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EP 0 593 185 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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30.08.2000 Bulletin 2000/35 |
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Date of filing: 01.10.1993 |
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Wideband antenna arrangement
Breitbandige Antennenanordnung
Disposition d'antenne à large bande
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Designated Contracting States: |
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DE FR GB SE |
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Priority: |
14.10.1992 GB 9221536
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Date of publication of application: |
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20.04.1994 Bulletin 1994/16 |
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Proprietor: NOKIA MOBILE PHONES LTD. |
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24101 Salo (FI) |
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Inventor: |
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- Bukhari, Nadeem
Germantown, MD 20874 (US)
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Representative: Frain, Timothy John |
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Nokia IPR Department
Nokia (UK) Limited
Summit Avenue
Southwood Farnborough
Hampshire GU 14 0NZ Farnborough
Hampshire GU 14 0NZ (GB) |
(56) |
References cited: :
EP-A- 0 177 362 FR-A- 2 570 546 US-A- 4 442 438
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AU-A- 2 284 370 GB-A- 2 050 701 US-A- 4 772 895
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] This invention relates to an antenna arrangement, particularly suitable for use in
wideband telephone applications.
[0002] A coil antenna (sometimes referred to as a "helical antenna") offers a relatively
compact configuration suitable for use with portable radio telephones where size and
weight are important considerations. US patent No. 4,868,576 discloses a retractable
antenna arrangement for a portable radio transceiver, including a fixed antenna coil
and a retractable whip antenna extending through the antenna coil. European patent
application EP-A-0,467,822 relates to a retractable antenna arrangement for a CT2
cordless telephone, and includes an antenna coil carried by an extendable antenna
rod. In the extended position a switching device causes the antenna coil to be disconnected
so that only the antenna rod is operative, but in the retracted position the antenna
rod is disconnected in favour of the antenna coil. Also, our co-pending British patent
application no. 9115134 relates to an antenna assembly comprising an elongate antenna
element mounted in a support and movable between a retracted position and an extended
position. A helical antenna element is carried by one end of the elongate element.
The elongate antenna element is automatically rendered inactive as a radiating element
by movement to the retracted position.
[0003] However, the bandwidth of a coil antenna is relatively narrow. This may not be a
problem in analogue systems where the total operating bandwidth is relatively narrow,
i.e. where the duplex separation (between the transmit and receive bands) is low,
e.g. 45 MHz. By contrast the digital cellular system proposed for Japan, for example,
has a much higher duplex separation of 130 MHz. In this case a single helical antenna
cannot be used because of its limited bandwidth.
[0004] According to the present invention there is provided an antenna arrangement for a
wideband transceiver, the antenna arrangement comprising a first antenna coil tuned
to operate across the receive frequency band of the transceiver, and a second antenna
coil tuned to operate across the transmit frequency band of the transceiver, wherein
the first and second antenna coils share a common feed point, the receive frequency
band,and the transmit frequency band do not overlap, characterised in that the second
antenna coil does not load the first antenna coil when the first antenna coil is operating
in the receive frequency band.
[0005] An antenna arrangement according to the preamble of claim 1 is known from patent
document AU-D-2284 370.
[0006] An antenna arrangement in accordance with the invention has the advantage that it
permits coil antennas to be used, even in a wideband system. Even though two separate
coils are required, the overall arrangement may nevertheless be relatively compact.
To this end both coils are preferably enclosed within a common housing.
[0007] Suitably, one of the antenna coils is used for reception and is tuned to the receive
frequency, and the other is used for transmission and is tuned to the transmit frequency.
[0008] The two antenna coils may be disposed in various configurations, preferably on a
common axis. Thus, the two coils may be disposed in line. In this case the diameter
of the two coils may be the same or different.
[0009] Alternatively, the two coils may be arranged concentrically, one within the other.
In this case the inner coil would have a smaller diameter than the outer coil. In
another arrangement the two coils may be interwound, in which case they would both
have substantially the same diameter.
