SU993223A1 - Stabilizer regulating element - Google Patents

Description

The invention relates to the field of industrial electronics and can be used in power supply devices of various electronic equipment of special and advanced use.

- A regulator regulating element is known, containing an integral transistor on the main transistor by an emitter connected to the output, a collector to the power supply, and a base to the matching transistor 1.

However, in this regulating element, the main transistor always operates in the active mode and, therefore, when operating in pulsed mode, the losses increase.

The closest technical solution to the proposed is a regulating element of a stabilizer containing a composite transistor of n main transistors, the emitters of which are connected together and connected to the code, the collectors are connected to n separate power sources, and the bases are connected via resistors to the matching transistor -And source 2.

However, when operating in pulsed mode, the base of the main transistor does not

a locking pulse comes in and therefore the main transistor closes later, and this increases the loss and closing time of the regulating element.

The purpose of the invention is to reduce the lock-in time and losses during the impulse operation.

The goal is achieved by the fact that in the regulating element of the stabilizer containing a matching transistor and n main transistors, the emitters of which are connected together and connected to the output terminal, the collector of each transistor is connected to the corresponding one from n power sources, and the bases are connected through resistors to the output of the matching transistor, the input connected to the (n + 1) -th source, the matching transistor is connected to the (n + 1) -th power source through the primary winding of an additional transformer containing n second cing windings, each of which is connected via a diode in bazoemitternomu transition corresponding main transistor, etc. than parallel bazoemitternomu transition of each primary transistor is a diode. The drawing shows a schematic diagram of the regulator element stabilizer. The regulator element of the stabilizer contains two main transistors 1 and 2, the emitters of which are connected together and connected to the output, the collectors are connected to the corresponding (input terminals, and the bases through the resistor 3 and 4 are connected to the collector of the matching transistor 5 connected by the emitter through the primary winding of the additional transformer 6 to the corresponding input terminal. Transformer 6 contains two secondary circuits, which are connected via diodes 7 and 8 to the base-emitter junctions of the main transistors 1 and 2, parallel which are connected diodes 9 and 10 and parallel to the base-emitter junction of the matching transistor 5.Connected a resistor I. The regulating element functions as follows: In transformer b, when the matching transistor 5 is closed, due to a sharp decrease in current in the primary winding, an opposite voltage appears in the primary windings which through diodes 7 and 8 is applied to the base-emitter junctions of the main transistors 1 and 2 and contributes to the rapid closure of the latter. When the matching transistor is open, the current flows through the primary shell of the transformer 6, and the diodes 7 and 8 disconnect the basic circuits of the main transistors 1 and 2, as a result of which the transformer 6 operates as an energy storage choke, which is then used to quickly close the main transistors 1 and 2. Diodes 9 and 10 are used to limit the reverse voltage at the emitter junction, which may exceed what is allowed when closing the main transistors 1 and 2.

When the regulating element is closed, the dissipation power at the collector of the main transistors of Russia is equal to

p - E to 3 kn bf 6 T

where E is the voltage at the collector junction of the closed main transistor;

E n is the current passing through the main transistor in the saturation mode; t is the duration of the closing front of the main transistor; T is the switching period. Let the power Pjj), tq, be in the well-known, and P, t be in the proposed pef 0.2

the losses in the regulator element of the stabilizer when it is closed decrease, and the greater the blocking current, the shorter the closing time will be.

The use of the proposed regulating element of the stabilizer of the explorer when operating in an impulse of; 1 is the primary element, and E, j and T are the ravdl of both cases, then Ch. Ch. how many times the duration of the front closing t in the proposed regulating element is less than in the old one, and the number of losses is as many times less. In the known regulator element of the bilizer, when it is closed, the current s of the main transistor 1 is equal to zero and in this case the length of the closing front is equal to -bH t is the constant carrier lifetime in the base; 6fr of the base transistor at which the transistor enters saturation mode; E5, is the locking base current. If, for determining the duration of an nta, to accept „„ О, we obtain 5m. i - -Q- g. infinity, so we take f, i the front finishes when the base current reaches 5% of, then we get, SH- ° SH, 0.95-g; gs-xzs In the proposed regulating element, we obtain a strong locking signal condition, i.e. front intensity is equal to p - the transfer coefficient of the base current of the main transistor;

reduce the time it is locked, and therefore reduce losses.

Claims (2)

1. USSR author's certificate number 371572, cl. G 05 F 1/56, 1971. 2.Gorbach A.V. Ways to increase the output power of stabilized power supplies. Sat Semiconductor devices in the technique of electric communication. Edited by; N.F.Nikolaevskogo. M., Connection 1974, no. 13, p. 50. "51-0