JPH0354880A - Multi-stage switching circuit for solid state pulsed laser - Google Patents

Abstract

PURPOSE:To adjust capacitance voltage to set voltage only with minimum discharge by providing using a comparator a circuit which decreases and discharges only a difference between present charging voltage and set voltage of capacitance. CONSTITUTION:A variable resistor 1-1 and a fixed resistor 12 provide reference voltage together with set voltage with which a reference voltage source is constructed by connecting a movable terminal of the resistor 1-1 with the other of an input of a comparator 1-3. The comparator 1-3 is to compare inputs of the variable resistors 4-1 and 1-1, and detect a difference therebetween and output an output pulse which is in turn to turn off a switch of a gate turning-off thyristor 3-1. Hereby, there is assured optimum discharge operation to adjust the voltages of capacitances 2-1 - 2-n to the set voltage using a flush lamp 3-2.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a solid-state pulse laser output multi-stage switching circuit.

[Conventional technology]

An example of a conventional charging voltage setting circuit is shown in FIG. 3 and will be described.

In the figure, 21 is a capacitor bank section, which includes capacitors 21-1, . . . that are connected in parallel. 21-2. 21-n
It is made up of. 22 is a discharge section, which includes a relay 22-1 controlled by a set voltage set by a controller section (not shown), a discharge resistor 22-2 connected in series to this relay 22-1, and a gate turn-off controlled by the controller section. It is composed of a thyristor 22-3. 23 is a flash rung which is a load to which the pulsed laser source outputs.

And the charge shown in Figure 3? ! When resetting the set charging voltage, the voltage setting circuit uses a discharging resistor 22-2 to set the relay 2 to a lower value than the current set voltage.
2-1 The capacitors 21-1 to 21-n are configured to be charged again with the set voltage after the voltage is once lowered to a sufficiently low voltage within the settable range.

[Problem to be solved by the invention]

In the conventional charging voltage setting circuit described above, there are cases where more energy is required than the difference between the two setting voltages.
There were problems in that the power supply capacity had to be wasted and it took time to charge to the set voltage.

[Means to solve the problem]

The solid-state pulsed laser output multi-stage switching circuit of the present invention includes, in a laser power supply, a reference voltage source created by a set voltage, a voltage detection section that detects a charging voltage of a capacitance, and a voltage from this voltage detection section. A comparator that compares the voltage from the reference voltage source and a discharge section that is controlled by the output of this comparator are provided so that the voltage can be changed. [Operation] In the present invention, a comparator is used, and the circuit is configured to charge or discharge only the difference between the current charging voltage of the capacitor and the set voltage, and the output pulse of the comparator controls the gate turn-off switch. do.

〔Example〕

Embodiments of the present invention will be described in detail below based on the drawings.

? FIG. 1 is a circuit diagram showing an embodiment of a solid-state pulsed laser output multi-stage switching circuit according to the present invention.

In the figure, 1 is a converter section, and 2 is a parallel-connected capacitance 2-1.2-2...2-nK! 3 is a discharge section. 4-
1 is a variable resistor, and 4-2 is a fixed resistor connected in series to this flexible resistor 4-1. It constitutes a voltage detection section that detects.

1-1 is a variable resistor that is linked to a set voltage set by a controller section (not shown), and 1-2 is this variable resistor 1.
-1 in series with fixed resistors connected to the reference voltage E
(2) It constitutes a reference voltage source which is supplied with a set voltage and is generated by a set voltage. 1-3 is a comparator that compares the voltage from the voltage detection section with the voltage from the reference voltage source; v+ and v- are comparator power supplies. 3-1 is compare-1;'1
-3 (gate turn-off thyristor controlled by D output; 3-2 is a flash lamp which is the load to which the pulse laser power source is output; these are the comparator 1
It constitutes a discharge section 3 which is controlled by the output of -3.

And it is configured so that the voltage can be changed.

