This application claims priority to French Patent Application Number 08 05044, entitled Portable Electronic Device with USB Connector, filed on Sep. 15, 2008.
The present invention relates to a portable electronic device with a USB connector.
Electronic keys with a USB connector have experienced considerable growth and are used as peripheral, removable devices in many electronic devices, in particular as memories and also as logical security devices. Specifically USB connectors are currently found as standard on many items of electronic equipment, and in particular on personal computers, unlike card readers in ISO 7816 format which are not systematically incorporated into this type of equipment because they are costly.
These keys may have different forms. They must all satisfy the mechanical and electrical specifications described in the standard defining the USB interface. Notably these keys comprise a male connection zone which supports a contact sticker, formed of several electrical contact pads. The number, position and dimensions of these pads are standardized, and the width and thickness of this connection zone which must correspond to the space available on insertion into a peripheral USB female connector, so as to ensure a good electrical contact of the contact pads with the counter-contacts of the female connector. In particular, the standard thickness of a USB male connector is of the order 2 millimetres.
It is known practice to produce USB electronic keys using low-cost technologies developed to mass produce electronic smart cards, also called chip cards. This manufacturing method also provides the advantage of being able to benefit from a larger graphic customization surface, leaving more space for publicity. However, the dimensions of smart cards do not correspond to the dimensions of USB connectors. Smart cards are thin, with a standard thickness of 0.76 millimetres, defined by the ISO 7816 standard, while the standard thickness of a USB key is of the order of 2 millimetres. Cutting such a thickness of the card, in order to detach the keys produced continuously on a plate is more difficult. Also the graphic, electric, machining or other customization tools used in the smart card production lines are not suitable for processing thicker cards.
To solve this technical problem, it is known practice to produce a USB key from a smart card of standard thickness, by providing means for local adaptation of the thickness, such as wedges or equivalent mechanical elements, as described for example in application FR 2 830 107.
To allow the production of a USB key from a thin card, in a single piece, without requiring additional mechanical elements, application EP 1755072 proposes to use the flexibility of a plastic card to create a resilient force inherent in the card material which is capable of ensuring a good electrical contact in the female USB connector by pushing the card against the electric contacts in the female connector.
In a first embodiment of which several variants are illustrated in
This embodiment therefore compensates for the thinness of the connection element inserted into the female USB connector, by the creation of a return element which makes it possible to use the resilient force inherent in the card material to ensure the good electrical contact. This embodiment assumes it is possible to easily keep this zone 28 in the bent position beneath the connector at the time of insertion. In addition, the return element thus created risks also having the force which tends to maintain the good electrical contact, a force tending to eject the connector.
Another embodiment is shown with reference to
A final embodiment illustrated in
The fold, bend or curve lines used to separate the connector from the rest of the card and to form the return element are preformed in the card by making slots in the thickness of the card along these lines, or by locally reducing the thickness of the card (“hinge”). Because of the thicknesses in question, less than 0.5 mm and even 0.2 mm for the embodiment of
Furthermore, there is a certain advantage in proposing, on a chip card, having both interfaces: one interface complying with the ISO 7816 standard, and one USB interface, whether it be for physical and logical access control or for bank applications. Specifically, it is noted that the cards in the ISO 7816 format are widely used as means for access control to buildings, like electronic badges, with or without contact. These cards notably offer a large enough surface to allow the printing of a photograph of its owner with good quality.
One object of the invention is to propose a USB electronic key formed in a chip card body, which is easier to produce and simpler to use.
Another object of the invention is to propose a chip card complying with the ISO 7816 standard, offering services via a standard reading programmable controller (with contact or without contact), and services via a USB connection for authentication, on-line payment, or document signing applications or other services, that is easy to use and to handle and easy to manufacture.
A technical problem to be considered is the usual thickness of the chip cards defined by the ISO 7816 standard, namely around 0.76mm, and the standard dimensions of a USB female connector. In the context of the invention, they are type A USB female connectors.
Such a connector is illustrated in section in the views of
The height of the free space between the connection pads 10 and the lower tightening elements is of the order of 2 mm. The thickness of the male connector is usually slightly greater than this height, so that, in combination with the tightening elements 11a and 11b, a minimal force for extracting the male connector, namely 2.24 pounds (or 1.016 kg in the international unit system, required by the ISO 7816 standard).
