JPWO2018003792A1 - Card reader - Google Patents

Abstract

  To provide a card reader to which an antenna and a control circuit for contactless communication can be added relatively easily. When performing non-contact communication with a card in the card reader 100, the first circuit board 3 provided with the non-contact communication antenna 30, the antenna circuit 31, and the non-contact communication control circuit 32 is used for non-contact communication. A magnetic demodulation circuit 33, a position detection circuit 34, and the like are provided, and a main control circuit 41 used for non-contact communication is provided on the second circuit board 4 different from the first circuit board 3. Even in this case, since contact communication and position detection using the magnetic head 5 are not performed when performing non-contact communication, the problem that non-contact communication hinders other functions is unlikely to occur.

Description

  The present invention relates to a card reader capable of recording or reproducing information without contact with a card-like medium.

  In recent years, a non-contact IC card in which an RF (Radio Frequency) IC chip and an antenna coil are embedded is becoming popular as a card-like medium (card). In such a non-contact IC card, a non-contact IC card provided in a card reader is becoming popular. Information is transmitted and received by contactless communication with the antenna for contact communication (see Patent Document 1).

JP 2010-256950 A

  In card readers, a non-contact communication function is often added in such a manner that a magnetic head or the like is added to a contact communication function for recording and reproducing information by contacting the card. In this case, since a circuit board on which a contact communication control circuit using a magnetic head or the like is configured is arranged, it is difficult to add a dedicated circuit board provided with a non-contact communication control circuit or the like. is there. Therefore, it is necessary to provide the circuit board provided with the contactless communication control circuit and the antenna in an empty space as a circuit block different from the control board configured with the contact communication control circuit. There is a problem that such an empty space does not exist depending on the model.

  In view of the above problems, an object of the present invention is to provide a card reader to which an antenna and a contactless communication control circuit can be added relatively easily.

  In order to solve the above problems, a card reader according to the present invention includes a first circuit board, a second circuit board facing the first circuit board, and between the first circuit board and the second circuit board. A medium path through which a card-shaped medium passes, and the first circuit board includes an antenna for non-contact communication, and an antenna circuit that performs the non-contact communication via the antenna, A control circuit for non-contact communication that modulates or demodulates a signal when performing the non-contact communication via the antenna, and at least one of circuits that are not used during the non-contact communication are provided, and the second circuit board is provided with Is provided with at least one of circuits used in the non-contact communication other than the antenna circuit and the non-contact communication control circuit.

  In the present invention, a circuit for non-contact communication and a circuit not used for non-contact communication are mixedly mounted on one circuit board. That is, at least one of the circuits that are not used during non-contact communication is provided on the first circuit board provided with the antenna for non-contact communication, the antenna circuit, and the control circuit for non-contact communication, and is separate from the first circuit board. The second circuit board is provided with at least one circuit used during non-contact communication. For this reason, it is not necessary to provide a circuit block different from the first circuit board and the second circuit board to provide an antenna, an antenna circuit, and a control circuit for non-contact communication for performing non-contact communication. Even when there is no empty space where an antenna circuit and a control circuit for non-contact communication can be added, the non-contact communication function can be provided relatively easily.

In this invention, it has a magnetic head which faces the said medium path from the said 1st circuit board side, and the said 1st circuit board carries out the demodulation of the signal detected by the said magnetic head as a circuit which is not used at the said non-contact communication. A mode in which a magnetic demodulation circuit to be performed is provided can be employed.
Since the magnetic demodulation circuit is an analog circuit, if it is provided near the antenna for non-contact communication, the antenna circuit for transmission / reception, and the control circuit for non-contact communication, it will be affected by electromagnetic induction during non-contact communication. When non-contact communication is performed, communication using the magnetic head is not performed between the card reader and the card-like medium, so that the problem that non-contact communication hinders communication using the magnetic head does not occur.

  In the present invention, the first circuit board may be a laminated board in which a plurality of layers including the layers constituting the antenna are laminated. According to this aspect, an antenna or the like can be provided on the first circuit board with a margin.

