GE IS200EBKPG1A Excitation Control Backplane Board

GE IS200EBKPG1A Excitation Control Backplane Board

Part Number IS200EBKPG1A Manufacturer General Electric Country of Manufacture As Per GE Manufacturing Policy Series EX 2100e Function Module Availability In StockIS200EBKPG1A is an Exciter Back Plane Board manufactured and designed by General Electric. It is a part of the EX2100 Series used in Excitation Control Systems. The IS200EBKP Exciter Back Plane (EBKP), which is a component of the control module, serves as the backplane for the control boards and as the connection for the cables that link to the I/O terminal boards. For the controllers M1, M2, and C, EBKP comprises three portions. Each segment has its own, independent power source. IS200EBKPG1A Features The ACLA, DSPX, EISB, EMIO, and ESEL boards are present in Sections M1 and M2. DSPX, EISB, and EMIO are all included in Section C. 

The control boards are arranged in a rack, and two cooling fans are located at the top of the rack. Twenty-four DIN connectors are included in the backplane's upper section. Three circular DIN connectors, three 12-pin power supply plugs, three fan power plugs, and 30 Testpoints are located on the lowest portion of the backplane. There are also 27 D-SUB connectors there. Application Data There are no LEDs, fuses, or movable parts on the EBKP board. For the purpose of diagnosing signals, the board features test points. Digital-to-analog converters and diagnostic analog-to-digital converters can access signals through the test points. Exciter Gate Pulse Amplifier Connector There are six connectors available for the ESEL board to drive up to six EGPA boards. For PCMs (bridges) 1 through 6, these are located at J306, J307, J406, J407, J506, and J507, respectively. How many of these connectors are driven depends on the ESEL board's group number.

Technical specifications and performance

Voltage & Current: Specific voltage and current specifications may vary depending on application scenarios and customised requirements, but usually have multiple voltage and frequency adaptations to suit the power standards of different regions.

Durability and Safety: High-quality power interface boards are usually made of durable materials and equipped with safety devices such as fuses and circuit breakers to ensure long term reliability and stability while protecting the equipment and users.

Communication features: Some power interface boards may have communication interfaces that allow the device to communicate with a computer or other control system for remote monitoring and control.

Indicator Lights and Displays: Some power interface boards may be equipped with indicator lights for displaying information such as power status, connection status, etc., to facilitate troubleshooting and status monitoring by users.

Main Functions

Power system monitoring and control:

The power interface board can be used for power system monitoring and control equipment to ensure the safe, stable and reliable operation of the power system.

Power plant automation:

In the power plant, it can be used to connect and manage the power supply of the mastering system and monitoring equipment to improve the automation level of the power plant.

Power transformer and distribution:

Applicable to substations and distribution stations, it is used to govern the power supply of transformers, circuit breakers and other equipments to ensure the high efficiency of power transmission and distribution.

Industrial Process Mastering:

In manufacturing and chemical workshops, this power interface board can be used for power management of automation systems, inner and control equipment to enhance productivity and safety.

Building Automation:

It can be used in building automation system, power supply to lighting, air conditioning, security equipment, etc., to achieve intelligent management of building equipment.

Railway flag signal system:

In the railway system, it is used in the power management of railway flag signal equipment and control system to ensure the stable operation of railway signal system.

Smart Grid:

In the smart grid, the power interface board can be used to connect and manage the digital power equipment and promote the intelligent development of the power grid.

Traffic Flag Signal System:

In the traffic flag signal system of routes and intersections, it is used to supply power to the flag master and equipment to ensure the normal display of traffic signals.

Aerospace:

In aviation and aerospace, the power interface board can be used in the control system of aircraft and spacecraft to provide stable and reliable power support.

It is suitable for land initiatives, oilfield equipment and other categories, providing power support for various land engineering equipment.