DE102005017300A1 - Device for reading at least one chip of a smart card - Google Patents

Abstract

The invention relates to a device for reading at least one chip of a first or several smart cards (n), comprising a serial interface with first interface lines to at least one data input / output contact, a clock signal contact, a supply voltage contact, a ground Contact and a reset signal contact of the chip of the first smart card, wherein, starting from each first interface line of the serial interface, at least one additional interface line for reading a chip of a second smart card is provided, wherein between a first reset signal interface line and the further reset signal interface line emanating from this first reset signal interface line a switch is provided.

Description

The The invention relates to a device for reading at least a chip of a first or more smart card (s) having a serial interface with first interface lines to at least a data input / output contact, a Clock signal contact, a programming voltage contact, a ground contact and a reset signal contact of the chip of the first smart card.

Smart cards also known as Integrated Circuit Card (ICC), are standardized Cards. Smart cards or the chip of the smart card have their own Microprocessor with a fixed or program memory (ROM - Read Only Memory), with volatile Save (RAM - Random Access Memory and EEPROM - Electrical Erasable Programmable Read Only Memory) and a bus system, to be able to transport data. The fixed memory houses the operating system. The RAM memory is volatile, though the operating voltage is switched off. The ROM and EEPROM memory are not volatile, when the operating voltage is switched off. The EEPROM is the erasable Fixed storage on which the application data and the encryption algorithms get saved. The stored in the memory of smart cards Data can be via appropriate Readers read out and transmitted to other communication devices become. Furthermore, a smart card or the chip of a smart card a reset logic on. This is a so-called reset circuit, which is the overall system resets to a defined initial state. A smart card poses own services available, such as data storage or encryption. The standard ISO7816 specifies the specification of the smart cards. The Communication with the smart card reader takes place via electrical contact fields on the smart card's chip. A chip of a smart card has i.d.R. 8 contact fields, which include the supply of the supply voltage, the ground, the clock signal and the reset signal and the data transmission and the programming voltage.

Smart cards become mainly used in the fields of e-business and e-commerce. Furthermore they are used for authentication and authorization and thus can access to vending machines, computers and communication equipment create. You can for example, as an RSA card for the creation of digital signatures, as a SIM card for GSM mobile devices or as USIM card for UMTS mobile devices be used.

• – einer Datenein-/Datenausgabe-Leitung zum Dateneingabe-/Datenausgabe-Kontakt (I/O) des Chips der Smartkarte. Diese Datenein-/Datenausgabe-Leitung bzw. Dateneingabe-/Datenausgabe-Kontakt wird zum seriellen Datenaustausch zwischen der Smartkarte und dem Kartenleser einer Vorrichtung, wie beispielsweise ein Funkmodul, benutzt.
• – einer Taktsignal-Leitung zum Taktsignal-Kontakt (CLK) des Chips der Smartkarte. Ein Smartkarten-Mikroprozessor besitzt gewöhnlich keine interne Takterzeugung. Daher muss diese über eine Taktsignal-Leitung von außen angelegt werden. Übliche Taktraten sind 3,5 bis 5 MHz. In ISO/IEC-7816-3 sind jedoch Taktraten von bis zu 20MHz spezifiziert. Um Strom zu sparen, erlauben die meisten Smartkarten-Mikroprozessoren ein vorübergehendes Abschalten der Taktversorgung.
• – einer Versorgungsspannungs-Leitung zum Versorgungsspannungs-Kontakt (VCC) des Chips der Smartkarte. Die Versorgungsspannung einer Smartkarte liegt in der Regel bei 5V, 3V oder 1,8V.
• – einer Masse-Leitung zum Masse-Kontakt (GND) des Chips der Smartkarte. Die Versorgungsspannungs-Leitung und die Masse-Leitung bilden zusammen die Betriebsspannungs-Versorgung des Chips der Smartkarte.
• – einer Reset-Signal-Leitung zum Reset-Signal-Kontakt (RST) des Chips der Smartkarte. Über diesen Reset-Signal-Kontakt kann der Kartenleser den Chip der Smartkarte zurücksetzen. Das Reset-Signal ist low-aktiv. Es wird bei der Bootsequenz und zum externen Zurücksetzen der Smartkarte genutzt.

