SU1607055A1 - Single-phase converter - Google Patents

Abstract

The invention relates to electrical engineering, in particular to secondary power sources, and can be used to power a load having indefinite on and off times. The purpose of the invention is to increase the efficiency of the converter. A single-phase converter contains a DC-to-AC converter cell 1 with a power output transformer 2 connected via a power switch 3 to a power source, a sensor 8 zero load current controlling a multivibrator 9, the output of which is connected to the input of the element OR 10, the other input of which connected to the output of the sensor 8, and the output to the control input of the power switch 3. Entering the power switch 3, the multivibrator 9, the OR 10 element and the current zero sensor 8 allows the converter to be switched off when the load is disconnected and automatically turn it on when connecting the load. 1 il.

Description

The invention relates to electrical engineering, namely, to secondary power sources, and can be used when powering a load that has indeterminate times of switching on and off, in particular, when powering household consumers from a rechargeable battery.

The purpose of the invention is to increase the efficiency of the converter due to the exclusion of its operation at idle.

The drawing shows the functional diagram of the Converter.

The converter contains a DC-to-AC converter cell 1 with a power output transformer 2 connected via a power switch 3 to the power source 4, a load 5, a stabilization circuit 6, the output of which through the rectifier 7 is connected to the power source 4, the sensor 8 zero load current controlling the waiting multivibrator 9. whose output is connected to the input of the element OR 10, the other input of which is connected to the output of the sensor 8 zero, and the output to the controlling input of the power switch 3.

The Converter operates as follows.

When the converter operates on the load and the voltage at the output of the power transformer 2 reaches the maximum permissible value, the current flows through the stabilizing circuit 6 and part of the energy through the rectifier 7 is transmitted to the power source 4. This increases the efficiency of the converter during its operation under load.

When the load is temporarily disconnected, for example, when the refrigerator is periodically disconnected, the output of the sensor 8 is the zero of the load current. O signal will be output. the input of the converter cell 1. At the same time, the logical zero signal from the output of the sensor 8 will start the multivibrator 9. In the initial state, the output of the multivibrator 9 was a signal O. After its launch, at the output of the multivibrator 9, periodically A signal will appear. This signal through the element OR 10 will go to the control input of the power switch 3. The key 3 opens and the converter cell 1 will periodically be connected to the power source 4. As soon as the load 5 is 5 connected to the secondary winding of the power transformer 2, at the output of the sensor 8, the load current is zero according to signal 1, which detects the load current. This signal will bring the multivibrator 9 into the initial state, and through the element OR 10 it will act on the control input of the power switch 3. The power switch 3 will open and the converter cell 1 will be connected to the power source 4 until power off occurs load 5.

 The frequency and duty cycle of the occurrence of signal 1 at the output of the multivibrator 9 can be easily adjusted depending on the type of load. Thus, for a load in the form of a household 20 electric cooler, the duration 1 at the output of the multivibrator 9 can be set within 2-5 s, and the duration of the pause 40-60 s.

Thus, the proposed invention allows, at periodic load shedding, to avoid running the converter at idle, which increases the overall efficiency of the converter and increases the service life of the JO power source, such as a battery.

Claims (1)

Invention Formula 5 A single-phase converter containing a DC-to-AC converter cell with a power output transformer, related to that. that in order to increase 0 Efficiency due to the exclusion of its operation at idle, a zero current load sensor, a multivibrator, an OR element and a power switch are entered into it, and the zero current input of the load current is connected in series with 5 by a load circuit, and the output is connected to the input of the multivibrator and the first input of the OR element, the second input of which is connected to the output of the multivibrator, the output of the OR element is connected to the control input 0 of the power switch through which the converter cell is connected to the power source.