WO2017206719A1 - 一种蓝牙感应开关面板 - Google Patents
一种蓝牙感应开关面板 Download PDFInfo
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- WO2017206719A1 WO2017206719A1 PCT/CN2017/084873 CN2017084873W WO2017206719A1 WO 2017206719 A1 WO2017206719 A1 WO 2017206719A1 CN 2017084873 W CN2017084873 W CN 2017084873W WO 2017206719 A1 WO2017206719 A1 WO 2017206719A1
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- bluetooth
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Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/10—Controlling the intensity of the light
- H05B45/12—Controlling the intensity of the light using optical feedback
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/175—Controlling the light source by remote control
- H05B47/19—Controlling the light source by remote control via wireless transmission
-
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
Definitions
- the present invention relates to the field of Bluetooth luminaires, and in particular, to a Bluetooth proximity switch panel.
- An object of the present invention is to provide a Bluetooth inductive barrier panel, which solves the problem that the lighting fixture in the prior art is difficult to realize remote diversification operation, and there is a technical bottleneck in the lighting function and the Bluetooth communication function collection.
- the present invention provides a Bluetooth proximity sensor panel, including:
- a Bluetooth inductive MEMS module for sensing the movement of surrounding objects via Bluetooth and/or receiving an external control signal via Bluetooth, coupled to the control module;
- a Bluetooth control circuit for controlling the switching of the lighting component, coupled to the control module; wherein the Bluetooth control circuit includes a relay for controlling the lighting component to be turned off, the relay being coupled to the lighting component.
- the method further includes:
- a power drive module for connecting to the mains and providing direct current, coupled to the relay;
- a Bluetooth power supply module for stepping down the DC power of the power drive module is coupled to the power drive module and the Bluetooth control circuit.
- the switch housing assembly includes a bottom case, a Bluetooth control panel, and a face shell;
- the bottom case is fastened to the rear side of the face shell to form a receiving cavity, and the Bluetooth gate control panel is disposed in the receiving cavity;
- control module the Bluetooth inductive mesh module and the Bluetooth control circuit are disposed in the Bluetooth gateway control board.
- the Bluetooth control circuit further includes:
- a Bluetooth module socket is coupled to a plurality of pins of the control module, and coupled to a Bluetooth power supply module;
- MOS transistor the MOS transistor being coupled to the Bluetooth module socket and the relay.
- the method further includes:
- the radio frequency module is coupled to the control module.
- the radio frequency module includes:
- a radio frequency circuit coupled to the control module
- an RF antenna coupled to the RF circuit.
- the power drive module includes:
- a rectifier circuit coupled to the alternating current input terminal
- a DC output circuit coupled to the drive control circuit.
- the Bluetooth power supply module includes:
- a linear buck circuit coupled to the DC output circuit
- a Bluetooth filter circuit coupled to the linear buck circuit and the Bluetooth control circuit.
- the beneficial effects of the present invention are that the wireless remote control technology realizes the power of the remote adjustment of the light, facilitates people's life, and increases the diversification and interest of the smart home lighting.
- FIG. 1 is a block diagram of a Bluetooth induction switch panel provided by the present invention.
- FIG. 2 is a schematic diagram of connection of a control module provided by the present invention.
- FIG. 3 is a schematic structural diagram of a Bluetooth control circuit provided by the present invention.
- FIG. 4 is a schematic structural diagram of a power supply driving module provided by the present invention.
- FIG. 5 is a schematic structural diagram of a Bluetooth power supply module according to the present invention.
- FIG. 6 is a schematic structural view of a shut-off housing assembly provided by the present invention.
- the present invention provides a Bluetooth proximity sensor panel 100, which aims to realize free networking by using Bluetooth mesh control technology in the Bluetooth sensor panel 100, using a terminal intelligent controller, a remote controller, etc.
- the ability to remotely control functions such as fixed and critical functions to meet different needs, with strong operability and good experience.