GSM mobile devices or UMTS mobile devices require a SIM card or a USIM card for their intended function. That is, the interface of GSM mobile devices or UMTS mobile devices is usually designed for the connection of a SIM card or a USIM card. In practice, however, two or more interfaces are often required. For example, it is known from automotive devices that at least two SIM cards, a so-called telematics SIM card and a telephony SIM card are required. The communication from a GSM mobile device or UMTS mobile device to SIM card or USIM card via a serial interface with at least the following interface lines:

• A data input / output line to the data input / output contact (I / O) of the smart card chip. This data input / output line or data input / output contact is used for serial communication between the smart card and the card reader of a device, such as a radio module.
• - A clock signal line to the clock signal contact (CLK) of the smart card chip. A smart card microprocessor usually does not have internal clock generation. Therefore, this must be created via a clock signal line from the outside. Typical clock rates are 3.5 to 5 MHz. In ISO / IEC-7816-3, however, clock rates of up to 20MHz are specified. To save power, most smart card microprocessors allow a temporary shutdown of the clock supply.
• - A supply voltage line to the supply voltage contact (VCC) of the smart card chip. The supply voltage of a smart card is usually at 5V, 3V or 1.8V.
• - A ground line to the ground contact (GND) of the chip of the smart card. The supply voltage line and the ground line together form the operating voltage supply of the chip of the smart card.
• - A reset signal line to the reset signal contact (RST) of the smart card chip. The card reader can reset the chip of the smart card via this reset signal contact. The reset signal is low active. It is used in the boot sequence and for external reset of the smart card.

A disadvantage of the known devices, such as a GSM mobile device or a UMTS mobile device, for reading at least two smart cards or at least two chips of multiple smart cards is the switching between the smart cards or the chips. The switching takes place in the known devices in that all interface lines to a smart card or a chip by means of niederoh miger electronic switch can be switched. This is on the one hand very expensive, on the other costly.

task The invention is to provide a device that is suitable is to read chips of several smart cards, wherein the switching between the smart cards or the chips is simple and inexpensive feasible. That is, the device should be designed so that different Chips can be read by the device without affecting the position the chips changed becomes.

These Task is achieved by a device for reading at least a chip of a first or more smart card (s) having the characteristics of Patent claim 1 solved.

A Device for reading at least one chip of a first or multiple smart card (s) having a serial interface with first interface lines to at least one data input / output contact, a clock signal contact, a supply voltage contact, a ground contact and a reset signal contact the chip of the first smart card, starting from each first Interface line of the serial interface at least in each case another interface line for reading a chip of a second Smart card is provided, wherein between a first interface line and the further interface line originating from this first interface line a switch is provided, is a device, in the switching between the smart cards or chips easy and economical feasible is. In such a device are several interfaces for reading smart cards or smart cards provided in the controlled by simply switching the switch can be, which smart card or which chip are read out should. From the device run first interface lines to the serial interface of the device for recording and for reading out a first chip. Parallel to the first interface lines run at least second interface lines leading to a at least second serial interface of the device for receiving and lead to read another chip. The second interface lines proceed from the first interface lines, i. they are branched off from the first interface lines. The turnoff can be at the beginning of the first interface lines or in the course the first interface lines take place. The device has drivers, that make it possible that several serial interfaces can be controlled. Under a device according to the invention be all electrical appliances understood with a card reading device. This can be, for example Mobile radio modules of any kind, such as GSM mobile devices or Be UMTS mobile devices.

Especially advantageous is a device according to the invention, in which the Switch between the interface line to the reset signal contact the chip of the first smart card and the interface cable to the Reset signal contact of the chip of the at least one second smart card is arranged. about the interface line to the reset signal contact of the chip is the entire system is set back to a defined initial state. That is, about the Interface line to the reset signal contact of the chip, the Card reader reset the chip. The so-called reset signal is the start signal for the communication. The reset signal is low active. It gets at the boot sequence and for external reset used the card. This makes the interface cables suitable to the reset signal contact of the chip of the first smart card and the Chips the at least one second smartcard especially good for the arrangement of the switch. By operation the switch can be controlled which smart card or which Chip should be controlled. The switch is preferably a low-impedance electronic switch.

