BE1002492A6 - Device for exchanging information - Google Patents

Abstract

Device for exchanging information consisting of a first body provided with afirst means of communication that terminates in an insertion groove, and asecond body that can be inserted into the insertion groove and that containsa micro-electronic element. This second body is provided with a second meansof communication for communication with the first means of communication. Thefirst and second means of communication are provided with further means torealise the communication both in the first and second position of the secondbody in the insert groove, where the first and second position are turnedalmost 180 degrees relative to each other.<IMAGE>

Description

       

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   win direction for exchanging information.



   The invention relates to a device for exchanging information, comprising a first member provided with first communication means which open into an insertion slot and are provided for communication with a data processing unit, and a second element which is insertable in said insertion slot and a microelectronics element having at least one memory function, said second member including second communication means for communicating with said first communication means when the second member is arranged in the insertion slot.



   Such a device is known from US patent n 4, 549, 076. In the known device, the first member is formed by a receiving unit which is suitable for receiving a second member formed by an electronic key. The pin of the key contains contact pins which are connected to a microelectronics element and which, when the key is inserted in the insertion slot of the receiving unit, make contact with further contact pins arranged in the receiving unit.



  This establishes a communication between the microelectronics element in the key and a data processing unit, for example a micro processor, which is connected to the receiving unit. The key is used, for example, as an identifier or as an access means.



   A drawback of the known device is that the key must be inserted into the insertion slot according to a specific orientation. For this purpose, the key is provided, for example, with a protrusion or a guide lip which is in one

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 corresponding recess fits into the receiver unit. If the key is not correctly presented to the insertion slot, it will not fit and the user will have to search until the key fits into the slot. Once the key has been inserted into the slot, the user must then rotate to contact. The imposed orientation direction results from the fact that the electrical contacts in the beard of the key make a correct contact connection in only one specific orientation of the key.

   Such a device is user-unfriendly and cumbersome, since the user must first ensure that the key is correctly presented to the insertion slot with each use of the key, and is moreover obliged to make a rotary movement.



   The object of the invention is to realize a device for exchanging information in which the above-mentioned drawbacks do not occur.



   To this end, a device according to the invention is characterized in that the first and second communication means are provided with further means for establishing said communication in both a first and a second position of the second member in the insertion slot, wherein said first and second second position are located approximately 1800 rotated relative to each other. The presence of said further means now ensures that the user no longer has to look according to which orientation the second member is to be arranged in the insertion slot. Regardless of the orientation with which the key is inserted in the slot, communication is now always established.



   A first preferred embodiment of a device according to the invention has the feature that said further means of the second communication means are arranged on the insertion end of the second element. However the second element is pushed into the insertion slot, the end part will always be against the same part of the

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 first element, namely the part in line with the insertion slot. That end portion is therefore conveniently located for arranging the communication means.



   A second preferred embodiment of a device according to the invention is characterized in that said further means of the second communication means are formed by at least one contact pin arranged in the head of the second member, and said further means of the first communication member formed at least one contact pin which is in line with the insertion slot. Contact pins are a simple and inexpensive realization for the means of communication.



   It is advantageous that a contact pin for supplying a supply voltage is arranged centrally and that a contact pin for a connection to earth is arranged on either side of the contact pin for the supply voltage.



  As a result, a power supply is always supplied directly to the microelectronics element without the need for any prior verification.



   A further preferred embodiment of a device according to the invention is characterized in that a contact pin for data transfer and for connection to earth is arranged symmetrically with respect to the contact pin for the supply voltage on a first side and a second side, respectively, and that said further means of the second communication means are provided for applying a high level to the contact pin for data transfer after connection of the power supply and wherein said further means of the first communication means are provided for connecting two contact pins to which said contact pin for data transfer can be connected probing and detecting which of the two contact pins has a high level. This makes it easy to detect the data contact pin.

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   It is favorable that the second member is provided with two notches. The notches allow correct positioning and locking of the second member.



   Other preferred embodiments of a device according to the invention are characterized in that said first and second communication means are provided for realizing communication via inductive, capacitive or optical means. These are all variants to establish a communication independent of the orientation of the key in the slot.



   The invention will now be described in more detail with reference to the exemplary embodiments shown in the drawing. It will be clear that the invention is not limited to the examples shown in the drawing and that several alternative embodiments are possible within the scope of the patent application.



   In the drawing:
Figure 1 shows a schematic representation of a device according to the invention;
Figure 2 shows a cross-section of a first embodiment of a device according to the invention;
Figure 3 shows a cross-section of a second embodiment of a device according to the invention;
Figure 4 is a cross-section of a further embodiment of a device according to the invention.



   In the drawing, like elements are assigned the same reference numerals.



