The 15T Encoder Sensor is a robust and reliable choice for industrial and commercial applications that demand precise motion control. Designed to deliver accurate feedback, this encoder sensor operates efficiently within a voltage range of 5-24 VDC, drawing a modest current of 140 mA. This makes it suitable for integration into various systems without overwhelming power requirements.
One of the standout features of the 15T series is its line driver output type, which ensures strong signal integrity over long distances. This is particularly beneficial in environments where interference might otherwise compromise data accuracy. The encoder's mounting type—a 46 mm slotted flex design—offers flexibility during installation, accommodating different setups with ease.
Durability is another key aspect of this model. With an impressive degree of protection rated at IP50, the sensor can withstand dust ingress while operating optimally in controlled environments. It also boasts high humidity tolerance at up to 98%, making it adaptable to diverse climates and conditions.
In terms of operational resilience, the encoder sensor maintains functionality across temperatures ranging from 0 to 85 degrees Celsius. It's engineered to endure shocks up to 80 g/11 ms and vibrations spanning frequencies from 58-500 Hz, ensuring reliability even under demanding circumstances.
Performance-wise, the encoder offers an impressive resolution with its capability to deliver 1000 pulses per revolution (PPR). This precision supports fine-tuned control mechanisms necessary for complex machinery operations or automated systems requiring exact positioning feedback.
Additionally, it can handle shaft speeds up to an impressive 8000 RPM, catering well to high-speed applications without sacrificing performance quality or accuracy.
Overall, the combination of these technical specifications positions the 15T Encoder Sensor as a dependable component for engineers seeking effective solutions in automation tasks or any application where precise motion detection and control are critical elements.