Advantageous is a device with a control unit for controlling the switch. The control unit can be in the device or external to the device be arranged.

that is, the control of the switch can be directly through the device or done by an externally to the device arranged application. The control unit is preferably the microprocessor of the device. But it can also be an additional Microprocessor be provided as a control unit.

Preferred is a device in which, starting from the control unit, a first control line is provided with a first transistor, wherein the first control line is connected to the interface line for reset signal contact of the chip of the first smart card, and a second control line to a second transistor is provided, wherein the second control line is connected to the interface line to the reset signal contact of the chip of the at least one second smart card, and that the interface line to the reset signal contact of the chip of the first smart card and the interface line to the reset signal contact of the chip of the at least one second smart card each have a decoupling resistor. By activating the first or the second transistor, it is possible to selectively control which smart card or which chip of the smart cards on or off is switched. If, for example, the first transistor is activated, the interface line to the reset signal contact of the chip of the first smart card is at a so-called LOW level, ie, the chip of the first smart card is switched off, during which the chip of the at least one further smart card is switched on , The switchover between the first and another smart card or the chip of the first and another smart card takes place by alternative activation of the first or the second or further transistor.

preferred embodiments The present invention will be described below with reference to FIG the enclosed drawings closer explained. Show it:

1 an inventive device for reading from a chip of a first and a second smart card, with an external control unit and a switch between the interface lines to the reset signal contacts of the smart card chips;

2 an inventive device for reading from a chip of a first and a second smart card, with an external control unit, a switch between the interface lines to the reset signal contacts of the smart card chips and transistors.

1 shows an embodiment of the device according to the invention 1 , From the mobile module 21 the device 1 run first interface lines 2 . 3 . 4 . 5 . 6 to the serial interface 9 the device 1 for receiving and reading a first chip 8th , Parallel to the first interface lines 2 . 3 . 4 . 5 . 6 run second interface lines 12 . 13 . 14 . 15 . 16 leading to a second serial interface 19 the device 1 for receiving and reading a second chip 18 to lead. The second interface lines 12 . 13 . 14 . 15 . 16 proceed from the first interface lines 2 . 3 . 4 . 5 . 6 ie they are branched off from the first interface lines 2 . 3 . 4 . 5 . 6 , The branch can be at the beginning of the first interface lines 2 . 3 . 4 . 5 . 6 or in the course of the first interface lines 2 . 3 . 4 . 5 . 6 respectively. The device 1 has software drivers that allow multiple serial ports 9 . 19 can be controlled. The first interface line 2 and the second interface line 12 put the interface lines to the data input / output contacts of the first 8th and the second chip 18 dar. The first interface line 3 and the second interface line 13 set the interface lines to the clock signal contacts of the first 8th and the second chip 18 dar. The first interface line 4 and the second interface line 14 put the interface lines to the supply voltage contacts of the first 8th and the second chip 18 dar. The first interface line 5 and the second interface line 15 put the interface lines to the ground contacts of the first 8th and the second chip 18 dar. The first interface line 6 and the second interface line 16 set the interface lines to the reset signal contacts of the first 8th and the second chip 18 In this embodiment of the device according to the invention 1 is a control unit 20 for controlling the switch 10 intended. The desk 10 sits between the first interface line 6 and the second interface line 16 leading to the reset signal contacts of the first 8th and the second chip 18 to lead. That is, by switching the switch 10 can be between the first interface line 6 and the second interface line 16 to get voted. All other interface lines 2 . 3 . 4 . 5 , such as 12 . 13 . 14 . 15 stay connected in parallel. Through the switch 10 can be either the first interface line 6 or the second interface line 16 to be interrupted. Is the first interface line 6 interrupted, so is the second chip 18 be read out. Is the second interface line 16 interrupted, this is the first chip 8th be read out. The mobile module 21 the device 1 has a smart card reader for reading the chips 8th . 18 on. The module 21 the device 1 is for example a GSM or UMTS radio module. Switching the switch 10 Alternatively, by the module 21 respectively.

