AFE2000 Series


  • Energy saving with AC/DC dual power flow control and corrects power factor up to 99%.​

  • Replaces traditional braking resistor for cost savings, space savings, and energy savings.​

  • PWM control substantially reduces peak of harmonic current wave and forms perfect sine wave current.​

  • IEEE STD.519–1992 standard for harmonic current distortation of less than 5%.​

  • Constant DC bus voltage that is not influenced by mains voltage fluctuation.​

  • Supports multiple DC bus intallation:

Outstanding Energy Saving Results​

1. Controls harmonic distortion to less than 5% and corrects the power factor up to 99%.

2. As a replacement for traditional brake resistors: A high-watts brake resistor is usually applied to a traditional AC motor drive to absorb the excess regenerative energy generated by motor spinning and frequent braking, and then dissipating the excess energy as heat (see Figure 1).. Using brake resistors as an excess energy solution not only creates additional hardware but also occupies more space. The Delta AFE2000 series provides a new solution: instead of dissipating regenerative energy as heat, it converts regenerative energy into reusable electricity and sends it back to the mains, which reduces total energy consumption. The AFE2000 series is a cost saving and environmentally-friendly product (see Figure 2).​

​Indutrial Applications
  • Large-inertia load applications: roving machines, horizontal spiral centrifuges, drilling machines.

  • 4-quadrant load applications: cranes, cargo elevators, passenger elevators, oil production machines

  • Quick brake applications: machine tools, high-speed spindles, bag making machines.

  • Long-term feedback energy applications: wind power systems and water power systems.

  • Parallel DC power supply applications: logistics and storage systems, wind power systems, LED lighting systems.

  • Provides excellent power quality for the communication transmission systems of Power Line products.

  • Overhead Traveling Crane

  • Elevator