Introduction to Direct Drive Technology (ATT)

In 2019, a research and development center was established to independently develop magnetic levitation intelligent transportation technology, including controllers, drivers, encoders and motors. At the same time, we jointly carry out continuous iterative research and development and application of magnetic levitation transportation systems with well-known universities and enterprises at home and abroad, and provide various solutions such as ring lines, connection lines and heavy-duty lines to serve different application scenarios in the market.

Technical summary

Direct drive technology, referred to as direct drive technology, refers to the use of electromagnetic technology to directly convert electrical energy into linear motion or rotary motion mechanical energy, minimize the drive technology of the intermediate transmission mechanism, simplify the mechanism design, and greatly improve the speed, accuracy, reliability, and application life.

ATT direct drive principle

ATT adopts the principle of long stator linear motor, which is composed of drive module, long stator track of electromagnetic coil, permanent magnet moving slider, position sensor, etc. The power output of the driving module will make the stator coil generate a set of alternating magnetic fields on its track surface, so as to drive the fast movement of the permanent magnet on the track, and realize the transfer and transportation of materials on the production line.

Application field

ATT product advantages

ATT Advanced Transfer technology vs. traditional transfer technology

  • High speed, high acceleration and high precision
  • Small footprint
  • Flexible configuration
  • Strong scalability
  • No cable dragging
  • Safe and clean
  • Easy to install and debug
  • Each actuator can be numbered and traced
  • Modular design is easy to maintain
  • digitized

Value for customers

  • Improve production time, improve factory efficiency
  • Compound cost is lower than traditional model
  • Reduce the difficulty of equipment development and reduce maintenance costs
  • Flexibly increase or decrease the number of actuators to achieve capacity increase or decrease
  • Flexible adjustment process to achieve multi-variety compatibility
  • Controllable and dispatchable, truly unmanned
  • Suitable for dust-free, light noise and other specific environment

Application scenarios of direct drive technology

  • 3C electronic assembly line
  • Battery assembly line
  • Photovoltaic module assembly line
  • Insulin pen assembly line
  • Medical consumables assembly line
  • Automotive electronic assembly line
  • Semiconductor manufacturing line
  • Intelligent logistics line
  • High speed sorting control equipment
  • Flexible feed handling equipment