RU71197U1 - BROADBAND POWER AMPLIFIER - Google Patents

Abstract

The utility model relates to the field of radio electronics and can be used in broadband radio transmitters. A sufficient technical result is an increase in the useful power at the output of the broadband amplifier by reducing its losses in the ballast resistor, as a result of which the efficiency of the amplifier itself increases. To this end, a current sensor and a unit for analyzing current changes in the ballast resistor and generating signals for controlling the phase shifter and the bias voltage source are additionally included in the known device, while a current sensor is connected between the body terminal of the ballast resistor and the body, and its output is connected to the input of the current change analysis unit in the ballast resistor and the formation of control signals of the phase shifter and the bias voltage source, one output control circuit of which is connected to the input of the control circuit uliruemogo phase shifter, and the other is connected to a control input of a controlled source bias voltage. 1 ill.

Description

The utility model relates to radio electronics and can be used in broadband radio transmitters.

Broadband power amplifiers, especially those included in high-power radio transmitters, contain a large number of addition ballast bridges with ballast resistors, which are structurally combined into a common power addition device for individual amplifier modules. The overlap coefficient over the range of such amplifiers in the short-wave frequency range reaches 40 (for example, the P-638 radio transmitter). The implementation of such a wide range extremely complicated the practical task of ensuring the uniformity of the amplitude-frequency and phase-frequency characteristics of these amplifiers and, as a result, a significant power of the useful signal is dissipated in the ballast resistors of the addition bridges.

Known broadband power amplifiers, for example, A.S. No. 4346155 of the USSR, H03F 3/24, dated 12/18/1987, A.S. No. 4075876 USSR, H03F, 1/42, 04/16/1986, containing power amplifiers, adders, which are bridge circuits that provide isolation of input circuits and contain ballast resistors and automatic gain control circuits.

Known broadband power amplifier, which contains a circuit for the automatic phase adjustment of individual power amplification paths (AS No. 4058329 of the USSR, H03F, 1/32, 02/22/1986).

The disadvantage of both analogues and the prototype is that they do not take into account the asymmetry of the shoulders of the addition bridges themselves, expressed in the asymmetry of their amplitude and phase-frequency characteristics. This leads to the fact that part of the useful power of the high-frequency signal is dissipated in the ballast resistors of the addition bridges, thereby reducing the efficiency of the amplifier.

The purpose of the utility model is to increase the efficiency of a broadband amplifier containing amplifier modules, by reducing the loss of useful power in the ballast resistors of the bridges of addition of power of the amplifier modules.

This goal is achieved by the fact that in a broadband power amplifier containing a pre-amplifier, two amplifier modules, an adjustable phase shifter, an adjustable bias voltage source, a power addition bridge, a ballast resistor, an additional current sensor and a unit for analyzing current changes in the ballast resistor and generating control signals are additionally introduced a phase shifter and a bias voltage source, while the current sensor is connected between the housing terminal of the ballast resistor and the housing, and its output is connected to the input unit of the analysis of current changes in the ballast resistor and the formation

control signals of the phase shifter and the bias voltage source, one output control circuit of which is connected to the input of the control circuit of the adjustable phase shifter, and the other is connected to the control input of the controlled bias voltage source.

The block diagram of the device is shown in FIG. In accordance with it, the device consists of the following functional units and elements:

1 - pre-amplifier;

2, 3 - amplifier modules;

4 - power addition bridge;

5 - current sensor;

6 is a block analysis of current changes in the ballast resistor and the formation of control signals of the phase shifter and the bias voltage source;

7 - adjustable phase shifter;

8 - adjustable bias voltage source;

R _b - ballast resistor.

The operation of the circuit is as follows. The high-frequency signal is fed to the preamplifier 1 and after amplification from one of its two outputs it comes to the input of the adjustable phase shifter 7 (for example, a switched artificial delay line), and from the second output to the input of the amplifier module 3. From the output of the adjustable phase shifter, the signal goes to the input amplifier module 2 and after amplification from the output of the module is fed to the 1st input of addition bridge 4. The signal received at the input of amplifier module 3, after amplification is fed to the 2nd input of addition bridge 4. From addition bridge 4 ummarny useful signal is transmitted to the output terminal of the bridge. When the bridge is unbalanced, when the balance of the amplitudes and phases of the high-frequency signals at the bridge inputs is violated due to the non-uniformity of the amplitude and phase-frequency characteristics of the amplifier modules or the asymmetry of these characteristics of the input circuits of the addition bridge in the operating frequency range, part of the useful signal power is supplied to the bridge output, connected to a ballast in which it dissipates. In this case, a current flows through the resistor, the value of which depends on the degree of imbalance. The current sensor 5 (for example, a current transformer with an amplitude detector) reacts to a change in current, and the signal from the sensor is fed to the input of the ballast resistor current analysis unit 6 (for example, built on the basis of a microprocessor similar to the control unit of the antenna matching device of the P-638 radio transmitter, which, based on signals from the amplitude and phase sensors, generates commands to the executive bodies of the tuning elements). The signal from the balanced resistor R _b in block 6 forms the control signal of the adjustable phase shifter, which is fed through the control circuit to the input of the executive body of the adjustable phase shifter 7. Under the influence of the control signal, the phase shift of the high-frequency signal at the 1st input of the addition bridge changes change in current value of the ballast resistor. The phase shifter adjustment process stops when the minimum

the current value of the ballast resistor R _b , the value of which now depends only on the degree of imbalance of the amplitudes. After that, in block 6, a bias voltage control signal is generated that feeds the amplification modules 2 and 3, which is supplied through the control circuit to an adjustable source of this voltage - block 8. Under the influence of this signal, bias voltages coming from the source of this voltage of block 8 to the amplification modules 2 and 3. A change in the bias voltage causes a change in the amplitude of the amplified oscillations at the outputs of the amplifier modules 2 and 3, and, respectively, at the inputs of the addition bridge 4. As a result, the magnitude of the current ba last resistor R _b . The process stops when the minimum current in the ballast resistor is reached. A decrease in the current in it leads to a decrease in the loss of useful power.

Reducing the loss of useful power in the ballast leads to an increase in this power at the output of the broadband amplifier, as a result of which its efficiency increases.

The goal is achieved.

Claims (1)

A broadband power amplifier comprising a preamplifier, two amplifier modules, an adjustable phase shifter, an adjustable bias voltage source, a power addition bridge, a ballast resistor, characterized in that the current sensor and the unit for analyzing current changes in the ballast resistor and generating phase shifter and source control signals are further included bias voltage, while the current sensor is connected between the housing terminal of the ballast resistor and the housing, and its output is connected to the input of the anal block for the current changes in the ballast resistor and forming a phase shifter control signals and the bias voltage source, a control circuit whose output is connected to the control input of the variable phase shifter circuit, and the other is connected to a control input of a controlled source bias voltage.