CN204968164U - LED lamp control device - Google Patents

LED lamp control device Download PDF

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Publication number
CN204968164U
CN204968164U CN201520594255.5U CN201520594255U CN204968164U CN 204968164 U CN204968164 U CN 204968164U CN 201520594255 U CN201520594255 U CN 201520594255U CN 204968164 U CN204968164 U CN 204968164U
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CN
China
Prior art keywords
module
electric capacity
led
bluetooth
pins
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201520594255.5U
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Chinese (zh)
Inventor
李文斌
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Huizhou Chuangrongfa Industrial Co ltd
Original Assignee
Shenzhen C&D Electronics Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
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Priority to CN201520594255.5U priority Critical patent/CN204968164U/en
Application granted granted Critical
Publication of CN204968164U publication Critical patent/CN204968164U/en
Expired - Fee Related legal-status Critical Current
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B20/00Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
    • Y02B20/40Control techniques providing energy savings, e.g. smart controller or presence detection

Abstract

The utility model provides a LED lamp control device, include: power module, bluetooth module, 2.4G module, detection interface, LED drive circuit and LED lamp, power module is connected with bluetooth module and 2.4G module respectively, bluetooth module and 2.4G module are connected to the LED lamp through LED drive circuit respectively, the LED lamp is connected with power module, bluetooth module is connected with the 2.4G module through detecting the interface. The utility model discloses a bright the going out of bluetooth module and 2.4G module parallel control LED lamp after the user lights through the bluetooth function control LED lamp of cell -phone, both can also can be extinguish through 2.4G module control LED lamp through bluetooth module, can realize mutual control between bluetooth module and the 2.4G module, compatible good, the control process real -time sharing do not make mistakes.

