voltage sensing, robust isolation, high-density power management, and seamless connectivity. High voltage, high bandwidth current-sense amplifiers, such as the AD8410A and AD8411A , perform bidirectional current measurements across a shunt resistor to deliver feedback that can enhance drive performance and determine bandwidth and response time of motors, ensuring the motor is operating at peak efficiency. Power management in smaller enclosures is a key design consideration. ADI offers flyback switching regulator integrated circuits like the MAX17692 that sense the isolated output voltage directly from the primary-side flyback wave-form
during secondary-side rectifier conduction. Without the need for a secondary-side error amplifier and optocoupler, designers can save up to 20% of printed circuit board (PCB) space compared to a traditional flyback converter. [ix] Position encoders: High-efficiency servo-driven motors with precise position and torque control can optimize energy usage by enabling faster machining of complex components. ADI precision signal conditioning and conversion technology accurately measures small-magnitude signals in noisy industrial environments. ADI’s offerings help in developing high performance position encoder solutions that provide advanced
control loop performance, high efficiency, and highly integrated power management technology that can reduce the energy consumption required in the machining process and drive factory throughput. ADI technologies can help accelerate time to market in delivering high performance position encoder solutions. The company offers encoder signal chain solutions for sensor types such as optical, magnetic, resolvers, and linear variable differential transformers. The ADP320 triple-output low dropout (LDO) features low quiescent current, low dropout voltage, and wide input voltage range to power all components in optical and magnetic encoder signal chains.
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