SU798764A1 - Pulsed converter-stabilizer - Google Patents

Description

Ovnositsya's invention is in electrical engineering and L-devices for power supply of apparatus of wide application can be used. A pulsed stabilizer-converter is known that contains a pulsed voltage regulator connected by an output to the input of a voltage converter, with the first additional output voltage transformer connected to the feedback input, and the second additional winding to the synchronization input of the pulse voltage regulator ij. . The disadvantages of this device are the reduced stability of the output voltage, small suppression of input noise, insufficiently high efficiency due to large losses in the voltage converter. The closest to the proposed technical entity is a stabilizer-converter, containing a pulse voltage regulator connected by an input to the input terminals, and an output to the input of a voltage converter, the output of which is connected to the output terminals Sh, the feedback output of the converter is connected to the feedback input of the pulse voltage regulator, and the driver (| 2. The disadvantages of this device are the reduced stability of the output voltage and low suppression of the input noise. Invention is an increase in output voltage stability and an input noise suppression ratio. The goal is achieved by connecting the driver input to the input of a pulse voltage regulator, and its two anti-phase outputs to the input of the voltage converter synchronization, while the driver can be made in the form of a frequency divider.The drawing shows a block diagram of a switching regulator-converter, - A switching converter-converter contains a pulse ny controller 1 voltage input connected to the input terminals, and output to the input transducer 2 nasch voltage, the output of which is connected to the output terminals, wherein the communication feedback output voltage of the inverter 2 is coupled to the input of the feedback controller tot .l

I pa 1 voltage, and the driver 3, whose input is connected to the auxiliary output of the pulse regulator 1, and its two anti-phase outputs to the two synchronization outputs of the voltage converter 2. The pulse stabilizer-converter works as follows, i When connecting the voltage to the input terminals on. The output of the pulse voltage regulator 1 is a voltage that is applied to the input of the voltage converter 2. Pulse voltage regulator 1 operates in self-oscillatory mode without external synchronization. Simultaneously with the additional output of the pulse voltage regulator 1, a signal arrives at shaper 3, which at its outputs scans two rectangular, antiphase signals with a duty cycle and a frequency two times lower than the frequency of self-oscillations of the pulse voltage regulator 1. These signals are sent to the additional synchronization inputs of the voltage converter 2 and control its operation. The voltage converter 2 thus operates at a frequency twice as low as the frequency of the voltage regulator. This frequency is strictly synchronized with the driving frequency of the self-oscillations of the pulse voltage regulator. As soon as the voltage converter 2 begins to work, at the output of the feedback of the latter a corresponding signal appears, affecting the pulse voltage regulator and outputting the entire system (pulse regulator

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Claims (2)

798764 voltage) to the stabilization mode of the output voltage of the device. Claim 1: A switching regulator with a voltage regulator connected by an input to the input terminals, and an output to the input of a voltage converter whose output is connected to the output terminals, and the feedback output of the voltage converter connected to the feedback input of a pulse voltage regulator, and a driver, characterized in that, in order to increase the stability of the output voltage and the input noise suppression ratio, the driver input is connected to the input the output of the pulse voltage regulator, and its two antiphase outputs, to the two input clock inputs of the voltage converter. 2. Stabilizer-converter according to claim 1, characterized in that the driver is made in the view frequency divider. Sources of information taken into account in the examination 1. The author's certificate of the USSR I 329634, cl. H 02 Th 3/24, 1972. 2. Mikhailov, E.E. DC Voltage Converter with Key Stabilizer - Semiconductor devices in telecommunications technology, ed. I. F. Nikolaevsky, vol. 12, Holy Day, 1973, p. 9-22. i / yd Bnadf flon. be pod Ivy