JP7289213B2 - card issuing device - Google Patents

Description

The present invention particularly relates to a card issuing device for issuing cards.

2. Description of the Related Art Conventionally, there have been card issuing apparatuses for issuing card-shaped recording media (hereinafter simply referred to as "cards").
For example, Patent Literature 1 discloses a card stack unit having a card storage section in which unissued cards are stacked and stored and a card sending mechanism for sending out the lowest card in the card storage section, and describes a compact card issuing device comprising a card reader unit for reading and/or recording data that has been written, a printing unit for printing on the card, and a card reversing unit for reversing the card. .

Here, a card reader unit of a conventional card issuing device, such as that described in Patent Document 1, reads data by short-range wireless from a contactless IC card using RFID (Radio Frequency Identifier). and write.

On the other hand, card issuing devices require consumables such as an ink ribbon to be attached to a printing unit for printing on cards. If genuine consumables are not used, the quality of printing may be degraded or malfunctions may occur.
Therefore, in order to manage consumables, it is conceivable to attach an RFID tag medium (hereinafter simply referred to as "wireless tag") to the consumables.

JP 2018-52023 A

However, wireless tags have different signal characteristics for communication from noncontact IC cards. For this reason, if the card issuing device performs communication control similar to that of the non-contact type IC card, communication with the wireless tag may fail.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems by providing a card issuing apparatus capable of reliably communicating with wireless tags of consumables.

A card issuing device of the present invention is a card issuing device for issuing a card, comprising: a card communication unit that performs short-range wireless communication with the card; and a wireless tag provided on consumables for issuing the card. a consumables communication unit that performs short-range wireless communication; and a control unit that controls communication between the card communication unit and the consumables communication unit, wherein the control unit controls communication with the consumables communication unit. In this case, it is preferable to adjust the characteristics of the receiving circuit and, if acquisition of the response signal to the first activation command fails, adjust the characteristics of the receiving circuit instead of a simple retry operation.
By configuring in this way, it is possible to reliably communicate with the consumable wireless tag without performing a simple retry operation .

In the present invention, the receiving circuit preferably includes a first driver IC for driving the card communication section and a second driver IC for driving the consumables communication section.
By configuring in this way, the first driver IC corresponding to the card communication unit and the second driver IC corresponding to the consumables communication unit can optimize processing for different characteristics. becomes.

In the present invention, it is preferable that the control section performs change control of the setting value of the second driver IC as the characteristic adjustment of the receiving circuit.
By configuring in this way, it is possible to prevent printing from being delayed due to retrying.

In the present invention, the set values of the second driver IC are the gain value of the receiving amplifier and the threshold value of the received signal, and the control section once fixes the gain value and then changes the threshold value to change the It is preferable to adjust the characteristics of the receiving circuit.
By configuring in this way, it is possible to reliably communicate with wireless tags of consumables.

In the present invention, it is preferable that the control unit cuts noise by increasing the threshold.
By configuring in this way, it is possible to easily demodulate the signal from the wireless tag of the consumables.

According to the present invention, in addition to a card communication unit that communicates with a contactless IC card or the like, a consumables communication unit that performs short-range wireless communication with wireless tags provided on consumables, and communication control of these. A card issuing device capable of reliably communicating with a consumable wireless tag by adjusting the characteristics of a receiving circuit when the control unit controls communication with the consumable communication unit. be able to.

1 is a system configuration diagram of a card issuing device according to an embodiment of the present invention; FIG. 2 is a schematic side sectional view of the card issuing device shown in FIG. 1; FIG. 2 is a diagram illustrating the configuration of consumables and a printing unit shown in FIG. 1; FIG. 4 is a flowchart of wireless tag characteristic adjustment processing according to the embodiment of the present invention; FIG. 5 is a conceptual diagram of characteristic adjustment in the wireless tag characteristic adjustment process shown in FIG. 4;

<Embodiment>
[Configuration of Card Issuing Device 1]
A configuration of a card issuing device 1 according to an embodiment of the present invention will be described with reference to FIGS. 1 to 3. FIG.
First, the control configuration of the card issuing device 1 will be described with reference to FIG.
The card issuing device 1 of this embodiment is a device for issuing a new card 2 . The card issuing device 1 is, for example, an ATM (Automated Teller Machine) equipped with a card issuing function, a kiosk terminal, a ticket issuing system for transportation facilities, a point card issuing system for a convenience store or the like, or a member card issuing system for a retail store. It is installed and used in a host device such as a system, a card issuing/payment system for gaming machines, an entrance/exit management system, etc. (hereinafter simply referred to as "ATM etc.").
Specifically, the card issuing device 1 has a function of a printing/issuing printer that prints and issues necessary information on the card 2 according to an instruction from a higher-level device.

