JP2659070B2 - IC card - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to an IC (Integrated Circuit) which is used to perform necessary data processing and data transfer by incorporating a microcomputer, a memory, and a transmission / reception circuit in an integrated circuit. About the card.

[Conventional technology]

Conventionally, in IC cards used for factory automation (FA) and entry / exit management systems, necessary data is sent and received by digital radio.
Data transmission is performed in units of characters. One character is composed of, for example, a start bit ST, a data bit DT, a parity bit PT, and a stop bit SP as indicated by CR in FIG. The start bit ST indicates the start of data, and normally “0” is used. The data bit DT indicates digital data "1" or "0" to be transmitted / received, the parity bit PT indicates parity for data error detection, and the stop bit SP indicates the end of one character CR.

In such digital radio, ASK (Ampli
A communication format is configured by a combination of codes corresponding to 1-bit data by using a pulse shift keying (modulation) modulation or a pulse modulation. That is, in the ASK modulation, for example, when data "1", "0", and "1" are transmitted, the frequency is changed by modulating a carrier composed of a high-frequency pulse with the data as shown in FIG. A pulse signal is obtained. In the case of transmitting similar data “1”, “0”, and “1” in pulse modulation, a pulse signal with intermittent carriers is obtained as shown in FIG. 6B.

[Problems to be solved by the invention]

By the way, in data processing used in such an IC card, noise radiated from an oscillator or the like built in FA equipment or OA (Office Automation) equipment, for example, as shown in FIG. Noise N rides on a blank portion representing data "0", and data "0" is changed to a signal other than data "0" or data "1", thereby causing a decrease in data reliability and a malfunction of the system. Cause.

Therefore, an object of the present invention is to provide an IC card that facilitates data monitoring and improves data processing reliability.

[Means for solving the problem]

That is, the IC card according to the present invention is provided with a code setting unit (2), a data processing unit (4), and a transmission / reception unit (7), as exemplified in FIGS. 1 to 4. , The code setting unit (2) is connected for each row input line between the row input line (21) and the column input line (22), which are selectively connected to each other, and the connection point and the ground point. A resistor (23) and a cord setting line (24) connected between the connection point and the power supply via a resistor (25), and the cord setting line (24) selectively disconnects the cord setting line (24). Thus, a desired code can be set, and the data processing unit (4) outputs the code set by the code setting unit (2) to the transmission / reception unit,
The transmission / reception means processes the received data, and the transmission / reception means (7) is installed on the periphery of the IC card and connected to the antenna (6), and is connected to the data processing unit and the main processing device (26) outside the IC card. The data processing unit (4) transmits and receives the code set by the code setting unit to the transmitting / receiving unit, and the data processing unit (4) performs a combination before and after the high and low two levels of the signal having the high and low levels. Represents one bit of data to be transmitted, and modulates the carrier (Cr) of the transmitting section of the transmitting / receiving means with the data, and transmits the modulated output.

[Action]

By doing so, the high and low 2 of the signal having the high and low levels
One-bit data is represented by a combination before and after the level, that is, a low-level section and a high-level section set by a unit time width, or a high-level section and a low-level section set by a unit time width. In other words, if the low-level section is, for example, “0” and the high-level section is “1”, “01” represents “0” and “10” represents “1” in these combinations.

Therefore, the necessary 1-bit data is represented by conventional 2-bit data in consideration of the conventional bit data. For example, the noise N is superimposed on the “0” section and becomes “1”. Even if it is modified, it becomes a combination of “1” and “1”, and since this combination does not hold data, it can be seen that this is incorrect. Further, if "1" in the bit representing the required data is missing, a combination of "0" and "0" is obtained, and since this combination does not hold data, it can be seen that this is an error.

That is, in this data processing method, 1-bit data is represented by two levels of high and low and the relation between the levels, and the data is transmitted and received together with accurate data processing.

〔Example〕

 FIG. 1 shows an embodiment of the IC card of the present invention.

