KIEE International Transactions on Electrophysics and Applications

The Korean Institute of Electrical Engineers (대한전기학회)
권호 표지

A Study on the Output Stabilization of the Nd:YAG Laser by the Monitoring of Capacitor Charging Voltage

  • Noh, Ki-Kyong (Dept. of Electrical Engineering, Pusan national University) ;
  • Song, Kum-Young (Korea Hydro & Nuclear Power Company) ;
  • Park, Jin-Young (Dept. of Electrical Engineering, Pusan national University) ;
  • Hong, Jung-Hwan (Technical Research Institute of MEDIMIR Inc) ;
  • Park, Sung-Joon (Dept. of Electrical Engineering, Pusan national University) ;
  • Kim, Hee-Je (Dept. of Electrical Engineering, Pusan national University)
  • Published : 2004.06.01
Download PDF
⟨ Previous Next ⟩

Abstract

The Nd: YAG laser is commonly used throughout many fields such as accurate material processing, IC marking, semiconductor annealing, medical operation devices, etc., due to the fact that it has good thermal and mechanical properties and is easy to maintain. In materials processing, it is essential to vary the laser power density for specific materials. The laser power density can be mainly controlled by the current pulse width and pulse repetition rate. It is important to control the laser energy in those fields using a pulsed laser. In this paper we propose the constant-frequency current resonant half-bridge converter and monitoring of capacitor charging voltage. This laser power supply is designed and fabricated to have less switching loss, compact size, isolation with primary and secondary transformers, and detection of capacitor charging voltage. Also, the output stabilization characteristics of this Nd: YAG laser system are investigated. The test results are described as a function of laser output energy and flashlamp arc discharging constant. At the energy storage capacitor charges constant voltage, the laser output power is 2.3% error range in 600[V].

Keywords

References

  1. A. L. Schawlow, C. H. Townes, Phys. Rev. 112, 1940(1958)
  2. T. H. Maiman, Nature, 87, 493 (1960)
  3. W. Koechner, Solid-State Laser Engineering, Springer-Verlag, Heidelberg, 1996
  4. Kee-Jun Kim, et aI., Principal and Application of Laser, Dea-YoungSa, 1997
  5. J. E. Harry, Industrial Laser and Their Application, Mcgraw-Hill, 1974
  6. Hee-je Kim, et aI., Fabrication and Application technique of Nd:YAG Laser, The Korean Institute of Electrical Engineers, 42(3), 19-27, 1993
  7. Hujii KM. The specific nature of high power Nd:YAG laser for welding[ML-2801A]. Japanese Lawer Association (in Japanese), 1991, pp13-8
  8. Jung-Hwan Hong et al, Long pulse generation technology of solid-state laser adopting a new real time multi-discharge method, Optics & Laser Technology, 34(2002) 203-207
  9. Orazio Svelto, Principles of Lasers, New York (Plenum), pp 53 -71
  10. Jung-Hwan Hong, et al., A new proposal of high repetitive Nd:YAG laser power supply adopted the sequential charge and discharge circuit, Optics & Laser Technology, 31, 397-400, 1999
  11. John Hawkes, Ian Latimer, Lasers Theory and Practiec, Prentice Hall, New York, 1994
  12. Rahul S. Chokhawala, Switching voltage transient protection schemes for high-current IGBT modules, IEEE Transactions on Industry Applications, vol. 33, no. 6, 1997
  13. Hee-Jun Kim, Foundation design of Switching Power, Sung-AnDang, pp. 239-292
  14. Electrical Technique Investigation Conference, Design Master of Power circuit, Kee-MoonSa, pp. 347-356