SU652688A1 - Bridge power amplifier - Google Patents

Description

(54) BRIDGE AMPLIFIER

The invention relates to radio engineering. The bridge power amplifier can be used as a tracking system amplifier, a static voltage converter. A bridge power amplifier is known, containing n operational amplifiers and n additional buffer stages on two transistors of the opposite type of conductors connected according to the OE circuit sequentially in DC, and the collectors of transistors are combined and connected to the corresponding output of the bridge power amplifier, and the base of each transistor is the resistor is connected to the power bus and directly to the power input of op amp 1, however, this amp has a relatively large loss The aim of the invention is to increase the economy by reducing the power of the decoupling, for this purpose, in a bridge power amplifier, containing n operational amplifiers and n additional buffer stages on two transistors of the opposite type of wiring, switched on according to the OE sequence sequentially DC the transistors are connected and connected: the MocTpBCfro power amplifier has a power amplifier, and the base of each transistor is connected via a resistor to the power bus and directly to the power input op The operational amplifier, between the outputs of the operational amplifiers, includes other resistors interconnected according to the p-phase star (p-gon) circuit. Figure 1 shows the electrical circuit diagram of a single power amplifier bridge arm; Fig.2 schematic of the proposed amplifier. The bridge power amplifier contains n operational amplifiers 1, n additional buffer cascades on transistors 2 and 3 of opposite conductivity type, reEistors 4.5 power supply bus b, resistors 7 interconnected according to the n-phase star circuit. The proposed amplifier operates as follows. A change in the input voltage of the operational amplifiers l 1 leads to the corresponding changes in its current output I its voltage 1F this currents lf, 1- flowing through the base circuits of transistors 2 and 3 are amplified. The output current of the amplifier exceeds the output current of the operational amplifier 1y, which is limited to 5-10 mA per current-gain factor of the buffer stage. The output voltages of the operational amplifiers vary in antiphase. The current flowing through the resistor 7 is the output current of the operational amplifiers 1 included in the amplifiers 8. Since the voltages U on the power bus 6 change in phase phase and the currents flowing through the terminals 9 amplifiers 8, vary in anti-phray. This leads to the fact that the currents 1+ and 1-, the output voltages and currents of the amplifiers 8 change in antiphase. In idle mode, if the buffer stages of the amplifiers 8 are in class B, the no-load current of the bridge power amplifier is 21х.х and the power consumed by it in idle mode is equal to. 21x s. .-, In each of the amplifiers 8, the input signal is amplified by the operational amplifier 1, the voltages at the outputs 9 form a three-phase voltage system, which, when the resistors 10 are connected, is converted into a three-phase current system. Each of these currents is amplified by a corresponding buffer cascade. Similarly, multiphase (p-phase) bridge power amplifiers (with the number of phases g

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Claims (1)

- И6 is greater than 3). To do this, the resistors 10 of equal resistance connected to the polygon (p-gon) or multiphase star circuit must be connected to the pins 9. In the case of a single-phase bridge power amplifier, this polygon or star degenerates into one resistor, and the two-phase bridge amplifier consists of two single-phase ones. The inclusion of resistors 7 and 10 makes it possible to simplify the circuit of a bridge power amplifier and increase its efficiency. Claims of the invention A power amplifier with n power amplifiers and additional buffer stages on two transistors of the opposite conductivity type, connected according to the OE scheme in series with DC, and the collectors of the transistors are combined and connected to the corresponding output of the bridge power amplifier, and the base of each transistor through a resistor connected to the power supply bus and directly to the power supply input of the operational amplifier, characterized in that, for the purpose of increasing, it is economical ty by reducing power dissipation, the outputs of the operational amplifiers include other resistors, interconnected by a star schema phase n-gon). Sources of information taken into account in the examination 1.Yagger, 6th joower ayatero.EEectrpniechdnisov Design / l974 V. 18, 1, p. 15 fig, l