DE19958119A1 - Mobile communication terminal - Google Patents

Abstract

The invention relates to a mobile communications terminal (1) comprising a housing (2) and an antenna device (3) with an antenna (4) that can move in relation to said housing (2). Said antenna is placed in a first position (A) located inside the total dimensions of the housing (2) or close to the housing (2) and can be brought into a second position (B) that is, in essence, located at a distance from the housing (2). The antenna (4) comprises a support (8) which can move in relation to the housing (2) and which has a flat radiator structure (9). The antenna device (3) is in a transmission-ready and reception-ready state when located in each of the positions (A, B) of the antenna (4).

Description

The invention relates to a mobile communication terminal a housing and an antenna device with a right relative to the housing movable antenna, which he most position in which the antenna is essentially internal half of the overall dimensions of the housing or to the housing is placed, can be moved into a second position, in which the antenna essentially protrudes from the housing.

Such a device is for example from DE 197 47 581 A1 known. The mobile device shown there has one sliding or retractable antenna, whereby in the folded state no voice data are transmitted and in unfolded state voice data are transmitted. The means in the folded or inserted state of the on tenne, the device is only in stand-by mode and is able to receive a call. Only in the out folded state of the antenna, the device is fully transmit and ready to receive. Such a retractable or retractable bare antenna has the advantage that the device when it is is not used for telephone calls in the retracted closed position stood relatively small and by the user even in smaller ones Pockets, for example in a suit pocket, inconspicuous can be carried.

For an unobtrusive use of the device, the device should but not only in stand-by mode, but also in full condition capable of being set as small as possible and inconspicuous. On Unfold, swing out or extend antennas therefore usually does not speak to the consumer request.

The desire for ever smaller and discreet even in use due equipment, inevitably draws the demand for even smaller antennas. One way to  with sufficient performance relatively inconspicuous in the Housing the device consists of an antenna ne to use with a radiating structured surface the, for example so-called "patch" antennas or "PCB" antennas (Printed Circuit Board). Regardless of the quality the antenna itself, exists with such integrated on always identify the problem in handheld devices that with great truth Probably the user's hand has a larger area covers the radiating antenna area and thereby the Per formance of the antenna is reduced. In addition, there is Problem that the mobile devices are constructed ever flat and thus the distance between the radiating parts of the device Head decreases. Associated with that, of course Irradiation in the user's head too. One is here have already reached a critical limit.

It is an object of the present invention to provide an alternative to create the known prior art, which to one in accordance with the wishes of the consumers and also in use eye-catching small mobile devices and on the other hand the technical requirements for good antenna performance ne and thus the greatest possible range with sufficient appropriate transmission quality.

This object is achieved in that the Antenna with a movable carrier with respect to the housing has a flat radiation structure and the antennas device in each of the positions of the movable antenna is in a state ready for transmission and reception.

The device according to the invention thus has the advantage that it has an antenna device with a flat antenna, which in the normal state is folded onto the housing of the device or is inserted. The housing can therefore be as desired designed relatively flat despite good antenna performance his. Since also in the inserted or folded Posi tion the antenna is ready to send and receive, the Ge  advises used very unobtrusively when folded become.

Especially in the places where it is desirable to use a relatively inconspicuous mobile device, d. H. in busier places, in the office etc., it is in the Re gel around locations where due to a well-developed Network there are better reception options anyway. The Coverage of the antenna by the user's hand is there not so critical in these areas.

As soon as the user is in an area in which the Reception conditions are not so good, he can use the antenna unfold, extend or extend or swivel and thus improve the performance of the antenna device. in the on the one hand, the antenna is no longer extended covered by hand, d. H. the antenna behavior is free field improved. In addition, the antenna can move to the second position can be folded down so that they can also be used on flatter devices is further from the head. With the same broadcast performance is therefore a reduced SAR (Specific Ab sorption rate). That is, the radiation in the head of the user is diminished. In principle, then, to the comply with the same limit values, the transmission power increases become, which in turn leads to greater reach and ver improves the connection quality. Conversely, there is of course also the possibility if, for example, the Emp conditions are good, the antenna is still in the posi tion with the improved antenna behavior and to reduce the transmission power accordingly. That is, it could then on the one hand performance can be saved, which leads to a long time battery life and on the other hand the SAR value can be further reduced.

Of course there is also the possibility that the An not only in two different states, but in  several states can be spent in which the antenna each shows a different behavior.

In a preferred embodiment, the moving on tenne itself designed so that it is in each of the positions is in a state ready for transmission and reception.

For this purpose, the movable antenna is particularly preferably opened builds the movable beam with the radiation structure has a mass structure which is consequently moved and therefore in any position of the antenna with respect to radiation structure is established. Such an antenna with respect to the radiation structure has a solid, fold-out mass the advantage that the antenna in each of the positions has very similar antenna performance. The decision en Difference of the antenna in the folded and unfolded Condition essentially consists only in that the An tenne in the folded state by the hand of the user is shielded or at least out of tune.

