Leuze EI 1058-S10X20C-5000T-050A 50140921 Incremental Sensors
The EI 1058-S10X20C-5000T-050A is a precision Incremental Sensor (Part No. 50140921) by Leuze, offering high-resolution position feedback, fast response speed, and compact industrial design. The Leuze Incremental Sensors series ensures accurate motion detection and reliable integration with automated machinery and control systems.
| Brand | Leuze |
| Product | Incremental Sensors |
| Model Number | EI 1058-S10X20C-5000T-050A |
Leuze EI 1058-S10X20C-5000T-050A 50140921 Incremental Sensors - Technical Specifications
| Specification | Value |
|---|---|
| Design | Shaft |
| Dimension | 10 mm |
| Supply Voltage | 5 ... 28 V, DC |
| Switching Frequency | 300,000 Hz |
| Connection Type | PVC, 5,000 mm Cable Length |
| No. of Pin | 8 -wire |
| Housing Material | Metal; Aluminum |
| Operating Temperature | -40 ... 70 °C |
| Degree of Protection (IP Rating) | IP 65 |
| Type | Incremental rotary encoder |
| Max. operating speed | 6,000 r/min |
| Resolution | 5,000 p/r |
| Start-up torque | 60 N |
| Shaft load - radial | 120 N |
The EI 1058-S10X20C-5000T-050A (Part No. 50140921) operates on incremental encoding principles, generating electrical pulses proportional to shaft rotation or linear movement. These pulses provide precise position and speed information, allowing real-time feedback for motion control and synchronization in industrial automation applications.
In practice, the EI 1058-S10X20C-5000T-050A (Part No. 50140921) is used in CNC machines, robotics, packaging equipment, and conveyor systems where accurate positioning and speed monitoring are critical. It enables operators to maintain consistent quality, reduce errors, and optimize production efficiency across automated processes.
Designed for industrial environments, the EI 1058-S10X20C-5000T-050A (Part No. 50140921) features robust housing, high tolerance to vibration, and stable operation under varying temperatures. Its durability and reliability make it suitable for continuous operation in harsh factory conditions and demanding automated workflows.