[0010] It is noted here that one or both of the antenna coils need not have a uniform diameter,
but may instead have a gradually increasing diameter. In this case the antenna coil(s)
would be in the form of a helix.
[0011] Embodiments of the invention will now be described, by way of example, with reference
to the accompanying drawings, in which:
Figure 1 is a schematic illustration of a radio telephone incorporating an antenna
arrangement in accordance with the invention;
Figure 2 is a cross-section of alternative antenna arrangement in accordance with
the invention; and
Figure 3 is a cross-section of another antenna arrangement in accordance with the
invention.
[0012] The portable two-way radio in Figure 1 is a cellular telephone for use in a wideband
cellular system such as the digital cellular system currently proposed for Japan.
As is conventional, the telephone has a main housing 1 enclosing a transceiver 2.
[0013] In accordance with the invention a pair of antenna coils 3,4 are provided in a common
housing 10 outside the main housing 1 on the top wall thereof. The housing 10 may
for example be a plastics encapsulation, and may be formed either as a discrete housing
or integrally with the main housing 1.
[0014] The two antenna coils are disposed in line (i.e. one above the other) on a common
axis.
[0015] The upper antenna coil 3 is coupled to the transmitter 5 of the transceiver 2 via
a duplex filter 7, and the lower antenna coil 4 is coupled to the receiver 6 of the
transceiver 2 via the duplex filter 7.
[0016] The electrical length of the two antenna coils 3,4 is chosen so that the upper antenna
coil 3 is a quarter-wavelength at the transmission frequency of the transceiver 2,
and the lower antenna coil 4 is a quarter-wavelength at the receive frequency of the
transceiver 2.
[0017] In the proposed Japanese digital system the transmission band is 940-856 MHz and
the receive band is 810-826 MHz. In this case the upper antenna coil 3 may be tuned
to 948 MHz, this being the centre frequency of the transmission band; and the lower
antenna coil may be tuned to 818 MHz, this being the centre frequency of the receive
band.
[0018] In the arrangement shown the transmitting antenna coil 3 is above the receiving antenna
coil 4, because the Applicant at present believes this will give better transmission
performance since the antenna coil 3 is further removed from the metal ordinarily
found within the telephone. However it is possible for the two antenna coils to be
interchanged so that the receive antenna coil is disposed above the transmit antenna
coil.
[0019] In the present embodiment the two antenna coils 3,4 have a common feed 8 to and from
the duplex filter 7. The length of the portion 8a of the transmission feed for the
antenna coil 3, which extends through the receive antenna coil 4, is selected to present
an open circuit to the transmission antenna 3. Thus when the lower antenna coil 4
is being used, the upper antenna coil 3 does not load the connection point, so that
only the lower antenna coil is driven. THe antenna coils 3,4 can be designed to match
to 50 ohms so that impedance matching may not be required.
[0020] In the proposed Japanese digital cellular system there is a requirement for diversity
reception, and to this end the telephone may comprise a second, receive antenna 9.
The second receive antenna 9 may have any suitable form and is disposed within the
main housing 1. The second receive antenna 9 is coupled to the receiver section 6
of the transceiver 2.
[0021] Alternative arrangements for the pair of antenna coils are shown in Figures 2 and
3. In Figure 2, the transmit antenna 30 has a larger diameter than the receive antenna
40 and the two antenna coils are disposed concentrically with the receive antenna
coil 40 within the transmit antenna coil 30. The electrical length of the inner (receive)
antenna 40 is greater than that of the outer (transmit) antenna coil 30, and so the
axial length of the inner coil is greater than the outer coil 30. In other words the
inner coil 40 extends beyond the outer coil 30. In an alternative arrangement the
transmission antenna coil may be disposed within the receive antenna coil in which
case the diameters may be selected so that the axial length of the two coils is substantially
the same.
[0022] In Figure 3, the shorter transmission antenna coil 300 is interwound with the larger
receive antenna coil 400.
[0023] In view of the foregoing description it will be evident to a person skilled in the
art that various modifications may be made within the scope of the invention. For
example, as mentioned above, one or both of the antenna coils need not have a uniform
diameter, but may instead be in the form of a helix, i.e. with a gradually increasing
diameter.