The card 2 compatible with the card issuing device 1 of this embodiment is a non-contact IC card, a contact IC card, and/or a magnetic card with a magnetic stripe. The card 2 is made of, for example, rectangular vinyl chloride with a thickness of about 0.7 to 0.8 mm. When the card 2 is a magnetic card, for example, a magnetic stripe on which magnetic data is recorded is formed. Also, if the card 2 is a contactless IC card and/or a contact IC card, for example, an IC chip 200 is incorporated. The card 2 may be provided with both the IC chip 200 and the magnetic stripe. In addition, if the card 2 is a contactless IC card, it may have a built-in R/W (Read/Write) antenna for short-range radio.
The card 2 may be a PET (polyethylene terephthalate) card with a thickness of about 0.18 to 0.36 mm, a paper card with a predetermined thickness, or the like.

Furthermore, an example in which the consumables 3 corresponding to the card issuing device 1 of this embodiment is an ink ribbon will be described. This ink ribbon is, for example, a sublimation or thermal transfer ink ribbon for printing on the card 2 in color or black and white.

In this embodiment, wireless tags 300 are attached to the consumables 3 and managed.
The wireless tag 300 is, for example, a wireless tag of the same communication system (ISO14443) as a noncontact IC card. Specifically, as a low-cost tag with a small medium size, a small size (for example, 42 mm × 27 mm) seal-type wireless tag with a Mifare IC chip mounted for counting purposes at event venues, etc. can be used.
The wireless tag 300 stores, for example, identification information including the type and model of the ink ribbon, remaining amount information for checking the remaining amount, and the like. The type and type of the ink ribbon includes information such as color, black and white, thermal transfer type, sublimation type, number of printable sheets, and the like. Since the Mifare IC chip is inexpensive, the amount of information to be stored is smaller than that of the IC chip 200 of a normal non-contact type IC card.

The configuration of the card issuing device 1 will be described in more detail.
The card issuing device 1 mainly includes a control section 10 , a card feeding unit 20 , a printing unit 30 , a card reader unit 40 , a card conveying unit 50 and a card reversing unit 60 .

The control unit 10 controls the card issuing device 1 as a whole. The control unit 10 is, for example, a CPU (Central Processing Unit), an MPU (Micro Processing Unit), a GPU (Graphics Processing Unit), a DSP (Digital Signal Processor), an ASIC (Application Specific Integrated Circuit), and the like. . In addition, the control unit 10 includes, for example, a non-volatile recording medium such as ROM and a volatile recording medium such as RAM, which store various setting values, control programs, temporary data, and the like.

In this embodiment, the control unit 10 performs communication control of the card communication unit 41 and the consumables communication unit 31 .
In addition, the control unit 10 adjusts the characteristics of the receiving circuit when controlling communication with the consumables communication unit 31 .
The control unit 10 performs change control of the setting value of the driver IC 310 for driving the consumables communication unit 31 as the characteristic adjustment of the receiving circuit. In this embodiment, the set values of the driver IC 310 corresponding to the consumables communication unit 31 are the gain value of the receiving amplifier and the threshold value of the received signal. These values are stored and set in a recording medium built in the control unit 10 . This recording medium also stores values such as the initial value, the maximum value, and the rate of increase of each value.
Specifically, the control unit 10 temporarily fixes the gain value and then changes the threshold to adjust the characteristics of the receiving circuit. The control unit 10 is configured to cut noise during reception by increasing the threshold.

The card supply unit 20 accommodates a new card 2 before issuance. The card supply unit 20 can discharge the accommodated card 2 along the internal transport path under the control of the control section 10 .

The printing unit 30 prints on the new card 2 . The printing unit 30 is, for example, a sublimation or thermal transfer printer, capable of printing photographic quality images and text.

