AU642807B2

AU642807B2 - Antenna for vehicle window

Info

Publication number: AU642807B2
Application number: AU10960/92A
Authority: AU
Inventors: Stephen Roland Day
Original assignee: Pilkington PLC
Current assignee: Pilkington Group Ltd
Priority date: 1991-02-22
Filing date: 1992-02-14
Publication date: 1993-10-28
Anticipated expiration: 2012-02-14
Also published as: EP0500380B1; DE69210281D1; US5255002A; EP0500380A1; JPH0563425A; JP3322900B2; GB9103737D0; DE69210281T2; KR920017296A; ZA921064B; AU1096092A

Description

AUSTRALIA

Patents Act COMPLETE SPECIFICATION

(ORIGINAL)

Int. Class Class Application Number: Lodged: Complete Specification Lodged: Accepted: Published: Priority Related Art: ro~o ~co~ o ~D aoac oooo coioo ocor, orroa~o os D o~ owr~ Ir D r~ o+ar c ~o oci o e o roir Name of Applicant: Pilkington PLC Actual Inventor(s): Stephen Roland Day Address for Service: PHILLIPS ORMONDE FITZPATRICK Patent and Trade Mark Attorneys 367 Collins Street Melbourne 3000 AUSTRALIA Invention Title: ANTENNA FOR VEHICLE WINDOW Our Ref 279560 POF Code: 104212/1370 The following statement is a full description of this invention, including the best method of performing it known to applicant -1- 6006 'A ANTENNA FOR VEHICLE WINDOW The invention relates to an antenna formed on a vehicle window for transmission and/or reception of radio waves particularly, but not exclusively, for a mobile telephone.

It is known to print antennae of various forms onto vehicle windows as they have advantages in not being exposed to external damage.

Cellular radio communication is now widely used for mobile telephones in vehicles and it is an object of the present invention to provide an improved antenna on a vehicle window suitable for use with such a mobile vehicle phone.

Sa A conventional rod aerial externally mounted on a vehicle has two terminals normally connected to a coaxial cable the outer conductor of which provides an earth connection coupled to the vehicle body where the antenna is mounted.

It is a further object of the present invention to provide an 0 antenna on a vehicle window with an improved matching 0 connection to a coaxial cable.

O The present invention provides a vehicle window comprising a sheet for mounting on a vehicle body, said sheet supporting thereon adjacent an edge of the sheet an antenna system for transmission and/or reception of radio waves said antenna 0 system comprising a first conducting member having lateral edges inclined inwardly towards each other to form an apex pointing towards said edge of the sheet and a connection terminal at a position on the first conducting member towards said edge, and a second conducting member electrically insulated from the first conducting member and having a respective connection terminal, said second conducting member being located between the first conducting member and said -2 edge, both said conducting members lying in the plane of said sheet.

Preferably said second conducting member is arranged to form a transmission line with said vehicle body when in situ and thereby form an earth line for the antenna system.

Preferably said first conducting member includes a substantially V-shaped member having the connection terminal at the apex of the V.

Preferably said second conducting member comprises a linear conductor extending substantially parallel to said edge of the sheet.

Preferably said first conducting member has a central axis of symmetry extending substantially perpendicular to said edge of the sheet.

Preferably in situ said second conducting member extends substantially horizontally and said axis of symmetry of the first conducting member extends substantially vertically.

Preferably the angle between said inclined lateral edges is less than 1400, and preferably between 400 and 1100.

Preferably each said inclined lateral edge has a length substantially equal to 1/4X whereX is the wave length of the radio wave to be transmitted and received.

Preferably said second conducting member comprises a linear conductor having a length of (1/4 where n is an integer, on one or both sides of said connection terminal of the second conducting member. n may have a different integer value on the two sides of the connection terminal.

4 L 3 Some embodiments of the inventicn will now be described by way K of example and with reference to the accompanying drawings in which: Figure 1 shows one design of antenna on a vehicle windscreen providing a preferred embodiment of the invention, Figures 2 and 3 show impedance matching results on connecting an antenna of the type shown in Figure 1 to a coaxial cable in different positions in a vehicle, and Figures 4 to 13 show different embodiments of an antenna in accordance with the present invention.

Each of these examples provides an antenna suitable for use with a cellular radio phone, the antenna comprising first and second conducting members 11 and 12 supported on a transparent glass sheet 13 for mounting on a vehicle body 14. The antenna may be printed or otherwise formed on the glass sheet so that the conducting members 11 and 12 lie effectively in the plane of the sheet which may be flat or curved. The conducting members may be applied to an inner surface of glass in a laminate window or alternatively and more usually they may be formed on an external glass surface of a laminate or a monolith sheet. They may also be covered by an electrically insulating sheet such as a plastic film which may be transparent or opaque. Alternatively a non-conductive substance may be printed or painted over otherwise accessible parts of the conducting members.

