Combining this with a total lack of performance and reliability makes the A3981KLPTR-T a must have for any motor control application. Output of 2 A per phase and supply voltage range from 8 to 36 V make them ideal for a strong demand in industrial automation, robotics medical applications. With its compact physical layout and sophisticated functionalities, the A3981KLPTR-T’s can be integrated into systems where board space is limited without compromising performance.
Microstepping is preferred by engineers, which makes A3981KLPTR-T a good choice. This allows stepper motors to generate more fluid and accurate motion with a significant reduction in vibrations up to 30% when compared against typical motor drivers. 3D printers and CNC machines are other applications that depend on this kind of precision to result in high-quality output. For example, a 3D printing company recently shared with us that its print resolution has advanced by over 20% since switching to the A3981KLPTR-T process — indeed an impressive improvement in output quality.
Today, the efficiency is on top priority when it comes to design and working, and indeed the A3981KLPTR-T gets in that box well. By using PWM (pulse-width modulation) current control that minimizes the power losses, it achieves an average annual energy savings of 15% for medium-sized manufacturing plants. The resulting efficiency leads not only to lower operational costs, but also helps meet sustainability targets, which is an increasing priority -> across industries.
It is also another thermal management of A3981KLPTR-T. The manufacturer, Allegro MicroSystems emphasizes the low heat even under high load conditions. This functionality not only prolongs the longevity of the component but also improves system reliability, preventing downtime due to overheating. The long-term value of the A3981KLPTR-T is evident as companies who incorporate it into their designs report maintenance costs decreases of up to 25%.
The industrial progress is always driven by the development of motor driver technology in history. The evolution from analog motor drivers to hybrid or digital ones, that began in the late 1980s brought about greater efficiency and reliability as the decades passed with today microprocessors like the A3981KLPTR-T continuing this trend as they now offers many advanced control modes. The medical equipment sector relates so well to 3D printing, which is why its features are relevant as the former requires high precision and reliability. New embedded accurate & precise solutions are available in connected healthcare — enhancing patient care.The manufacturer of hospital equipment recently designed-in A3981KLPTR-T into their infusion pumps that dramatically enhances the accuracy (15%) of these critical devices.
It was Bill Gates who said that, “In this new world, success will require the agility and drive to constantly rethink, reinvigorate, react — and reinvent.” The A3981KLPTR-T is a perfect example of this approach by providing MTM solutions to new and developing technology needs. It is, therefore, a designer’s top choice looking out for quality given its superior specifications, advanced features and proven reliability.
Find out more about the A3981KLPTR-T by clicking here, its specs and use cases to take your design to the next level.