Alternatively, there is also the possibility that the antennas device a second antenna, quasi as an auxiliary antenna points that is at least ready to send and receive when the movable antenna is in a position in who is not ready to send and receive. This out leadership form with a combination of a fixed in the device integrated antenna and an adjustable antenna is then necessary or useful if the used structure of the moving Lichen antenna due to their physical or constructi ven type can only work when extended or should.

The basic principles of the antennas used are each loving and can each meet the requirements, for example the desired radiation characteristic, the Bandwidth, the radiation in the head, can be adjusted. It is conceivable, for. B. the combination of a conventional, very  small stub antenna, e.g. B. a fixed helix antenna with to combine such a movable antenna.

When using multiple antennas, it can e.g. B. also possible Lich that not only one of the radiating elements is active is, but several at the same time. For example, in retracted state only the permanently integrated "auxiliary" antenna be active while both extended Antennas are active at the same time. The anten Characteristics of the integrated antenna from the momen Depending on the position of the movable antenna. Example the performance of both antennas can be wise as with the so-called "Diversity process" through phase-favorable addition of the Radiation power can be combined so that the performance the entire antenna device is higher than the perfor the individual antennas.

In principle, the movable antenna can be any beam have structure. You can, for example, also from several individual radiation structures exist that ent are not independent of each other or in any way e.g. B. are only partially coupled together. As well the different antennas can also be used with each other be coupled. The coupling can in each case by appropriate networking via impedances or with ver different radiation structures through a capacitive and / or inductive coupling or radiation coupling. All to tennen and structures can be used as single band or also be designed as multiband antennas.

The invention is described below with reference to the attached drawings explained in more detail. All in the one Features mentioned individual embodiments can not only in the respective combinations, but also alone position or in other combinations essential to the invention his. They represent:  

Figure 1 is a schematic representation of the basic principle of a fold-out flat antenna.

Figure 2 is a schematic representation of the basic principle of a fold-out antenna with a thicker support with an additional ground area.

Figure 3 is a schematic representation of the basic principle of a slide-out flat antenna.

Figure 4 is a schematic representation of the basic principle of a telescopic antenna with a thicker support with an additional union ground surface.

Fig. 5 is a schematic representation of a narrow foldable antenna;

Fig. 6 is a schematic representation of a narrow slide antenna;

Fig. 7 is a schematic representation of a narrow turnable antenna;

FIG. 8 shows a schematic cross section through an extendable antenna according to FIG. 4 with an additional ground plane;

FIG. 9 shows a schematic section as in FIG. 8, but without a ground plane;

FIG. 10 is a schematic representation of the combination of a fixed integrated antenna with an extensible narrow antenna;

Fig. 11 is a schematic representation of a combination egg ner firmly integrated antenna with a wide extendable antenna;

Figure 12 is a schematic representation of an extensible antenna having a plurality of radiation patterns on a support.

Fig. 13 is a schematic representation of a combination of several permanently integrated antennas with several extendable antennas.

All of the mobile communication terminals 1 according to the invention shown in the figures each have a housing 2 in which an antenna device 3 is located. This antenna device 3 consists in the embodiments of FIGS. 1 to 12 either one or two antennas systems 4 , 5th

One of the antennas 4 , 5 or the individual antenna 4 can each be brought from a first position A, in which the antenna 4 is essentially within the overall dimensions of the housing 2 or to the housing 2 , into a second position B. , in which the antenna 4 protrudes essentially from the housing 2 . This movable, that is to say fold-out, extendable or extendable or rotatable antenna 4 each has a support 8 which is movable with respect to the housing 2 and has a flat radiation structure 9 . The antenna device 3 is designed overall so that in each of the positions A, B of the movable antenna 4, the antenna device 3 or the device 1 is in a fully ready-to-transmit and receive condition.

Fig. 1 shows the basic principle of a simple fold, very flat antenna 4. This antenna 4 consists essentially of an electrically conductive radiation structure 9 on a flat carrier 8 . The radiation structure 9 can be of almost any shape and size and is expediently adapted to the transmission and reception specifications, for example the desired center frequency, bandwidth or directional characteristic. Of course, the radiation structure 9 and the size and shape of the carrier 8 can also be adapted to the available space in the housing 2 or to designer specifications. In principle, any suitable material, for example foil, plastic, polycarbonate or the like, can be used as the carrier material. In order to generate such a radiation structure 9 on a carrier 8 , any suitable technology can be used, e.g. B. PCB technology, stamping / bending technology, injection molding, MID technology, hot stamping technology etc.

