KR0170712B1 - Excited energy source driving apparatus and its control method with high precision voltage controller - Google Patents

Abstract

The present invention relates to an excitation energy source driving apparatus having a high precision voltage control unit for supplying a high frequency pulse of an accurate output to an excitation energy source, and a control method thereof. A control module for inputting a trigger signal and generating a charging module control signal, a voltage adjustment control signal and a voltage interrupt control signal in response to the trigger signal, a charging module operated according to a charging module control signal output from the control means; A voltage charging means to which an output of the charging module is applied to charge a predetermined voltage, a voltage adjusting means connected to the voltage charging means, and a voltage adjusting means for lowering an overcharged voltage in the voltage charging means according to the voltage adjusting control signal; Connected to the means and connected to the excitation energy source according to the voltage interrupt control signal of the control means. It is possible to prevent the problem caused by the inertia of overcharging of the charging module by lowering the overcharged voltage to a desired charging voltage by providing a voltage interrupting means for controlling the supplied voltage supply to obtain an accurate amount of the required charging voltage. There is an advantage to this.

Description

Excitation energy source drive device with high precision voltage control and control method

1 is a schematic configuration diagram of a conventional excitation energy source driving device.

2 is a schematic configuration diagram of an excitation energy source driving apparatus including a high precision voltage controller according to an embodiment of the present invention.

3A and 3B are waveform diagrams for explaining the operation of the excitation energy source driving apparatus including the high precision voltage controller according to the embodiment of the present invention.

4 is a flowchart illustrating a control method of an excitation energy source driving apparatus having a high precision voltage controller according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: control unit 12: charging module

14: thyristor 16: flash lamp

C: storage capacitor R: resistor

E: electronic switch f: trigger signal

The present invention relates to an excitation energy source driving device for supplying a high field pulse to an excitation energy source in a laser beam generator for generating a laser beam, and more particularly, to supply a high field pulse of an accurate output to an excitation energy source. An excitation energy source drive device having a high precision voltage control unit and a control method thereof.

FIG. 1 is a schematic configuration diagram of a conventional excitation energy source driving device. In the excitation energy source driving apparatus of FIG. 1, the controller 10 to which the trigger signal f is input is connected to the charging module 12, the charging module 12 is connected to the storage capacitor C, and the storage capacitor C ) Is connected to the thyristor 14. In addition, the thyristor 14 is connected to the flash lamp 16 which is an excitation energy source, and the voltage interrupt control signal CS of the control unit 10 is input to the control terminal S of the thyristor 14.

Referring to the operation of the conventional excitation energy source driving device configured as described above, when the trigger signal f is applied to the controller 10, the controller 10 applies the charging module control signal PO to the charging module 12. The charging module 12 is operated and a pulse of a high field is output from the charging module 12, and a high field pulse is applied to the storage capacitor C. When charging is completed in the storage capacitor C, the controller 10 applies a voltage interrupt control signal CS to the control terminal S of the thyristor 14 to flash the voltage charged in the storage capacitor C. By applying the lamp 16, the flash lamp 16 is operated, and the above process is repeated to continuously supply excitation energy to the laser generating unit (not shown).

In general, since the output form of the laser generator is very similar to the output form of the flash lamp 16, the output of the flash lamp 16 must be appropriately controlled in order to change variables such as the output value and the pulse width output from the laser generator. In addition, the output energy to be obtained in the laser depends on the efficiency and characteristics of the laser medium, but requires high energy excitation energy. Therefore, high voltage control is required for output control of the flash lamp 16 used as the excitation energy source. Therefore, a high voltage is applied to the storage capacitor C and the charging module 12 should stop supplying voltage to the storage capacitor C when a desired voltage is charged in the storage capacitor C. However, since the charging module 12 needs to use a high output charging module, the storage capacitor C continues to have a voltage due to the inertial charging tendency of the charging module 12 even when the charging module 12 is stopped. As it is supplied, the storage capacitor C is overcharged. Therefore, the conventional excitation energy source driving device has a problem that it is not possible to supply the correct high voltage to the flash lamp.

Accordingly, an object of the present invention is to provide an excitation energy source driving apparatus having a high-precision voltage control unit for supplying a high-voltage pulse of accurate output to an excitation energy source by reducing the transient voltage caused by overcharging of a storage capacitor.

Another object of the present invention is to provide a control method suitable for controlling an excitation energy source driving device having the high precision voltage control unit.

