CN105722284A - Energy-efficient LED lighting system based on WI-FI + ZigBee communication - Google Patents

Abstract

An energy-efficient LED lighting system based on WI-FI + ZigBee communication transmits a control signal transmitted by a mobile terminal to a MCU control module through a wireless (Wi-Fi) transmission module, and then transmits to an LED lamp through a constant voltage constant current drive module after the MCU control module parses the control signal. In this way, the constant voltage constant current drive module controls the light color and brightness of the LED lamp. Meanwhile, a ZigBee module also transmits the control signal transmitted by the MCU control module to an ad hoc network of the LED lamp, so as to achieve intelligent remote control of the LED lamp. The energy-efficient LED lighting system based on the WI-FI + ZigBee communication does not require re-wiring, and can achieve the intelligent remote control of the LED lamp through the mobile terminal Wi-Fi and the ZigBee module, so that a user can be informed of the work state of the LED lamp and conduct control.

Description

High-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication

Technical field

The present invention relates to LED control system, particularly relate to a kind of management and control easily based on the high-efficiency energy-saving LED illuminator of WI-FI+ZigBee communication.

Background technology

LED lamp, due to its advantage such as efficient, energy-conservation, reliable, has been approved by market gradually, has been used widely in various fields.Feature and advantage that LED lamp is maximum are Based Intelligent Control, although there being the product of a lot of intelligent lighting controls in the market, but major part system is required for rewiring, cannot when not changing traditional wiring completely, realize the remote-control of LED illumination, and multi-functional control and the management of LED illumination can not be realized.

Summary of the invention

Based on this, it is necessary to provide a kind of management and control easily based on the high-efficiency energy-saving LED illuminator of WI-FI+ZigBee communication.

A kind of high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication, control signal for sending according to mobile terminal controls LED lamp duty, drives module including wireless transport module, MCU control module, bull switch module, ZigBee module and constant pressure and flow；

Described wireless transport module is used for connecting described MCU control module and described mobile terminal；Described MCU control module is also respectively connected with described bull switch module, described ZigBee module and described constant pressure and flow and drives module；Described constant pressure and flow drives module to connect described LED lamp；

Described wireless transport module is transferred to described MCU control module for the control signal sent by mobile terminal；Described control signal is for controlling the corresponding switch of LED lamp, glow color, brightness and many scene settings, and the control signal of reception is driven module to be sent to LED lamp by described constant pressure and flow by described MCU control module；

Described constant pressure and flow drives module to control LED lamp according to the control signal received；Wherein, after described MCU module receives the control signal of mobile terminal, read described control signal and resolve control signal, then module is driven to be sent to LED lamp by described constant pressure and flow control signal, thus described constant pressure and flow drives module drive to control the switch of LED lamp, glow color, brightness and many scene settings；

Described ZigBee module is for receiving the control signal that described MCU control module sends, and the control signal of reception is transferred to the ad-hoc network of LED lamp；

Described bull switch module is for sending the output signal of glow color and the brightness controlling described LED lamp, and described MCU control module controls described constant pressure and flow for the output signal according to described bull switch module and drives glow color and the brightness of LED lamp described in module drive.

Wherein in an embodiment, described constant pressure and flow drives module to include constant voltage source and drives module and constant-current driven module；

Described constant voltage source drives module input to connect civil power, output terminates described constant-current driven module, and described constant-current driven module also connects described MCU control module and described LED lamp respectively；Described constant voltage source drives module for exporting after civil power is converted to DC voltage to described constant-current driven module, and described constant-current driven module for controlling glow color and the brightness of described LED lamp according to the signal received.

Wherein in an embodiment; also include LDO linear voltage stabilization module; described LDO linear voltage stabilization module connects described constant-current driven module and described MCU control module respectively, and described LDO linear voltage stabilization module for providing thermal overload and current-limiting protection for described MCU control module, described constant-current driven module and described ZigBee module.

Wherein in an embodiment, the music also including being connected with described MCU control module controls module；Described music controls module and plays, for the glow color according to described LED lamp and brightness, the music being correspondingly arranged.

Wherein in an embodiment, also including the memory module being connected with described MCU control module, described memory module is for storing the buffered signal of described MCU control module.

Wherein in an embodiment, described ZigBee module adopts unbalanced antennas to connect balun transformer and completes transmission and the reception of data.

Wherein in an embodiment, described ZigBee module adopts internal bias resistance, and described internal bias resistance is for providing operating current for crystal oscillator.

Wherein in an embodiment, described ZigBee module gathers the illumination information of LED lamp, dimming information, palette information, music control information for the control signal received according to described MCU control module.