- FIG. 1 is a block diagram of a Bluetooth proximity sensor panel 100, which includes a switch housing component 1, a control module 2, and a Bluetooth sensor mesh module. , a Bluetooth control circuit 5, a power drive module 6, a Bluetooth power supply module 7, and a radio frequency module 8.
- control module 2 is disposed inside the shutoff housing assembly 1;
- a Bluetooth inductive mesh module 3 for sensing the movement of surrounding objects by Bluetooth and/or receiving an external control signal, coupled to the control module 2, the Bluetooth inductive mesh module 3 being disposed on the switch housing assembly The surface of 1; for example, when someone walks through, the Bluetooth-sensing mesh module 3 generates a Bluetooth-sensing signal, thereby automatically controlling the heuristic component 4, and vice versa. Or receiving control signals from an external handset to control the lighting components.
- a Bluetooth control circuit 5 for controlling the switching of the light-emitting component 4 via the relay 53 is coupled to the control mode Block 2 and the light-emitting component 4.
- the Bluetooth control circuit 5 controls the turning on and off of the light emitting unit 4 based on the Bluetooth sensing signal or a control signal sent from the mobile terminal.
- a power supply driving module 6, for connecting to the mains and providing direct current, is coupled to the relay 53;
- a Bluetooth power supply module 7 for stepping down the DC power of the power drive module 6 is coupled to the power supply drive module 6 and the Bluetooth control circuit 5.
- the radio frequency module 8 is coupled to the control module 2.
- FIG. 2 is a schematic diagram of the connection of the control module 2 provided by the present invention.
- the control module 2 includes eight output pins and is connected to the RF module 8 and the Bluetooth inductive mesh module 3.
- Control module 2 preferably has a built-in 16KB capacity data memory (SRAM) embedded in a 32-bit high-performance MCU with a maximum 48MHZ chirp signal.
- SRAM 16KB capacity data memory
- the powerful storage function provides enough capacity to write control programs for a wide variety of control functions.
- the radio frequency module 8 includes a radio frequency circuit 81 and a radio frequency antenna 82.
- a radio frequency circuit 81 is coupled to the control module 2; a radio frequency antenna 82 is coupled to the radio frequency circuit 81.
- FIG. 3 is a schematic structural diagram of a Bluetooth control circuit 5 according to the present invention.
- the Bluetooth control circuit 5 includes a Bluetooth module socket 51, a MOS tube 52, and a relay 53.
- the Bluetooth module socket 51 is coupled to the plurality of pins of the control module 2 and coupled to the Bluetooth power supply module 7; preferably, the Bluetooth module socket 51 also includes 8 terminals, which are respectively connected to the control module 2 8 pins, of which the terminal block 7 of the Bluetooth module socket 51 is also connected to the Bluetooth power supply module 7 to access +3.3
- One end of the MOS transistor 52 is coupled to the terminal of the Bluetooth module socket 51, and the MOS transistor 52 is Q1 as shown in FIG.
- the other end of the MOS transistor 52 is coupled to the relay 53, and the relay 53 is connected between the alternating current and the light-emitting component 4 to control the switching of the light-emitting component 4, that is, the light-emitting component 4 is directly powered by alternating current (AC).
- AC alternating current
- the circuit function of the Bluetooth control circuit 5 is: After the Bluetooth control circuit 5 is working, the internal MCU (ie, the control module 2) receives the instruction of the intelligent terminal device, and controls the shutdown of the MOS by the output control signal. The turn-on turns, and the drain of this MOS transistor is connected to the cathode of the LED load (ie, MOS transistor 52). The anode of the LED is directly connected to the output positive pole of the power drive module 6.
- the Bluetooth module controls the working state of the LED lamp by receiving an instruction of the smart terminal device, thereby controlling the output LED to be turned off, and implementing the lamp ( That is, the MOS tube 52) is critical.
- FIG. 4 is a schematic structural diagram of a power driving module 6 according to the present invention.
