ABB GF D563 | 3BHE046836R010 | GFD563A101 | excitation controller | GFD563A101

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GFD563A101 3BHE046836R0101(1)
GFD563A101 3BHE046836R0101
GFD563A101 3BHE046836R0101(2)

ABB GF D563 | 3BHE046836R010 | GFD563A101 | excitation controller | GFD563A101

(6 customer reviews)

¥7,781.00

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Description

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  GFD563A101 3BHE046836R010 Other names:

GFD563A101 3BHE046836R010 control unit

Output unit module GFD563A101 3BHE046836R010

Analog unit GFD563A101 3BHE046836R010

  Function Introduction

GFD563A101 3BHE046836R010  excitation controller is an excitation regulator for self parallel excitation static rectification excitation systems, evolving from semiconductor discrete components to integrated solid components and from analog to digital. Domestic devices can be divided into three categories: semiconductor analog excitation regulators, microcomputer (including programmable controllers) digital excitation regulators, and hybrid microcomputer (including programmable controllers) analog excitation regulators. Domestic semiconductor excitation regulators have a record of export since the early 1970s. The development of microcomputer excitation regulators began in the late 1970s.GFD563A101 3BHE046836R0101(1)

  The GFD563A101 3BHE046836R010  controller has the following characteristics:

Error control: The device controller also manages error detection of data transmitted by I/O devices. If an error is found during transmission, the error detection code is usually set and reported to the CPU, so the CPU invalidates the data transmitted this time and performs a new transmission. This ensures the accuracy of data input.GFD563A101 3BHE046836R0101(2)

Data exchange: This refers to the exchange of data between CPUs and controllers, as well as between controllers and devices. For the former, data is written to or read from the controller in parallel by the CPU through the data bus; For the latter, it is the device that inputs data to the controller or transmits it from the controller to the device. Therefore, data registers must be set in the controller.

Receive and recognize commands: The CPU can send various different commands to the controller, and the device controller should be able to receive and recognize these commands.

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6 reviews for ABB GF D563 | 3BHE046836R010 | GFD563A101 | excitation controller | GFD563A101

  1. admin

    admin

    GFD563A101 3BHE046836R010 excitation controller is an excitation regulator for self parallel excitation static rectification excitation systems, evolving from semiconductor discrete components to integrated solid components and from analog to digital.

  2. Avatar

    angel

    ABB GF D563 | 3BHE046836R0101 | GFD563A101 | AC 800PEC. ABB AC 800PEC is a controller that combines high-speed process control requirements (such as those in power electronics applications) with low-speed process control tasks typically performed by individual PLC units. It uses ABB’s Control Builder M programming tool that complies with IEC 61131-3, as well as MATLAB, Simulink, and Simulink encoders for configuration and programming. The AC 800PEC interfaces with ABB’s I/O system through the optical S800 ModuleBus and with ABB’s communication module through the Communication Expansion Bus (CEX). It also supports third-party Anybus-S fieldbus modules. The AC 800PEC controller can be programmed using Simulink and Simulink encoders. Access to controller hardware requires the AC 800PEC toolbox. The use of Simulink external mode allows for user-friendly supervision.

    To use the AC 800PEC controller in Compact Control Builder 5.1, you can refer to the manuals or files related to the configuration of the AC 800PEC controller.

    The AC 800PEC GFD563 controller can be used in industrial controllers and PLCs, control systems, digital signal processing, embedded systems, process control and monitoring, real-time systems, industrial automation and machinery, as well as utilities and energy industries.

    It is worth noting that the Application Knowledge Base (AKS) will no longer be available after July 31, 2021. ABB is enhancing its customer and partner experience and migrating data from AKS to a new portal website. ABB AC 800PEC is a controller that combines high-speed process control requirements (such as those in power electronics applications) with low-speed process control tasks typically performed by individual PLC units. It can be programmed using ABB’s Control Builder M programming tool that complies with IEC 61131-3, as well as MATLAB, Simulink, and Simulink encoders. It interfaces with ABB’s I/O system through the optical S800 ModuleBus and with ABB’s communication module through the Communication Expansion Bus (CEX). It also supports third-party Anybus-S fieldbus modules. The controller can be programmed using Simulink and Simulink encoders. Access to controller hardware requires the AC 800PEC toolbox. The use of Simulink external mode allows for user-friendly supervision. It can be used in various industries, such as industrial controllers and PLCs, control systems, digital signal processing, embedded systems, process control and monitoring, real-time systems, industrial automation and machinery, as well as utilities and energy.

