RU2497244C1 - Antenna system for ultra-high speed mesh network base station - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: antenna system for an ultra-high speed MESH network base station in the millimetre radio wavelength range, wherein the base station is fitted with a high-frequency transceiver in the millimetre range, from 60 to 100 GHz, connected to receiving and transmitting antenna fields through low-noise and high-power amplifiers, respectively, wherein switched supply circuits of the amplifiers are connected to a microprocessor control bus.

EFFECT: high noise-immunity of the network.

1 dwg

Description

The proposed invention relates to radio communications, and in particular to multimedia information transmission networks.

The essence of the invention is that the antenna system is equipped with a high-frequency transceiver of a millimeter range from 60 to 100 GHz connected to the receiving and transmitting antenna fields through low-noise and powerful amplifiers, and the switched power circuits of these amplifiers are connected to the control microprocessor bus.

As a prototype, a device protected by RF patent No. 2403673 is selected. Class H03D 7/00. Multifunctional switch for ultra-fast MEHS network. The following disadvantages are inherent in it: only half-duplex operation mode; unreachable automatic formation of the MESH network; In addition, in the signal transmission path in the prototype device, a dynamic noise spectrum is formed that non-linearly correlates with the frequency range and in each range depends on the interference spectrum of the input signal switch.

The proposed invention solves the problem of creating a duplex, automatically generated MESH network with high noise immunity.

The indicated task of creating the antenna system of the base station is solved by the fact that the base station is equipped with a high-frequency transceiver of a millimeter range from 60 to 100 GHz connected to the receiving and transmitting antenna fields through low-noise and powerful amplifiers, respectively, moreover, the switched power supply circuits of the amplifiers are connected to the microprocessor bus management.

A description of the operation of the device shown in FIG. 1 is given in the following text. The transmitting antenna located in the antenna field 1 in the operating mode sends multimedia communication signals. The response signals are received by one of the antennas of the antenna field 2. Moreover, each antenna of the field 1 is connected to its amplifier 3, and each antenna of the field 2 is connected to the amplifier 4, respectively. Amplifiers are structurally low-noise (LNA). Amplifiers of the indicated antenna fields 1 and 2 are connected to the inputs of the adders 7 and 5, to which signals from the specified transmitting and receiving antennas are transmitted, which form a working pair and provide duplex communication. The output of the adder 7 is connected to the input of the duplex switch 8, and the output of the adder 5 is connected to the input of the duplex switch 6.

Transmission signals pass through the communication channel formed by blocks 1, 3, 7, 8, and received signals pass through channel 2, 4, 5, 6. The indicated signals in respective directions pass through electric filters 10 — through a transmitting channel; 9 - on the receiving channel.

Amplifiers 3 and 4 are structurally supplied with control inputs for switching them on / off in pairs and synchronously with the indicated duplex pairs of the transmitting antenna / receiving antenna according to the signals received from the control bus 11. The specified control bus is connected to the microprocessor module (not shown in FIG. .1) the base station of the microwave MESH network providing formation control

multifunctional duplex multimedia information transmission channels.

The effectiveness of the invention

The implementation of the proposed invention allows the following.

1. By controlling the microprocessor of the synchronous switching circuits of the transmitting and receiving communication channels and forming the antenna pairs of the transmitting / receiving antenna fields, to ensure duplex communication of multimedia information transfer.

2. The choice of an unlimited number of autonomously existing antenna pairs of transmission / reception of signals to provide automation of the formation of duplex communication channels.

3. The exclusion of switching elements from the feeder nodes of the transmitting / receiving units significantly reduce the noise level in the multimedia communication channels.

Claims (1)

Antenna system of a base station of an ultra-high-speed MESH network in the millimeter wavelength range, including antenna feeder units, relay and routing means and microprocessor control means, characterized in that the base station is equipped with a high-frequency transceiver of a millimeter range from 60 to 100 GHz connected to the receiving and transmitting antenna fields through low-noise and powerful amplifiers, respectively, and the switched power supply circuits of the amplifiers are connected to the microprocessor control bus.