Delta ASDA-A2R AC Servo Motor
The ASDA-A2R series is an innovative linear drive system that has successfully integrated CANopen and DMCNET communication interfaces to offer high response and high precision control. Connecting to DeltaÃÂ¢Ã¢âÂ¬Ã¢âÂ¢s motion control cards and programmable automation controller (PAC) MH1-S30D, DeltaÃÂ¢Ã¢âÂ¬Ã¢âÂ¢s linear drive system can provide an ideal solution for multi-axis motion control applications in various automated industries.
For DeltaÃÂ¢Ã¢âÂ¬Ã¢âÂ¢s ECML-S16/20/25/32 series ironless linear motors, the ASDA-A2R series is able to perform the characteristics of high precision, high rigidity, high response and backlash free to optimal levels. This not only increases the work efficiency of the motion control system, but also expands the applications of the servo system to satisfy demanding high precision requirements.
Current linear drive systems in the market are a complex system that includes servo drive, linear motor, linear scale and external controller while components come from different suppliers. The customer would need to apply great effort to integration. The ASDA-A2R series combines DeltaÃÂ¢Ã¢âÂ¬Ã¢âÂ¢s linear motors with DeltaÃÂ¢Ã¢âÂ¬Ã¢âÂ¢s PAC to establish a simpler system featuring simple wiring, quick installation, fast communication, superior performance and less integration effort. When the ASDA-A2R series is connected to an optional ASD-IF-EN0A20 Signal Converter Box through a motor encoder interface, the square waves and sine waves of feedback signals from the linear scale, linear motor and encoder can be converted to communication signals into the ASDA-A2R series. The ASD-IF-EN0A20 converter box can divide the signals into high resolution signals (Signal amplification: a multiple of 2,048) to greatly reduce noise and distortion and provide more accurate signal transmission that is essential for fast and optimum communications. Good stability, high reliability and excellent performance are the features of DeltaÃÂ¢Ã¢âÂ¬Ã¢âÂ¢s ASDA-A2R series linear motion drive.