  In the present invention, in the first circuit board, the antenna circuit and the non-contact communication control circuit are provided in a region overlapping with the antenna formation region in which the antenna is formed in a plan view, and the periphery outside the antenna formation region A mode in which a circuit that is not used in the non-contact communication is provided in a region that overlaps the region in plan view can be employed. According to this aspect, since the antenna circuit and the non-contact communication control circuit can be collectively arranged in a narrow range, the non-contact communication circuit and the circuit not used for non-contact communication are mixedly mounted on the first circuit board. Suitable for doing. In addition, the influence of the antenna circuit and control circuit for non-contact communication on other circuits during non-contact communication, and the influence of the other circuit other than during non-contact communication on the antenna circuit and control circuit for non-contact communication are suppressed. Can do.

  In the present invention, when the first circuit board is viewed from the side opposite to the medium path, it is possible to adopt a mode in which the hue of the antenna formation region and the hue of the peripheral region are different. According to this aspect, since the antenna forming area is easily visible, when the card reader is mounted on a higher-level device such as an ATM device or a non-contact card IC card issuing machine, a component that is susceptible to electromagnetic induction is placed in the antenna forming area. Easy to avoid.

  In the present invention, an aspect may be adopted in which a layer having a hue different from the hue of the peripheral area is provided on the surface of the first circuit board opposite to the medium passage with respect to the antenna formation area. Good.

  In the present invention, a mode in which a conductive pattern is provided in a region that overlaps the antenna formation region in a plan view can be employed in the layer that is the farthest from the medium passage among the plurality of layers. According to this configuration, the antenna formation region can be shielded by the conductive pattern, so that the influence of disturbance can be suppressed.

  In the present invention, during the non-contact communication, signal input to a circuit that is not used during the non-contact communication is stopped, and during operation other than during the non-contact communication, a signal to the antenna circuit and the control circuit for non-contact communication is used. A mode of stopping input can be adopted. According to this aspect, the influence of the antenna circuit and the non-contact communication control circuit on the other circuit at the time of non-contact communication, and the other circuit other than the non-contact communication time from the other circuit to the antenna circuit and the non-contact communication control circuit. The influence can be prevented.

  In the present invention, a circuit for non-contact communication and a circuit not used for non-contact communication are mixedly mounted on one circuit board. That is, at least one of the circuits that are not used during non-contact communication is provided on the first circuit board provided with the antenna for non-contact communication, the antenna circuit, and the control circuit for non-contact communication, and is separate from the first circuit board. The second circuit board is provided with at least one circuit used during non-contact communication. For this reason, since it is not necessary to provide separate circuit blocks for the first circuit board and the second circuit board in order to provide an antenna for performing non-contact communication, an antenna circuit, and a control circuit for non-contact communication, the antenna, Even when there is no empty space where an antenna circuit and a control circuit for non-contact communication can be added, the non-contact communication function can be provided relatively easily.

It is the perspective view which looked at the card reader to which the present invention is applied from the second frame side. It is the perspective view which looked at the card reader shown in FIG. 1 from the 1st frame side. FIG. 2 is a perspective view when the space between the first frame and the second frame 2 is opened in the card reader shown in FIG. 1. It is explanatory drawing which shows the circuit structure of the card reader shown in FIG. It is explanatory drawing which shows typically the laminated structure of the 1st circuit board used for the card reader shown in FIG.

  DESCRIPTION OF EMBODIMENTS Embodiments for carrying out the present invention will be described with reference to the drawings. In the following description, the conveyance direction of a card-like medium (IC card, hereinafter simply referred to as “card”) is defined as the X direction (first direction), and the width direction orthogonal to the X direction is defined as the Y direction. (Second direction), and the X direction and the height direction orthogonal to the X direction will be described as the Z direction (third direction).

(overall structure)
FIG. 1 is a perspective view of a card reader 100 to which the present invention is applied as viewed from the second frame 2 side. FIG. 2 is a perspective view of the card reader 100 shown in FIG. 1 as viewed from the first frame 1 side. FIG. 3 is a perspective view when the space between the first frame 1 and the second frame 2 is opened in the card reader 100 shown in FIG.

  As shown in FIG. 1, FIG. 2 and FIG. 3, the card reader 100 has a first frame 1 and a second frame 2 arranged so as to overlap the first frame 1. An insertion slot 21 into which a card C (card-like medium) is inserted is configured at one end 20 in the X direction. In this embodiment, the insertion port 21 is made of a resin bezel 210 provided at one end 20 in the X direction of the second frame 2.

