CN216697305U - Flash luminous intelligent card - Google Patents

Abstract

The utility model provides a flashing smart card, comprising: the intelligent card comprises an IC micro electronic device module and a flicker light-emitting control module, wherein the IC micro electronic device module comprises an IC chip and an IC antenna; the flicker lighting control module comprises a flicker lighting unit and a control unit; the flicker light-emitting unit is connected with the control unit, the control unit is connected with the IC chip, and the IC chip is connected with the IC antenna; and the control unit controls the flicker light-emitting unit to display the corresponding display state according to the read-write state of the IC micro electronic device module and/or the control unit according to the received control instruction. The intelligent card can realize the flicker and luminescence control module to flicker and luminesce according to the designed action, not only can enhance the aesthetic feeling and the interest of the intelligent card, but also can be suitable for different scenes and can prompt information to users.

Description

Flash luminous intelligent card

Technical Field

The utility model relates to the technical field of smart cards, in particular to a flashing smart card.

Background

The smart card, also called as IC card, smart card, microchip card, etc. is made up by embedding special integrated circuit chip in PVC (or ABS, pc, petg, etc.) plastic substrate in conformity with ISO7816 standard, and packaging it into card form whose external form is similar to magnetic card, also can be packaged into special form of button, key and ornament, etc.

The current smart card can realize data interaction with an RFID radio frequency card reader by adding an induction coil and a related wireless signal modulation circuit, and is called as an RFID smart card. The RFID smart card generally does not have a battery, works by depending on electromagnetic energy sent by a card reader, has a simple structure, is economical and practical, and is widely applied. Passive RFID smart cards use mainly 13.56MHz frequency.

However, the existing smart card does not have a light emitting function, and cannot realize the personalized requirements of the user or interact with the user.

Therefore, how to propose a solution to the above problems is a technical problem that needs to be solved by those skilled in the art at present.

SUMMERY OF THE UTILITY MODEL

The utility model provides a flashing intelligent card which has a flashing function, can meet the personalized requirements of users and can interact with the users.

The utility model provides a flash light-emitting intelligent card, which comprises an IC micro electronic device module and a flash light-emitting control module,

the IC micro electronic device module comprises an IC chip and an IC antenna;

the flicker lighting control module comprises a flicker lighting unit and a control unit;

the flicker light-emitting unit is connected with the control unit, the control unit is connected with the IC chip, and the IC chip is connected with the IC antenna;

and the control unit controls the flicker light-emitting unit to display the corresponding display state according to the read-write state of the IC micro electronic device module and/or the control unit according to the received control instruction.

Optionally, the flashing light emitting unit comprises a plurality of LED lamps,

the connection mode of the plurality of LED lamps comprises a plurality of LED lamps which are connected in series and a plurality of LED lamps which are connected in parallel;

the LED lamps are in a flickering light emitting mode, wherein the flickering light emitting mode comprises that the LED lamps alternately flicker and emit light, the LED lamps emit light simultaneously, and the LED lamps display any one of different colors.

In an alternative embodiment, the control unit is further configured to:

when the IC microelectronic device module is in a successful information reading state, the control unit controls the flicker light-emitting unit to display according to a first display state;

when the IC micro electronic device module is in a failure state of reading information, the control unit controls the flicker light-emitting unit to display according to a second display state;

when the IC microelectronic device module is in a state of writing information, the control unit controls the flicker light-emitting unit to display according to a third display state;

the first display state, the second display state and the third display state are different in display state, and the first display state, the second display state and the third display state comprise any one of a plurality of LED lamps which alternately flicker and emit light, a plurality of LED lamps which emit light simultaneously and a plurality of LED lamps which display different colors.

Optionally, the control instruction includes a first control instruction, where the first control instruction includes displaying a corresponding color according to a person attribute;

the control unit is further configured to:

controlling the flicker light-emitting unit to display the display color corresponding to the personnel attribute according to the personnel attribute and the corresponding relation between the preset personnel attribute and the display color;

the personnel attributes comprise a first level and a second level according to levels, the first level is a master level, the second level is a slave level, the display colors corresponding to the personnel attributes comprise a first color and a second color, the first color comprises red, and the second color comprises blue.

Optionally, the control instruction includes a second control instruction, where the second control instruction includes displaying a corresponding color according to a scene where the smart card is located;

the control unit is further configured to:

controlling the flicker lighting unit to display the display color corresponding to the scene where the intelligent card is located according to the scene where the intelligent card is located and the preset corresponding relation between the scene and the display color;

the scene of the smart card comprises a first scene and a second scene, the first scene comprises an entertainment place, the second scene comprises a workplace, the display color corresponding to the scene of the smart card comprises a third color and a fourth color, the third color comprises orange, and the fourth color comprises green.

