FI81927B - ANTENN FOER RADIO TELEPHONE. - Google Patents

Description

1 81927

Radio telephone antenna

The present invention relates to a compact radiotelephone antenna comprising two spaced, parallel plates with an insulator therebetween.

The object of the invention is to provide a small-sized radiotelephone antenna, the arrangement of which in the antennas is multi-stage and wideband and which arrangement is as compact as possible.

In connection with radiotelephones, the so-called A PIFA (Planar Inverted F-Antenna) antenna, some of which are referred to as a reonator antenna. A PIFA antenna consists of two parallel conductive plates connected to each other by a conductor of suitable width so that the capacitance between the plates is in resonance with the inductance of this conductor. The antenna supply line is brought at a suitable distance from said conductor through the second plate to the opposite plate. The antenna is fitted to the supply conductor by selecting an appropriate distance between the supply conductor and the conductor connecting the plates. This distance determines the input impedance.

. The difficulty of the practical implementation of the known PIFA antenna described above is, as described above, that the antenna element must be resonated internally at the desired frequency, which is thus determined by the capacitance of the plates and the inductance of the conductor connecting them. If the size of the antenna element is limited due to other dimensions of the radiotelephone, the tendency to achieve resonance at a certain frequency may result in the length or width of the conductor connecting the plates becoming impractical.

2,81927

Another disadvantage of a PIFA antenna is that the resonant circuit of the antenna element formed by the plates and the conductor connecting them is single-stage and therefore narrow-band in nature.

The object of the present invention is to provide an antenna which eliminates the disadvantages associated with a PIFA antenna while maintaining the small size of the antenna. This is achieved mainly by the fact that the first plate is an electrically conductive plate and the second plate is an insulating plate with a substantially uniform metal layer on the second surface opposite to the first plate, which acts as a ground plane, and a fitting circuit is arranged on the second surface facing the first plate. that it matches the antenna impedance to the impedance of the antenna supply line of the radiotelephone.

According to the invention, the conductor connecting the plates of the PIFA antenna is thus removed, whereby the antenna element does not have to be in resonance, and one of the antenna plates is replaced by a circuit board in which a multistage and thus broadband matching circuit can be placed.

The invention will be explained in more detail with reference to the accompanying figures, in which Figure 1 shows a structural view of a known PIFA antenna. Figure 2 shows a structural view of an antenna according to the invention. Figure 3 shows a schematic diagram of a matching circuit.

Figure 1 shows the structure of a prior art PIFA antenna. The antenna comprises two conductive plates 1 and 2 with an insulating layer 3 between them. The thickness of the insulating layer is 1Θ. The conductive plates 1 and 2 are connected to each other by a conductor 4 having a width lj. A signal is applied to the antenna along a coaxial cable 5 acting as a supply line, which passes through the second plate 2 and the insulating layer 3 and is connected to the conductive plate 1. The distance between the supply line 5 and the line 81927 connecting the plates is 1. By changing this distance.

The antenna according to the invention has a conductor 4 connecting the plates removed from the antenna structure according to Fig. 1. This surface, which is downwards in Figure 2, acts as the ground plane. It should be noted that this surface can also be upwards, i.e. in the direction of the plate 21. On the surface of the plate 22 facing the insulator 23 between the plates 21 and 22, i.e. towards the electrically conductive plate 21, a matching circuit S with its chip components and microconductor strips is placed. The matching circuit S is preferably two-stage, but multi-stage matching circuits can also be used. A signal is applied from the matching circuit S to the antenna plate 21 via the strip conductor 24. The antenna 23 between the antenna plates is intended to support the plates 21 and 22 and to keep them at a suitable distance from each other. The so-called insulation has been used. honeycomb paper which is a phenolic resin impregnated aramid fiber paper pressed into the shape of a honeycomb. Other suitable insulators can also be used. The circuit board 22 also has a connector L from which the antenna is connected to the radio parts of the radiotelephone.

The matching circuit on the plate 22 can be made e.g. according to Fig. 3. In it, the input impedance of the antenna is matched to 50 ohms by a two-stage bandpass type matching circuit consisting of two capacitances C1 and C2 and reactances W ^ L ^, ^ 1 and ^ 2 ova * · the widths of the respective microstrips, and do not refer to frequencies. The electrical response of the antenna plate comprises the resistors R and the capacitance C connected in parallel and the inductance L in series with them.

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The distance of the antenna to the conductive body of the radiotelephone affects the fitting of the antenna, in which case when the body changes substantially, the fitting circuit must also be redesigned. The matching circuit according to Figure 3 is mainly of an exemplary nature. The matching circuit and the plastic housing of the antenna, as well as the plastic materials of the radio housing, cause some signal attenuation.

The antenna arrangement according to the invention provides a multi-stage and thus more broadband arrangement than the PIFA antenna when the external dimensions of the antenna are the same. In addition, the matching is compact because the matching circuit is located inside the antenna. As an example, the antenna is suitable for the 900 MHz NMT network and the E-TACS network at the same time due to its bandwidth, when the antenna size is 52 x 30 x 7.5 mm.

The antenna according to the invention also has the additional advantage that when the telephone is held in the hand, the fit is improved and the usable frequency range increases, so that the antenna is not very sensitive to the effect of the environment.

The antenna object of the invention can also be implemented by integrating the antenna into the housing of the radiotelephone in connection with the radio parts, so that a separate antenna connector is not required. In this case, the matching circuit can be placed on the circuit board of the radio parts. Such integration is advantageous because it is simple and there is no lossy plastic material between the antenna element and the body of the radiotelephone. In addition, the design of the radiotelephone becomes easier as the external parts are reduced.

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Claims (8)

An antenna for a radio telephone 6 comprising fashionable, parallel-mounted parallel discs (21, 22), the molluscs having advantageously provided a layer of insulating material (23), the provided disc (21) being an electrical conductor. ekiva and the second disk (22) are an insulating akiva, being second, to the first akivan opposite surface having a continuous metal layer which acts on a ground level, characterized in that on the second akivana (22) surface, which lies opposed to the front axle (21), there is provided an adaptation acre (S) so that it adjusts the antenna impedance to the antenna conductor. Radio telephone antenna according to claim 1, characterized in that the adaptation aperture (S) has analogue to the front, conductive shaft (21) via a band line (24). Radio telephone antenna according to Claim 1, characterized in that the adaptation aperture (5) has been designed with separate components. Radio telephone antenna according to claim 1, characterized in that the adaptation aperture (S) is two- or multi-degree. Radio telephone antenna according to claim 1, characterized in that on the second shaft (22) there is provided an antenna antenna inclination connector for the antenna conduit. Radio telephone antenna according to Claim 1, characterized in that the second sheave (22) is a circuitry of clefts. l 7 81927 7. An antenna for radio telephone according to claim 1, characterized in that the antenna has been integrated into the radio of the radio telephone. Θ An antenna for radio telephone according to claim 7, characterized in that the adaptation terminal (S) is mounted on a circuit board for the radio part of the radio note telephone.