KR100646116B1 - 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 apparatus 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 electric device and a chip card according to the whole part of the independent claim, and an electronic device and a chip card for implementing the method.

Recently, some intelligent mobile memories are becoming more and more popular in various fields, for example, telephone cards, electronic cash cards, etc., and chip cards of the size of check cash cards are mostly used. A processor chip card having a contact area communicates with an electric terminal which receives the chip card and forms a contact by various asynchronous transmission protocols, for example, the protocol specified in the international standard ISO / IEC 7816-3. A feature of recent protocols is that the chipcard begins to transmit its response across the contacts for it, asynchronously and thus unpredictably at the terminal after different processing times according to the command.

However, such an asynchronous response of the chip card may only occur in certain situations, e.g. when the terminal itself communicates with another third party communication partner, for example, and because of its limited processing capacity, only one communication connection at the same time. If this is possible, it may be undesirable or adversely affected.

The method according to the invention with the features of the independent claims has the advantage that the data exchange between the electric terminal and the chip card is matched compared to the prior art. Preferably, the time point at which the result of the processing is output from the chip card is given in advance by the command of the terminal. By this matching of the data exchange, the electric device has the possibility of carrying out an additional especially higher priority operation in parallel with the communication with the chip card. This often eliminates the need for additional and expensive hardware that works in parallel.

By means of the measures disclosed in the dependent claims, it is possible to implement and to improve the method disclosed in the independent claims.

Preferably, a time can be set between the first command of the electric machine and the second command for controlling the output of the result.

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

Another preferred embodiment of the data exchange allows sending periodic queries until the chip card responds according to the first query result of the device.

Preferably, not only one contact area of the chip card is used for communication, and the first and second commands are sent through several contact areas. Therefore, status information can be transmitted simply.

As another preferred method for data exchange, the chip card examines the result according to the first command of the electric device and the result of the first command is ready for delivery. Then, in a simple manner, the ready state of delivery of the result can be instructed by the status signal of the chip card to the electric machine. After the chip card indicates through the status indication that the result is in a ready state, the output of the result is controlled by the second command of this electric device.

Another embodiment may send this result through the periodic output of the chip card. This periodic transmission of the result is stopped by a command acknowledging the normal receipt of the result.

The chip card according to the invention with the features of the independent claims has the advantage that the processor integrated in the chip card has an operating system which allows for a matched data exchange. This electrical device, preferably the automobile on-board device for toll detection, likewise has the advantage that the processor has an operating system that enables synchronous data exchange.

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

1 shows a temporal sequence in exchanging data between an electric terminal and a chip card. A matched feature in recent transmission protocols is that the chipcard starts sending its response to the input / output field of the chipcard asynchronously after the internal operating time and thus at an unpredictable point in the terminal. This operating time T is specified only in maximum in ISO / IEC 7816-3. 1a shows a signal 1 sent by an electric terminal to a chip card. The response 2 is made within the time frame T. The fact that the transmission time of this response 2 has not been determined has great significance especially when the processing time of this chip card is large compared to the time required for the unique transmission process and when it is severely changed. 1B shows that the response 2 of this chip card can be made only after the total time T has elapsed.

The method according to the invention is shown in FIGS. 1C-1E. The time sequence of FIG. 1C shows that the chip card's response (2) is required for the command of the electrical terminal. Thus, the command of the electric terminal is divided into two parts: the first command part 20 which starts the processing of the command and the second command part 21 which causes the transmission of the response. This data exchange can be accomplished via a single input / output contact on the chip card.

In another embodiment, the terminal requests the chip card's response by repeating the second command portion 21 at any time selected by the terminal, until the chip card completes processing and sends the requested response 2. A sufficiently long pause must be inserted between repeating the second command portion 21 so that the chip card starts to respond and the terminal can detect this response.

Another embodiment, that is, the chip card repeats an answer (22, 23, 24 ...) for a command until the terminal acknowledges receipt of a response to the status signal 25 as shown in FIG. An embodiment is also possible. This status signal 25 is transmitted in the contact area 11 through the other contact of the chip card or through the input / output contact which has been used conventionally. Even in this case, a suitable poise must be given between repeating this response so that the terminal can transmit the status signal 25 and the chip card can detect this signal.

This status signal may indicate that the chip card has finished processing and can send a response. 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 acknowledges the request 21 for the output of the result, so that the result 2 is sent from the chip card.