The printing unit 30 includes a consumables communication unit 31 and a thermal head 32 .
The consumables communication unit 31 performs short-range wireless communication with the wireless tag 300 provided on the consumables 3 for issuing the card 2 . In this embodiment, the consumables communication unit 31 includes a driver IC 310 and a R/W antenna 320 for driving. The driver IC 310 can set setting values such as the gain value of the reception amplifier and the threshold value of the reception signal in a setting register or the like. In this embodiment, the receive amplifier gain value is, for example, a value corresponding to the output from the R/W antenna 320 . The received signal threshold is, for example, a value that sets the filter constant of the receiving circuit.
The thermal head 32 is a heater array or the like for sublimating the ink contained in the ink ribbon and fixing it on the card 2 .

The card reader unit 40 reads data recorded on the card 2 and/or stores data on the card 2 .

The card reader unit 40 includes a card communication section 41 , a magnetic head 42 and an IC contact block 43 .
The card communication unit 41 performs short-range wireless communication when the card 2 is a noncontact IC card. Therefore, the card communication unit 41 includes a corresponding driver IC 410 and R/W antenna 420 as a receiving circuit. This driver IC 410 may also be capable of setting the gain value of the receiving amplifier, the threshold value of the received signal, and the like. The card communication unit 41 communicates with the IC chip 200 in the card 2 via the R/W antenna 420 to read and/or record IC information recorded in the IC chip 200 .
The magnetic head 42 reads and/or records magnetic information recorded on the magnetic stripe of the card 2, which is a magnetic card.
When the card 2 is a contact type IC card, the IC contact block 43 transmits and receives data to and from the IC chip 200 built in the card 2 via contact springs that contact IC contacts provided on the surface. . Thereby, the IC information recorded in the IC chip 200 is read and/or recorded.
In this embodiment, the driver IC 410 of the card communication unit 41 is the first driver IC. In this embodiment, the driver IC 310 of the consumables communication unit 31 is the second driver IC.

The card conveying unit 50 conveys the card 2 between the card feeding unit 20, the printing unit 30, the card reading unit, and the card reversing unit 60 within a conveying path provided inside.

The card reversing unit 60 is a mechanism for reversing the card 2 inside out. By inverting the card 2 by the card inverting unit 60, double-sided printing on the card 2 can be easily performed.

Next, with reference to FIG. 2, the external configuration of the card issuing device 1 according to the embodiment of the present invention will be described from the side.
In FIG. 2, the X direction is the longitudinal direction of the card issuing device 1, the Z direction is the vertical direction of the card issuing device 1, and the Y direction is the lateral direction of the card issuing device 1 orthogonal to the longitudinal direction and the vertical direction. be. The X1 direction side of the front-rear direction is the front side of the card issuing device 1 , and the opposite side, the X2 direction side, is the rear side of the card issuing device 1 .
The card issuing device 1 is mounted on a host device so that the front end side of the card issuing device 1 is arranged on the front side of the ATM.

More specifically, the card supply unit 20 includes a card storage section in which the cards 2 before issuance are stacked and stored, and a card delivery mechanism 21 for delivering the lowest card 2 in the card storage section. I have. The card delivery mechanism 21 is arranged below the card storage section, engages with the card 2 at the bottom in the card storage section, and delivers this card 2 forward.

Consumables 3 are accommodated in the printing unit 30 . The printing unit 30 is provided with a communication section 31 for consumables at a position capable of communicating with the wireless tag 300 attached to the consumables 3 . That is, the wireless tag 300 is attached to the ink ribbon side, and the substrate of the R/W antenna 320 is provided on the printing unit 30 side to perform communication. The details of these positional relationships will be described later.
Further, a thermal head 32 is held below the printing unit 30 . The thermal head 32 draws out and heats the ink ribbon of the consumables 3 contained therein, and transfers the ink of the ink ribbon to the card 2 for printing. The thermal head 32 can come into contact with the card 2 from above through the ink ribbon. In addition, the printing unit 30 includes a head elevating mechanism for elevating the thermal head 32 and a ribbon feeding mechanism.

