SU888308A1 - Push-pull transistorized inverter - Google Patents

Description

(54) TWO-TERM TRANSISTOR INVERTER

Claims (2)

The invention relates to electrical engineering and can be used in power supply and electric drive systems for converting DC voltage to AC voltage of a rectangular shape and double the value by means of transistor inverters. Known two-stroke transistor inverters containing two power transistors and an output transformer ri. The rectangular shape of the output on the yarn is insufficient, due to the influence of inductance and capacitance of the transformer windings. In this respect, a two-stroke transistor inverter, which provides voltage doubling and contains two power transistors and an autotransformer, whose lead from the midpoint of the winding is connected to the first input terminal of the 1.2 J inverter, has somewhat better performance in this respect. to the deviation of the output voltage from the rectangular. The purpose of the invention is to improve the quality of the output rectangular voltage by reducing the duration of the front. The goal is achieved in that each end of the winding of the specified autotransformer is connected to the second input terminal of the inverter through a chain consisting of a series-connected first diode, a power transistor and a second diode, and the connection point of the first diode to the transistor in the same chain is connected a transistor with a second diode and another chain, which is the output terminal of the inverter. The invention is explained in the drawing. The inverter contains an autotransformer 1, the lead from the midpoint of the winding of which is connected to the first input terminal 2. Each end of the autotransformer winding is connected to the second input terminal of the inverter 3 through a chain consisting of a series-connected first diode 4 (5), a power transistor 6 (7) to the second diode 8 (9J. The connection point of elements 4 and 6 of one chain is connected to the connection point of elements 7 and 9 of the other chain through a capacitor 10, and then the connection point of elements 5 and 7 is connected to the connection point of elements 6 and 8 through con Sensor 1I. The connection points of elements 6, 8 and 7, 9 are marked a and b and form the output terminals of the inverter to which the output transformer 12 can be connected. The additional windings of the autotransformer 1 are connected to the input of the corresponding transistor. The inverter works as follows. 11 have a significant capacitance, which, when the inverter operates at a load, provides almost constant voltage to them. If transistor 7 is saturated, the power supply voltage is applied to half of the primary winding of the autotransformer. 1. In this case, additional voltages arise in the windings that create a positive voltage at the base of transistor 7 and negative at the base of transistor 6. Capacitor 1 starts to discharge through the open transistor 7 and the primary winding of the transformer 12. Diode 8 prevents the shorting of capacitor 11. A rectangular voltage is generated at the output. The capacitance value of the capacitor 11 is chosen such that the voltage across it during the formation of the pulse varies slightly. The drawing shows the path of current i passing through the discharge of a capacitor. When the autotransformer is saturated .1 the circuit changes to another state in which transistor 7 is closed and the transistor is open. Now the capacitor 10 begins to discharge and the capacitor 11 is charged. Next, the processes in the inverter are repeated. Between the output pins of the inverter (points a and b form a positive voltage with a very short front, as the internal resistance of transistors and capacitors is very small and has an active character. The amplitude of this voltage is equal to twice the input voltage, if we ignore the value of the voltage drop transistors. Thus, a high quality output voltage is provided. Formula of the invention A push-pull transistor inverter that doubles the voltage and contains two transistor and autotransformer, the lead from the midpoint of the winding of which is connected to the first input of the inverter, characterized in that, in order to improve the quality of the output rectangular voltage by reducing the duration of its fronts, each winding of the specified autotransformer is connected to the second input terminal of the inverter through a chain consisting of a series-connected first diode, a power transistor and a second diode, and the connection point of the first diode with the transistor in the same chain is connected by a black of inputted capacitor transistor compound point to a second diode in the other chain is vshodom decoupling the output of the inverter. Sources of information taken into account in the examination 1. Power sources on semiconductor devices, ed. Soviet Radio, 1969, p. 236, Fig. W, 6a. 2. US patent number 3331008, cl. 321-2, 1969. 12 GP A% A Vylod