RU2150771C1 - Radiophone antenna screen - Google Patents

Abstract

FIELD: radio communications; portable radiophones. SUBSTANCE: screen has electromagnetic shield placed between radiator and user; screen ends are made of electricity conducting material whose resistivity is higher than that of central part of screen which reduces terminal amplification of electromagnetic radiation at screen ends. EFFECT: reduced electromagnetic radiation of user from antenna. 2 dwg

Description

 The invention relates to the field of radio communications and can be used in a portable radiotelephone.

 A radiation shielding device for a radio transmitting device is known (US Pat. No. 5,335,366, class H 04 B 1/38, 1994), comprising an elongated shielding element for wrapping around an antenna. The part of the elongated element closest to the user contains the first material to protect the user from radiation from the antenna. The second part of the elongated element contains a second material for transmitting radiation. The fixation device secures the elongated element in the desired position between the user and the antenna.

 Also known is a screen for an antenna of a radiotelephone of a cellular communication system (international application WO N 9501010, class H 04 B 1/38, 1995) having a semicircular cross-sectional shape that is attached to the body of the radiotelephone with adhesive applied to its lower surface. The protective shield together with the antenna forms a coaxial structure. The screen protects the user's head from the harmful effects of radio waves emitted by the antenna. The screen can also be made in the form of a protective layer, forming a single unit with the antenna of the radiotelephone.

 In addition, a screen for protecting against radio frequency radiation of portable cordless phones (international application WO N 94/22233, CL H 04 B 1/38, 1994) is known, which is removable, elastic and worn on the antenna.

 Also known is a screen for absorbing ultra-high frequency radiation from a radiotelephone (US Pat. No. 5,507,012, class H 04 B 1/38, 1996), which is located during operation of the radio transmitting device between the antenna and the user to protect the user from the fraction of electromagnetic radiation from the antenna directed toward the user, and a director device directing at least a portion of the electromagnetic radiation of the antenna away from the user. The director device contains the first and second metal elements. The first element is located next to the antenna so that during the operation of the transmitter the screen is located between the first element and the user. The second element is located so that the antenna is located between the first and second elements. The first and second metal elements in interaction direct the electromagnetic radiation of the antenna away from the user.

 The disadvantages of these electromagnetic screens are an increase in the electromagnetic field at the ends of the screen compared to the electromagnetic field of the emitter and a decrease in the useful signal due to the larger screening area of the emitter.

 Closest to the proposed invention is the site of the shielding of radio emission for a radio transmitter (international application WO N 9531048, CL H 04 B 1/38, 1995), having a radiation shield located between the radio-emitting element and the user to protect the latter from unwanted exposure to radiation element . A cellular radiotelephone can be made in the form of a device placed in the hand, with an internal or external antenna, or with another element of electromagnetic radiation.

 Radioprotective screen can be modified for existing radiotelephones, or can be made in a special form for various models of cellular radiotelephones. A radiation shielding can absorb or reflect electromagnetic radiation, while protecting the user from an unwanted and harmful electromagnetic field.

 A disadvantage of this shielding assembly is an increase in the electromagnetic field at the ends of the screen compared to the electromagnetic field of the emitter, as shown in FIG. 1.

где

векторное электромагнитное поле излучателя;

векторное электромагнитное поле реакции экрана;

суммарное векторное электромагнитное поле.

Where

emitter vector electromagnetic field;

vector electromagnetic field of the reaction screen;

total vector electromagnetic field.

 The objective of the invention is to reduce the electromagnetic radiation of users of the radiotelephone from the antenna, which is directed towards the user and the edge amplification of electromagnetic radiation at the ends of the screen.

 The problem is achieved in that in the screen for the antenna of the radiotelephone containing an electromagnetic screen that is located between the emitter and the user, unlike the prototype, the ends of the screen are made of electrically conductive material with a higher resistivity than in the central part of the screen.

In FIG. 1 shows the dependence of H = f (L) of the electromagnetic field on the distance from the ends of the screen;
in FIG. 2 shows a screen design for an antenna of a radiotelephone.

 The screen for the antenna of the radiotelephone, consisting of ends, 1 which are made of electrically conductive material with a higher resistivity than in the central part 2 located between the emitter 3 and the user.

 Under the influence of an electromagnetic field, eddy currents are induced in the shield. The magnetic flux of the reaction field from the eddy currents is directed counter to the electromagnetic field of the emitter 3, thereby shielding from radiation at the ends 1 made of an electrically conductive material with a high resistivity, eddy currents are smaller than in the central part 2, and the reaction field of the eddy currents slightly, which leads to the fact that the amplification of the electromagnetic field at the ends is negligible compared to the prototype.

 So, the claimed invention allows to reduce electromagnetic radiation aimed at the user of the radiotelephone.

Claims (1)

 A screen for an antenna of a radiotelephone containing an electromagnetic screen that is located between the emitter and the user, characterized in that the ends of the screen are made of electrically conductive material with a higher resistivity than in the central part of the screen.

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