The card reader unit 40 is provided with a card issuing/inserting slot 4a, and has a magnetic head 42, an IC contact block 43 (not shown), and a card communication unit 41 with respect to a conveying path formed inside the card issuing apparatus 1. is provided. The card communication unit 41 is arranged below the transport path. The magnetic head 42 is arranged to face the transport path from above and/or below.

The card transport unit 50 transports the card 2 via a transport path formed inside. The card conveying unit 50 includes a driving roller that forms part of the card reader unit 40, and a driving roller and platen roller that form part of the printing unit 30, and conveys the card 2 in the front-rear direction. A common motor is connected to the driving roller and the platen roller via a power transmission mechanism.

The card reversing unit 60 includes a card holding section that temporarily holds the card 2 inside, a card drawing-in and delivery mechanism that pulls the card 2 into the card holding section and delivers the card 2 from the card holding section, and a left and right card holder. and a rotating mechanism for rotating the card holder with the direction being the axial direction of rotation. The card holder is rotatably supported by the support shaft. A transport path along which the card 2 is transported is also formed inside the card holder.

Below the card supply unit 20, a first card collection box 5a is arranged. A second card collection box 5b is arranged below the card reader unit 40 . The first card collection box 5a and the second card collection box 5b are collectively referred to simply as the card collection box 5. As shown in FIG.

In the present embodiment, when the card holding portion of the card reversing unit 60 rotates, a first transport path along which the card 2 is transported from the card holding portion toward the card reader unit 40 and a first card collection box from the card holding portion. The transport path of the card 2 is switched between a second transport path in which the card 2 is transported toward 5a and a third transport path in which the card 2 is transported from the card holder toward the second card collection box 5b.

(Configuration of printing unit 30 and consumables 3)
Next, details of the configuration of the printing unit 30 and the consumables 3 will be described with reference to FIG.
FIG. 3A is a side view showing a state in which the printing unit 30 is removed from the main body.
3B is a perspective view showing an example in which the consumables 3 are removed from the printing unit 30. FIG. The ink ribbon cartridge of the consumables 3 includes a supply roll on which the ink ribbon is wound and a take-up roll on which the ink ribbon supplied from the supply roll is wound.
FIG. 3C is a perspective view showing the sticking position of the wireless tag 300. As shown in FIG. Although the substrate of the R/W antenna 320 of the printing unit 30 is provided at a fixed position, the wireless tag 300 is in the form of a sticker. ) can be used as a reference to check the communication status.

[Wireless tag characteristic adjustment processing]
Next, with reference to FIGS. 4 and 5, the wireless tag characteristic adjustment processing executed by the card issuing device 1 according to the embodiment of the present invention will be explained.
In the process of the present embodiment, the control unit 10 adjusts the characteristics of the receiving circuit when controlling communication with the consumables communication unit 31 .
In the wireless tag characteristic adjustment processing of this embodiment, the control unit 10 mainly executes a control program stored in a built-in recording medium in cooperation with each unit and using hardware resources.
The details of the wireless tag characteristic adjustment processing will be described step by step with reference to the flowchart of FIG.

(Step S101)
First, the control unit 10 performs gain value setting processing.
5A shows an example in which the control unit 10 sets the gain value N of the receiving amplifier as the setting value of the driver IC 310 of the consumable communication unit 31. FIG.
When setting for the first time, the control unit 10 uses the initial values stored in the storage unit. FIG. 5(a) shows the concept of the gain value N in the initial state. In this figure, the gain value N is described as a bias, but it may be a value such as the ratio of the gain (amplification) of the operational amplifier.
The control unit 10 sets the reset gain value N after resetting, which will be described later.

(Step S102)
Here, the control unit 10 performs threshold setting processing.
According to FIG. 5A, the controller 10 sets the threshold value M of the received signal as the setting value of the driver IC 310 of the consumable communication unit 31 . For this threshold value M, it is possible to use the set value of the filter constant of the signal received by the R/W antenna 320 or the like.
As the threshold value M, the control unit 10 uses the initial value stored in the storage unit when setting it for the first time, and uses the reset value after resetting, which will be described later.