Description

A kind of LED control device
Technical field
The utility model relates to a kind of control device, particularly relates to a kind of LED control device.
Background technology
Present LED, general is all controlled by Digiplex or the floatless switch installed on the wall, such control mode, all use same module to control unlatching or the closedown of LED, control mode is too single, wants to realize wireless remote control, just can only pass through Digiplex, and if Digiplex can't find, just the controlled in wireless to LED can not be realized.
Summary of the invention
Technical problem to be solved in the utility model be need to provide a kind of can simultaneously by the LED control device that bluetooth module and/or 2.4G module control LED, and compatible good, control procedure is not made mistakes.
To this, the utility model provides a kind of LED control device, comprise: power module, bluetooth module, 2.4G module, detection interface, LED drive circuit and LED, described power module is connected with 2.4G module with bluetooth module respectively, described bluetooth module and 2.4G module are connected to LED respectively by LED drive circuit, described LED is connected with power module, and described bluetooth module is connected with 2.4G module by detecting interface; Wherein, when described bluetooth module control LED enters operating state, signal is sent to described 2.4G module by detecting interface; When described 2.4G module controls LED enters operating state, send signal to described bluetooth module by detecting interface.
Further improvement of the utility model is, described bluetooth module comprises Bluetooth chip U25, Bluetooth antenna, inductance L 10, inductance L 11 and electric capacity C55, described Bluetooth antenna is respectively by inductance L 11 and electric capacity C55 ground connection, and described Bluetooth antenna is connected to Bluetooth chip U25 by inductance L 10.
Further improvement of the utility model is, described bluetooth module also comprises electric capacity C52, and described power module is connected with the VDD pin of Bluetooth chip U25, and by electric capacity C52 ground connection.
Further improvement of the utility model is, described bluetooth module also comprises crystal oscillator Z6, electric capacity C60 and electric capacity C61,34 pins of described Bluetooth chip U25 are connected with 3 pins with 1 pin of crystal oscillator Z6 respectively with 35 pins, 1 pin of described crystal oscillator Z6 is by electric capacity C60 ground connection, and 3 pins of described crystal oscillator Z6 are by electric capacity C61 ground connection.
Further improvement of the utility model is, described 2.4G module comprises 2.4G chip U23, serial line interface electrically-erasable memory U24 and electric capacity C49,10 pins of described 2.4G chip U23 are connected with 6 pins of serial line interface electrically-erasable memory U24, and 11 pins of described 2.4G chip U23 are connected with 5 pins of serial line interface electrically-erasable memory U24; The VCC pin of described serial line interface electrically-erasable memory U24 is connected with power module, and by electric capacity C49 ground connection.
Further improvement of the utility model is, described detection interface comprises resistance R39, and 22 pins of described Bluetooth chip U25 are connected with one end of resistance R39, and the other end of described resistance R39 is connected with 5 pins of 2.4G chip U23.
Further improvement of the utility model is, when bluetooth module control LED enters operating state, the signal that this control LED enters operating state is sent to described 2.4G module by resistance R39, now, if bluetooth module or 2.4G module send a new control signal, then control LED and enter closed condition, then wait for until bluetooth module or 2.4G module send a new control signal again then control LED rearming; When 2.4G module controls LED enters operating state, the signal that this control LED enters operating state is sent to described bluetooth module by resistance R39, now, if bluetooth module or 2.4G module send a new control signal, then control LED and enter closed condition, then wait for until bluetooth module or 2.4G module send a new control signal again then control LED rearming.
Further improvement of the utility model is, described 2.4G module also comprises 2.4G antenna, electric capacity C50, resistance R38 and electric capacity C45, described 2.4G antenna is connected with resistance R38 with electric capacity C50 respectively, described electric capacity C50 ground connection, described resistance R38 is connected with 1 pin of 2.4G chip U23 with electric capacity C45 respectively, described electric capacity C45 ground connection.
Further improvement of the utility model is, described 2.4G module also comprises resistance R37 and electric capacity C48, and 3 pins of described 2.4G chip U23 are connected with power module by resistance R37, and 3 pins of described 2.4G chip U23 are by electric capacity C48 ground connection.
Further improvement of the utility model is, described 2.4G module also comprises electric capacity C46 and electric capacity C47,8 pins of described 2.4G chip U23 are by electric capacity C47 ground connection, and 8 pins of described 2.4G chip U23 are connected with 3.3V power supply, and 16 pins of described 2.4G chip U23 are by electric capacity C46 ground connection.
Compared with prior art, the beneficial effects of the utility model are: using some pins of the 2.4G chip in the Bluetooth chip in bluetooth module and 2.4G module as detected state pin, the detected state pin of Bluetooth chip and the detected state pin of 2.4G chip link together by detecting interface by the utility model, like this, when described bluetooth module control LED enters operating state, signal can be sent to described 2.4G module to inform the state of now LED by detecting interface; When described 2.4G module controls LED enters operating state, signal can be sent to described bluetooth module to inform the state of now LED by detecting interface, and then achieve the light on and off of described bluetooth module and 2.4G modular concurrent control LED, after user is lighted by the Bluetooth function control LED of mobile phone, both also can be extinguished by 2.4G module controls LED by bluetooth module, mutual control can be realized between described bluetooth module and 2.4G module, compatible good, control procedure Real-Time Sharing is not made mistakes.
