SU531140A1 - DC voltage regulator with continuous regulation - Google Patents

Description

The invention relates to the field of electrical engineering and can be used in power sources, for example, computing devices. A known DC voltage regulator with continuous regulation, high efficiency, containing N series-connected power sources, regulating and switching transistors, an amplifier, and diodes 1. However, in such a stabilizer with one switching stage, the power losses to regulation remain rather large, and when using several stages the device becomes much more complicated. The most well-known direct-current voltage regulator with continuous regulation contains the main and N additional control transistors, the collectors of which are connected respectively to the main and N additional power sources, and the emitters to one of the output terminals, and a series of N diodes connected between the output of the DC amplifier and the base of the N-ro additional regulating transistor 2. The disadvantages of the known stabilizer are the reduced KPD, which is due to the skipped current by all control transistors, as well as reduced stability and stability of the output voltage, due to the change in the gain in the control unit depending on the mode of operation. The aim of the invention is to increase stability, efficiency. and stability of the output voltage of the stabilizer. This goal is achieved by the fact that the proposed stabilizer is equipped with N locking transistors, one of which is connected by an emitter directly to the base, a base through a two-port network, such as a resistor, to the collector of the main control transistor, the collector to the output of the DC amplifier, the latching transistors are connected by emitters directly to the bases, bases through a two-port network, for example, a resistor, to the collectors of the corresponding N-1 additional control transistors, collectors to the points Dineni diodes serial chain. A functional diagram of a DC voltage regulator with continuous regulation is shown in the drawing.

The stabilizer contains main 1 and additional 2-4 regulating transistors, blocking transistors 5-7, included in the base circuits of transistors 1-3, diodes 8-10, resistors 11-13, DC amplifier 14, connected in series unstable power sources - the main 15 and an additional 16-18.

The stabilizer works as follows. The load current transmits that regulating transistor, on the collector of which there is a minimum voltage relative to the emitter. When the voltage of the sources 15-18 changes, the load current smoothly passes from one control transistor to another.

The transistors 5-7 deplete the base circuits of the respective control transistors when the voltage on the collectors of the latter decreases to zero. At the maximum voltage of the sources 15-18, the load current passes the transistor 1, through which the base current flows from the amplifier 14. The current of the bases of the transistors 2-4 is absent due to the additional resistance of the diodes 8-10 in their center. As the voltage of sources 15-18 decreases, the voltage across the collector of transistor 1 approaches zero, and therefore transistor 5 closes and the current of amplifier 14 now flows into the base of transistor 2, which regulates. With a further decrease in the voltage of the sources 15-18, the functions of the regulator are performed sequentially by the transistors 3 and 4. Thus, the voltage on the regulating transistor cannot exceed the voltage of one of the sources 16-18, which at N control transistors results in a decrease regulation N times compared to conventional continuous stabilizer. In order for the transistor 3 not to be opened by current through the resistor 13, the transistor 7 can be made composite, while the resistance value

13 increases. When using transistors with a small reverse emitter voltage in the circuit, diodes must be installed in the collector circuit of transistors 1-3.

Claims (2)

1. Author's certificate CCCPN 347747, cl. G05f 1/56, 1972. 2. For registration No. 1918921/07, 1973, according to which there is a decision to issue an author's certificate. O + about