The ITW GSE 7400 battery powered eGPU is in a class of its own and comes without compromise.

Make a giant leap forward by replacing your diesel GPUs with ITW GSE 7400 eGPUs. In that way, you can reduce your CO2 emissions by 90%. The eGPU emits no NOx into its operating environment, so it can contribute significantly to a cleaner and safer working environment for your employees.

The 7400 eGPU provides the same outstanding, well-proven qualities of other ITW GSE solid-state GPUs, including precise and clean output voltage at the aircraft plug, and individual phase regulation of each output phase.

Extreme Flexibility

The ITW GSE 7400 eGPU is set to change how airports think about ground power without making compromises. It is independent due to the onboard battery packs and can easily be transported to wherever it is needed. The flexible 7400 eGPU can perform multiple turnarounds before it needs recharging, and can be recharged from any standard 50/60Hz socket.

The 7400 eGPU combines two known technologies into one innovative GPU:

  • State-of-the-art Li-ion technology at input
  • ITW GSE solid-state converter technology at output.

This is your guarantee for a very reliable battery ground power unit.

Power when you need it

Airports frequently experience peak load periods with a consumption level very close to the power grid’s maximum capacity. Increasing the grid capacity requires huge investments in infrastructure. Making eGPUs a part of your airport’s electrical infrastructure allows you to even out your capacity demands over a 24-hour period. Your eGPUs can be charged during quiet periods and then add overall capacity during peaks.

  • 400 Hz
  • ITW GSE’s wellproven 2400 solid-state converter
  • Nissan Leaf battery pack. Each pack with 40 kWh.
  • Icon based user interface.
  • Modular design to ensure fast service.
  • Charger input range: 3 phased @ 260-250 V / 45-65 Hz.
  • Values based @ 3×400 V and 20 degrees Celsius ambient.
  • Rated power: 90 kVA PF 0.8-1
  • Voltage: 3 x 115/200 V
  • Frequency: 400 Hz +/- 0.1%
  • Power factor: 0.7 lagging to 095 leading