CN203340334U - Two-way touch wireless remote control light modulation system - Google Patents

Abstract

The utility model discloses a two-way touch wireless remote control light modulation system, comprising an into-the-wall box module and a remote control module. The into-the-wall box module comprises a wireless control circuit, a connection circuit connected to the wireless control circuit, at least one touch-control-display unit connected to the connection circuit, and a driving circuit connected to the connection circuit. The touch-control-display unit receives and processes touch-information from clients, controls the driving circuit through the connection circuit, and performs control on external loads. The wireless control circuit receives remote control signal information sent by clients through the remote control module, and transmits the remote control information to the touch-control-display unit through the connection circuit. The touch-control-display unit receives and processes the remote control information and controls the driving circuit through the connection circuit so as to control the external loads. The two-way touch wireless remote control light modulation system can perform light modulation on at least one load through touching or remote control, the operation is flexible and convenient, and the modulation is accurate.

Description

A kind of two-way touches the wireless remote control light modulation system

Technical field

The utility model relates to a kind of light adjusting system, more particularly, relates to a kind of two-way and touches the wireless remote control light modulation system.

Background technology

Along with scientific and technological development and the people raising to environmental consciousness, illumination has become a popular domain; And the Vehicles Collected from Market situation, incandescent lamp becomes the core force of domestic illuminating industry undoubtedly.Crucial occasion ，Ru hotels at some particularly, the places such as Karaoke, touching technique and light regulating technology drive the newly emerging force of illuminating product development especially in the application of incandescent lamp.In the prior art the light regulating technology adopted is had to following shortcoming: 1, can only touch a load of regulation and control; 2, can only be independent be touched or remote control light modulating, the light modulation direction is single, the circulation light modulation; 3, touching effect can only fuzzy control, can not the precise positioning light modulation.

The utility model content

The technical problems to be solved in the utility model is, for the above-mentioned defect of prior art, provides a kind of and can touch the wireless remote control light modulation system by touch and wireless remote control light modulation and the two-way that can accurately locate light modulation.

The utility model solves the technical scheme that its technical problem adopts: construct a kind of two-way and touch the wireless remote control light modulation system, comprise: include wall cartridge module, remote control module, describedly enter the wall cartridge module and comprise radio control circuit, the connecting circuit be connected with described radio control circuit, at least one the touch control display unit be connected with described connecting circuit, the drive circuit be connected with described connecting circuit; Wherein:

Described touch control display unit receives and processes user's touch information, by connecting circuit, controls drive circuit, and then external loading is controlled;

Described radio control circuit receives the remote information that the user sends by remote control module, and send this remote information to the touch control display unit by connecting circuit, the touch control display unit receives and processes remote information, control drive circuit by connecting circuit, and then external loading is controlled.

At two-way described in the utility model, touch in the wireless remote control light modulation system, the touch control display unit comprises first via touch control unit and the second touch control unit, road; Described first via touch control unit comprises: first touches draw runner circuit, the first touch control circuit be connected with the first touch draw runner circuit, the first dynamic LED display circuit be connected with the first touch control circuit, described the second touch control unit, road comprises the second touch draw runner circuit, the second touch control circuit be connected with the second touch draw runner circuit, the second dynamic LED display circuit be connected with the second touch control circuit, and described the first touch control circuit and second touches the draw runner circuit and is connected with connecting circuit respectively;

Described first touches the touch information that the draw runner circuit receives the user, and described this touch information sends the first touch control circuit to, described the first touch control circuit is processed described touch information, by the first dynamic LED display Circuit display rank, also by described connecting circuit, control drive circuit, the described external loading of the first via is controlled;

Described second touches the touch information that the draw runner circuit receives the user, and send this touch information to described the second touch control circuit, described the second touch control circuit is processed this touch information, by the second dynamic LED display Circuit display rank, also by connecting circuit, control drive circuit, the second described external loading in tunnel is controlled.

At two-way described in the utility model, touch in the wireless remote control light modulation system, described first via touch control unit or the second touch control unit, road also comprise coupling key and delete key, described coupling key is connected with the first touch control circuit or the second touch control circuit with delete key, and described coupling key and delete key are comprised of the touch sensible bar.

At two-way described in the utility model, touch in the wireless remote control light modulation system, describedly enter the wall cartridge module and also comprise the networking status display circuit be connected with radio control circuit, for show described remote control module whether with described first via touch control unit or the second touch control unit, road networking success.

Touch in the wireless remote control light modulation system at two-way described in the utility model, describedly enter the wall cartridge module and also comprise the power circuit module, be used to described each circuit entered in the wall cartridge module that power supply is provided.

At two-way described in the utility model, touch in the wireless remote control light modulation system, described drive circuit comprises zero cross detection circuit and the non-zero passage drive circuit be connected with zero cross detection circuit.