Optionally, the smart card further includes a wireless connection unit, the wireless connection unit is configured to connect to an external device, the wireless connection unit is connected to the control unit, and the wireless connection unit is configured to transmit an external instruction of the external device to the control unit.

Optionally, the distribution manner of the IC microelectronic device module and the flicker light control module includes:

the IC microelectronic device module and the flicker light control module are located on the same plane, or

The IC micro-electronic device module and the flicker light control module are located on different planes.

Optionally, an antenna resistor is connected in parallel to two ends of the IC antenna, wherein the antenna resistor is used for reducing a load of the IC microelectronic device module.

The utility model provides a flash light-emitting intelligent card, which comprises an IC micro electronic device module and a flash light-emitting control module,

the IC micro electronic device module comprises an IC chip and an IC antenna;

the flicker lighting control module comprises a flicker lighting unit and a control unit;

the flicker light-emitting unit is connected with the control unit, the control unit is connected with the IC chip, and the IC chip is connected with the IC antenna;

and the control unit controls the flicker light-emitting unit to display the corresponding display state according to the read-write state of the IC micro electronic device module and/or the control unit according to the received control instruction.

The intelligent card can realize the flicker and luminescence control module to flicker and luminesce according to the designed action, not only can enhance the aesthetic feeling and the interest of the intelligent card, but also can be suitable for different scenes and can prompt information to users.

Drawings

FIG. 1 is a schematic diagram of a first structure of a flash smart card according to the present invention;

2.1-2.3 are schematic diagrams of the flicker light-emitting control circuit board of the utility model;

3.1-3.2 are schematic diagrams of a second structure of the flickering light-emitting smart card of the present invention;

FIG. 4 is a schematic diagram of an IC microelectronic device module of the present invention;

FIG. 5 is a schematic view of a flicker lighting control module according to the present invention;

FIG. 6 is a schematic diagram of a third structure of a flash smart card according to the present invention;

corresponding reference numerals are as follows:

1. the control circuit board is connected with a connecting contact at one end of the antenna; 2. an LED lamp; 3. a diode; 4. an LED lamp anode; 5. a capacitor; 6. the control circuit board is connected with the connecting contact at the other end of the antenna; 7. a control module; 8. an IC chip antenna; 9. controlling the circuit board antenna; 10. a flashing smart card housing; 11. a control circuit board; 12. a resistance; 13. an IC chip.

Detailed Description

The technical solution of the present invention will be described in detail below with specific examples. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments.

Fig. 1 schematically shows a first configuration of a blinking luminescent smart card according to the utility model, as shown in fig. 1, comprising:

an IC (Integrated Circuit Chip) microelectronic device module and a flash light control module,

the IC micro electronic device module comprises an IC chip and an IC antenna;

the flicker lighting control module comprises a flicker lighting unit and a control unit;

the flicker light-emitting unit is connected with the control unit, the control unit is connected with the IC chip, and the IC chip is connected with the IC antenna;

and the control unit controls the flicker light-emitting unit to display the corresponding display state according to the read-write state of the IC micro electronic device module and/or the control unit according to the received control instruction.

The intelligent card can realize the flicker and luminescence control module to flicker and luminesce according to the designed action, not only can enhance the aesthetic feeling and the interest of the intelligent card, but also can be suitable for different scenes and prompt information for users, and controls the flicker and luminescence unit to display the corresponding display state according to the read-write state of the IC micro electronic device module and/or the control unit according to the received control instruction.

In an alternative embodiment, the blinking light emitting unit comprises a plurality of LED lights,

the connection mode of the plurality of LED lamps comprises that the plurality of LED lamps are connected in series and the plurality of LED lamps are connected in parallel;

the LED lamps are in a flickering light emitting mode, wherein the flickering light emitting mode comprises that the LED lamps alternately flicker and emit light, the LED lamps emit light simultaneously, and the LED lamps display any one of different colors.

2.1-2.3 are schematic diagrams of the scintillation luminescence control circuit board of the utility model; as shown in fig. 2.1, the LED lamp can alternately flash and emit light; as shown in fig. 2.2, a plurality of LED lamps are connected in parallel to the same line, and by controlling the voltage, a plurality of LED lamps of the same circuit can be turned on together, and LED lamps on different lines can alternately flash and emit light; as shown in fig. 2.3, a plurality of LED lamps are connected in series to the same line, and by controlling the current, a plurality of LED lamps of the same circuit can be turned on together, and LED lamps on different lines can alternately flash and emit light.

