Sick IME12-08NPOZC0K Proximity Sensor
IME12-08NPOZC0K proximity sensor offers 8 mm sensing range with M12 housing PNP NC output and DC 3-wire wiring design. This IME12-08NPOZC0K Sick Non-flush Sensor from Sick proximity sensor portfolio belongs to the IME series. It supports non-flush installation, operates at 2,000 Hz switching frequency, uses a M12 4-pin connector, and meets IP67 enclosure rating.
| Brand | Sick |
| Product Type | Proximity Sensor |
| Product | IME12-08NPOZC0K |
Sick IME12-08NPOZC0K Proximity Sensor β Technical Specifications
| Specification | Value |
|---|---|
| Housing | Cylindrical thread design, Standard design |
| Thread size | M12 x 1 |
| Diameter | Γ 12 mm |
| Sensing range Sn | 8 mm |
| Safe sensing range Sa | 6.48 mm |
| Installation type | Non-flush |
| Switching frequency | 2,000 Hz |
| Connection type | Male connector M12, 4-pin |
| Switching output | PNP |
| Output function | NC |
| Electrical wiring | DC 3-wire |
| Enclosure rating | IP67 1) |
| Items supplied | Mounting nut, brass, nickel-plated (2x) |
The IME12-08NPOZC0K Sick Non-flush Sensor is a Sick proximity sensor engineered for controlled object detection in industrial automation systems. This IME12-08NPOZC0K model provides a 8 mm sensing range, M12 cylindrical housing, PNP NC switching output, and DC 3-wire wiring. It is part of the IME series and is commonly applied across standard automation environments.
This proximity sensor is used in conveyors, packaging machinery, automated assembly stations, and positioning systems. Non-flush mounting allows extended detection performance, while defined switching behavior supports reliable PLC signal processing. The M12 connector ensures stable electrical connection within control cabinets and field installations.
The IME12-08NPOZC0K proximity sensor reflects Sick manufacturing consistency and electrical reliability. With IP67 enclosure protection, predictable sensing characteristics, and IME series construction, it is suitable for continuous industrial operation. Sick proximity sensors are widely trusted for dependable performance in automation applications.
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