WO2011159203A1

WO2011159203A1 - Device for wireless communication

Info

Publication number: WO2011159203A1
Application number: PCT/RU2011/000418
Authority: WO
Inventors: Аркадий Иосифович ВОЛОШИН; Андрей Степанович СОЛДАТКИН
Original assignee: Voloshin Arkady Iosifovich; Soldatkin Andrey Stepanovich
Priority date: 2010-06-16
Filing date: 2011-06-11
Publication date: 2011-12-22
Also published as: EA201201339A1; EP2584654A1; EP2584654A4; EA024880B1

Abstract

The claimed technical solution relates to the field of wireless communication and can be used in the field of mobile communication and Internet access to provide the best possible communication quality in contemporary data transfer networks (GSM, 3G, 4G, Wi-Fi, Wi-Max, etc.) as well as to protect the user against the harmful effects of electromagnetic radiation. In the device for wireless communication comprising an active radiating element, a passive element and a USB cable, the active radiating element is an integrated radio modem with an in-built transceiver and a transmitting and receiving antenna. The integrated radio modem is disposed in the device in such a way as to produce, together with the passive element, the directivity diagram necessary for the maximum signal to arrive at the in-built transmitting and receiving antenna of the integrated radio modem.

Description

DEVICE FOR WIRELESS COMMUNICATION

The claimed technical solution relates to the field of wireless communications and can be used mainly in the field of mobile communications and Internet access.

At the current level of development of information technologies for digital data transmission, mankind has almost exhausted the capabilities of wired networks. Real breakthroughs in the field of data transfer are impossible without the creation of fundamentally new devices and methods of their functioning. Wireless information transfer technologies - this is exactly the direction that today can ensure progress in the field of data transfer and Internet access.

Recently, wireless communications devices are increasingly replacing wired communications. On the one hand, this is due to increased integration and a decrease in the cost of radio-frequency components - radio transceivers, antennas, etc., and on the other - to the increase in the cost of materials and labor for organizing wired communication.

Wireless network technology is used where the installation of wired networks is difficult, impossible or economically disadvantageous. In addition, only wireless technologies can provide data transfer on mobile objects in motion.

The experience of operating wireless networks shows that the quality of their work largely depends on the gain of user subscriber antennas. Directional antennas can not only increase the energy of the radio line, but also increase the stability of its work.

All wireless communication devices use antennas to receive and transmit radio signals. One of the main characteristics of the antenna is the radiation pattern, which determines the nature of the distribution in space of the electromagnetic field emitted or received by the antenna.

The electromagnetic field inside the building is much less than in open areas. A significant part of the signal energy is absorbed by walls, wooden, brick, especially strong absorption occurs in buildings with reinforced concrete walls.

The patent search did not reveal analogues that are close to the claimed technical solution. The objective of the proposed technical solution is to ensure maximum communication quality in modern data transmission networks (GSM, 3G, 4G, Wi-Fi, WiMax, etc.), as well as protecting the user from the harmful effects of electromagnetic radiation.

The achievement of the task is carried out using technical solutions that consider two options - with one passive element and with several passive elements.

The task is achieved in that:

Option 1: in a device for wireless communication containing an active radiating element, a passive element and a USB cable, the active radiating element is an integrated radio modem, with its integrated transceiver and transceiver antenna, and the integrated radio modem is placed in the device so that together with the passive element, they formed the radiation pattern necessary for the maximum signal to be transmitted to the integrated transceiver antenna of the integrated radio modem, while the diomodem is connected to the terminal equipment via a USB cable.

Option 2: in a device for wireless communication containing an active radiating element, several passive elements and a USB cable, the active radiating element is an integrated radio modem, with its integrated transceiver and transceiver antenna, and the integrated radio modem is placed in the device in this way so that together with the passive elements they form the radiation pattern necessary for the maximum signal to arrive at the integrated transceiver antenna of the integrated radio mode ma, while the radio modem is connected to the terminal equipment using a USB cable.

Moreover, the integrated radio modem in any of the claimed devices, and with one passive element, and with several passive elements, can be connected to any terminal equipment, for example, either with a computer, or with a hub, or with a mobile phone, or with a communicator using USB cable.

The claimed technical solution is new, as it is characterized by the presence of a new set of features that are absent in all known objects of technology for a similar purpose. The essence of the proposed technical solution is illustrated by drawings in the form of a block diagram shown in figures 1-2, which shows particular examples of devices.

