SU734636A1 - Method of pulse stabilizing of dc voltage of two-cycle stabilizer - Google Patents

Description

7, and the magnitude of the DC signal is equal to the amplitude value of the sawtooth signal for a given input voltage voltage. In another cycle, 1 each, of the common conditions, includes the time during which the sawtooth signal is greater than the DC signal, and the value of the DC signal is proportional to the input voltage, and the amplitude of the sawtooth voltage is equal to the current in the first cycle of the stabilizer. FIG. 1 shows a device diagram that implements the proposed method; in fig. 2 - timing diagrams The device contains a power source 1, power semiconductor switches 2 and 3j power transformer 4, choke 5, rectifying diodes 6, 7, 8, capacitor 9, load 1Q of generators 11 and 12 sawtooth voltage, reference voltage source 13 , nullorgans 14 and 15, And 16, 17, 18, 19 cells, trigger 20, which specifies the gene & 21. The time diagrams of FIG. 2, the following notation is used: U is the voltage at the output of the master oscillator} Uj- is the voltage at the output O of the flip-flop 20; UQ is the voltage at output 1 of trigger 20; О g, is the input of the stable emulator on TF and output on the generator 11; U i 2 g generator output voltage 12; Uc is the voltage of the reference brush 13; Uo is the emitter-collector voltage of the power switches 2 and 3; Jf and is the current pulse filling coefficient through the power switches 2 and 3 at different values of Ugx. The generator 11 forms a sawtooth voltage with amplitude directly proportional to the input voltage O p. The signal J is compared to the input of the null organ 15 with an unchanged reference ,,,, 1, voltage of source 13. With a level .. - .. signal, greater than the signal lj / c, the output of the null organ 15 produces a signal allowing the activation of the secondary keys 2, 3. This signal is fed to the inputs of the AND 16, 17 cells. The other inputs of these cells are fed signals and, respectively, from the outputs of the trigger 20, allowing the inclusion of the corresponding power switch. If there are U-jg U (f (Uoi) 4 diffracting signals at the inputs of the cell 16 (17), a signal “al ,, appears on the input of the cell 16 (17), including a power switch 2 (3) о The generator 12 forms a sawtooth with a constant amplitude equal to the reference voltage. ignal (compared at the input of the LES body 14 with a signal proportional to the input voltage K - U, de K is the proportionality coefficient. At the signal level U. | 2 larger than the signal K and g, At the output of the zero-body 14, a signal U is formed, allowing the switching of the power switches 2, 3, This signal is fed to the inputs of the And 18, 19 cells. The other inputs of these cells are given the signals UQ and Uj from the outputs of the trigger 20f enabling the activation of the corresponding key. If the inputs of the cell 18 (19) enable the signals U. and UQI (and, §-) the output of the cell 18 (19) appears a signal that includes a power switch 2 (3). At an input voltage equal to a certain specified value (point irn line in Fig. 2), the amplitude values of the sawtooth voltages U and U are between themselves. Keys 2 and 3 are switched alternately through a half-period, and the voltage at the output of the stabilizers when the primary and secondary turns of the transformer 4 and droplets 5 are equal is U Q, that is, On When the output voltage increases to Ug and the output voltage of the stabilizer Tt. 2 shows that during the formation of sawtooth S1. voltage with an amplitude proportional to the input voltage, JBK L) From which it follows, f Bi.Q.That is the output voltage of the stabilizer does not depend on the input voltage. Decreasing the input voltage to,. ,, The output voltage of the stavJ-av h Ji BXZ bipizator. From the timing diagram, it is seen that when each power switch is turned on, except for the main half-period of its operation, it is additional for the time during which the signal U; fU The tact, over the entire range of input voltage variation from the output voltage of the pulse stabilizer, does not depend on the input biko-OttSt OUT Formulas invented The method of the pulse stabilization of the constant voltage of a two-stroke flock or detector, comparing the signal A sawtooth waveform with a DC signal, one of which is a reference signal, the other a signal proportional to the input voltage and the resulting resultant signal to the operating mode of the power switches, in order to improve the quality of the output voltage stabilization when expanding the control range, each of the power switches 36 in one operation cycle include the time during which the sawtooth signal is less than the DC signal, and the magnitude of the signal is constant direct current equal to the peak value signal at a predetermined shape piloofaznoy velnchi-. non-input voltage, in the other, each of the power switches is turned on for the time during which the pipoo-shaped signal is larger than the direct-current signal, and the magnitude of the direct-current signal is proportional to the input voltage. and the amplitude of the sawtooth voltage is equal to the magnitude of the DC signal in the first step of the operation of the isolator. Sources of information taken into account in the examination of the USSR Copyright Certificate № 541160, cl. G 05 F 1/56, 1975. 2. Collection of Contemporary Problems of Converter Techniques. Part 3, Kiev, GNaukova Dumka, 1975, p. 281,

Claims (1)

Claim The method of pulse stabilization of the constant voltage of a push-pull stabilizer, which consists in comparing a sawtooth waveform with a direct current signal, one of which is a reference signal, the other a signal proportional to the input voltage and the effect of the resulting resulting signal on the mode of operation of the power switches, I distinguish ₂₀ with the fact that, in order to improve the quality of stabilization of the output voltage while expanding the control range, each of the power switches in one clock cycle including They are used for a time during which the sawtooth waveform is smaller than the direct current signal, and the constant current signal is equal to the amplitude value of the sawtooth waveform for a given input voltage, at a different clock cycle, each of the power switches is turned on for a time during which the sawtooth waveform is longer DC signal, and the magnitude of the DC signal is proportional to the input voltage, and the amplitude of the sawtooth voltage is equal to the magnitude of the DC signal in the first cycle p bots stabilizer.