Coherent light generators – Particular operating compensation means
Patent
1988-12-05
1990-05-29
Scott, Jr., Leon
Coherent light generators
Particular operating compensation means
372 38, 372 29, H01S 300
Patent
active
049301357
DESCRIPTION:
BRIEF SUMMARY
CROSS REFERENCE TO RELATED APPLICATIONS
This application is related to the following copending applications assigned to the same assignee as this application: 1989 having out Docket No. 645,103.
TECHNICAL FIELD
The present invention relates to a laser oscillator device for producing a high-power laser beam for cutting workpieces of metal or the like, and more particularly to a laser oscillator device capable of stable high-frequency discharge pumping.
BACKGROUND ART
High-frequency discharge pumping axial-flow CO.sub.2 lasers are in the process of being developed because of their advantages of high-power output and stable oscillation. One example of such laser is disclosed in Japanese Patent Application No. 61-243212 filed by the applicant.
A conventional axial-flow-type high-frequency discharge pumping laser oscillator device is illustrated in FIG. 7 of the accompanying drawings. The illustrated laser oscillator device includes a discharge tube 1 comprising four tube segments. However, the discharge tube 1 may have a desired number of tube segments dependent on the output to be produced. A total reflection mirror 2 and an output coupling mirror 3 are accurately positioned at the ends of the discharge tube 1. Denoted at 4 is an outgoing laser beam. The segments of the discharge tube 1 have gas inlet and outlet ports connected to a single roots blower 7. Cooling units 5, 6 serve to cool a laser gas heated by the discharge and the roots blower 7. The laser gas flows in the discharge tube 1 and gas delivery tubes in the directions of the arrows. Electrodes 8a, 8b .about. 11a, 11b are connected to respective high-frequency power supplies 12, 13, 14, 15. The gas flows in the discharge tube 1 at the speed of about 100 m/second. An electric discharge is produced in the discharge tube 1 by a high-frequency voltage applied by the high-frequency power supplies 12 .about. 15 to generate laser oscillation.
The principles of a conventional high-frequency power supply is illustrated in FIG. 8 of the accompanying drawings. Denoted at 16 in a DC power supply, and at 17 is a high-frequency (RF) power supply. DC output from the DC power supply 16 is applied to the high-frequency power supply 17. The high-frequency power supply 17 comprises a branch circuit comprising four FETs 18 .about. 21, a boost transformer 22, and an impedance matching circuit 23. The output terminals of the high-frequency power supply 17 are coupled to the discharge tube 1 through electrodes 8a1, 8a2. A CT coil 24 serves to detect a current flowing through the discharge tube 1. A current feedback line 25 feeds back the detected current to control the current supplied to the discharge tube 1 to be constant.
The high-frequency discharge pumping laser has the following many advantages over the ordinary DC discharge pumping laser:
(i) Since it produces an electrode-free discharge, there is no problem of electrode material deterioration.
(ii) No ballast resistor is required.
(iii) There is no cathode drop, and high energy efficiency is obtained.
(iv) The laser can be operated at a low voltage and hence is safe for the operator.
(v) The dissociation ratio of CO.sub.2 is low, and so is the running cost.
(vi) The laser has excellent pulse characteristics.
(vii) The laser device can be reduced in size.
(viii) The phenomenon of electron capture can be utilized by sufficiently increasing the frequency.
(ix) The freedom of selection of discharge tube materials is high.
However, the current and voltage of the high-frequency discharge pumping laser tend to oscillate based on various interferences because the power supplies and the discharge tube load are driven parallel to each other. Though one unit loop of a power supply and a load operates stably, the above phenomena occurs as the number of loops in parallel operation increases. Since the interferences are more noticeable between adjacent loops and can be neglected between those loops which are remote from each other, and also since the interferences are large if the cables are bundled, it is found that th
REFERENCES:
patent: 4677631 (1987-06-01), Pithie
patent: 4785458 (1988-11-01), Kuzumoto et al.
Egawa Akira
Iehisa Nobuaki
Karube Norio
Manabe Mitsuo
Yamazaki Etsuo
Fanuc Ltd.
Jr. Leon Scott
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