62V01-02-040SH Datasheet/PDF62V01-02-040SH Application Field and Working Principle
62V01-02-040SH encoders are used for measuring motion in a wide array of applications, including industrial automation, robotics, and medical robots. They consist of an internal rotor and an external stator that, together, can measure the relative movement between the two components.
An encoder consists of a rotating disc that has slots cut into it and an array of photocells. When the disc rotates, the slots are detected by the photocells which generate electrical signals. These signals are converted to either digital or analog output, depending on the type of encoder used.
The 62V01-02-040SH encoders have a combination of incremental, absolute, and programmable measuring principles. The incremental principle measures the relative angular displacement of the rotor in a certain direction. The absolute principle measures the absolute angular displacement of the rotor by detecting the number of revolutions plus the fractional part of revolution. The programmable principle is able to detect orientation and displacement of the rotor multiple times in different positions.
The 62V01-02-040SH encoders have a range of power supply options, depending on the application, including 3.3V, 5V, 10V, 12V, and 24V. They also have a wide range of output modes, including IO, PWM, analog, serial interface, and synchronous serial interface.
The encoders are also typically equipped with a variety of safety features, such as overtemperature protection, overvoltage protection, and single high power output. They can also be used in conjunction with various accessories, such as proximity sensors, push-button switches, and limit switches.
The 62V01-02-040SH encoders are designed with robust housings that are resistant to dust and water. They can withstand temperatures ranging from -20°C to +60°C and have a relative humidity range from 0 to 80%.
In summary, the 62V01-02-040SH encoders are a reliable and versatile solution for measuring motion in a wide variety of applications. Their combination of incremental, absolute, and programmable measuring principles, along with power supply options and safety features, make them an ideal choice for measuring motion.