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EP 0 924 810 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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07.04.2004 Bulletin 2004/15 |
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Date of filing: 10.12.1998 |
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International Patent Classification (IPC)7: H01R 13/646 |
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Coaxial antenna connector for mobile phone
Koaxialantennenverbinder für ein Mobiltelefon
Connecteur d' antenne coaxiale pour un téléphone portable
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Designated Contracting States: |
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CH DE FI FR GB LI SE |
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Priority: |
22.12.1997 EP 97122616
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Date of publication of application: |
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23.06.1999 Bulletin 1999/25 |
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Proprietor: THE WHITAKER CORPORATION |
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Wilmington, Delaware 19808 (US) |
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Inventors: |
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- Bozzer, Dieter
1880 Bex (CH)
- Kempter, Sébastien
1860 Aigle (CH)
- Rithener, Blaise
1800 Vevey (CH)
- Thomas, Lionel
1967 Bramois (CH)
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(74) |
Representative: Heinz-Schäfer, Marion |
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Tyco Electronics Logistics AG
Ampèrestrasse 3 9323 Steinach 9323 Steinach (CH) |
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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 a coaxial connector for interconnecting the antenna of
a mobile phone to circuitry thereof.
[0002] Mobile phones comprise their own antennas but when the phone is positioned on a support
in a automobile for example, the phone connects to the automobile antenna. The connection
of the mobile phone to the automobile antenna requires a switch to disconnect the
phone from its antenna. The connector for connection to the external antenna is typically
a coaxial type of connector having an inner conductor concentrically surrounded by
a ground conductor.
[0003] An example of a coaxial switching connector assembly is shown in European application
685 911 A1. The switch function is accomplished by provision of a spring loaded bush
mounted concentrically around a coaxial center pin conductor and biased against a
conductor pad. Disconnection between the center pin and conductor pad occurs during
plugging of the complementary connector which depresses the concentric bush member.
One of the problems of the latter design and other coaxial connectors, is that they
are not adapted to absorb relatively large tolerances in position of the mating parts.
This is particularly important in applications such as cell phones, where in comparison
to the connector size, the positioning of the cell phone in its support (cradle) may
vary significantly. Another problem arises from the frequent plugging and unplugging
and relatively large shocks and forces to which contacts are subject.
[0004] From US 4,286,335 A coaxial connector assembly for a mobile communication device
such as a phone is known, comprising a first coaxial connector pluggably matable with
a complementary coaxial antenna connector, the first connector comprising a center
contact matable with a center conductor of the complementary pluggable connector,
the center contact actuating a switch for disconnecting an internal antenna from circuitry
of the mobile phone when the complementary connector is plugged with the first connector,
the assembly further comprising a second coaxial connector integrally formed with
the first connector for connection to the internal antenna.
[0005] It would be desirable to provide a coaxial connector interface that supports high
mechanical solicitation and a large number of connection cycles in a compact and cost-effective
manner.
[0006] In conventional designs it is typical to interconnect, via circuit traces on the
cell phone PCB, the center conductor that is switched by the external antenna connector,
to an antenna mounted in the phone. The connection between the antenna and PCB requires
a further connection device. One of the problems of conventional interconnections
between the antenna and the coaxial switching connector is the relatively poor electrical
performance and the plurality of components that increase manufacturing and assembly
costs. Tolerances in the positioning of the antenna relative to the printed circuit
board may be fairly large. It would be advantageous to provide a connection system
to the antenna that allows for large positional tolerances without diminishing the
electrical performance.
[0007] It is an object of this invention to improve the interconnection between antennas
and a mobile phone.
[0008] Objects of this invention have been achieved by providing the connector according
to claim 1. Disclosed herein is a coaxial connector assembly comprising a first coaxial
connector for mating pluggably with a complementary coaxial external antenna connector,
the first connector comprising an inner contact matable with a center conductor of
the complementary connector, the inner contact comprising a switch for disconnecting
an internal antenna from circuitry of the mobile phone when the complementary connector
is plugged with the first connector, wherein the assembly further comprises a second
coaxial internal antenna connector integrally formed with the first connector for
connection to the internal antenna. The second coaxial connector comprises an inner
conductor resiliently movable in an axial direction orthogonal to a PCB if the assembly
is mounted on the PCB.
[0009] A spring element for resiliently biasing the inner contact may be integrally formed
with a portion of the switch. The spring element and portion of switch may be stamped
and formed from sheet metal for a particularly cost-effective and reliable design.
