RU173182U1 - DEVICE FOR ADDING FOUR SIGNALS OF DIFFERENT FREQUENCY FOR OPERATION ON ONE ANTENNA OF THE SHORT-WAVE FREQUENCY RANGE - Google Patents

Abstract

The utility model relates to the field of radio engineering and can be used to add the power of individual radio transmitting modules at transmitting communication centers. The task is to add the power of four radio transmitting modules operating at different frequencies to operate on one antenna of the short-wave frequency range. The device comprises a broadband power addition bridge, two switches, an antenna matching device and an antenna. In the proposed device, in comparison with the prototype, it is possible to add the power of four radio transmitting modules operating at different frequencies to operate on one antenna of the short-wave frequency range, in addition, the device can be used to add the powers of radio transmitting modules operating at the same frequency, and high KBB is achieved ( no worse than 0.9).

Description

The utility model relates to the field of radio engineering and can be used to add the power of individual radio transmitting modules at transmitting communication centers.

Known power addition devices (USMs) designed to operate in the short-wave frequency range described in the literature [1], as well as those proposed in RF patents No. 7769, 132934. All the USMs considered are characterized in that they add power in one way or another radio transmitting modules operating at the same frequency. Closest to the claimed technical solution is a method of adding the power of the radio transmitters according to the patent of the Russian Federation for invention No. 2580401, adopted as a prototype.

The prototype contains a broadband power addition bridge, adjustable artificial long lines, an antenna switch and several antennas. In the prototype, adjustable artificial long lines are connected to the inputs of the broadband bridges of addition, the first inputs of which are connected to the outputs of the antenna switch, the second inputs are connected to the control system of the transmitting center. The outputs are connected to the inputs of the broadband addition bridge, and the output of the broadband addition bridge is connected to the input of the antenna switch. The control inputs of the switch receive control signals from the control system of the transmitting center.

The disadvantage of the prototype is that it does not provide for the possibility of adding up the power of radio transmitting modules operating at different frequencies. The prototype will allow adding up only the power of radio transmitting modules operating at the same frequency, and for the purpose of transmitting signals from several radio transmitting modules operating at different frequencies, it is proposed to use several antennas. At the same time, the task of adding the powers of several radio transmitting modules operating at different frequencies and transmitting the total signal using one antenna is very relevant and important in practice, especially for mobile communication facilities that are difficult to equip with a large number of antennas.

The task to which the proposed device is directed is to add the power of four radio transmitting modules operating at different frequencies to operate on a single antenna in the short-wave frequency range.

For this, the device proposed in the method of adding the power of radio transmitters and adopted as a prototype containing a broadband bridge of adding power, a first switch and an antenna in which a signal from the control system of the radio transmitting center is fed to the control input of the first switch, an antenna matching device (ANSU) is introduced and a second switch, while the first, second, third, and fourth inputs of the broadband power addition bridge, which are the corresponding inputs of the entire device, receive signals from the first of the first, second, third, and fourth radio transmitting modules, the input of the first switch and the first input of the second switch are connected to the outputs of the broadband power addition bridge and the control system, respectively, while the first output of the first switch is connected to the input of the control system, and the second to the second input of the second switch, and the output of the second switch is with the antenna input, while signals from the control system of the radio transmitting center are fed to the control inputs of the ANSU and the second switch.

The block diagram of the proposed device is shown in FIG. one.

A device for adding four signals of different frequencies to operate on one antenna of the short-wave frequency range contains a broadband power addition bridge 1, the first 2 (1) and second 2 (2) switches, AnSU 4 and antenna 3. At the first, second, third and fourth inputs of the broadband the power addition bridge 1, which are the corresponding inputs of the entire device, signals from the first, second, third and fourth radio transmitting modules are supplied (not shown in Fig. 1). The input of the first 2 (1) and the first input of the second 2 (2) switches are connected to the outputs of the broadband power addition bridge 1 and AnSU 4, respectively. The first output of the first 2 (1) switch is connected to the input of the ANSU 4, and the second to the second input of the second 2 (2) switch, and the output of the second 2 (2) switch is connected to the input of antenna 3. At the same time, to the control inputs of the first 2 (1) ) and the second 2 (2) switches and AnSU 4, a signal is supplied from the control system of the radio transmitting center.

Devices according to the patents of the Russian Federation for utility models No. 156097, 146836 can be used as a broadband bridge for adding power. The device according to the patent of the Russian Federation for utility models No. 114244 can be used as AnSU.

The proposed device operates as follows. In addition bridge inputs broadband power signals are four transmitting units, each signal power P _Rin.

If the radio transmitting modules operate at the same frequency and are phased, the switches of switches 2 (1) and 2 (2), controlled by a control signal from a higher-level control system, are installed in such a way that AnSU 4 is connected between the outputs of the power addition bridge 1 and the antenna input 3 The AnSU 4 unit allows matching the complex antenna resistance at a given operating frequency with the output impedance of the addition bridge to ensure the highest traveling wave coefficient (KBW) in the path. After passing Ansouis unit 4P sum signal _Rin power radiated by the antenna.

If the radio transmitting modules operate at different frequencies, the switches of switches 2 (1) and 2 (2), controlled by a control signal from a higher-level control system, are installed in such a way that AnSU 4 is excluded from the path, i.e. operation mode bypassing ANSU is provided. In this case the power of each input signal is dissipated in the ballast loads broadband bridge addition power 1, but in this case it is possible to transmit each of the four different operating frequency signals to the output power P _out = 0,25R _Rin using one antenna.

The proposed device has the following advantages:

- melting at different frequencies for operation on one antenna of the short-wave range of frequencies;

- the proposed device provides high IPM (not worse than 0.9) and the output signal _Rin 4P by adding the capacities of radio modules operating at the same frequency and phase-locked.

Bibliography:

1. London S.E., Tomashevich S.V. Handbook of High Frequency Transformers, M., Radio and Communications, 1984.

Claims (1)

A device for adding four signals of different frequencies for operation on a single short-wave antenna containing a broadband power addition bridge, a first switch and an antenna in which a signal from the control system of the radio transmitting center is supplied to the control input of the first switch, an antenna matching device (ANS) and a second the switch, while the first, second, third and fourth inputs of the broadband power addition bridge, which are the corresponding inputs of the entire device, signals from the first of the second, third, fourth and fourth radio transmitting modules, the input of the first switch and the first input of the second switch are connected to the outputs of the broadband power addition bridge and the control system, respectively, while the first output of the first switch is connected to the input of the control system and the second to the second input of the second switch, and the output of the second switch is with the antenna input, while signals from the control system of the radio transmitting center are fed to the control inputs of the ANSU and the second switch.

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