Next, the operation of the embodiment shown in FIG. 1 will be explained.

! The flash lamp 3-2 is the load to which the pulse laser power source outputs, and the capacitance 2-1 to 2
-n is a capacitance for discharging power to this flash lamp 3-2.

3-1 is a gate turn-off thyristor for controlling the discharge of the capacitances 2-1 to 2-n, and adjusts the discharge time of the capacitances 2-1 to 2-n. The variable resistor 4-1 and the fixed resistor 4-2 are voltage detection parts that detect the charging voltage of the capacitances 2-1 to 2-no, and the movable element of the variable resistor 4-1 is connected to one of the inputs of the comparator 1-3. It is connected.

Next, variable resistor 1-1 and fixed resistor 1-2 are variable resistors and fixed resistors that are linked to the set voltage. This is a reference voltage source that generates a voltage and connects the movable element of variable resistor 1-1 to the other input of comparator 1-3. The comparator 1-3 detects which of the inputs from the variable resistor 4-1 and the variable resistor 1-1 is at a higher voltage, and the output pulse from the comparator 1-3 is used to turn off the gate to the thyristor 3-1. By turning off the switch, the discharge operation performed using the flash lamp 3-2 to match the voltage of the capacitances 2-1 to 2-n with the set voltage is optimized.

FIG. 2 is a circuit diagram showing another embodiment of the present invention.

In FIG. 2, the same reference numerals as in FIG.
-3 output.

3-4 is a discharge resistor connected in series to the cand side of the gate turn-off thyristor 3-3. The gate turn-off thyristor 3-1 is configured to be controlled by a controller section (not shown).

Next, the operation of the embodiment shown in FIG. 2 will be explained.

Since the operations of the corresponding parts having the same reference numerals as those in FIG. 1 are completely unchanged, their explanations will be omitted here.

Next, the comparator 1-3 detects which of the input from the variable resistor 4-1 and the input from the variable resistor 1-1 is higher voltage, and the output pulse from the comparator 1-3 turns the gate OFF 7 into the thyristor 3-3. By turning off the switch 3, the discharging operation performed using the discharging resistor 3-4 to match the voltage of the capacitances 2-1 to 2-n with the set voltage is optimized.

By discharging using the discharge resistor 3-4, the flash lamp 3-2 is not consumed during voltage setting, so the life of the flash lamp 3-2 can be extended.

〔Effect of the invention〕

As explained above, the present invention is a circuit that uses a comparator to charge or discharge only the difference between the current charging voltage of the capacitor and the set voltage, and controls the switch of the gate turn-off thyristor with the output pulse of the comparator. Particularly advantageous is that when adjusting the capacitance voltage to the set voltage, only a minimum discharge is required.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the solid-state pulsed laser output multi-stage switching circuit according to the present invention, FIG. 2 is a circuit diagram showing another embodiment of the present invention, and tlc3 is a conventional charging voltage setting circuit. It is a circuit diagram showing an example. 1●●●● Converter part, 1-1 ●●●● Variable resistor, 1-2 ...Fixed resistor, 1-3 ●●. Comparator, 2●. ●． Capacitor bank section, 2-1~2
-n ●●●●Capacitance, 3●●●●Discharge L3
-1 ●●●● Gate turn-off thyristor, 3-
2 ●●●・Flash gimp, 3-3 ●●◆●gate turn-off sirisk, 3-4...Discharge resistance, 4-1...Variable resistance, 4-2 ●●...Fixed resistance. 1 Figure 2 Figure 3

Claims (1)

[Claims] A laser power supply includes a reference voltage source created by a set voltage, a voltage detection section that detects the charging voltage of the capacitance, a comparator that compares the voltage from the voltage detection section with the voltage from the reference voltage source, and the comparator. A solid-state pulsed laser output multi-stage switching circuit characterized by having a discharge section controlled by the output so as to be able to change the voltage.