Description

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         IS2020JPDBG01- Static Control Charge Board is available in stock which ships the same day.

　　IS2020JPDBG01- Static Control Charge Board comes in UNUSED as well as REBUILT condition.

　　To avail our best deals for IS2020JPDBG01- Static Control Charge Board, contact us and we will get back to you within 24 hours.

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　　General Electric Mark VIe Static Control Charging Board IS2020JPDBG01. The board is designed as a PCB with no potentiometers on the surface. The IS2020JPDBG01board has two sets of Sub-D pin connectors; One is a three pin Sub-D connector, and the other is a four pin Sub-D connector.

　　IS2020JPDBG01 Other names:

PCB module IS2020JPDBG01

IS2020JPDBG01 Interface Module

Analog module IS2020JPDBG01

IS2020JPDBG01 Input/Output Module

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Product Description

The IS2020JPDBG01board is described as a Static Control (SCTL) charging board. This board is designed by General Electric for its Mark VIe series and can be used with gas or steam turbine prime movers. Please note that although this board is mainly used for the Mark VIe series, it can also be used for the Innovation series. When used in conjunction with the Innovation series, this board will be used within the load or control cabinet.

The board does not have any potentiometers or LED indicator lights. On the left side of the IS200SCTLG1A board, the sub D pin connector consists of four pins, while the connector on the right side of the board consists of three pins. In the bottom right corner of the circuit board, there are two blue variable resistors with a working voltage of 250.

The SCTL board can operate at multiple levels of redundancy, including single redundancy, dual redundancy, and triple redundancy. When the IS2020JPDBG01board is used with a dual redundant system, redundant and single input packets will be used with the dual IONet to transfer these inputs to the Mark VIe controller.

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　　Function Description

IS2020JPDBG01 is an electrostatic control charging board developed by GE. It is part of the General Electric Mark VIe control system. This board is most commonly associated with the Mark VIe series, but can also be associated with the Innovation series. When used in conjunction 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 key considerations. The accumulation of static electricity may damage electronic devices, and in extreme cases, it may lead to explosions or fires. In addition, static electricity can be dangerous for technicians handling components. The Mark VIe controller is designed to serve a wide range of control and protection applications, including steam and gas turbines, as well as power plant balance (BOP) equipment. This control provides more redundancy options, improved maintainability, and the ability to position I/O closer to controlled devices.

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feature

There are no potentiometers or LED indicator lights on the 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. There are two blue variable resistors in the bottom right corner of the board, with a working voltage of 250 Ω.

The SCTL board can operate at three different levels of redundancy: single redundancy, dual redundancy, and triple redundancy. When using boards with dual redundant systems, redundant and single input packets with dual IONet will be used to transfer these inputs to the Mark VIe controller.

The board is designed as a printed circuit board (PCB) with no surface potentiometers. The card includes two sets of Sub-D pin connectors, one set is three pin and the other set is four pin.

The rated value of the fuse for this component is 120 VDC and it is installed in the load cabinet

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　　LS2100 static starter

The LS2100 static start system uses a generator as the starting motor to start the gas turbine. The integrated static start system consists of LS2100 control, Mark VIe control, and EX2100 excitation control.

The operating, torque, and speed set point signals are provided by the Mark VIe controller to the LS2100 controller, which operates in closed-loop control mode and provides variable frequency power to the generator stator. The LS2100 controller adjusts the excitation current during startup by controlling the EX2100 controller.

The control cabinet is equipped with a CPCI enclosure containing a Mark VIe CPCI controller. World, world, world, world, imagination, world’s imagination, world’s imagination, world’s imagination.

QNX Neutrino is a Controller Operating System (OS) designed specifically for high-speed, highly reliable industrial applications. The temperature input and diagnostic variables are processed by on-site control I/O.

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　　Product attributes

High performance: This board is designed to provide high performance and reliability, making it suitable for use in critical applications.

Sturdy structure: It is made of high-quality materials designed to withstand harsh environments, ensuring long-term performance and durability.

Multiple input/output channels: This board has multiple input/output channels, providing flexibility to connect with different components in the control system.

Easy to maintain: Designed specifically for easy maintenance, it features easily accessible components that can be easily replaced when needed.

Developed by GE: Developed by General Electric, a multinational corporation renowned for its expertise in electrical and electronic equipment manufacturing.

Mark VIe Control System: This board is part of the General Electric Mark VIe Control System, which is the most advanced control system used for managing complex processes and systems in various industries.

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　　Interface characteristics

The EGD page of the controller is used to drive digital data display. The refresh rate is determined by the speed at which the controller transfers pages and the speed at which COI refreshes fields. Both are configured in the toolbox during the configuration process. COI runs on the touch screen and does not provide a keyboard or mouse. The state feedback condition determines the color of the button.

Press the button to change the status or condition. If the command is accepted and the controller performs a change, the color of the button will change. When you touch the input number field on the COI touch screen, a numeric keypad will appear for you to input the desired number.

Provide an alarm window that can be touched to select alarms. Then, by pressing the corresponding button, you can confirm, mute, lock, or unlock the alarm. By dragging the alarm list, you can select multiple alarms. When you press this button, it will apply to all alarms you have selected.

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　　Frequently asked questions

　　What is IS2020JPDBG01?

　　It is an electrostatic control charging board developed by GE.

　　What types of connectors do this board have?

　　This board has two sets of Sub-D pin connectors, one set is three pin and the other set is four pin.

　　What is the level of redundancy that this board can run at?

　　It operates at three different levels of redundancy: single redundancy, double redundancy, and triple redundancy.

　　What input packets are used when using boards with dual redundant systems?

　　When using boards with dual redundant systems, redundant and single input packets with dual IONet will be used to transfer inputs to the Mark VIe controller.

　　What is the rated value and installation position of the fuse on this board?

　　The fuse rating of this board is 120 VDC and is installed in the load cabinet.

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