Abstract
A so called resonance converter is investigated mathematically and experimentally.
The thesis first recalls state of the art methods for fluid power control. Then, the resonance converter principle is presented. Its basic behavior is treated by a simple analytical model. Dimesnioning rules are derived from that. A refined model is treated numerically. These results are compared with experiments performed with a prototype converter. The important detail problem of the influence of valve overlap on the resonator's performance is investigated by perturbation techniques.
| Translated title of the contribution | Contributions to the development of an energy efficient hydraulic switching-converter |
|---|---|
| Original language | German (Austria) |
| Publication status | Published - Jul 1998 |
Fields of science
- 203 Mechanical Engineering
- 203015 Mechatronics