Wherein in an embodiment, described wireless transport module adopts Wi-Fi transmission.

The above-mentioned high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication is sent to MCU control module by the control signal that mobile terminal is sent by wireless transport module, then is driven module to be sent to LED lamp by after MCU control module parsing control signal by constant pressure and flow.Thus constant pressure and flow drives module to control glow color and the brightness of LED lamp.The control signal that MCU control module sends also is transferred to the ad-hoc network of LED lamp by ZigBee module simultaneously such that it is able to realize the intelligent remote management and control of LED lamp.The above-mentioned high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication is without rewiring, and is capable of the long-distance intelligent management and control of LED lamp by mobile terminal and ZigBee module, and the duty of LED lamp is gone forward side by side line pipe control to facilitate user to know.

Accompanying drawing explanation

Fig. 1 is the module map of the high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication；

The partial circuit schematic diagram that Fig. 2 (a) is ZigBee module；

The partial circuit schematic diagram that Fig. 2 (b) is ZigBee module；

The partial circuit schematic diagram that Fig. 2 (c) is ZigBee module.

Detailed description of the invention

As it is shown in figure 1, be the module map based on the WI-FI+ZigBee high-efficiency energy-saving LED illuminator communicated.

A kind of high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication, control signal for sending according to mobile terminal controls LED lamp duty, drives module (not shown) including wireless transport module 101, MCU control module 102, bull switch module 103, ZigBee module 104 and constant pressure and flow.

Described wireless transport module 101 is used for connecting described MCU control module 102 and described mobile terminal；Described MCU control module 102 is also respectively connected with described bull switch module 103, described ZigBee module 104 and described constant pressure and flow and drives module (not shown)；Described constant pressure and flow drives module (not shown) to connect described LED lamp.

Described wireless transport module 101 is transferred to described MCU control module 102 for the control signal sent by mobile terminal；Described control signal is for controlling the switch of LED lamp of correspondence, glow color, brightness and many scene settings, and the control signal of reception is driven module (not shown) to be sent to LED lamp by described constant pressure and flow by described MCU control module 102.

Described constant pressure and flow drives module (not shown) to control LED lamp according to the control signal received；Wherein, after described MCU module 102 receives the control signal of mobile terminal, read described control signal and resolve control signal, then module (not shown) is driven to be sent to LED lamp by described constant pressure and flow control signal, thus described constant pressure and flow drives module (not shown) to drive controls the switch of LED lamp, glow color, brightness and many scene settings.

Described ZigBee module 104 is for receiving the control signal that described MCU control module 102 sends, and the control signal of reception is transferred to the ad-hoc network of LED lamp.

Described bull switch module 103 is for sending the output signal of glow color and the brightness controlling described LED lamp, and described MCU control module 102 controls described constant pressure and flow for the output signal according to described bull switch module 103 and drives module (not shown) to drive glow color and the brightness of described LED lamp.

Wireless transport module 101 adopts Wi-Fi to transmit.

High-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication adopts Wi-Fi transmission, for sending the control signal of mobile terminal output to MCU control module 102.Wherein, mobile terminal includes mobile phone, panel computer, notebook computer, iPad etc..

Constant pressure and flow drives module (not shown) to include constant voltage source and drives module 106 and constant-current driven module 105.

Described constant voltage source drives module 106 input termination civil power, output to terminate described constant-current driven module 105, and described constant-current driven module 105 also connects described MCU control module 102 and described LED lamp respectively；Described constant voltage source drives module 106 for exporting after civil power is converted to DC voltage to described constant-current driven module 105, and described constant-current driven module 105 for controlling glow color and the brightness of described LED lamp according to the signal received.

High-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication also includes LDO (lowdropoutregulator; low pressure difference linear voltage regulator) linear voltage stabilization module 107; described LDO linear voltage stabilization module 107 connects described constant-current driven module 105 and described MCU control module 102 respectively, and described LDO linear voltage stabilization module 107 is for providing thermal overload and current-limiting protection for described MCU control module 102, described constant-current driven module 105 and described ZigBee module 104.

The music also including being connected with described MCU control module 102 based on the high-efficiency energy-saving LED illuminator of WI-FI+ZigBee communication controls module 108；Described music controls module 108 and plays, for the glow color according to described LED lamp and brightness, the music being correspondingly arranged.

Also include the memory module being connected with described MCU control module 102 based on the WI-FI+ZigBee high-efficiency energy-saving LED illuminator communicated, described memory module is for storing the buffered signal of described MCU control module 102.