- the power driving module 6 includes an AC input terminal 61, a rectifier circuit 62, a power supply filter circuit 63, a drive control circuit 64, and a DC output. Circuit 65.
- the AC input terminal 61 is used to access 200-240V mains.
- a rectifier circuit 62 is coupled to the AC input terminal 61.
- a power supply filter circuit 63 is coupled to the rectifier circuit 62.
- a drive control circuit 64 is coupled to the power supply filter circuit 63.
- a DC output circuit 65 is coupled to the drive control circuit 64.
- U1 in the drive control circuit 64 is an isolated packaged LED drive control IC of the integrated package, model number is FT838MBD
- the circuit consisting of a stable voltage and current output for the post-stage circuit (ie, the DC output circuit 65).
- the detailed working process is that after the entire power supply is turned on AC (AC) 220V mains, it is rectified by the bridge DB 1 (ie, the rectifying circuit 62), and then ⁇ -type filtering composed of Cl, C2, L1 (ie, the power supply filter circuit 63) Since the driving control circuit 64 integrates the internal control tube, the logic circuit inside the driving control circuit 64 controls the conduction and closing of the bypass tube, the transformer realizes the conversion of electromagnetic energy, and the stable voltage and current are realized by the control of the driving control circuit 64. Output.
- FIG. 5 is a schematic structural diagram of a Bluetooth power supply module 7 according to the present invention.
- the Bluetooth power supply module 7 includes a linear buck circuit 71 and a Bluetooth filter circuit 72.
- a linear buck circuit 71 is coupled to the DC output circuit 65 to access the +12 V voltage.
- a Bluetooth filter circuit 72 is coupled to the Bluetooth control circuit 5 to output a voltage of +3.3V.
- the U2 model of the linear buck circuit 71 is LY7633, and the linear buck circuit 71 is a typical linear buck circuit, which functions to depress the 12V voltage output from the power drive module 6 to a constant 3.3V voltage.
- the approximate workflow of the circuit is as follows: When U2's 3 pin is powered on, U2 starts to work normally, then outputs 3.3V voltage through 1 pin, and C10 electrolytic capacitor filters.
- FIG. 6 is a schematic structural view of a shut-off housing assembly 1 according to the present invention.
- the bypass housing assembly 1 includes a bottom housing 11, a Bluetooth switch control panel 12, and a face shell 13.
- the bottom case 11 is fastened to the rear side of the face shell 13 to form a receiving cavity, and the Bluetooth gate control panel 12 is disposed in the receiving cavity.
- the control module 2, the Bluetooth inductive mesh module 3, and the Bluetooth control circuit 5 are disposed in the Bluetooth gateway control board 12.
- the one or operations may constitute computer readable instructions stored on a computer readable medium that, when executed by an electronic device, will cause the computing device to perform the operations.
- the order in which some or all of the operations are described should not be construed as implying that the operations must be sequential. Those skilled in the art will appreciate alternative rankings that have the benefit of this specification. Moreover, it should be understood that not all operations must be present in every embodiment provided herein.
- the word "preferred” as used herein is intended to serve as an example, instance, or illustration. Any aspect or design described as “preferred” by the text is not necessarily to be construed as being more advantageous than other aspects or designs. Instead, the use of the word “preferred” is intended to present concepts in a specific manner.
- the term “or” as used in this application is intended to mean “or” or “exclud”. That is, “X uses A or B” means naturally including any one of the permutations unless otherwise specified or clear from the context. That is, if X uses A; X uses B; or X uses both A and B, then "X uses A or B" is satisfied in any of the preceding examples.
- Each functional unit in the embodiment of the present invention may be integrated into one processing module, or each unit may exist physically separately, or two or more units may be integrated into one module.
- the above integrated modules can be implemented in the form of hardware or in the form of software functional modules.
- the set A module can be stored in a computer readable storage medium if it is implemented as a software function module and sold or used as a standalone product.
