KUKA RDW2 Resolver Digital Converter

KUKA RDW2 Resolver Digital Converter

Technical Specifications

Compatibility: Works with KUKA KRC2 and later controller generations.

Input Support:

Accepts analog resolver signals (e.g., sine/cosine waveforms).

Supports incremental and absolute encoders (e.g., Hiperface, EnDat, SFD-M).

Output:

Digital signal conversion for resolver data.

Sampling rate: Up to 120 MHz for high-speed data acquisition.

Power Requirements:

Operates with standard industrial power supplies (e.g., 240V AC).

Environmental Resistance:

Robust design for industrial environments with shielding against electromagnetic interference (EMI) and radio-frequency interference (RFI).

Physical Attributes:

Compact form factor for cabinet or DIN rail mounting.

Metal enclosure for durability.

RDW2

Key Features

High-Precision Conversion: Ensures sub-micron accuracy in position feedback processing.

Multi-Axis Support: Enables synchronization of up to 8 axes, critical for complex robotic tasks.

Flexible Sensor Integration: Compatible with a wide range of resolver and encoder types, reducing the need for additional signal converters.

Real-Time Diagnostics: Built-in LED indicators for system status monitoring and error alerts.

Industrial-Grade Design: Withstands harsh conditions, including temperature fluctuations and vibration.

Functionality

Signal Processing: Converts low-level analog resolver signals into digital data for the main controller.

Motion Control: Regulates torque, velocity, and position loops for servo motors (e.g., KUKA AKM series).

Error Handling: Monitors overcurrent, overvoltage, and overtemperature conditions to protect hardware.

Network Communication: Integrates with CANopen or optional EtherCAT for distributed control architectures.

Application Scenarios

Industrial Robotics: Powers joints and actuators in KUKA’s 6-axis robots (e.g., KR AGILUS series) for tasks like welding, material handling, and assembly.

CNC Machinery: Controls feed axes and spindles in machining centers, lathes, and milling machines.

Packaging Systems: Drives conveyor belts, sealing units, and labeling machines in high-speed packaging lines.

Semiconductor Manufacturing: Facilitates nanometer-level positioning in wafer handling and inspection equipment.

Automotive Testing: Manages test benches for engine, transmission, and chassis validation.

Medical Devices: Powers surgical robots and imaging systems requiring stable, precise motion.