WO2001059951A1

WO2001059951A1 - Noncontact communication medium and noncontact communication system

Info

Publication number: WO2001059951A1
Application number: PCT/JP2000/009210
Authority: WO
Inventors: Naoyuki Wakabayashi; Masao Mizuno
Original assignee: Omron Corporation
Priority date: 2000-02-10
Filing date: 2000-12-25
Publication date: 2001-08-16
Also published as: JP3800091B2; AU2001224023A1

Abstract

A noncontact communication medium enabling communication over a predetermined distance even if such noncontact communication media are stacked. The output of a resonance circuit (60) electromagnetically coupled to an external communication device is rectified by a power supply circuit (62) and taken out. The output voltage V is monitored by a switch control circuit (61). If the output voltage V exceeds a threshold Vth1, a switch element (SW) is turned on. If the output voltage V further increases, a power supply switch element (PSW) is turned on. If the output voltage V lowers below the threshold Vth1, the switch element (SW) is turned off. When two noncontact IC card (6) in use are stacked, the switch element (SW) of one of the cards is on, and the witch element (SW) of the other is off. In this state, both cards can be used for communication.

Description

njj fine

Contact and medium contact and non-contact i, system

This will be done by contact, contact, and Nadakyu. For example, a contact card called a smart card, f-medium, is for identification ^ and for people: ^ identification is replaced by 'j', identity is replaced by 'j', and sen is replaced by 'i'. through the 'hH credit card ^ river' ', etc., change these ^', or change the k information in advance based on these 01 I do. Also, for example, a non-contact IC card in which the shape of the non-contact communication medium and the medium is a card, a data carrier used for attaching to a person, a burb :, an object, and the like. Then, the contact communication suspension performs ii と with the identification equipment such as water people, ίιΐ: dress, π 勋 ticket gate, 现的 or 的 J¾ kantori 'Ji 処利 Icheon toll collection 装 etc. Connect to the system. The contact IC card has a jt-¾ [nj road. When the antenna coil, which is the-part of this .fcM path, is magnetized by the reporter: i is crossed with i, the ii force is generated from the antenna coil, and the π: '::

¾ ^ By bringing this contact IC card close to the antenna of the embedded device, from the antenna part; receiving the magnetic wave, the jfc i path becomes in a resonance state, and this J! / Data transmission β is performed between the embedded device and the ^ contact Ic card. Also, the ^ nj path resonates; the す force is supplied to the other | nl paths in the non-contact Ic card by the ίίί, and the μι path works.

Here, let us consider the situation of the use of a contactless Ic card. For example, in the case of a contact IC card used as a railway commuter pass, a cash card used in a bank, and a credit card used in an article, these contact IC powers have a thickness of Because it is thin, you can use multiple non-contact IC cards for a regular person, etc., and use it as it is near the antenna of the reporting / incorporating device. There are many.

In this case, since two or more non-contact IC cards are used in a different state, the mutual inductance between the non-contact IC cards may cause the WI; contact IC card J !; //: The carrier wave of ί, J ”from the embedded machine deviates from the W wave number. As a result, π: &“ 允: に ”is reduced and the contact I c force is reduced. Insufficient power is supplied to the [π path] of the vehicle, and the i / j between the elaboration / extraction machine and the contact card may not be possible.

I will send 11 1 about this ^ HJj. The horizontal line on the graph of the size 11 1 reduces the wave number on the JHinl road of the contact IC card. The vertical line indicates the absolute angle of the resonance M path. The horizontal sleeve and vertical column in the 12 graphs described later are also inj-like.

Fig. 11 (A) shows the relationship between the frequency and the received pressure when one contact IC card is brought close to the ecology; In this case, only one contactless IC card is used. for that reason,

0 and the carrier frequency of the carrier from the I / O device] are equal to the wave number fc, and 5 周波数 ΐίΐίι: is at that frequency.

1 1 (B) is: sheets of ^ contact IC card sleeping fR怙報unloading /, it is small the engagement between the wave number and the receiving ^ ^ pressure when brought close to ¹ driving machine. In this case, the non-contact IC card is used by two cards, and the two non-contact IC cards are affected by the desk / wire: inductance. As shown in the figure, the resonance frequency f 0 'deviates from the carrier number of the carrier for reading from the giant report /, the carrier from the embedded device, and the number of waves fc. As a result, at the carrier frequency fc, only a lower reception voltage is generated as compared with the reception at the co-frequency f 0 ′. For this reason, sufficient power is not supplied to the circuit in the non-contact IC card, and there is a problem that the communication between the reader / writer and the non-contact IC card cannot be performed.

In order to solve this problem, even if two non-contact IC cards are used, the J: frequency of the ^ It is set to be shifted to the number of W waves compared to the frequency. With this method, there is a method that prevents the wave number from being distorted from the carrier wave number even if the W wave number is low when the ic card is used.

This is followed by a statement 1 2]. -JI: For ¾fr that uses only contact IC cards, to reduce it to Ml 2 (A),-For the J¾ | n | path of the contact IC card: the wave number f 0 is the carrier wave W wave number It is ^; ^ in a state that is longer than fc.

Contact IC force --T '(Take the 使 A, and use it to Ml 2 (B). J I c card is used in the-枚·: In the contact Ic card, the phase / ί: the inductance is reduced by 5: the J fcW wave number f 0 is lower than the carrier wave frequency fc.

However, regardless of whether the non-contact I c card was used with-or the i ^ that was used with the card, the frequency of the carrier was not significantly different from the one explained in 1 1 1 because of the carrier wave number. For this reason, it is possible to prevent the induction motive force from being lower than that of the ¾rv described in III1.