At two-way described in the utility model, touch in the wireless remote control light modulation system, described non-zero passage drive circuit comprises the non-zero passage drive circuit of the non-zero passage drive circuit of the first via and the second tunnel, the non-zero passage drive circuit of the described first via is for driving the described external loading of the first via, and described the second non-zero passage drive circuit in tunnel is for driving the second described external loading in tunnel; The non-zero passage drive circuit of the non-zero passage drive circuit of the described first via and the second tunnel has identical circuit structure.

At two-way described in the utility model, touch in the wireless remote control light modulation system, described the first touch control circuit comprises the first touch chip, and this first touch chip adopts the chip that model is TGPM8F3716BIC; Described the second touch control circuit comprises the second touch chip, and this second touch chip adopts the chip that model is TGPM8F3716BIC; Described radio control circuit comprises the wireless receiving and dispatching module, and this wireless receiving and dispatching module adopts the chip that model is CC2540.

At two-way described in the utility model, touch in the wireless remote control light modulation system, described the first dynamic LED display circuit comprises 16 light-emitting diodes, for showing 16 gray scales; Described the second dynamic LED display circuit comprises 16 light-emitting diodes, for showing 16 gray scales.

At two-way described in the utility model, touch in the wireless remote control light modulation system, the non-zero passage drive circuit of the described first via comprises the first scr triggering device, triode, the first controllable silicon, the first end of the described first controlled silicon chip driver is by connect+12V of resistance power supply, the collector electrode of the second end connecting triode, the 4th end connects first silicon controlled the second end, the 6th end connects the first silicon controlled the 3rd end by resistance, the grounded emitter of triode, base stage is connected with the pin LIGHT_1 of described connecting circuit, the first silicon controlled first end connects first via external loading, the resistance of connecting between first silicon controlled the second end and first end, the RC resistance capaciting absorpting circuit that electric capacity forms.

Implement two-way of the present utility model and touch the wireless remote control light modulation system, there is following beneficial effect: can pass through remote control module, at least one touch control circuit, at least one load is carried out to brightness adjustment control, can be by touching or the remote control mode light modulation, more flexible, and can accurately locate light modulation.

The accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

Fig. 1 is the structured flowchart that two-way of the present utility model touches the wireless remote control light modulation system;

Fig. 2 is the structured flowchart that two-way of the present utility model touches the first embodiment of wireless remote control light modulation system

Fig. 3 is that two-way of the present utility model touches first in the first embodiment of wireless remote control light modulation system and touches the draw runner circuit structure diagram;

Fig. 4 is that two-way of the present utility model touches the first touch control circuit structure chart in the first embodiment of wireless remote control light modulation system;

Fig. 5 is the structure chart that two-way of the present utility model touches the connecting circuit in the first embodiment of wireless remote control light modulation system;

Fig. 6 is the structure chart that two-way of the present utility model touches the first dynamic LED display circuit in the first embodiment of wireless remote control light modulation system;

Fig. 7 a is the structure chart that two-way of the present utility model touches the coupling key in the first embodiment of wireless remote control light modulation system;

Fig. 7 b is the structure chart that two-way of the present utility model touches the delete key in the first embodiment of wireless remote control light modulation system;

Fig. 8 is that two-way of the present utility model touches the structure chart that second in the first embodiment of wireless remote control light modulation system touches the draw runner circuit;

Fig. 9 is the structure chart that two-way of the present utility model touches the second touch control circuit in the first embodiment of wireless remote control light modulation system;

Figure 10 is the structure chart that two-way of the present utility model touches the second dynamic LED display circuit in the first embodiment of wireless remote control light modulation system;

Figure 11 is the structure chart that two-way of the present utility model touches the radio control circuit 20 in the first embodiment of wireless remote control light modulation system;

Figure 12 is the structure chart that two-way of the present utility model touches the zero cross detection circuit in the first embodiment of wireless remote control light modulation system;

Figure 13 is the structure chart that two-way of the present utility model touches the non-zero passage drive circuit in the first embodiment of wireless remote control light modulation system;

Figure 14 is the structure chart that two-way of the present utility model touches the networking status display circuit in the first embodiment of wireless remote control light modulation system;

Figure 15 is the structure chart that two-way of the present utility model touches the power circuit module in the first embodiment of wireless remote control light modulation system;

Figure 16 is that two-way of the present utility model touches the outward appearance front view that enters wall cartridge module 100 in the first embodiment of wireless remote control light modulation system.

Embodiment

In order to make the purpose of this utility model clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figure 1, at two-way of the present utility model, touch in the structured flowchart of wireless remote control light modulation system, include wall cartridge module 100, remote control module 200, the drive circuit 40 that enter the connecting circuit 30 that wall cartridge module 100 comprises radio control circuit 20, is connected with radio control circuit, at least one the touch control display unit 10 be connected with connecting circuit 30, with described connecting circuit 30, is connected; Wherein:

This touch control display unit 10 receives and processes user's touch information, controls drive circuit 40 by connecting circuit 30, and then external loading is controlled;

This radio control circuit 20 receives the remote information that the user sends by remote control module 200, and send this remote information to touch control display unit 10 by connecting circuit 30, touch control display unit 10 receives and processes remote information, control drive circuit 40 by connecting circuit 30, and then external loading is controlled.