   The device shown in figure 1 comprises a first member 1 which is provided with an insertion slot 2 into which a second member 3 can be inserted. That second member is preferably formed by a key-shaped element, hereinafter referred to as a key, with a length included between 3 and 12 cm, a width between 0.5 and 6 cm and a thickness included between 1.5 and 10 mm. The key further preferably contains a recess 4

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 with which the key can be connected to a key ring. Furthermore, as shown in Figure 1, the key is provided with two notches 33,34 with which the key can be locked and / or positionable in the insertion slot.

   For this purpose, for example, two pawls are arranged in the channel of the insertion slot 2, which fit into the notches and can be pushed away by the movement of the key in the slot. In addition to a positioning and locking function, it is also possible to assign an activation function to these notches, such that when the key is inserted, the correct positioning of this notch relative to the catches generates an activation pulse for activating a results in communication between the key and the first organ.



   In a first embodiment of a device according to the invention as shown in figure 2, the key 3 comprises contact pins 7,8, 9,10, 11,12 and 13, which are arranged in heads on the key. Preferably, those contact pins are slightly recessed into the plastic material from which the key housing is made, as shown by the protrusions 35 and 36, in order to protect these contact pins. The contact pins 7 to 13 are connected to terminals of a microelectronics element 5 that has at least one memory function. That element 5 is formed, for example, by a semiconductor memory (ROM, EEPROM, PROM) or by a microprocessor provided with or in combination with a memory. In the selected example, the microelectronics element 5 is formed by an EEPROM.

   The ground terminal (GND) of the memory 5 is connected to the contact pins 9,11 and 12. The supply voltage VCC is connected to the contact pin 10, the data terminal pin (D) to the contact pin 8 and the clock input (SK) and the activation input (CS) , chip select) with contact pin 13 and 7, respectively.



   The first member is provided with a first communication means 6 which is connected or connectable via a bus 22

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 is with a data processing unit, for example a microprocessor. The bus 22 is connected to an interface 21.



  The first communication means is further provided with contact pins 14,15, 16,17, 18,19 and 20. The contact pins 14 and 16 and 20, respectively, are connected to the interface 21 via a unidirectional port (driver) 23 and 26, 29 respectively. Contact pin 17 is directly connected to interface 21 while contact pin 18 is grounded.



  Contact pin 15 and 19, respectively, are connected to interface 21 via a bi-directional port 24 and 27, respectively.



   When the key 3 is now inserted into the insertion slot 2, contact pin 10 will come into contact with contact pin 17 and contact pin 9 and 11, respectively, with contact pin 16 and 18 or vice versa, depending on the orientation in which the key is inserted. A voltage is now applied to the inputs VCC and GND of the memory 5. This voltage now ensures that a high level is applied to the contact point D of the memory 5 (for example 5 V). It is now checked, for example under the control of the data processing unit of the first member, whether the contact point D (contact pin 8) is connected to contact pin 15 or 19. For this purpose, both contact pin 15 and 19 are scanned to know at which of the two contact pins 15 or 19 the high level present on contact pin 8 is offered.

   In the example as shown in Figure 2, it is now determined that the high level is provided to contact pin 15 and that the contact pin 19 is offered a low level, since contact pin 19 is grounded via contact pin 12. The determination of the position of contact pin 8 further determines the position of contact pins 7 and 13, since they have a fixed location symmetrical with respect to contact pin 8, such that once it is determined that contact pin 8 is connected to contact pin 15 and 19, respectively. it follows automatically that contact pin 7 is connected to contact pin 14 and 19, respectively, and contact pin 13 to contact pin 19 and 14, respectively.

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  After the determination of the localization of the contact pins, a CS signal and a clock signal are sent via contact pin 14 and 20 respectively, or vice versa, in function of the orientation of the key.



   If the key were to be oriented differently in the slot than as shown in figure 2, contact pin 8 would be connected to contact pin 19. Since now both contact pin 15 and 19 are connected to a bidirectional port (24, 27), both contacts can perform the same functions, namely data transport both for reading from memory and for writing data.



  Once it has been determined to which contact point 15 or 19 the contact point 8 is connected, the clock signals and the CS signal can be applied to the memory and the communication can take place. In function of the selected microelectronic element 5, the data transfer relates to both reading or reading and writing data in the element 5.



   On the one hand, thanks to the specific connection of the contact points 7 tim 13 and 14 to 20 and thanks to the detection of the orientation of the key in the insertion slot by detecting the position of contact point 8, the device is provided with means which make it possible to insert key according to a first or second orientation, which are rotated approximately 1800 relative to each other, into the slot. Communication takes place in both orientations. The user is therefore no longer obliged to check according to which orientation the key is inserted into the slot.



