RU2103810C1 - Pulsed radiated power stabilizer of diode laser - Google Patents

Abstract

FIELD: pulse engineering feeding diode lasers in pulsed mode. SUBSTANCE: stabilizer is loaded into diode laser that has laser diode proper functioning as radiation source and photodiode used as radiated power detector, and incorporates transistor switch, feedback component, first diode, threshold shaping unit, control unit, and comparator one of whose inputs is connected to threshold shaping unit output and its other input is connected to first lead of feedback component whose second lead is connected to common power bus. Novelty is that it is provided with integrating RC circuit and second diode; control unit output is connected through first diode to base of transistor whose emitter is connected to common power bus and collector, to laser diode cathode; photodiode anode is connected to first lead of feedback component and that of laser diode, photodiode cathode, and input of threshold shaping unit are connected to power bus; comparator output is connected to input of integrating RC circuit whose output is connected through second diode to output of control unit which is supplied with power from threshold shaping unit output. Control unit is, essentially, multivibrator built around two CMOS 20R-NOT gates with additional buffer gate and current-limiting resistor at output; first gate output is connected to first input of second gate and to first lead of first resistor whose second lead is connected to capacitor and second resistor point of connection; capacitor second lead is connected to second gate output and to remaining inputs of buffer gate; second lead of second resistor is connected to first input of first gate; second gate output is connected via series-connected diode and third resistor to first input of first gate; second inputs of first and second gates are connected to common power bus. Comparator uses CMOS 20R-NOT gate and combined inputs of gate function as its input, its other input being gate power bus. Threshold shaping unit is built around parametric voltage regulator with RC filter. EFFECT: simplified design. 4 cl, 1 dwg

Description

 The invention relates to a pulsed technique and can be used to power diode lasers in a pulsed mode, providing a higher laser efficiency.

 Known transistor switch [1], containing power and control transistors of various types of conductivity, a zener diode, a diode, eight resistors, a comparator, a timing unit (for example, a single-shot) and a current sensor; the collector of the power transistor is connected to the output bus, and the emitter to the first terminal of the first resistor and one terminal of the second resistor, the other terminal of which is connected to the base of the power transistor and through the third resistor to the collector of the control transistor, the base of which is connected to the first terminals of the fourth and fifth resistors, the second terminal of the first resistor is connected to the first terminal of the sixth resistor, the first terminals of the seventh and eighth resistors are respectively connected to a common bus and the first power bus, non-inverting input q of the comparator is connected to the second terminals of the seventh and eighth resistors, and the inverting input is connected to the first terminal of the sixth resistor, the second terminal of which is connected to the first power bus, the output of the comparator through a diode is connected to the input of the timing unit, the output of which is connected to the second terminal of the fourth resistor, emitter the control transistor is connected to the second power bus, the base and emitter of the power transistor are respectively connected through a zener diode and a current sensor to a common bus, the second output of the fifth resistor is connected to running tire.

 The known transistor switch provides a stable amplitude of current pulses in the load when applying the reference frequency to its input bus and with minor changes it can be used to power a diode laser in a pulsed mode, but at the same time questions remain about ensuring the required pulse shape, for example, a rectangular one, and its duration with the active nature of the load.

 The closest in composition of features for the proposed technical solution is a current pulse shaper [2] containing an electronic key, inductive load, feedback element, damping element, comparator, threshold forming unit, a driving unit and a control unit, while the first input of the electronic key is connected with a power source, and the output with the first output of the damping element and the first output of the inductive load, the second output of which is connected to the input of the feedback element, the first output of which is connected with the first input of the comparator and the analog input of the threshold forming unit, and the second output and the second output of the damping element is connected to a common bus, the second input of the comparator is connected to the information output of the threshold forming unit, the digital input of which is connected to the output of the setting unit, while the output of the comparator is connected to the first input of the control unit, the second input of which is connected to the installation output of the threshold formation unit, and the third input - with the control input of the threshold formation unit and the input bus of the device, and in move - to the control of the electronic key entrance.

 The disadvantages of the known pulse shaper are its complexity, as well as the impossibility of generating a pulse of the desired shape and duration under active load, which is a diode laser that is critical to current changes, since it has a very high slope of the dependence of the radiation power on the pump current, and, on the other hand, the working region characteristics is usually close to the range of maximum permissible values and a slight increase in the pump current can lead to failure of the device.

,
где P_ср - средняя мощность излучения.The objective of the invention is to stabilize at a minimum cost the pulsed power (P _im ) of the diode laser radiation, as well as to stabilize the required duration (t _on ) and the period (T _op ) of its inclusion so that when exposed to destabilizing factors (change in source voltage power supply, change in ambient temperature) the condition:

,
where P _cf is the average radiation power.