In each example, the first conducting member 11 has lateral edges 15 and 16 which are inclined inwardly towards each other to form an apex 17 pointing towards an edge 18 of the sheet 13. A first connection terminal 19 is provided on the first conducting member at a position towards the edge 18 of the sheet 13. The second conducting member 12 is electrically 4 insulated from the first conducting member 11 and has a connection terminal 20. The second conducting member 12 is located between the first conducting member 11 and the edge 18 of the glass sheet 13.

In the example shown in Figure 1 the first conducting member 11 is V-shaped so that the lateral edges 15 and 16 are provided by two inclined arms of the V. The conductor may be formed from wire or conductive tracks which each have a width of typically 2 mm. The length of the two arms 15 and 16 are each one quarter the wavelength of the radio waves used in the cellular sfstem. The V has a central axis of symmetry between the two arms 15 and 16, the axis of symmetry being perpendicular to the edge 18 of the sheet 13 and vertical when in situ in a vehicle body. The angle between the two arms and 16 is preferably less than 1400 and more preferably between 400 and 1100. 900 provides a particularly effective embodiment. In the arrangement shown in Figure 1, the second conducting member 12 comprises a straight linear track of conducting material having a width between 5 and mm. It is printed on the glass close to and parallel to the edge 18 of the glass sheet. This track may be hidden behind a fade-in band on the glass. In use the track 12 extends horizontally and is symmetrically located relative to the apex 17 of the V-shaped conductor. In this way a connection terminal 20 is centrally provided on the track 12 so that the connector 20 is close to but electrically insulated from the connection terminal 19 on the V conductor. The track 12 extends equally on both sides of the connection terminal and the length of projection of each half of the track 12 is (1/4 n/2) where l is the wavelength of the radio waves used and n is an integer. Although in this example the track extends symmetrically on either side of the apex of the V-shaped conductor the track 12 may be arranged to extend on one side only or unequally on both sides provided the extension on each side meets the requirement of being (1/4 n/2)f The angle between each of the arms 15 and 16 and the -=If 5 horizontal track 12 may be adjusted to suit the particular application and is usually greater than 200 and preferably between 35 and 700. 60 is a particularly good example. As this angle is increased the greatest bandwidth is obtained at a progressively increasing impedance. The angle chosen at any specific location on a vehicle will be such as to obtain the best bandwidth to, typically 50 coaxial cable. In the particular example shown in Figure 1, the track 12 may be 100 mm in length or 300 mm in length so that the system is particularly useful for a 900 MHz cell phone frequency. The track 12 is spaced a short distance from the edge 18 of the glass sheet and acts as an electrical transmission line between itself and the adjacent metal bodywork of the vehicle. In use the outer braid of a coaxial cable is connected to the connection terminal 20 and the inner line of the coaxial cable is connected to the connection terminal 19. In this way the transmission line formed by the track 12 acts as an open circuit at its outer ends and thereby forms an effective short circuit between the track 12 and the adjacent vehicle bodywork 14 adjacent the connection terminal This has the same effect as connecting the outer braid of the coaxial cable to the bodywork 14 and thereby providing an earth part.

The coaxial cable used with the example of Figure 1 is 50 ohm cable and this embodiment provides an improved matching of the antenna impedance with the coaxial cable impedance over a broader band width than usual. This improved broad band width performance obtained by the example of Figure 1 is relatively insensitive to the cable routing and positioning due to the effective short circuit provided between the connection point and the car bodywork 14.

It will be appreciated that the dimensions referred to above in terms of the wavelength of radio waves used do of course relate to the velocity of the radio waves in the media around -6the antenna section and in the case of 900 MHz communications the length of a quarter wave using printed and adhesive copper tape implementations on a glass windscreen has been found to be around 45-55 mm.

The coaxial cable may be connected to the connection terminals 19 and 20 by splitting the cable core and braid close to the connection points or alternatively suitable connecting devices may be mounted on the glass so that the connector devices are coupled to the terminals 19 and 20. Such connectors may be secured to the glass by adhesive and electrical connections with the terminals 19, 20 and coaxial cable may be formed by soldering or spring-loaded connections.

Other shapes of first and second conducting members forming an antenna in accordance with the invention are shown in Figures 4 to 11. Each of these examples includes a first conducting member 11 having the inclined lateral edges referred to above as well as a second conducting member 12 located between the first conducting member and the car body. Like reference numerals have been used for parts corresponding to those of Figure 1.

It will be seen that in Figures 4, 5, 6, 7, 9 and 10 the V-shaped conducting member has added vertical or horizontal arms. In the case of Figure 8 the inclined lateral edges of the conductor are formed by a segment of a circular conducting member. In the case of Figure 11 the track 12 is an extended track parallel to the edge 18 of the window but the upper edges of the track are inclined so that the track is outwardly Sflared on moving away from the centre connection terminal In the case of Figure 12 the second conducting member 12 has a short horizontal middle section 25 and upwardly inclined outer sections 26 and 27.

