DE10007284A1 - Chip card for contact and contactless data transfer with own voltage supply and clock with switch over between system clock and card clock - Google Patents

Abstract

Card has own voltage supply (6) and own clock (4) for card circuitry (1) with system clock change-over switch (5) to switch over between on card clock and external clock. Card also has start/stop switch (7) for the on-card clock. Card has system clock change-over switch (5) to switch over between on card clock (4) and clock external to card. Change-over switch receives input via interface (3) from card external system clock (CLK), on-card system clock (S5) and external supply voltage (S6) as switch signal. If value of external supply voltage (Vcc) over- or understeps specific threshold value, it switches over to external or to internal clock. Card also has memory for measurement data from sensor circuitry (2) on card. Data is transferred by contact or contactless, for evaluation and documentation.

Description

The invention relates to a chip card with contact or contactless operation. Such a chip card are used in large quantities for example as bank cards, telephone cards, Health insurance cards, access authorization cards or the like are used.

The card body of such chip cards consists of several laminated plastic films or one in Injection molding process produced card body, in which card-internal circuits, preferably as Integrated semiconductor components (IC, chip) are housed. Data exchange with corresponding Card readers take place via an interface (electrical Contact surfaces or antenna coil). The chip card is also Card reader supplied with voltage and loaded with the system clock.

The object of the invention is to use the portable data carrier (chip card) in addition to make it operable in conjunction with a card reader and thus new applications for the To open up a chip card.

This object is achieved by the features of patent claim 1. The subsequent ones Subclaims relate to advantageous embodiments of the invention.

According to the invention, the chip card has a voltage source for supplying power to the card for internal circuits and a clock device for generating an internal card System clock for clocked operated card-internal circuits. So that the chip card can be operated independently of a card reader as the necessary power supply as well the system clock is made available internally and not via the interface to the card reader.

In addition, the chip card according to the invention has a system clock switchover device the clocked operated card-internal circuits instead of the card-external clock with the card internal clock applied. The system clock switching device switches using a Signals for the external voltage supply between the card internal and the system clock external to the card. The inputs of the system clock switching device are the System clock external to the card reader via the interface and the system clock internal to the card the internal clock device and in the simplest case the external supply voltage as  Switching signal. The output of the system cycle switching device is the currently active system cycle, with to which the clocked card-internal circuits are then applied. Has the value of external supply voltage exceeds or falls below a certain threshold, switches the system clock switching device either the external system clock or the internal system clock by.

With the chip card according to the invention can, for. B. implement a sensor chip card, the one additional sensor electronics circuit for measuring a chemical and / or physical and / or biological size and / or a biometric feature, the determined Measurement data are stored in a measurement data memory of the chip card. To measure the above mentioned sizes, the sensor chip card is independent of a card reader as a sensor card can be used independently. For evaluation, storage and / or documentation, the Measured data are then read out via the interface for the card reader (contact or contactless) become. Here, existing technology and infrastructure can be used in an advantageous manner become.

In addition, a chip card with keyboard and / or display can also be used within the scope of the invention realize the input and / or readout of data even without a card reader with keyboard and display enables.

In a particularly advantageous embodiment of the invention, the chip card has a start and / or stop switch for switching the internal clock device on and / or off. So that will ensures that the high-consumption clock device, which is fed by the internal voltage source is only in operation when the internal system clock is required. In this way, the Lifespan or the charging intervals of the internal voltage source are extended.

The invention will be explained in more detail below with the aid of the accompanying drawing. The drawing shows a functional diagram of a chip card according to the invention with its components. The interface for the card reader is labeled ( 3 ). In the illustrated embodiment, it is a chip card operated with contacts. In this case, the interface ( 3 ) consists of electrical contact surfaces:
Vcc for the external supply voltage,
CLK for the external system clock,
I / O for bidirectional data exchange,
GND for a galvanic ground connection to the card reader,
RST for an external reset signal.

The contact surfaces of this interface are connected to a microcontroller via corresponding lines, the signal (S4) for the external system clock (CLK) being led to the microcontroller via a system clock switchover device ( 5 ). In addition, the internal system clock (S5) generated by the clock device is fed to the microcontroller via the system clock switchover device ( 4 ). Whether the internal or the external clock is switched through as the current system clock is effected via the external supply voltage (Vcc) as a switching signal (S6). The clock device ( 4 ) consists of an oscillator and corresponding logic modules. The clock device ( 4 ) is powered by the internal battery ( 6 ). The chip card has a switch ( 7 ) for switching on the clock device ( 4 ). The switch ( 7 ) is preferably designed as a start and / or stop switch and connected to a signal generating circuit ( 8 ) for generating switch-on and / or switch-off signals (S1, S2, S3). A single button press for a period of less than 5 seconds generates a switch-on signal (S3) for the internal clock device ( 4 ) and for the microcontroller. A single press of the button for a period longer than 5 seconds generates a reset signal (S1) for the microcontroller. A double push of a button ("double click") with a pause of less than 1 second generates a stop signal (S2) for the microcontroller, as a result of which the microcontroller is then preferably switched to an energy-saving mode. The internal clock device ( 4 ) is then also switched off by the microcontroller via a delay circuit ( 9 ). This delay ensures that the internal clock is never switched off until the microcontroller is in energy-saving mode. In the energy-saving mode of the microcontroller, only the data in the RAM are saved via the battery as a buffer ( 6 ).

