| Parameter |
Value |
| Model Number |
IS200EISBH1A |
| Module Type |
Exciter ISBus Board |
| Manufacturer |
GE |
| Product Range |
Mark VIe |
| Condition |
Brand New |
| Lead Time |
In Stock |
| Weight |
0.12 kg |
| Dimension |
2 x 18.6 x 12.8 cm |
| HS Code |
8537101190 |
| MOQ |
1 |
| Origin |
USA |
| System |
DCS |
| Status |
Active |
| Communication Service |
Ethernet router |
Functional Description
The GE IS200EISBH1A integrates six fiber-optic connectors on its front panel, ensuring seamless signal transmission. It relays feedback through the backplane controller to the DSPX module and supports RS-232C communication between tool and keypad ports. The board transmits critical signals to the EGDM ground detection module, enhancing system safety and reliability.
Its compact 3U, single-slot design allows efficient installation, while compatibility with EX2100 excitation systems ensures optimized communication and control. Reference manuals such as GEH-6632 and GEI-100454 provide detailed installation and operational guidance.
Applications and Compatibility
The IS200EISBH1A Exciter ISBus Board suits industries requiring dependable DCS integration, including power generation and heavy machinery. It works seamlessly with GE EX2100 and Mark VIe systems, offering compatibility for upgrades and replacements. Professionals rely on the IS200EISBH1A for stable fiber-optic communication, making it a trusted solution for efficient turbine control and automation.
