The 755HS Encoder Sensor is a reliable component designed for industrial and commercial applications, offering precise motion control solutions. This encoder sensor stands out with its robust specifications tailored to meet the demands of various technical environments.
Operating efficiently within a voltage range of 4.75 to 28 VDC and drawing a current of just 100 mA, the 755HS ensures energy efficiency without compromising on performance. Its line driver output type provides strong signal integrity over long distances, making it suitable for complex installations where data accuracy is crucial.
Mounting this encoder is straightforward thanks to its 46 mm PCD slotted configuration, allowing for secure and stable installation in diverse setups. The device's resilience is further highlighted by its ability to operate in high humidity conditions up to 98%, ensuring consistent performance even in challenging environments.
With an IP50 degree of protection, the encoder sensor offers a fair level of protection against dust ingress, although it’s not sealed against moisture. It operates effectively across temperatures ranging from 0 to 85 degrees Celsius, covering most standard operational climates encountered in industrial settings.
The vibration resistance between frequencies of 58-500 Hz ensures that the encoder maintains accurate readings even when exposed to mechanical vibrations common in machinery operations. This makes it particularly suited for use in dynamic environments where stability and reliability are paramount.
Delivering a resolution of 60 pulses per revolution (PPR), the sensor provides sufficient precision for applications requiring moderate detail in position tracking or speed monitoring. This feature makes it ideal for systems where balance between cost-effectiveness and performance precision is desired.
In summary, the 755HS Encoder Sensor combines durability with efficiency, serving as an essential component for engineers seeking dependable motion sensing solutions that integrate seamlessly into existing systems while maintaining high standards of accuracy and reliability throughout their operational life cycle.