In the case of Figure 13 the second conducting member is in the form of a second V-shaped member 28. The second V-shaped 7 -7member is located between the first conducting member and the edge 18 having its axis of symmetry aligned vertically with that of the first conducting member 11. The two apexes are arranged face to face but electrically insulated from each other, each having respective connection terminals 19 and This embodiment extends further into the glass window 13 than those embodiments having a linear track 12.

It will be appreciated that the above described examples can be arranged close to the lateral edge of a vehicle window so as to project only slightly into areas which are normally reserved for vision.

The invention is not limited to the details of the foregoing examples.

It will be seen that in the above examples the connection terminal 19 is provided on the first conducting member at a position nearest the edge 18 of the sheet 13 so that the first conducting member extends away from the terminal 19 in a cirection away from the edge 18.

The reflection coefficient for two antennae of the type shown in Figure 1 in different positions in a vehicle window are shown in Figures 2 and 3. In each case the reflection 0 040 coefficient is shown for a range of frequencies and it can be seen that the reflection coefficient is reduced showing o~ i oo improved matching with the connecting cable over a broad 0 bandwidth, such as 850 MHz to 980MHz, relevant to the cellular radio system used for a vehicle telephone.

The antenna may be formed in any window such as a windscreen, backlite, sidelite, quarterlite, sixthlite or rooflite of a vehicle. The antenna may alternatively be used for reception of radio signals other than mobile telephones, such as television signals.

Claims

1. A vehicle window comprising a sheet for mounting on a vehicle body, said sheet supporting thereon adjacent an edge of the sheet an antenna system for transmission and/or reception of radio waves, said antenna system comprising a first conducting member having lateral edges inclined inwardly towards each other to form an apex pointing towards said edge of the sheet and a connection terminal at a position on the first conducting member towards said edge, and a second conducting member electrically insulated from the first conducting member and having a respective connection terminal, said second conducting member being located between the first conducting member and said edge, both said conducting members lying in the plane of said sheet.

2. A vehicle window according to claim 1 in which said second conducting member is arranged to form a transmission line with said vehicle body when in situ and thereby form an earth line for the antenna system.

3. A vehicle window according to claim 1 or claim 2 in which said first conducting member includes a substantially V-shaped member having the connection terminal at the apex of the V.

4. A vehicle window according to any one of the preceding claims in which said second conducting member comprises a linear conductor extending substantially parallel to said edge of the sheet. i 2 A vehicle window according to any one of the preceding claims in which said first conducting member has a central axis between said lateral edges extending substantially perpendicular to said edge of the sheet. -9

6. A vehicle window according to claim 4 and 5 in w;.ich the arrangement is such that when the window is in situ said second conducting member extends substantially horizontally and said axis of symmetry of the first conducting member extends substantially vertically.

7. A vehicle window according to any one of the preceding claims in which the angle between said inclined lateral edges is less than 1400.

8. A vehicle window according to claim 7 in which said angle is between 400 and 1100

9. A vehicle window according to any one of the preceding claims in which each said inclined lateral edge has a length substantially equal to 1/4A' where is the wave length of the radio wave to be transmitted and received. A vehicle window according to any one of the preceding claims in which said second conducting member comprises a linear conductor having a length of (1/4 n/2) where n is an integer on one or both sides of said connection terminal of the second conducting member.

11. A vehicle window according to any one of the preceding claims in which the second conducting member extends equally on opposite sides of the connecting terminal of the second conducting member and the apex of the first conducting member is located adjacent the centre of the second conducting member. S12. A vehicle window according to any one of the preceding claims in which the antenna system is arranged to transmit and/or receive radio waves in the range of 850 to 980 MHz.

13. A vehicle window according to any one of the preceding claims in which a 50 ohm coaxial cable is connected to respective connection terminals of the antenna system. I 10

14. A vehicle window according to any one of the preceding claims in which said antenna system is formed on a transparent sheet below a transparent insulating layer. DATED: 13 FEBRUARY 1992 PHILLIPS ORMONDE F' "ZPATRICK Attorneys for: PILKTNGTON PLC 4 1441 4 4 0c 04 00444: 0 4 Si 11- ANTENNA FOR VEHICLE WINDOW ABSTRACT This invention concerns an antenna system for the transmission and reception of radio waves for, typically, cellular radio commun cation. The antenna is, ideally, fo-med on a vehicle window and is so designed to enable minimum obstruction to viewing through the window and to provide excellent electrical impedance matching between the antenna and connecting coaxial cable. Several embodiments are disclosed, however, the essential design comprises two closely located conducting members to which electrical connectiorn is made, located on the window. The first conducting member is "V"-shaped with each leg of the being equivalent in length to A/4. The angle between the two arms of the are carefully selected as is the angle between the arms and the edge of the window. The apex of the points towards the edge of the window and an intervening second electrical conductor which is parallel to the edte of the window. Electrical connection is made to the two conductors at points at the apex of the on the first conductor and immediately opposite the apex of the on the second conductor. The second conductor projects 1/4 n/2 wavelengths each side of the connection point, where n is a positive integer (including zero). -II