The carrier 8 is rotatably attached to the housing 2 of the mobile telephone 1 on a longitudinal side on joint holders 15 . About egg ne coupling device 12 , which is located in part in the Ge brackets 15 , ensures that an electrical connection to a transmitting and receiving part (not shown) of the mobile phone 1 is guaranteed at all times.

Fig. 2 shows a similar principle. Here, however, the fold-out antenna 4 has a thicker support 8 , which has a ground plane 11 on the side opposite the flat radiation structure 9 . This ground surface 11 can be adapted in terms of shape and size to the demands placed on. In principle, the ground surface 11 can lie not only on the side opposite the radiation structure 9 , but also partially or completely on the same side as the radiation structure 9 . This depends on the desired properties of the antenna 4 . Likewise, the carrier material can be selected accordingly so that it has, for example, certain desired dielectric or magnetic properties or combinations of both. The radiation structure 9 forms, together with the fixedly arranged ground surface 11, a resonant structure in which the E field is emitted by resonance increase. Such a patch antenna has the advantage that the antenna has a very similar antenna performance in essentially any position to the housing.

FIG. 3 shows a mobile radio device 1 with a wide antenna 4 that can be pushed out, with a flat radiation structure 9 on a thin carrier 8 . Instead of the rotary brackets 15 are laterally at the upper end of the housing 2 of the Ge device 1 guide brackets 16 , in which the carrier 8 is moved parallel to the housing 2 in the direction of displacement R. Of course, it is also possible to equip the device 1 with a drive so that the antenna 4 can be moved out automatically.

Fig. 4 shows the same basic principle as Fig. 3, but with an antenna 4 with a thicker support 8 and the additional mass structure Chen 11th

FIGS. 5 and 6 show, respectively, again using the same zip Prin, but with a relatively small, not over the entire width of the housing 2 extending antenna 4. Fig. 5 shows the fold-out version, Fig. 6 shows the pull-out version. Another alternative to these two possibilities is shown in FIG. 7 with a narrow antenna 4 that can be rotated about a swivel joint 14 .

FIGS. 8 and 9 again show various examples of an antenna exporting approximately 4 according to Fig. 4, Fig. 9 shows a version to 8 no ground plane 11 is in the on the back of the wearer. In the antenna version according to FIG. 8, on the other hand, there is a fixed ground plane 11 on the parallel surface of the carrier 8 opposite the radiation structure 9 . In the movable antenna 4 according to FIG. 9, therefore, the properties of the antenna 4 change not insignificantly when inserted and pushed out, since, for example, in the inserted state A between the radiation surface 9 and the ground surface 19 located in the housing another 19 Capacity is present than in the extended state B. In contrast, in the case of the movable antenna 4 according to FIG. 8, the radiation structure 9 “sees” only the directly adjacent ground surface 11 , regardless of whether the antenna 4 is in position A or in the position Position B is.

In all devices 1 shown so far, the movable antenna 4 is arranged in each case on an upper side of the housing 2 facing away from the head in the use position of the mobile telecommunications device on the user's head. That is, the radiation structure 9 of the antenna 4 is in the inserted state by a be on a circuit board 20 sensitive surface 19 from the head of the user, whose ear is usually on the speaker 18 of the mobile phone 1 , shielded. Of course, the antenna 4 can also be arranged at any other desired location on the housing, for example below.

Within the housing 2 there is a coupling device 12 , which ensures that the radiation structure 9 in the desired position A, B is coupled to a transmitting / receiving device (not shown) of the mobile telephone 1 and the received signals to the transmitting / Receiving device forwards or emits signals coming from the transmitting / receiving device.

Fig. 10 shows a combination of a narrow extensible antenna with a small built-in antenna 5. Both antennas are connected via a common coupling device 12 to the transceiver. Fig. 11 shows an alternative embodiment with a wide extendable antenna.

When using several antennas 4 , 5 , the coupling device 12 can also be used as a switching device, so that depending on the position A, B of the movable antenna 4, either only the movable antenna 4 or the integrated antenna 5 or both antennas 4 , 5 with the transmitter / receiver unit are connected. Of course, instead of a combined coupling and switching device, separate coupling devices and switching devices can also be used. The coupling or switching devices can NEN preferably be integrated in the respective mechanical holding tion for the movable antenna, so that good contact of the radiation surface with the transmitter / receiver unit is possible in a simple manner.

Fig. 12 shows an embodiment with an extendable antenna 4 with two independent radiation structures 9 , 10 which are interconnected via coupling devices 12 , 13 . In the inserted state, the radiation structure 9 is connected to the radiation structure 10 via the coupling device 13 , which, for example, in the simplest case consists of two interconnected contacts 9 and 10 on the structures 9 and 10 , depending on the case, and possibly elements for matching the impedances. They thus form a common structure. This coherent combination of two structures 9 , 10 is connected to the transmitter / receiver unit via the coupling device 12 via the structure 9 .

