The present invention relates to watches, generally wristwatches, whose cases incorporate electronic modules for storing information that comprise an integrated circuit or chip connected to an antenna consisting of a coil and are able to communicate by radio signals with a reading and/or writing device adapted at least to read the information contained in a memory of the integrated circuit and often also adapted to delete or modify at least some of that information and to add other information.
To be more precise, the invention relates to watches in which the electronic modules are passive, meaning that these modules do not need their own power supply, such as batteries or rechargeable batteries, to be able to operate, being supplied with power by the radio signals from the reading and/or writing device with which they co-operate.
Some watches of the above kind merely store an access code to private or protected premises or to ski slopes, for example. Others include electronic modules equipped with more complicated integrated circuits and may contain the medical records of their owner.
In some prior art watches, the electronic module is placed in a hollow and preferably removable bezel so that the module can be changed if necessary. This solution may therefore not be suitable for watches having any type of case. Moreover, if the case actually includes a bezel or a case-bezel, this complicates its fabrication and consequently increases the unit cost of the watch.
The document JP 2000-339503 describes a watch of the above kind that comprises an electronic module mounted on the outside of the watch glass. One drawback of placing said module on the glass is that it cannot be protected from mechanical shock when the user is wearing the watch. Also, as it is in front of the watch dial, it is always visible, which degrades the aesthetics of the watch.
In other watches the module is placed in a space between the rear of the movement of the watch and the back of the case, which necessarily increases their volume. If the back of the case is made from a material that is not really amagnetic, such as steel, the magnetic flux emitted or received by the coil of the electronic module suffers high losses, and even if measures are taken to limit these losses, they are far from negligible. Finally, even if the back of the case is made from an amagnetic material, for example a plastic material, radio signals emitted and received by the coil of the module, which have to pass through the whole of the thickness of the back, suffer high attenuation.
The object of the invention is to provide a watch, in particular a wristwatch, that completely eliminates or at least reduces the drawbacks of the above prior art watches.
To achieve the above object, the watch has the features set out in claim 1.
Advantageous embodiments of the watch are defined in the dependent claims 2 to 8.
The cavity and the module preferably have an essentially cylindrical shape and are preferably situated at the centre of the back of the case.
Accordingly, unlike a watch in which the module is placed at the back of the case and entirely within it, in the watch of the invention signals emitted and received by the coil of the module have to pass only through the base of the module, which is much thinner than the back of the case.
It is possible to obtain a watch of the invention starting with an existing watch by forming in its back a blind hole with a shape adapted to that of the electronic module.
If the back of the case is removable, it is possible to replace it to convert an ordinary watch into a watch of the invention.
This being so, in one embodiment of the watch of the invention, the base of the module is cup-shaped and has a flat bottom to which the coil and the integrated circuit are fixed and a lateral wall around the coil.
This embodiment is particularly suitable if the back of the case is made from a magnetic material such as steel.
The invention will be better understood after reading the following description, which is given by way of example and with reference to the appended drawings, of several embodiments of the invention, in which drawings:
Although the invention is obviously not limited to this application, the following description applies to the situation in which the electronic module fitted to the watch is designed to store information that relates to the watch itself and to be placed at a very small distance (a few millimetres at the most) from the coil that constitutes the send and receive antenna of a reading and/or writing device with which it is able to communicate.
The wristwatch shown diagrammatically in
The case 1 finally comprises a wrist-band attachment system that is not visible in
The case 1 houses a movement 6 which drives a minute hand 8 and an hour hand 9 placed in front of a dial 7 and which comprises a control spindle 10 that passes through the case-bezel unit 2 and terminates in a crown 11, an O-ring 12 sealing the case 1 where the spindle passes through the case-bezel. If the watch is not of the electromechanical or self-winding type, the spindle 10 and the crown 11 are also used to wind the watch.
In accordance with the invention, the back 3 of the case 1 has a cavity 13 that is open towards the exterior of the case and houses an electronic module 14, the cavity and the module preferably being essentially cylindrical and situated at the centre of the back 3.
Given that, in the application envisaged here, the electronic module 14 has a much smaller area than the back of the case and the module can be made in various shapes, it is merely represented in
In this embodiment, the module 14 comprises a base 15 made from an amagnetic and electrically insulative material. This material may be a plastic material such as high-density polyethylene or a ceramic material, for example, plastic materials being reserved for bottom of the range watches and middle of the range watches and ceramic materials for top of the range watches. In the latter case the ceramic material preferably has substantially the same colour and the same appearance as the metal that constitutes the back of the case, unless a particular aesthetic effect is required.
As shown in
The external edge 20 of the wall 17 of the base and the rim 21 of the wall 19 of the cavity 13 are rounded to facilitate insertion of the module 14 into the cavity.
Referring to
The coil 23 itself surrounds an integrated circuit 24 smaller than itself, of rectangular parallelepiped shape, and which has on its front face 25 two connecting terminals or “bumps” 26 and 27 to which the two ends 29 of the metal wire of the coil 23 are welded or fixed by means of a conductive adhesive.
The two connecting terminals 26 and 27 of the integrated circuit 24 shown in
In this first embodiment, the coil 23 and the integrated circuit 24 are fixed directly to the internal face 30 of the flat bottom 16 of the base 15 by means of a thin layer of adhesive material 31 (see
The base 15 has or may have three functions.
Firstly, if the back 3 of the case 1 is made from a magnetic material, for example steel, this amagnetic material base serves as a screen between the back and the coil, to eliminate, if not totally, at least the majority of the magnetic flux losses in the back 3 when the coil sends and receives radio signals respectively to and from a reading and/or writing device to which it may be coupled.