The assembly may comprise a dielectric housing formed of an integral part, for example
by moulding, to which the inner and outer contacts of the assembly are securely fastened.
A single assembly that can be easily handled and connected to a printed circuit board,
and that allows interconnection of an internal or an external antenna via the switching
coaxial connector is thus provided. A particularly cost-effective and reliable antenna
connection is thus achieved. The second coaxial connector for the internal antenna
may comprise a center contact mounted concentrically within a portion of housing,
the center conductor slideably movable in an axial direction substantially perpendicular
to a circuit board when the connector is mounted thereon. The second coaxial connector
center contact may have an enlargened dome-shaped contact portion for adjusting to
positional tolerances of the internal antenna with respect to the connector. The center
contact may be machined from solid metal.
[0010] The first coaxial connector may comprise a pin-shaped center contact slideable in
an axial direction substantially orthogonal to a printed circuit board on which the
connector is mounted, the center contact having a contact portion protruding beyond
a mating face of the dielectric housing for resilient abutment against the center
contact of the pluggable complementary connector. Resilient biasing of the center
pin contact may be effected by a stamped and formed spring arm having a portion of
the switch thereon.
[0011] Further advantageous aspects of this invention are set forth in the claims, or will
be apparent from the following description and drawings.
[0012] An embodiment of this invention will now be described by way of example with reference
to the figures in which;
figure 1 is a partial cross-sectional side view of an assembly according to this invention
mounted on a printed circuit board;
figure 2 is a view in the direction of arrow 2 of figure 1;
figure 3 is a view in the direction of arrow 3 of figure 1;
figure 4 is a partial top view of the layout of circuit traces on the printed circuit
board, for connection to the connector assembly;
figure 5 is a cross-sectional view through lines 5-5 of figure 3 showing an internal
antenna connected to the connector assembly;
figure 6 is view similar to figure 5 but showing the internal antenna in a different
position due to positional tolerances.
[0013] Referring to figures 1-6, a coaxial connection assembly 2 for connecting an internal
70 or external antenna to a mobile phone, is mountable on a circuit board PCB 1 of
the mobile phone. The assembly 2 comprises a first coaxial connector 4 (or switching
connector) and a second coaxial connector 6 (or internal antenna connector) that are
formed together in a single assembly. The assembly 2 has a common dielectric housing
8 (see figure 5) to which conductive contacts of the connectors 4, 6 are securely
mounted.
[0014] Referring mainly to figures 5 and 2, the switching connector 4 comprises a dielectric
housing portion 10, which is part of the housing 8, within which is axially slideably
mounted a center contact 12, and mounted concentrically therearound is an outer contact
14. The connector 4 has a mating section 16 and a connection section 18. The connection
section 18 comprises a first contact leg 19 and a second contact leg 20 mounted from
a connection side 22 of the housing 8 into a recess 23 extending from the mounting
or connection face 22. The contact legs 19, 20 are stamped and formed from sheet metal
and have retention members in the form of V-shaped barbs 24 that engage opposing walls
of vertical grooves 26 in the housing, for securing the contacts 19, 20 within the
recess 23.
[0015] The first contact leg 19 comprises a PCB connection portion in the form of a surface
mount tab 28 for solder surface mount on the printed circuit board 1, in particular
to a circuit trace 31 (see figure 4) thereon. The contact leg 19 further comprises
a spring member in the form of a cantilever beam spring arm 30 extending from the
mounting portion 24 to a free end 32. Proximate the free end 32 is a contact portion
in the form of a protrusion 34 that biases against a complementary contact portion
36 of the second contact leg 20. The spring arm 30 extends across a connection end
38 of the center contact 12. The connection portion 38 is enlargened with respect
to the body 39 of the pin-shaped center contact such that the connection end 38 provides
an abutment 40 limiting upward biasing of the center contact 12 beyond a mating face
42 of the housing portion 10. The center pin contact 12 is depressed towards the printed
circuit board when a complementary coaxial connector is plugged to the connector 4,
thereby abutting a protruding contact surface 44 of the center pin contact 12. The
complementary plugging connector is for example interconnected to a external antenna
such as the antenna of an automobile whereby the switch contacts 34, 36 are open thereby
disconnecting the internal antenna 70. The outer contact 14 of the connector 4 has
a large funnel-shaped mating portion 46 having a mating end 48 protruding well beyond
the pin contact surface 44 for guiding and adjusting tolerances during plugging of
the complementary external antenna connector to the switching connector. The outer
contact 14 is connected to circuit trace portions 50 (see figure 4) by extensions
52 (see figures 1 and 3) integrally extending axially from the concentric portion
51 surrounding the dielectric portion 10, the extensions 52 provided with contact
pads 53 for surface mount solder connection to the circuit traces 50.
