SU686130A1 - Transistorized inverter - Google Patents

Description

(54) TRANSISTOR INVEG THOR

Claims (3)

The invention relates to the field of converter technology and can be used in power supply systems for converting direct current to alternating current. Transistor inverters C1-3 are known, comprising a push-pull power amplifier on two power transistors pax and a master oscillator with an output transformer, the secondary windings of which are connected to the input circuits of the power transistors. To eliminate through currents when switching transistors to input transistor circuits, additional blocking windings are connected through the diode, providing an automatic delay for unlocking the transistor from one arm of the power amplifier during the dissipation of excess carriers in the base of the transistor of the other arm of the power amplifier in l and 2 inverters The auxiliary winding is located on the output transformer of the power amplifier, which causes constructive inconveniences and does not ensure the performance of functions interlock with deep changes in the power supply voltage of the power circuit (power amplifier) of the inverter. In the inverter, each additional winding is located on the output transformer of the master oscillator and is connected at one end to the base of the transistor of one arm and at the other end through a diode to the collector of the transistor of the other arm of the power amplifier. In relation to the secondary winding of the output transformer of the master oscillator, the additional winding in this inverter is connected in series and counter, as a result of which the volume and mass of the transformer of the master oscillator increase. The purpose of the invention is to reduce the weight and size of the inverter. This is achieved by the fact that in the proposed invertor, which contains a push-pull power amplifier on two power transistors and a master oscillator with an output transformer, the secondary windings of which are connected to the input circuits of the power transistors, and the additional windings are connected at one end to the base of the transistor of one arm of the power amplifier and another conductor through the diode with the collector of the transistor of the other arm of the power amplifier, the secondary windings are connected to the input circuits of the power transistors, through the base resistors, and Yelnia winding included in accordance with regard to the secondary winding connected to the base of the same transistor. The drawing is a diagram of the proposed inverter. The inverter contains a push-pull power amplifier in power transistors 1 to 2 and a back-up generator with an output transformer / having secondary windings 3 and 4 and additional windings 5 and 6, connected according to windings 3 and 4, respectively. The winding 5 at one end is connected to the base transistor-ora 1, and the other end through diode 7 to the collector of transistor 2. The winding 6 is connected at one end to the base of transistor 2, and the other end through diode 8 to the collector of transistor 1. The inverter works as follows When the polarity of the voltage on the windings 6, indicated without brackets, the transistor is open and; is saturated, transistor 2 and diodes 7 and 8 are closed, additional windings 5 and 6 do not affect the operation of the power amplifier. When the voltage across the windings 3-6 is changed (diode 8 is shown in parentheses), the diode voltage of the winding 6 is applied to the base-emitter junction of the transistor 2 through the open diode 8. As a result of this, There is a delay in switching on TpaH3HCTqpa 2, continuing until the resorption process of excess carriers in the base of transistor 1 is completed and the voltage on transistor 1 reaches a value close to the voltage of the KB 6. Then diode 8 closes the winding 6 does not affect the base circuit of the transistor 2. A case of changing the polarity of the voltage across the windings 6 (indicated without brackets) leads to the opening of diode 7. The transistor 1 is connected to the basic-emitter junction through the open diode 7 and transiotor 2 is applied Hanps winding 5 despite the unlocking voltage of the winding 3. As a result, there is a delay in switching on the transistor 1, which lasts until the voltage on the transistor 2 e reaches a value close to the voltage of the winding 5. In the future, the diode 7 closesand winding 5 does not turn on the base circuit of transistor 1. Next, the processes are repeated analogously. Due to the indicated inclusion of additional windings 5 and 6 of the master oscillator, only a short current pulse passes through them and they can be made with a small cross-section wire. In addition, in comparison with the prototype, the number of turns of windings 3 and 4 is reduced, since windings 5 and 6 do not enter the base current. As a result, the size and mass of the output transformer of the master oscillator and the entire inverter are reduced. Claims of the invention A transistor inverter containing a push-pull power amplifier with two power transistors and a master oscillator with an output transformer having secondary windings, each of which is connected to the input circuit of the corresponding power transistor, and additional windings, each of which is connected at one end to a power base the transistor of one arm of the power amplifier, and the other end with the collector of the power transistor of the other arm of the power amplifier, characterized in that, in order to reduce the mass The secondary windings are connected to the input circuits of the power transistors through the base resistors, and the secondary windings connected to the base of each given transistor are connected according to each other. Sources of information taken into account in the examination 1. Avt Eskoy certificate of the USSR N9.29O4O7, cl. N OZ F 3/26, 1968 2. USSR author's certificate number ZO5556, cl. N OZ F 3/26, 1969. 3. USSR Author's Certificate No. 18О242, cl. H 02 M 7/48, 1964 (prototype).