Classifications

• • H—ELECTRICITY
  • H01—ELECTRIC ELEMENTS
  • H01Q—ANTENNAS, i.e. RADIO AERIALS
  • H01Q1/00—Details of, or arrangements associated with, antennas
  • H01Q1/12—Supports; Mounting means
  • H01Q1/22—Supports; Mounting means by structural association with other equipment or articles
  • H01Q1/24—Supports; Mounting means by structural association with other equipment or articles with receiving set
  • H01Q1/241—Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM
  • H01Q1/242—Supports; Mounting means by structural association with other equipment or articles with receiving set used in mobile communications, e.g. GSM specially adapted for hand-held use
• • H—ELECTRICITY
  • H01—ELECTRIC ELEMENTS
  • H01Q—ANTENNAS, i.e. RADIO AERIALS
  • H01Q1/00—Details of, or arrangements associated with, antennas
  • H01Q1/12—Supports; Mounting means
  • H01Q1/22—Supports; Mounting means by structural association with other equipment or articles
  • H01Q1/24—Supports; Mounting means by structural association with other equipment or articles with receiving set
• • H—ELECTRICITY
  • H01—ELECTRIC ELEMENTS
  • H01Q—ANTENNAS, i.e. RADIO AERIALS
  • H01Q1/00—Details of, or arrangements associated with, antennas
  • H01Q1/27—Adaptation for use in or on movable bodies
  • H01Q1/32—Adaptation for use in or on road or rail vehicles
  • H01Q1/3208—Adaptation for use in or on road or rail vehicles characterised by the application wherein the antenna is used
• • H—ELECTRICITY
  • H01—ELECTRIC ELEMENTS
  • H01Q—ANTENNAS, i.e. RADIO AERIALS
  • H01Q21/00—Antenna arrays or systems
  • H01Q21/28—Combinations of substantially independent non-interacting antenna units or systems