Figure 1 is an embodiment of a device with one passive element, where the terminal equipment is, for example, a computer.

A device for wireless communication includes: a passive radiating element, for example, a reflector 1, an active radiating element, an integrated radio modem 2, a USB cable 3-, which is equipped with a connector for connection to terminal equipment, for example, to a computer 4.

Figure 2 is an embodiment of a device, for example, with two passive elements, where the terminal equipment is, for example, a communicator.

The device contains: passive radiating elements, for example, reflector 1 and director 2, the active radiating element is an integrated radio modem 3, a USB cable 4, which is equipped with a connector for connecting, for example, to the communicator 5.

In the operating position, the active emitting element of the device - the integrated radio modem is placed in the device so that together with one or several passive elements to form the radiation pattern necessary for the maximum broadcast signal to the built-in transmitting antenna of the integrated radio modem, and using USB cable connect the device to the terminal equipment (see figure 1, 2).

Consider the operation of the device for wireless communication, shown in figure 1 and figure 2.

A high-frequency signal from the transmitter creates an electromagnetic field, in different places in space it has different strengths. We place the inventive device (Fig.1, 2), for example, inside a residential building, in the place where the electromagnetic field is at its maximum. This place is determined experimentally by the readings of the indicator (hardware or software) of the terminal equipment and most often does not coincide with the location of the terminal equipment and the operator’s workstation. Amplified and concentrated by the claimed device, the electromagnetic field enters the internal antenna of the integrated radio modem and is converted into a USB signal in it. Using a flexible USB cable, the converted signal is transmitted to terminal equipment, for example, either to a computer, or to a mobile phone, or to a hub, or to a communicator.

When you connect one passive element (figure 1), the level of the received signal has a gain relative to the anisotropic emitter 3-5 dB.

When you connect two or more passive elements (figure 2), the level of the received signal increases significantly (3-5 dB relative to the device with one passive element) and such a device has a wider scope.

The solution of this problem, namely, ensuring the maximum quality of communication in modern data transmission networks, is achieved due to the location of the active emitting element - an integrated radio modem - in the zone of maximum electromagnetic field strength.

The technical result achieved in modern data transmission networks (GSM, 3G, 4G, Wi-Fi WiMax, etc.), when implementing the claimed utility model, is to ensure maximum communication quality, as well as to expand the network coverage area, to increase the places where you can use mobile Internet access, and to minimize the loss of RF energy through the use of a USB cable.

In addition, each of the variants of the claimed device protects the user from the harmful effects of electromagnetic radiation, since the integrated radio modem is not placed directly in the terminal equipment, but is removed from the user at a distance that reduces the harmful effects of electromagnetic radiation and is shielded from the person by one or more passive elements .

The claimed technical solution minimizes the loss of RF energy through the use of a USB cable.

The use of each of the variants of the claimed device for wireless communication allows you to use any integrated radio modems without interfering with their design, because many integrated radio modems do not have an external antenna jack. The method of connecting the integrated radio modem to the terminal equipment expands the scope of the claimed utility model. Such a device is quick and easy to install, does not require intervention in the design of integrated radio modems, does not require special knowledge, tools, software, and is accessible to any user of terminal equipment.

The possibility of industrial application of the claimed technical solution is confirmed by the successful result of the experimental use of the claimed device, which can be manufactured using well-known technical means, which determines, according to the applicant, its compliance with the criterion of "industrial applicability".

The claimed technical solution experimentally confirmed the possibility of obtaining the intended result.

This technical solution can be used both in everyday life and in production.

Claims

Claim

1. A device for wireless communication containing an active emitting element, a passive element and a USB cable, the active emitting element is an integrated radio modem with its integrated transceiver and transceiver antenna, and the integrated radio modem is placed in the device so that together with the passive element they form the radiation pattern necessary for the maximum signal to arrive at the built-in transceiver antenna of the radio modem, while the radio modem is connected to the eye hardware using a USB cable.

2. A device for wireless communication containing an active radiating element, several passive elements and a USB cable, the active radiating element being an integrated radio modem with its built-in transceiver and transceiver antenna, the integrated radio modem being placed in the device so that together with passive elements they formed the radiation pattern necessary for the maximum signal to be received on the built-in transceiver antenna of the radio modem, while the radio modem connected to terminal equipment using a USB cable.