Our regular research and development tasks fall into three categories: Software Development: We test our software on a daily basis in order to enhance the software’s reliability and integrity and to make the interface as user-friendly and simple as possible. We also take our customers’ requests for improving user interfaces and adding features that enhance the user’s productivity.
Firmware Development: We continually improve the efficiency of the algorithms used in our controllers, as well as add new features for commutation, servo feedback, phasing, servo, communication, motor synchronization, and more. We also have a team of PhD engineers developing, testing, and implementing new and advanced control algorithms for our customers' uses, such as the newly added Adaptive Control algorithm.
Hardware Development: We actively analyze the integrity of our circuitry design in order to improve electrical bandwidth, eliminate noise, improve airflow and cooling, reduce manufacturing costs, enhance reliability and environmental robustness, and make the most effective self-protecting safety features.
Our regular research and development tasks fall into three categories: Software Development: We test our software on a daily basis in order to enhance the software’s reliability and integrity and to make the interface as user-friendly and simple as possible. We also take our customers’ requests for improving user interfaces and adding features that enhance the user’s productivity.
Firmware Development: We continually improve the efficiency of the algorithms used in our controllers, as well as add new features for commutation, servo feedback, phasing, servo, communication, motor synchronization, and more. We also have a team of PhD engineers developing, testing, and implementing new and advanced control algorithms for our customers' uses, such as the newly added Adaptive Control algorithm.
Hardware Development: We actively analyze the integrity of our circuitry design in order to improve electrical bandwidth, eliminate noise, improve airflow and cooling, reduce manufacturing costs, enhance reliability and environmental robustness, and make the most effective self-protecting safety features.
Our regular research and development tasks fall into three categories: Software Development: We test our software on a daily basis in order to enhance the software’s reliability and integrity and to make the interface as user-friendly and simple as possible. We also take our customers’ requests for improving user interfaces and adding features that enhance the user’s productivity.
Firmware Development: We continually improve the efficiency of the algorithms used in our controllers, as well as add new features for commutation, servo feedback, phasing, servo, communication, motor synchronization, and more. We also have a team of PhD engineers developing, testing, and implementing new and advanced control algorithms for our customers' uses, such as the newly added Adaptive Control algorithm.
Hardware Development: We actively analyze the integrity of our circuitry design in order to improve electrical bandwidth, eliminate noise, improve airflow and cooling, reduce manufacturing costs, enhance reliability and environmental robustness, and make the most effective self-protecting safety features.
Our regular research and development tasks fall into three categories: Software Development: We test our software on a daily basis in order to enhance the software’s reliability and integrity and to make the interface as user-friendly and simple as possible. We also take our customers’ requests for improving user interfaces and adding features that enhance the user’s productivity.
Firmware Development: We continually improve the efficiency of the algorithms used in our controllers, as well as add new features for commutation, servo feedback, phasing, servo, communication, motor synchronization, and more. We also have a team of PhD engineers developing, testing, and implementing new and advanced control algorithms for our customers' uses, such as the newly added Adaptive Control algorithm.
Hardware Development: We actively analyze the integrity of our circuitry design in order to improve electrical bandwidth, eliminate noise, improve airflow and cooling, reduce manufacturing costs, enhance reliability and environmental robustness, and make the most effective self-protecting safety features.
Our regular research and development tasks fall into three categories: Software Development: We test our software on a daily basis in order to enhance the software’s reliability and integrity and to make the interface as user-friendly and simple as possible. We also take our customers’ requests for improving user interfaces and adding features that enhance the user’s productivity.
Firmware Development: We continually improve the efficiency of the algorithms used in our controllers, as well as add new features for commutation, servo feedback, phasing, servo, communication, motor synchronization, and more. We also have a team of PhD engineers developing, testing, and implementing new and advanced control algorithms for our customers' uses, such as the newly added Adaptive Control algorithm.
Hardware Development: We actively analyze the integrity of our circuitry design in order to improve electrical bandwidth, eliminate noise, improve airflow and cooling, reduce manufacturing costs, enhance reliability and environmental robustness, and make the most effective self-protecting safety features.
Our regular research and development tasks fall into three categories: Software Development: We test our software on a daily basis in order to enhance the software’s reliability and integrity and to make the interface as user-friendly and simple as possible. We also take our customers’ requests for improving user interfaces and adding features that enhance the user’s productivity.
Firmware Development: We continually improve the efficiency of the algorithms used in our controllers, as well as add new features for commutation, servo feedback, phasing, servo, communication, motor synchronization, and more. We also have a team of PhD engineers developing, testing, and implementing new and advanced control algorithms for our customers' uses, such as the newly added Adaptive Control algorithm.
Hardware Development: We actively analyze the integrity of our circuitry design in order to improve electrical bandwidth, eliminate noise, improve airflow and cooling, reduce manufacturing costs, enhance reliability and environmental robustness, and make the most effective self-protecting safety features.