ZigBee module 104 adopts unbalanced antennas to connect balun transformer and completes transmission and the reception of data.

ZigBee module 104 adopts internal bias resistance, and described internal bias resistance is for providing operating current for crystal oscillator.

ZigBee module 104 gathers the illumination information of LED lamp, dimming information, palette information, music control information for the control signal received according to described MCU control module 102.

Hop algorithm is the performance that ZigBee is unique, is that lamp locker MANET realizes, and WiFi only has relay function, it is achieved the transmission of distance or use through walls.

Three kinds of device types are defined: 1 based on ZigBee) ZigBee coordinator (ZigBeeCoordinator, ZC), it is used for initializing the network information, each network only one of which ZC；

2) ZigBee router (ZigBeeRouter, ZR), it plays supervision or control action, but it is also the router or the repeater that transmit information with frequency-hopping mode；

3) ZigBee terminal unit (ZigBeeEndDevice, ZED), it only monitors or controls function, it is possible to carry out transceiving data information with router, it is impossible to route or in then use.

LED lamp increases ZigBee module 104, utilizes ZigBee router (ZigBeeRouter, ZR) unique frequency-hopping mode transmission, then at the router passing to the WiFi information possessing relay function after carrying out data interaction with MCU control module 102, wireless transport module 101, mobile terminal, the repeater utilizing Wi-Fi (realizes covering indoor 50-100 rice to realize distance, the long range propagation of outdoor 200-300 rice) transmission, effective address signal property through walls is poor and causes the decay of signal or the signal attenuation of distance.So that Wi-Fi signal strengthens.Meanwhile, it is capable to the illumination information of LED lamp, dimming information, palette information and music are controlled information be transferred to mobile terminal by ad-hoc network.

As shown in Fig. 2 (a)-(c), for the circuit theory diagrams of ZigBee module.

As shown in Fig. 2 (a), ZigBee module 104 includes: chip CPUCore, electric capacity C19, electric capacity C21, electric capacity C52, electric capacity C53, electric capacity C48, electric capacity C54, electric capacity C55, electric capacity C57, electric capacity C58 and crystal oscillator XTAL-1.The loop-c end of electric capacity C48 mono-chip termination CPUCore, other end ground connection.The VDD-vco of chip CPUCore terminates 3V power supply, and electric capacity C53 mono-terminates 3V power supply, other end ground connection.The VDD-CP of chip CPUCore terminates 3V power supply, and electric capacity C52 mono-terminates 3V power supply, other end ground connection.The VDD-PLL of chip CPUCore terminates 3V power supply, and electric capacity C19 mono-terminates 3V power supply, other end ground connection.The VDD-A end of chip CPUCore and VDD-BG end all connect 3V power supply, and one end of electric capacity C55, electric capacity C57 and electric capacity C58 all connects 3V power supply, the equal ground connection of the other end.Two source electrodes of crystal oscillator XTAL-1 connect XTAL-P end and the XTAL-P end of chip CPUCore respectively.The two earth terminal ground connection of crystal oscillator XTAL-1.The XTAL-P end of the one chip termination CPUCore of electric capacity C21, other end ground connection.The XTAL-N end of the one chip termination CPUCore of electric capacity C54, other end ground connection.

As shown in Fig. 2 (b), ZigBee module 104 also includes antenna A1, electric capacity L1, inductance L2, inductance L3, inductance L4, inductance L5, high frequency insert interface RFIN-1, electric capacity C7, electric capacity C8, electric capacity C38, electric capacity C37, electric capacity C39, electric capacity C40, electric capacity C43, electric capacity C44 and electric capacity C45.

The points of common connection of one termination inductance L1 and the electric capacity C7 of antenna A1, the other end ground connection of electric capacity C7.The points of common connection of one termination inductance L1 and the electric capacity C38 of another termination capacitor C38 of inductance L1, inductance L2.The other end ground connection of inductance L2.High frequency inserts one end ground connection of interface RFIN-1, the points of common connection of another termination capacitor C38 and electric capacity C43.The points of common connection of inductance L3 mono-termination capacitor C38 and electric capacity C43, the RF-N end of another chip termination CPUCore.One end ground connection of electric capacity C37, the RF-N end of another chip termination CPUCore.The RF-P end of electric capacity C43 mono-termination capacitor C38 another chip termination CPUCore.Inductance L4 two ends connect RF-P end and the XF-N end of chip CPUCore respectively.The RF-P end of inductance L5 mono-chip termination CPUCore, another terminates 3V power supply.Electric capacity C39 one end ground connection, another terminates 3V power supply.Electric capacity C40 one end ground connection, another terminates 3V power supply.Electric capacity C44 and electric capacity C45 one end ground connection, the other end all connects 3V power supply.