 In addition, the invention should stabilize the above parameters at a minimum voltage of the power source (3-6 V), since diode lasers are widely used in stand-alone small-sized devices (laser target designators, pointers, etc.).

 The present invention solves the problem, in which in the stabilizer of the pulsed radiation power of a diode laser containing a load in the form of a diode laser, consisting of a radiation source - a laser diode and its radiation power receiver - a photodiode, as well as an electronic key in the form of a transistor, a feedback element, the first diode, a threshold forming unit, a control unit and a comparator, one input of which is connected to the output of the threshold forming unit, and the other input is connected to the first output of the feedback element, second th output of which is connected to a common bus supply.

 What is new is that an integrating RC circuit and a second diode are introduced into it, while the output of the control unit is connected through the first diode to the base of the transistor, the emitter of which is connected to a common power bus, and the collector is connected to the cathode of the laser diode, while the anode of the photodiode is connected with the first output of the feedback element, and the anode of the laser diode, the cathode of the photodiode and the input of the threshold forming unit are connected to the power bus, and the output of the comparator is connected to the input of the integrating RC circuit, the output of which through the second diode is connected to the output of the unit equation, which is powered from the output of the threshold formation unit.

 The control unit is made in the form of a multivibrator on two gates of a 2 OR NOT CMOS structure with an additional buffer gate and a current-limiting resistor at the output, while the output of the first valve is connected to the first input of the second valve and to the first output of the first resistor, the second output of which is connected to a point connecting the capacitor and the second resistor, respectively, the second output of the capacitor is connected to the output of the second valve and to the combined inputs of the valve buffer, and the second output of the second resistor is connected to the first input of Vågå valve, wherein the output of the second valve through a series connection of a diode and a third resistor connected to the first input of the first valve and the second inputs of the first and second valves are connected to a common bus supply.

 The comparator is made on the valve 2 OR NOT a CMOS structure, with one input of the comparator are the combined inputs of the valve, and the other input is the valve power bus.

 The threshold formation unit is made on a parametric voltage stabilizer with an RC filter.

 The drawing shows a circuit diagram of a stabilizer of pulsed radiation power of a diode laser.

 The stabilizer contains a control unit 1, made according to the multivibrator scheme on two logic elements (gates) 2, 3 2 OR NOT a CMOS structure with an additional buffer gate 7 and a current-limiting resistor 10 at the output [3, Fig. 14-14], while the output of the valve 2 is connected to the first input of the valve 3 and to the first output of the resistor 4, the second output of which is connected to the connection point of the capacitor 5 and the resistor 6, respectively, the second output of the capacitor 5 is connected to the output of the valve 3 and to the combined inputs valve-buffer 7, and the second output of resistor 6 is connected to the first input of valve 2, while the output of valve 3 through series-connected diode 8 and resistor 9 is connected to the first input of valve 2, the second inputs of valves 2 and 3 are connected to a common power bus, and gate valve output 7 Through a series-connected current-limiting resistor 10 and a compensating diode 11 is connected to the base of the transistor 12, the emitter of which is connected to a common power bus, and the collector with a load 13 is the cathode of the laser diode, the second output of the load 13 is the anode of the photodiode connected to the first output of the feedback element resistor 14 and with the first input of the comparator 15 - the combined inputs of the valve 2 OR NOT a CMOS structure, the second input of the comparator 15 is its power bus, respectively, the second output of the resistor 14 is connected to a common power bus, and the output of the comparator 15 through a resistor 16 is connected to a capacitor 17 - elements of an integrating RC circuit 18, while the resistor 17 can be shunted by a diode 19, the first output of the capacitor 17 is connected to a common power bus, and its second output through a separation diode 20 is connected to the connection point a current-limiting resistor 10 and a compensating diode 11, while the anodes of the diodes 11 and 20 are combined at one point, the power bus of the valves 2, 3, 7, 15 is connected to the output of the threshold forming unit 21 - a parametric voltage stabilizer on the zener diode 22 and a current-limiting resistor 23, while the zener diode 22 is shunted relative to the common power bus by the capacitor 24, the second output of the current-limiting resistor 23, as well as the anode of the laser diode and the cathode of the load photodiode 13 are connected to the power bus 25, a capacitor 26 is installed between the power buses.

 The device operates as follows.

 The multivibrator 1 generates control pulses of the required frequency and duration, which through the current-limiting resistor 10 and the compensating diode 11 enter the base of the transistor 12, while the duty cycle of the multivibrator 1 is set by the resistor 9 and diode 8.