In addition, by connecting the switch to the road II '(the switch is connected to the column and setting the ij of the Jt.fc [ul road to ¹ when the switch is turned on / off randomly, the contact IC force becomes' T (Check whether it is turned on, and if 'T (is turned off, turn off the switch, turn off the switch of the contact Ic, and contact the other j. The j-method that puts only the road into the vibration state is captured, and in this method, in the state where "" ^ is in place, the non-contact IC card of J is in the Jt.fc state. Other contact IC power is not in the state.

With this,-Contact Ic card can obtain 'Reception, ί' ϋ pressure like ¾ ^ and w used by Germany. Further, the other non-contact IC card can obtain the energy of the Α: & [π | path in the one non-contact IC card by 钔: inductance; ii by magnetic coupling. Therefore, it is possible to obtain the ¾ ^ imagined for both non-contact IC cards (see ^, 10-12 6 3 18! K1).

However, the I: method has the following disadvantages. (1) Jf of non-contact IC card: In the method of shifting the pre-set frequency from the carrier frequency, even if only one non-contact IC card is used, the wave number is deviated from the carrier frequency. The motive force is reduced by that much, and the distance is reduced.

(2) In the method of randomly turning on / off the switch connected to the .¾l [il road, use 'T (to detect that the switch is off |: always it must be kept by ¾ work the M line this for JI;. of contact IC force one de ';. Π ^{bi-1 ί ίί} force a picture, contact IC card is a magnetic W such-out people and必contact IC card Must pass through a short distance in order to receive this unfamiliar magnetism.

(1) Law and 1'.J like ir! It will not come apart.

允 ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ ΐ No: Contact media is to be scattered.

This unique j has the following configuration to solve, id, and.

(1) Generate a ^; ^ by sending an i-magnetic wave and send ί, ^: Jt4 I path consisting of 3ί, ί antenna coil and} capacitor,

a demodulation path that obtains d from the output of the ι¾¾ oscillation path, and

A processing unit that processes the il from the road!

ijij Modulation of ί, which is output from the processing path, and modulation to output to J "1 path 1 【'

A switch unit for switching the resonance circuit between a connected state and a disconnected state,

Ι) ϋ> ¾A switch control unit that switches and controls the switch unit based on the magnitude of the output itffi generated in the common circuit,

The switch control unit, when the output 0: pressure rises above a predetermined threshold, controls the switch unit to bring the ¾, k! J¾¾'l path into a contact state, and thereafter, Ι3ϋ ίΰίΙ1 The feature is that the ffij Klnl road is closed by controlling the ときに switch 邰 when the output voltage falls below the ijij iLi threshold V ゝ i.

When a predetermined j1 wave number of magnetic wave is received by the antenna coil, the J t path generates j and generates ίίϊ / of Q times the electromotive force. Here, Q is a quality factor. The road transmits and receives π wirelessly. The switch アナログ is formed by an analog switch that switches a π¾π¾ path between a connected state and a non-connected state. The analog switch is connected to the capacitor on the Jt-fci "l path by a capacitor. When the switch section is turned on, the capacitor is connected to the j path by the capacitor and is in a connected state. When the switch is turned off, J !: · The connection of the container is released from the road, and the connection is established.

The connection state is a state in which the mI: of the road is connected in a manner similar to that of the Jt-fefnl road. On the other hand, the non-contact state refers to a state in which the Jl [ii | road is established and the ^^ 冋 on the road is electrically disconnected so as not to perform '/ :.

The switch control unit, which is not included in the conventional non-contact communication media, is based on whether the power of the iijmn road is high; the threshold of i is ス ιΐ'ι: Switch control.

If there is only one contact path, the external path, で, and the path of the contact path medium are G: magnetically connected, the force from the path ΐχ / ι After the voltage exceeds the threshold value, the U excavation road is in contact with the ground, and furthermore. Therefore, the resonance circuit maintains a resonance state and supplies a proper force to the modulation circuit, the imic processing unit, and the like, so that the contact communication and the medium are in communication with the communication and the Ί '^. Perform non-contact communication.

On the other hand, there are two non-contact communication media ^, for example, if the non-contact communication media is in the form of a card, and two of them are inserted into the device {; '' Both the outputs ¾! In the contact communication medium exceed the predetermined threshold. In this case, since the contact portions of both the contact media and the switch portions of the medium are controlled by the switch control portion, the π: π paths of the contact media of the twin j are both in the contact state. You. At this time, due to the mutual inductance of the jUSfnj road in the two contact communication media, the Jt W wavenumber of these -.resonance paths dropped significantly below the carrier frequency, and the output! L pressure of both Jt pregnancy paths Begins to descend. And either output

'. Descends first at the current threshold. At this time,-, Ί,-/ Ί is changed to “{, 所 at the place I, and then falls down to the threshold i at this place. Switch | ¾ is turned off, so that the path of the touchable J medium is in the contact state. Therefore, the contact of · /; in Receiving from the media 'i road becomes smaller. And Jt / wave number becomes the same frequency as r and irij when the contact medium is only-. For this reason, in this contact passage medium, the output Ui pressure of the Jdl path stops falling, and the output becomes ηπ. Then, when the 111 force a of the j ^ path suddenly increases to h and becomes sufficient, the contact communication medium operates the modulation ΐπ | It is possible. In addition, other non-contact communication medium, j t麵路output of in a non-rd -JC non-contact communication media:.?! Gahi ^ according to, Jt.¾f "l path of a coil of ί magnetic ¹ The output ',) 1: is 1'-by i / V, and when that is sufficiently I;

As described above, the switch control 、 is based on the characteristic of the output of the 4 出力 π | path ', and the resonance of the contact communication medium [“By switching one path between the connected state and the connected state, (Non-contact communication is close to the medium.) でも However, contact communication with the communication device of the twin-J is possible.

