SU521651A2 - Energy Output Stabilizer Generator - Google Patents

Description

(.54) ENERGY STABILIZER OF OUTPUT PULSES

Claims (1)

The GENERATOR of the device is connected to an additional input of the adder. FIG. 1 shows a structural electrical circuit of the device; in fig. Figure 2 shows the voltage plots of the main points of the circuit. The power stabilizer of the output pulses of the generator consists of a power charge of a series 1 circuit and a control system 2, the generator is powered from a constant voltage source 3. A pulse on the load 4 is connected to the output discharge circuit of the generator. The power circuit of the generator includes a charge electronic switch consisting of a charge thyristor 5, a switching thyristor 7 and a switching capacitor 6; charge L C - circuit, consisting of charge throttle 8, storage capacitor 9 and discharge (reverse) diode 10; and a discharge electronic switch consisting of a discharge thyristor 11, the control system controls the operation of the power charging and discharge circuits of the generator. It consists of a matching feedback transformer 12, which is connected to the input of integrator 13. This integrator converts the voltage of the charge droplet into a voltage proportional to the current of the LC circuit. The output of this integrator is connected to the input of the second integrator 14. The second integrator converts the signal of the charging current L С - circuit B signal proportional to the voltage of the capacitive storage device. The output of the integrators is connected to the corresponding inputs of quadratic current and voltage amplifiers 15, the bivine signals of which are proportional to the magnetic energy of the charge throttle and the electrical energy of the capacitive storage, respectively. The outputs of the square current and voltage amplifiers are connected to the inputs of the adder 17, at the output of which a signal proportional to the energy L c is formed. The output of the adder is connected to one input of a comparison device 18, to another its input is supplied a reference voltage, which is proportional to a given energy of the L C circuit. The output of the comparison device is connected to the control electrode of the switching thyristor. The operation of the charge and discharge thyristors is controlled by a master oscillator 19, the output of which is connected to the control electrodes of these thyristors. To compensate for the loss of electrical energy of the storage capacitor during the pause in the operation of the charge and discharge generator circuit, a multiplier device 20 is connected between the input and output of the adder, and the feedback signal from the output of the adder is fed to the input of the multiplying device with voltage divider 21, Other the input of the multiplying device is connected to the control input of the master oscillator. The energy stabilizer, the output pulses of the generator operates as follows. The impulse of the master oscillator 19 starts charging thyristor 5. This starts the oscillating charge of storage capacitor 9 through the charging choke 8 from a constant voltage source 3. At the moment when a given level of energy in the charge LC reaches a given level, the switching device starts up thyristor 7. As a result of the switching of the switching thyristor, the pre-charged switching capacitor 6 is recharged through the LC circuit and the power source. When the de-coupling capacitor is recharged, the charge thyristor 5 is locked, since the negative voltage of the switching capacitor relative to the cathode acts on its anode. At the moment when the voltage on the switching capacitor changes its polarity and is equal in magnitude to the voltage of the power source, the discharge (reverse) diode 1O opens and the magnetic energy of the droplets 8 is pumped to the storage capacitor 9. the discharge thyristor 11 is turned off by the pulse of the master oscillator 19. Unlocking this thyristor causes the storage capacitor to discharge 4. Next, the processes in the main circuit of the high-power pulse generator are repeated rus. The operation of the stabilizer control system is based on converting the voltage of the charge droplet into a voltage proportional to the energy of the charge L C circuit. The integration of the charge droplet voltage is carried out by the integrator 13, and the integration of the charge droplet current is implemented by the integrator 14. From the integrator 13 output, the voltage proportional to the charging current of the LC circuit is fed to the input of the quadratic amplifier 15. From the output of the integrator 14, the voltage proportional to the voltage on the capacitor 9, is fed to the input of the second quadratic amplifier 16. From the outputs of the quadratic amplifiers 15 and 16, the voltage proportional to the energy of the arc throttle and the capacitor is fed to the input of the adder 17 and n its output voltage is produced which is proportional to the energy stored in L C - circuit. This voltage is used to control the commutation thyristor 7 by means of a comparison device 18, which is triggered when the output voltage of the adder and the reference voltage are equal. When changing the frequency of the discharge of the storage capacitor 9 in the operation of the high-power pulse generator, pauses may occur, during which the storage capacitor must be in a charged state. In this case, depending on the interval of pause, this capacitor will discharge along the circuits of leakage currents through the thyristors and through the circuits of equalizing resistive chains of charge and discharge thyristors. The energy correction voltage of the storage capacitor, introduced by means of an additional feedback to eliminate the effect of the storage capacitor depending on the pause of the charging state of the storage capacitor, is produced by the multiplying device 2O. For this, the output from the adder 17 receives a signal proportional to the energy of the capacitor which, through a voltage divider 21, is fed to the input of the multiplying device 20. The charging state of the storage capacitor 9 is related to the frequency of its discharge, therefore the second input of the multiplying device The input of the master oscillator 19 is supplied with a voltage that is proportional to the frequency of the accumulator discharge. The output voltage of the multiplier device, which is proportional to the energy of the losses during the subcontraction of the capacitor, is supplied as a negative feedback signal to the auxiliary input of the multiplying device. Plots of FIG. 2 are shown for two characteristic frequencies of the discharge pulses. The O. diagram shows the voltage on the storage capacitor in the case of a multiplying device (flat line) and in its absence (dotted line); Figure 5 shows the current of a charging LC circuit; The plot in shown the output signal of the multiplying device. The proposed energy stabilizer of the output pulses of the generator is most preferable to use in cases where the pulse repetition rate is variable, and the storage capacitor must be in the charged state in the laser discharge power supply devices with an increased pulse frequency according to the operating conditions. Claims of Invention Energy Generator Output Stabilizer Generator auth.St. No. 410522, which is distinguished by the fact that, in order to increase the allowable limits for changing the output pulse frequency, it additionally contains a multiplying device and a voltage divider, the voltage divider being connected at the output of the adder, the output of the voltage divider connected to the first input of the multiplying device, the second input of the multiplying device is connected to the control input of the master oscillator, and the output of the multiplying device is connected to the additional input of the adder. YY-, 1ZHGG g / g / v -f