  In the present embodiment, the first frame 1 is conductive and the second frame 2 is insulative from the standpoint of EMC (Electro Magnetic Compatibility) countermeasures including static electricity described later. More specifically, the first frame 1 is made of a conductive resin in which a conductive filler is dispersed in the resin, and the second frame 2 is made of an insulating resin in which the conductive filler is not dispersed.

  A medium passage 10 extending in the X direction from the insertion port 21 is formed between the first frame 1 and the second frame 2. In the present embodiment, the first frame 1 is provided with a first partition plate 18 that constitutes one surface of the medium passage 10, and the back side of the first partition plate 18 (second with respect to the first partition plate 18). The first circuit board 3 is held on the opposite side of the frame 2. Further, the second frame 2 is provided with a second partition plate 28 that constitutes the other surface of the medium passage 10, and the back side of the second partition plate 28 (the first frame 1 with respect to the second partition plate 28). The second circuit board 4 is held on the opposite side. Therefore, the medium passage 10 is provided between the first circuit board 3 and the second circuit board 4. The first circuit board 3 and the second circuit board 4 are electrically connected by a flexible wiring board 120 provided on the side surface of the card reader 100.

  The first frame 1 is provided with a driven roller 15 exposed from the opening of the first partition plate 18 toward the medium passage 10, and the second frame 2 is provided with the medium passage 10 from the opening of the second partition plate 28. A drive roller 25 exposed toward the motor, a motor (not shown) for driving the drive roller 25, and a gear transmission mechanism 26 for transmitting the rotation of the motor to the drive roller 25 are provided. Accordingly, the drive roller 25, the motor, the gear transmission mechanism 26, and the driven roller 15 convey the card C inserted from the insertion port 21 toward the back of the card reader 100 in the medium path 10, and from the medium path 10 to the card C. Is configured to eject the card toward the insertion slot 21.

  In the card reader 100 of this embodiment, the second frame 2 is supported so as to be swingable with respect to the first frame 1 by a hinge mechanism 110 using a support shaft 115 provided at an end opposite to the insertion port 21. ing. Therefore, the state in which the first frame 1 and the second frame 2 are overlapped as shown in FIGS. 1 and 2, and the state in which the space between the first frame 1 and the second frame 2 is opened as shown in FIG. And can be switched.

  The first frame 1 includes an engaging portion 17, and the second frame 2 is engaged with the engaging portion 17 so as to maintain a state where the first frame 1 and the second frame 2 overlap each other. An engaging portion 27 is configured. In this embodiment, the engaging portion 17 is a convex portion protruding in a column shape toward the second frame 2, and the engaged portion 27 is a claw portion that fits into a hole formed in the engaging portion 17 and engages it. Consists of.

  In this embodiment, when the first frame 1 and the second frame 2 overlap the side surface 171 on the front surface side where the insertion port 21 is located in the engaging portion 17, a contact portion formed of an end portion of a conductive plate 9 described later. 95 is a surface to be abutted against.

(Detailed configuration of the card reader 100)
An optical position detector (not shown) is held on the second frame 2, and the position detector is a position of the card C traveling through the medium passage 10 through the opening of the second partition plate 28. Is detected. The position detector is mounted on the surface of the second circuit board 4 on the medium path 10 side.

  A pin-shaped contact 6 is held on the second frame 2, and the contact 6 is exposed from the opening of the second partition plate 28 toward the medium passage 10. The contact 6 transmits or receives a signal (information) by contact communication with the card C while in contact with an IC terminal (not shown) of the card C. The contact 6 is provided on the medium path 10 side of the second circuit board 4 and is electrically connected to the second circuit board 4.

  The light emitting element 7 is held at the end of the second frame 2 on the insertion port 21 side, and the light emitting element 7 blinks in conjunction with the operation of the card reader 100. Therefore, the user can visually recognize that the card C is moving by the light of the light emitting element 7 leaking from the insertion slot 21. The light emitting element 7 is mounted on the surface on the medium path 10 side at the end of the second circuit board 4 on the insertion port 21 side.

  On the second frame 2 side, a flexible wiring board 8 is connected from the second circuit board 4, and a connector 80 for performing contact communication between the card reader 100 and the contacts 6 is connected to the flexible wiring board 8. Is connected.