In another embodiment, commands and responses may be sent via input / output contacts, but additional contacts in contact area 11 are additionally used to send a request or enable of a response. Thus, the chip card can only respond, for example, when the chip card receives the corresponding control signal at the other contact from the terminal. This may be, for example, the application of a defined logic level or the transmission of corresponding data words. For this purpose, modern protocols can use the unfilled contact areas (C4, C8) of the chip card or the VPP-contacts that are often not used.

2 shows an application of the method according to the invention. Here, the application refers to the automatic detection of the road toll using a mobile vehicle on-board device 7 (ON-Board-Unit OBU) that can be mounted in the vehicle. The OBU 7 communicates with the roadside radio 4 and the communication center 3 attached thereto via the air interface 5 as a slave, and also with the chip card 9 inserted as a master. There is a contact area 11 having a plurality of contacts on this chip card. The OBU contacts the chip card through its interface, ie the chip card-writing / reading unit 6. Due to cost concerns, these OBUs generally have a simple device processor 8 which can only make one communication at a time. In this chip card, the processor 12 monitors the connection and processes the commands of the OBU. When the OBU commands the chip card and receives a request from the roadside communication center 3 for additional communication during the time waiting for a response, the OBU must comply with this request, and in some cases, the chip card ( 9) can not receive the response. 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 for the on-board device 7. The fact that this OBU can request the response of the chip card makes it possible to cause communication with the communication center 3 on the road side and thereafter request the response of the chip card.

The method according to the invention with the features of the independent claims has the advantage that the data exchange between the electric terminal and the chip card is matched compared to the prior art. Preferably, the time point at which the result of the processing is output from the chip card is given in advance by the command of the terminal. This matching of the data exchange has the possibility that the electrical device can carry out the communication with the chip card in parallel with an additional particularly higher priority operation. This eliminates the need for additional and expensive hardware that often runs in parallel.

1 shows a sequence of instructions over time;

2 is a schematic representation of an electrical device in communication with a chip card.

※ Explanation of code for main part of drawing ※

1: signal 7: automotive on-board appliance

11: contact area 20: first command

21: second command 25, 26: status signal

Claims (12)

In the data exchange method between an electronic device (7) having a processor (8) and a recording / reading unit (6) controlling data exchange, and a chip card (9) having at least one contact area (11), The electric device transmits a first command 20 to the chip card 9, and the chip card 9 sends a status signal indicating that the processing result 2 for the first command 20 is ready. And transmitting the processing result (2) in accordance with a request by the second command (21) from the electrical device. The method of claim 1, Method of data exchange, characterized in that the time between the first and second command (20, 21) of the electrical device (7) is determined by the electrical device. The method of claim 1, Method of data exchange, characterized in that the time between the first and second commands (20, 21) of the electrical device (7) is fixedly set by the electrical device. The method according to any one of claims 1 to 3, Said second command (21) of said electric device (7) is characterized in that it repeats periodically until a response (2) of said chip card (9) is transmitted. The method according to any one of claims 1 to 3, Said first and second commands (20, 21) of said electrical device (7) are characterized in that they are transmitted via different contacts of the contact area (11) of said chip card (9). In the data exchange method between an electronic device (7) comprising a processor (8) for controlling data exchange and a recording / reading unit (6), and a chip card (9) having at least one contact area (11), The electrical device sends a first command 20 to the chip card 9, which chip card 9 prepares to transmit the processing result 2 for the first command 20, The ready state is characterized in that it is signaled via the chip card (9). The method of claim 6, The ready state is characterized in that it is signaled by the state indication of the chip card (9). The method according to claim 6 or 7, The result of the ready state is characterized in that it is transmitted on request by the second command (21) of the electric device. The method of claim 6, The result (2) is transmitted by periodic transmission of the result (2). The method according to claim 6 or 9, Periodic transmission of results (22, 23, 24) is characterized in that it is interrupted by an acknowledgment command (25) of the electrical device (7). Method according to any one of claims 1, 2, 3, 6, 7 or 9, comprising at least one contact area 11 and a processor 12 connected thereto. In the chip card 9 for performing the The processor is characterized in that it supports matching data exchange between the chip card (9) and the recording / reading unit (6) of the electrical device. Method according to any one of claims 1, 2, 3, 6, 7, or 9 comprising a recording / reading unit 6 and a device processor 8 connected thereto. In an electrical appliance (7), such as a motor vehicle on-board appliance for road toll detection, The appliance processor (8) of the electric appliance (7) is characterized in that it supports a matched data exchange between the chip card (9) and the writing / reading unit (6) of the electrical appliance (7).

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