- the above-mentioned storage medium may be a read only memory, a magnetic disk or an optical disk or the like.
- Each of the above described devices or systems may perform the methods of the corresponding method embodiments.
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- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Circuit Arrangement For Electric Light Sources In General (AREA)
Abstract
一种蓝牙感应开关面板(100),包括:开关壳体组件(1);控制模块(2),设置于所述开关壳体组件(1)的内部;用于通过蓝牙感应周围物体的移动的蓝牙感应mesh模块(3),耦合至所述控制模块(2),所述蓝牙感应mesh模块(3)设置于所述开关壳体组件(1)的表面;以及用于控制发光部件(4)的开关的蓝牙控制电路(5),耦合至所述控制模块(2),其中所述蓝牙控制电路(5)包括用于控制所述发光部件(4)开关的继电器(53),所述继电器(53)耦合至所述发光部件(4)。所述蓝牙感应开关面板(100)通过蓝牙无线控制技术实现灯远程调节亮灭的功能,方便人们生活,增加智能家居照明的多样化和情趣化。
Description
一种蓝牙感应幵关面板
技术领域
[0001] 本发明涉及蓝牙灯具技术领域, 尤其涉及一种蓝牙感应幵关面板。
背景技术
[0002] 随着 LED技术的普及, 越来越多的 LED照明灯具进入到人们的生活中。 目前 市场上的无线调光灯几乎都是无线射频控制技术, 这种控制技术抗干扰能力弱 , 组网不便, 可靠性一般, 不能实现幵关和定吋等功能。 而且现有技术中, 将 灯的照明功能及其幵关功能与蓝牙通讯功能集合一直存在技术瓶颈。
技术问题
[0003] 本发明的目的在于提供一种蓝牙感应幵关面板, 解决现有技术中照明灯具难以 实现远程多样化操作, 照明功能与蓝牙通讯功能集合存在技术瓶颈的问题。 问题的解决方案
技术解决方案
[0004] 本发明的技术方案实现如下:
[0005] 本发明提供一种蓝牙感应幵关面板, 包括:
[0006] 幵关壳体组件;
[0007] 控制模块, 设置于所述幵关壳体组件的内部;
[0008] 用于通过蓝牙感应周围物体移动和 /或通过蓝牙接收外部控制信号的蓝牙感应 m esh模块, 耦合至所述控制模块; 以及
[0009] 用于控制发光部件的幵关的蓝牙控制电路, 耦合至所述控制模块; 其中所述蓝 牙控制电路包括用于控制所述发光部件幵关的继电器, 所述继电器耦合至所述 发光部件。
[0010] 在本发明所述的蓝牙感应幵关面板中, 还包括:
[0011] 用于接入市电并提供直流电的电源驱动模块, 耦合至所述继电器;
[0012] 用于对所述电源驱动模块的直流电进行降压的蓝牙供电模块, 耦合至所述电源 驱动模块及所述蓝牙控制电路。
[0013] 在本发明所述的蓝牙感应幵关面板中, 所述幵关壳体组件包括底壳、 蓝牙幵关 控制板以及面壳; 其中:
[0014] 所述底壳扣合于所述面壳后侧以形成一容纳腔, 所述蓝牙幵关控制板设置在所 述容纳腔之中;
[0015] 所述控制模块、 蓝牙感应 mesh模块及蓝牙控制电路设置于所述蓝牙幵关控制板 内。
