SU750687A1 - Controllable inverter - Google Patents

Description

(54) ADJUSTABLE INVERTER

Claims (2)

The invention relates to a converter technique and is intended to power various apparatus with adjustable or stabilized direct current DC compression. Inverters are known in which the regulation and stabilization of the output voltage occurs due to the supply of a control signal to the basic circuits with an adjustable pause at zero i. In such inverters there are no squared currents, they have high efficiency. Of the known devices, the closest in technical essence to the invention is an inverter containing a preamplifier, having main and additional windings, each core winding being connected at one end to the base terminal of the corresponding power transistor through a limiting resistor. with the emitter of the same transistor, and a resistor 2. A disadvantage of the known inverter is that a voltage transistor that is equal in magnitude to the sum of the control and auxiliary windings and the boosting capacitor is applied to the transfer of an emterter-base of a closed transistor. The maximum permissible reverse voltage for (the transition amitter base of modern power transistors is 4-5V. Therefore, all known transistors cannot be used in this scheme. Bypassing the transitions of transistors by reverse diodes leads to a decrease in inverter efficiency by reducing the magnitude of the blocking power transistors in the proposed adjustable inverter, each additional winding is connected through the limiting element between the emitter and of the new transistor and the connection point of the limiting 75 resistor to the end of the preamplifier output winding.In addition, a resistor or a transistor can be used as a face-up sibling element, the base of the transistor being connected through the resistive divider to the emitter and to the said connection point adjustable inverter circuit, when a resistor is used as a limiting element, fig, 2 is a regulated sverter circuit in the under-bridge variant, when lzovan transistor. An adjustable inverter assembled, for example, according to a bridge circuit, contains power transistors 1-4 with reverse diodes 5-8. The output winding 9 of the preamplifier is switched on in the base circuit of each power transistor. Winding 9 is connected to the base of the power transistor through the scrambler. A capacitor 11 is shunted by a capacitor, and a diode 12 and auxiliary resistor 13 are connected to the emitter through a series-connected resistor. Condenser 11 is used to force resorption of excess media out of the base area when the transistors are locked. Series-connected dopoppitel to the winding 14 with an additional resistor 15, used as a limiting element, are connected between the Connection point of the winding 9 with the limiting resistor 1O and the emitter of the power transistor. Winding 9 and 14 are wound on the common core of the transformer 16. Load 17 is connected to the secondary winding of the output transformer 18. The preamplifier powers the signals produced by the control system and feeds them to the basic power transistors. The control signals have an adjustable zero-pause control system. Let an EMF of a positive sign be induced at the ends of the windings, indicated by a dot. In this case, the transistors 2 and 3 will be opened by a sum of FLOATS, flowing through the circuits: the end of the winding 9, indicated by a point, the resistor 1O, the transition base-emitter, diode 12, the resistor 13, the second end of the winding 9 ,,; the end of the winding 14, indicated by a dot, the resistor 15, the resistor Yu, the base-emitter junction, the second end of the winding 1 4 For limiting the currents: flowing through the windings 9 and 14, the auxiliary 13 and additional 15 EHs are included. The capacitor 11 in the base opi of the transistors 2 and 3 is charged with the polarity shown in Fig. 1. Transistors c 4 at this time are locked by the amount of eg; windings 14 and capacitors 11. The magnitude of the blocking voltage is selected by an appropriate choice of the number of turns of the winding 14. The capacitance of the capacitor 11 is chosen so that the variable component of the voltage on the ladies is insignificant. The coil 9 in the base circuits of the transistors I and 4 is blocked by diodes 12 and does not interfere with the operation of transistors 1, 4. During the pause of the control voltage, transistors 1 and 4 remain locked by the voltage of the capacitors 11 applied to the junctions emitter base through the winding 14. Transistors 2 and 3 at this time will be forced to lock up directly; capacitors 11. The dissipation current is limited in this case by the active resistances of the resistor 15 and the winding 14, while the necessary switching time of the transistors is achieved and the dynamic losses in them are reduced. In the next loop period, after the polarity of the control voltage is changed, the transistors 2 and 3 remain locked under the action of the sum of the voltages of the windings 14 and the residual voltage on the capacitors 11, and the transistors 1 and 4 open. In the future, the processes are cured as described above. Figure 2 shows a regulated inverter circuit in a half-bridge variant, when a transistor 19 with a divider on resistors 13 and 20 is used as a limiting element. The circuit operates as described above with the only difference being that when the control signal decreases on windings 9 to the zero (corresponds to the pause in the control signal) transistor 19 will reset for the dissolution time of minority carriers in the power transistor by the current flowing through the circuit: plus capacitor 10, additional 1 resistor 13, base-emitter junction ranzistora 12, an additional winding 14, switching power transistor emitterbaza 3 to tsensatora minus 1O. After unlocking the transistor 12, the resorption current of the minority carriers of the power transistor 3 is limited only by the resistance of the open transistor 12 and the active resistance of the loop of the plug winding 14. Therefore, the transistor 3 is forcibly locked. The power transistor 4 at this time remains locked by the voltage of the capacitor 10. The proposed inverter differs from the known possibility of choosing the necessary amount of blocking voltage of the power transistors, which allows to increase its reliability, while the forced locking of the transistors remains in the circuits. 1. Adjustable inverter containing a preamplifier having main and additional output windings, each main winding being connected at one end to the base terminal of the corresponding power transistor through a limiting resistor bounded by a capacitor, the other end is connected via a diode to the emitter of the same transistor, and a resistor, which is due to the fact that, with a heightened reliability, each additional winding is connected through the limiting epemet between the emitter corresponding to th present power transistor and limiting resistor connecting point with the end of the preamplifier output winding. 2. POP.1 inverter, characterized in that a resistor is used as a limiting element, and an auxiliary resistor is connected between the end of the winding and the diode. 3. Inverter POP.1, characterized in that a transistor is used as a limiting element, the base of which is through a resistive divider connected to the emitter of the power transistor and to said connection point. The source of information taken into account in the examination 1. Devices of secondary power sources REA MDDNTP, 197 6, p. 65. 2. Moin B.C. to Laptev N.K. Stabilized transistor converters. M., Energie, 1972, p. 342, fig. 9-17 d. Primёtshshe: Priority on PP. 1 and 2 shall be calculated from 02.01.78 according to the additional materials filed in application 2405417/07. and the priority under item 3 is to be reckoned from 07.06.78 in accordance with application No. 2624951/07. i: i5 FIG. 2. L