OPTEX KRQ-50N Photo Electric Sensor Price is Rs.46,080/-. The OPTEX KRQ-50N Photo Electric Sensor is a compact, high-precision sensor with background suppression capability, ideal for accurate object detection in close-range industrial automation applications. With a fixed sensing distance of 50mm and a visible red LED light source, it enables easy alignment and stable detection across varying surface colors and materials. The KRQ-50N features a fast response time, NPN open collector output, and robust housing, making it suitable for use in packaging, robotics, conveyor systems, and tight installation spaces. Built to perform in demanding environments, it ensures consistent, error-free operation even under strong ambient lighting.
Background suppression for stable and precise detection
Compact size ideal for limited-space installations
Fast 1ms response time for high-speed applications
Fixed sensing distance of 50mm
High resistance to ambient light interference
NPN open collector output for control compatibility
Visible red LED for easy targeting and alignment
Product Specifications
Type
electric sensor
sensing distance
50mm (fixed)
current consumption
= 20ma
light source
red led (visible light)
maximum output current
100ma
output type
npn open collector
power supply
12 to 24 vdc ±10%
response time
= 1ms
Product Details
OPTEX KRQ-50N Photo Electric Sensor Price is Rs.46,080/-. The OPTEX KRQ-50N Photo Electric Sensor is a compact, high-precision sensor with background suppression capability, ideal for accurate object detection in close-range industrial automation applications. With a fixed sensing distance of 50mm and a visible red LED light source, it enables easy alignment and stable detection across varying surface colors and materials. The KRQ-50N features a fast response time, NPN open collector output, and robust housing, making it suitable for use in packaging, robotics, conveyor systems, and tight installation spaces. Built to perform in demanding environments, it ensures consistent, error-free operation even under strong ambient lighting.