In order to achieve the above object, the present invention includes a control means for inputting a trigger signal and generating a charging module control signal, a voltage regulation control signal and a voltage interrupt control signal in response to the trigger signal; A charging module operated according to a charging module control signal output from the control means; Voltage charging means for charging a predetermined voltage by an output of the charging module; A voltage regulating means connected to said voltage charging means for lowering a voltage which is overcharged in said voltage charging means in accordance with said voltage regulation control signal; And voltage interrupting means connected to the voltage charging means and intermittently controlling the voltage supply supplied to the excitation energy source according to the voltage interrupting control signal of the control means, wherein the charging voltage of the voltage charging means is detected by the control means. And it provides an excitation energy source drive device having a high-precision voltage control, characterized in that for controlling the operation of the charging module and the voltage adjusting means so that the correct charging voltage is output.

The voltage adjusting means may be connected in series with a resistor and an electronic switch which is opened and closed according to the voltage adjusting control signal, and one end of the electronic switch may be grounded.

In addition, the voltage interrupting means is preferably a thyristor.

In addition, the voltage charging means is preferably a capacitor.

In order to achieve the above another object, the present invention provides a control signal, comprising: control means for generating a charging module control signal and a voltage regulation control new voltage control signal in response to the trigger signal; A charging module operated according to a charging module control signal output from the control means; Voltage charging means for charging a predetermined voltage by an output of the charging module; Connected to the voltage charging means and connected to the voltage adjusting means for lowering the overcharged voltage in the voltage charging means according to the voltage adjusting control signal and to the voltage charging means and connected to an excitation energy source according to the voltage interruption control signal of the control means. A control method of an excitation energy source driving device having a high-precision voltage control unit having a voltage interrupting means for intermittently controlling the supplied voltage supply, wherein the charging voltage of the voltage charging means is detected by the control means. Generating a charging module control signal in response to a signal to charge the voltage charging means by operating the charging module; A second step of generating a charging module control signal to stop the operation of the charging module when a predetermined overcharge voltage is detected by the voltage charging means; A third step of lowering a voltage overcharged to the voltage charging means by applying the voltage adjusting control signal to the voltage adjusting means to operate the voltage adjusting means; When the desired charging voltage is detected by the voltage charging means, the voltage adjusting control signal is applied to the voltage adjusting means to stop the operation of the voltage adjusting means, and the voltage regulating control signal is applied to the voltage regulating means. A fourth step of operating the excitation energy source by supplying a charging voltage to the excitation energy source; And it provides a control method of the excitation energy source drive device having a high-precision voltage control, characterized in that it comprises the step of repeatedly performing from the first step to the fourth step.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

2 illustrates an excitation energy source driving apparatus having a high precision voltage control unit according to an embodiment of the present invention. In the excitation energy source driving apparatus including the high precision voltage control unit of FIG. 2, the trigger signal f is input and the charging module control signal PO, the voltage regulation control signal CSW, and the voltage interruption are reacted in response to the trigger signal f. The charging module 12 which is operated according to the charging module control signal PO is connected to the controller 10 which generates the control signal CS. In addition, the charging module 12 has a thyristor 14 for intermittently controlling the supply of voltage to the flash lamp 16 according to the storage capacitor C charged with the voltage and the voltage interrupt control signal CS of the controller 10. And a voltage adjusting unit 1 for lowering the overcharged voltage in the storage capacitor C according to the voltage adjusting control signal CSW of the controller 10. The thyristor 14 is connected to the flash lamp 16, and the voltage interrupt control signal CS generated by the control unit 10 is applied to the control terminal S of the thyristor 14. The voltage adjusting unit 1 has a resistor R and an electronic switch E that is opened and closed in response to the voltage adjusting control signal CSW in series, and one end of the electronic switch E is grounded.

3 (a) and 3 (b) are waveform diagrams for explaining the operation of the excitation energy source driving apparatus including the high precision voltage controller according to the embodiment of the present invention, and (a) is the waveform of the trigger pulse f. And (b) is a waveform diagram of the charging voltage pulse VC.

An operation of the excitation energy source driving apparatus including the high precision voltage controller according to the embodiment of the present invention configured as described above will be described in detail with reference to FIGS. 2 and 3 (a) and (b).

When the trigger signal f shown in FIG. 3A is applied to the controller 10, the controller 10 generates a charging module control signal PO and applies the same to the charging module 12. )).

The controller 10 operates the charging module 12 for a predetermined time T to charge the storage capacitor C to a voltage U + ΔU higher by ΔU than the desired charging voltage U. At this time, ΔU is the amount of overcharge voltage. When the charging voltage VC is U + ΔU, the controller 10 generates the charging module control signal PO to stop the operation of the charging module 12, and applies the voltage adjustment control signal CSW to the electronic switch E. Is applied to operate the electronic switch E for a predetermined time t so that the charging voltage VC becomes the desired voltage U. At this time, the charging voltage VC is to discharge the overcharged voltage through the resistor (R). When the charging voltage VC reaches the desired voltage U, the control unit 10 applies the voltage adjustment control signal CSW to the electronic switch E again to stop the operation of the electronic switch E, and the thyristor ( The flash lamp 16 is operated by applying the voltage interrupt control signal CS to the flash lamp 16 by supplying the voltage U charged in the storage capacitor C to the flash lamp 16. By repeating the above process, the excitation energy is continuously supplied to the laser generator (not shown).

