JPH03271993A - Ic card handling device - Google Patents

Abstract

PURPOSE:To prevent the trouble of erroneously refusing the reception of a normal IC card by confirming power supply and signal logic. CONSTITUTION:A control means 19 is provided to always monitor the input state to a terminal with plural paired electrodes composed of electrodes 10a for input, which respectively get contact with the plural terminals of the IC card 3, and electrodes 10b for monitoring the input, and a control means 20 is provided to move the electrodes to positions so as to obtain the satisfactory contact with the terminals. In such a state, the power supply and the signal logic is confirmed. Thus, since the operational state of this IC card handling device is checked in advance, the trouble of erroneously refusing the reception of the normal IC card can be prevented.

Description

[Detailed description of the invention]

(Industrial Application Field) The present invention relates to a card-based transaction device, and more particularly to an IC card handling device that has a built-in IC chip and reads and writes data via terminals provided on the surface of the card.

[Conventional technology]

In the conventional device described above, data is read and written by pushing the IC card into the insertion slot, letting the guide roller take the IC card inside and stopping the transport at a predetermined position, and bringing the brush into contact with the contacts of the IC card. However, if there is dirt, oil or grease on the contacts, poor contact between the brush and the contacts will occur, making normal reading and writing impossible. As a countermeasure technique for the above-mentioned problems, as disclosed in Japanese Patent Publication No. 64-6515, the contact resistance value of each terminal contact point is detected and the contact portion is mechanically brushed until a sufficient contact condition is obtained; As disclosed in Japanese Unexamined Patent Publication No. 61-59585, there is a device that determines the contact state by detecting whether or not a transmitted test signal is received, and repeats opening and closing of the contact until a normal reception result is obtained. . (Problems to be Solved by the Invention) All of the above conventional techniques are equipped with a separate test circuit,
The contact state of the contacts is checked in advance when the C card is inserted. For this reason, the operation of the circuit in actual use of the IC card handling device that transmits data with the IC card has not been confirmed, and there has been a problem that the contact state during data transmission cannot be monitored. In view of the above-mentioned problems, the present invention monitors not only the contact state of the contacts but also the overall operating state including the data transmission circuit, and detects whether or not the cause is on the IC card side when an abnormal operation occurs. The purpose of this invention is to provide an IC card handling device that can be checked separately from the IC card handling device itself. [Means for Solving the Problems] The above object has a plurality of pairs of electrodes consisting of an input electrode and an input monitoring electrode, each of which contacts a plurality of terminals of an IC card, and constantly monitors the input state to the terminals. By providing a control means for monitoring and a control means for moving the electrode to a position where good contact with the terminal can be obtained, the power supply is confirmed and the logic of the signal is confirmed, and the circuit is closed between the plurality of pairs of electrodes. The device is characterized in that it includes a control means to check the operation when no IC card is inserted, and to connect the plurality of pairs of electrodes in parallel to enable data transmission of the IC card in the case of poor contact with the electrodes. This is accomplished by an IC card handling device.

[Effect]

