SU1001360A2 - Controllable stepdown converter - Google Patents

Description

(54) ADJUSTABLE DOWNTOWN CONVERTER

The invention relates to electrical engineering and can be used in the transformer-type power supply sources of electronic devices. According to the main author. St. No. 571860 is known for an adjustable step-down converter containing VI connected in parallel to the output pins of a chain consisting of a series connection. discharge diode, capacitor and bit switch, Vl-1 of charge cyo-ases connecting the opposite terminals of adjacent-capacitor capacitors, a charge switch connecting the discharge diode to the capacitor of the first chain with the input terminal and 2 directed from the pulse generator, parallel to the bit diodes | gi of successive chains, where the ratio Hi / I determines the depth of the regulation, controllable regulating elements are included, and the quality (of the spreading keys and using the transistors) is blocked in each collector circuit The diode., The disadvantage of this converter lies in a limited control range. The purpose of the invention is to increase the control range. This goal is achieved by the fact that the number of adjustable chains in the regulated downconverter is equal to one, and the regulating element of this chain is connected through a pulse generator the control electrode of the charging switch. The regulating element can be made on the transistor, in the power circuit. the switched-on diode is turned on, and the charge-key control electrode is connected to the common connection of the indicated diode and trazistor. The drawing shows a printable Galvan scheme of an adjustable step-down cowg converter operating in the mode of stabilizing the voltage.

The converter contains Vl chains (three chains are shown in the drawing), consisting of series-connected discharge diodes 1-3, capacitors 4-6 in bit switches 7-9, All chains are connected in parallel to the initial output 1O and 11 of the load 12. Output 11 is common to the load 12 and the connection of the power source 13. The input of the charge switch (Transmitter emitter) is connected to another output of the power supply connection.

The collector key 14 is connected to the capacitor 4 of the first chain. Diodes 15D7 connect the opposite terminals of the capacitors 4-6 of the chains and the common output of the Converter 11, the Regulatory element (transistor) 18 is connected by one power output (collector) to the common output 11, and the second (emitter) is connected via the isolating diode 19c to the capacitor 5 and diode 2 penultimate chain. A DC amplifier output 2 is connected to the controlling input element 18 (to the transistor base), the input source of a reference voltage (Zener diode) and measuring unit 21 and output terminals U and 11 are connected to the input of the pulse generator 22 via the control resistor. the control electrode of the charging switch 14 is connected to the output of the regulating element 18.

The converter works as follows ..

The pulse generator switches the key element 22 associated with the charging key 14 and the bit switches 7-9 in antiphase. When the key element 22 is closed, the capacitors charge 4-6 do. voltage determined by the conductivity of the regulating element - the transistor 18, and consequently, in the conductivity of the charging switch 14. In the state of the greatest conductivity of the transistor 18, the capacitors 4 and 5 are charged before

,

where E is the voltage of the power source.

As the conductivity of transistor 18 decreases, the conductivity of charge switch 14 also decreases. As a result, this part of the input voltage drops on key 14, and the rest is distributed between capacitors 46. In this case, the voltage on the capacitor 6 is determined by the conductivity.

0 of the resistor 18. When the device operates in the stabilization mode, the input voltage level is set by the regulating resistor of the measuring organ 21. When the output voltage increases, the measuring element 21, acting on the DC amplifier 20, reduces its output current resulting in an increase in the drop on the transistor 18, which leads to an increase in voltage

0 to a capacitor 6 and an increase in the voltage drop on the key 14. This also compensates for the increment of the output voltage. When the output voltage decreases in the circuit, reverse processes occur.

Compared with the proposed prototype, a device containing the same number of capacitor capacitances has a large control range.

Claims (2)

1. Adjustable lowering contour according to ed. St. No. 57186O, characterized in that, for the purpose of 5 increases the range of adjustment, the number of adjustable chains is one, and the regulating element of the specified chain is connected via a pulse generator to the control electrode; 0 key. 2. The converter according to claim 1, of which is that the regulating element is made on the transistor, the power circuit of which includes a discharging diode, and the control electrode of the charging switch is connected the junction point of the indicated diode and trazotor. Information sources, 0 taken into account in the examination 1. Copyright certificate № 571860, cl. H 02 M 3/18, 1976.,