As described in the operation description, in the present invention, when the storage capacitor (C) is overcharged, by lowering the overcharged voltage to the desired charging voltage by using the voltage adjusting unit 1, due to the inertial charging tendency of the charging module Overcharge problems can be avoided to obtain the required amount of accurate charging voltage.

4 is a flowchart of a control method of an excitation energy source driving apparatus having a high precision voltage control unit according to an embodiment of the present invention. 2 and 3 (a), (b) and 4, the control method of the excitation energy source drive device provided with the high-precision voltage control of the present invention is to the trigger signal f input in step S42 In response, the charging module control signal PO is generated to charge the storage capacitor C by operating the charging module 12. In operation S44, when the voltage U + ΔU higher than the set charging voltage U is detected by the storage capacitor C, the charging module control signal PO is generated to stop the operation of the charging module 12. In step S46, the voltage adjustment control signal CSW is applied to the electronic switch E to operate the electronic switch E for a predetermined time t to lower the charging voltage VC to the desired voltage U. In step S48, when the charging voltage VC becomes U, the voltage adjustment control signal CSW is applied to the electronic switch E again to stop the operation of the electronic switch E, and the voltage interrupt control to the thyristor 14 is performed. The flash lamp 16 is operated by applying the signal CS to supply the voltage U charged in the storage capacitor C to the flash lamp 16. After the step S48 is performed, the process proceeds to the step S42 again, and repeats the steps S42 to S48 to continuously operate the flash lamp 16.

As described above, the excitation energy source driving apparatus having a high-precision voltage control unit and a control method thereof according to the present invention, when the storage capacitor (C) is overcharged, the desired charge of the overcharged voltage using the voltage adjusting unit (1) By lowering the voltage, it is possible to prevent the problem caused by the inertial overcharging tendency of the charging module, thereby obtaining the required charging voltage in an accurate amount.

Claims (5)

Control means for receiving a trigger signal and generating a charging module control signal, a voltage adjustment control signal, and a voltage interrupt control signal in response to the trigger signal; A charging module operated according to a charging module control signal output from the control means; Voltage charging means for charging a predetermined voltage by an output of the charging module; A voltage regulating means connected to said voltage charging means for lowering a voltage which is overcharged in said voltage charging means in accordance with said voltage regulation control signal; And voltage interrupting means connected to the voltage charging means and intermittently controlling the voltage supply supplied to the excitation energy source according to the voltage interrupting control signal of the control means, wherein the charging voltage of the voltage charging means is detected by the control means. And an excitation energy source driving device having a high-precision voltage control unit for controlling the operation of the charging module and the voltage adjusting means to output an accurate charging voltage. According to claim 1, wherein the voltage adjusting means is provided with a high-precision voltage control, characterized in that the resistance and the electronic switch that is opened and closed in accordance with the voltage adjustment control signal is connected in series, one end of the electronic switch is grounded. Excitation energy source drive. The excitation energy source driving apparatus according to claim 1, wherein the voltage interrupting means is a thyristor. The excitation energy source driving apparatus according to claim 1, wherein the voltage charging means is a capacitor. Control means for receiving a trigger signal and generating a charging module control signal, a voltage adjustment control signal, and a voltage interrupt control signal in response to the trigger signal; A charging module operated according to a charging module control signal output from the control means; Voltage charging means for charging a predetermined voltage by an output of the charging module; Connected to the voltage charging means and connected to the voltage adjusting means for lowering the overcharged voltage in the voltage charging means according to the voltage adjusting control signal and to the voltage charging means and connected to an excitation energy source according to the voltage interruption control signal of the control means. A control method of an excitation energy source driving device having a high-precision voltage control unit having a voltage interrupting means for intermittently controlling the supplied voltage supply, wherein the charging voltage of the voltage charging means is detected by the control means. Generating a charging module control signal in response to a signal to charge the voltage charging means by operating the charging module; A second step of generating a charging module control signal to stop the operation of the charging module when a predetermined overcharge voltage is detected by the voltage charging means; A third step of lowering a voltage overcharged to the voltage charging means by applying the voltage adjusting control signal to the voltage adjusting means to operate the voltage adjusting means; When the desired charging voltage is detected by the voltage charging means, the voltage adjusting control signal is applied to the voltage adjusting means to stop the operation of the voltage adjusting means, and the voltage regulating control signal is applied to the voltage regulating means for charging. A fourth step of operating the excitation energy source by supplying a voltage to the excitation energy source; And repeating the steps from the first step to the fourth step.