[0016] The antenna connector 6 comprises a dielectric housing portion 56 forming part of
the housing 8 and concentrically surrounding a center contact 58, the housing portion
56 concentrically surrounded by an outer contact 60. The center contact 58 extends
from a connection end 62 to a contact end 64, and is axially slideable in an axially
extending cavity 66 of the housing portion 56. The contact end 64 has an enlargened
head 67 with a domed contact surface 68 against which an antenna 70 abuts. The large
domed contact surface 68 enables the antenna 70 to be positioned significant tolerances
with respect to the connector. As the antenna 70 is mounted to a housing of a cell
phone, it is advantageous to allow for substantial tolerance in positioning between
the housing and PCB mounted in the housing, in view of increasing reliability and
reducing manufacturing costs. The center contact 58 is spring mounted such that relatively
large tolerances in the axial direction (A) are absorbed, (the axial direction is
defined as substantially perpendicular to PCB 1 on which the connector is mountable),
as can be seen by comparing figures 5 and 6. Thus, large tolerances in the radial
direction R (substantially parallel to the plane of the PCB 1) and large tolerances
in the axial direction A can be absorbed.
[0017] The resiliency of the second coaxial connector center contact is provided by a spring
arm 72 abutting against the connection end 62 of the center contact 58. The spring
arm 72 is integrally stamped and formed with the second contact leg 28 which is mounted
in the housing recess 23. The spring arm 72 is in the form of a cantilever beam where
the contact against the connection end 62 is proximate a free end 74 of the arm. The
spring arm 72 also effects the electrical interconnection between the center contact
58 and the second contact leg 20 through the switch to the PCB center contact circuit
trace 31. The center contact 58 comprises a retention shoulder 76 engageable with
a shoulder 78 in the cavity 66 for retaining the center contact in an upwardmost position
protruding beyond a mating face 80 of the dielectric housing portion 56.
[0018] The outer contact 60 of the second coaxial connector 6 is interconnected to the PCB
by provision of a contact pad 82 soldered against a complementary semi-circular circuit
trace 84 (see figure 4) that is interconnected to the outer contact circuit traces
50. The connectors 4,6 are mechanically held together by the common dielectric housing
8 such that a single connector assembly can be handled and assembled to a circuit
board thereby reducing assembly costs. In addition, the secure and accurate positioning
of the connector 4, 6 with respect to each other enable reliable interconnection of
an internal antenna 70 or an external antenna to the circuit board 1 in a particularly
cost-effective manner. Furthermore, the internal antenna connector 6 absorbs large
misalignments between the internal antenna 70 and the printed circuit board by way
of the enlargened dome-shaped contact surface 68 and the axially slideable center
contact 58 resiliently mounted against the spring arm 72. The contact legs 19, 20
can be simply assembled into the common housing 8 by insertion into the recess 23
in a single insertion assembly.
1. A coaxial connector assembly (2) for a mobile communication device such as a phone,
comprising a first coaxial connector (4) pluggably matable with a complementary coaxial
antenna connector and a switch (30, 34, 36) for disconnecting an internal antenna
(70) from circuitry of the mobile communication device, the first connector comprising
a center contact (12) matable with a center conductor of the complementary pluggable
connector, the center contact actuating the switch (30, 34, 36) for disconnecting
an internal antenna (70) from circuitry of the mobile phone when the complementary
connector is plugged with the first connector (4), the assembly further comprising
a second coaxial connector (6) integrally formed with the first connector (4) for
connection to the internal antenna (70) characterised in that the internal antenna connector (6) comprises a center contact (58) resiliently movable
in an axial direction (A) orthogonal to a PCB (1) if the assembly is mounted on the
PCB.
2. The assembly of claim 1 characterised in that the internal antenna connector center contact (58) is slideably mounted in a cavity
(66) of a dielectric housing portion (56), whereby resiliency is provided by a separate
spring arm (72) engaging the center contact.
3. The assembly of claim 2 characterised in that the spring arm (72) is stamped and formed from sheet metal.
4. The assembly of claim 2 or 3 characterised in that the spring arm (72) is integrally formed with a second contact leg (20) having a
portion (36) of the switch.
5. The assembly of anyone of the preceding claims wherein the internal antenna connector
center contact (58) has a dome-shaped contact surface (68) for abutment against the
internal antenna (70).