In an optional embodiment, the control unit is further configured to:

when the IC microelectronic device module is in a successful information reading state, the control unit controls the flicker light-emitting unit to display according to a first display state;

when the IC micro electronic device module is in a failure state of reading information, the control unit controls the flicker light-emitting unit to display according to a second display state;

when the IC microelectronic device module is in a state of writing information, the control unit controls the flicker light-emitting unit to display according to a third display state;

the first display state, the second display state and the third display state are different in display state, and the first display state, the second display state and the third display state comprise any one of a plurality of LED lamps which alternately flicker and emit light, a plurality of LED lamps which emit light simultaneously and a plurality of LED lamps which display different colors.

Illustratively, when the flickering luminous smart card realizes data interaction with an RFID radio frequency card reader through an induction coil and a related wireless signal modulation circuit, information reading and writing are carried out,

when the IC microelectronic device module is in a state of successfully reading information, the control unit may control the blinking light-emitting unit to display according to a first display state, where the first display state may include a plurality of LEDs blinking and emitting alternately;

when the IC microelectronic device module is in a failure state of reading information, the control unit may control the blinking light emitting unit to display according to a second display state, where the second display state may include a plurality of LED lamps emitting light simultaneously;

when the IC microelectronic device module is in the information writing state, the control unit may control the blinking light emitting unit to display according to a third display state, where the third display state may include a plurality of LED lamps displaying different colors.

It should be noted that the state of the IC microelectronic device and the display state of the blinking light-emitting unit are only exemplary illustrations, and the disclosure does not limit the state of the IC microelectronic device and the display state of the blinking light-emitting unit.

The control unit controls the flicker light-emitting unit to display the corresponding display state according to the read-write state of the IC micro electronic device module, so that a user can know the state of the IC micro electronic device module according to the flicker light-emitting display state, the interaction with the user is realized through a simple mode, and the improvement of user experience is facilitated.

In an optional embodiment, the control unit is further configured to:

the control instruction comprises a first control instruction, wherein the first control instruction comprises displaying corresponding colors according to personnel attributes;

controlling the blinking light emitting unit to display the corresponding display state includes:

controlling the flicker light-emitting unit to display the display color corresponding to the personnel attribute according to the personnel attribute and the corresponding relation between the preset personnel attribute and the display color;

the personnel attributes comprise a first level and a second level according to levels, the first level is a master level, the second level is a slave level, the display colors corresponding to the personnel attributes comprise a first color and a second color, the first color comprises red, and the second color comprises blue.

Illustratively, the corresponding display state may be displayed according to the level of the person attribute. Specifically, the control unit may receive a control instruction, where the control instruction may be an externally input instruction, the control instruction may include a first instruction, the first instruction may include displaying a corresponding color according to a person attribute, the person attribute may include a first level and a second level, the first level may be a master level, the second level may be a slave level, a color corresponding to the master level may be red, and a color corresponding to the slave level may be blue.

By displaying different colors, the attributes of different persons can be shown, the mode is simple and the effect is obvious.

In an optional embodiment, the control unit is further configured to:

the control instruction comprises a second control instruction, wherein the second control instruction comprises displaying corresponding colors according to the scene where the smart card is located;

controlling the blinking light emitting unit to display the corresponding display state includes:

controlling the flicker lighting unit to display the display color corresponding to the scene where the intelligent card is located according to the scene where the intelligent card is located and the preset corresponding relation between the scene and the display color;

the scene of the smart card comprises a first scene and a second scene, the first scene comprises an entertainment place, the second scene comprises a workplace, the display color corresponding to the scene of the smart card comprises a third color and a fourth color, the third color comprises orange, and the fourth color comprises green.

Illustratively, the blinking light smart card of the disclosed embodiments may also be applied in different scenarios, which may include, but are not limited to, entertainment venues and workplaces. In particular, the orange may be displayed when the smart card is in an entertainment venue and the green may be displayed when the smart card is in a workplace. The scene where the intelligent card is located can be determined, and the flicker light-emitting unit can display corresponding colors by inputting a control command.

In an optional implementation manner, the smart card further includes a wireless connection unit, the wireless connection unit is configured to connect to an external device, the wireless connection unit is connected to the control unit, and the wireless connection unit is configured to transmit an external instruction of the external device to the control unit.