With the above configuration, the normal operation of the IC card handling device can be checked in advance by first closing the bypass contact before inserting the IC card, and then opening the bypass contact and inserting the IC card. The contact status between the IC card terminal and the input side electrode can be checked from the output side electrode, and if a contact failure occurs at any terminal,
Move the contact position with the electrode slightly and try again. Even when data transmission is started, operation monitoring by the output side electrode continues, but data transmission is not hindered at all. [Embodiment] An embodiment of the present invention will be described below with reference to the drawings. For example, in the case of an automated teller machine, the IC card handling system sIig1 includes, in addition to the IC card processing mechanism, an operation panel for specifying the content of the transaction that the customer wishes to make, a cash deposit/withdrawal mechanism for making cash payments, and a main unit. Built-in control unit and power supply. FIG. 1 is a block diagram of an embodiment of a signal processing system for an IC card which is a handling medium of an IC card handling device according to the present invention, and FIG. 2 is a schematic layout diagram of a card processing mechanism 1. In FIG. 2, an IC card 3 with a magnetic stripe inserted through an entrance 2 is first checked by a detection sensor 4 to see if it can be handled, and then it is determined that the card is a normal IC card 3. For example, the roller 6 that transmits the driving force from the motor 5 transports the magnetic stripe 13 (see FIG. 3) to just below the magnetic head 7.
The means for reading out the magnetic stripe information in the present invention refers to a control system including the magnetic head 7 and the control unit 20 in this embodiment. When the reading process of the magnetic stripe 13 is completed, the IC
The card 3 is conveyed to just below the electrode 10 provided on the IC connection part 9 and stopped, while the passing state of the card 3 is confirmed by the detection sensor 8. After this, the IC card 3 is connected to the solenoid 1.
It comes into contact with the electrode 10 that has been lowered by the operation of step 1, and performs necessary data transmission with the IC chip built in the IC card 3. The means for transmitting data with the IC chip of the present invention refers to, for example, the control system shown in FIG. Note that the collection box 12 is a box for collecting and storing the IC card 3 again when the customer forgets to take the IC card 3 returned to the insertion slot 2 after the transaction is completed. be. FIG. 3 is a perspective view of one embodiment showing the mutual positional relationship between the IC connection part 9 and the electrode 10. In addition to the magnetic stripe 13, the surface of the IC card 3 is provided with a total of eight terminals 01 to C8 that are electrically connected to an internal IC chip (not shown). One pair of electrodes 10 are provided for each of the plurality of terminals C1 to C8. A pair of electrodes 10 are shown separately as 10a and 10b, and electrode 1 for terminal CI corresponds to each terminal number.
0a-1゜10b-1, if it is for terminal C2, electrode 10a-
It is illustrated as 2°10b-2. Each of these electrodes 10 is integrally molded into an electrode holding block 14. Each electrode IO is formed of an elastic member, electrical insulation is maintained between the electrodes 10, and electrode end portions 10a-1' of the electrode holding block 14 that holds the electrodes 10 are formed.
. . . 1Ob-8' has an electric wire 15 soldered thereto, which is connected to the signal processing circuit. The block diagram of FIG. 1 will be explained in detail. A card detection signal from the card detection sensor 4, a passage detection signal from the passage detection sensor 8, and a data read signal for the magnetic stripe 13 from the magnetic head 7 are input to the input port 20a of the control unit 20. Further, control signals for the motor 5 and the solenoid 11, and data write signals for the magnetic head 7 are output from the output port 20b of the control section 20. Among the terminals C1 to C8 of the IC card 3, in this embodiment, C4
, C6, and C8 are not used and are empty terminals. As for the purpose of the terminal to be used, terminal CI has Vcc (ia
Source voltage +5v), R3T (reset signal) for C2,
CLK (clock) is input to C3, GND (earth) is input to C5, and 110 (receive data/transmit data) is input/output to C7. First, to the electrode 10a-1 that contacts the terminal CI. +5V supplied from the regulator 23 is connected, +
Whether or not the 5V output is possible is controlled by an operation enable signal from the control section 20. The other electrode 10b-1 is connected to the voltage monitoring IC 19, and the output obtained by comparing the +5vllll pressure value supplied to the terminal CI with the reference voltage value Vref is input to the input port 20a of the control unit 20. Note that the regulator 23 has a built-in overcurrent detection circuit. The structure is such that it can prevent destruction of elements due to overcurrent generation due to short circuits between terminals, etc. An open collector type driver IC 16 is connected to the electrode 10a-2 in contact with the terminal C2, and a reset signal from the control section 20 is output. The other electrode 10b-2
is connected to the resistor 17 that is pulled up with +5V that supplies power to the IC card 3, and is further connected to the receiver ICl3 and input to the input port 20a to check whether the reset signal has been reliably input to the IC card 3. It is reported to the control unit 20. The electrode 10a-3 in contact with the terminal C3 is connected to an open collector type driver IC 16', and the oscillator 2
, 915MI- (z clock is output. The possibility of outputting the clock of the oscillation J21 is controlled by the operation enable signal from the control unit 20. The other electrode 10b3 has a +5
It is connected to the resistor 17' pulled up by V, and further connected to the RQ terminal (reset terminal) of the timer 22 via a delay circuit. S terminal of timer 22 (set terminal)