Definitions

• the present invention relates to an antenna adapter for a RF- device, which antenna adapter is intended to be connected, by means of a lead containing a pilot core, to an auxiliary antenna arranged in the signal field, and which is arranged to be installed in connection with a RF-device, for transferring a signal inductively/as electromagnetic radiation from the auxiliary antenna to the RF-device, and which includes a tuning circuit roughly tuned to the specific frequency range of a signal, the oscillator contained in which tuning circuit being arranged on a flat surface.
• Auxiliary antennae are used particularly with mobile telephones, if the signal of base stations in the area is too weak, or the path of the signal to the mobile telephone is obstructed, for example, by buildings.
• Model-specific auxiliary antennae are available for most mobile telephones, which, however, are impossible to be used with mobile telephones of a different make or model.
• Auxiliary antennae have also been developed, which can be connected to a universal antenna adapter to be set around the antenna of a mobile telephone. In the antenna adapter in question, the signal coming from the auxiliary antenna is transmitted inductively to the antenna of the mobile telephone and vice versa.
• the operation of the said antenna adapter varies when connected to antennae of different lengths.
• mobile telephones without an external antenna In such cases, it is practically impossible to install a known antenna adapter on the mobile telephone, while even its operation is uncertain.
• GB patent publication number 2266997 discloses an antenna adapter that can be detachably mounted on a mobile telephone.
• the oscillator forming part of the antenna adapter is fitted close to the antenna of the mobile telephone.
• the oscillator in question must be installed very precisely and close to the antenna of the mobile telephone. This is because the oscillator oscillates in every direction and is also low- powered.
• the mounting of the antenna adapter requires a counterpart that is permanently attached to the mobile telephone.
• the invention is intended to create a new type of antenna adapter for a RF-device, which is smaller and more powerful than before, but which will fit different kinds of RF-device.
• the characteristic features of the present invention are stated in the accompanying Claims .
• the tuning circuit is given a flat shape, so that the antenna adapter is particularly thin.
• the antenna adapter has been made small. At the same time, it is simple to orientate the output of the oscillator. Despite its smallness, the antenna adapter can be tuned to signal frequency ranges especially suitable for mobile telephone operation.
• the antenna adapter is placed against the mobile telephone, so that it is easier to attach and it is suitable for all mobile telephones, even small ones without an external antenna.
• the inductive connection is generally not sensitive to atmospheric interference and the associated voltage peaks.
• Figure la shows the antenna adapter according to the invention in operation when connected to a mobile telephone
• Figure lb shows a partial enlargement of Figure la
• Figure 2a shows a front view of the antenna adapter according to the invention
• Figure 2b shows a rear view of the antenna adapter of Figure 2a
• Figure 3a shows schematically a second embodiment formed from the antenna adapters according to the invention
• Figure 3b shows schematically a third embodiment formed from the antenna adapters according to the invention.
• FIG. la shows a schematic diagram of the operation of the antenna adapter according to the invention.
• the antenna adapter is intended for connecting an auxiliary antenna to a RF-device (Radio Frequency), such as, in this case, a mobile telephone.
• a RF-device Radio Frequency
• the signal sent by the base station 12 cannot contact the mobile telephone 11, because the mobile telephone 11 is inside a thick-walled reinforced- concrete building 13 , in which there is also dense wire mesh 14 over the window.
• Other corresponding locations are, for example, cellars, civil-defence shelters, and machine rooms.
• the signal is shown with an arrow.
• the commonest auxiliary antennae are dipole and directional antennae.
• Figure la shows a dipole antenna as the auxiliary antenna 15, which is tuned to receive the signal sent by the base station 12.
• auxiliary antenna 15 there is also a lead 16, which is connected to the antenna adapter 10.
• Besides buildings, vehicles are another important location for applications.
• Figure lb shows the antenna adapter 10, which is detachably attached to the mobile telephone 11.
• the signal is transferred inductively/as electromagnetic radiation from the antenna adapter to the mobile telephone and vice versa.
• the construction of the antenna adapter is examined in greater detail in connection with Figures 2a and 2b.
• the antenna adapter 10 is attached to the mobile telephone 11 separately from its antenna.
• the antenna adapter 10 is arranged to be mounted against the mobile telephone 11 ' essentially at the location of the RF-element 25 forming part of the mobile telephone 11'. There is then little radiation around the mobile telephone, as the signal is transferred over a short distance from the RF- element to the antenna adapter.
• a special attachment construction can be used for the attachment, or according to Figure lb, simply a rubber band 17.
• a galvanic connection is unnecessary, as the signal is transferred inductively.
• the antenna adapter can be attached to even a simple mobile telephone holder, in which case the mobile telephone will receive a good signal when it is in the holder .
• FIG. 2a shows a front view of the antenna adapter 10 according to the invention.
• the broken line shows a possible plastic covering 18 of the antenna adapter 10.
• a tuning circuit containing an oscillator in the antenna adapter, the circuit being roughly tuned to the specific frequency range of a signal.
• GSM technology is in general use.
• the 950- MHz frequency is then used, so that the antenna adapter is tuned, for example, to the frequency range 930 - 970 MHz. While this means that the power of the tuning circuit remains slightly below its maximum, it will operate over a broad frequency range .
• the oscillator 19 is arranged as a spiral 19' on a flat surface, which is arranged to be placed against the mobile telephone.
• the antenna adapter is both small and extremely thin.
• the earth base 20 of the tuning circuit is also arranged on the flat surface, making a separate earth base unnecessary.
• the spiral 19' of the antenna adapter 10 is arranged to be place at the location of the RF-element 25 of the mobile telephone 11 ' . The signal is then transferred with the smallest possible loss.
• the flat surface is, for instance, a circuit board 21, on which the spiral 19' and the earth base 20 are arranged as conductor films.
• the spiral and the earth base add practically no thickness to the antenna adapter.
• the conductor films on a circuit board are copper, but in the antenna adapter according to the invention the conductor films can be silver, or they can be silvered. The losses in the tuning circuit are then small.
• the shining silver surface is shown by diagonal hatching in Figure 2a.
• the base material of the circuit board is shown by dot shading.
