RU1358735C - Power source gas laser - Google Patents

Abstract

The invention relates to electrical engineering, in particular to sources of secondary electrical energy, high-voltage gas-gas. a number of equipment. The purpose of the invention is to increase the reliability of the laser power supply by increasing the stability of the electric discharge in the active element. By connecting the resistor 9 and the current stabilizer 10 to the output terminals 19, 20 of the circuit, the voltage at the output of voltage multiplying channel 15 of rectifier 2 is limited to a certain level. When a discharge is excited in the active element 3 of the laser, an initial current is set in magnitude greater than the operating current necessary to ensure maximum radiation power. In this case, the negative dynamic resistance of the discharge in the active element 3 is minimal, and the stability of the discharge is maximum. As transient electrical and thermal processes in the laser end, the discharge current slowly decreases to the operating current. 2 ill. 1G YU S

Description

The invention relates to electrical equipment and is intended for use in the implementation of power supply to gas-discharge equipment.

The aim of the invention is to increase the reliability of the laser power supply by increasing the stability of the electric discharge in the active element.

In FIG. 1 shows the functional, -. gas laser power supply circuit; on the . 2 shows the volt-ampere characteristic of the active element of the laser and the dependence of mosh, radiation spills of the outflow,

The proposed source comprises a single-ended voltage converter 1 and a high-voltage bi-rectifier 2.

The active element 3 of the gas laser is the load of the power source. The source also contains a resistive current sensor 4, a power supply unit 5, a reference voltage unit b (zener diode), a direct current amplifier 7, an 8 pulse generator, an installation resistor 9. a current stabilizer 10, a solid 11 and a second 12 isolation diode, time delay capacitor 13. In the high-voltage rectifier 2 there are two parallel-first channels 14 and 15, the first of which is a power channel, and the second is an additional channel for voltage increase, high voltage; 71) 71 isolation diode 16. The input terminals 17 and 18 of the source are intended for connecting the primary /; :: exactly 1KZ power supply, the first 19 i-i second 20 output, and e conclusions for connecting an AkTUBt-soro laser element. The supply input of the voltage transformer 1 is connected to the voltage source 1u; / pins 17. 18, the input of the high-voltage PS; pv 1; /: gel 2 is connected to the output of the converter; 50V;) tel I voltage, the output is connected to the b5 input-1 pin 19 directly, and with the output |; the output pin 20 connected to a common bus via a current sensor 4. One of the inputs of the comparison unit 5 is connected to the output of the current sensor 4, the other input is 1 to the output of the reference voltage unit 6, and the output through the DC amplifier 7 and the isolation diode 11 connected at its output is connected to the modulating input of the 8 mm pulse generator. connected by the output to the drive input of the voltage converter 1. The installation resistor 9 and the current stabilizer 10 are connected in series between the output terminals 19, 20. The modulating input of the pulse generator 8 is connected to the terminals of the current stabilizer 10 through a diode 12. .

The power source operates as follows.

When a voltage is applied to the input terminals 17.18 of the source, the generator 0

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torus 8 1 pulse at maximum frequency. A single-phase voltage converter 1 is energized in synchronism with it. From the output of the converter 1, the voltage is supplied to two parallel channels of the high-voltage rectifier 2 - the power channel 14 and the voltage multiplying channel 15. The output voltage of rectifier 2 gradually increases in magnitude over a period of time from turning on until the maximum value is reached. Proportionally, the current flowing increases (it passes through the resistor 9 and the current stabilizer 10. If there is no discharge in the active element, the Z. current reaches the value of the stabilization current of the stabilizer 10, while the voltage at the output of the latter increases sharply, which enters through the diode 12 to the input of the pulse generator 8. The pulse frequency of the generator 8 and the single-phase converter 1 decreases, the voltage of the rectifier 2 ceases to increase in magnitude, a current equal to the stabilization current flows through the resistor 9 and the stabilizer 10 or 10. Then, the voltage at the output of voltage increasing channel 15 of rectifier 2 is limited by the value equal to the product of the resistance value of resistor 9 and the value of stabilization current of stabilizer 10. By changing one of these values, you can change the voltage value by the output of the voltage multiplying channel 15 of the rectifier 2. The development of an electric discharge in the active element 3 of the laser occurs when the voltage at the output of the channel 15 is less than the level of the limited voltage, therefore, control is often second pulse generator circuit 8 to the communication from the current regulator 10 is absent.

The maximum current of the active element 3 creates a voltage drop on the current sensor 4, which in the comparison unit 5 is compared with the reference voltage of the unit b. The difference signal is fed to the input of the DC amplifier 7. Amplifier 7 is designed according to a circuit with a high-impedance output. Therefore, the capacitor 13 and the 8-HIGH output of the amplifier 7 provide a time delay for the control signal to arrive at the input of the pulse generator 8. The time delay is chosen to be somewhat larger than the time at which the transient electrical and thermal processes end when the discharge in the active element 3 of the laser is excited. After the delay time, the control signal from the output of the constant current amplifier 7 is fed to the input of the pulse generator 8 and changes its frequency. The current in the active element 3 of the laser is reduced to the value of the required operating current and is maintained at this level, which ensures the stability of the discharge in the active element 3,

Thus, in the device under consideration, when a discharge is excited in the active element 3 of the laser, an initial current of 1 value (Fig. 2) is established, which is larger than the operating current 1digit necessary to provide maximum radiation power Rros.mack .. Moreover, the negative dynamic the discharge resistance in the active element 3 is minimal, and the discharge stability is maximum. As transient electrical and thermal processes end in

Claims (1)

Formula of the invention A gas laser power supply, comprising a single-phase voltage converter, the power input of which is connected to the input terminals of the device for connecting the primary power source, a high voltage rectifier, the input of which is connected to the output of the voltage converter, and the output is connected to the first output terminal of the device, designed to connect the active element of the laser directly, and with a second output terminal of the device connected to a common bus through a resistor a current sensor, a comparison unit, one of whose inputs is connected to the output of the current sensor, the other input is to the output of the reference voltage unit, and the output through the DC amplifier and the first split laser connected to its output slowly changes from values 1value to - (healthy, and the voltage on the active element 3 - from Uznch to Uzrzb. The described technical solution allows using active elements with a large value of negative dynamic resistance of electric discharge as a load of the power supply Yes, to reduce the influence of the temperature gradient of the plasma in the capillary of the active element relative to the design of the emitter cavity on the stability of the electric discharge when the laser is turned on. In this case, the reliability and the stability of ignition of an electric discharge in the active element of the laser and, in addition, the overall dimensions of the latter are improved. diode - to the modulating input of a pulse generator, connected by the output to the excitation input of a voltage converter, stabilizer current, characterized in that, in order to increase the reliability of the laser power supply by increasing the stability of the electric discharge in the active element, an installation resistor and a second isolation iodine are introduced into it, and the high-voltage rectifier is made with an additional parallel voltage multiplication channel, the installation resistor and the current stabilizer is connected in series between the output terminals of the device, and the modulating input of the pulse generator is connected to the terminals through the second isolation diode. current meter. Js / l Editor O.F. Ippova Compiled by L. Morozov Tehred M. Morgeital Order 551 Mintage VNIIIPI of the State Committee for Inventions and Discoveries under the USSR SCST 113035, Moscow. Zh-35, Rauska embankment. 4/5 Production and Publishing Plant Patent, Uzhgorod, Gagarin St. 101 Proofreader E. Lonchakova