  3. Avatar

    Genie Waychoff

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  6. admin

    admin

    ABB GFD563A101 3BHE046836R0101 Excitation Controller: In-Depth Technical Analysis

    As the core excitation control unit in ABB’s AC800PEC control system, the GFD563A101 (order number 3BHE046836R0101) is a key component for generator excitation, grid stability, and industrial automation, thanks to its high-precision control capabilities and industrial-grade reliability. The following systematic analysis focuses on four aspects: technical features, application scenarios, differences from the GFD563A102, and market trends:

    I. Core Technical Features and Advantages

    Processor Architecture: Utilizing a dual-core processor (2.5GHz/PowerPC 405 200MHz) with a cycle time of ≤100 microseconds, it supports the coordinated integration of high-speed excitation control (terminal voltage fluctuation ≤±0.5%) and low-speed process control, making it suitable for high-power rectifier applications.

    I/O Expansion Capability: Supports 62 standard I/O channels (30 DIs + 28 DOs + 2 AIs + 2 high-speed outputs), expandable to 1024 I/O points through a modular design. Compatible with ABB S800 I/O modules and fiber-optic communication links.

    Communication Protocols: Compatible with Ethernet, Modbus TCP, OPC UA, Profibus DP, IEC 61850, and other protocols. Built-in redundant dual ports support ring network construction and HSR/PRP protocols. Compatible with ABB 800xA systems and third-party PLCs (such as the Siemens S7-1500).

    Electrical Parameters: Operating voltage 24V DC/120V AC, output current 0-5A, control accuracy ±0.5%, response time ≤10ms; equipped with 512MB SDRAM/128MB Flash storage to meet the needs of complex algorithms.

    Protection Functions: Built-in overvoltage/undervoltage, overcurrent, short-circuit, and overtemperature protection, supporting rapid demagnetization and fault ride-through, and complying with international certifications such as CE and UL, as well as the IEC 61508 safety standard.

    II. Core Application Scenarios and Typical Cases

    Power Industry: Generator excitation control, dynamic reactive power compensation in HVDC converter stations, STATCOM (Static Synchronous Compensator) applications, and substation automation. For example, in thermal power plants, closed-loop PID algorithms are used to maintain terminal voltage stability, optimize reactive power distribution, and improve static and dynamic grid stability.

    Industrial Automation: Process control systems (such as DCS integration), SCADA systems, PLC expansion modules, and robotic control (such as machine tools and packaging machinery). In the petrochemical industry, AI control technology enables automated adjustment of process parameters, reducing manual intervention and improving production efficiency and safety.

    Special Applications: Marine propulsion systems, grid-connected inverters for new energy vehicles, arc furnace power factor optimization, and process optimization in municipal wastewater treatment plants. In harsh environments (such as high temperature/humidity, dust/oil), coating technology protects the PCB, ensuring reliable operation.

    Technical Innovation: The 2025 version supports compatibility with AC 800M series main modules (such as PM851 and PM861), integrating AI control technology to achieve autonomous operation. For example, in the DCS system of the Baoding Petrochemical Thermal Power Plant, optimized cooling system design and coating technology reduce failure rates and extend service life.

    III. Key Differences from the GFD563A102

    Processor Performance: The A101 uses a dual-core processor; the A102 uses a multi-core processor (clocked at 2.5GHz), offering slightly better performance and adapting to more complex control scenarios.

    Communication Protocol Support: The A101 is compatible with basic protocols such as Ethernet and Modbus TCP; the A102 supports more industrial protocols (such as PROFINET DP and CANopen), offering wider adaptability and is particularly suitable for industrial automation scenarios that require integration with multiple devices.

    Application Scenario Adaptability: The A101 focuses more on specific scenarios in the power industry (such as generator excitation control); the A102 excels in industrial automation and robotics (such as machine tool control and packaging machinery), supporting a wider range of device compatibility.

    Expandability: Both support 62 I/O expansion channels, but the A102 has a slight advantage in modular expansion flexibility and compatibility. This should be determined based on actual system requirements.
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