SU488310A1 - D-class amplifier - Google Patents

Description

The invention is set to radio engineering. The amplifier can be used for amplifying and modulating sound often and in stabilized DC-to-DC converters. A class J3 amplifier is known, which contains a modulator, a push-pull power amplifier with a transformer output, into the power circuit of which a current sensor is inserted. In the known amplifier, one sees the reversal of transforming the transformer due to the measurement of the pulse duration controlling the switching of the push-pull power amplifier and the spread of the semiconductor devices, which leads to a decrease in efficiency and reliability. The purpose of the invention is to reduce the bias of the transformer. For this purpose, a feedback circuit made on the AC amplifier is inserted between the current sensor and the signal input of the modulator. The drawing shows the functionality of the amplifier circuit. A class 5 amplifier contains a modulator 1, a push-pull power amplifier 2 with a transformer output sensor 3 consumed by the current source 4. Current sensor 3 is located both in the power supply circuit of power amplifier 2 and in series with the primary winding of its output transformer. A sawtooth sweep signal of source 5 and input signal Ug of Amplifier class from source 6 is fed to the modulator of the modulator. Feedback circuit from sensor 3 current to the signal input of the modulator 1 is carried out through the amplifier 7 AC. Class 1 amplifier works as follows. The modulator 1 generates a moving pulse front with a pulse width modulation (PWM) at the instant of equality of the instantaneous values of the input signal UBX of the sawtooth signal U which sets the frequency of the pulses with PWM. The pulses are fed to a two-stroke power amplifier 2, in which they are divided into two series of pulses, shifted by 180 one relative to the other. These sequences control the switching of a push-pull power amplifier, at the output of which trans-O1MW pulsed alternating voltage pulses take place.

The amplifier 2 of capacitance consumes from the power supply 4 the current pulses t p. Which are QpflejpKaT two and more: load, transmitted from the transformer of the amplifier 2. load, and current magnetised transformer. The latter, in case of unbalance reversal of the transformer, causes a surge in the region of the trailing edge of the 4 c current, which repeats periodically through the clock. This current surge causes additional heating of the elements and creates voltage surges on the windings of the power amplifier transformer.

The feedback signal from the sensor to the amplifier 7 carries information q. The alternating magnetizing current 1 of the deformer of the amplifier 2 of the power I has a corrective effect on the duration of the pulses produced by the modulators 1. In the case of a non-meter in the amplifier 2 in the current curve fn 11 Go | Yusha half frequency. In a non-linear amplifier 7, this component of the PWM signal is amplified more than the component of the main frequency (see half-frequency component in the signal U at the output of amplifier 7, shown in dotted lines). Due to the effect of amplifier 7, the moments of formation of the front of the PWM signal in two adjacent cycles (periods) are shifted to opposite sides, lengthen one pulse and shorten the next one so that the asymmetry of the magnetization reversal of the transformer in amplifier 2 is reduced and the amplitude of the back edge of current sensor 3.

Claims (1)

Invention Formula Amplifier class 1cc D, containing a modulator, push-pull amplifier with transformer output, into the power supply circuit of which a current sensor is inserted, characterized in that, in order to reduce the transformer bias, a current circuit is inserted between the sensor and the signal input of the modulator zi, is made on the amplifier AC current4.