In concrete application, this enters wall cartridge module 100 and comprises at least one touch control circuit 101, according to actual conditions, can comprise two-way touch control circuit, three road touch control circuits, also can comprise N(N > 3) the road touch control circuit, control multichannel loading.

Implement above-mentioned touch wireless remote control light modulation system, can carry out light modulation to the load of at least one road by the mode of touch or remote control, more flexible, and can accurately locate light modulation.

As shown in Figure 2, it is the structured flowchart that two-way of the present utility model touches the first embodiment of wireless remote control light modulation system, include wall cartridge module 100, remote control module 200, the first via touch control unit 11 that enter connecting circuit 30 that wall cartridge module 100 comprises radio control circuit 20, is connected with radio control circuit, with connecting circuit 30, is connected and the second touch control unit, road 12, the drive circuit 40 be connected with connecting circuit 30, described first via touch control unit 11 comprises: first touches draw runner circuit 111, the first touch control circuit 112 be connected with the first touch draw runner circuit 111, the the first dynamic LED display circuit 113 be connected with the first touch control circuit 112, described the second touch control unit, road 12 comprises the second touch draw runner circuit 121, the second touch control circuit 122 be connected with the second touch draw runner circuit 121, the the second dynamic LED display circuit 123 be connected with the second touch control circuit 122, described the first touch control circuit 112 and second touches draw runner circuit 121 and is connected with connecting circuit 30 respectively,

This first touch draw runner circuit 111 receives users' touch information, and send this touch information to first touch control circuit 112, first this touch information of 112 pairs of touch control circuits is processed, by the first dynamic LED display circuit 113 display levels, also by connecting circuit 30, control drive circuit 40, first via external loading is controlled;

This second touch draw runner circuit 121 receives users' touch information, and send this touch information to second touch control circuit 122, second this touch information of 122 pairs of touch control circuits is processed, by the second dynamic LED display circuit 123 display levels, also by connecting circuit 30, control drive circuit 40, the second road external loading is controlled;

This radio control circuit 20 receives the remote information that the user sends by remote control module 200, and sends this remote information to the first touch control circuit 112 or the second touch control circuit 122 by connecting circuit; And then this first touch control circuit 112 or 122 pairs of first via external loadings of the second touch control circuit or the second road external loading are controlled.This first touch control circuit can carry out light modulation to first via external loading according to user's touch signal or remote signal, and the second touch control circuit can carry out light modulation to the second road external loading according to user's touch signal or remote signal.

The first touch control circuit 112 comprises that model is that first of TGPM8F3716BIC touches chip U6, and this first touch chip is that capacitor induction type touches chip.

Further, this enters the wall cartridge module and also comprises coupling key 114 and delete key 115, this coupling key 114 and delete key 115 can be arranged in first via touch control unit 11 or the second touch control unit, road 12, as while being arranged on first via touch control unit 11, this coupling key 114 is connected with the first touch control circuit 112 with delete key 115, as while being arranged on the second touch control unit 12, road, this this coupling key 114 is connected with the second touch control circuit 122 with delete key 115.

Further, enter the wall cartridge module and also comprise the networking status display circuit 50 be connected with radio control circuit, whether successful with first via touch control unit 11 or the second touch control unit, road 12 networkings for showing that this enters the wall cartridge module.

Further, enter the wall cartridge module and also comprise the power circuit module, be used to into each circuit in the wall cartridge module power supply is provided.

Further, drive circuit 40 comprises that zero cross detection circuit 41 and the non-zero passage drive circuit 42(be connected with zero cross detection circuit 41 are shown in Figure 13).

Further, non-zero passage drive circuit 42 comprises the non-zero passage drive circuit 422 of the non-zero passage drive circuit 421 of the first via and the second tunnel, the non-zero passage drive circuit 421 of the first via is for driving first via external loading, and the second non-zero passage drive circuit 422 in tunnel is for driving the second road external loading; The non-zero passage drive circuit 422 of the non-zero passage drive circuit 421 of the first via and the second tunnel has identical circuit structure (seeing Figure 13).

In specific implementation process, first touches draw runner circuit 111 as shown in Figure 3, and the first touch control circuit 112 as shown in Figure 4.First touches draw runner circuit 111 comprises that it is the formed touching induction regions of PCB copper sheet that the first touch bar 1111(should touch bar 1111), the first touch control circuit 112 comprises the first touch chip U6, concrete, this first touch chip U6 adopts the chip that model is TGPM8F3716BIC; The first pin 1-7 that touches bar 111 is connected respectively with the first input port P00-P06 that touches chip U6 by a resistance respectively, and the touch information by the user on the first touch bar 1111 sends the first touch chip U6 to.This first pin P32 that touches chip U6 connects the input ZERO_CH(circuit network name of the zero cross detection circuit shown in Figure 12 by resistance R 23) be the collector electrode of Q2, this the first pin P10 that touches chip U6 passes through the pin LIGHT_1 of the connector J12 in the connecting circuit shown in resistance R 24 connection layouts 5, this first pin P30 that touches chip U6 connects the pin RXD1 of connector J12 by resistance R 31, this first pin P31 that touches chip U6 connects the pin TXD1 of connector J12 by resistance R 33.The first pin P32 that touches chip U6 is the relative time reference-input signal end of light modulation, and P10 exports dim signal, drives the circuit part Q3 conducting shown in Figure 12.