In addition, by making the appearance of the non-contact medium into a card shape, it is possible to make the mm medium β medium easily overlap each other. In addition, it becomes easier to store the non-contact through β medium in cloth or regular storage. The invention (1) is not limited to the card shape, and it is nj ability to apply the invention (1) to any shape. Also, if the output voltage of the resonance circuit is used as a power source for the non-contact communication medium itself, the battery becomes unnecessary.

(2) The power supply switch section is connected to the power supply terminal of the ffl section, and the i [switch When the output of the common π | path becomes equal to the local threshold II '(the larger two thresholds), the switch is turned on by turning on the power supply switch. It is characterized by supplying V force to the section.

In this - side, processing;. Yet because there is no li)] of a if'j in a state that is not Saku勁, you ^ until the Mi i 'ability ^state; can be reduced. In addition, since the [] power is supplied to the egg germination only when the processing unit does not operate properly, it is possible to prevent the processing j due to improper ίΐ. |: You can.

It is preferable that the switch control 邰 be in the contact state in the initial state. This is because the analog switch is in the off state, ¾fr, below the source lij.

Also, it is preferable that J1: Pregnancy 路 "1 road be composed of a series of J roads consisting of a coil and a capacitor. This is because the human impulse of η η'ί (touch, rest) for JHInl road.

—Because there is no dance, it is best for the Kimpei dance to be in the row m, in order to take the lead in the dance.

Also, Κ. & Ί "Is the road 1 !, Ji: the threshold of the place—the threshold of the 2nd ίιΐ'ί or less I; 'Fi, j, the timer for measuring the juice is dropped, the timer measures the place ^,: contact communication, ^; ,, rest in the initial state, that is, the il road is in the contact state It can be set to the state where the supply switch block the power supply.

简 ί ί

ί 义 I1 is a form of this Yumyeong -Touch IC card

m2 is the configuration of the small / reading machine 1

1 3 is the configuration of the contactless IC card ^

[, 14-Explain the operation of the switch on / off until the number of contact IC cards becomes nJ Fig. 15 explains the on / off operation of the switch of each card when two contact IC cards are used in a stack.

1¾16 is the state transition of the contactless IC card ^

Figure 7 shows that the output まで: until the number of contact IC cards becomes nj is reduced.

18 reduces the change in the 屮, ,, and power of the ^ card in-^ where one contact IC card is used! ¾1

9 is the I route I 义 1 of the switch control circuit.

1 110 is a flow chart for switch control | π |

Mil (A)-(B) is a conventional one: for reversing the drawbacks of contact IC cards, II 欠点 I12 (A) · (B) explains the drawbacks of conventional contact IC cards. Form for るため

ι ^ ι 1 shows a non-contact Ic card and a M-contact IC card as a medium, which is an embodiment of this investigation. This iiJ ticket gate 1 has a fll pair [ή]-pair ticket gate water break 3 across the ticket gate passage 2. "On each side of the ticket gate, the main gate 3 is marked ϋι '; (not shown) to allow or prevent the passage of Icheon A in ticket gate passage 2.

^ The ticket gate main holiday 3 is provided with a pick-up / loading machine 4. The antenna unit 5 which is a part of the H'lifi'lffi reader / reader 4 is arranged facing the upper part of the ticket gate main body 3 so as to provide a wide area. When the contact IC card 6 as a middle-ticket is located within the communication area of the boarding information reading / reading machine 4, the contact IC card 6 and the boarding information reading / reading machine 4 Performs non-contact data communication. That is, a passenger or the like carrying the contactless IC card 6 places the contactless IC card 6 in the communication area formed by the antenna section 5 of the boarding information reader / reader 4. When held up, the contact IC card 6 makes contact with the riding information reading / writing device 4 to make contact with the riding information. Depending on the result, The i'jfj ticket gate l does not judge the passage of "j" by rara-controlling the door.

12, h Kino taken / is a祸成Department of ¹ driving machine 4.

The passenger information reader / writer 4 has an antenna 5, a transmitter 1, a receiver 12, a CPU 14, a ROM 15, and a RAM 16.

The transmission il 1 changed the carrier wave for transmitting the li force to the contact IC card 6 and the i and ki carrier waves for transmitting the data! '; Supply 5

12 is the antenna unit 5.

Antenna 邰 5 has a J path consisting of an antenna coil and a capacitor. Then, the antenna unit 5 transmits the modulated carrier wave from the transmitting unit 11 via the Jl: ¾M path. [! Sent as a magnetic wave. Then, when the contact IC card 6 approaches the antenna section 5, the non-contact IC card 6 receives the electromagnetic wave from the antenna 、 5, and the contact IC card 6 on the JLe'l road is permitted. That is the source of contact IC card 6. Also, since the i) ii, d carrier is changed, the magnetic field from antenna ¾5! ^ Changes, and the non-contact ic card 6 changes its i, r'j. -No-) Touch When the magnetic field W sent from the IC card 6 to the antenna unit 5 changes, the induced electromotive force in the antenna unit 5 increases, and the induced electromotive force changes. The unit 12 receives the signal from the contact IC card 6.

The ROM 15 stores data necessary for the processing of the CPU, such as the identification of Icheon, the identification of the touch card itself, and the like.

The RAM 16 stores data to be sent to the automatic ticket gate 1 and data based on the received ί and ϊ.

Further, the CPU 14 controls each component of the boarding information reader / writer 4 based on the data stored in the ROM 15 and the RAM 16.

FIG. 3 is a configuration diagram of a contactless IC card.

This non-contact IC card 6 has an antenna coil L, a capacitor C, a switch Ϊ-SW, ^ source circuit 62, 供給 supply switch PSW, switch control circuit 61, demodulation circuit 64, modulation 1 circuit 5, data processing 1 circuit 63.

