SU1180860A1 - High-voltage d.c.voltage stabilizer - Google Patents

Abstract

HIGH STABILIZER PERMANENT NAPR5SHENIYA comprising yreobrazovatel voltage from the output transformer ventilnb condensing rectifier having an input coupled to the secondary winding of the transformer, and output - with terminals for connecting a load and the input voltage divider, adjustable impedance, the input of which is connected to An output voltage divider, characterized in that, in order to increase reliability in operation by reducing the voltage on a regulated impedance, a current stabilizing element is inserted into it and an auxiliary rectifier, and the output transformer of the voltage converter is provided with an additional secondary winding, with a current stabilizing element connected between the terminals for connecting the primary power source and the input of the voltage converter, the input of the auxiliary rectifier is connected with an additional (transformer secondary winding of the transformer, and output - with the output of adjustable impedance.

Description

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o 1 The invention relates to electrical engineering and is intended for use in the implementation of the power supply of high-voltage electrodes of electron-beam tubes and other electronic devices. The aim of the invention is to increase the reliability of operation by lowering the voltage across a controlled impedance. The drawing shows a functional diagram of the proposed high-voltage post-voltage regulator. The device contains a voltage converter 1 with an output transformer 2 having two secondary windings 3 and 4, a valve-capacitor exporter 5, a voltage divider 6, adjustable. The impedance 7, made, for example, by structure, an adjustable transistor comparison unit - supporting element, auxiliary The rectifier 8, the current-stabilizing element 9-, made, for example, in the form of a key current stabilizer. The valve-capacitor rectifier input 5 is connected to the secondary winding 3 of transformer 2, and the output to the terminals for connecting the load and to the input of divider 6 voltage. An adjustable impedance input 7 is connected to the output of the voltage divider 6. The auxiliary rectifier input 8 is connected to the secondary winding .4 of the transformer 2, and the output is connected to the output of adjustable impedance 7. A current stabilizing element 9 is connected between the terminals for connecting the primary power source and the input of the voltage converter 1 - - The device operates as follows This voltage from the primary power source is supplied through the Current Stabilizing Element 9 to the input of the voltage converter 1. On the secondary winding 3 of the transformer 2, a alternating voltage appears, which multiplies to the required value and expresses in a hard-capacitor rectifier 5, after which it is applied to the load. Part of the output voltage Ug through the divider 6 is directed to the input of adjustable impedance 7, 0 When the output voltage Ugj ,, changes, for example, increasing, the adjustable impedance 7 changes downward (opening the adjustable transistor), which causes an increase in current, flowing through the transmitter 8 and the secondary winding 4. The current-stabilizing element 9 maintains a constant current consumption of the transformer 1, which is defined by the relation n const, where if 4 the currents flowing through the windings 3 and 4, respectively; p „5 p - transformation ratios of windings 3 and 4, respectively. An increase in current i causes a redistribution of the voltage between the current stabilizing element 9 and the converter 1. The voltage on the primary winding of the transformer 2 decreases. Such a change leads to the maintenance of a constant output voltage UBHX. As a current stabilizing element 9, any type of DC compensatory stabilizers can be used, and in some cases it is possible to use conventional field-effect transistors included as current-stabilizing bipolar devices to build low-power high-voltage stabilizers. 9 allows you to significantly reduce the ripple of the high voltage Uptix by normalizing the slave process You capacitors Switched-capacitor rectifier 5. A significant reduction in pulsation can also be obtained by applying symmetric multiplication schemes. Allowing the current-stabilizing element 9 as a key current stabilizer improves the device's efficiency, eliminates filter capacitance at the filter output of the current-stabilizing element 9, and also reduces output voltage ripples by normalizing the charging process of the filter capacitors (accumulative capacitors of the valve-capacitor rectifier 5).

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In the proposed high-voltage stabilizer, short circuits and overloads do not create emergency factors and modes, and therefore there is no need for special protection against short circuits and overloads.

. The use of the proposed device provides a reduction of mas808604

and low power high voltage secondary power sources, by eliminating additional isolation transformers and reducing filter capacitors, as well as improving reliability by reducing the operating voltages at a controlled impedance to low safe 10 levels not exceeding 100 V.

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Claims (1)

(54H57) HIGH VOLTAGE STABILIZER OF A DC VOLTAGE, containing a voltage converter with an output transformer, a valve-condenser rectifier, the input of which is connected to the secondary winding of the transformer, and the output is with terminals for connecting the load and with the input of the voltage divider, an adjustable impedance, the input of which is connected to the output of the voltage divider, characterized in that, in order to increase reliability in operation by reducing the voltage at an adjustable impedance, a current-stabilizing element is introduced into it and pomogatelny rectifier, a voltage converter output transformer secondary winding further provided, wherein tokostabiliziruyuschy element connected between the terminals for connecting the primary power supply and the input of the voltage converter, an auxiliary input coupled to the rectifier, with an additional secondary winding of the transformer, and output - with output impedance controlled.