Adopt the first touch bar 1111 can facilitate user's brightness adjusting rank, replace mechanical switch or button.

As shown in Figure 5, be the structure chart that two-way of the present utility model touches the connecting circuit in the wireless remote control light modulation system, this connecting circuit comprises connector J12, this J12 is the connecting element of connecting circuit, mainly is to provide power supply and signal path is only used; This connector J12 comprises pin ZERO_CH, TXD1, RXD1, TXD2, RXD2, LIGHT_1, LIGHT_2.

As shown in Figure 6, that two-way of the present utility model touches the first dynamic LED display circuit 113 in the wireless remote control light modulation system, comprise triode Q1, Q4, Q5, the base stage of triode Q1 connects the pin P21 of the first touch chip U6 by resistance R 35, the collector electrode of triode Q1 connects the pin P12 of the first touch chip U6 by light-emitting diode LD1 and resistance R 40, the pin P13 that connects the first touch chip U6 by light-emitting diode LD2 and resistance R 41, the pin P14 that connects the first touch chip U6 by light-emitting diode LD3 and resistance R 42, the pin P15 that connects the first touch chip U6 by light-emitting diode LD4 and resistance R 43, the pin P16 that connects the first touch chip U6 by light-emitting diode LD5 and resistance R 44, the pin P17 that connects the first touch chip U6 by light-emitting diode LD6 and resistance R 15, the emitter of triode Q1 connects power end 5V_TOH1, the base stage of triode Q5 connects the pin P22 of the first touch chip U6 by resistance R 36, the collector electrode of triode Q5 connects the pin P12 of the first touch chip U6 by light-emitting diode LD7 and resistance R 40, the pin P13 that connects the first touch chip U6 by light-emitting diode LD8 and resistance R 41, the pin P14 that connects the first touch chip U6 by light-emitting diode LD9 and resistance R 42, the pin P15 that connects the first touch chip U6 by light-emitting diode LD10 and resistance R 43, the pin P16 that connects the first touch chip U6 by light-emitting diode LD11 and resistance R 44, the pin P17 that connects the first touch chip U6 by light-emitting diode LD12 and resistance R 15, the emitter of triode Q5 connects power end 5V_TOH1, the base stage of triode Q4 connects the pin P23 of the first touch chip U6 by resistance R 37, the collector electrode of triode Q4 connects the first pin P12 that touches chip U6, by light-emitting diode LD14 and resistance R 41, connects the first pin P13 that touches chip U6, by light-emitting diode LD15 and resistance R 42, connects the first pin P14 that touches chip U6, by light-emitting diode LD16 and resistance R 43, connects the first pin P15 that touches chip U6 by light-emitting diode LD13 and resistance R 40, and the emitter of triode Q4 connects power end 5V_TOH1.This first dynamic LED display circuit 13 touches the pin P21-P23 of chip U6, the output signal of P12-P17 by receiving first, lights accordingly some in 16 LED lamps, can show accordingly current gray scale.These 16 LED lamps sequentially are arranged in a row on the surface that enters the wall cartridge module.16 lamps (LED1-LED16) of this first dynamic LED display circuit can show current light modulation gray scale intuitively, can show 16 gray scales.

As shown in Fig. 7 a and Fig. 7 b, that two-way of the present utility model touches coupling key in the wireless remote control light modulation system and the structure chart of delete key, coupling key 114 passes through the pin P33 that resistance R 38 connects the first touch chip U6, and delete key 115 connects the pin P34 of the first touch chip U6 by resistance R 39; Send coupling or delete instruction by this coupling key or delete key to the first touch chip U6.Here mating key is to set up remote control module and enter the two-way signal contact between the wall cartridge module, and delete key is to exit the remote control module of having set up and enter the two-way signal contact between the wall cartridge module.

Second touches draw runner circuit 121 as shown in Figure 8, and the second touch control circuit 122 as shown in Figure 9.First touches draw runner circuit 121 comprises that it is the formed touching induction regions of PCB copper sheet that the second touch bar 1211(should touch bar 1211), the second touch control circuit 122 comprises the second touch chip U9, concrete, this second touch chip U9 adopts the chip that signal is TGPM8F3716BIC; The second pin 1 to 7 that touches bar 1211 is connected respectively with the second input port P00_2-P06_2 that touches chip U9 by a resistance respectively, and the touch information by the user on the second touch bar 211 sends the second touch chip U9 to.This second pin P32_2 that touches chip U9 connects the input ZERO_CH(circuit network name of the zero cross detection circuit shown in Figure 12 by resistance R 54) be the collector electrode of Q6, this the second pin P10_2 that touches chip U9 passes through the pin LIGHT_2 of the connector J12 in the connecting circuit shown in resistance R 55 connection layouts 5, this second pin P30_2 that touches chip U9 connects the pin RXD2(circuit network name of connector J12 by resistance R 64), this second pin P31_2 that touches chip U9 connects the pin TXD1 of connector J12 by resistance R 66.