(Step S103)
Next, the control unit 10 performs activation processing.
The control unit 10 starts communication with the wireless tag 300 of the consumables 3 via the consumables communication unit 31 . At this time, the control unit 10 transmits a command to execute the first activation. At this time, power is supplied to the wireless tag 300 via the R/W antenna 320 of the consumables communication unit 31, and a response signal indicating that the IC chip of the wireless tag 300 has been activated is returned. The control unit 10 reads this reply response signal.

(Step S104)
Next, the control unit 10 determines whether or not activation has been successful. The control unit 10 determines Yes when the wireless tag 300 is activated and the response signal is successfully read. Otherwise, the control unit 10 determines No.
In the case of Yes, the control unit 10 advances the process to step S105.
If No, the control unit 10 advances the process to step S106.

(Step S105)
If it can be activated, the control unit 10 performs read processing.
The control unit 10 communicates with the wireless tag 300 of the consumables 3 via the consumables communication unit 31 to perform processing such as confirmation of the remaining amount of the ink ribbon. Therefore, the control unit 10 may transmit a command to continue reading and obtain all necessary data in the wireless tag 300 . Furthermore, the control unit 10 may write data to the wireless tag 300 in the same manner.
After that, the control unit 10 ends the wireless tag characteristic adjustment processing.

(Step S106)
If the activation fails, the control unit 10 performs threshold increase processing.
According to FIG. 5B, the control unit 10 changes the threshold value M to adjust the characteristics of the receiving circuit. Specifically, the control unit 10 increases only the threshold value M by a specific percentage. By increasing the threshold value M in this way, it is possible to adjust the sensitivity and cut noise.

(Step S107)
Next, the control unit 10 determines whether or not the increased threshold value M is the maximum value. The control unit 10 determines Yes when the threshold value M is the maximum value. Otherwise, the control unit 10 determines No.
In the case of Yes, the control unit 10 advances the process to step S108.
In the case of No, the control unit 10 returns the process to step S102, and re-executes the readout process with the increased threshold while keeping the gain value N fixed. That is, at this time point, the gain value is temporarily fixed.

(Step S108)
When the threshold M is the maximum value, the control unit 10 performs gain value increase threshold reset processing.
The control unit 10 restores the threshold value M to the initial value, and then increases the gain value N by a specific ratio.

(Step S109)
Next, the control unit 10 determines whether or not the increased gain value N is the maximum value. The control unit 10 determines Yes when the gain value N is the maximum value. Otherwise, the control unit 10 determines No.
In the case of Yes, the control unit 10 advances the process to step S110.
In the case of No, the control unit 10 returns the process to step S101, sets the increased gain value N and the threshold value M returned to the initial value, and re-executes the activation process.

(Step S110)
If the gain value is the maximum value, the control unit 10 performs read failure processing.
The control unit 10 notifies the higher-level device that it could not communicate with the wireless tag 300 of the consumables 3 . As a result, the host device displays a warning that an ink ribbon or the like that is not genuine is used, and records the fact.
With the above, the wireless tag characteristic adjustment processing according to the embodiment of the present invention is completed.

[Main effects of the present embodiment]
By configuring as described above, the following effects can be obtained.
According to experiments conducted by the inventors of the present invention, communication characteristics became considerably unstable when a sticker of the wireless tag 300, which can be attached in the form of an inexpensive sticker, is used as the consumables 3 such as an ink ribbon. In other words, in order to perform communication similar to that of a non-contact type IC card, no improvement in communication characteristics was observed even when attempts were made to simply adjust circuits, communication timings, and the like. For this reason, unless the communication with the wireless tag 300 is repeated (retryed), data transmission/reception is not established. Since this retry is set as a special relief measure, it was necessary to configure so that the retry operation is basically not executed. In other words, in the communication with the wireless tag 300, the retry operation due to the cause of the communication failure was not permitted in terms of specifications.
The inventors of the present invention conducted extensive studies on this issue and found that communication failure between the R/W antenna 320 and the wireless tag 300 did not occur even if the matching characteristics of the R/W antenna 320 of the card issuing device 1 were improved. occurred and a retry was required. Further investigation of the cause revealed that erroneous detection of the response signal from the wireless tag 300 was a problem. That is, the problem was not the R/W antenna 320, but the signal quality of the wireless tag 300 being lower than that of the non-contact IC card.