As shown in FIG. 1, the IC card is provided with a code setting unit 2 for performing data transmission / reception and data processing and for inputting necessary codes. For example, in the entry / exit management system, an ID code of a person carrying the card or an object to which the card is attached is set in the code setting unit 2. In the code setting unit 2 of this embodiment, a matrix circuit of 4 rows and 16 columns is configured because the number of code patterns is 2 ¹⁶ × 4, and the row input line 21 and the column input line 22 are connected. Each connection point is grounded via a resistor 23 provided for each row input line 21, and a power supply voltage V _DD is applied via a resistor 25 to a code setting line 24 which is selectively disconnected. I have. For example, an arbitrary code is added to the data processing section 4 by selectively cutting one or more of the code setting lines 24 as indicated by x.

As shown in FIG. 2, the data processing unit 4 is provided with a microcomputer, a central processing unit (CPU) 41 for performing data processing, and a memory for storing a program for performing data processing and necessary data. 42, an input / output unit (I / O) 43 for inputting / outputting data is linked with an address bus 44, a data bus 45 and a control bus 46.
Therefore, the data processing unit 4 performs necessary data processing from the data received by the transmission / reception unit 7 together with the necessary code output. The data processing unit 4 is connected to a crystal oscillation element 5 for clock oscillation, and uses a constant clock pulse set by the crystal oscillation element 5.

For example, in the entry / exit management system, the IC card side is always set to a standby state, and when a person having an IC card comes to the entry / exit management area, an antenna 27 installed in the main processing unit 26 of the entry / exit management system is used. Main processing unit
The data on the 26 side is transmitted by radio waves. This radio wave is an IC
The signal is received by the transmission / reception means 7 through the loop antenna 6 installed on the periphery of the card, and the high-frequency signal is applied to the tuning circuit 8. In this case, the center frequency f ₀ of the high-frequency signal is tuned, and the tuned output is applied to the detection circuit 10.
In the detection circuit 10, a signal component representing data is detected by envelope detection, and the detection output is amplified by an amplification circuit 12, and the amplified output is supplied to a data processing unit 4 by a data input terminal.
Imported from DATA.

Then, the data processing unit 4 determines whether or not there is data from the main processing device 26 from the fetched data, and when it is determined that the data is from the main processing device 26,
Cord feeding command signal C ₀ is output. This code transmission command signal C ₀ is a high-low two-level switching signal,
This is a drive command for the carrier oscillator 14 of the transmission unit 9 of the transmission / reception means 7. For example, cord feeding command signal C ₀ is shifting to H level, the carrier oscillator 14 starts operating to oscillate the carrier C _r of frequency f _R. This carrier C _r
It is added to a modulator 16 for performing pulse modulation, and is modulated by a code output CODE output from the data processing unit 4 as a modulation signal.

By the way, if the ID code set in the data setting unit of the IC card is “0” “1” “1” “1” “0” “0”, the data processing unit 4 As shown, a start bit ST, a data bit DT, a parity bit PT, and a stop bit SP are represented by a high (H) low (L) two-level pulse signal in one character data (CR). That is, the bit data “0” is the time 2t of the L level section having the unit time t _U first, and then the H level section having the unit time t _U.
It is represented by the LH level section of _U , and bit data “1”
Is represented by an H level section having a unit time t _U first, and then an L level section having a unit time t _U and an HL level section having a time of 2 t _U. That is, each bit data has two consecutive high and low
Represented by a combination of successive HL levels in a level.

This data processing is composed of an NRZ (Non Return Zero) code when compared with the conventional data processing.
While bit data is represented, in this data processing, 1-bit data is represented by a combination of two levels of high and low, so that 1-bit data is represented by conventional 2-bit data.

When the HL2 level pulse signal representing this one character CR is added to the modulator 16 as a modulation signal, the third
In the figure, the carrier _Cr shown in B is pulse-modulated by the data pulse, and the modulator 16 receives the signal from the modulator 16 as shown in FIG.
Modulated output M ₀ representing the character data after modulation is obtained. The modulated output M ₀ is amplified with a power amplifier 18 and transmitted to the host processor 26 side by radio waves through the loop antenna 6 and antenna 27.