  A magnetic head 5 is held on the first frame 1, and the magnetic head 5 is exposed from the opening of the first partition plate 18 toward the medium passage 10. The magnetic head 5 transmits or receives a signal (information) by contact communication with the card C when the card C moves while a magnetic recording portion (not shown) of the card C is in contact. The magnetic head 5 is provided on the medium path 10 side of the first circuit board 3 and is electrically connected to the first circuit board 3.

  In this embodiment, the card C is configured as a non-contact IC card in which an antenna coil or the like is embedded. For this reason, the first frame 1 holds an antenna 30 for non-contact communication, and the antenna 30 transmits or receives a signal (information) to / from the card C by non-contact communication. In this embodiment, the antenna 30 is provided on the first circuit board 3.

(Circuit configuration of the card reader 100)
FIG. 4 is an explanatory diagram showing a circuit configuration of the card reader 100 shown in FIG. As shown in FIG. 4, the following circuit is configured on the first circuit board 3 and the second circuit board 4 used in the card reader 100.

  The second circuit board 4 includes a main control circuit 41 that controls the entire card reader 100, a motor drive circuit 42 that drives a motor for transporting the card C, a power supply circuit 43 that generates various power sources, a connector ( An external I / F circuit 44 is configured to transmit information between the card reader 100 and a higher-level device via a device (not shown). Further, the second circuit board 4 includes a contact communication control circuit 45 that performs control when performing contact communication with the card C through the contact 6, and the card C based on the information of the card C obtained through the contact 6. The SAM circuit 46 for performing the authentication and the LED driving circuit 47 for driving the light emitting element 7 are configured.

  An antenna 30 for non-contact communication is formed on the first circuit board 3, and an antenna circuit 31 that performs non-contact communication with the card C via the antenna 30 and non-contact communication via the antenna 30. In this case, a non-contact communication control circuit 32 for modulating or demodulating the signal is formed. The first circuit board 3 has a magnetic demodulation circuit 33 that modulates or demodulates a signal when performing contact communication with the card C via the magnetic head 5, and the position of the card C by an optical position detector. A position detection circuit 34 for detection is configured.

  Accordingly, the first circuit board 3 is provided with at least one of circuits that are not used when performing non-contact communication with the card C by the antenna 30, the antenna circuit 31, and the non-contact communication control circuit 32, and the second circuit board. 4 is provided with at least one of the circuits used in the non-contact communication other than the antenna circuit 31 and the non-contact communication control circuit 32. More specifically, among the circuits configured on the first circuit board 3, the magnetic demodulation circuit 33 and the position detection circuit 34 are connected to the card C by the antenna 30, the antenna circuit 31, and the non-contact communication control circuit 32. This circuit is not used when performing non-contact communication. Of the circuits configured on the second circuit board 4, the control circuit 41 is a circuit used when the antenna 30, the antenna circuit 31, and the contactless communication control circuit 32 perform contactless communication with the card C. It is.

  In this embodiment, during non-contact communication, signal input to circuits that are not used during non-contact communication (magnetic demodulation circuit 33, position detection circuit 34, contact communication control circuit 45, SAM circuit 46, and LED drive circuit 47) is stopped. Is done. Such signal input is stopped, for example, by switching the corresponding input port to the high impedance mode. Further, during operation other than during non-contact communication, signal input to the antenna circuit 31 and the non-contact communication control circuit 32 is stopped. Therefore, other circuits (magnetic demodulation circuit 33, position detection circuit 34, contact communication control circuit 45, SAM circuit 46, and LED drive circuit 47) from the antenna circuit 31 and the non-contact communication control circuit 32 during non-contact communication. From other circuits (magnetic demodulation circuit 33, position detection circuit 34, contact communication control circuit 45, SAM circuit 46, and LED drive circuit 47) other than during non-contact communication, antenna circuit 31 and non-contact communication The influence on the control circuit 32 can be prevented.

  The power supply circuit 43 includes a frequency band of power supplied to the antenna circuit 31 and the non-contact communication control circuit 32, and circuits that are not used during contact communication (the magnetic demodulation circuit 33, the position detection circuit 34, and the contact communication control circuit 45). , The frequency band of the power supplied to the SAM circuit 46 and the LED driving circuit 47) is different. Therefore, the antenna circuit 31 and the non-contact communication control circuit 32, and circuits that are not used at the time of contact communication (the magnetic demodulation circuit 33, the position detection circuit 34, the contact communication control circuit 45, the SAM circuit 46, and the LED drive circuit 47) Between the power sources can be suppressed.