The clock input to the IC card 3) is simultaneously input to the IC card 3, and if this clock returns to the R terminal, no timer output is generated. This is reported to the control unit 2o. The electrodes 10a-5 and 10b-5 in contact with the terminal C5 are directly connected to the ground of the signal processing circuit. An open collector type driver ICI 6' is connected to the electrode 10a-7 in contact with the terminal C7, and transmission data from the control section 20 is output. The other electrode 10b-
7 is connected to a resistor 17' pulled up by +5V, and further connected to a receiver ICl3', and the control unit 20 determines whether the transmitted data is returned as received data or not. Note that the electrodes 10a-1, 10b-1,...1
0a-7, l Ob-7, and terminal CI,...
, the resistance value of pull-up resistor W (17, 17' is sufficiently small to obtain the current value necessary to maintain a good contact condition by softening and melting the oil film formed on the surface of C7. In addition, Ml electrodes 0a-1 and 10b-1, 1oa-
2 and 10b-2, 1oa-3 and 1Ob-3, 10a-7
Bypass contacts Bl, B2, B3, and B7 driven by relays are provided between and 10b-7, respectively, so that the IC connection part 9 can confirm operation independently even in the absence of the IC card 3. It has become. An example of an operation flowchart for the above configuration is shown in FIG. When the automatic teller machine is powered on, the card processing mechanism I is also powered on. First, the relay of the IC connection section 9 is driven and the bypass contact Bl is activated. B2, B3, and B5 are closed, and an initial operation check of the interface section of the signal processing circuit alone is started. If this check ends normally, the IC card 3 is placed in a waiting state. If the data read by the magnetic head 7 from the magnetic stripe 13 of the inserted I'C card 3 is normal, the IC card 3 is further conveyed to a fixed position directly below the electrode 10 in the IC connection part 9 and stopped. do. Electrode 10 and IC card 3 lowered by solenoid 11
Check the contact status with terminals CI%C2%C3, C5, and C7. If this check ends normally, data transmission will start, but if there is an abnormality, the electrode 10 will be raised once and the motor 5 will be started for a moment, and the terminal CI of the IC card 3...
After slightly moving the contact position with C7, the electrode 10 is lowered again and the contact state is checked again. If the problem persists even after repeating this three times, try switching to bypass contact B! , B2, B3, and B7 are closed, and terminal CI%C2,
211 electrodes 10a-1, 40b for each C3 and C7
-1, ---10a-7, 1Ob-7 were connected in parallel to try data transmission. If the IC card 3 is found to be defective even after repeating these retries five times, the IC card 3 is determined to be defective, and after displaying guidance to that effect, the IC card 3 is returned to the customer. FIG. 5 shows an operation sequence diagram of the IC card connection unit 9 and the IC card 3. The initial operation check is performed using the solenoid 11 as a relay and the terminals CI%C2°C3, C5, C7.
If it is considered that the circuit is closed by the bypass contacts B1%B2, B3, and B7, the operation sequence is completely the same, so the explanation is omitted. +5V of regulator 18 and oscillation +
JQ21's 4.915MHz clock starts outputting. After this, there was a momentary power outage at +5V and a gap in the clock once, but since both were resolved, operation continued and data transmission was successfully completed. Although the occurrence of an abnormality in the reset signal and transmitted/received data is not shown in the diagram, the state of contact with +5V and the clock is constantly monitored. [Effect of the Invention J] By carrying out the present invention, by checking the operating state of the IC card handling device in advance, it is possible to prevent malfunctions in which a normal IC card is erroneously rejected, as well as to prevent poor contact between the IC card and terminals. Accidents in which data cannot be transmitted to and from the IC card due to short circuits can be prevented, damage to the IC chip of the IC card can be completely eliminated, and a highly reliable IC card handling device can be provided.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of a signal processing system of a card processing mechanism according to the present invention, FIG. 2 is a schematic layout diagram of an IC guard processing mechanism according to an embodiment of the present invention, and FIG. 3 is an IC connection diagram. FIG. 4 is a perspective view of an embodiment showing the mutual positional relationship between the parts and electrodes, FIG. 4 is an operation flowchart of this embodiment, and FIG. 5 is an operation sequence diagram. l...Card processing mechanism 2...Insertion slot 3...I
C card 4...Detection sensor 5...Motor
6...Roller 7...Magnetic head
8...Detection sensor 9...IC connection portion 10, 10a, l Ob-electrode C1, C2, ---C7, C8--Terminal B1. B2
．． ... B7 ... Bypass contact 11 ... Solenoid 12 ... Collection box 3 ... Magnetic stripe 14 ... Electrode holding block 5 ... Electric wire 6.16'16' - ... Driver IC7, 17'
, 17"...Pull-up resistor 8, +8'...Receiver IC 9...Voltage monitoring IC 0a...Input port...Oscillator 3...Regulator

Claims (1)

[Claims] 1. In an IC card handling device that transmits data to an IC chip of the card by electrically contacting a plurality of terminals of an IC card, an input electrode that contacts each of the plurality of terminals. and a plurality of pairs of electrodes consisting of input monitoring electrodes, and includes a control means for constantly monitoring the input state to the terminal, and a control means for moving the electrode to a position where good contact with the terminal can be obtained. An IC card handling device characterized in that it performs power supply confirmation and signal logic confirmation. 2. A control means for closing a circuit between the plurality of pairs of electrodes that are in contact with the plurality of terminals, and for checking operation when no IC card is inserted, and for controlling the plurality of pairs of electrodes in case of poor contact with the electrodes. 2. The IC card handling device according to claim 1, wherein the IC card handling device is connected in parallel to enable data transmission of the IC cards. 3. The means for constantly monitoring the input state to the terminal,
I according to claim 1, characterized in that the contact current is increased by connecting a pull-up resistor to the input monitoring side.
C card handling device.