Sick IHM06-03BPSVT0G Proximity Sensor
The Sick IHM06-03BPSVT0G proximity sensor offers 3 mm sensing range, flush mounting, and PNP NO output for industrial automation. Manufactured by Sick, this Sick proximity sensor uses an extremely short cylindrical housing, 1,500 Hz switching frequency, DC 3-wire electrical wiring, and a 3-pin M8 connector, and it belongs to the IME series as a Sick 2.43 mm Proximity Sensor for compact sensing applications.<
| Brand | Sick |
| Product Type | Proximity Sensor |
| Model Number | IHM06-03BPSVT0G |
Sick IHM06-03BPSVT0G Proximity Sensor β Technical Specifications
| Specification | Value |
|---|---|
| Housing | Cylindrical thread design, Extremely short model |
| Thread size | - |
| Diameter | Γ 6.5 mm |
| Sensing range Sn | 3 mm |
| Safe sensing range Sa | 2.43 mm |
| Installation type | Flush |
| Switching frequency | 1,500 Hz |
| Connection type | Connector M8, 3-pin |
| Switching output | PNP |
| Output function | NO |
| Electrical wiring | DC 3-wire |
| Enclosure rating | IP67 1) |
| Items supplied | - |
The IHM06-03BPSVT0G Sick 2.43 mm Proximity Sensor is a compact inductive sensor designed for precise metal detection in limited installation spaces. The IHM06-03BPSVT0G operates with a 3 mm sensing range, PNP normally open output, and flush installation. As part of the IME series, it is used within industrial automation systems that require stable detection in short mounting depths.
The IHM06-03BPSVT0G proximity sensor is applied in conveyors, automated assembly stations, compact tooling systems, and packaging machinery. Its extremely short housing design allows integration into tight mechanical layouts, while consistent output behavior supports reliable switching in moderate-speed automation processes.
The IHM06-03BPSVT0G from Sick provides IP67 enclosure protection, secure M8 connector wiring, and dependable electrical performance in industrial environments. As a Sick IME proximity sensor, it is suited for applications requiring durability, electrical stability, and repeatable sensing accuracy under continuous operation.
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