Main functions:
Controls motor speed, torque and position for industrial automation, building automation, grid automation and other scenarios.
Provide over-current, over-voltage and under-voltage protection to ensure safe and reliable system operation.
Supports a variety of communication protocols, such as RS485 and Ethernet, facilitating integration with other systems.
High reliability and stability, suitable for harsh industrial environments.

Technical parameters:
Rated power: 1.5kW to 10kW, depending on the model.
Input voltage: AC 380V, support external voltage power supply.
Output current: up to 50A, depending on model.
Operating temperature range: -20°C to +70°C, adapt to a variety of industrial environments.
Dimensions: slightly different for different models, e.g. 45x27x93mm, 450x300x220mm, etc.

Application areas:
Industrial automation: control of conveyor belts, fans, pumps, machine tools and other equipment.
Power system: for control and protection of high voltage AC transmission lines, substations and power equipment.
Intelligent buildings: building automation and energy management.

Features:
High performance, high reliability and flexible I/O configuration for complex industrial scenarios[.
Supports multiple programming languages and interfaces for user-defined programs and integration.
Lightweight design for easy installation and maintenance.

The ABB XVC517AE10 is a powerful and widely used industrial automation and control system module for a wide range of industrial and power scenarios. Its high performance, reliability and flexible configuration make it ideal for industrial automation.

ABB XVC517AE10 is a high-performance modular component widely used in industrial automation, control systems and power systems.

Its main functions include controlling motors, driving power devices (such as IGBT or MOSFET), and realizing precise speed and position control.

Product type: the XVC517AE10 belongs to ABB’s XV C517 series, the specific model number is 3BHB004744R0010, which is a door drive unit module, controller module or inverter module, depending on the application scenario.