This photovoltaic module utilizes a three-level, four-quadrant VSI-NPC (Voltage Source Inverter - Neutral Point Clamped) topology, eliminating the need for fuses and supporting bidirectional power flow, achieving an efficiency of over 98%. It employs IGCT (Integrated Gate Commutated Thyristor) technology for high-efficiency power conversion. The cooling system supports both air and water cooling. The AC side voltage is compatible with 50/60Hz, the DC side voltage range is 0-3.4kV, and the frequency is adjustable from 0-120Hz. Furthermore, the module is designed to withstand grid faults and is widely applicable in wind power, energy storage, and industrial drive systems, meeting the needs for efficient, reliable, and intelligent power conversion. This controller module leverages ABB's expertise in reliability, communication capabilities, and algorithm optimization, and supports user-configurable settings to meet diverse industry requirements.

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　　XV C724 BE 3BHE009017R0102 Other Names:

　　Excitation Unit XV C724 BE 3BHE009017R0102

　　XV C724 BE 3BHE009017R0102 Processor Unit

　　Input/Output Unit XV C724 BE 3BHE009017R0102

　　Application and Purpose: A modular medium-voltage power conversion system, designed for high-power industrial applications (such as wind power plants, energy storage systems) and renewable energy applications. Supports a power range of 4-120 MVA per module, up to 14 MW for wind turbine applications.

　　Technical Architecture:

　　Uses a three-level, four-quadrant VSI-NPC (Voltage Source Inverter - Neutral Point Clamped) topology, with no fuse design, supporting bidirectional power flow.

　　Efficiency >98%, achieving high efficiency conversion through IGCT (Integrated Gate Commutated Thyristor) technology. Cooling system supports both air and water cooling.

　　Grid-side voltage compatible with 50/60Hz, generator-side voltage range 0-3.4kV, frequency adjustable from 0-120Hz, with grid fault ride-through capability.

　　Control and Protection:

　　Integrated AC 800PEC PLC controller, using sensorless algorithms, supporting overload, short-circuit, overvoltage protection, and fast fault isolation. Compliant with international certifications such as CE, DNV-GL, and UL, with IP54 protection rating and a wide operating temperature range (-25°C to +45°C).

　　Core Component Analysis

　　AC 800PEC Control Processor

　　Overview: An ABB high-performance industrial controller, part of the ABB Ability 800xA system, designed specifically for power electronics, drive systems, and complex industrial applications.

　　Technical Features:

　　Dual-core architecture: Combines CPU floating-point calculation with FPGA high-speed processing, supporting multi-level task processing from 25ns to 1ms, with data throughput below 100μs.

　　Modular design: Supports various I/O modules (e.g., AnyIO, Profibus, Modbus TCP) and communication protocols, expandable to 36 bidirectional fiber optic links, accommodating diverse automation needs.

　　Programming tools: Compatible with ABB Control Builder M (IEC61131-3 standard) and MATLAB/SimulAnk, supporting model-based design and real-time control.

　　Reliability: Three-level hardware architecture, fanless design, electromagnetic interference resistance, SIL3 safety certification, suitable for demanding industrial environments.

　　Core Functions:

　　Based on the AC 800PEC controller architecture, utilizing a 64-bit IEEE floating-point unit (FPU) and FPGA high-speed processing, supporting multi-level task processing (control cycle as low as 25ns-1ms), with data throughput below 100μs.

　　Integrated IGCT (Integrated Gate Commutated Thyristor) technology enables bidirectional power flow (4-quadrant operation) with >98% efficiency, suitable for high-power industrial applications (e.g., wind power generation, steel smelting).

　　Modular design supports expansion I/O modules (e.g., ANYIO-1/2 interface, UFD128 module), compatible with PROFIBUS, Modbus, etc., and integrates seamlessly into the 800xA system.

       Hardware Configuration:

　　Includes a processor module, optical interface, and fieldbus module (e.g., CEX bus), supporting fiber optic link connection for I/O modules.