(Laminated structure of first circuit board 3)
FIG. 5 is an explanatory diagram schematically showing a laminated structure of the first circuit board 3 used in the card reader 100 shown in FIG.

  As shown in FIG. 5, the first circuit board 3 is a laminated substrate in which a plurality of layers including layers constituting the antenna 30 are laminated. In the present embodiment, the first circuit board 3 is a laminated board in which four layers 3 a, 3 b, 3 c, 3 d including layers constituting the antenna 30 are laminated.

  In the first circuit board 3, the first layer 3 a from the medium path 10 is a layer on which electronic components constituting the antenna circuit 31, the non-contact communication control circuit 32, and the like are mounted. In this embodiment, the antenna circuit 31 and the non-contact communication control circuit 32 are arranged together in an antenna formation region 36 described later, and a magnetic demodulation circuit 33 and a position detection circuit 34 are provided in a peripheral region 37 outside the antenna formation region 36. Is provided.

  In the first circuit board 3, the second layer 3 b from the medium path 10 is a layer in which the antenna 30 is formed in a loop shape, and the antenna formation region 36 in which the antenna 30 is formed is formed on the first circuit board 3. In a plan view as viewed from the direction perpendicular to the substrate surface, the region overlaps with a region where the antenna circuit 31 and the non-contact communication control circuit 32 are formed.

  In the first circuit board 3, the third layer 3 c from the medium passage 10 is a layer in which wirings 310 and 320 for the electronic components formed in the first layer 3 a are formed. In the first circuit board 3, the fourth layer 3d from the medium passage 10 is a layer in which only through holes are formed.

  Here, when the first circuit board 3 is viewed from the side opposite to the medium passage 10, the hue of the antenna formation region 36 and the hue of the peripheral region 37 outside the antenna formation region 36 are different. In this embodiment, a layer 39 different from the hue of the peripheral region 37 is formed on the surface of the first circuit board 3 opposite to the medium passage 10 with respect to the antenna forming region 36. In this embodiment, the layer 39 is a coating layer 390 that is silk-printed on the surface of the first circuit board 3 opposite to the medium passage 10.

  Of the plurality of layers 3 a, 3 b, 3 c, 3 d of the first circuit board 3, a mode in which a conductive pattern is provided in the antenna formation region 36 is employed in the layer 3 d that is the furthest away from the medium passage 10. Also good. According to this configuration, the antenna formation region 36 can be shielded by the conductive pattern, so that the influence of disturbance can be suppressed. At this time, the conductive pattern is provided as a solid conductive pattern or a mesh-like conductive pattern. However, if a mesh-like conductive pattern is used, eddy current loss can be reduced. Therefore, the impedance can be increased. In this case, the hue of the antenna formation region 36 and the hue of the peripheral region 37 can be made different without providing the layer 39 on the first circuit board 3.

(Countermeasure against static electricity)
In the card reader 100 of this embodiment, when the card C is inserted into the insertion slot 21, if static electricity released from the hand enters the second circuit board 4, problems such as data corruption occur. Therefore, in this embodiment, as shown in FIGS. 1, 2 and 3, the first frame 1 is made conductive and the second frame 2 is made insulating, and the second frame 2 has an insertion port 21 and A conductive plate 9 is provided between the second circuit board 4 and the second circuit board 4. The conductive plate 9 is in contact with the first frame 1. For this reason, when the card C is inserted, static electricity discharged from the hand can be released via the first frame 1 via the conductive plate 9. More specifically, on the side surface of the first frame 1, if the convex portion 19 formed in the vicinity of the engaging portion 17 is connected to the chassis or the like of a higher-level device such as an ATM device or an automatic payment machine, Static electricity discharged from the hand can be released to the chassis or the like of the host device via the conductive plate 9 and the first frame 1. Accordingly, even if the second circuit board 4 is not provided with a static electricity suppression circuit, it is possible to suppress the static electricity that has entered from the insertion opening side from entering the circuit board, and thus the influence of static electricity can be suppressed. . In addition, since only the first frame 1 of the first frame 1 and the second frame 2 needs to be conductive, the cost can be reduced.

