Current research projects

Image Development of test methods and test rigs for stationary integrated refrigeration units
Image Reduction of primary noise sources of fans
Image Non- invasive flow measurements
Image Investigation according to DIN EN ISO 14903
Image All-in-one device for freeze-drying and production of biomaterial
Image Industry 4.0 membrane heat and mass exchanger (i-MWÜ4.0)
Image Cold meter
Image High Capacity Pulse Tube Cooler
Image Electrochemical decontamination of electrically conducting surfaces „EDeKo II“
Image Laseroptical measurement
Image Optimizing HVAC operation with machine learning
Image Low temperature – test facilities
Image Cryogenic liquid piston pumps for cold liquefied gases like LIN, LOX, LHe, LH2, LNG, LAr
Image Software modules
Image Tribological investigations of oil-refrigerant-material-systems
Image Investigation of coolants

You are here:  Home /  Research and Development


Intelligent innovative power supply for superconducting coils

Dr. Andreas Kade

+49-351-4081-5117

Compact, powerful power supply with 4-quadrant converter

The aim of the R&D project is the development of an intelligent innovative power supply as a 4-quadrant controller and energy storage device, which consists of a communicating system between quench protection and current flow control at the superconductor. The development shall be characterized by safety, compactness, accuracy, user friendliness, good price-performance ratio and modularity. The combination of cryogenic and warm electronics will provide significant advantages.
The functional model developed and constructed for this purpose has the following parameters and properties:

  • 4-quadrant power supply with ± 25 V and ± 14 kA
  • Constant voltage quench protection system
  • Cryogenic switch (cryogenic)
  • Energy storage system

The components for the energy storage system consists of individual cells with a capacity of 3000 F and a voltage of 2.7 V. 51 modules are connected in parallel, each with 10 individual cells, to form a capacitor bank. This results in a capacity of 15,300 F and a voltage of 25 V. A 3 kA, 30 V device serves as power supply, which has already been successfully tested on a cryogenic power supply.
In the next step, the configured capacitor modules for the energy storage and the boards of the 4-quadrant controller, see Figure 1, were combined in three switch cabinets, see Figure 2. The completed switch cabinet is shown in Figure 3. First results were presented at the 16th Cryogenics in October 2021.
 


Your Request

Further Projects - Research and Development