The M path where the antenna coil L and the capacitor C are connected in a row is called a resonance circuit 60. JI: 扳 1 "1 path 60 constitutes the antenna section 5, and the antenna coil L forms the antenna of the antenna section 5. The switch ^ f-SW is a capacitor of the Jt. Switch C is connected to C. Switch control M path 61 puts switch 60 in a Jt4 connection state by controlling switch rSW to be on. 6 1 controls the switch ^ SW-SW to OFF, thereby turning the J nl path 60 into the Jt4 connection state.

The source M path 62 is connected to the path 60 by ^: rectifying the generated AC ', IX force to: current VII force to switch control fnl path 61, ¾¾ | "1 path 64, variable, | π | Road 65 and De—Evening Produces the power used on Road 63.

A power supply switch is provided between the power supply path 62, the demodulation path 64, the modulation path 65, and the fflM path 63. Switch control f "l path 61 supplies power to &, path 64, modulation path 65, and data processing path 63 by controlling power supply switch PSW to be on.

Further, the switch control circuit 61 controls the power supply switch P PSW to be turned off, thereby shutting off the supply of the li power to the adjustment circuit 64 and the like.

The demodulation “π | path 64” demodulates the modulated carrier wave manually input from the oscillation circuit 60, and outputs the demodulated signal to the data processing path 63.

Modulation [“One-way 65 modulates the power input from the data processing circuit 63 and outputs it to the m-way 60.

The data processing circuit 63 stores predetermined data, outputs a predetermined signal to the modulation circuit 65 according to a signal input from the demodulation circuit 64, or outputs a predetermined signal according to an input / output signal. Performs processing such as marking the date and time or changing the stored date and time. The demodulation circuit 64, the modulation circuit 65, and the data processing circuit 63 are collectively called a data processing unit 66. Switch control | nl path 6 1 monitors the power diverted by ί 'source 1 "1 path 6 2; 11 V, and switches SW or power supply based on the output ^ V Switch on / off switching of switch ^ fP SW · At rest, this switch control | π | road 6 1 is when contact IC card 6 approaches antenna ^ 5 of ticket gate Kokyu 3 By

I: a predetermined threshold iii'i:. To the V th 1 or more I ¹ Then, to turn on the scan Itsuchi ^ f SW. This state is called flight 'ή:, state 1. When the switch ^ f-SW is turned on, j ¾ | π | ¾60 becomes the ½ ^ state. Next, from the state 1, when l ^ ll falls to the threshold V th1 ^ full, the switch ^ f SW is turned off. The state where the switch .SW is turned off from the state 1 is called state 2. By turning off this switch ^ SW-SW, the 11 1 road 60 becomes ^ state.

The switch control 1 "1 path 61 further controls the power supply switch ^] ^ PSW as follows. The switch control fni path 61 in state 1, i'jij?; Dli force i)し ιί'ί V th 2 (> V th 1) If ΙΛι'- is turned on after that, ΐί supply switch ^ f- psw is turned on.From state 1; power supply switch ^ rp sw The resulting state is called state 3.

In addition, in the i ^ d state 2, when ¾j is equal to or greater than the threshold Vth2 at the point I: W, the power supply switch SW is turned on. The state in which the V supply switch ^ Γ-Ρ SW is turned on from state 2 is called state 4.

Whether the contact IC card 6 is in state 3 or state 4 depends on whether the state of | ι'ι: ι の in state 3 or state 4 is state 1 or state 2. In a state r where the state has shifted from the state 1 to the state 3, the ^ & M path 60 is in a contact state and is in a water-resonant resonance state. When the state shifts from the state 2 to the state 4, the J “nl path 60 is in a non-contact state. In both J¾ /, the force tm; , I'i V th 2 and on I: I '-and enough Li' to drive the departure section 66. It looks like this ί '| !. [] Is described below.

Pima, contact IC card 6 power;-only ticket gates closed 3 antenna づ approaching 5 When the switch is turned on, the switch operation of the switch control circuit 61 and the power supply switch end-control operation for PSW are performed.

First! In the t state, the switch ^ f-SW is off. The power supply switch -PSW is also turned off. In this initial state, when the contact IC card 6 approaches the antenna unit 5, the J: fcM path 6 O ^ '. I Jh V in the non-contact IC card 6 is activated. Then, ', 1ΪΓΐ: ν is detected in the switch control M path 61, and when this liJhV is 1 to a predetermined threshold' iV th 1 or more I.— ', the switch control circuit 1 path 61 is switched to ^. Turn on SW-SW. This state is state 1. Yotsute to this, the road 60 which is a contact ^ state, source [[pi | Output of the road 62 liil: is; 'and I ¹ to intense. In addition, when the output // V is at the location; the threshold of £ iii'i: V th 2 or lower, the switch control is turned on. The switch 61 turns on the power supply switch fPSW. This state is state 3.

In this way, the initial state, the state, and the state 3 change in this order. When the contact IC card 6 is brought close to the antenna unit 5 of the water body 3 of the ticket gate machine, the state where the contact can be performed can be performed.

Is a contact IC card 6 power ^s : sheets T (Switch control when approaching antenna ¾5 of ticket gate water break 3 | π | Road 6 1 switch ^ Γ-SW and ', power supply switch Γ-制御 SW control j result W. Here, --contact IC force is called card 6a and card 6b, respectively.