Adopt the second touch bar 1211 can facilitate user's brightness adjusting rank, replace mechanical switch or button.

As shown in figure 10, that two-way of the present utility model touches the second dynamic LED display circuit 123 in the wireless remote control light modulation system, comprise triode Q7, Q8, Q9, the base stage of triode Q7 connects the pin P21_2 of the second touch chip U9 by resistance R 68, the collector electrode of triode Q1 connects the pin P12_2 of the second touch chip U9 by light-emitting diode LD20 and resistance R 73, the pin P13_2 that connects the second touch chip U9 by light-emitting diode LD21 and resistance R 74, the pin P14_2 that connects the second touch chip U9 by light-emitting diode LD22 and resistance R 75, the pin P15_2 that connects the second touch chip U9 by light-emitting diode LD23 and resistance R 76, the pin P16_2 that connects the second touch chip U9 by light-emitting diode LD24 and resistance R 77, the pin P17_2 that connects the second touch chip U9 by light-emitting diode LD25 and resistance R 78, the emitter of triode Q7 connects power end 5V_TOH1, the base stage of triode Q8 connects the pin P22_2 of the second touch chip U9 by resistance R 69, the collector electrode of triode Q8 connects the pin P12_2 of the second touch chip U9 by light-emitting diode LD26 and resistance R 73, the pin P13_2 that connects the second touch chip U9 by light-emitting diode LD27 and resistance R 74, the pin P14_2 that connects the second touch chip U9 by light-emitting diode LD28 and resistance R 75, the pin P15_2 that connects the second touch chip U9 by light-emitting diode LD29 and resistance R 76, the pin P16_2 that connects the second touch chip U9 by light-emitting diode LD30 and resistance R 77, the pin P17_2 that connects the second touch chip U9 by light-emitting diode LD31 and resistance R 78, the emitter of triode Q7 connects power end 5V_TOH1, the base stage of triode Q9 connects the pin P23_2 of the second touch chip U9 by resistance R 70, the collector electrode of triode Q9 connects the second pin P12_2 that touches chip U9, by light-emitting diode LD33 and resistance R 74, connects the second pin P13_2 that touches chip U9, by light-emitting diode LD34 and resistance R 75, connects the second pin P14_2 that touches chip U9, by light-emitting diode LD35 and resistance R 76, connects the second pin P15_2 that touches chip U9 by light-emitting diode LD32 and resistance R 73, and the emitter of triode Q9 connects power end 5V_TOH1.This second dynamic LED display circuit 23 touches the pin P21_2-P23_2 of chip U9, the output signal of P12_2-P17_2 by receiving second, lights accordingly some in 16 LED lamps, can show accordingly current gray scale.These 16 LED lamps sequentially are arranged in a row on the surface that enters the wall cartridge module.16 lamps (LED20-LED35) of this second dynamic LED display circuit can show current light modulation gray scale intuitively, can show 16 gray scales.

As shown in figure 11, be that two-way of the present utility model touches the radio control circuit 20 in the wireless remote control light modulation system, comprise wireless receiving and dispatching module U3.In concrete enforcement, this wireless receiving and dispatching module U3 adopts Bluetooth chip CC2540, and this chip CC2540 device has following characteristics: integrated-type controller, main frame and application in 6mm * 6mm encapsulation can be dwindled physical size, reduce costs; Based on flash memory: the device firmware can carry out scene to be upgraded, but stores on the data sheet, thereby can be the developer, improves flexibility; Total solution: low-power consumption RF IC, comprehensively embedded single mode protocol stack, configuration file software and application support; The RF performance: outstanding long-distance link budget (up to+97dB) and with the good compossibility of other 2.4GHz device; Interoperability/compatibility: meet monotype and the double mode device of 4.0 editions standards of Bluetooth specification, in this programme, processing Digiplex and wireless device bidirectional information at the corresponding levels comprise control information and state information.Output to analyzing and processing and control and the state information of input message.The pin TXD1 of wireless receiving and dispatching module U3 is connected with the TXD1 pin of the connector J12 in Fig. 5, the pin RXD1 of wireless receiving and dispatching module U3 is connected with the RXD1 pin of the connector J12 in Fig. 5, the pin TXD2 of wireless receiving and dispatching module U3 is connected with the TXD2 pin of the connector J12 in Fig. 5, and the pin RXD2 of wireless receiving and dispatching module U3 is connected with the RXD2 pin of the connector J12 in Fig. 5.Wireless receiving and dispatching module U3 receives the remote information that remote control module 200 sends, touch chip U9 with the first touch chip U6 and second respectively by connector J12 and carry out communication, the output control signal, controlled first via external loading LP1 or the second road external loading LP2.