• the circuit board 21 is shown with dot shading throughout, while the outlines of the spiral and earth base can be seen through the circuit board 21.
• the flat surface can be formed, for example, from a ceramic plate, a suitable technique being used to form the conductor films on its surface.
• the earth base 20 and the spiral 19 ' are arranged on the flat surface separately from each other. They can therefore operate without interfering with each other.
• the leads 16 of universal auxiliary antennae include a connector 23. Though in principle a corresponding connector could be fitted to the antenna adapter, this would easily increase the thickness of the antenna adapter. According to the figures, the connector 23' belonging to the antenna adapter 10 is actually fitted to a thin and flexible connector lead 16 ' , at a short distance from the antenna adapter 10. Thus, the antenna adapter remains as thin as possible, while the flexibility makes the connectors easy to use and connect.
• the length of the connector lead varies from a few tens of centimetres to about two metres and it is further connected to a thicker low-loss, or preferably a so-called lossless lead. In a good field, it is possible to use a suitable branching connector ( Figure 3a) to connect several antenna adapters according to the invention to a single auxiliary antenna, and even to use several mobile telephones simultaneously, without them interfering with each other.
• the pilot core 22 forming part of the connector lead 16 ' is attached precisely to the centre of the spiral 19 ' , so that the pilot core 22 will interfere with the induction as little as possible. This can be seen especially in Figure 2b.
• the oscillation field of the spiral becomes aligned and precisely delimited. In practice, the oscillation field is tubular and its alignment is normal to the flat surface. In addition, the power peak of the oscillation field is in the centre of the spiral, making it easy to place the antenna adapter correctly.
• the conductor film forming the earth base 20 extends above the edge of the circuit board 21, so that it is easy to attach the connector lead 16' to it.
• the shape of the earth base can vary between different applications. However, the earth base must be separate from the spiral. In addition, the earth base must not cover the flat surface opposite to the spiral, nor must it entirely enclose the spiral .
• the tuning circuit also includes an open length of signal lead 22 before the spiral 19 ' , the length of which is arranged as desired to tune the tuning circuit.
• the tuning circuit is tuned by altering the open length, so that the length varies in different applications.
• the signal lead with a broken line in Figure 2b.
• the earth base is connected to the sheath of the coaxial cable used as a lead, the inner wire forming the pilot core.
• the flat surface is arranged to be placed particularly against the rear surface of the mobile telephone. Thus, it interferes with the use of the mobile telephone as little as possible.
• the internal antenna is in the upper part of the mobile telephone, so that the induction/radiation path is advantageously short. This further ensures the operation of the antenna adapter.
• FIGs 3a and 3b show embodiments formed from antenna adapters according to the invention.
• three antenna adapters 10 are connected to a single auxiliary antenna 15.
• means 27 for connecting more, than one antenna adapter to a single lead 16 have been added to the embodiment.
• the same reference numbers are used for components that are functionally similar.
• each antenna adapter 10 is connected to its own lead 16, which corresponds to the embodiment of Figure la.
• a band amplifier 24 is arranged in the lead 16, in order to amplify the signal coming to and/or leaving from the antenna adapter 10. This improves the operation of the RF-device.
• the antenna adapter acts as an independent transmitter/receiver, so that its oscillation field can be exploited, for example, as follows.
• Figure 3a the rectangle shown by the dotted line represents a panel, in which there are several operational antenna adapters according to the invention.
• an electromagnetic oscillation field is formed, in which a RF-device can be used.
• the panel can be located, for example, in a wall or ceiling.
• Figure 3b shows an embodiment located in a building 13.
• two antenna adapters 10 are used, in the leads 16 of both of which an amplifier 24 is placed.
• one antenna adapter is arranged to receive the signal and the other correspondingly to send it.
• RF-devices can be used freely within the building.
• the antenna adapters effectively transmit the signal of the auxiliary antenna.
• the radiation directed to the user in the embodiment of Figure la is less than usual, because the signal is transferred at low power from the antenna adapter to the auxiliary antenna, which then radiates.
• the antenna adapter can be used with other RF-devices .
• an antenna adapter tuned to a ULA frequency can be placed, for instance, in a picture to be hung on a wall, in which case a radio located in the room in question will receive a strong signal. The radio will then have good reception and will be easy to tune. It is preferable to use an amplifier, especially in the signal reception.
• the size of the oscillator also changes. Generally, as the frequency increases, the size of the antenna diminishes.
• the antenna adapter 10 intended for use in connection with a mobile telephone is shown in nearly full size.
• the height of the antenna adapter 10 is then about 50 mm and its width is about 40 mm, but its thickness is only about 5 mm.
• coaxial cable is used and the impedance of the antenna adapter set at 50 ⁇ .
• the first 70 mm of the outer cover of the coaxial cable is removed, from which the sheath is connected for a distance of 25 mm to the earth base.
• the length of the insulated pilot core is 40 mm, which corresponds to the aforesaid open length for tuning.
• tuning is affected by the length of the spiral.
• the length 2 can be calculated from the equation,
• the antenna adapter is tuned to a frequency of 950 MHz, the material of the conductor film being copper. In that case, the initial length of the spiral is obtained as
• the antenna adapter according to the invention is also suitable for the smallest mobile telephones and also for those without an external antenna. Using correct shaping and dimensioning and material selection, it is possible to create an antenna adapter according to the invention, which is small in size, but nearly lossless and without interference.
• the shape of the spiral can also be, for example, elliptical or eccentric.

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• Engineering & Computer Science (AREA)
• Computer Networks & Wireless Communication (AREA)
• Support Of Aerials (AREA)

Applications Claiming Priority (3)

Publications (1)

Family

ID=8561145

Family Applications (1)

Country Status (3)

Families Citing this family (2)

Family Cites Families (4)

• 2001
  • 2001-05-08 FI FI20010957A patent/FI20010957A0/fi unknown
• 2002
  • 2002-05-08 EP EP02724328A patent/EP1407509A1/de not_active Withdrawn
  • 2002-05-08 WO PCT/FI2002/000392 patent/WO2002091516A1/en not_active Application Discontinuation

Non-Patent Citations (1)

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