[0024] Moreover, it is not necessary for the two antenna coils to be fixedly mounted on
the main housing 2. In an alternative embodiment the dual coil assembly may be carried
by a retractable antenna rod in a manner analogous to that disclosed in the aforementioned
European patent application EP-A-0,467,822 or British patent application no. 9115134.
In this case both of the antenna coils would be decoupled when the antenna rod is
extended, but coupled to the transceiver when the antenna rod is retracted. In a further
embodiment both antenna coils may be provided inside rather than outside the main
housing of the radiotelephone.
1. An antenna arrangement for a wideband transceiver (2), the antenna arrangement comprising
a first antenna coil (4) tuned to operate across the receive frequency band of the
transceiver (2), and a second antenna coil (3) tuned to operate across the transmit
frequency band of the transceiver, wherein the first and second antenna coils share
a common feed point (8), the receive frequency band and the transmit frequency band
do not overlap, characterised in that the second antenna coil (3) does not load the
first antenna coil (4) when the first antenna coil (4) is operating in the receive
frequency band.
2. An antenna arrangement as claimed in Claim 1, wherein the first and second antenna
coils are disposed in a common housing (10).
3. An antenna arrangement as claimed in any of the preceding claims, wherein the first
and second antenna coils are disposed on a substantially common axis.
4. An antenna arrangement as claimed in Claim 3, wherein the first and second antenna
coils are disposed substantially in line.
5. An antenna arrangement as claimed in Claim 3, wherein the first and second antenna
coils have different diameters and are disposed substantially concentrically, one
within the other.
6. An antenna arrangement as claimed in Claim 3, wherein the first and second antenna
coils are interwound.
7. A wideband transceiver apparatus including an antenna arrangement as claimed in any
of the preceding claims, including means (6) for receiving signals having a first
frequency, and means (5) for transmitting signals having a second frequency substantially
different to the first frequency, wherein the first antenna coil (4) is coupled to
the receiving means (6) and the second antenna coil (3) is coupled to the transmitting
means (5).
8. A wideband transceiver apparatus as claimed in Claim 7, including a main housing (1)
enclosing the transmitting means (5) and the receiving means (6), wherein the first
and second antenna coils are external to the main housing (1).
9. A wideband transceiver apparatus as claimed in claim 7, including a main housing (1)
enclosing the transmitting means (5) and the receiving means (6), wherein the first
and second antenna coils are present within the main housing (1).
1. Antennenanordnung für einen Breitband-Sendeempfänger (2), die eine erste Antennenspule
(4), die abgestimmt ist, um über dem Empfangsfrequenzband des Sendeempfängers (2)
betrieben zu werden, und eine zweite Antennenspule (3) umfaßt, die abgestimmt ist,
um über dem Sendefrequenzband des Sendeempfängers betrieben zu werden, wobei die erste
und die zweite Antennenspule einen gemeinsamen Speisepunkt (8) gemeinsam benutzen
und das Empfangsfrequenzband und das Sendefrequenzband sich nicht überlappen, dadurch
gekennzeichnet, daß die zweite Antennenspule (3) die erste Antennenspule (4) nicht
belastet, wenn die erste Antennenspule (4) im Empfangsfrequenzband betrieben wird.
2. Antennenanordnung nach Anspruch 1, wobei die ersten und zweiten Antennenspulen in
einem gemeinsamen Gehäuse (10) angeordnet sind.
3. Antennenanordnung nach einem der vorangehenden Ansprüche, wobei die ersten und zweiten
Antennenspulen auf einer im wesentlichen gemeinsamen Achse angeordnet sind.
4. Antennenanordnung nach Anspruch 3, wobei die ersten und zweiten Antennenspulen im
wesentlichen hintereinander angeordnet sind.
5. Antennenanordnung nach Anspruch 3, wobei die ersten und zweiten Antennenspulen unterschiedliche
Durchmesser aufweisen und im wesentlichen konzentrisch, eine innerhalb der anderen,
angeordnet sind.