The technical solution provided by the invention to these technical problems is to use a chip card body in which at least one hinge is made comprising at least one element made of flexible material such as elastomer or rubber, allowing a closed folding of the card body by which the shape of the male USB connector is separated, and such that the thickness of the folded object obtained is greater than 2 mm, preferably between 2.2 and 2.5 mm.
“Closed folding” means a folding by which the portions of the card are folded one onto the other until touching. The folded object is therefore a substantially flat object.
The thickness of the folded object allows it to be inserted into the female connector and tightened by the spring elements provided in this female connector, which makes it possible to respond to the minimum required extraction force.
The invention relates to a flexible portable electronic device comprising a contact sticker of a male USB connector placed on the surface and at the edge of a chip card body of standard thickness. The card body comprises at least one slender hinge going from one edge to the other of the card body, parallel to the longitudinal edges of the said USB sticker formed of an elastic deformable material, more elastic than the material of the said card body. The hinge is inserted into the thickness of the said card body, making it possible to switch the card body from an unfolded state, substantially flat, to a closed folded state, obtained by folding to substantially 180 degrees. The card body has a contour in the unfolded state such that, in the said closed folded state, the zone bearing the USB sticker forms a substantially flat object with a thickness and a width, those of a male USB connector.
According to one aspect of the invention, the portable electronic device comprises two slender hinges parallel the longitudinal edges of the USB sticker going from one edge to another of the card body, each delimiting a central portion and a lateral portion of the card body, the said USB sticker being placed on one of the said central or lateral portions, the closed folded state being obtained by folding to substantially 180 degrees each of the two lateral portions so as to leave the said USB sticker exposed.
Advantageously, the card body is an ISO 7816 card body comprising a corresponding chip module in one of the central or lateral portions with an ISO 7816 contact sticker on the surface, and in that the card body in the unfolded state has a thickness complying with this ISO 7816 standard, and a contour corresponding to a rectangle of dimensions corresponding to the ISO standard, but with a cutout such that, in the said folded state, the zone supporting the USB sticker has the thickness and the width of a male USB connector.
In one embodiment, the hinges are placed parallel to the longitudinal edges of the card body. In this embodiment, the card body may comprise a magnetic strip on a lateral portion, running along a longitudinal edge of the card body. In addition, by placing these hinges so that the ISO 7816 contact sticker is on a lateral portion, it is advantageously possible to incorporate an antenna into this lateral portion, allowing contactless connections.
According to one embodiment of the invention, the hinge or hinges are made of elastomer or of rubber.
a and 1b are views in section from the side and from the front of a type A USB female connector;
a to 2d illustrate an embodiment of a portable electronic device of the type with ISO 7816 and USB interfaces;
a to 3c illustrate another embodiment of such a device;
a and 6b illustrate a variant of this embodiment; and
a to 2c, 3a to 3c and 4 illustrate a portable electronic device according to the invention with ISO 7816 and USB interfaces.
The device comprises a chip card body 1 conforming to the ISO 7816 standard, with a corresponding contact sticker on the surface, marked v2 in the figures.
Such a card body is typically formed from a stack of layers, fabricated in a well known manner, by the laminating of thin plastic sheets. The outermost layers are usually transparent and serve as protective layers to the layers on which patterns have been printed, typically by screen printing. One or more chips, not shown, are placed in the card body.
Note that according to the ISO 7816 standard, a chip card body has a rectangular shape R with standard dimensions L1 of 85.6 millimeters for the long sides 4, 5 and W1 of 53.98 mm for the short sides 6, 7, with a thickness ec=0.76 mm. In practice there is a tolerance of these dimensions, and the angles are not necessarily right angles. The thickness ec of the card body is very thin, which means that this card body is often considered to be a two-dimensional object (L1, W1). In the specialist technical vocabulary, this card format corresponds to the ID1 type. The contact sticker v2 conforming to the ISO 7816 standard is placed in a precise, standard location on the card body depending on the electrical and mechanical specifications of the interface, as indicated in the ISO 7816 standard. This location is identified as an indication in
In the invention, the card body comprises, at the surface, a contact sticker v1 of a male USB connector. The sticker v1 typically comprises, in a known manner, four contact pads p1 to which the contacts of at least one chip inserted into the card body are connected. The two stickers v1 and v2 are preferably made on the same face of the card body, making fabrication easier.
The stickers v1 and v2 each have a substantially rectangular shape. Their longitudinal edges give the direction of insertion into a corresponding reader or connector. These directions are marked Du for v1, and Dc for v2.
