SU964930A1 - Stabilized transistorized inverter - Google Patents

Description

..;;..one . The invention relates to electrical engineering and can be used in inverters that convert a constant voltage to an alternating voltage. Lime inverters containing final and intermediate amplifiers, in which the intermediate amplifier power supply circuit is connected to the output of an auxiliary voltage source XO. The disadvantage of this device is a BTO that the control current of the power transistors of the terminal amplifier depends on the input voltage of the inverter. This leads to a decrease in efficiency and reliability due to the deep saturation of the transistors at high inverter input voltages. . -. The closest in technical essence to the present invention is an inverter containing an auxiliary voltage source and a rectifier connected to the output of the transfer in the power supply circuit of the intermediate amplifiers research institute (the current matrix, the primary of which is connected The final amplifier 2j. The disadvantage of the 31TH inverter is that the voltage source i is connected through an isolation resistor, in which considerable power is dissipated. The purpose of the invention is to increase the efficiency and stability of the output Voltage. This goal is achieved by the fact that in the inverter the output of the indicated rectifier is shunted by a smoothing filter, connected in series with the output of the specified auxiliary voltage source and forms together with it a power supply circuit of the intermediate amplifiers, and the reference voltage element source through the current supply element and to the power supply circuit of intermediate amplifiers through the second current supply element, for example, a resistor.

The drawing shows the principle of the inverter circuit.

The inverter contains an auxiliary source 1 of stable voltage and an additional source 2 consisting of a current transformer 3, the primary winding of which is connected in series with the primary winding coil transformer k of the terminal amplifier 5 and the secondary winding is connected to the rectifier 6 and the filter 7. The outputs of the sources 1 and 2 are connected in series and together form a source of voltage dependent load current, having output terminals 8 and 9. The inverter control system consists of a reference voltage node 10 with a stabilizer. pitch 11, intermediate amplifiers 12 and 13 / the power terminals of which are connected to leads 8 and 9 of the control pulse shaping unit 14. Correction circuit 15 (for example, a resistor) is connected between terminal 8 and the supporting element (Zener diode) 11. Threshold element 16 is connected to terminal B and the executive body of the protection unit 17, which, for example, can be connected in series with the primary winding of the power transformer k. The secondary winding of the transformer k is connected via the output rectifier 18 and the output filter 19 to the load 20. Stabilitron

11 through the current-giving element 21 (for example, a resistor) is connected to the output of source 1.

The device works as follows.

In the absence of a current, loading the voltage at the output of the auxiliary source 2 is zero. With eton, the supply voltage as a node 10, ta1 and amplifiers 12 and 13 is equal to the output voltage of source 1 of a stable voltage. As the load current increases, a voltage appears on the secondary winding of transformer 3, which is rectified by rectifier 6 and smoothed by filter 7. At the output of the additional source 2, a voltage appears that increases with increasing load current, increasing the power supply voltage of the amplifiers.

12 and 13 and, consequently, increased the control current of the power transistors of the amplifier 5 at the same time increases the voltage at the output of the node 10 of the reference voltage, so as to compensate for the change in the output voltage.

When used as a supporting element of the Zener diode 11, which is supplied from the source 1 of a stable voltage j, the correction circuit is a resistor 15,

connected between pin 8 and zener diode. In this case, as the load current increases, the voltage at the output of the additional source 2 increases, the current through

a resistor 15, which leads to an increase in the reference voltage on the zener diode 11, the resistance of the resistor 15 is chosen so that a decrease in the voltage at the output of the inverter due to an increase in the load current is compensated for by an increase in the reference voltage.

When the current exceeds a certain limit, the threshold element 16 is triggered, including the actuator of the protection unit 17.

The use of the proposed device in comparison with the known allows to increase the efficiency, stability

output voltage over a wide range of load current.

invention formula

Claims (2)

1. A stabilized transistor inverter containing a voltage element, a terminal amplifier and intermediate amplifiers, the power supply circuit of which is connected to the output of an auxiliary voltage source and a rectifier connected to the secondary winding of a current transformer, the primary winding of which is connected in series to the output circuit, the final amplifier, tl and h and y and so that, in order to increase the efficiency and stability of the output voltage, the output of the specified rectifier is shunted by a smoothing filter, connected The sequence with the outlet of said auxiliary source, and forms together with it a power circuit promezhutoch5 Hbix amplifiers and the reference voltage element connected to the output of the auxiliary source .Through first voltage driving element and to the circuit Promen accurate power amplifiers via the second tokozadaknchy element. 2. The inverter according to claim 1, characterized in that a resistor is used as the second terminal element. Sources of information taken into account in the examination 1. USSR author's certificate No. 320001, cl. H02 M 7/532, 1970. 2. USSR author's certificate for application number 219b387 / 2-07, cl. H 02 M 7/537, 1975.