Sick IME08-05NPSZT0SS01 Proximity Sensor
The Sick IME08-05NPSZT0SS01 proximity sensor offers 5 mm sensing range, M8 housing, PNP NO output, DC 3-wire wiring operation. This IME08-05NPSZT0SS01 Sick M8 PNP NO Proximity Sensor from Sick proximity sensor range belongs to the IME series and supports non-flush installation, 4,000 Hz switching frequency, M8 3-pin connector, and IP67 enclosure rating for industrial automation.
| Brand | Sick |
| Product Type | Proximity Sensor |
| Product | IME08-05NPSZT0SS01 |
Sick IME08-05NPSZT0SS01 Proximity Sensor β Technical Specifications
| Specification | Value |
|---|---|
| Housing | Cylindrical thread design, Standard design |
| Thread size | M8 x 1 |
| Diameter | Γ 8 mm |
| Sensing range Sn | 5 mm |
| Safe sensing range Sa | 4.05 mm |
| Installation type | Non-flush |
| Switching frequency | 4,000 Hz |
| Connection type | Connector M8, 3-pin |
| Switching output | PNP |
| Output function | NO |
| Electrical wiring | DC 3-wire |
| Enclosure rating | IP67 1) |
| Items supplied | Mounting nut, brass, nickel-plated (2x) |
The IME08-05NPSZT0SS01 Sick M8 PNP NO Proximity Sensor is engineered for precise metal detection in industrial automation systems. This IME08-05NPSZT0SS01 model provides a 5 mm sensing range, M8 x 1 cylindrical housing, PNP normally open output, and DC 3-wire electrical wiring. It belongs to the IME series and is widely used in standardized sensing applications.
Across conveyors, packaging machines, automated assembly lines, and compact material handling systems, the IME08-05NPSZT0SS01 proximity sensor enables reliable detection in confined spaces. Non-flush mounting allows controlled sensing behavior, while the high switching frequency supports fast-moving processes. The M8 connector simplifies installation and supports clean signal integration in control panels.
The IME08-05NPSZT0SS01 proximity sensor reflects Sick manufacturing consistency and stable operational characteristics. With IP67 enclosure protection, defined electrical output, and IME series construction, it is suitable for continuous industrial environments. Sick proximity sensors are commonly selected where dependable sensing, electrical reliability, and long-term operational stability are required.
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