As shown in Fig. 2 (c), ZigBee module 104 also includes chip U3, resistance R1, electric capacity C4, electric capacity C50, electric capacity C34, crystal oscillator Y2, resistance R5, resistance R3 and resistance R4.

The SPI/I2C end of resistance R3 mono-chip termination CPUCore, another terminates 3.3V power supply.The SPI/I2C end of resistance R4 mono-chip termination CPUCore, other end ground connection.The two ends of crystal oscillator Y2 connect XTAL32-P end and the XTAL32-N end of chip CPUCore respectively.Resistance R5 is in parallel with crystal oscillator Y2.Electric capacity C50 mono-terminates the XTAL32-P end of CPUCore, other end ground connection.Electric capacity C34 mono-terminates the XTAL32-N end of CPUCore, other end ground connection.

The model of chip U3 is 7904.The A end input MPUCLK signal of chip U3, power supply VCC terminates 3V power supply, and electric capacity C4 mono-terminates 3V power supply, other end ground connection.The Y end of resistance R1 mono-chip termination U3, the XTAL32-P end of another termination CPUCore.

Above-mentioned CPU is the radio system single-chip complying fully with 802.15.14/ZigBee technology.Suitable in the wireless network node of various ZigBee or similar ZigBee, including tuner, router and terminal unit.It has the advantage such as low power consumption, many, the long transmission distance of network node, hardware supported CSMA/CA function；Digitized RSSI/LQI supports.

CPUCore circuit theory:

CPUCore circuit just uses unbalanced antennas, and the device connecting balun transformer completes the transmission reception of data, and total meets the requirement of RF input/output build-out resistor (50 Ω).Internal T/R switched circuit completes the exchange between LNA and PA.CPUCore adopts internal bias resistance, and this resistance is mainly used to provide a suitable operating current for the crystal oscillator of 32MHz.The crystal oscillating circuit of a 32MHz is constituted with the quartz resonator (XTAL1) of 1 32MHz and 2 electric capacity (C50 and C34).The crystal oscillating circuit of a 32.768kHz is constituted with the quartz resonator (XTAL2) of 1 32.768kHz and 2 electric capacity (C43 and C38, C7).Voltage regulator is the pin of required 1.8V voltage and internal electric source is powered, and C44 and C45 electric capacity is decoupling capacitance, for power filter, to improve the stability of chip operation.

Based on above-mentioned all embodiments, constant voltage source drives module 106 to adopt chip L6562, constant-current driven module 105 to adopt chip LM3414, LDO linear voltage stabilization module 107 to adopt chip L120B, this supporting Power Management Design scheme to enable to LED lamp to have energy-efficient property and high reliability.

Based on above-mentioned all embodiments, Wi-Fi transmission adopts chip BCM43362, and ZigBee module 104 adopts chip CC2538.By ZigBee communication network, realize LED lamp MANET and (any group can be set, lamp is from 5～15 meters) or single lamp access and systems connection, carry out the intelligent remote centralized managements such as real-time LED illumination information gathering, transmission and time switch, light modulation, toning, music, multi-mode scene simultaneously.

SPD is adopted to develop based on Android or IOS embedded software operating system in the terminal.This system includes BSP (BoardSupportPackage) bottom software of WinCE system, APP (Application) application layer software, MPEG (MP5) decoding software, MCU system logical process software, bus (CAN, LIN, IEBUS) reading/application management software, UI design etc..

This systems soft ware embeds the front-end control facilities such as user's smart mobile phone, panel computer, by WiFi communication can management and control LED reception terminal works, easy to use, function can expand, software is easily upgraded.

Based on above-mentioned all embodiments, the operation principle based on the high-efficiency energy-saving LED illuminator of WI-FI+ZigBee communication is as follows:

MCU control module 102 receives the output signal of the control signal from wireless transport module 101 or bull switch module 103.Then the output signal according to control signal or bull switch module 103, module is driven to be exported by the output signal of control signal or bull switch module 103 to LED lamp by constant pressure and flow, thus described constant pressure and flow drives module to control glow color and the brightness of LED lamp.Namely user can pass through mobile terminal and control the duty of LED lamp, it is also possible to controlled the duty of LED lamp by bull switch module 103.Meanwhile, adopt ZigBee module 104 to receive the control signal that MCU control module 102 sends, and control signal is transferred to the ad-hoc network of LED lamp.While transmission of control signals, gather the data such as the illumination information of LED lamp, transmission and time switch, light modulation, toning, music, multi-mode scene according to control signal, and feed back to mobile terminal, thus realizing the intelligent remote centralized management of LED lamp.