  The conductive plate 9 includes a belt-shaped flat plate portion 92 fixed to the end 20 on the insertion port 21 side of the second frame 2 by a screw 99 and an arm shape extending from the flat plate portion 92 to the first frame 1 side. The contact portion 95 is in contact with the first frame 1 when the first frame 1 and the second frame 2 overlap each other. For this reason, since it is not necessary to fix the conductive plate 9 provided in the second frame 2 to the first frame 1, the first frame 1 and the second frame 2 can be easily separated when performing maintenance or the like. Can do. Therefore, maintenance and the like are easy. Further, since the contact portion 95 is elastically in contact with the first frame 1 when the first frame 1 and the second frame 2 are overlapped, the conductive plate 9 can be brought into a state of reliably contacting the first frame 1. . Further, since the contact portion 95 is elastically in contact with the engaging portion 17 of the first frame 1 when the first frame 1 and the second frame 2 are overlapped, the conductive plate 9 is reliably in contact with the first frame 1. It can be. Furthermore, since the contact portion 95 is elastically in contact with the side surface of the engaging portion 17 (convex portion) protruding in a columnar shape toward the second frame 2, the contact portion 95 is somewhat between the engaging portion 17 and the engaged portion 27. Even if there is such play, the conductive plate 9 can be brought into contact with the first frame 1 with certainty.

(Main effects of this form)
As described above, in the card reader 100 of this embodiment, when performing contactless communication with the card C, a circuit for contactless communication and a plurality of circuits that are not used for contactless communication are mixedly mounted on one circuit board. is there. That is, a magnetic demodulation circuit 33 and a position detection circuit 34 that are not used during non-contact communication are provided on the first circuit board 3 provided with the antenna 30 for non-contact communication, the antenna circuit 31, and the control circuit 32 for non-contact communication. A second circuit board 4 that is provided and different from the first circuit board 3 is provided with a main control circuit 41 that is used during non-contact communication. For this reason, it is necessary to provide a circuit block different from the first circuit board 3 and the second circuit board 4 in order to provide the antenna 30, the antenna circuit 31, and the non-contact communication control circuit 32 for performing the non-contact communication. Absent. Therefore, even when there is no empty space where the antenna 30, the antenna circuit 31, and the contactless communication control circuit 32 can be added, the contactless communication function can be provided relatively easily.

  Further, since the magnetic demodulation circuit 33 is an analog circuit, if it is provided near the antenna 30, the transmission / reception antenna circuit 31, and the non-contact communication control circuit 32, it is affected by electromagnetic induction during non-contact communication. However, when performing non-contact communication, contact communication using the magnetic head 5 is not performed, so that the problem that non-contact communication interferes with contact communication using the magnetic head 5 does not occur.

  Further, since the first circuit board 3 is a laminated board in which a plurality of layers 3 a, 3 b, 3 c, 3 d including layers constituting the antenna 30 are laminated, it is necessary to provide the antenna 30 separately from the first circuit board 3. Absent. Further, since the first circuit board 3 is a laminated substrate, the length of the wiring pattern of the first circuit board 3 can be shortened. Therefore, generation of noise from the wiring pattern can be suppressed. Furthermore, since the shortest wiring pattern can be patterned on the first substrate 3, noise variation due to individual differences of the card reader 100 can be reduced as compared with the case where the antenna circuit 31 is connected as a separate module. It becomes possible.

  In the first circuit board 3, the antenna circuit 31 and the non-contact communication control circuit 32 are provided in a region overlapping the antenna formation region 36 in plan view, and the region overlapping the peripheral region 37 in plan view is used for non-contact communication. Circuits not used (magnetic demodulation circuit 33 and position detection circuit 34) are provided. For this reason, since the antenna circuit 31 and the non-contact communication control circuit 32 can be collectively arranged in a narrow range, a non-contact communication circuit and a circuit not used for non-contact communication are mixedly mounted on the first circuit board 3. Suitable for doing. Further, at the time of non-contact communication, the influence on the other circuits (the magnetic demodulation circuit 33 and the position detection circuit 34) from the antenna circuit 31 and the non-contact communication control circuit 32 can be suppressed. Further, during an operation other than during non-contact communication, the influence of the other circuits (the magnetic demodulation circuit 33 and the position detection circuit 34) on the antenna circuit 31 and the non-contact communication control circuit 32 can be suppressed.