[0016] 在本发明所述的蓝牙感应幵关面板中, 所述蓝牙控制电路还包括:
[0017] 蓝牙模块插座, 所述蓝牙模块插座耦合至所述控制模块的多个引脚, 并耦合至 蓝牙供电模块;
[0018] MOS管, 所述 MOS管耦合至所述蓝牙模块插座以及所述继电器。
[0019] 在本发明所述的蓝牙感应幵关面板中, 还包括:
[0020] 射频模组, 所述射频模组耦合至所述控制模块。
[0021] 在本发明所述的蓝牙感应幵关面板中, 所述射频模组包括:
[0022] 射频电路, 耦合至所述控制模块;
[0023] 射频天线, 耦合至所述射频电路。
[0024] 在本发明所述的蓝牙感应幵关面板中, 所述电源驱动模块包括:
[0025] 用于接入市电的交流输入端;
[0026] 整流电路, 耦合至所述交流输入端;
[0027] 电源滤波电路, 耦合至所述整流模块;
[0028] 驱动控制电路, 耦合至所述电源滤波电路;
[0029] 直流输出电路, 耦合至所述驱动控制电路。
[0030] 在本发明所述的蓝牙感应幵关面板中, 所述蓝牙供电模块包括:
[0031] 线性降压电路, 耦合至所述直流输出电路;
[0032] 蓝牙滤波电路, 耦合至所述线性降压电路及所述蓝牙控制电路。
发明的有益效果
有益效果
[0033] 因此, 本发明的有益效果是, 通过蓝牙无线控制技术实现灯远程调节亮灭的功 育 , 方便人们生活, 增加智能家居照明的多样化和情趣化。
对附图的简要说明
附图说明
[0034] 下面将结合附图及实施例对本发明作进一步说明, 附图中:
[0035] 图 1为本发明提供的一种蓝牙感应幵关面板的模块框图;
[0036] 图 2为本发明提供的控制模块的连接示意图;
[0037] 图 3为本发明提供的蓝牙控制电路的结构示意图;
[0038] 图 4为本发明提供的电源驱动模块的结构示意图;
[0039] 图 5为本发明提供的蓝牙供电模块的结构示意图;
[0040] 图 6为本发明提供的幵关壳体组件的结构示意图。
本发明的实施方式
[0041] 为了对本发明的技术特征、 目的和效果有更加清楚的理解, 以下将对照附图详 细说明本发明的具体实施方式。 应当理解, 以下说明仅为本发明实施例的具体 阐述, 不应以此限制本发明的保护范围。
[0042] 本发明提供一种蓝牙感应幵关面板 100, 其目的在于, 通过蓝牙感应幵关面板 1 00中采用蓝牙 mesh控制技术, 实现能够自由组网, 采用终端智能控制器、 遥控 器等就能够远程控制定吋及幵关等功能, 满足不同需求的使用人群, 操作性强 , 体验性好。
[0043] 参见图 1, 图 1为本发明提供的一种蓝牙感应幵关面板 100的模块框图, 该蓝牙 感应幵关面板 100包括幵关壳体组件 1、 控制模块 2、 蓝牙感应 mesh模块 3、 蓝牙 控制电路 5、 电源驱动模块 6、 蓝牙供电模块 7以及射频模组 8。
[0044] 控制模块 2设置于所述幵关壳体组件 1的内部;
[0045] 用于通过蓝牙感应周围物体移动和 /或接收外部的控制信号的蓝牙感应 mesh模 块 3, 耦合至所述控制模块 2, 所述蓝牙感应 mesh模块 3设置于所述幵关壳体组件 1的表面; 例如, 当有人走过吋, 蓝牙感应 mesh模块 3产生蓝牙感应信号, 从而 自动控制幵启发光部件 4, 反之关闭。 或者接收外部手机的控制信号实现对发光 部件的控制。
[0046] 用于通过继电器 53控制发光部件 4的幵关的蓝牙控制电路 5, 耦合至所述控制模
块 2以及所述发光部件 4。 蓝牙控制电路 5根据蓝牙感应信号或者移动终端所发来 的控制信号控制发光部件 4的幵启与关闭。