6. The assembly of anyone of the preceding claims wherein the first connector has a dielectric
housing portion (10) and the second connector has a dielectric housing portion (56),
the housing portions (10,56) integrally formed in a common dielectric housing (8)
to which contacts (12, 58, 14, 60, 19, 20) are securely mounted.
7. The assembly of anyone of the preceding claims wherein the first connector (4) comprises
a center contact (12) mounted slideably in an direction (A) perpendicular to the PCB
(1) when the assembly is mounted thereto, the center contact having a contact surface
(44) projecting beyond a mating face (42) of a dielectric housing portion (10) for
abutment against the complementary pluggable connector.
8. The assembly of claim 7 wherein the first connector center contact (12) engages a
spring arm (30) that comprises a portion (34) of the switch.
9. The assembly of claim 5 characterised in that the contact surface (68) has a dome-shape having a diameter substantially greater
than the portion of pin-shaped center contact positioned within the cavity (66) of
the housing portion (56) in order to absorb tolerances in positioning an antenna (70)
in a radial direction (R) substantially orthogonal to the axial direction (A).
1. Koaxialverbinderanordnung (2) für ein mobiles Kommunikationsgerät, wie beispielsweise
ein Telefon, die aufweist: einen ersten Koaxialverbinder (4), der mit einem komplementären
Koaxialantennenverbinder steckbar in Eingriff kommen kann; und einen Schalter (30,
34, 36) für das Trennen einer Innenantenne (70) von der Schaltung des mobilen Kommunikationsgerätes,
wobei der erste Verbinder einen Mittelkontakt (12) aufweist, der mit einem Mittelleiter
des komplementären steckbaren Verbinders in Eingriff kommen kann, wobei der Mittelkontakt
den Schalter (30, 34, 36) für das Trennen einer Innenantenne (70) von der Schaltung
des Mobiltelefons betätigt, wenn der komplementäre Verbinder mit dem ersten Verbinder
(4) gesteckt wird, wobei die Anordnung außerdem einen zweiten Koaxialverbinder (6)
aufweist, der zusammenhängend mit dem ersten Verbinder (4) für eine Verbindung mit
der Innenantenne (70) ausgebildet ist, dadurch gekennzeichnet, daß der Innenantennenverbinder (6) einen Mittelkontakt (58) aufweist, der elastisch in
einer axialen Richtung (A) orthogonal zu einer Leiterplatte (1) beweglich ist, wenn
die Anordnung auf der Leiterplatte montiert wird.
2. Anordnung nach Anspruch 1, dadurch gekennzeichnet, daß der Mittelkontakt (58) des Innenantennenverbinders verschiebbar in einem Hohlraum
(66) eines dielektrischen Gehäuseabschnittes (56) montiert ist, wodurch eine Elastizität
durch einen separaten Federarm (72) bewirkt wird, der mit dem Mittelkontakt in Eingriff
kommt.
3. Anordnung nach Anspruch 2, dadurch gekennzeichnet, daß der Federarm (72) aus Blech gestanzt und geformt wird.
4. Anordnung nach Anspruch 2 oder 3, dadurch gekennzeichnet, daß der Federarm (72) zusammenhängend mit einem zweiten Kontaktschenkel (20) gebildet
wird, der einen Abschnitt (36) des Schalters aufweist.
5. Anordnung nach einem der vorhergehenden Ansprüche, bei der der Mittelkontakt (58)
des Innenantennenverbinders eine kuppelförmige Kontaktfläche (68) für ein Anstoßen
an die Innenantenne (70) aufweist.
6. Anordnung nach einem der vorhergehenden Ansprüche, bei der der erste Verbinder einen
dielektrischen Gehäuseabschnitt (10) und der zweite Verbinder einen dielektrischen
Gehäuseabschnitt (56) aufweist, wobei die Gehäuseabschnitte (10, 56) zusammenhängend
in einem gemeinsamen dielektrischen Gehäuse (8) ausgebildet sind, an dem Kontakte
(12, 58, 14, 60, 19, 20) sicher montiert sind.
7. Anordnung nach einem der vorhergehenden Ansprüche, bei der der erste Verbinder (4)
einen Mittelkontakt (12) aufweist, der verschiebbar in einer Richtung (A) senkrecht
zur Leiterplatte (1) montiert wird, wenn die Anordnung darauf montiert wird, wobei
der Mittelkontakt eine Kontaktfläche (44) aufweist, die über eine Eingriffsfläche
(42) eines dielektrischen Gehäuseabschnittes (10) für ein Anstoßen an den komplementären
steckbaren Verbinder vorsteht.