The card body 1 comprises two parallel slender hinges 2 and 3, each going from one edge to another of the card body, and distant from one another by a width corresponding to the width wu of a male USB connector, typically 12 mm. The hinges 2 and 3 are parallel with the longitudinal edges of the sticker v1.
They partition the card body into three longitudinal portions, a central portion A and two lateral portions B and C. The central portion A is delimited by the hinges 2 and 3 over its whole length: its width is wu. By convention in the figures, the hinge 2 is situated between the lateral portion B and the central portion, and the hinge 3 between the central portion A and the lateral portion C.
The hinges allow each of the lateral portions to be folded to substantially 180 degrees onto the card body. They are formed by means of an elastic material 4, typically an elastomer such as neoprene or a rubber inserted into the card body.
Depending on the arrangement of the hinges 2 and 3, various configurations can be obtained.
In the configurations illustrated in
Such an arrangement of the hinges 2 and 3, parallel with the longitudinal edges of the card body, makes it possible to provide a magnetic strip M, on the back of the card body (relative to the reverse side bearing the stickers), as illustrated in dotted line in
The stickers v1 and v2 are placed on the two opposite edges 6 and 7 of the card body, corresponding to the short sides of the rectangle R, so that their respective directions of insertion Du and Dc are parallel and in opposite directions.
In the embodiment of
The contour of the card body, which normally corresponds to the rectangle R, is rectified so that the width of each of the two lateral portions B and C in the USB connection zone Z2 is reduced to the width wu. This adaptation of the width of the portions B and C in the zone Z2 makes it possible in combination with the hinges 2 and 3, to separate the shape of the male USB connector by folding. More precisely, as illustrated in
The hinges 2 and 3 therefore make it possible to form the electronic device 1 in two states: an unfolded state, open, in which the device is substantially flat and of substantially uniform thickness corresponding to the thickness of an ISO 7816 chip card; a closed folded state in which the shape f of a male USB connector is obtained in the zone Z2.
It is possible to obtain other configurations, depending on the position of the hinges 2, 3. The position of the hinges acts notably on the shapes of the cuts to be provided and on the portion that can be chosen to support the sticker v1. All the chosen configurations are such that, in the closed folded state, the three portions under the sticker v1 form a male USB connector.
One particular configuration is illustrated in
The USB sticker (v1) can then be placed on any one of the portions A, B or C. Depending on the portion on which the sticker v1 is placed, the folding may be different from that of
If the sticker v1 were positioned on the central portion A, the portion C is first folded under the portion A, then the portion B under the portion C. In the folded state (
The configuration that has just been described taking as an example
In the embodiment of
In an enhancement of the invention, the sticker v1 and the hinges 2 and 3 are placed on the card body outside the connection zone Z1 of the sticker v2. This has the advantage of ensuring that this portion Z1 of the card body which is inserted first into the reader remains properly flat and rigid making insertion easier. This is obtained by placing the stickers v1 and v2 so that their insertion directions Du and Dc form a non-zero angle α.
a illustrates a first corresponding embodiment. The sticker v1 is placed on the edge of one of the longer sides of the card body, in the example the side 5, so that its insertion direction Du is perpendicular to this side 5. The insertion directions Du and Dc are therefore perpendicular, forming an angle α of 90° . The slender hinges 2 and 3 are parallel with the longitudinal edges of the sticker v1 corresponding to the insertion direction Du into a USB connector, that is to say parallel with the edges 6 and 7 of the card body.
The position of the hinges 2 and 3 and the contour of the card body are determined so that, in the connection zone Z2, that is to say along the sticker v1 and up to the edge 5, the lateral and central portions are substantially of equal width wu. Preferably and as shown, the hinge 3 is placed at a distance from the edge 6 equal to the width wu. The two portions A and C therefore have the width wu over the whole of their length. The contour of the card body is rectified by removing from the standard rectangular shape R a sufficient portion D4 making it possible, in the closed state, to separate the shape f of the male connector from the rest of the card body. It is possible to leave a portion D5, cross-hatched in the figure, corresponding to the angle between the sides 5 and 7 of the rectangle R. This portion D5 makes it possible to ensure a correct guidance into an ISO 7816 card reader. If this portion D5 is also removed, the card will preferably be used with a reader in the vertical position, making it possible to wedge the card in the reader by means of the longitudinal edge 4.