On the other hand, a card issuing device 1 according to an embodiment of the present invention is a card issuing device 1 that issues a card 2, and includes a card communication unit 41 that performs short-range wireless communication with the card 2; The consumables communication unit 31 performs short-range wireless communication with the wireless tag 300 provided on the consumables 3 for issuing the card, and the control unit 10 performs communication control of the card communication unit 41 and the consumables communication unit 31. The control unit 10 is characterized by adjusting the characteristics of the receiving circuit when controlling communication with the consumables communication unit 31 .
By configuring in this way, even the wireless tag 300 of the consumables 3 having a signal quality lower than that of the non-contact type IC card can be reliably communicated. That is, since the signal of the wireless tag 300 tends to be noisy (lower in quality) than the signal of a normal non-contact type IC card, communication is possible by adjusting the characteristics of the receiving circuit by making it variable. Become. Specifically, if acquisition of a response signal to the first activation command fails when communicating with the wireless tag 300, the characteristics of the receiving circuit can be adjusted instead of a simple retry operation. , data can be transmitted and received without retrying.

In fact, according to experiments by the present inventors, conventional communication characteristics were such that retry operations were repeated with a probability of about 1/10. By improving the reception characteristics instead of the characteristics, the retry operation is completely unnecessary. Similar results were obtained in low-temperature and high-temperature tests on the temperature characteristics of the card issuing device 1 .

In addition, wireless tags 300 are more diverse than non-contact IC cards and have various shapes, so it was very difficult to imagine the media that will actually be used.
On the other hand, the card issuing device 1 of the present embodiment can perform communication by adjusting the characteristics of the receiving circuit during communication control even if a problem occurs in the communication characteristics. For this reason, transactions can be made without the user of the ATM or the like noticing a problem caused by a retry or the like, and security can also be improved.

Furthermore, the card issuing device 1 of the present embodiment can communicate with the noisy wireless tag 300 simply by adjusting the characteristics of the receiving circuit without changing the circuit or the position of the R/W antenna 320. becomes. For this reason, the reliability of communication is improved, the need for strict adjustment of the attachment position of the wireless tag 300 of the consumables 3 is eliminated, and the occurrence of defective products can be suppressed. As a result, costs can be reduced. Moreover, it becomes possible to communicate with various wireless tags 300 .

The card issuing device 1 of the present invention is characterized in that the receiving circuit includes a driver IC 410 for driving the card communication section 41 and a driver IC 310 for driving the consumables communication section 31 .
By configuring in this way, the driver IC 410 for driving the card communication unit 41 and the driver IC 310 for driving the consumables communication unit 31 can optimize processing for different characteristics. It becomes possible. For example, it is possible to adjust the characteristics of the receiving circuit only for the driver IC 310 for driving the consumables communication unit 31 . Therefore, the card 2, which is a non-contact type IC card, and the wireless tag 300 of the consumables 3 can reliably communicate with each other in an optimized state.

The card issuing device 1 of the present invention is characterized in that the control section 10 performs control to change the set value of the driver IC 310 for driving the consumables communication section 31 as the characteristic adjustment of the receiving circuit.
By configuring in this way, it is possible to communicate by changing the set value of the driver IC 310 each time, without the need to simply retry communication. Therefore, it is possible to prevent printing from being delayed due to the retry. Furthermore, by obtaining the setting values for a plurality of products, it is possible to calculate the optimum setting value range.

Conventionally, as described above, an inexpensive wireless tag 300 with a small amount of information to be transmitted and received and a small medium size has inferior signal characteristics compared to a non-contact type IC card (ISO 14443) using a similar communication method.
On the other hand, in the card issuing device 1 of the present invention, the set values of the driver IC 310 for driving the consumable communication unit 31 are the gain value of the receiving amplifier and the threshold value of the received signal, and the control unit 10 The gain value is once fixed, and then the threshold value is changed to adjust the characteristics of the receiving circuit.
With this configuration, the setting register of the driver IC 310 is used to change the gain of the receiving amplifier and the threshold value of the received signal in order to specifically change the receiving characteristics. As a result, it is possible to reliably communicate with the wireless tag 300 of the same communication method as the non-contact type IC card.

