SICK SRM50-HXA0-K22 Motor Feedback System – Precision Encoder for Motion Control
The SICK SRM50-HXA0-K22 Motor Feedback System is a compact and durable encoder designed for accurate position detection in servo drives and automation systems. Built with a solid 6 mm shaft and HIPERFACE® interface, it provides high-resolution feedback across 4,096 revolutions for precise motor control. With its rugged design and IP65 protection, it performs reliably in demanding industrial settings, maintaining stable operation up to 6,000 rpm. This model is ideal for ensuring smooth and precise synchronization in applications that demand dependable motion accuracy.
The SRM50-HXA0-K22 offers advanced feedback performance through its 1,024 sine/cosine periods per revolution, delivering outstanding signal precision for servo systems. Its low moment of inertia allows for faster response times, while the wide operating temperature range ensures consistent performance in varied environments. Designed for long-term reliability, it features robust bearings and shock resistance to withstand mechanical stress. This encoder improves machine productivity and stability, making it a practical solution for robotics, CNC machinery, and automated assembly lines where motion precision and operational efficiency are critical.
Why SICK SRM50-HXA0-K22?
Because precision drives performance. The SICK SRM50-HXA0-K22 transforms every motor movement into accurate, reliable feedback, ensuring flawless control even at high speeds. Its HIPERFACE® interface, compact design, and robust engineering make it a powerhouse for automation — perfect when you need accuracy, endurance, and efficiency packed into one intelligent encoder.
What Problem Does It Solve?
It eliminates motion uncertainty in high-speed industrial systems. The SRM50-HXA0-K22 solves challenges of drift, vibration, and misalignment by delivering consistent, absolute position data. Whether in robotics, CNC machining, or conveyor systems, it keeps every axis synchronized — ensuring smoother motion, reduced downtime, and greater operational precision across the production line.
Key Features & Specifications – SICK SRM50-HXA0-K22: [Article Number 1037104]
| Feature | Details | Benefit |
|---|---|---|
| Interface Type | HIPERFACE® | Ensures fast and precise communication with servo controllers. |
| Shaft Version | Solid shaft, 6 mm diameter | Provides stable, vibration-resistant connection to motor shafts. |
| Resolution | 1,024 sine/cosine periods per revolution | Enables ultra-smooth and accurate position feedback. |
| Absolute Revolutions | 4,096 | Delivers multi-turn capability for long-range position tracking. |
| Total Steps | 134,217,728 | Extremely high resolution for precise motor control. |
| System Accuracy | ±52 arcseconds | Guarantees dependable accuracy for precision applications. |
| Supply Voltage | 7 V DC – 12 V DC (recommended 8 V DC) | Stable performance in various power environments. |
| Current Consumption | 80 mA (without load) | Low energy use with efficient electronic design. |
| Operating Speed | ≤ 6,000 rpm | Supports high-speed rotary motion without signal loss. |
| Operating Temperature | –30 °C to +85 °C | Performs reliably in harsh industrial conditions. |
| Protection Rating | IP65 (with mating plug) | Shields internal components from dust and moisture. |
| Moment of Inertia | 25 gcm² | Enhances response time for dynamic motion control. |
| Bearing Life | 3.6 × 10⁹ revolutions | Long service life for minimal maintenance requirements. |
| Shock Resistance | 100 g / 10 ms | Suitable for heavy-duty applications with mechanical impact. |
| Vibration Resistance | 20 g, 10 Hz – 2,000 Hz | Reliable under continuous vibration environments. |
| Enclosure Material | High-grade metal housing | Provides durability and mechanical protection. |
| Compliance | CE, UKCA, RoHS | Meets international safety and environmental standards. |
| Mean Time to Dangerous Failure (MTTFd) | 235 years | Exceptional reliability for continuous industrial operation. |
Download SICK SRM50-HXA0-K22 (1037104) Datasheet