In the closed folded state, the zone f supporting the sticker v1, corresponding to the stacking of the three portions of thickness ec, has the thickness eu and the width wu that are desired (
In this example, the lateral portion B supports the two stickers v1 and v2. The sticker v1 could also be on the other lateral portion C. In both cases, the folding is of the B/A/C accordion type as illustrated in
In the illustrated example, the central portion A and the lateral portion B having the same width wu, the sticker v1 may also be placed on the central portion A. The folding, in order to leave the sticker v1 exposed, then consists (
The contour of the card body is always included in a rectangle R. But there is one shape which corresponds, in the illustrated example, to a cutting of portions D6 and D7, making it possible to obtain lateral and central portions which have, at least in the connection zone Z2, that is to say at least over the whole length of the sticker v1 and up to the insertion edge 8, a width that is substantially equal to the desired width wu. Folding is in this instance necessarily of the accordion type, and the sticker v1 placed on one of the lateral portions B or C, not on the central portion, because the shapes of the lateral portions B and C outside the zone Z2 are not suitable for a folding of one over the other. In the example, the sticker v1 is placed on the portion C.
In the three embodiments that have just been described, because of the shapes of the portions A, B and C delimited by the hinges 2 and 3, the device in the closed folded state does not have a uniform configuration. What counts is that in this folded state the object f separated from the card body has the width and the thickness of a male USB connector.
The invention that has just been described makes it possible to produce a flexible electronic device with an ISO 7816 interface and USB interface, which, in the folded state, forms a USB male connector to the standard dimensions. According to the variants, the folding may be different, an antenna and/or a magnetic strip may also be provided. The invention is not limited to the configurations presented in the figures.
For example, the sticker v1 may be on the face opposite to the face supporting the sticker v2.
This portable electronic device with a dual function, USB and ISO 7816 chip card according to the invention is obtained according to the fabrication techniques for chip cards. The particular contour for making it possible to obtain the width of the USB connector is obtained by simple adaptation of the cutting pattern in the plates of cards fabricated continuously.
The invention may also apply to a flexible portable electronic device with a single function of USB key. It then simply involves obtaining a USB key by folding, according to the principles explained above. There are no longer any considerations of standard dimensions of a chip card body or of an imposed sticker position. It is then possible to produce the hinges so as to partition the card body into portions of the same width, corresponding to the width wu, over their whole length, as illustrated in
In one variant, the card body 1 is shown to be detachable from a card body S in the format of a chip card, which notably, in a known manner, makes it possible to benefit from a larger graphic customization surface. Cuts 9, 10 or zones of thinning 11 of the thickness of the card body S illustrated in
The invention that has just been described is particularly suitable for producing a portable electronic device with a USB connector based on the technologies of fabricating chip cards, with a thickness of the card body corresponding to the standard thickness, of the order of 0.8 mm, of cards in ISO 7816 format.
It is known how to produce thicker card bodies, while remaining within acceptable thickness limits via corresponding fabrication tools. Notably, it is known how to produce card bodies of thickness e′c of approximately 1.2 mm. It is then possible to produce a flexible portable device of the USB key type, with a single hinge 2, partitioning the card body into two portions A and B, one of which supports the sticker v1. The USB connector is formed by folding one portion over the other. This is what is illustrated in
The invention that has just been described makes it possible to produce a portable electronic device with a USB connector, based on technologies for fabricating chip card bodies, by using at least one hinge made in the card body, allowing a 180° folding of one portion of the card body over another.
Such a hinge may, in practice be produced by adapting the card body fabrication procedure in different ways. According to the teaching found in U.S. Pat. No. 707,009,581, provision is made in the fabrication of the card body, as illustrated in
In a variant illustrated in
The invention that has been described makes it possible to offer a flexible portable electronic device of the USB key type, and preferably with dual functionality USB and ISO 7816, by a very simple and agreeable manipulation which does not require particular attention. It may be produced at low cost using all of the chip card fabrication equipment, whether it be the laminating, the machining, the cutting or the graphic customization.
It will be readily seen by one of ordinary skill in the art that the present invention fulfils all of the objects set forth above. After reading the foregoing specification, one of ordinary skill in the art will be able to affect various changes, substitutions of equivalents and various aspects of the invention as broadly disclosed herein. It is therefore intended that the protection granted hereon be limited only by the definition contained in the appended claims and equivalent thereof.
Number | Date | Country | Kind |
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08 05044 | Sep 2008 | FR | national |