SU603965A1 - Pulsed dc voltage stabilizer - Google Patents

Description

(54) IMPULSE PERMANENT STABILIZER

Claims (3)

Power supply voltage, the stabilizer is supplied with parallel connected and connected between the second end of the primary winding of the saturating transformer and the other output of the reference voltage source with a resistor and a reverse biased diode, the connection point of which through the emitter-base junction of the additionally inserted transistor is connected to the positive output of the output smoothing LCD capacitor filter, and the transition emitter-collector of the specified transistor through the additionally introduced series-connected resistor and the diode in the forward bias is connected to the additional winding of the saturable transformer. The drawing shows the principal electrical circuit of the proposed DC voltage regulator. The stabilizer contains a regulating transistor 1, CH1 connected to the output smoothing LCD filter 2, 3, 4, the common point of which is connected to the primary winding 5 of the saturable transformer 6, and the base of the regulating transistor 1 through the secondary winding 7 is connected to the midpoint of the chain consisting of a diode 8 and the resistor 9, and the voltage source 10. The stabilizer is provided with a resistor 11 and a diode 12 connected between the second end of the primary winding 5 and the other output of the voltage source 10, the connection point through which A transistor 13 is injected in turn connected to a capacitor 3, and the emitter-collector junction of the specified transistor 13 is through an additionally inserted resistor 14 and a diode 15 is connected to the auxiliary winding 16 of the saturating transformer 6. The switching voltage regulator operates as follows. When voltage is applied to the input terminals 1, the control transistor 1 is in the open state and is held in this state until the core of the transformer 6 is saturated. The core of the transformer is reversed in the opposite direction under the action of the voltage of the voltage source 10 which is applied to the primary winding 5 through diodes 12 and 4. The voltage drop across resistor 11 is determined by the amount of current flowing in the primary winding 5 of the saturating transformer 6, which depends on the amount of current flowing through collector-emitter circuit of transistor 13, resistor 14, diode 15 and additional winding 1-6. When the output voltage deviates from the value of the source 10 of the reference voltage, the transistor 13 opens, causing an increase in the current in the primary winding 5. As a result, the voltage on the resistor 11 increases and the pulse filling factor increases, causing an increase in the output voltage of the stabilizer. Claims of the Inverter DC Voltage Stabilizer, containing a control transistor connected in series to the output pitch, connected to an output smoothing LCD filter, the common point of which is connected to one end of the primary winding of the saturable transformer, and the base of the regulating transistor through the secondary winding of the saturable transformer to the middle point connected in parallel to the input terminals of the chain, consisting of a series-connected diode and resistor, and a source Voltage, one output connected to the total stabilizer, characterized in that, in order to increase the accuracy of stabilization, the stabilizer is supplied in parallel connected and connected between the second end of the primary winding of the saturating transformer and the other output of the reference voltage source, a resistor and a reverse biased diode, point whose connections through the emitter-base junction of the additionally inserted transistor are connected to the positive terminal of an output smoothing LCD filter capacitor, and the transition d the emitter-collector of the specified transistor through the additionally introduced series-connected resistor and the diode in forward bias is connected to the additional winding of the saturable trans-; formatter. Sources of information taken into account in the examination: 1. USSR Author's Certificate No. 288064, cl. G 05 F 1/56, 1970. 2. USSR author's certificate number 513446, cl. G 05 F 1/56, 1976. 3.Moin V.S. and Lante N.N. Stabilized transistor converters. M., “Energy, p. 295, fig. 8 - 18a.