SU1188894A1 - Device for controlling output power of radio transmitter - Google Patents

Abstract

RADIO TRANSMITTER OUTPUT CONTROL DEVICE CONTROL DEVICE, containing the first power amplifier, the second power amplifier, which is made on an amplitron, the control input of which is connected to the power supply through the first switch, and the first and second DC amplifiers, characterized in that, in order to increase dynamic range and increase the accuracy of adjusting the output power of the radio transmitter; the first and second controlled attenuators, the first, second, third, fourth and fifth thresholds, are introduced into it. the switch, the second and third switches and the normalized voltage block; the output of the first controlled attenuator is connected to the input of the first power amplifier, the second controlled attenuator is connected between the output of the first power amplifier and the input of the second power amplifier, inputs of the first, second and third the threshold elements are connected and connected to the input of the first switch, which is the control input of the radio transmitter's output power control device, the outputs of the first and third portions The gov elements are connected to the corresponding control inputs of the first switch, the second output of which is connected to the input of the switch, the control input of which is connected to the output of the second threshold element, and the output of the switch is connected to the input of the fourth threshold element, which is combined with the input of the first constant amplifier current, the output of which is connected to the input of the nth threshold element (L ta, the second DC amplifier is implemented as a differential amplifier; the first input of which is connected to the output A second DC amplifier, and a second input with the output of the second switch, the control input of which is connected to the output of the fourth power element, the output of the second DC amplifier, is connected to the first control input of the third QD 4 switch, the second control the input of which is connected to the output of the nth threshold element, and each of the control outputs of the third switch is connected to the corresponding additional control - input of the second switch, the setup outputs of the second and third The second switches are connected to the control inputs of the first and second controlled attenuators, respectively, and the reference inputs of the second and third switches are connected to the corresponding outputs of the HOD and HDOBaHHHX voltages.

Description

The invention relates to radio and can be used in radio transmitters, mainly for communication with mobile objects. The aim of the invention is to increase the dynamic range and increase the accuracy of adjusting the output power of the radio transmitter. The drawing shows an electrical functional diagram of the device controlling the output power of the radio transmitter. The output power control device of the radio transmitter contains the first power amplifier 1, the second power amplifier 2, which is made on the amplitron, the first controlled attenuator 3, the second control attenuator 4, the first 5 second 6, third 7 switches, switch 8, first 9, second 10 the third T1, the fourth 12, the fifth 13 threshold elements, the first DC amplifier 14, the second DC amplifier 15, a block of 16 normalized voltages. The device for adjusting the output power of the radio transmitter works as follows. Pa Input 1 is supplied to the microwave signal to be amplified. Input .2 is connected to the power bus, and Input 3 is given a control signal U. In the first 9, second 10 and third 11 threshold elements, the Up signal is compared with the reference signals UQ, and j (j and respectively, cU ,,. If ,, the first switch 5 is switched on in such a state that the power bus of the second power amplifier 2 is connected to the input 2, and the second output of the first switch 5 is disconnected from the Input 3. The control signal and. , in the control circuit of the first 3 and c. second 4 controlled attenuators are not received The first power amplifier 1 supplies the maximum power to the input of the second power amplifier 2. The second power amplifier 2 is turned on and the output of the radio transmitter also receives the maximum possible power. If P and (I, the first switch 5 switches to the initial state and the second amplifier .2 power is turned off. However, due to the transparency of the amplitron, the output of the radio transmitter receives the power of the first power amplifier 1. A control signal whose level is determined by the inequality Uq; Up i and JI, is fed to Input 3 in the case when the first switch 5 is in the initial state. If UijcUg U p, the second threshold element 10 does not provide the signal necessary for its actuation to the control input of the switch 8. In this case, the output of the switch 8 does not receive a control signal from Input 3 and the first power amplifier 1 supplies the maximum power to the output of the radio transmitter. When and (H triggers the second threshold element 10 and the signal from its output goes to the control input of the switch 8, which connects Input 3 to the combined inputs of the fourth threshold element 12 and the first DC amplifier 14. At the same time, the control signal U goes to the control the input of the second controlled attenuator 4 through the first 14 and second 15 DC amplifiers connected in series. With an increase in the control signal at the Input 3, the attenuation introduced into the microwave path by the second controlled attenuator 4 increases. Yes, the attenuation introduced by the second controlled attenuator 4 becomes maximum, the five threshold element 13 is triggered, and the control input of the third switch 7 receives a signal that switches the third switch. At the same time, the control input of the second controlled attenuator 4 is connected to one of the outputs unit 16 of the normalized voltages and is fixed in the state of maximum input attenuation, the output of the second DC amplifier 15 through the second switch 6 is connected to the control input of the first controlled a tenyuatora 3, and the other input of the second amplifier 15, a constant current through the second switch 6 is supplied with a voltage of another output of block 16, the normalized voltages for setting the ranging second output voltage

31

amplifier 15 direct current to its original state.

With a further increase in the control signal at Input 3, the attenuation introduced into the microwave path by the first controlled attenuator 3 increases. Then, at a certain level of the control signal Ug, the fourth threshold element 12 is triggered, the second switch is switched, and the switches are similar to those described.

88894 „4

Using this principle of operation, additional controlled attenuators may be included in the microwave path, for which the second switch 6 has an appropriate output to control. When reducing the control signal Ug in the control range and about U (. And the attenuation introduced by the corresponding controlled attenuator decreases, their control circuits are turned off in the reverse order.

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Output

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Claims (1)

RADIO TRANSMITTER OUTPUT POWER CONTROL DEVICE, comprising a first power amplifier, a second power amplifier, which is made on an amplitron, the control input of which is connected to the power bus through the first switch, as well as the first and second DC amplifiers, characterized in that, in order to increase the dynamic range and improving the accuracy of regulation of the output power of the radio transmitter, the first and second controlled attenuators, the first, second, third, fourth and fifth threshold elements are introduced into it , a switch, second and third switches and a normalized voltage unit, while the output of the first controlled attenuator is connected to the input of the first power amplifier, the second controlled attenuator is connected between the output of the first power amplifier and the input of the second power amplifier, the inputs of the first, second, and third threshold 'elements are combined and ^connected; to the input of the first switch, which is the control input of the device controlling the output power of the radio transmitter, the outputs of the first and third threshold elements are connected to the corresponding control inputs of the first switch, the second output of which is connected to the input of the switch, the control input of which is connected to the output of the second threshold element, and the output of the switch is connected to the input of the fourth threshold element, which is combined with the input of the first DC amplifier, the output of which is connected to the input ohm of the fifth threshold element, the second DC amplifier is made in the form of a differential amplifier, the first input of which is connected to the output of the first DC amplifier, and the second input is connected to the output of the second switch, the control input of which is connected to the output of the fourth threshold element, the output of the second DC amplifier is connected to the first control input of the third switch, the second control input of which is connected to the output of the fifth threshold element, and each of the control outputs of the third comm The switch is connected to the corresponding additional control input of the second switch, the installation outputs of the second and third switches are connected to the control inputs of the first and second controlled attenuators, and the reference inputs of the second and third switches are connected to the corresponding outputs of the normalized voltage block. 1 1188894 2