This chip CC2540 has following characteristics: 1, compatible 2.4GHz IEEE802.15.4 standard, working frequency range 2.405～2.480GHz; 2, operating voltage 3.0～3.6V; 3, transmission rate: 250Kbps/2Mbps is optional; 4, transmission range: 15meters (visual range, relevant with user environment); 5, MMCX external antenna interface or LTCC plate carry antenna (alternative during production); 6, can provide antenna and the antenna patchcord supporting with module; 7, receiving sensitivity :-41dBm; 8, transmitting power: 4dBm9, T-time electric current: about 25mA; 10, received current: about 18mA; 11, module size: 27.4mmx32mm.

As shown in figure 12, that two-way of the present utility model touches the zero cross detection circuit 41 in the drive circuit 40 of wireless remote control light modulation system, civil power 220V is by resistance R 8, the R9 current limliting makes photoelectrical coupler U4 conducting, and then impel triode Q2 to end, export a high level and touch to first the middle fracture ZERO_CH that chip U6 and second touches chip U9, the first touch chip U6 and second touches chip U9 and just usings this as time reference.AC_N and AC_L are the circuit network titles, mean respectively live wire and zero line, connect civil power.

In order to raise the efficiency, the trigger impulse that designing requirement makes the first touch chip U6 and second touch the middle fracture ZERO_CH input of chip U9 is synchronizeed with alternating voltage, every a trigger impulse of cycle of half alternating current output, and trigger impulse voltage should be greater than 4V, and width should be greater than 20us.In circuit Figure 12, photoelectrical coupler U4 plays buffer action simultaneously, when sinusoidal voltage approaches zero, two light-emitting diode cut-offs in photoelectrical coupler U4, the biasing resistor current potential of triode Q2 base stage makes it conducting, producing undersuing is the ZERO_CH signal, the output of triode Q2 is received the middle fracture ZERO_CH that the first touch chip U6 and second touches chip U9, to cause interruption.

As shown in figure 13, be that two-way of the present utility model touches the non-zero passage drive circuit 42 in the drive circuit 40 of wireless remote control light modulation system, this non-zero passage drive circuit 42 comprises the non-zero passage drive circuit 422 of the non-zero passage drive circuit 421 of the first via and the second tunnel.

The non-zero passage drive circuit 421 of this first via comprises the first scr triggering device U5, triode Q3, the first controllable silicon SQ1, concrete, and this first scr triggering device U5 adopts the chip that signal is MOC3052.The first end of this first controlled silicon chip driver U5 is by resistance R 6 connection+12V power supplys, the collector electrode of the second end connecting triode Q3, the 4th end connects the second end of the first controllable silicon SQ1, the 6th end connects the 3rd end of the first controllable silicon SQ1 by resistance R 11, the grounded emitter of triode Q3, base stage connects the pin LIGHT_1 of connector J12, the first end of the first controllable silicon SQ1 connects first via external loading (as bulb LP1) by connector J4, the resistance R 12 of connecting between the second end of the first controllable silicon SQ1 and first end, the RC resistance capaciting absorpting circuit that capacitor C 7 forms.When a dim signal of the pin P10 of the first touch chip U6 output, this triode Q3 conducting, the first scr triggering device U5 conducting, and then trigger the first controllable silicon SQ1, connect AC load (LP1).In addition, when if the first controllable silicon SQ1 connects perceptual AC load, due to phase angle of supply voltage leading load electric current, therefore, when load current is zero, supply voltage is reverse voltage, adds inductive load self induction electromotive force el effect, and the magnitude of voltage that makes the first controllable silicon SQ1 bear is considerably beyond supply voltage.Although the first controllable silicon SQ1 reverse-conducting, easily puncture, therefore must make bidirectional triode thyristor can bear this reverse voltage.

The non-zero passage drive circuit 422 in this second tunnel has identical circuit structure with the non-zero passage drive circuit 421 of the first via, concrete, the non-zero passage drive circuit 422 in this second tunnel comprises the second scr triggering device U8, triode Q6, the second controllable silicon SQ2, concrete, this second scr triggering device U8 adopts the chip that signal is MOC3052.The first end of this second controlled silicon chip driver U8 is by resistance R 45 connection+12V power supplys, the collector electrode of the second end connecting triode Q6, the 4th end connects the second end of the second controllable silicon SQ2, the 6th end connects the 3rd end of the second controllable silicon SQ2 by resistance R 47, the grounded emitter of triode Q6, base stage connects the pin LIGHT_2 of connector J12, the first end of the second controllable silicon SQ2 connects the second road external loading (as bulb LP2) by connector J8, the resistance R 46 of connecting between the second end of the second controllable silicon SQ2 and first end, the RC resistance capaciting absorpting circuit that capacitor C 14 forms.When a dim signal of the pin P10_2 of the second touch chip U9 output, this triode Q6 conducting, the second scr triggering device U8 conducting, and then trigger the second controllable silicon SQ2, connect AC load (LP2).In addition, when if the second controllable silicon SQ2 connects perceptual AC load, due to phase angle of supply voltage leading load electric current, therefore, when load current is zero, supply voltage is reverse voltage, adds inductive load self induction electromotive force el effect, and the magnitude of voltage that makes the second controllable silicon SQ2 bear is considerably beyond supply voltage.Although the first controllable silicon SQ1 reverse-conducting, easily puncture, therefore must make bidirectional triode thyristor can bear this reverse voltage.

