Sick IHM03-01BPSVU2K Proximity Sensor
The Sick IHM03-01BPSVU2K Proximity Sensor provides a 1 mm sensing range, PNP NO switching, and flush installation for precise detection tasks. It features a Γ 3 mm short-body housing, 4,200 Hz switching frequency, DC 3-wire wiring, and a durable IP67 enclosure with a 2 m cable for easy integration. Explore Sick, view more Sick Proximity Sensors, or check the Sick IME Series for related models.
| Brand | Sick |
| Product Type | Proximity Sensor |
| Model Number | IHM03-01BPSVU2K |
Sick IHM03-01BPSVU2K Proximity Sensor β Technical Specifications
| Specification | Value |
|---|---|
| Housing | Cylindrical thread design, Short-body |
| Thread size | - |
| Diameter | Γ 3 mm |
| Sensing range Sn | 1 mm |
| Safe sensing range Sa | 0.81 mm |
| Installation type | Flush |
| Switching frequency | 4,200 Hz |
| Connection type | 2 m Cable |
| Switching output | PNP |
| Output function | NO |
| Electrical wiring | DC 3-wire |
| Enclosure rating | IP67 1) |
| Items supplied | Cable flag, Polymatic 50 (1 x) |
The Sick IHM03-01BPSVU2K Proximity Sensor is a compact industrial sensing device designed for accurate metal detection in restricted spaces. It offers a 1 mm sensing range, PNP NO switching, 4,200 Hz switching frequency, and a Γ 3 mm flush-mount housing. As part of the Sick IME Series, it delivers stable, repeatable performance suitable for modern industrial automation requirements.
The Sick IHM03-01BPSVU2K Proximity Sensor is ideal for conveyors, packaging equipment, compact fixtures, and automated assembly systems where precise short-range detection is required. Its slim body fits easily into tight mounting positions, while the IP67 enclosure supports operation in dusty or humid environments. The fast switching frequency helps maintain reliable detection during rapid machine cycles.
The Sick IHM03-01BPSVU2K Proximity Sensor combines a 1 mm sensing range, durable IP67 protection, dependable PNP NO output, and responsive 4,200 Hz switching for real industrial conditions. As a reliable member of the Sick IME Series, it ensures long-term accuracy and operational consistency across automation applications. Engineers can confidently specify this model for stable, maintenance-friendly sensing performance.
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