The above-mentioned high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication is sent to MCU control module 102 by the control signal that mobile terminal is sent by wireless Wi-Fi transport module 101, then is sent to LED lamp by constant pressure and flow driving module after being resolved control signal by MCU control module 102.Thus described constant pressure and flow drives module to control glow color and the brightness of LED lamp.The control signal that MCU control module 102 sends also is transferred to the ad-hoc network of LED lamp by ZigBee module 104 simultaneously, thus realizing the intelligent remote management and control of LED lamp.The above-mentioned high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication is without rewiring, and is capable of the long-distance intelligent management and control of LED lamp by mobile terminal and ZigBee module 104, and the duty of LED lamp is gone forward side by side line pipe control to facilitate user to know.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics is absent from contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent.It should be pointed out that, for the person of ordinary skill of the art, without departing from the inventive concept of the premise, it is also possible to making some deformation and improvement, these broadly fall into protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (9)

1. the high-efficiency energy-saving LED illuminator based on Wi-Fi+ZigBee communication, control signal for sending according to mobile terminal controls LED lamp duty, it is characterized in that, drive module including wireless transport module, MCU control module, bull switch module, ZigBee module and constant pressure and flow；

Described wireless transport module is used for connecting described MCU control module and described mobile terminal；Described MCU control module is also respectively connected with described bull switch module, described ZigBee module and described constant pressure and flow and drives module；Described constant pressure and flow drives module to connect described LED lamp；

Described wireless transport module is transferred to described MCU control module for the control signal sent by mobile terminal；Described control signal is for controlling the corresponding switch of LED lamp, glow color, brightness and many scene settings, and the control signal of reception is driven module to be sent to LED lamp by described constant pressure and flow by described MCU control module；

Described constant pressure and flow drives module to control LED lamp according to the control signal received；Wherein, after described MCU module receives the control signal of mobile terminal, read described control signal and resolve control signal, then module is driven to be sent to LED lamp by described constant pressure and flow control signal, thus described constant pressure and flow drives module drive to control the switch of LED lamp, glow color, brightness and many scene settings；

Described ZigBee module is for receiving the control signal that described MCU control module sends, and the control signal of reception is transferred to the ad-hoc network of LED lamp；

Described bull switch module is for sending the output signal of glow color and the brightness controlling described LED lamp, and described MCU control module controls described constant pressure and flow for the output signal according to described bull switch and drives the switch of LED lamp, glow color, brightness and many scene settings described in module drive.

2. the high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication according to claim 1, it is characterised in that described constant pressure and flow drives module to include constant voltage source and drives module and constant-current driven module；

Described constant voltage source drives module input to connect civil power, output terminates described constant-current driven module, and described constant-current driven module also connects described MCU control module and described LED lamp respectively；Described constant voltage source drives module for exporting after civil power is converted to DC voltage to described constant-current driven module, and described constant-current driven module for controlling glow color and the brightness of described LED lamp according to the signal received.

3. the high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication according to claim 2; it is characterized in that; also include LDO linear voltage stabilization module; described LDO linear voltage stabilization module connects described constant-current driven module and described MCU control module respectively, and described LDO linear voltage stabilization module for providing thermal overload and current-limiting protection for described MCU control module, described constant-current driven module and described ZigBee module.

4. the high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication according to claim 1, it is characterised in that the music also including being connected with described MCU control module controls module；Described music controls module and plays the dynamic representation of corresponding music for the glow color according to described LED lamp and brightness.

5. the high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication according to claim 1, it is characterised in that also include the memory module being connected with described MCU control module, described memory module is for storing the buffered signal of described MCU control module.

6. the high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication according to claim 1, it is characterised in that described ZigBee module adopts unbalanced antennas to connect balun transformer and completes transmission and the reception of data.

7. the high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication according to claim 1, it is characterised in that described ZigBee module adopts internal bias resistance, described internal bias resistance is for providing operating current for crystal oscillator.

8. the high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication according to claim 1, it is characterized in that, described ZigBee module gathers the illumination information of LED lamp, dimming information, palette information, music control information for the control signal received according to described MCU control module.

9. the high-efficiency energy-saving LED illuminator based on WI-FI+ZigBee communication according to claim 1, it is characterised in that described wireless transport module adopts Wi-Fi transmission.