6. Antennenanordnung nach Anspruch 3, wobei die ersten und zweiten Antennenspulen zusammengewickelt
sind.
7. Breitband-Sendeempfängervorrichtung mit einer Antennenanordnung nach einem der vorhergehenden
Ansprüche, die Mittel (6) zum Empfangen von Signalen, die eine erste Frequenz aufweisen,
und Mittel (5) zum Senden von Signalen umfaßt, die eine zweite Frequenz aufweisen,
die sich im wesentlichen von der ersten Frequenz unterscheidet, wobei die erste Antennenspule
(4) mit den Empfangsmitteln (6) verbunden ist und die zweite Antennenspule (3) mit
den Sendemitteln (5) verbunden ist.
8. Breitband-Sendeempfängervorrichtung nach Anspruch 7, die ein Hauptgehäuse (1) umfaßt,
das die Sendemittel (5) und die Empfangsmittel (6) umschließt, wobei sich die ersten
und zweiten Antennenspulen außerhalb des Hauptgehäuses (1) befinden.
9. Breitband-Sendeempfängervorrichtung nach Anspruch 7, die ein Hauptgehäuse (1) umfaßt,
das die Sendemittel (5) und die Empfangsmittel (6) umschließt, wobei die ersten und
zweiten Antennenspulen im Hauptgehäuse (1) vorhanden sind.
1. Disposition d'antenne pour un émetteur-récepteur à large bande (2), la disposition
d'antenne comprenant une première bobine d'antenne (4) accordée pour fonctionner a
travers la bande de fréquence de réception de l'émetteur-récepteur (2) et une deuxième
bobine d'antenne (3) accordée pour agir à travers la bande de fréquence de transmission
de l'émetteur-récepteur, dans lequel les première et deuxième bobines d'antenne partagent
un point d'alimentation commun (8), la bande de fréquence de réception et la bande
de fréquence de transmission ne se chevauchent pas, caractérisée en ce que la deuxième
bobine d'antenne (3) ne charge pas la première bobine d'antenne (4) lorsque la première
bobine d'antenne (4) est en fonctionnement dans la bande de fréquence de réception.
2. Disposition d'antenne selon la revendication 1, dans laquelle les première et deuxième
bobines d'antenne sont disposées dans un logement commun (10).
3. Disposition d'antenne selon l'une quelconque des revendications précédentes, dans
laquelle les première et deuxième bobines d'antenne sont disposées sur un axe sensiblement
commun.
4. Disposition d'antenne selon la revendication 3, dans laquelle les première et deuxième
bobines d'antenne sont disposés sensiblement en ligne.
5. Disposition d'antenne selon la revendication 3, dans laquelle les première et deuxième
bobines d'antenne présentent différents diamètres et sont disposés sensiblement concentriques,
l'une à l'intérieur de l'autre.
6. Disposition d'antenne selon la revendication 3, dans laquelle les première et deuxième
bobines d'antenne sont inter-enroulées.
7. Appareil émetteur-récepteur à large bande incluant une disposition d'antenne selon
l'une quelconque des revendications précédentes, incluant un moyen (6) destiné à recevoir
des signaux comportant une première fréquence, et un moyen (5) destiné à transmettre
des signaux comportant une deuxième fréquence sensiblement différente de la première
fréquence, dans lequel la première bobine d'antenne (4) est couplée au moyen de réception
(6) et la deuxième bobine d'antenne (3) est couplée au moyen de transmission (5).
8. Appareil émetteur-récepteur à large bande selon la revendication 7, incluant un logement
principal (1) enfermant le moyen de transmission (5) et le moyen de réception (6)
dans lequel les première et deuxième bobines d'antenne sont externes au logement principal
(1).
9. Appareil émetteur-récepteur à large bande selon la revendication 7, incluant un logement
principal (1) enfermant le moyen de transmission (5) et le moyen de réception (6),
dans lequel les première et deuxième bobines d'antenne sont présentes à l'intérieur
du logement principal (1).