KR19980042718A - Electrical equipment for data exchange, data exchange method and chip card for performing the method - Google Patents

Abstract

The present invention relates to a data exchange method between an electronic device and a chip card (9), and enables a simple communication design by a handshake method. The terminal and chip card operating in accordance with this method include in particular a software section which enables the exchange of data of the above kind.

Description

Electrical equipment for data exchange, data exchange method and chip card for performing the method

The present invention relates to a method for exchanging data between an electrical device and a chip card, and also to an electronic device and a chip card for carrying out the method according to the independent claims.

Today, considerable efforts are being made to expand mobile and some intelligent memories into their respective fields, such as phone cards and electronic financial markets, most of which use chip cards the size of check cards. A processor chip card with a contact surface communicates with the corresponding electrical terminal which houses the chip card and makes contact with various asymmetric mobile protocols, for example, as defined by the International Standards Institute ISO / IEC 7816. The point of the protocol these days is that the chip card goes through a special point of contact for the asymmetric answer of the chip card after a certain processing time elapses depending on the instructions and until this point cannot be configured for the terminal. Start to deliver

However, the asymmetric reply of the chip card should not occur under certain circumstances, and furthermore, it may be damaged when the terminal itself is in another communication with, for example, a third communication partner, and its limited processing capacity. Only simultaneous communication connections are possible.

Advantage of the present invention

The method according to the invention with the gist characterized by the independent claims has the advantage that the exchange of data between the electric terminal and the chip card is synchronous in contrast to the prior art. Effectively, the time point at which the result of the processing is output from the chip card is transmitted by the command from the terminal. By synchronizing the data exchange, the electrical terminal is in addition to performing parallel communication with the chip card to perform another particularly higher priority work action. This can prevent expensive additional use of hardware that often operates in parallel.

The measures carried out in the dependent claims enable easy reconstruction and improvement of the method presented in the independent claims.

The time between the first command of the electrical terminal and the second command outputting the result can be adjusted according to an easy manner.

In another embodiment, the time interval between the two commands may be fixedly set.

Another easy configuration of data exchange allows to output a periodic query until a reply of the chip card is made in accordance with the first query result of the device.

Not only the contact area of the chip card is used for communication in an easy manner, but the first and second commands are also transmitted by various contact surfaces. Through this, status information can be easily delivered.

As another method of facilitating data exchange, the chip card examines the result according to the first command of the electrical terminal and prepares the result of the first command for delivery. In a very simple way, the result preparation is then displayed on the electrical terminal using the status signal of the chip card. After the chip card indicates that the result is ready via the status indicator, the output of the result is controlled by the second command of the electrical terminal.

In another embodiment of the present invention, the above result may be transmitted through the periodic output of the chip card. The periodic output of these results confirms that the results have been received in order and stops.

The chip card according to the invention having the gist characterized in the independent claims has the advantage that the processor integrated in the chip card possesses an operating system which allows for synchronized data exchange. The above-mentioned electrical terminal, preferably an autoboard device for a toll, has the advantage that the processor possesses an operating system which enables synchronous data exchange.

Embodiments of the invention will be described in detail in the drawings and in the description below.

No content.

1 illustrates the order of time on a command line.

2 is a schematic illustration of an electrical terminal in communication with a chip card.

Explanation of symbols on the main parts of the drawings

1: Signal 7: Autoboard Device

11 contact area 20 first command unit

21: second command unit 25, 26: status signal

Fig. 1 shows a time sequence in exchanging data between an electric terminal and a chip card. The matched feature of today's mobile protocols is that the chip card begins to deliver an answer to the chip card's input / output area asymmetrically with the internal operating time and to the point where no preset is possible for the terminal. . This operating time, T, is only the highest in ISO / IEC 7816-3. 1a shows a signal 1 sent by an electric terminal to a chip card. Answer (2) is formed in time category T. The fact that the time of transmission of the answer (2) has not been determined has great significance when the operating time of the chip card is large compared with the time required for a certain transmission process and when it is strongly changed. 1B shows that the answer 2 of the chip card is not generated until after the entire time T has elapsed.

The method according to the invention is shown in FIGS. 1C-1E. The time course table of FIG. 1C shows that an answer (2) to the command of the electric terminal of the chip card is required. The command of the controlled electric terminal is thus divided into two parts: a first command unit 20 for initiating the processing of the command and a second command unit 21 for effecting the output of the answer. This data exchange is accomplished by one individual chip card input / output contact.

In another embodiment, the terminal transmits the requested answer (2) until the chip card completes the operation by repeating the second command unit 21 as long as the talk is required from the chip card until the desired selection point. do. Between repeating the second command section 21, the chip card must give a pause long enough for the chip card to start answering and for such detection to be possible.