In the initial state, both of the two cards 6a and 6b have their respective switches ^ Γ-SW and li power supply switch ^ Γ-Ρ SW in the off state. In this initial state: When the cards 6a and 6b approach the antenna section 5, the output power from the path 60 of the mountain j is reduced below the threshold Vth1. At this time, the output pressure of one of the cards becomes almost equal to or lower than the threshold V th 1 by the antenna coil almost simultaneously at the same time. Or-the output of one card: the threshold pressure Vth 1 '->1'-more than 1 to make contact, then the output of the other card is phase //; induction threshold iii'iVt h Set to 1 or higher. Even in the case of l ^ deviation Both cards 6 a, 6 b, 'J 1 force Lij ^l:. When Gashiki L I ιι'ί V th 1 or more increases, both the card 6a, 6 b, switch ^ f-SW is turned on by switch control [nl path 61]. Therefore, at this time: Both cards 6a and 6b are in state 1. : When both powers 6 a and 6 b are in state 1, that is: When two cards 6 a and 6 b are close and the. & Fnl road 60 of each power is in contact When this happens, the wave number drops, and the gz |: to i on the J inj road drops.

Therefore, 'the output of the source 62 ^ l ^: .V is in the state of · ¾;', increased: after;; ', begins to fall sharply. Then, the l:, k! Force V of either card 6a or card 6b drops to I, iV th 1 for I, i. Note that at this time the card output 'itiji ^: .v does not fall to the threshold V thi

'Is described first in iii'iV th 1. This is because there are miscellaneous items on the road, such as internal noises (heat noises, shot noises, etc.) and contact IC cards. such properties / iota ·: to lambda, \\\) v in and de descending degrees Inino '' ^is:.. is from Jill.

Here, assuming that the output of the card 6b iii: V has been filled up to V th 1 first, the switch control 1 "1 path 6 1 of the card 6b is switched to the switch 瞬,] at that moment. As a result, the JWM path 60 of the card 6b is brought into the contact state, and one Jt-¾ "" one of the Jt-paths 60 is no longer shadowed, and the Jtfc l of the card 6a of the other- Road 60 is in the ft: connection. That is, the card 6a maintains the state 1, and the force 6b transitions from the state 1 to the state 2 when the switch SW is turned off.

When the card 6a is in the state 1 and the card 6b is in the state 2, only the resonance circuit 60 of the card 6a is in the connected state, so that the output of the card 6a; Then, the threshold value Vth 2 and the following h are described. Also, in the force 6b in the state 2, since the output of the circuit 60 of the card 6a suddenly rises to W, the card 6b in the magnetically coupled contact state J [Output of nl road 60 iS pressure also rises significantly.

As a result, in both cards 6a ヽ 6b, 'Ι', power ', 11Γΐ ^: .ν became intense, and- With both I cards, the switch control path 61 turns on the ¾iJt-supply switch ^ Γ-PSW. At this time, card 6a is in state 3. Card 6b is in state 4.

Switch control ["| By operation of road 61, contact I C force 6 force ': Even if it comes close to antenna part 5 of ticket gate water stop 3 in number ^

It is supplied to 66, and the contact IC card 6 of I mountain j-contact n n capability is available.

[6 reduces the state transition of the contact IC card 6. In the first state, the switch ^ f-SW and the ', power supply switch ^ PSW are off. I: When the contact IC card 6 is brought close to the antenna section 5 of the ticket gate, the main ticket gate 3 is closed, the output l pressure V of the common path 60 of the non-contact IC card 6 increases, and the output 'V is threshold iVt h 1 The state transits to the state described above, that is, state 1. In this state 1, the switch control circuit 61 turns on the switch Γ-SW.

In the state 1, the contactless IC card 6 moves away from the antenna section 5, such as I; and the output l; V stays between Vthl and Vth2. Become. When HWd runs out, switch control | ul path 61 turns off switch SW, so that contact IC card 6 returns to the initial state.

On the other hand, when the output pressure V rises from the state 1 to the threshold Vth2 or more within a predetermined time, the state 3 is entered. In this state 3, the switch control [nl path 61] keeps the switch SW turned on and turns on the power supply switch PSW. As a result, a sufficient output voltage V is supplied to the data processing unit 66, and communication is started.

When f _t ends or the non-contact IC card 6 moves away from the antenna section 5, resonance (output from the nl path ¾ decreases, and sufficient output データ ν is supplied to the data processing 邰 66) Will not be. At this time, the switch control M path 61 turns off the switch ^ 丫 -SW and the car supply switch ^ fpSW. As a result, the contact IC card 6 is in the initial state.

In state 1, when the force li) i ^: .V falls within the threshold value i'iV th 1 M, the state 2 is established. In this state 2, the switch control M path 61 turns off the switch ^ -SW.

In the state 2, the M Raka such as JI shelf IC card 6 is moved away from the antenna 5 ', ^but:. By Jill, Tokoro ^ ^ within the ll V is \ in the V th 2 or more - to not, the initial State.

In this state 2, if M ¹ , '/ becomes a threshold iii'iV th 2 or more I-

Will be 4. In this state 4, outgoing Jj ', W II goes through data processing route 63! The switch control M path 61 keeps the switch ^ S W off and turns on the power supply switch Γ-Ρ SW to make it easier for the user. Then, a sufficient force is supplied to the data processor J section 66, and iilH, is started.

In this state 4, and end the Oi ,;, Or contact IC card 6 is separated from the antenna section 5, ϋ:. Low Bok, and sufficient data processing邰66, ^first force; is lij V It is no longer supplied and returns to the initial state.

Note that the 'power supply switch-、 SW is not required for JI: Touch IC card 6 to perform ί,' ί. M may be set to m ¾ 66 to always supply β force

'The power supply switch ^ -psw was' submerged' ί'ΐ! "ΙI reduced the ii'i ^ force in the jm I c card 6 so that the switch control of the M Normally, the switching voltage is controlled by the data processing section 66, which eliminates a larger VII force than the nl path 61. Therefore, the supply of II force to the data processing section 66 is cut off. By doing so, the consumption IUJ can be reduced.

