SU669458A1 - Pulsed dc voltage converter - Google Patents

Description

(54) PULSE CONSTANT VOLTAGE CONVERTER

 . f-tristors 2, 3, and 4, 5 switch capacitor 6 is turned on. Choke 7 is connected between the input terminal of the converter and the connection point of thyristors 2, 4. A chain from diode 8 and storage capacitor 9 is connected to the additional winding of the chokes 4, the plates of which are connected to output pins of the converter for connecting the load 10. In the steady state mode, the device operates as follows. At some point in time, the enable pulses are applied to the thyristors 3, 5, as a result of which they are turned on, and an oscillatory recharge of the switching capacitor along the contour occurs: power supply 1, throttle 7, thyristor 5, capacitor 6, thyristor 3. At the same time recharge to amplitude voltage WE, where E is the power supply voltage. However, when the voltage on the capacitor 6 reaches the level E + U, where U is the voltage on the capacitor 9, diode 8 turns on, and the charge of capacitor 6 stops, thyristors 3 and 5 turn off, and the throttle current 7 closes in the loop: choke 7 , diode 8, storage capacitor 9. At the same time, the current impulse from droplets 7 enters the storage capacitor 9. At time tj, the trigger pulses are applied to the thyristors 2, 4, they turn on and the capacitor 6 recharges around the circuit: thyristor 4, choke 7 , thyristor 2. Switching capacitor 6 strives to be recharged to an amylplucose value of WE-U. However, when the voltage on the capacitor 6 reaches the level and the diode 8 turns on, the further recharging of the capacitor stops and the thyristors 2, 4 turn off. In the future, the current flows through the circuit: choke 7, diode 8, capacitor 9, and at some point drops to zero.

Claims (2)

4 Thus, in one period of operation of the circuit, a current pulse is supplied twice to the storage capacitor 9. By adjusting the frequency of the control pulses, it is possible to regulate the current entering the storage capacitor, and thus the voltage across the load. The load voltage can be either lower than power supply 1 or higher. In this case, the variable voltage across the capacitor is equal to U + -2- at the E + U choke. Claim 1: A pulse voltage converter containing two strings of two series-connected thyristors each, the junction points of which are connected to the plates of the switching capacitor one of the chains is connected to the input terminals of the converter through a choke connected to the chain of a series-connected diode and a storage capacitor, the plates of which are connected to the output Water transducer, characterized in that, in order to expand the range of controlling the output voltage, the second chain is connected at one end to the junction of the first chain with a choke and the other end - to the point of connection to the input terminal of choke converter. 2. Converter by. Claim 1, characterized in that, in order to provide galvanic isolation of the load circuit and the power source, as well as to match the level of the input and output voltages, a chain of a series-connected diode and a storage capacitor is connected to the additionally introduced throttle winding.