RU2016130970A - SPARK PROTECTION WITH SPARK BETWEEN - Google Patents

Claims (33)

1. Surge protection with a spark gap (9) and with a laser (210) for igniting the spark gap, characterized in that - the laser (210) is connected to the input (226) of the optical extension element (218), which serves to temporarily stretch the laser pulses (310) generated by the laser, - the output (230) of the tensile element (218) is connected to one end of the optical transmitting fiber (15 ’), in particular, to one end of the optical fiber (15’), - the second end of the transmitting fiber (15 ’) is connected to the input (234) of the optical compression element (238), which serves to temporarily compress the laser pulses (410), and - the output (242) of the compression element (238) is connected to the spark gap (9). 2. Overvoltage protection according to claim 1, characterized in that - the output (242) of the compression element (238) is oriented in the direction of at least one electrode (246, 248) of the spark gap (9) or in the direction of the intermediate space between the two electrodes (246, 248) of the spark gap (9). 3. Overvoltage protection according to claim 1 or 2, characterized in that - the laser (210) is a pulsed laser, in particular, a femtosecond laser. 4. Surge protection according to any one of the preceding paragraphs, characterized in that - transmitting fiber (15 ’) is free from laser-active media. 5. Surge protection according to any one of the preceding paragraphs, characterized in that - the spark gap (9) and the compression element (238) are placed on an electrically isolated platform (4) that is located at the high voltage potential (256), and - the laser (210) is connected to the ground potential (260). 6. Surge protection according to claim 5, characterized in that - the element (218) stretching is placed outside the platform (4), and - the transmitting fiber (15 ’) connects the stretching element (218) with the platform (4), in particular, with the compression element (238). 7. Surge protection according to any one of the preceding paragraphs, characterized in that - between the compression element (238) and the spark gap (9), optics (252) are placed to focus the compressed laser pulses (255). 8. Surge protection according to any one of the preceding paragraphs, characterized in that - the compression element (238) is rigidly connected to the spark gap (9). 9. Surge protection according to any one of the preceding paragraphs, characterized in that - the spark gap (9) is part of the ignition circuit (5) for igniting the main spark gap (2). 10. The method of ignition of the spark gap (9) using a laser (210), and in the method - laser pulses (310) generated by the laser (210), stretch in time, - time-stretched laser pulses (410) are transmitted using an optical transmitting fiber (15 ’), in particular, using a light guide (15 '), - after transmission, time-stretched laser pulses (410) are compressed in time, and - time-compressed laser pulses (255) are introduced into the spark gap (9). 11. The method according to p. 10, characterized in that - time-stretched laser pulses (410) are transmitted using an optical transmitting fiber (15 ’) to an electrically isolated platform (4), which is located at a high voltage potential (256). 12. The method according to p. 10 or 11, characterized in that - the spark gap (9) and the compression element (238) are located on the platform (4), and - the laser (210) is connected to the ground potential (260).