   The application of the contact points 7 and 13 to the head portion of the key can be done easily, for example by connecting the connecting lines of element 5 with a copper or gold plate, which is then cut into segments. The fact that the contact points are arranged crosswise on the key is advantageous since the

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 other contact points 14 to 20 can be fitted in line with the insertion slot. Furthermore, the top and bottom surfaces of the key are free from any electrical contact by arranging the contact points in an end-to-end manner, so that there is room for applying all kinds of information such as, for example, the picture of the holder or an advertisement.



   Figure 3 shows a second embodiment of a device according to the invention. In this embodiment, both the key and the first communication device contain only one contact pin, namely 28 and 30, respectively. Contact pin 28 is connected to a multiplexer 25. The information is now transferred serially and multiplexed in time. The power of the element 5 is provided by a power source 32, which is formed, for example, by a battery, or a rechargeable capacitor or a light cell. The communication member 6 is also provided with a multiplexer 31 which is connected to contact pin 30. Both contact pin 28 and 30 are arranged centrally along the insertion axis of the slot so that communication can also take place independently of the orientation of the key.

   In this embodiment it is also possible to arrange a clock, for example a quartz crystal, in the key 3, whereby it is then not necessary to supply the clock signal from the first communication device.



   Figure 4 shows a further embodiment of a device according to the invention in which no contact points are used, but in which the communication takes place in an inductive manner. To this end, the key 3 is provided with a transmit (and / or receive) coil 39 which is connected to a modulator (demodulator) 38. The communication member 6 is also provided with a transmit / receive coil 40 connected to a modulator-demodulator 41. In order to detect the orientation of coil 39 and thus of the key, current flows in coil 40 in a first and then in a second, opposite to the

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 first direction and the field thus induced in the coil 39 is detected each time. Once the direction of coil 39 has been determined, communication can take place.

   It will be clear that instead of an inductive information transfer, it is also possible to capacitively transfer the information.



   In a further alternative embodiment, the information transfer could take place via optical path, for example by arranging a diode in the key and a semiconductor laser in the communication member.


    

Claims (13)

CONCLUSIONS An information exchange device comprising a first means (1) provided with first communication means (6) which open into an insertion slot (2) and are provided for communication with a data processing unit, and a second means (4) which are insertion slot is insertable and contains a microelectronics element (3) having at least one memory function, the second element being provided with second communication means for communication with said first communication means when the second element is arranged in the insertion slot, characterized in that the first and second communication means are provided with further means for establishing said communication in both a first and a second position of the second member in the insertion slot,  said first and second positions being substantially rotated relative to each other.  Device according to claim 1, characterized in that said further means of the second communication means are arranged in a crosswise manner on the insertion end of the second member.  Device according to claim 2, characterized in that said further means of the second communication means are formed by at least one contact pin (28) arranged in the head of the second member, and said further means of the first communication member contact pin (30) which is arranged in line with the insertion slot.  Device according to claim 3, characterized in that a contact pin for supplying a supply voltage (10; 17) is arranged centrally and that on both sides of the contact pin for the supply voltage a contact pin for connection to earth (9, 11; 16, 18) is provided.  Device according to claim 4, characterized in that it is symmetrical with respect to the contact pin  <Desc / Clms Page number 11>  the supply voltage is provided on a first side and a second side, respectively, a contact pin (8) for data transfer or for a connection to earth (12), and that said further means of the second communication means are provided to provide a high voltage after connection of the power supply. a level on the contact pin for the data transfer and wherein said further means of the first communication means are provided for scanning two contact pins to which said contact pin for the data transfer is connectable and detecting on which of the two contact pins a high level is present is.  Device according to claim 5, characterized in that symmetrically with respect to the contact pin for the supply voltage, on one side a contact pin for supplying a clock signal (13) and on a second side a contact pin for supplying an activation signal (17 ) is fitted.  Device according to claim 5 or 6, characterized in that the contact pins of said further means of the first communication means. which contact pins are provided for contacting the contact pin for data transfer from the second member) are connected to a bidirectional data communication port (24, 27).  Device according to any one of claims 1 to 7, characterized in that the second member is provided with two notches (33, 34).  Device according to claim 1 or 2, characterized in that said first and second communication means are provided for realizing an inductive communication (39, 40).  Device according to claim 1 or 2, characterized in that said first and second communication means are provided for realizing communication by capacitive means.  <Desc / Clms Page number 12>    11. Device as claimed in claim 1 or 2, characterized in that said further means of the first and second communication means respectively comprise a laser and a diode, all such as to realize said communication by optical means.  First member for use in a device according to any one of claims 1 to 11, characterized in that the first communication means are provided with further means for communicating said communication in both a first and a second position of the second member in the insertion slot. wherein said first and second positions are located approximately 1800 rotated relative to each other.  Second element for use in a device according to any one of claims 1 to 11, characterized in that the second communication means are provided with further means for communicating said communication in both a first and a second position of the second element in the insertion slot. wherein said first and second positions are located approximately 1800 rotated relative to each other.