Sick IHM03-0B6PSVU2S Proximity Sensor
The Sick IHM03-0B6PSVU2S Proximity Sensor offers a 0.6 mm sensing range, PNP NO output, and flush installation in compact applications. It features a Γ 3 mm housing, 5,000 Hz switching frequency, reliable DC 3-wire wiring, and durable IP67 protection with a 2 m cable for industrial use. Learn more about Sick, explore Sick Proximity Sensors, or view the Sick IME Series.
| Brand | Sick |
| Product Type | Proximity Sensor |
| Model Number | IHM03-0B6PSVU2S |
Sick IHM03-0B6PSVU2S Proximity Sensor β Technical Specifications
| Specification | Value |
|---|---|
| Housing | Cylindrical thread design, Standard design |
| Thread size | - |
| Diameter | Γ 3 mm |
| Sensing range Sn | 0.6 mm |
| Safe sensing range Sa | 0.486 mm |
| Installation type | Flush |
| Switching frequency | 5,000 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 IHM03-0B6PSVU2S Proximity Sensor is a compact sensing device designed for precise metal detection in tight mounting spaces. It provides a 0.6 mm sensing range, PNP NO switching, 5,000 Hz response, and a durable Γ 3 mm flush-mounted housing. As part of the Sick IME Series, it supports stable and repeatable sensing performance for industrial automation needs.
The Sick IHM03-0B6PSVU2S Proximity Sensor suits conveyors, packaging equipment, compact fixtures, and small-component assembly lines requiring accurate short-range detection. Its IP67 rating ensures dependable performance in dusty or humid environments, while fast switching maintains consistent operation during high-speed machine cycles. The slim design allows installation in limited spaces without compromising detection reliability.
The Sick IHM03-0B6PSVU2S Proximity Sensor delivers consistent performance with its 0.6 mm sensing range, robust IP67 enclosure, reliable PNP NO output, and responsive 5,000 Hz switching. As a trusted model within the Sick IME Series, it ensures long-term stability for automation operations. Engineers can confidently use this sensor where compact size, precise detection, and durability are essential.
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