In 2 is another embodiment of the device according to the invention 1 shown. Switching between the interface line 6 to the reset signal contact of the first chip 8th and the interface line 16 to the reset signal contact of the second chip 18 is done by alternately activating the transistors 21 respectively. 22 , Starting from the control unit 20 is a control line 30 provided to the interface line 6 to the reset signal contact of the first chip 8th runs. Starting from the control unit 20 is a second control line 31 provided to the interface line 16 to the reset signal contact of the first chip 18 runs. The transistors 21 respectively. 22 that are in the control lines 30 . 31 are arranged in this embodiment of the device 1 the switch 10 dar. The resistors 24 and 25 serve to decouple the two reset signal lines. The resistors 26 and 27 are the common in the control of transistors base resistors. If transistor 21 active and transistor 22 is inactive, then the interface line 6 to the reset signal contact of the first chip 8th at LOW level. Thus, the chip 8th switched off, no matter which level the interfaces lenleitung 6 to the reset signal contact of the mobile module outputs. The resistance 24 Leaves a HIGH level on the reset signal contact of the second chip 18 too, with inactive transistor 22 only to the second chip 18 is forwarded. For the second chip 18 the process works the other way around. The transistors 21 and 22 can with a HIGH level of the control unit 20 at the exits 27 respectively. 28 each be activated. Logically, of course, always only output 27 or exit 28 the control unit 20 be switched to HIGH level, so only one chip 8th or 18 can be active. The resistors 24 can be chosen relatively large. However, the rise time of the reset signal on the chip must be allowed 8th respectively. 18 of 400μs are not exceeded.

Claims (4)

Device for reading at least one chip ( 8th . 18 ) of a first or several smart card (s) having a serial interface ( 9 . 19 ) with first interface lines ( 2 . 3 . 4 . 5 . 6 ) to at least one data input / output contact, a clock signal contact, a supply voltage contact, a ground contact, and a reset signal contact of the chip 8th the first smart card, characterized in that starting from each first interface line ( 2 . 3 . 4 . 5 . 6 ) of the serial interface ( 9 ) at least one additional interface line ( 12 . 13 . 14 . 15 . 16 ) for reading out a chip ( 18 ) a second smart card is provided, wherein between a first interface line ( 2 . 3 . 4 . 5 . 6 ) and that of this first interface line ( 2 . 3 . 4 . 5 . 6 ) outgoing further interface line ( 12 . 13 . 14 . 15 . 16 ) a switch ( 10 ) is provided. Contraption ( 1 ) according to claim 1, characterized in that the switch ( 10 ) between the interface line ( 6 ) to the reset signal contact of the chip ( 8th ) of the first smart card and the interface line ( 16 ) to the reset signal contact of the chip ( 18 ) is arranged at least a second smart card. Contraption ( 1 ) according to claim 1 or 2, characterized in that a control unit ( 20 ) for controlling the switch ( 10 ) is provided. Contraption ( 1 ) according to claim 3, characterized in that starting from the control unit ( 20 ) a first control line ( 30 ) with a first transistor ( 21 ), wherein the collector of the first transistor ( 21 ) with the interface line ( 6 ) to the reset signal contact of the chip ( 8th ) of the first smart card, and a second control line ( 31 ) with a second transistor ( 22 ) is provided, wherein the collector of the second transistor ( 22 ) with the interface line ( 16 ) to the reset signal contact of the chip ( 18 ) the at least one second smart card is connected, and that the interface line ( 6 ) to the reset signal contact of the chip ( 8th ) of the first smart card and the interface line ( 16 ) to the reset signal contact of the chip ( 18 ) of the at least one second smart card each have a decoupling resistor ( 24 . 25 ) exhibit.