Accompanying drawing explanation
Fig. 1 is the structural representation of a kind of embodiment of the utility model;
Fig. 2 is the circuit diagram of a kind of embodiment of the utility model.
Embodiment
Below in conjunction with accompanying drawing, preferably embodiment of the present utility model is described in further detail.
As shown in Figure 1, this example provides a kind of LED control device, comprise: power module 1, bluetooth module 2,2.4G module 3, detection interface 4, LED drive circuit 5 and LED 6, described power module 1 is connected with 2.4G module 3 with bluetooth module 2 respectively, described bluetooth module 2 and 2.4G module 3 are connected to LED 6 respectively by LED drive circuit 5, described LED 6 is connected with power module 1, and described bluetooth module 2 is connected with 2.4G module 3 by detecting interface 4; Wherein, when described bluetooth module 2 control LED 6 enter operating state time, by detect interface 4 send this signal to described 2.4G module 3; When described 2.4G module 3 control LED 6 enter operating state time, by detect interface 4 send this signal to described bluetooth module 2.As depicted in figs. 1 and 2, described LED 6 can be single LED, also can be the LED string of multiple LED composition.
As shown in Figure 2, this routine described bluetooth module 2 comprises Bluetooth chip U25, Bluetooth antenna, inductance L 10, inductance L 11, electric capacity C55, electric capacity C52, crystal oscillator Z6, electric capacity C60 and electric capacity C61, described Bluetooth antenna is respectively by inductance L 11 and electric capacity C55 ground connection, and described Bluetooth antenna is connected to Bluetooth chip U25 by inductance L 10; Described power module 1 is connected with the VDD pin of Bluetooth chip U25, and by electric capacity C52 ground connection; 34 pins of described Bluetooth chip U25 are connected with 3 pins with 1 pin of crystal oscillator Z6 respectively with 35 pins, and 1 pin of described crystal oscillator Z6 is by electric capacity C60 ground connection, and 3 pins of described crystal oscillator Z6 are by electric capacity C61 ground connection.The VDD pin of described Bluetooth chip U25 is 13 pins, and 34 pins of described Bluetooth chip U25 and 35 pins are respectively XC2 pin and XC1 pin.
As shown in Figure 2, this routine described 2.4G module 3 comprises 2.4G chip U23, serial line interface electrically-erasable memory U24, electric capacity C49,2.4G antenna, electric capacity C50, resistance R38, electric capacity C45, resistance R37, electric capacity C48, electric capacity C46 and electric capacity C47; 10 pins of described 2.4G chip U23 are connected with 6 pins of serial line interface electrically-erasable memory U24, and 11 pins of described 2.4G chip U23 are connected with 5 pins of serial line interface electrically-erasable memory U24; The VCC pin of described serial line interface electrically-erasable memory U24 is connected with power module 1, and by electric capacity C49 ground connection; Described 2.4G antenna is connected with resistance R38 with electric capacity C50 respectively, described electric capacity C50 ground connection, and described resistance R38 is connected with 1 pin of 2.4G chip U23 with electric capacity C45 respectively, described electric capacity C45 ground connection; 3 pins of described 2.4G chip U23 are connected with power module 1 by resistance R37, and 3 pins of described 2.4G chip U23 are by electric capacity C48 ground connection; 8 pins of described 2.4G chip U23 are by electric capacity C47 ground connection, and 8 pins of described 2.4G chip U23 are connected with 3.3V power supply, and 16 pins of described 2.4G chip U23 are by electric capacity C46 ground connection.10 pins of described 2.4G chip U23 are PB1 pin, 6 pins of described serial line interface electrically-erasable memory U24 are PCO pin, 11 pins of described 2.4G chip U23 are PB3 pin, 5 pins of described serial line interface electrically-erasable memory U24 are PA7 pin, 1 pin of described 2.4G chip U23 is ANT pin, and 3 pins of described 2.4G chip U23,8 pins and 16 pins are VDD pin.
As shown in Figure 2, this routine described detection interface 4 comprises resistance R39, and 22 pins of described Bluetooth chip U25 are connected with one end of resistance R39, and the other end of described resistance R39 is connected with 5 pins of 2.4G chip U23.
This routine described bluetooth module 2 and 2.4G module 3 can receive or detect the signal of the other side mutually, and then avoid occurring mistake or incompatible situation to the control of LED 6, when described bluetooth module 2 control LED 6 enter operating state time, described bluetooth module 2 can send this signal to described 2.4G module 3, to inform the state of now LED 6 by detecting interface 4; When described 2.4G module 3 control LED 6 enter operating state time, described 2.4G module 3 can by detect interface 4 send this signal to described bluetooth module 2, to inform the state of now LED 6.
When bluetooth module 2 control LED 6 enter operating state time, the signal that this control LED 6 enters operating state is sent to described 2.4G module 3 by resistance R39, now, if bluetooth module 2 or 2.4G module 3 send a new control signal, then control LED 6 and enter closed condition, then wait for until bluetooth module 2 or 2.4G module 3 send a new control signal again then control LED 6 rearming; When 2.4G module 3 control LED 6 enter operating state time, the signal that this control LED 6 enters operating state is sent to described bluetooth module 2 by resistance R39, now, if bluetooth module 2 or 2.4G module 3 send a new control signal, then control LED 6 and enter closed condition, then wait for until bluetooth module 2 or 2.4G module 3 send a new control signal again then control LED 6 rearming.
The embodiment of the above is better embodiment of the present utility model; not limit concrete practical range of the present utility model with this; scope of the present utility model comprises and is not limited to this embodiment, and the equivalence change that all shapes according to the utility model, structure are done is all in protection range of the present utility model.