In state transition ^ of I: When the number of contact IC cards 6 is-, the state normally transitions to the first state, state 1, state 3, and initial state 状態. 接触 Perform contact data communication with the information reading / reading device 4.

Also, when two non-contact IC cards 6 are used, the non-contact IC card 6 with a low power transitions to the initial jin state, state 1, state 3, and initial state). At this time, the other non-contact IC card 6 transits to the initial state, state 1, state 2, state 4, and initial state. Then, each of the contact IC card 6, in the state 3 or state 4, the contact IC card 6 of the twin is collected /, ^{^1;:} cormorants contact data 31 I and driving machine 4.

Here, a description will be given of the J method in which a plurality of contact IC forces and the 'h'i 报 ^^ /, ¹ incorporation machine 4;

First, the number of contact IC cards 6 /// |-: ： ^, ^ /, ¹取 4 ^{1 1 1}取取取取取取取取取取.

First, the ^ intake / ^ incorporator 4 sends a polling command and performs 1.

Force one de 6 a and force one de 6 b is, receiving the polling command Then, pieces n ffi / intake, ^{^1;:} ί send a response I'm the identification怙報of it that of the card for the driving machine] I do. At this time, the card 6a sends a response at an earlier time. Then, the 'report / reception device 4 sends a response from the force 6a first'. After that, it receives the response from Force 6b. Preparative / In ¹ driving machine 4, from the identification report of the response to determine whether to receive a response from any card. The communication device 4 sends a communication establishment command (identifying the card 6 a ^) to the card 6 a in order to start communication with the card 6 a that has previously responded. . The force 6a receives a communication command, and sends a response to the command to the report / integrator 4. The layer report reader / writer 4 repeats the transmission of the above-mentioned polling command ゃ communication confirmation command until receiving a response from the card to the communication establishment command.

Then, a read command or the like is transmitted from the reader / writer 4 to the card 6a, and the card 6a transmits a response corresponding to the read command. By doing so, the process for the card 6a is completed.

'In the retrieving / loading device 4, since the communication with the card 6a has been completed, a polling command and a polling command are sent. Since the force 6a is communicating, a response is sent in response to this polling command {, '(not. The card 6b responds by receiving the polling command. ^: Send response to 'get /, ¹ ; ^{:' to the} embedded device 4. 'h'i Report /, ^{1 The} embedded device 4 sends this response to: ii '/ i :, sends a command of' /: (identifying the card 6b) Card 6b receives the response by issuing a command of '/: , ί sent to ^{1 ί} driving machine 4, ί to ^ i ^ taken /, ^{^1;:.} driving machine 4, by this response, and for the card 6 b, to send and read command, card 6 b sends iflH to card 6b by sending a response to this command.

Next, the 'h'i report /, ¹ incorporation device 4 is passed to the contactless IC card 6 with the number:: card.

First, 'hfffi, capture / ^ 4 sends and polls a polling command. Card 6 a you and force one de 6 b is, the polling command ί, ΐ Then, / prep, ^1;: send a response I'm the identification of the card respectively driving machine ί, to ί.

At this time, force 6a receives ¾fr, which sent the response command first. Then, f @ 4 reader / reader 4 first responds from card 6a. After that, a response from card 6 b is received.

Here, the response from the two forces is: /, ¹ ;: The embedded device 4 sends a polling command i times to determine whether there is another card and it can be passed. . Here, if it is determined that there is no response from another card ¾, the following processing is performed for the card 6 a and the card 6 b to perform communication.

-Information, sale /, ^{1 The} incorporation device 4 determines from which card the response was received or received from the identification and response of the received response. ', Ai /, ¹ ;: For each of the cards, a fife command (recognizing the card identification information) is performed ^^ for each card. The card 6 a, through ^ by receiving ^ the probability of command, the response to it 'h ^1!送 Send to reading / reading device 4. Also, the card 6b receives the command of A, and sends a response to the command to the device 4. 'Retrieving / Incorporating device 4 responded to the command of' di ir i '/. From the card until: 5 ^'. Polling command or through Π sure, "A command of sending ^ a ¾ Rios. Then, ¹ f Report intake /, such as a read command from ^{1 ί} driving machine 4 is sent to the power of one de 6 a, card 6 in a, by sending a response to刘応to the read command, through processing is the card 6 a 'to and then.' preparative /; ¹ from ί driving machine 4 such that the card 6 b read command The force 6b sends a response corresponding to the read command f, thereby completing the communication with the card 6b.

Also, if more than one contact IC card 6 is used and then used, the ^-) m Ic card 6 will enter one of the state transitions ^; That is, when the contact IC card 6 having the number of contacts is 数 (used as a 川), the-contact IC cards 6 are shifted to the initial state, state state 3, and 初期 of the initial state. In this case, r, the other number of non-contact IC cards 6 transits to the initial state, state state 2, state 4, and the first state.

Figure 7 shows that only one non-contact IC card 6 was used. Resonance path in non-contact IC card 6 when the non-contact IC card 6 was brought close to the antenna section 5 of the information reader / Vision device 4 This shows the time course of the output voltage V from. When the output 'V reaches the threshold value Vthi, the switch element SW is turned on, that is, the state becomes state 1, so that the resonance circuit 60 becomes a resonance state and rises rapidly. Then, when the voltage reaches a certain voltage, the voltage gradually decreases and continues to increase. The source ["Constant voltage is established by the constant voltage circuit in the path 62. The slope at the point P rises slowly. The fl! Ft is in the js state from the beginning. This is because the output pressure increases due to the I'-llll line Q of the 4i sum. In this embodiment, the threshold 'iV th 2 ίιΐ'ι: is steadily down the 63 63 road 63 .