　　Dual cooling modes (air/water cooling) are available to suit different industrial environments.

　　Compliant with RoHS directive; some models (e.g., DSAO120A analog output board) require reference to the EU Declaration of Conformity.

　　Application Scenarios: Wind power inverter control, power electronics equipment management, factory automation, energy storage system coordination, etc.

　　PCS6000 Inverter System

　　Overview: ABB's high-power medium-voltage inverter, supporting up to 12 MW output, suitable for wind power, energy storage, industrial drives, etc.

　　Technical Features:

　　Topology: Three-level NPC (Neutral Point Clamping) design, supporting bidirectional power flow (4-quadrant operation), efficiency >98%.

　　Cooling System: Closed-loop liquid cooling design, supporting modular expansion, reducing component count, and extending lifespan.

　　Grid Compatibility: Built-in harmonic filter and low-voltage ride-through (LVRT) function, compliant with international standards such as IEC/DNV-GL.

　　Control Integration: Decouples generator and grid sides via AC 800PEC, supporting reactive power compensation, dynamic braking, and islanding detection.

　　High-Performance Processing: Dual-core processor architecture, supporting a fast control cycle of 100 microseconds, with integrated FPGA for high-speed signal processing and real-time communication.

　　Communication and Integration:

　　Supports industrial protocols such as Profibus DP, Profinet IO, Modbus TCP, and EtherCAT, and seamlessly integrates with ABB System 800xA.

　　High-speed I/O module connection via optical link (data throughput time <100 μs), supporting MATLAB/Simulink model development and model-based design.
      Expansion Capabilities:

　　Modular design supports up to 36 bidirectional fiber optic PowerLinks, compatible with S800 I/O modules and AnyBus-S expansion bus.

　　Features fault diagnosis and predictive maintenance functions, supports remote VPN access and software upgrades.

　　Typical Applications: Wind farms (e.g., Global Tech I project in Germany), energy storage systems, commercial and industrial distributed photovoltaic systems, high-voltage motor drives, etc.

　　Model Correlation Analysis

　　XV C724 BE 3BHE009017R0102:

　　This model belongs to the AC 800PEC controller series (e.g., 3BHE023584R2334/R2634). Specific configurations may involve specific I/O modules, communication interfaces, or functional extensions (e.g., CEX bus, Anybus-S slot).

　　Note: All products on this website are special products, and market prices fluctuate.

　　Please refer to the customer service quotation for the final price, as the price shown is for reference only.

　　Please confirm the model, product details, and price with customer service before placing an order. This website is currently being used;

　　a new one is under development. Please contact customer service for more information.

　　In the PCS6000 system, the AC 800PEC serves as the core controller, coordinating inverter operation, fault protection, and remote monitoring. For example, it connects I/O modules via fiber optic links for fast signal exchange and real-time control.

　　System Operation Principle

　　Wind Power Scenario Example:

　　PCS6000 connects the generator to the grid via the machine-side inverter (INU) and the grid-side inverter (ARU). The AC 800PEC controls generator power, reactive power compensation, and grid synchronization. The pre-charging unit ensures stable DC bus voltage, and the soft-start function prevents grid connection surges; the dynamic braking chopper dissipates energy during grid faults, ensuring the wind turbine remains connected to the grid.

　　Supporting remote monitoring (e.g., ABB Commissioner tool) and fault diagnosis (DIAS system) enables efficient operation and maintenance of offshore wind power plants.

　　The successful application of PCS6000 in the NASA wind tunnel project and SSAB blast furnace modernization project demonstrates its performance advantages in high-power, high-reliability scenarios.

　　Energy storage application example:

　　As an energy storage converter (PCS), PCS6000, through AC 800PEC, controls charging/discharging, power regulation, and grid interaction, supporting peak shaving, frequency regulation, and backup power functions.

　　The modular design supports parallel operation of multiple units, catering to different power level requirements, such as commercial and industrial PV+storage systems.