In the extended state, only the radiation structure 10 contacts the coupling device 12 . Since the coupling device 13 remains stationary in the housing 2 when the antenna 4 is pushed out, a coupling between the radiation structure 9 and the radiation structure 10 takes place only by capacitive or inductive means. The antenna properties are different in the extended and retracted state.

Of course, it is also possible to dispense with the optional coupling device 13 , so that only the radiation structure 9 is contacted with the coupling device 12 in the inserted state, and only the radiation structure 10 in the extended state . The other structure 9 , 10 is then only coupled in both positions A, B via a capacitive or inductive path.

Instead of the radiation structures 9 , 10 or mass structures 11 shown in the figures, which are located planar on the surface of the carrier 8 , it is of course also possible that the radiation structures 9 , 10 or mass structures 11 run arbitrarily in the volume of the carrier 8 . In principle, it is even conceivable that certain cable runs leave the volume of the carrier 8 or protrude beyond it.

Fig. 13 shows a combination of a fixed in the housing in tegrated antenna 5, a fixedly mounted stub antenna 6 as well as two moveable antennas 4, 7. The combination of any number of antennas permanently integrated into the device with any number of extendable or fold-out antennas can be useful, e.g. B. to be able to use different frequency ranges or to enable said antenna diversity, in which the performance is increased by the interaction of two or more antennas operated simultaneously. The antennas do not need to be directly next to each other, but can also be located at remote locations on the device.

Of course, the invention is not applicable to cell phones limited, but can also with all other mobile comm communication terminals, for example pagers, palm tops or Organizers with appropriate connection to a radio network, at who want the smallest possible dimensions become.

Claims (14)

1. Mobile communication terminal ( 1 ) with a housing ( 2 ) and with an antenna device ( 3 ) with an antenna ( 4 ) which is movable relative to the housing ( 2 ) and which extends from a first position (A) in which the antenna ( 4 ) located essentially within the overall dimensions of the housing ( 2 ) or applied to the housing ( 2 ), can be moved into a second position (B) in which the antenna ( 4 ) projects substantially from the housing ( 2 ), characterized that the antenna ( 4 ) with respect to the housing ( 2 ) movable Trä ger ( 8 ) with a flat radiation structure ( 9 ) and the antenna device ( 3 ) in each of the positions (A, B) of the movable antenna ( 4 ) in is in a state ready for transmission and reception. 2. Communication terminal according to claim 1, characterized in that the movable antenna ( 4 ) itself in each of the positions (A, B) is in a transmit and receive state. 3. Communication terminal according to claim 1, characterized in that the antenna device ( 3 ) has a second antenna ( 5 ) which is ready to transmit and receive at least when the movable antenna ( 4 ) is in a position, in who is not ready to send and receive. 4. Communication terminal according to claim 3, characterized in that in the first position (A) of the movable antenna ( 4 ) only the second antenna ( 5 ) is ready to transmit and receive and in the second position (B) of the movable surface Antenna both antennas are ready to send and receive. 5. Communication terminal according to claim 3 or 4, characterized in that the radiation properties of the second antenna ( 5 ) are changed as a function of the position of the movable antenna ( 4 ). 6. Communication terminal according to one of the preceding claims, characterized in that the movable antenna ne ( 4 ) has a different directional characteristic in each of the positions (A, B). 7. Communication terminal according to one of the preceding claims, characterized in that the movable antenna ne ( 4 ) is arranged on a in the use position of the mobile telecommunications device ( 1 ) on the head of the user upper, away from the head side of the housing ( 2 ) . 8. Communication terminal according to one of the preceding claims, characterized in that the movable carrier ( 8 ) has a mass structure ( 11 ) in addition to the radiation structure ( 9 ). 9. Communication terminal according to one of the preceding claims, characterized in that the movable carrier ( 8 ) has a plurality of separate radiation structures ( 9 , 10 ). 10. Communication terminal according to claim 9, characterized in that the radiation structures ( 9 , 10 ) are at least partially coupled to one another. 11. Communication terminal according to one of the preceding claims, characterized in that the different antennas ( 4 , 5 , 6 , 7 ) and / or the different radiation structures ( 9 , 10 ) are designed for different resonance frequencies. 12. Communication terminal according to one of the preceding claims, characterized in that the antenna device ( 3 ) is connected via a coupling device ( 12 ) to a sensor / receiver part. 13. Communication terminal according to claim 12, characterized in that the coupling device ( 12 ) enables a circuit between different antennas of the antennas direction ( 3 ) and / or radiation structures ( 9 , 10 ) of an antenna ( 4 ) and / or impedance converters. 14. Communication terminal according to claim 12 or 13, characterized in that the coupling device ( 12 ) and / or a separate switching device at least partially in a mechanical holder ( 15 ) for the movable antenna ( 4 ) is integrated.