  Further, when the first circuit board 3 is viewed from the side opposite to the medium path 10, the hue of the antenna formation region 36 and the hue of the peripheral region 37 are different. For this reason, since the antenna forming area 36 is easily visible, when a card reader is mounted on a higher-level device such as an ATM device or a non-contact card IC card issuing machine, a component that is susceptible to electromagnetic induction is used in the higher-level device. It is easy to avoid providing the antenna forming area 36.

(Other embodiments)
In the above embodiment, during non-contact communication, signal input to circuits that are not used during non-contact communication (magnetic demodulation circuit 33, position detection circuit 34, contact communication control circuit 45, SAM circuit 46, and LED drive circuit 47). However, the signal input to the magnetic demodulation circuit 33, the contact communication control circuit 45, and the SAM circuit 46 is stopped during the non-contact communication, and the signal input is continued for the position detection circuit 34 and the LED drive circuit 47. May be.

DESCRIPTION OF SYMBOLS 1 ... 1st frame, 2 ... 2nd frame, 3 ... 1st circuit board, 3a, 3b, 3c, 3d, 39 ... layer, 4 ... 2nd circuit board, 5 ... Magnetic head, 6 ... Contact, 7 ... Light emission Elements: 9 ... conductive plate, 10 ... medium passage, 17 ... engagement part, 18 ... first partition plate, 19 ... convex part, 20 ... end, 21 ... insertion port, 25 ... drive roller, 27 ... engaged 28 ... second partition plate, 30 ... antenna, 31 ... antenna circuit, 32 ... non-contact communication control circuit, 33 ... magnetic demodulation circuit, 34 ... position detection circuit, 36 ... antenna formation region, 37 ... peripheral region, DESCRIPTION OF SYMBOLS 39 ... Layer, 41 ... Control circuit, 42 ... Motor drive circuit, 43 ... Power supply circuit, 44 ... External I / F circuit, 45 ... Contact communication control circuit, 46 ... SAM circuit, 47 ... LED drive circuit, 95 ... Contact Part, 100 ... card reader, 110 ... hinge mechanism, 390 ... coating layer, ... card

Claims (8)

A first circuit board;
A second circuit board facing the first circuit board;
A medium passage configured between the first circuit board and the second circuit board, through which a card-like medium passes;
Have
The first circuit board includes an antenna for non-contact communication, an antenna circuit that performs the non-contact communication via the antenna, and a signal that is modulated or demodulated when the non-contact communication is performed via the antenna. A control circuit for performing non-contact communication and at least one of circuits not used during the non-contact communication are provided,
The card reader, wherein the second circuit board is provided with at least one of circuits used for the non-contact communication other than the antenna circuit and the non-contact communication control circuit. A magnetic head facing the medium path from the first circuit board side;
2. The card reader according to claim 1, wherein the first circuit board is provided with a magnetic demodulation circuit that demodulates a signal detected by the magnetic head as a circuit that is not used during the non-contact communication. .   The card reader according to claim 1, wherein the first circuit board is a laminated board in which a plurality of layers including layers constituting the antenna are laminated.   In the first circuit board, the antenna circuit and the non-contact communication control circuit are provided in a region overlapping the antenna formation region where the antenna is formed in a plan view, and a peripheral region outside the antenna formation region and a plan view 4. The card reader according to claim 3, wherein a circuit that is not used at the time of the non-contact communication is provided in a region overlapping each other.   5. The card reader according to claim 4, wherein when the first circuit board is viewed from the side opposite to the medium path, the hue of the antenna formation region and the hue of the peripheral region are different.   The layer of the hue different from the hue of the peripheral region is provided on the surface of the first circuit board opposite to the medium passage, with respect to the antenna formation region. Card reader.   7. The conductive pattern is provided in a region that overlaps the antenna formation region in a plan view in a layer that is farthest from the medium passage among the plurality of layers. The card reader according to item.   During the non-contact communication, signal input to a circuit that is not used during the non-contact communication is stopped, and during operation other than during the non-contact communication, signal input to the antenna circuit and the non-contact communication control circuit is stopped. The card reader according to any one of claims 1 to 7, characterized in that

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