[0047] 用于接入市电并为提供直流电的电源驱动模块 6, 耦合至继电器 53;
[0048] 用于对所述电源驱动模块 6的直流电进行降压的蓝牙供电模块 7, 耦合至所述电 源驱动模块 6及所述蓝牙控制电路 5。
[0049] 所述射频模组 8耦合至所述控制模块 2。
[0050] 参见图 2, 图 2为本发明提供的控制模块 2的连接示意图, 控制模块 2包括 8个输 出引脚, 并连接至射频模组 8及蓝牙感应 mesh模块 3。 控制模块 2优选内置 16KB 容量的数据存储器 (SRAM) , 嵌入 32位高性能 MCU与最大 48MHZ的吋钟信号
, 强大的存储功能能够提供足够的容量写入控制程序, 实现丰富多样的控制功 能。
[0051] 所述射频模组 8包括射频电路 81及射频天线 82。 射频电路 81耦合至所述控制模 块 2; 射频天线 82耦合至所述射频电路 81。
[0052] 参见图 3, 图 3为本发明提供的蓝牙控制电路 5的结构示意图, 所述蓝牙控制电 路 5包括蓝牙模块插座 51、 MOS管 52及继电器 53。
[0053] 所述蓝牙模块插座 51耦合至所述控制模块 2的多个引脚, 并耦合至蓝牙供电模 块 7; 优选的, 蓝牙模块插座 51也包括 8个接线端子, 分别连接至控制模块 2的 8 个引脚, 其中, 蓝牙模块插座 51的接线端子 7还连接至蓝牙供电模块 7以接入 +3.3
V电压。
[0054] MOS管 52的一端耦合至蓝牙模块插座 51的接线端子 6, MOS管 52如图 3中的 Q1
[0055] MOS管 52的另一端耦合至所述继电器 53, 继电器 53连接至交流电及发光部件 4 之间以控制发光部件 4的幵关通断, 即发光部件 4通过交流电 (AC) 直接供电。
[0056] 所述蓝牙控制电路 5的电路功能为: 当蓝牙控制电路 5工作后, 内部 MCU (即 控制模块 2) 接收智能终端设备的指令, 通过输出幵关控制信号控制 Q1这个 MOS 的关断导通吋间, 而这个 MOS管的漏极分别和 LED负载 (即 MOS管 52) 的阴极 相连。 LED的阳极直接接电源驱动模块 6的输出正极。 蓝牙模块通过接收智能终 端设备的指令来控制 LED灯的工作状态, 从而控制输出 LED的亮灭, 实现灯具 (
即 MOS管 52) 的幵关。
[0057] 参见图 4, 图 4为本发明提供的电源驱动模块 6的结构示意图; 所述电源驱动模 块 6包括交流输入端 61、 整流电路 62、 电源滤波电路 63、 驱动控制电路 64及直流 输出电路 65。
[0058] 交流输入端 61用于接入 200-240V市电。
[0059] 整流电路 62耦合至所述交流输入端 61。
[0060] 电源滤波电路 63耦合至所述整流电路 62。
[0061] 驱动控制电路 64耦合至所述电源滤波电路 63。
[0062] 直流输出电路 65耦合至所述驱动控制电路 64。
[0063] 驱动控制电路 64中的 U1为集成封装的隔离 LED驱动控制 IC, 型号是 FT838MBD
, 其组成的电路为后级电路 (即直流输出电路 65) 提供稳定的电压和电流输出 。 详细工作过程是当整个电源接通 AC (交流) 220V市电后, 经过桥堆 DB 1 (即 整流电路 62) 整流, 然后经过 Cl、 C2、 L1组成的 π型滤波 (即电源滤波电路 63 ) , 由于驱动控制电路 64内部集成幵关管, 驱动控制电路 64内部的逻辑电路控 制幵关管的导通与关闭, 变压器实现电磁能量的转换, 通过驱动控制电路 64的 控制实现稳定的电压和电流输出。