Illustratively, the smart card of the present disclosure may further include a wireless connection unit, wherein the wireless connection unit may connect an external device, such as a smart terminal (mobile phone), and transmit an external instruction of the external device to the control unit, that is, may control a display state of the smart card through the external device, so as to meet diversified needs of a user.

In an alternative embodiment, the distribution of the IC microelectronic device modules and the flicker light control modules comprises:

the IC microelectronic device module and the flicker light control module are located on the same plane, or

The IC micro-electronic device module and the flicker light control module are located on different planes.

3.1-3.2 are schematic diagrams of a second structure of the flickering light-emitting smart card of the present invention, as shown in fig. 3.1, the IC microelectronic device module and the flickering light-emitting control module are located on the same plane; as shown in fig. 3.2, the IC micro-electronics module and the flicker lighting control module are located in different planes.

By setting different distribution structures, the intelligent card can meet the process requirements of different manufacturers.

In an optional embodiment, an antenna resistor is connected in parallel to both ends of the IC antenna, wherein the antenna resistor is used to reduce a load of the IC microelectronic device module.

Fig. 4 is a schematic diagram of an IC microelectronic device module of the present invention. The IC microelectronic device module may include an IC chip antenna, an IC chip, and a blinking light emitting smart card housing.

Fig. 5 is a schematic diagram of the flicker light control module of the present invention, wherein the working principle of the flicker light control module is as follows:

when the flicker light control module is placed in a field intensity range of a reader-writer, alternating current can be generated in an antenna 9 of the flicker light control module, the alternating current is rectified into direct current after flowing into a diode 3, the direct current flows into a control module 7, the control module 7 is started, and the negative electrode of the control module 7 is connected to the antenna 9.

The positive poles of the LED lamps 2 are respectively connected to the positive poles of the control modules 7, the negative poles of the LED lamps 2 are connected to corresponding control pins of the control modules 7, and the LED lamps 2 on different lines can flicker and emit light through software programs in the control modules 7.

A capacitor is connected in parallel to the positive electrode and the negative electrode of the control module 7 to achieve the voltage stabilizing function and amplify current. The resistor 12 is connected in parallel at the two ends of the antenna 9, so that the load of the flicker light-emitting module antenna 9 can be reduced, the interference of the flicker control module to the IC module is reduced, and the operation standard of the IC module is met. The resistor can be adjusted according to antenna parameters, and can be cancelled according to the working condition of the smart card, which is not limited by the embodiment of the disclosure.

Fig. 6 is a schematic diagram of a third structure of the flashing light-emitting smart card of the present invention, and fig. 6 adds an IC chip on the basis of the embodiment corresponding to fig. 5, and specific contents may refer to the embodiment corresponding to fig. 5, which is not described herein again in this disclosure.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present disclosure, and not for limiting the same; while the present disclosure has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present disclosure.

Claims (5)

1. A flash smart card is characterized in that the smart card comprises an IC micro electronic device module and a flash light control module,

the IC micro electronic device module comprises an IC chip and an IC antenna;

the flicker lighting control module comprises a flicker lighting unit and a control unit;

the flicker light-emitting unit is connected with the control unit, the control unit is connected with the IC chip, and the IC chip is connected with the IC antenna;

and the control unit is used for controlling the flicker light-emitting unit to display the corresponding display state according to the read-write state of the IC micro electronic device module and/or the control unit according to the received control instruction.

2. The smart card of claim 1, wherein the flashing light emitting unit comprises a plurality of LED lights,

the connection mode of the plurality of LED lamps comprises that the plurality of LED lamps are connected in series and the plurality of LED lamps are connected in parallel;

the LED lamps are in a flickering light emitting mode, wherein the flickering light emitting mode comprises that the LED lamps alternately flicker and emit light, the LED lamps emit light simultaneously, and the LED lamps display any one of different colors.

3. The smart card according to claim 1, further comprising a wireless connection unit for connecting an external device, wherein the wireless connection unit is connected to the control unit, and wherein the wireless connection unit is configured to transmit an external command of the external device to the control unit.

4. The smart card of claim 1, wherein the IC microelectronic device module and the flash light control module are distributed in a manner comprising:

the IC microelectronic device module and the flicker light control module are located on the same plane, or

The IC micro-electronic device module and the flicker light control module are located on different planes.

5. The smart card of claim 1, wherein an antenna resistor is connected in parallel across the IC antenna, wherein the antenna resistor is configured to reduce a load on the IC microelectronic device module.

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