The OD 100 GPP infrared detection sensor is engineered for reliable contactless heat monitoring in demanding industrial environments. Built for automated production systems, conveyor operations, thermal processing lines, and high-temperature machinery, this industrial infrared sensor accurately detects hot objects from 0 °C to 300 °C without physical contact. Its stainless steel construction and dual switching outputs make it suitable for harsh factory conditions where durability, accuracy, and stable thermal detection are essential.
Manufacturers searching for a dependable infrared temperature sensor for automation systems benefit from precise hot object detection, rapid switching response, and long-term operational stability. The OD 100 GPP supports modern industrial control applications where non-contact heat sensing improves process reliability, reduces wear, and minimizes downtime.
Key Features
- Contactless temperature measurement from 0 °C to 300 °C
- Two adjustable switching points within the detection range
- Dual PNP normally open switching outputs
- Rugged stainless steel AISI 316 Ti housing
- Fast 100 ms response time for industrial automation
- Reliable operation in rough production environments
- M38x1.5 industrial threaded housing design
- IP67 protection for demanding industrial conditions
- Accurate infrared sensing for heated surfaces and moving materials
- Stable thermal monitoring with low power consumption
Application
The OD 100 GPP is widely used in industrial manufacturing systems where accurate hot object detection is required. Common applications include conveyor monitoring, furnace automation, heated material handling, packaging lines, thermal processing equipment, and automated production systems.
The infrared sensing technology helps industries identify overheated products, monitor hot components, and automate temperature-based switching functions. By eliminating physical contact with heated surfaces, the sensor reduces mechanical wear and improves operational safety in high-temperature environments.
Industries including metal processing, food manufacturing, plastics production, packaging automation, and industrial machinery benefit from its dependable heat detection performance.
Design & Functionality
The OD 100 GPP combines robust mechanical design with stable infrared sensing performance. The stainless steel housing provides high resistance against vibration, dust, moisture, and harsh operating conditions. Its compact threaded body allows secure installation in industrial machines and automated systems.
The sensor uses infrared technology to identify heat signatures from objects moving through the detection zone. With two independently adjustable switching points, operators can configure precise switching behavior for temperature-based process control.
Dual PNP outputs support flexible integration with industrial controllers, PLC systems, and automation equipment. The fast switching response enables immediate detection of heated materials, improving process accuracy and reducing delays in automated workflows.
Total Crossed Beams
The OD 100 GPP infrared sensing system provides stable thermal monitoring across industrial production lines where consistent heat detection is required for process control and material verification.
Beam Pitch Options
Its optimized infrared field of view supports accurate hot object sensing in compact machine layouts and industrial conveyor applications.
Intrinsic Synchronism
Integrated sensing stability ensures reliable detection performance while minimizing unwanted switching behavior caused by changing industrial conditions.
Operational Advantages
The OD 100 GPP improves industrial efficiency by enabling non-contact heat detection with minimal maintenance requirements. Its rugged stainless steel construction supports continuous operation in demanding manufacturing environments, while the dual switching outputs allow flexible integration into automated systems.
By detecting heated objects without physical interaction, the sensor helps reduce equipment wear, improve operator safety, and maintain stable production quality. The combination of infrared sensing precision, durable housing, and fast switching performance makes it an excellent solution for modern industrial automation systems.