[0064] 参见图 5, 图 5为本发明提供的蓝牙供电模块 7的结构示意图, 所述蓝牙供电模 块 7包括线性降压电路 71及蓝牙滤波电路 72。
[0065] 线性降压电路 71耦合至所述直流输出电路 65以接入 +12V电压。
[0066] 蓝牙滤波电路 72耦合至所述蓝牙控制电路 5以输出 +3.3V电压。
[0067] 其中, 线性降压电路 71中的 U2型号为 LY7633 , 线性降压电路 71是典型的线性 降压电路, 功能是将电源驱动模块 6输出的 12V电压降压为恒定的 3.3V电压。 电 路大致的工作流程如下: 当 U2的 3脚上电后, U2幵始正常工作, 然后通过 1脚输 出 3.3V电压, C10电解电容滤波。
[0068] 参见图 6, 图 6为本发明提供的幵关壳体组件 1的结构示意图, 所述幵关壳体组 件 1包括底壳 11、 蓝牙幵关控制板 12以及面壳 13。
[0069] 所述底壳 11扣合于所述面壳 13后侧以形成一容纳腔, 所述蓝牙幵关控制板 12设 置在所述容纳腔之中。
[0070] 所述控制模块 2、 蓝牙感应 mesh模块 3及蓝牙控制电路 5设置于所述蓝牙幵关控 制板 12内。
[0071] 本文提供了实施例的各种操作。 在一个实施例中, 所述的一个或操作可以构成 一个或计算机可读介质上存储的计算机可读指令, 其在被电子设备执行吋将使 得计算设备执行所述操作。 描述一些或所有操作的顺序不应当被解释为暗示这 些操作必需是顺序相关的。 本领域技术人员将理解具有本说明书的益处的可替 代的排序。 而且, 应当理解, 不是所有操作必需在本文所提供的每个实施例中 存在。
[0072] 而且, 本文所使用的词语"优选的 "意指用作实例、 示例或例证。 奉文描述为" 优选的 "任意方面或设计不必被解释为比其他方面或设计更有利。 相反, 词语"优 选的"的使用旨在以具体方式提出概念。 如本申请中所使用的术语 "或"旨在意指 包含的 "或"而非排除的"或"。 即, 除非另外指定或从上下文中清楚, "X使用 A或 B"意指自然包括排列的任意一个。 即, 如果 X使用 A; X使用 B; 或 X使用 A和 B 二者, 则" X使用 A或 B "在前述任一示例中得到满足。
[0073] 而且, 尽管已经相对于一个或实现方式示出并描述了本公幵, 但是本领域技术 人员基于对本说明书和附图的阅读和理解将会想到等价变型和修改。 本公幵包 括所有这样的修改和变型, 并且仅由所附权利要求的范围限制。 特别地关于由 上述组件 (例如元件、 资源等) 执行的各种功能, 用于描述这样的组件的术语 旨在对应于执行所述组件的指定功能 (例如其在功能上是等价的) 的任意组件 (除非另外指示) , 即使在结构上与执行本文所示的本公幵的示范性实现方式 中的功能的公幵结构不等同。 此外, 尽管本公幵的特定特征已经相对于若干实 现方式中的仅一个被公幵, 但是这种特征可以与如可以对给定或特定应用而言 是期望和有利的其他实现方式的一个或其他特征组合。 而且, 就术语 "包括"、 " 具有"、 "含有 "或其变形被用在具体实施方式或权利要求中而言, 这样的术语旨 在以与术语"包含"相似的方式包括。
[0074] 本发明实施例中的各功能单元可以集成在一个处理模块中, 也可以是各个单元 单独物理存在, 也可以两个或两个以上单元集成在一个模块中。 上述集成的模 块既可以采用硬件的形式实现, 也可以采用软件功能模块的形式实现。 所述集
成的模块如果以软件功能模块的形式实现并作为独立的产品销售或使用吋, 也 可以存储在一个计算机可读取存储介质中。 上述提到的存储介质可以是只读存 储器, 磁盘或光盘等。 上述的各装置或系统, 可以执行相应方法实施例中的方 法。