Secondly, as shown in
Obviously, the boss 34 of the module would enable the watch to be placed in the same way on any support having a recess corresponding to the shape and dimensions of the boss.
If the module projects from the back of the case 1, its external edge 37 is preferably rounded to prevent the boss 34 causing discomfort to the wearer of the watch.
In all cases, it is clear that, because radio waves emitted and received by the coil 23 of the module 14 no longer have to pass through the whole of the thickness of the back 3 of the case 1 of the watch, but only that of the bottom 16 of the base of the module, which is much thinner, these radio waves will be much less attenuated and distorted than in prior art watches in which the electronic module is placed at the bottom but inside the case.
Until now, only one memory has been referred to in relation to the integrated circuit 24. It is nevertheless clear that this circuit could comprise a plurality of memories of different types, in particular memories for storing information that can only be read and other memories for storing other information that can also be deleted and/or modified or have additional information added to it.
This is the situation in the application example previously referred to in which the electronic module stores information relating to the watch itself, to be more precise its source, its purchaser and, just like a car, its “service record”; this information personalises the watch, which may be of benefit on selling the watch or facilitate the task of a watchmaker if the watch is passed to him for inspection or repair or simply for him to change the battery if the watch is of the electromechanical or electronic type.
In the case of middle of the range and top of the range watches, the stored information may be divided into the following four categories, for example:
Some of the above information may be stored in a ROM memory so that it can only be read. This applies to the “Brand” and “Plant” information referred to above.
The other information (“Point of sale”, “Customer services”) may be stored in one or more dynamic RAM, EPROM or EEPROM memory so that it can be deleted, modified or added to, if necessary.
The stored information depends also on the type of watch in whose case the electronic module is incorporated. For example, in the case of a bottom of the range watch whose case is of one-piece construction with a welded-on glass that prevents all possibility of working inside the watch, with the possible exception of changing the battery or having the battery changed if the watch is of the electromechanical or digital kind and under warranty, just the “Brand” and “Plant” information may be stored in read-only memory.
In all cases, the coil of a read head or of a support may be connected via an appropriate interface to a fixed or portable computer able to read the information contained in the memory or memories of the module and where applicable to delete, modify and add to some of that information.
This information may be sent to a protected Internet site or over an Intranet loop to which all persons involved with the watch have access.
One of the differences between the embodiment of
The other difference is that the ends of the wire 29 of the coil 23 no longer connect the coil to the terminals 26 and 27 of the integrated circuit 25 directly but instead via connecting lands 40 formed on the substrate 38 of the printed circuit 39. To be more precise, each end of the wire 29 is welded or stuck by means of an electrically conductive adhesive to one of the lands 40 which is in turn connected to a connecting terminal 26 or 27 of the integrated circuit 24 by a conductive wire 41.
Thanks to this the coil 23 and the integrated circuit 24 can be electrically connected using the standard automated wire bonding method.
In the embodiment shown in section in
This embodiment is more suitable if the back 3 of the case and/or the base 15 of the module 14 are made from very hard materials that are difficult to machine or shape, such as certain ceramic materials or sapphire.
In this embodiment, as in that of
Note that in a different embodiment, not shown in the drawings, the module 14 could be crimped into the cavity 13 in the back 3 of the case. The base 15 of the module would then have on the same side as its bottom 16 an external peripheral cut-out in which an internal rim of the back 3 would engage. This method of fixing the module could be used if it were not possible to set it into the case or adhesively bond it to the case, for example.
Unlike the
In this case, the base 15 is reduced to a simple rigid plate of the same diameter as the outside diameter of the coil 23, and which may be made from the same material as the back of the case, in which eventuality the module 14 may be set into or adhesively bonded in the cavity 13 in the back of the case.
The above remarks as to the connection between the ends of the wire of the coil and the terminals of the integrated circuit are equally valid for this embodiment.
Clearly the invention is not limited to the embodiments or variants that have just been described or envisaged.
For example, instead of connecting the ends of the wire of the coil to the terminals of the integrated circuit by means of connecting lands using the wire bonding technique, this connection could be obtained using another well-known automated technique known as tape automated bonding (TAB), which is described in European Patent No. 0 376 062.
Although the method is described in that patent for producing electronic modules intended to be incorporated totally into electronic keys or cards, it is very suitable for producing modules to be fitted to watches of the invention.
In all the embodiments described or envisaged hereinabove, the back of the electronic module is proud of the exterior surface of the back of the case of the watch, but this is not obligatory.
In these embodiments and variants, the electronic module is fixed permanently into the cavity in the back of the case, but it would be entirely feasible to design a module with a base provided with a lateral wall enabling it to co-operate with an internal wall of the cavity in the back so as to render the module removable, and where applicable interchangeable, for example by means of a screwing or bayonet fixing system.
In this eventuality, it would obviously be necessary to provide means for extracting the module from the cavity in the back of the case and replacing the same module or substituting a replacement module. Those means could be a groove in the exterior face of the module, for example, like those provided for battery compartment covers in electromechanical or electronic watches.
Finally, another option would be to modify the characteristics of the antenna coil, in particular its diameter and the number of turns, to enable it to communicate with the antenna of a reading and/or writing device not at a distance of a few millimetres but at a distance of a few centimetres or tens of centimetres.
Number | Date | Country | Kind |
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02078737.0 | Sep 2002 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP03/09804 | 9/4/2003 | WO | 3/9/2005 |