-接触-枚 I I 接触接触 I I Y Y Y I I Y I I I Y Y I Y Y I Y Y Y

-The contact IC card of 1 I is card 6a, and the contact IC card of I I is card 6b. -Card i I's card 6 a with force Ik '' ij t 1;: When we tie to point P 1 of v 1 (beyond V th 1), card 6 a becomes state 1 and force lij |: V W. As a result, the ji and fc | ii | roads of the two cards are intensified by the //: inductance: N cards 6b or ΙίίΙ ;. Then, since the force of this card II—the output li'j |-: of the card 6b exceeds Vth1, the card 6b of the card I I also becomes state 1. --When both cards 6a and 6b are in state 1, the: nl road of cards 6a and 6b will The force V ^ begins to fall down hard; and ii first makes eleven cards 6 b ', |; turn into V th 1 。. At this moment t 2, ji: v 2 In P2,: Card 6b of card II is in state 2.-Card 6a of card II is still in state 1. Then, card 6b of card N is in state 2, The card //:, j's is gone, and the output of ΙΜΜ ^ is I;

In addition, the output of the -M card 6b in the state 2 is also increased by the ^ of the & path of the-card due to the inductance. In this way, the state of each of the cards 6a and 6b exceeds Vth2, and the state becomes the state 3 and the state 4 respectively, which is the communication state.

M 9 is a detailed circuit diagram of a portion of the non-contact IC card 6 excluding the data processing 66 shown in [¾] 3.

An analog switch ^ -SWl composed of a MOS FET is connected to the capacitor C of the Jt. & Road, which is composed of the antenna coil L and the capacitor C, in a row, and SW1 control is performed to the gate of the switch SW1. To power. Gen'1 Road 62 It comprises a diode Dl, a zener diode D2, and a capacitor C1, of which the zener diode D2 defines the output fg /).

In the switch control circuit 61, a threshold iii'iVth1 is formed by the resistor R1 and the Zener diode D3. Further, a threshold iii'iVth2 is formed by the resistor R2 and the Zener diode D4. Further, the comparator CP 1 bites the ratio between the V source (output VI: from the nj road 62 and V th 1), and the comparator CP 2 generates Vth 2 and the output from the source M road 62, The output of CP1 is controlled by two flip-flops: F1, F2 and other gates i to form a SW1 control, and the ili of comparator CP2 is connected to SW2. In addition, I Ιίψ and で are performed at 2 iW at T1 and T2.

I klvl source; circuit 62; I; power end This is connected to the 1 power supply switch f SW2, and this river power is connected to the data processing unit 63; t supply end f-. _f ) ii, k] SW2 control ί, is input to the gate of this switch ^ 丫 -SW2, and is connected to switch control ["SW1 control, which is another i, i output from one path 61". ,] り-is powered by the gate of SWITCH-SW1.

The switch ^ f-SWl is replaced with the switch ^ -SW that was used. In addition, the switch Γ-SW 2 is connected to the power supply switch Γ-PSW 11 which is set in step 3 する ο フリップフロッ Note that the flip-flops F 1, F 2, and the switch in the switch control circuit 61 are connected. Τ1 and Τ2 are used to control the operation of the switch control “" 1 path 61 to be described later. In order to form the SW1 control signal and the SW2 control, Do -J Μ

10 is a flowchart showing the operation of the switch control circuit 61.

In step 100, it is determined whether the output of the resonance circuit 60, that is, the output ¾V of the power supply circuit 62 is equal to or less than the threshold value Vth1. If the output ¾H: V becomes equal to or greater than the threshold value iVth 1, a SW 1 control るため for turning on the switch SW 1 is formed in step 101. & Physically, in FIG. 9, the output of the comparator CP 1 becomes “H”, and the flip-flop F 1 is set. At this time, since the Q (bar) terminal of the flip-flop F 2 is “H”, the SW 1 control 1, Ί · of “H” is output as the output of the gate G 2. As a result, the switch SW1 is turned on.

, Then, reset the timer and start this timer. That is, when the output of the gate G1 becomes "H" at 9, the output T1 is shut down. In step 101, state 1 is set to i.

In step 103, it is determined whether or not j1: V becomes the threshold iii'iV th 1 in state 1. If not, proceed to step 105 to judge whether or not the output l ^: .V is less than the threshold ii'iVth2. Once out i) V is the threshold Kou V th 2 more than I ·, li force supply switch ^ Ryo proceeds to step 109 - SW2 control ί in order to turn on the ^SW2,:. The and out from the comparator CP 2. In step 107, ^ to before time is up in the timer T 1 was Okoshimikotonori at step 102;. I ^1, that the force 'Ganmaitanyu is sill iii' becomes a (V th 2 than ^1, to ¾4A i.e. , Yuma Ima T1 force A question until the timer jt ime 1 set in advance is set. ', ^ V is a threshold iii' V th 2 or more If I becomes I, go to step 109 and switch to the power supply switch ^ -SW2 Is turned on, but this timer ftWd is out of '. V is iii'iV th 2 or less I: It does not become ¾Γτ. By time-up, the initial state of step 100 is restored. In step 109, state 3 is set.In step 103, ¹ 1 i force ΐί / | · V is determined to be V th 1 and it is determined that V th is full. From state 2 to state 2. hi state 2, in step 104 the SW1 control signal is turned off to turn off the switch. L ”, that is, when the output of the gate G1 becomes“ L ”, the flip-flop F1 is turned off. As a result, the power of the gate G2 becomes“ L ”and the switch becomes“ L ”. ^ -SW 1 is turned off, flip-flop F 2 is set at this time, switch SW 1 is turned off in step 104, and timer T 2 is reset and started in step 106. In step 108, whether the i force ', ii / Ιΐν is less than the threshold Vth 2 To determine Further, this determination is made only by the timer T 2-at the fixed time 2. Then, if the force V falls below the threshold fiV th 2 during the monitoring of the evening, the process proceeds to step 109 and the I force supply switch ^ X-SW 2 is turned on. This state is state 3. If that evening, H, '; j 內,' Ι ', power', ΙϊίΠ V, L, ίιΐ'ι: V th 2 or less I .. 0 Initial state of 0.