Claims (10)

1. a LED control device, it is characterized in that, comprise: power module, bluetooth module, 2.4G module, detection interface, LED drive circuit and LED, described power module is connected with 2.4G module with bluetooth module respectively, described bluetooth module and 2.4G module are connected to LED respectively by LED drive circuit, described LED is connected with power module, and described bluetooth module is connected with 2.4G module by detecting interface; Wherein, when described bluetooth module control LED enters operating state, signal is sent to described 2.4G module by detecting interface; When described 2.4G module controls LED enters operating state, send signal to described bluetooth module by detecting interface.
2. LED control device according to claim 1, it is characterized in that, described bluetooth module comprises Bluetooth chip U25, Bluetooth antenna, inductance L 10, inductance L 11 and electric capacity C55, described Bluetooth antenna is respectively by inductance L 11 and electric capacity C55 ground connection, and described Bluetooth antenna is connected to Bluetooth chip U25 by inductance L 10.
3. LED control device according to claim 2, is characterized in that, described bluetooth module also comprises electric capacity C52, and described power module is connected with the VDD pin of Bluetooth chip U25, and by electric capacity C52 ground connection.
4. LED control device according to claim 2, it is characterized in that, described bluetooth module also comprises crystal oscillator Z6, electric capacity C60 and electric capacity C61,34 pins of described Bluetooth chip U25 are connected with 3 pins with 1 pin of crystal oscillator Z6 respectively with 35 pins, 1 pin of described crystal oscillator Z6 is by electric capacity C60 ground connection, and 3 pins of described crystal oscillator Z6 are by electric capacity C61 ground connection.
5. the LED control device according to claim 2 to 4 any one, it is characterized in that, described 2.4G module comprises 2.4G chip U23, serial line interface electrically-erasable memory U24 and electric capacity C49,10 pins of described 2.4G chip U23 are connected with 6 pins of serial line interface electrically-erasable memory U24, and 11 pins of described 2.4G chip U23 are connected with 5 pins of serial line interface electrically-erasable memory U24; The VCC pin of described serial line interface electrically-erasable memory U24 is connected with power module, and by electric capacity C49 ground connection.
6. LED control device according to claim 5, it is characterized in that, described detection interface comprises resistance R39, and 22 pins of described Bluetooth chip U25 are connected with one end of resistance R39, and the other end of described resistance R39 is connected with 5 pins of 2.4G chip U23.
7. LED control device according to claim 6, it is characterized in that, when bluetooth module control LED enters operating state, the signal that this control LED enters operating state is sent to described 2.4G module by resistance R39, now, if bluetooth module or 2.4G module send a new control signal, then control LED and enter closed condition, then wait for until bluetooth module or 2.4G module send a new control signal again then control LED rearming; When 2.4G module controls LED enters operating state, the signal that this control LED enters operating state is sent to described bluetooth module by resistance R39, now, if bluetooth module or 2.4G module send a new control signal, then control LED and enter closed condition, then wait for until bluetooth module or 2.4G module send a new control signal again then control LED rearming.
8. LED control device according to claim 5, it is characterized in that, described 2.4G module also comprises 2.4G antenna, electric capacity C50, resistance R38 and electric capacity C45, described 2.4G antenna is connected with resistance R38 with electric capacity C50 respectively, described electric capacity C50 ground connection, described resistance R38 is connected with 1 pin of 2.4G chip U23 with electric capacity C45 respectively, described electric capacity C45 ground connection.
9. LED control device according to claim 8, it is characterized in that, described 2.4G module also comprises resistance R37 and electric capacity C48, and 3 pins of described 2.4G chip U23 are connected with power module by resistance R37, and 3 pins of described 2.4G chip U23 are by electric capacity C48 ground connection.
10. LED control device according to claim 8, it is characterized in that, described 2.4G module also comprises electric capacity C46 and electric capacity C47,8 pins of described 2.4G chip U23 are by electric capacity C47 ground connection, 8 pins of described 2.4G chip U23 are connected with 3.3V power supply, and 16 pins of described 2.4G chip U23 are by electric capacity C46 ground connection.
CN201520594255.5U 2015-08-03 2015-08-03 LED lamp control device Expired - Fee Related CN204968164U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520594255.5U CN204968164U (en) 2015-08-03 2015-08-03 LED lamp control device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520594255.5U CN204968164U (en) 2015-08-03 2015-08-03 LED lamp control device

Publications (1)

Publication Number Publication Date
CN204968164U true CN204968164U (en) 2016-01-13

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201520594255.5U Expired - Fee Related CN204968164U (en) 2015-08-03 2015-08-03 LED lamp control device

Country Status (1)

Country Link
CN (1) CN204968164U (en)

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Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
TR01 Transfer of patent right

Effective date of registration: 20170523

Address after: 516083 Guangdong city of Huizhou province Dayawan three Road West xiangshuihe Longhai sea science and Technology Industrial Park

Patentee after: HUIZHOU CHUANGRONGFA INDUSTRIAL Co.,Ltd.

Address before: 518000 Guangdong province Shenzhen city Longhua District Longhua Street Qing Xiang Lu Qing Hu Bao Industrial Park Science and Technology Park Block 9 A 9 full floor

Patentee before: SHENZHEN C&D ELECTRONICS Co.,Ltd.

TR01 Transfer of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20160113

Termination date: 20210803

CF01 Termination of patent right due to non-payment of annual fee