When such a data processing method is used, the data “0” to be transmitted has two bits of auxiliary data “0” and “1” and the data “1” is , And two bits of auxiliary data "1" and "0". These data “1” and “0” are obtained by adding the auxiliary data “0” and “1” of each bit. Since necessary data “0” and “1” are represented by the context of “0” and “1”, each auxiliary data “0”,
When "1" is added, that is, when a checksum is used, there is a relation that the addition result becomes "1" regardless of data "0" and "1".

Therefore, as shown in FIG.
When the noise N is superimposed on the BT, the necessary auxiliary data “0” changes to “1”, and the data “0” or “1” is modified. Thus, it can be seen that the addition of the auxiliary data causes a carry, and does not represent regular data “0” or “1”.

Also, as shown in FIG. 4B, the auxiliary data "1"
If a is missing for some reason as shown by the broken line D _O, auxiliary data "1" is changed to "0", the data "1" or "0" is modified. Looking at this in Table 1, It can be seen that the data does not represent the regular data “1” or “0”.

Therefore, when unnecessary noise N is added to the auxiliary data or a part of the data is lost, the data processing unit 4 or the main processing device 26 performs a checksum process to check the bit of each auxiliary data. Addition between n
By using parity for the bit data, it is possible to know that the data has been modified because the addition result represents a data value “0” different from the data value “1” when the addition data represents normal data, or a carry. In addition, the reliability of transmission data is improved.

Further, according to this data processing method, since the clock component of the synchronization signal can be reliably removed, the reliability of the transmission data is improved.

In this data processing method, the reliability of the transmission data is increased by expressing one bit of the transmission data with the conventional two bits. In order to reduce the influence of noise, the transmission power is increased and the signal level is increased. There is no need to raise the level, the high-level section is the same, and transmission with the same power as before can be performed.

Note that, in the embodiments, the carrier modulation has been described using pulse modulation as an example. However, the present invention can use various modulation schemes such as ASK modulation, FSK modulation, and PSK modulation.

〔The invention's effect〕

As described above, according to the present invention, the following effects can be obtained.

(A) A desired code can be easily set by cutting the code setting line, and each IC card can be easily individualized.

(B) Since 1-bit data is expressed in units of a combination of high and low levels, malfunctions due to noise or missing signals can be prevented, data processing reliability can be improved, and transmission is performed to reduce the effects of noise. It is not necessary to increase the power, and moreover, a highly accurate error detection can be performed using a checksum with a high erroneous control capability for each bit, and highly reliable data transmission and reception can be performed.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the IC card of the present invention, FIG. 2 is a block diagram showing a configuration of a data processing unit in the IC card shown in FIG. 1, and FIG. 3 is a diagram shown in FIG.
FIG. 4 is a diagram showing an embodiment of an IC card, FIG. 4 is a diagram showing superimposition of noise and missing auxiliary data, FIG. 5 is a diagram showing one character of transmission data, and FIG. 6 is a diagram showing ASK modulation output and pulse modulation output. FIG. 7 is a diagram showing superimposition of noise on transmission data. CR: Character DT: Data bit Cr: Carrier 2: Code setting unit 4: Data processing unit 6: Loop antenna 7: Transmission / reception means 9: Transmission unit 21: Row input line 22: Column Input lines 23, 25: Resistance 24: Code setting line 26: Main processing unit

Claims (1)

(57) [Claims] 1. A code setting unit (2) and a data processing unit (4)
And a transmission / reception means (7), wherein the code setting section (2) comprises: a row input line (21) and a column input line (22) selectively connected to each other; A resistor (23) connected for each row input line between the power supply and a ground point, and a code setting line (24) connected via a resistor (25) between the connection point and a power supply; A desired code can be set on the code setting line (24) by selectively cutting the code setting line (24). The data processing unit (4) transmits the code set by the code setting unit (2) to the transmission / reception unit. And processes the data received by the transmission / reception means. The transmission / reception means (7) is connected to an antenna (6) installed on the periphery of the IC card, and is connected to the data processing unit and a main unit outside the IC card. A data processing unit (4) transmits and receives data to and from the processing unit (26). When the code set in step (1) is output to the transmission / reception means, one bit of data to be transmitted is represented by a combination of a signal having high and low levels before and after the high and low levels. (9) An IC card that modulates the carrier (Cr) and sends out the modulated output.