　　Specifications and Performance Parameters

　　AC 800PEC:

　　Processor: 64-bit RISC CPU + FPGA, 750MHz clock frequency, supporting 100μs control cycle.

　　Communication interface: Anybus-S, Profibus, Modbus TCP, EtherCAT, etc.

　　Environmental adaptability: Operating temperature -10~45℃, IP54 protection level, CE/UL certified.

　　PCS6000:

　　Power range: 4-120MVA (up to 15MW for wind power applications).

　　Electrical parameters: Rated voltage 3.3kV, frequency 50/60Hz, efficiency >98%.

　　Cooling system: Closed-loop liquid cooling, supports modular expansion.

　　Protection functions: Overvoltage/overcurrent protection, short-circuit protection, grid fault ride-through. Industry Applications and Advantages

　　Wind Power: The PCS6000, with its three-level topology and AC 800PEC control, reduces generator torque vibration, extending gearbox lifespan; its fuse-less design minimizes maintenance costs.

　　Energy Storage: Supports parallel operation of multiple units, islanding operation, and black start capability, meeting grid peak load balancing, frequency regulation, and microgrid requirements.

　　Industrial Drives: In applications such as steel mills, mines, and cement plants, AC 800PEC and PCS6000 work together for efficient starting and precise control of high-voltage motors.

　　Renewable Energy:

　　The PCS6000 inverter system directly interfaces with high-voltage generators in wind power applications, eliminating the need for a gearbox, reducing mechanical losses, and enhancing system reliability (e.g., 101MW inverter for NASA wind tunnel project, SSAB Oxelosund blast furnace blower retrofit).

　　Suitable for medium-voltage cascading conversion applications such as photovoltaic power plants and energy storage systems.

　　Industrial Automation:

　　In steel production (e.g., variable speed control of blast furnace blowers), aluminum electrolysis crane systems, and paper production lines, direct torque control (DTC) technology achieves high efficiency and energy savings.

　　In static excitation systems (e.g., UNITROL 1020 series), the GBU72 silicon rectifier bridge module enables grid fault ride-through and fast protection.

　　Special Industrial Applications:

　　Underground coal mine conveyor belts (compact water-cooled multi-drive system), offshore natural gas compressor drives (Ormen Lange project), and other harsh environment applications. System Integration and Maintenance

　　System Compatibility:

　　Compatible with ABB's ACS/ACQ series frequency inverters and DCS/PLC modules (e.g., DI810 digital input module, AO801 analog output module), supporting functional block programming and real-time monitoring.

　　Communicates with the supervisory control system (e.g., 800xA) via protocols such as MMS and Modbus, enabling efficient data exchange from the overall system to individual components.

　　Maintenance and Safety:

　　Observe electrostatic discharge (ESD) protection guidelines; avoid strong electromagnetic interference and direct sunlight. Maintain a cable spacing of >10cm during hardware operation; power supply maintenance must be performed by qualified personnel.

　　The module supports self-diagnosis and rapid fault isolation (e.g., REA arc fault protection system), ensuring system stability and personnel safety.

　　Summary

　　The XV C724 BE 3BHE009017R0102, in conjunction with the PCS6000 inverter system, forms the core solution for ABB in the medium-voltage power electronics field. With its high-performance control, modular design, and broad industry applicability, it is widely used in wind power, energy storage, and industrial drives, meeting the needs for efficient, reliable, and intelligent power conversion. As a controller module, the XV C724 BE 3BHE009017R0102leverages ABB's expertise in reliability, communication capabilities, and algorithm optimization, and supports customized configurations to meet specific industrial requirements.

　　All products on this website are special items, and their market prices fluctuate constantly.

　　The final price will be determined by the customer service representative. Since these are new products, the prices shown are not definitive.

　　Please confirm the model, product details, and price with customer service before placing an order. The website is currently being updated.

　　New products are now available for sale; please contact customer service for more information.

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