SU555524A1 - Inverter - Google Patents

Description

(54) INVERTER

Claims (3)

This invention relates to static converters used as secondary power sources in transportation, radio devices in special devices, etc. Known inverters containing a transistor multivibrator with primary and secondary output transformers, the primary and secondary windings of which are connected according to in series. The use of an additional transformer in these circuits makes it possible to exclude large current surges when magnetizing the core of the output transformer. However, in such schemes, the correct distribution of voltages between the windings of the main and auxiliary transformers is possible only when selecting the cores of these transformers. Such a selection limits the choice of core and additional transformer core materials, making it impossible to make these transformers optimal from the point of view of weight-size and energy indices. The purpose of the invention is to simplify the manufacturing technology. This is achieved by the fact that additional windings are connected on the main and auxiliary transformers, connected in series, and the ratio of turns of these additional and primary windings of the main transformer is greater than the ratio of turns of the additional and primary windings of the main transformer. In addition, these windings are interconnected through a limiting resistor and combined with the primary windings of the main and additional transformers. The proposed scheme is shown in the drawing. The circuit consists of a main output transformer 1, transistors 2, 3, to the input of which, through the base resistors, are connected windings 4 and 5 of positive feedback, taken from the main transformer. The primary windings 6 and 7 of the additional transformer 8 are included consistently with the primary windings 9, 10 of the main one. power transformer 1. Secondary windings 11, 12 of these transformers are also connected in a consistent manner. A limiting resistor 13 is connected between the winding 14 of the auxiliary transformer 3 and the winding 15 of the main transformer 1. The circuit operates as follows. From the positive feedback winding 4, the transistor 2 is opened. The voltage of the power supply plus a small reverse voltage on the winding 6 applies to the winding 1O of the main transformer. After the core of the main transformer 1 is magnetized, transistor 2 closes as the positive feedback disappears. During the time the transistor is locked, its collector current remains almost unchanged, since the voltage of the power supply source is applied to the winding 6 of the auxiliary transformer. After the transistor 2 is closed, the transistor 3 opens, and then the circuit operates as described above. Due to the reverse voltage on the winding 6, the core of the transformer 8 is prepared for operation each time anew, which eliminates the possibility of one-side magnetization of the specified core. In general, it is possible to combine additional windings 14 and 15 of additional and main transformers with their primary, secondary or any other windings (shown in dotted lines in the drawing) and use the proposed device to distribute voltages of transformers connected in series not only in transformer multivibrators, but also in synchronized power amplifiers without positive voltage feedback. Claim 1. An inverter comprising a transistor multivibrator with main and auxiliary output transformers, the primary and secondary windings of which are connected in series, in order to simplify the manufacturing technology, on the main and auxiliary transformers introduced additional windings connected in series, and the ratio of turns of these additional and primary windings of the auxiliary transformer is greater than the ratio of turns additionally and the primary winding of the main transformer. 2. The inverter according to claim 1, wherein the windings are interconnected through a limiting resistor. 3. The inverter according to claim 2, that is, with the fact that these windings are combined with the primary windings of the primary and secondary amortizers.