Other constructional possibilities are conceivable. In other words, the chip card may repeat the answer (22, 23, 24 ...) for a command until the terminal asks the answer by the status signal 25 as shown in Figure 1d. You can consider. This status signal 25 is transmitted again by using the other contact point of the chip card in the contact area 11 or by the input / output contact point which has been used conventionally. In this case too, a corresponding pause must be given between repeating the answers so that the status signal 25 can be output from the terminal and detected using the chip card.

This status signal indicates that the chip card has finished processing and can send a reply. According to FIG. 1E, the status signal 26 of the chip card, that is, the status signal indicating that the processing is completed, is generated for the command 20 of the electric device. The terminal asks for a request 21 to output the result, whereby the result 2 is transferred from the chip card.

While there is another configurability that the command or answer can be conveyed by input / output contacts, the possibility of additionally using another contact to the contact area 11 to convey a requirement or release an answer. There is also. Then, the chip card can answer only when the chip card receives the corresponding control signal from the terminal to the other contact, for example. This allows, for example, to establish a fixed logic checker or to transmit the corresponding data language. For this purpose, it is possible to use the contact areas (C4, C8) of the chip card which are not yet allocated in the current protocol or the VPP-contacts which are often not used.

2 shows another application example according to the invention. The application here refers to the automatic recognition of road tolls using a mobile autoboard unit 7 (ON-Board-unit OBU) that can be mounted in a vehicle. The OBU 7 is a slave, which communicates with the functional device 4 on the road side and the communication center 3 attached thereto via the functional intersection point 5, and is pushed as a master. Communication with the card 9 is made possible. At this time, the contact surface 11 on the chip card has several contacts. The OBU secures the contact to the chip card by the chip card write / read section 6 at the intersection thereof. Due to cost concerns, these OBUs generally consist of a simple device processor 8 which can only communicate at the same time. At the top of the chip card, the processor 12 monitors the connection and processes the commands of the OBU. If the OBU suspends the command to the chip card and waits for a reply, and within this time additionally raises the requirements of the roadside communication center station for other communications, the chip card must comply with this requirement and thereby The answer of the chip card 9 cannot be received. By applying the above-described method, not only communication with the communication center 3 on the road side is possible, but also communication with the chip card 9 for the board device 7. Due to the fact that the OBU can request the answer of the chip card, it must be able to communicate with the communication center 3 on the road side before it can request the answer of the chip card.

None.

Claims (12)

In the data exchange method between an electric device (7) comprising a write / read section (6) and a processor (8) for controlling data exchange and a chip card (9) having at least one contact surface (11), The first command 20 of the electric device is transmitted to the chip card 9 and the processing result 2 of the first command 20 via the chip card 9 is according to the request. Data exchange method characterized in that the transmission through). Method according to claim 1, characterized in that the time between the first and second commands (20, 21) of the electrical device (7) is determined via the electrical device. Method according to claim 1, characterized in that the time between the first and second commands (20, 21) of the electrical device (7) is precisely adjusted via the electrical device. The method according to any one of claims 1 to 3, characterized in that the second command 21 of the electric device 7 is repeated periodically until the answer 2 of the chip card 9 is transmitted. Data exchange method. 4. The method according to claim 1, wherein the first and second commands 20, 21 of the electrical device 7 are transmitted by different contacts of the contact surface 11 of the chip card 9. A data exchange method, characterized in that. In the data exchange method between an electronic device 7 including a write / read section 6 as well as a processor 8 for controlling data exchange and a chip card 9 having at least one contact surface 11, The first command 20 of the electric device is transmitted to the chip card 9, and the chip card 9 is kept waiting to deliver the processing result 2 of the first command 20. Waiting is signaled via the chip card (9). 7. A data exchange method according to claim 6, wherein the standby is signaled via a status indication of the chip card (9). 8. Method according to claim 6 or 7, characterized in that the pending result is communicated by a second command (21) of the electrical device as required. 7. A method according to claim 6, wherein the result (2) is delivered by periodically transmitting the result (2). 10. Method according to claim 6 or 9, characterized in that the periodic transmission of the results (22, 23, 24) is stopped via a command (25) that the electrical device (7) asks. In the chip card 9 for carrying out the method according to claims 1 to 10, comprising at least one contact area 11 and a processor 12 connected thereto. The processor is characterized in that for supporting the synchronized data exchange between the chip card (9) and the write / read section (6) of the electrical device. In an electronic device such as an autoboard device for road toll recognition for carrying out the method according to claims 1 to 10, comprising at least one contact area 11 and a processor 12 connected thereto, The device processor (8) of the electronic device (7) is characterized in that it supports the synchronized data exchange between the chip card (9) and the write / read section (6) of the electronic device (7).