GE IS200SCTLG1A PCB Board

GE IS200SCTLG1A  PCB Board

Part Number IS200SCTLG1A Manufacturer General Electric Country of Manufacture As Per GE Manufacturing Policy Series Mark VI/VIe Function Module Availability In StockIS200SCTLG1A is a static control charge board developed by GE. It is a part of General Electric Mark VIe control system. The board is most commonly associated with the Mark VIe series, but it can also be associated with the Innovation Series. When used with the Innovation Series, the board will be installed in the Load or Control Cabinet. It performs the function of a static charge control board. When operating any type of electronic system, static charge control and damping are critical considerations. Static electricity buildup can harm electronics and, in extreme cases, can cause explosions or fires. 

Furthermore, static electricity can be hazardous to technicians working on components. The Mark VIe control was created to serve a wide range of control and protection applications, including steam and gas turbines, as well as power generation balance of plant (BOP) equipment. The control provides more redundancy options, improved maintainability, and increased capability for locating I/O closer to the controlled equipment. FEATURES There are no potentiometers or LED indicators on this board. The sub-D pin connector on the left side of the board has four pins, while the connector on the right side of the board has three pins. Two blue variable resistors in the bottom right corner of the board operate at a voltage of 250. The SCTL board can operate at three different redundancy levels: single, dual, and triple. When using the board with dual redundant systems, redundant and single input packs with dual IONets will be used to transmit these inputs to the Mark VIe controllers. This board was designed as a printed circuit board (PCB) with no potentiometers on the surface. The card includes two sets of sub-D pin connectors, one with three pins and the other with four pins. The fuse for this component has a rating of 120 VDC and is mounted in the load cabinet LS2100 STATIC STARTER The LS2100 static starter system uses the generator as a starting motor to start a gas turbine. An integrated static start system is made up of the LS2100 control, the Mark VIe control, and the EX2100 excitation control. The run, torque, and speed setpoint signals are supplied by the Mark VIe control to the LS2100 control, which operates in closed loop control mode to supply variable frequency power to the generator stator. The LS2100 control regulates the field current during startup by controlling the EX2100 control. A CPCI enclosure containing the Mark VIe CPCI controller is housed in the control cabinet. the world, and the world, and the world, and the world, the imagination, and the imagination of the world, the imagination of the world, the imagination of the world. QNX Neutrino is the controller operating system (OS), which was designed for high-speed, high-reliability industrial applications. Temperature inputs and diagnostic variables are handled by the field control I/O. PRODUCT ATTRIBUTES High performance: The board is designed to provide high performance and reliability, which makes it suitable for use in critical applications. 

Robust construction: It is built with high-quality materials and designed to withstand harsh environments, ensuring long-term performance and durability. Multiple input/output channels: The board features multiple input/output channels, which provide flexibility and enable it to interface with different components in the control system. Easy maintenance: Designed for easy maintenance, with easily accessible components that can be easily replaced if needed. Developed by GE: Developed by General Electric, a multinational conglomerate known for its expertise in the field of electrical and electronic equipment manufacturing. Mark VIe Control System: The board is a part of the General Electric Mark VIe control system, which is a state-of-the-art control system used in a variety of industries to manage complex processes and systems. INTERFACE FEATURES The controller's EGD pages are used to drive numeric data displays. The refresh rate is determined by how quickly the controller transmits pages and how quickly the COI refreshes fields. Both are configured in the toolbox during the configuration process. 

The COI operates on a touch screen, with no keyboard or mouse provided. State feedback conditions determine the color of pushbuttons. Press the button to change the state or condition. If the command is accepted and the change is implemented by the controller, the color of the button changes. When you touch an input numeric field on the COI touch screen, a numeric keypad appears for you to enter the desired number. An Alarm Window is provided, and by touching it, an alarm can be selected. Then, by pressing the corresponding button, you can acknowledge, silence, lock, or unlock the alarm. By dragging through the alarm list, you can select multiple alarms. When you press the button, it applies to all of the alarms you've chosen.

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.