Sick IHM06-04NNSVW2S Proximity Sensor
The Sick IHM06-04NNSVW2S Proximity Sensor offers a 4 mm sensing range and NPN NO output for reliable metal detection performance. It supports non-flush installation and operates at a 3,500 Hz switching frequency, with DC 3-wire wiring and an IP67 enclosure rating for industrial durability. This Γ 6.5 mm cylindrical model includes a 2 m cable for easy integration. Learn more about Sick, explore Sick Proximity Sensors, or view the Sick IME Series.
| Brand | Sick |
| Product Type | Proximity Sensor |
| Model Number | IHM06-04NNSVW2S |
Sick IHM06-04NNSVW2S Proximity Sensor β Technical Specifications
| Specification | Value |
|---|---|
| Housing | Cylindrical thread design, Standard design |
| Thread size | - |
| Diameter | Γ 6.5 mm |
| Sensing range Sn | 4 mm |
| Safe sensing range Sa | 3.24 mm |
| Installation type | Non-flush |
| Switching frequency | 3,500 Hz |
| Connection type | 2 m Cable |
| Switching output | NPN |
| Output function | NO |
| Electrical wiring | DC 3-wire |
| Enclosure rating | IP67 1) |
| Items supplied | - |
The Sick IHM06-04NNSVW2S Proximity Sensor is designed for compact industrial detection tasks requiring stable performance and precise switching. The model IHM06-04NNSVW2S provides a 4 mm sensing range, NPN NO output, a 3,500 Hz switching frequency, and an IP67 protection rating. As part of the Sick IME Series, it supports consistent operation in automation environments where accurate non-contact metal detection is essential.
This sensor is well-suited for conveyors, packaging machinery, robotic positioning, and automated assembly stations. The non-flush design enhances detection reliability in open mounting conditions, while the integrated 2 m cable ensures easy routing in control panels and moving equipment. Its stable output characteristics make it useful in repetitive machine cycles and high-speed applications.
The Sick IHM06-04NNSVW2S Proximity Sensor delivers dependable sensing performance with its 4 mm detection range, NPN NO output, and IP67 enclosure. Engineers selecting this model can expect consistent switching behavior, solid environmental resistance, and long operational life within industrial automation systems. The unit reflects Sickβs reliability standards and remains a practical choice for compact inductive sensing requirements.
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