Sick IHM06-02BPOVT0G Proximity Sensor
The Sick IHM06-02BPOVT0G Proximity Sensor offers a 2 mm sensing range, stable PNP NC switching, and compact Γ 6.5 mm housing. It features a fast 5,000 Hz switching frequency, durable DC 3-wire wiring, IP67 enclosure, and an M8 connector suitable for flush mounting. Learn more about Sick, explore Sick Proximity Sensors, or review the Sick IME Series.
| Brand | Sick |
| Product Type | Proximity Sensor |
| Model Number | IHM06-02BPOVT0G |
Sick IHM06-02BPOVT0G Proximity Sensor β Technical Specifications
| Specification | Value |
|---|---|
| Housing | Cylindrical thread design, Extremely short model |
| Thread size | - |
| Diameter | Γ 6.5 mm |
| Sensing range Sn | 2 mm |
| Safe sensing range Sa | 1.62 mm |
| Installation type | Flush |
| Switching frequency | 5,000 Hz |
| Connection type | Connector M8, 3-pin |
| Switching output | PNP |
| Output function | NC |
| Electrical wiring | DC 3-wire |
| Enclosure rating | IP67 1) |
| Items supplied | - |
The Sick IHM06-02BPOVT0G Proximity Sensor is a compact industrial sensing device designed for precise metal detection in automation systems. It includes a 2 mm sensing range, reliable PNP NC output, a 5,000 Hz switching frequency, and sealed IP67 protection. As part of the Sick IME Series, the model provides consistent performance in applications that require dependable inductive sensing.
The Sick IHM06-02BPOVT0G Proximity Sensor is commonly used in conveyors, packaging equipment, assembly stations, and compact automation fixtures. Its flush-mounted design allows accurate detection in tight mechanical layouts, while the high switching frequency supports fast-moving targets. The M8 connector ensures easy integration, and the short-body housing fits space-limited industrial installations.
The Sick IHM06-02BPOVT0G Proximity Sensor delivers a 2 mm sensing range, robust PNP NC switching, efficient DC 3-wire operation, and durable IP67 sealing, making it suitable for demanding industrial environments. With the trusted Sick brand and IME Series performance, this model ensures stable sensing for machine automation, part positioning, and material handling applications.
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