The card issuing device 1 of the present invention is characterized in that the control unit 10 cuts noise by increasing the threshold.
With this configuration, the threshold value of the received signal to be demodulated is increased to lower the sensitivity and cut noise, thereby making it easier to demodulate the signal from the wireless tag 300 . Therefore, it becomes possible to communicate with the wireless tag 300 for the consumables 3 more reliably.

[Other embodiments]
In the above-described embodiment, the example in which the lowest values of the threshold value M and the gain value N are set as the initial values has been described.
However, it is also possible to confirm the characteristics of the wireless tag 300 in advance and set the initial values. Furthermore, assuming changes in the wireless tag 300 or variations in characteristics due to lots, an optimum set value range corresponding to the characteristic margin may be set in advance. It is also possible to set an initial value corresponding to this optimum set value range. This makes it possible to communicate with the wireless tag 300 more reliably.
This optimum set value range may be set at the time of shipment from the factory or by a service person. Furthermore, a program for executing the initial value adjustment function may be stored in the recording medium of the control unit 10 and made executable.

Furthermore, in the above-described embodiment, an example in which the control unit 10 such as a CPU executes the characteristic adjustment has been described. However, it is also possible for a circuit to implement an equivalent function. Specifically, if the signal of the wireless tag 300 is noisy (dirty) even if sufficient power is supplied, this area is detected, and the gain value and threshold value are changed in the same manner as the setting values described above, and filtered. It is also possible to set a circuit to be deleted by That is, by varying the setting of the receiving circuit when responding (activating) with the wireless tag 300, communication can be reliably performed in the same manner as the above processing.
Furthermore, it is also possible to set a circuit that specifies a noise region by a frequency band and perform filtering, or to configure the control unit 10 to adjust characteristics and perform filtering.

In the above-described embodiment, an example in which the driver IC 310 of the consumables communication unit 31 and the driver IC 410 of the card communication unit 41 are included separately has been described. However, the driver IC 310 may be shared between the consumables communication unit 31 and the card communication unit 41 . Furthermore, a configuration is also possible in which the card communication unit 41 communicates with the wireless tag 300 . In this case, by separately providing the R/W antennas 320 for the consumables 3 and for the non-contact type IC card, it is possible to prevent interference.

In the above embodiment, an example of using an ink ribbon as the consumables 3 has been described. However, other consumables related to printing of the card 2 can be dealt with by the same configuration.

It goes without saying that the configuration and operation of the above-described embodiment are examples, and can be modified and executed without departing from the scope of the present invention.

1 Card Issuer 2 Card 3 Consumables 3a Ink Ribbon Cartridge 4a Card Issuing Slot 5 Card Collection Box 5a First Card Collection Box 5b Second Card Collection Box 10 Control Unit 20 Card Supply Unit 21 Card Sending Mechanism 30 Printing Unit 31 Consumption Product Communication Unit 32 Thermal Head 40 Card Reader Unit 41 Card Communication Unit 42 Magnetic Head 43 IC Contact Block 50 Card Transfer Unit 60 Card Reversing Unit 200 IC Chip 300 Wireless Tags 310, 410 Driver IC
320, 420 R/W Antenna

Claims (5)

A card issuing device for issuing cards,
a card communication unit that performs short-range wireless communication with the card;
a communication unit for consumables that performs short-range wireless communication with a wireless tag provided in the consumables for issuing the card;
a control unit that performs communication control of the card communication unit and the consumables communication unit;
The control unit adjusts characteristics of a receiving circuit when controlling communication with the consumables communication unit ,
If acquisition of a response signal to the first activation command fails, the characteristics of the receiving circuit are adjusted instead of a simple retry operation.
A card issuing device characterized by: The receiving circuit is
2. The card issuing device according to claim 1, further comprising a first driver IC for driving the card communication unit and a second driver IC for driving the consumables communication unit. The control unit
3. The card issuing device according to claim 2, wherein, as the characteristic adjustment of the receiving circuit, change control of the setting value of the second driver IC is performed. The setting values of the second driver IC are a gain value of a receiving amplifier and a threshold value of a received signal,
The control unit
4. The card issuing device according to claim 3, wherein the gain value is once fixed, and then the threshold value is changed to adjust the characteristics of the receiving circuit. The control unit
5. The card issuing device according to claim 4, wherein noise is cut by increasing the threshold.

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