SU896727A1 - Transistorized inverter - Google Patents

Description

The invention relates to electrical engineering and can be used in various power supply devices for radio equipment and communications equipment. A static self-exciting converter made on two main transistors and an output transformer with a feedback winding is known, where a resistor is connected to the power supply in series at the input of the converter, and an opposite type transistor is connected between one of the terminals of this resistor and one of these main transistors conduction, the base of which is connected to the intermediate point of the resistive voltage divider connected at the input of the converter in parallel to the circuit n 1. Tani disadvantage of this converter - a low efficiency due to high power dissipation in the resistive voltage divider and a resistor connected in series in the supply circuit. Also known is a transistor inverter containing an output transformer with feedback windings, two main transistors and a starting node containing a transistor of opposite conductivity type and a current electromagnetic relay with open contacts, the winding of which is connected in series to the inverter 2 power supply circuit. The disadvantage of such an inverter is low reliability due to the presence of an electromagnetic relay with mechanical contacts, as well as the lack of consumer protection against undervoltage. The closest to the present invention is a transistor inverter containing a converter cell with a transformer output on power transistors, to the control electrode of one of which is connected a start node containing an inductive-capacitive filter with a resistor 3. However, the known device has low reliability due to the influence of a starting transformer on transistor control circuits and low efficiency due to the large losses in the transistor control circuits. The purpose of the invention is to increase reliability and efficiency.

The goal is achieved by the fact that in the device the inductive filter element is in the form of a throttles, one end of which is connected to said control electrode of the transistor through serially connected input capacitor, discharge diode, threshold element and resistor, and the other end is connected through charge diode to the point of connection of the discharge diode and the starting capacitor.

The drawing shows a schematic diagram of a transistor inverter.

The inverter contains an output transformer 1 with feedback windings, two main transistors 2 and 3, an inductive capacitor filter on a capacitor 4 and a choke 5, a limiting resistor 6, a zener diode 7, a discharge diode 8, a starting capacitor 9, a charging diode 10.

The inverter works as follows.

At the moment the input voltage is turned on, the capacitor 4 is discharged and the voltage on the ne is zero. The entire input voltage is applied to the inductor 5, and the driving capacitor 9 through the charging diode 10 is charged almost to the value of the input voltage.

As the capacitor 4 filter charges, the voltage across choke 5 decreases, and the potential difference between the electrodes of charge diode 10 increases, and when a certain threshold value is reached, set by the zener diode 7, the capacitor 9 begins to discharge through the diode 8, the zener diode 7, the resistor 6, the base of the transistor 3. The transistor 3 opens and further the inverter operates in the self-oscillating mode, with no power loss in the start circuit elements.

A zener diode or a dynistor can be used as a threshold element.

The use of a trigger device in a half bridge inverter eliminates

the filter capacitor 4, since the choke 5 together with the capacitors of the capacitive divider of the half-bridge performs the function of an inductive-capacitive filter.

Thus, in comparison with the known, the proposed inverter has increased reliability, provides protection against undervoltage, and eliminates the possibility of the influence of droplets on the control transistor circuits.

Claims (3)

1.Transistor inverter containing a converter cell with a transformer output on power transistors, to the control transition of one of which the start node is connected, containing an inductive-capacitive filter with a resistor, characterized in that, in order to increase reliability and efficiency, an inductive filter element is made in the form of chokes, one of the ends of which is connected through a series connected input triggering co-sensor, a discharge diode, a threshold element and a resistor, is connected to the control the electrode of the transistor, and the other end is connected through a charging diode to the junction point of the discharge diode and the driving capacitor. 2. The inverter according to claim 1, characterized in that a zener diode is used as the threshold element. 3. The inverter according to claim 1, characterized in that a dynistor is used as the threshold element. Sources of information taken into account in the examination 1. USSR author's certificate number 334623, cl. H 02 M 7/537, 1970. 2. USSR author's certificate number 496642, cl. H 02 M 7/537, 1972. 3.Patent of France No. 1469579 cl. H 03 B, 1966. ( to -about 7 8 fey W five