Research & development
Constant research, further development and the expansion of our knowledge base
- Education
- Innovation
- Latest technologies on the basis of materials and winding technology
- In-house machine and toolmaking facility
- Competency in material selection
For scientific applications, we have many years of fundamental knowledge in the field of physics and its practical implementation. This makes functioning solutions possible for research and in practical applications. Lasslop supplies HF high-voltage transformers for research projects and industry, which are used in applications such as particle acceleration, transmitters and HV lamps. One of the most interesting and challenging applications is the synchrotron light source. This light can penetrate deep into materials
Lasslop Technologies
flexible, relieable and long-lasting
… this extraordinary light is produced with high-energy accelerators, where electrons are accelerated with energy to almost the speed of light. The electrons are excited by special HF amplifiers in electromagnetic cavities in order to compensate for the energy lost by the electrons by means of synchroton radiation. The HF output of these transformers is usually in the 100 kV – 400 kV and 50 kW – 5 MW ranges. Lasslop HF high-voltage transformers are especially suitable for such applications due to their high reliability, precision, efficiency and precise implementation of physics in practice for long life-cycles.
- Smaller, lighter, lower loss
- Innovation through innovative winding technology
- Contactless energy transmission
Your Advantages
- optimal design
- Effective utilisation of installation space
- smaller
- High efficiency
- lower loss
Cempetency in material selection
materials and technelogies
Our research work covers the further development of existing technologies, as well as new developments in the area of production technology and the evaluation of new materials. The use of innovative technologies such as flat wire vertical winding or windings with special profile braids results in well-engineered new developments. This also enables an improvement in the product properties of existing components.

Materials according to the requirements on the basis of:
- Ferrite
- Iron powder, own special materials
- Sheet metal laminate
- Amorphous/nanocrystalline materials
Design
- Standard core shapes
- Block cores, freely combinable
- Special press moulds for powder materials
- CNC machining of ferritic materials