The microcontroller has a read-only memory of the type ROM and a volatile memory of the type RAM. In addition, the microcontroller can still have a non-volatile, programmable EEPOM memory. In the embodiment shown, a microcontroller is used in which an analog-digital converter is integrated. The analog-digital converter is used to convert analog measured variables (S8) of sensor electronics ( 2 ) also arranged on the chip card. A battery ( 6 ) is provided as the voltage source for the internal voltage supply and supplies the individual circuits of the chip card internally with voltage and current via corresponding lines (S7).

In addition to the operating system and the communication program for the card reader, the ROM and / or EEPROM of the microcontroller also houses the measurement data acquisition program for the data from the sensor electronics ( 2 ).

Finally, the handling of the chip card according to the invention in the embodiment as a sensor chip card is to be described: the user of the card, for example an employee of an analysis laboratory who is responsible for water analysis and wants to carry out measurements with the sensor card, starts by pressing the button ( 7 ) the internal clock device ( 4 ) and activates the microcontroller ( 1 ). Since there is no external supply voltage (Vcc) on the system clock switching device ( 5 ), i.e. the value of the corresponding signal line (S6) is below a certain threshold value (e.g. 3 V or 5 V), the switching device ( 5 ) switches the internal system clock to the microcontroller. The microcontroller ( 1 ) in turn now switches on the sensor electronics ( 2 ), for which purpose the battery voltage (S7) is applied. The sensor card is now ready for appropriate measurements. The sensor card is deactivated by "double-clicking" the button ( 7 ). However, the measured values remain stored and can be read out later via the card reader interface, which is the great advantage of a sensor chip card. To read out the stored data, the sensor chip card is then brought into the effective range of a card reader with its card reader interface. The microcontroller is now activated and supplied with power via the standard card interface. The system clock switching device ( 4 ) detects the presence of the external supply voltage (Vcc, S6) and accordingly switches the external system clock (CLK) through to the microcontroller. The measurement data can now be read out from the sensor chip card.

Claims (12)

1. Chip card with a chip card body and a contact and / or contactless interface ( 3 ) arranged thereon for the data exchange with a card reader, whereby via this interface ( 3 ) also an external power supply (Vcc, S6) for card internal circuits ( 1 ) and an external system clock (CLK, S4) is applied to clocked operated internal circuits ( 1 ), characterized in that the chip card body

• - A voltage source ( 6 ) for internal voltage supply for internal circuits ( 1 , 2 , 45 , 8 ),
• - A clock device ( 4 ) for generating an internal system clock (S5) for clocked operated internal circuits ( 1 ) and
• a system clock switching device ( 5 ) which acts on the clock-operated card-internal circuits ( 1 ) instead of the card-external system clock (CLK, S4) with the card-internal system clock (S5),

The system clock switching device ( 5 ) switches between the card-internal (S5) and the card-external system clock (CLK, S4) on the basis of a signal (S6) for the card-external power supply. 2. Chip card according to claim 1, characterized in that the chip card body has a start and / or stop switch ( 7 ) for the internal clock device ( 4 ). 3. Chip card according to claim 1, characterized in that the start and / or stop switch ( 7 ) is connected to a signal generating circuit ( 8 ) for generating switch-on and / or switch-off signals. 4. Chip card according to one of the preceding claims, characterized in that it has a sensor electronics circuit ( 2 ) for measuring a chemical and / or physical and / or biological size and / or a biometric feature, the measured data determined being stored in a measurement data memory of the chip card become. 5. Chip card according to one of the preceding claims, characterized in that it has an analog-digital converter for converting an analog measurement signal from the sensor electronics circuit ( 2 ) into a digital bit sequence. 6. Chip card according to claim 2 to 5, characterized in that it has a microcontroller in its memory area the measurement data are saved. 7. Chip card according to claim 5 and 6, characterized in that the analog-digital converter is integrated in the microcontroller. 8. Chip card according to one of the preceding claims 2 to 7, characterized in that the internal clock device ( 4 ) is switched on via the start and / or stop switch ( 7 ) and the signal generating circuit ( 8 ). 9. Chip card according to one of the preceding claims 5 to 7, characterized in that a reset signal for the microcontroller is generated via the start and / or stop switch ( 7 ) and the signal generating circuit ( 8 ). 10. Chip card according to one of the preceding claims 5 to 8, characterized in that the start and / or stop switch ( 7 ) and the signal generating circuit ( 8 ) can be switched from an energy-saving mode to an active mode and vice versa. 11. Chip card according to one of the preceding claims 5 to 9, characterized in that the internal clock device ( 4 ) is switched off via the microcontroller. 12. Chip card according to claim 10, characterized in that the switch-off signal of the microcontroller for the internal clock device ( 4 ) acts on the clock device with a time delay with a delay circuit.