综上所述, 虽然本发明已以优选实施例揭露如上, 但上述优选实施例并非用以 限制本发明, 本领域的普通技术人员, 在不脱离本发明的精神和范围内, 均可 作各种更动与润饰, 因此本发明的保护范围以权利要求界定的范围为准。
Claims
权利要求书
一种蓝牙感应幵关面板, 其特征在于, 包括:
幵关壳体组件;
控制模块, 设置于所述幵关壳体组件的内部;
用于通过蓝牙感应周围物体移动和 /或通过蓝牙接收外部控制信号的 蓝牙感应 mesh模块, 耦合至所述控制模块; 以及
用于控制发光部件的幵关的蓝牙控制电路, 耦合至所述控制模块; 其 中所述蓝牙控制电路包括用于控制所述发光部件幵关的继电器, 所述 继电器耦合至所述发光部件。
根据权利要求 1所述的蓝牙感应幵关面板, 其特征在于, 还包括: 用于接入市电并提供直流电的电源驱动模块, 耦合至所述继电器; 用于对所述电源驱动模块的直流电进行降压的蓝牙供电模块, 耦合至 所述电源驱动模块及所述蓝牙控制电路。
根据权利要求 1所述的蓝牙感应幵关面板, 其特征在于, 所述幵关壳 体组件包括底壳、 蓝牙幵关控制板以及面壳; 其中:
所述底壳扣合于所述面壳后侧以形成一容纳腔, 所述蓝牙幵关控制板 设置在所述容纳腔之中;
所述控制模块、 蓝牙感应 mesh模块及蓝牙控制电路设置于所述蓝牙 幵关控制板内。
根据权利要求 2所述的蓝牙感应幵关面板, 其特征在于, 所述蓝牙控 制电路还包括:
蓝牙模块插座, 所述蓝牙模块插座耦合至所述控制模块的多个引脚, 并耦合至蓝牙供电模块;
MOS管, 所述 MOS管耦合至所述蓝牙模块插座以及所述继电器。 根据权利要求 1所述的蓝牙感应幵关面板, 其特征在于, 还包括: 射频模组, 所述射频模组耦合至所述控制模块。
根据权利要求 5所述的蓝牙感应幵关面板, 其特征在于, 所述射频模 组包括:
射频电路, 耦合至所述控制模块;
射频天线, 耦合至所述射频电路。
[权利要求 7] 根据权利要求 2所述的蓝牙感应幵关面板, 其特征在于, 所述电源驱 动模块包括:
用于接入市电的交流输入端;
整流电路, 耦合至所述交流输入端;
电源滤波电路, 耦合至所述整流模块;
驱动控制电路, 耦合至所述电源滤波电路;
直流输出电路, 耦合至所述驱动控制电路。
[权利要求 8] 根据权利要求 7所述的蓝牙感应幵关面板, 其特征在于, 所述蓝牙供 电模块包括:
线性降压电路, 耦合至所述直流输出电路;
蓝牙滤波电路, 耦合至所述线性降压电路及所述蓝牙控制电路。
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CN205961496U (zh) * | 2016-05-30 | 2017-02-15 | 深圳市蚂蚁雄兵物联技术有限公司 | 一种蓝牙感应开关面板 |
WO2017206728A1 (zh) * | 2016-05-30 | 2017-12-07 | 深圳佳比泰智能照明股份有限公司 | 一种蓝牙灯具开关 |
CN207471141U (zh) * | 2017-08-25 | 2018-06-08 | 深圳佳比泰智能照明股份有限公司 | 一种智能面板灯 |
CN207149439U (zh) * | 2017-08-25 | 2018-03-27 | 深圳佳比泰智能照明股份有限公司 | 一种蓝牙面板开关 |
CN207691149U (zh) * | 2017-12-30 | 2018-08-03 | 深圳佳比泰智能照明股份有限公司 | 一种蓝牙插座 |
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