SU1483570A2 - Dc voltage transistor converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used in secondary power supply systems. The purpose of the invention is to provide a launch. The converter comprises a three-stage composite transistor 9, controlled by a limiting transistor 13 for unlocking and a shunt transistor 4 for latching. The shunt transistor 4 is controlled, in turn, by means of the control transistor 2. Control overload protection signal is supplied to control input 15. To ensure the start-up, an additional transistor 22 is introduced, the time controlled by the driver circuit of the third capacitor 25 and the resistor 27 connected in series. 1 sludge.

Description

The invention relates to electrical engineering and can be used in secondary power supply systems.

The purpose of the invention is the provision of launch.

The drawing shows a transistor converter.

The converter contains a control input 1, which is the base of the control transistor 2. The collector of the transistor 2 is connected through the first resistor 3 to the base of the shunt transistor 4. In parallel with the base-collector junction of this transistor, a second resistor 5 is connected. The third and fourth resistors 6 and 7, the first capacitor 8, the shunt the fourth resistor 7 is included in the control circuit of a composite transistor 9, consisting, for example, of the terminal and forward-term transistors 10 and 11 of the p-p type and the input transistor ipa 12 ρ-η-ρ type. The resistor 6 is connected to the collector of the limiting transistor 13, the base-emitter junction of which is shunted by the second capacitor 14, and the base is connected to the control input 1-5 to supply a protection signal. The fifth resistor 16 connects the base of the transistor 13 to the positive input terminal 17, a Negative power bus 18 connects the negative · input terminal 19 to the negative output terminal 20. The start node 21 consists of an additional transistor 22, the emitter of which is connected through the sixth resistor 23 to the negative power bus 18 , the collector - with a common connection point of the resistors 6 and 7 and through the seventh resistor 24 - with the first terminals of the third and fourth capacitors 25 and 26. The second terminal of the capacitor 25 is connected through the eighth resistor 27 with ba second transistor 22 and the capacitor 26 - 18 with the negative bus.

The transistor Converter operates as follows.

When the supply voltage is connected to the input terminals 17, 19, this voltage is also supplied to a pulse width modulator (PWM), which generates sequences of positive control pulses at the control input 1 and the initial logic zero signal, which goes into the log signal. 1, control input 15 (PWM is not shown), At this point in time along the circuit: input terminal 17, collector-emitter of the shunt transistor 4, resistor 24, capacitor 25, resistor

27, the input terminal 19, - the current passes to the base of transistor 22, unlocking | this transistor. The open time of the transistor 22 is determined by | the time constant - resistors 24,; 27 and the capacitor 25 - and is selected in And, 2 times the time of the presence of the signal * log. 0 at input 15 of the control.

This ensures reliable unlocking of the composite transistor (9 along the circuit - input terminal 19, resistor; torus 23, transistor 22, resistor 7, .and constant voltage from output terminals 28, 20 is fed through a feedback node (not shown) to a pulse-width modulator, which supports the logic signal 1 '* at the control input 15. The limiting transistor 13 gradually switches to saturation mode (the capacitor 14 is charged through the resistor 16) and the normal pulse mode of the converter is established. Nogo transistor 9 corresponds to the closed state of the bypass transistor 4 and the open state of the driving transistor 2,

I The capacitor 26 is protective and, together with the resistor 24, provides protection for the transistor 22 from false positives (pulses present at the common connection point of the resistors 6 and 7 do not arrive at the base of the transistor 22 and it is in a locked state).

When the converter is overloaded, the potential of the negative bus 18 is supplied to the control input 15 from the pulse-width modulator, which leads to the blocking of the transistor 13 and, accordingly, of the composite transistor 9, and the voltage at the output terminals

28, 20 is set to zero.

Claims (1)

Claim Transistor DC / DC Converter according to ed. St. No. 1417096, characterized in that, in order to ensure start-up, an additional npn-type transistor, sixth, seventh and eighth resistors, third and fourth capacitors are introduced, an additional transistor emitter is connected to the negative power line through the sixth resistor, the collector - to the connection point the first conclusions of the third and fourth resistors and through the seventh resistor to the first outputs of the third and fourth capacitors, and the second output of the third capacitor through the eighth resistor is connected to the base of the additional ranzistora and the second terminal of the capacitor Thu · vert - to the negative Shia th power.