8. Anordnung nach Anspruch 7, bei der der Mittelkontakt (12) des ersten Verbinders mit
einem Federarm (30) in Eingriff kommt, der einen Abschnitt (34) des Schalters aufweist.
9. Anordnung nach Anspruch 5, dadurch gekennzeichnet, daß die Kontaktfläche (68) eine Kuppelform mit einem Durchmesser aufweist, der im wesentlichen
größer ist als der Abschnitt des stiftförmigen Mittelkontaktes, der innerhalb des
Hohlraumes (66) des Gehäuseabschnittes (56) positioniert wird, um Toleranzen beim
Positionieren einer Antenne (70) in einer radialen Richtung (R) im wesentlichen orthogonal
zur axialen Richtung (A) aufzunehmen.
1. Assemblage de connecteur coaxial (2) pour un dispositif de communication mobile, par
exemple un téléphone, comprenant un premier connecteur coaxial (4) pouvant être accouplé
par enfichage avec un connecteur d'antenne coaxial complémentaire et un commutateur
(30, 34, 36) pour déconnecter une antenne interne (70) du circuit du dispositif de
communication mobile, le premier connecteur comprenant un contact central (12) pouvant
être accouplé avec un conducteur central du connecteur enfichable complémentaire,
le contact central actionnant le commutateur (30, 34, 36) pour déconnecter une antenne
interne (70) du circuit du téléphone mobile lors de l'enfichage du connecteur complémentaire
dans le premier connecteur (4), l'assemblage comprenant en outre un deuxième connecteur
coaxial (6) formé d'une seule pièce avec le premier connecteur (4) en vue d'une connexion
à l'antenne interne (70), caractérisé en ce que le connecteur de l'antenne interne (6) comprend un contact central (58) pouvant se
déplacer de manière élastique dans une direction axiale (A) orthogonale à une plaquette
à circuit imprimé (1) lorsque l'assemblage est monté sur la plaquette à circuit imprimé.
2. Assemblage selon la revendication 1, caractérisé en ce que le contact central du connecteur de l'antenne interne (58) est monté par glissement
dans une cavité (66) d'une partie de boîtier diélectrique (56), l'élasticité étant
ainsi établie par un bras élastique séparé (72) s'engageant dans le contact central.
3. Assemblage selon la revendication 2, caractérisé en ce que le bras élastique (72) est estampé et formé à partir de tôle.
4. Assemblage selon les revendications 2 ou 3, caractérisé en ce que le bras élastique (72) est formé d'une seule pièce avec une deuxième branche de contact
(20), constituant une partie (36) du commutateur.
5. Assemblage selon l'une quelconque des revendications précédentes, dans lequel le contact
central du connecteur de l'antenne interne (58) comporte une surface de contact en
forme de dôme (68) destinée à buter contre l'antenne interne (70).
6. Assemblage selon l'une quelconque des revendications précédentes, dans lequel le premier
connecteur comporte une partie de boîtier diélectrique (10), le deuxième connecteur
comportant une partie de boîtier diélectrique (56), les parties de boîtier (10, 56)
étant formées d'une seule pièce dans un boîtier diélectrique commun (8) sur lequel
des contacts (12, 58, 14, 60, 19, 20) sont fermement montés.
7. Assemblage selon l'une quelconque des revendications précédentes, dans lequel le premier
connecteur (4) comprend un contact central (12) monté de sorte à pouvoir se déplacer
par glissement dans une direction (A) perpendiculaire à la plaquette à circuit imprimé
(1) lorsque l'assemblage y est monté, le contact central comportant une surface de
contact (44) débordant au-delà d'une face d'accouplement (62) d'une partie de boîtier
diélectrique (10) en vue d'une butée contre le connecteur enfichable complémentaire.
8. Assemblage selon la revendication 7, dans lequel le contact central du premier connecteur
(12) s'engage dans un bras élastique (30) constituant une partie (34) du commutateur.
9. Assemblage selon la revendication 5, caractérisé en ce que la surface de contact (68) a une forme en dôme ayant un diamètre notablement supérieur
à celui de la partie du contact central en forme de broche positionné dans la cavité
(66) de la partie de boîtier (56), en vue d'absorber les tolérances de positionnement
d'une antenne (70) dans une direction radiale (R), pratiquement orthogonale à la direction
axiale (A).