In addition, the switch control path || path 6 1 is set to state 1 when ', l: V becomes a threshold i' iV th 1 or more to I: state 1, and from this state 1 to state L, ίιΐ'ί V When we drop to th 1 满

The threshold とき ιΐ'ί at the time of transition to state 2 may be any one of ^ t that is full of V th1.

According to this statement, even if the contact number im 梭 rest (contact Ic card, etc.) of the Sutro number is approaching (iB is turned off) and simultaneously approaching an iflHi device such as a Contact data can be sent to each medium.

In addition, even if there is no configuration in which one of a plurality of contact mediums (: contact Ic card, etc.) switches the jM path between a connected state and a non-connected state; However, the contact data iot can be performed in each communication medium. I: Norikawa | Performance

The present invention can be used for personal identification, parking, pi-exit ticket gates, cash or cash processing u Icheon fee collection equipment, etc.

Claims

m of r! r'i request

(l) ii An antenna coil that transmits and receives ^^ by transmitting a magnetic wave and a capacitor)

From the output of the i ^ kiJ fcM road, the desired ^ is,,, M road,

The ι'ι road that processes f,-

i¾ _t ki process ^ ['Modulates the IJ from the Ί path, applies a modulated H path, and switches the path between a tangent state and a ½ ^ state. :):::::::::::::::::::::::::::::::::::::::::

ι½, switch control; ύ ', ^' ΙΊpower ', i: When the threshold is ίιιϊ or less I: 1¾, by controlling the switch part, kiJ! ¾ | | ^ State, and then IJIJ .idi'll Jj Άϊί \ falls to ijij "threshold i'i 'full' / 1 :: ΰϊίί! Switch ί¾ to control ι '', ΰ ] Contact, m rest, characterized by the road being in contact.

(2) Connect the power supply switch to the Vli power supply end of the i¾ process by connecting or disconnecting the power supply switch. I); ir; d After the switch is controlled, | ¼output 出) ιϋ The threshold of the more immense ^ 2 (i.e., when I ', ιϋιΐ ϋ: contact the supply switch, and supply the power i ι contact media.

(3) The road

ύ i J! fc [n | Road output OJi becomes | ¾ ', 後' ι ^ 'after the predetermined threshold ίιι'ί When the j (n | path of a certain other contact communication medium is also in contact with the resonance path of the other contact communication medium, it behaves so that the ϋυΓί output 下降 decreases by inducing [1]. .

When the j ^ vibration path of the other non-contact medium in the medium shifts from the contact state to the contact state, the force rises due to the disappearance of the i¾, k] phase / excellence. I would like to do this in two ways.

(4) The zero resonance path is

When the output of the previous circuit is in the contact state after the specified threshold value of m, and the common path of the other contact and medium paths in the proximity state is also in the connected state output front the钔¾ induction ¾ of the road of the other contact through f _r Nadakyu is ^ dynamic to descend Iyi] predetermined threshold L, fully,

The ι¾ switch control unit switches the ι'ή switch to the-) ΙΨ state when the vehicle is fully lowered ^: ύίι— ^ Ιί 力 'ϋ:;ώ'

After the i'jii, i'dJ '1 road is in contact, the other contact is applied,' 適 the output of the media path ', iiji: '! 1 により媒体媒体媒体により媒体媒体媒体媒体媒体媒体媒体媒体媒体媒体媒体媒体!

(5) The rli switch control 路

项非非非非非非非非非非非非非.

(6)

A series of coils and capacitors, consisting of a row J !: 列 l "j path, and the ijij.iLi switch section consisting of f) ii¾ an analog switch connected to the row of capacitors, ΊΜ'11, non-contact media.

(7) ιϊίί, kJ output i is ιϊΐι, Γϊ 2 threshold ίιι'ί no more than h ¾, m ^ lWJj

After a predetermined time from when the ί ί has reached the predetermined threshold ίιΐ'ί, the i'j; i 【:; switch control section closes the front and vibration circuits and closes the power supply switch. The non-contact communication medium described in the item 2 described above, wherein 邰 is not supplied with power.

(8) Non-contact described on the surface of the card-shaped outer surface of the cardboard;

(9) Non-contact communication This is a contact communication system that performs non-contact communication between media and concealment.

Previous¾Non-contact communication medium

A resonant circuit consisting of an antenna coil and a capacitor for transmitting and receiving a signal J "by generating an induced electromotive force by receiving an electromagnetic wave from the device,

a demodulation circuit for demodulating predetermined ί, ^ from the output of the f¾, j¾i circuit; ¾tune [Process n | road to process J "obtained on nl road,

Change i, which is πι-forced from the preprocessing circuit, and modulate it. Switch to switch between / state and non-contact state! And a switch control unit for switching and controlling the m switch unit based on the power of the W on the W J road,

The switch control is performed by setting the threshold of I 'kiil ¹ and the force', Ιίί. Then, when the iJ.'id ill force lij I: falls to the ijij threshold ίιΐ'ί drop Vj I :, the ijlj and the switch i'li are controlled to control the HiiJ! K | n | Control the contact state,

记

iW ii Non-contact communication ^ Features a ji ^ i path consisting of an antenna coil that performs transmission and reception at j with the medium suspension and a J ¾ capacitor, and transmission and reception; And contact communication system.