As shown in figure 14, be the networking status display circuit 50 that two-way of the present utility model touches the wireless remote control light modulation system, comprise triode Q11, Q10; Pin STA_LED, collector electrode that the base stage of triode Q11 connects wireless receiving and dispatching module U3 by resistance R 56 connect base stage, the emitter connection power end+3V3 of Q10 by resistance R 49, the negative electrode of the grounded emitter of triode Q10, collector electrode connecting luminous diode LED4, the anode of LED 4 connects power end+12V by resistance R 18.Its operation principle is, wireless receiving and dispatching module U3 is according to current operating state, when the networking success, to triode Q11, anti-phase rear to triode Q10 by pin STA_LED output impulse level, triode Q10 conducting drives LED 4 work, and then can show intuitively current networking state, if drive LED 4 bright, show the networking success, if drive LED 4 to go out, show the networking failure.

As shown in figure 15, be the power circuit module that two-way of the present utility model touches the wireless remote control light modulation system, mainly comprise switch chip U1, power conversion inductance L 1, Schottky diode D1, D2, and step-down chip U2(3.3V), U7(5V).Pile U10 through passing a bridge when civil power, after filter circuit L2, C1, C2, form high-voltage DC power supply, directly enter switch chip U1(and adopt the chip that model is LN8K04), through inner BUCK control circuit, PWM, clock circuit, feedback circuit, protective circuit, and outside power conversion inductance L 1, the direct voltage about the 4th pin output low pressure 12V of U1; Through the filter circuit of inductance L 1 and capacitor C 4 compositions, the 12V voltage of stable output; Then pass through step-down chip U2, U7 step-down, respectively output voltage 5V and 3.3V.This power circuit module by the civil power of input convert to direct current+12V ,+5V_VCC ,+3V3, for each functional module of this light adjusting system provides suitable voltage.

Adopt two-way of the present utility model to touch the wireless remote control light modulation system, it is parent that the first touch chip U6 and second of take touches chip U9, and additional a little circuit and wireless receiving and dispatching module can complete the function of touch, remote control light modulating.

As shown in figure 16, that two-way touches the outward appearance front view that enters wall cartridge module 100 in the wireless remote control light modulation system, can see two indicator lights, and two row can show lattice (totally 16 lamps of the bright grade of load lamp, be 16 lamps in the first dynamic LED display circuit and 16 lamps in the second dynamic LED display circuit), from left to right by dark to bright, i.e. Far Left brightness is the darkest, rightmost brightness is the brightest.Should be 86mm*86mm*38mm as the overall dimension of wall cartridge module 100.

At two-way of the present utility model, touch in the wireless remote control light modulation system,

First touches chip U6 and second touches chip U9 as main frame, and wireless receiving and dispatching module U3 is as slave, and all operations is initiated by main frame, slave is carried out the order of main frame, and replys main frame, and all data are transmitted by packing, in order to simplify agreement, use 8 bytes of regular length, communication adopts the form of question-response, and main frame is asked, slave is answered, after main frame is given an order, must wait for slave reply after (or communication overtime), just can send a next order.

Remote control module is controlled into the process of wall cartridge module as follows:

After radio control circuit (wireless receiving and dispatching module) is received the order of remote control module, will order temporary transient the preservation, and after slave receives the polling order of main frame, the order of preservation be returned to main frame, main frame is carried out the light modulation action.Therefore whether main frame must have guidance command by inquiry slave regularly, and the poll time is the 100MS left and right.The UART full-duplex communication of sampling Transistor-Transistor Logic level, 8 data bit, 10, one of start bit position of rest 1, without odd-even check, baud rate is 38400.

The order data packet format is (main frame sends, and slave receives): data frame head (2)+exchange message (1)+order ID(1)+command parameter (3)+check and (1) data frame head: 2 bytes are followed successively by 0x0d0x0a; Exchange message: 1 byte, the output valve of current dimmer switch; Order ID: pairing order: 0x50(' P '), the ASCII value of capitalization P; Delete the pairing order: 0x44(' D '), the ASCII value of capitalization D; The order of host computer polls slave: 0x51(' Q '), the ASCII value of capitalization Q; Command parameter: retaining, do not use, is all 0x00; The check and: order the cumulative sum of front 7 bytes, only retain the lowest order byte, a high position abandons, below identical.Pairing order: 0x0d0x0a message ' P ' 0x000x000x00 (check sum); Delete pairing order: 0x0d0x0a message ' D ' 0x000x000x00 (check sum); Host computer polls slave order: 0x0d0x0a message ' Q ' 0x000x000x00 (check sum).

