Capacitive Sensor Ifm KI0202 - Object Detection for Automation
Capacitive Sensor Ifm KI0202 - Object Detection for Automation
Capacitive Sensor Ifm KI0202 - Object Detection for Automation
Previous keyboard_arrow_left
Next keyboard_arrow_right
zoom_in
Capacitive Sensor Ifm KI0202 - Object Detection for Automation
Capacitive Sensor Ifm KI0202 - Object Detection for Automation
Capacitive Sensor Ifm KI0202 - Object Detection for Automation

Capacitive sensor Ifm

KI0202
€232.32
Delivery time varies for all products, we will confirm the delivery time after ordering.
The Capacitive Sensor Ifm KI0202 is designed to detect the presence of non-metallic objects, facilitating automation processes in various industries.
  Saugus apmokėjimas

Greiti ir saugūs apmokėjimai

  Greitas pristatymas

Pristatymas prie durų

  100% kokybės garantija

Kitaip grąžinsime Jūsų pinigus

Description

Product Introduction

Product Code: KI0202
Name: Capacitive Sensor Ifm

The Capacitive Sensor Ifm KI0202 is engineered for reliable object detection and is particularly effective for non-metallic materials. Its primary purpose is to enhance automation processes by providing precise detection capabilities without physical contact.

Features

  • Operating Distance: Adjustable sensitivity
  • Power Supply: 10 to 30 V DC
  • Output Type: NPN or PNP, normally open
  • Housing Material: Plastic
  • Protection Class: IP67
  • Temperature Range: -25 to 70 °C
  • Connection: M12 connector
  • Output Switching Frequency: Up to 300 Hz
  • Size: Compact design for easy installation

Conclusion

The Capacitive Sensor Ifm KI0202 is suitable for a diverse range of applications including packaging, food processing, and machinery automation. Its non-contact sensing method reduces wear and tear, making it ideal for long-term use in various industrial environments.

This text was generated using AI-based tools and is intended for informational purposes only. While efforts have been made to ensure accuracy, it may contain errors. We recommend contacting our experts for critical information. Your feedback is welcome to help improve the content.