 The transistor 12 provides pulsed power to the diode laser 13 - a source of coherent radiation.

 A signal proportional to the power of the radiation pulse is generated on the feedback resistor 14 by changing the resistance of the load photodiode 13 and fed to the combined inputs of the comparator valve 15, where it is compared with the internal switching threshold of the valve. The switching threshold of the microcircuit CMOS structure is approximately half the voltage of its power supply Un / 2 and is independent of changes in ambient temperature [3, Fig. 5-6].

 Thus, if the voltage at the feedback resistor 14 is less than the Un / 2 level, then a logic “1” is formed at the output of the comparator valve 15 according to the truth table of the logical gate OR NOT and vice versa, if the voltage at the resistor 14 is more than the Un / 2 level, then at the output of the gate-comparator 15 is formed a logical "0".

 The voltage pulses from the output of the comparator valve 15 are converted by an integrating RC circuit 18 into a constant voltage, the level of which continuously monitors the change in the pulsed radiation power of the diode laser 13 under the influence of destabilizing factors.

 To increase feedback stiffness with a significant duty cycle of the generated pulses, the resistor 16 of the integrating RC circuit 18 can be shunted by the diode 19.

 The voltage across the capacitor 17 through the isolation diode 20 “cuts off” the control pulses based on the transistor switch 12, while the compensating diode 11 compensates for the voltage drop across the isolation diode 20, and the transistor switch 12 maintains linear stability of the pulsed radiation power of the diode laser 13 when exposed to destabilizing factors.

 The stability of the radiation pulses in their duration and frequency is ensured by the multivibrator 1 due to the stability of the switching threshold of the CMOS structure microcircuits and the power of the multivibrator 1 from the parametric voltage regulator 21.

 When power is applied, the smoothness of the transient response of the stabilizer is ensured by the time constant of the RC filter of the parametric voltage stabilizer 21 (current-limiting resistor 23 and capacitor 24), which is much larger than the time constant of the integrating RC circuit 18.

 The use of the CMOS structure of the K561, 564, 1564 series in the proposed stabilizer of microcircuits makes it possible to stabilize the above parameters in the voltage range (3-6) V, which allows it to be used in stand-alone small-sized devices.

 Thus, the proposed technical solution, with its sufficient simplicity, makes it possible to stabilize the pulsed power, the duration and the period of the diode laser switching on under the influence of destabilizing factors with a minimum voltage of the power source.

Sources of information:
1. USSR author's certificate N 1422393, cl. H 03 K 17/60, 1988.

 2. USSR author's certificate N 1287263, cl. H 03 K 5/08, 1987.

 3. Zeldin EA Digital integrated circuits in information-measuring equipment. L .: Energoatomizdat, 1986.

Claims (4)

 1. The stabilizer of the pulsed radiation power of a diode laser, containing a load in the form of a diode laser, consisting of a radiation source of a laser diode and a receiver of the radiation power of its photodiode, as well as an electronic key in the form of a transistor, feedback element, first diode, threshold generation unit, control unit and a comparator, one input of which is connected to the output of the threshold formation unit, and the other input is connected to the first output of the feedback element, the second output of which is connected to a common power bus, characterized in then an integrating RC circuit and a second diode are introduced into it, while the output of the control unit is connected through the first diode to the base of the transistor, the emitter of which is connected to a common power bus, and the collector is connected to the cathode of the laser diode, while the anode of the photodiode is connected to the first output of the element feedback, and the anode of the laser diode, the cathode of the photodiode and the input of the threshold forming unit are connected to the power bus, and the comparator output is connected to the input of the integrating RC circuit, the output of which through the second diode is connected to the output of the control unit, which is powered from the output of the threshold formation unit.  2. The stabilizer according to claim 1, characterized in that the control unit is made in the form of a multivibrator with two valves 2 OR NOT a CMOS structure with an additional buffer valve and a current-limiting resistor at the output, while the output of the first valve is connected to the first input of the second valve and the first terminal of the first resistor, the second terminal of which is connected to the connection point of the capacitor and the second resistor, respectively, the second terminal of the capacitor is connected to the output of the second valve and with the combined inputs of the valve-buffer, and the second terminal is the first resistor is connected to the first input of the first valve, while the output of the second valve through a series-connected diode and the third resistor is connected to the first input of the first valve, and the second inputs of the first and second valves are connected to a common power bus.  3. The stabilizer according to claim 1, characterized in that the comparator is made on the valve 2 OR NOT a CMOS structure, while one input of the comparator is the combined inputs of the valve, and the other input is the valve power bus.  4. The stabilizer according to claim 1, characterized in that the threshold forming unit is made on a parametric voltage regulator with an RC filter.