* the reply data packet format is for (slave sends, main frame receives): data frame head (2)+exchange message (1)+reply ID(1)+reply data (2)+response result (1)+check and (1) data frame head: exchange message: 1 byte, the quantity of success pairing; Reply ID: the pairing order: 0x70(' p '), the ASCII value of small letter p is deleted the pairing order: 0x64(' d '), and the ASCII value of small letter d; The order of host computer polls slave: 0x71(' q '), the ASCII value of small letter q; Meaningful when reply data 0(replys ID=' q ', other situation is 0): 0x00(' 0 '): null command, main frame is not carried out any action; 0x20(' '): null command, main frame is not carried out any action; 0x2b('+'): increase light modulation; 0x2d('-'): reduce light modulation; 0x3d('='): the light modulation output valve directly is set; Meaningful when reply data 1(replys ID=' q ', other situation is 0): the parameter of light modulation is effective when non-null command.

Response result (slave is carried out the result of Host Command): 0x00: success; 0x01: failure; 0x02: illegal ID; 0x03: check and mistake; 0x04: parameter error; 0x05: communication overtime; Reply pairing order: 0x0d0x0a message ' p ' 0x000x00return (check sum); Reply and delete pairing order: 0x0d0x0a message ' d ' 0x000x00return (check sum); Reply the order of host computer polls slave: 0x0d0x0a message ' q ' data0data1return (check sum).Illustrate: 1: match overtime 30 seconds, other order 1 second.2: main frame need show following state or result by LED, priority from high to low: 1): matching state, recommending to glimmer continuously and healthily LED; 2): command execution results, recommend correct fast blink once, failed fast blink 3～5 times; 3): pairing quantity is 0, recommends to continue flicker slowly; 4): normal standby (pairing quantity is not 0, is waiting for operation), recommend LED always bright.3: while returning unsuccessfully, as long as packet is correct, the information of exchange is still effective.4: pairing is simple, only needs menu length to be set by 3 seconds by remote controller, selects suitable pairing object, coordinates the use white button of the machine, deletes and uses red button, all grows by 3 seconds effectively.5: remote control add-subtract control brightness adopts loop control, after maximum, becomes minimum value, after minimum value, is maximum, and remote control directly arranges output and do not adopt loop control, and surpassing maximum is maximum, and being less than minimum value is minimum value.The direct control of panel is not retrained by this.

Adopt two-way of the present utility model to touch the wireless remote control light modulation system and there is following characteristics:

One, technical indicator

Overall dimension: 86mm*86mm*38mm;

Voltage: exchange 110-250V/50Hz-60Hz;

Standby power consumption amount:<0.3mA;

Single channel restriction load current :≤0.8A

Single channel maximum load: 150W; (under the two-way condition of work)

Environment for use :-30～70 degree; Relative temperature is less than 95%;

Single channel push button longevity :≤20000 operations;

The scope of application: can use the light fixture of all resistive loads in market, as incandescent lamp etc.

Remote controller receiving frequency 2.4Gz; Remote control distance 10-15m;

The panel light source: the closed condition indicator light is blue, to code state relay indicating light, is flicker

The power circuit module: this scheme is used the design of LN8K04 tailored version high pressure BUCK controller, and design really

Protected different loads, main feature is as follows:

1, can work and the super wide line voltage scope of 380VAC

2, inner integrated 700V high-voltage circuit breaker

3, there is short circuit and overload protection function

4, there is overheat protective function

5, extremely low standby power and high conversion efficiency

6, meet GB9254 and EN55022EMI test request

Two, main electrical parameters:

1, input voltage range: 85-300Vac

2, rated output voltage: 12 ± 2%V DC

3, output-current rating: 0.2A

4, output ripple voltage:<± 2%

5, failure protection function: output short-circuit, output overloading, overtemperature protection

6, unloaded input power:<0.4W

7, fully loaded conversion efficiency: approximately 70%

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection range of the present utility model.

Claims (10)

1. a two-way touches the wireless remote control light modulation system, it is characterized in that, include wall cartridge module (100), remote control module (200), describedly enter wall cartridge module (100) and comprise radio control circuit (20), the connecting circuit (30) be connected with described radio control circuit (20), at least one touch control display unit (10) be connected with described connecting circuit (30), the drive circuit (40) be connected with described connecting circuit (30), wherein:

Described touch control display unit (10), for receiving and process user's touch information, is controlled described drive circuit (40) by described connecting circuit (30), and then external loading is controlled;

The remote information that described radio control circuit (20) sends by described remote control module (200) for receiving the user, and send described remote information to described touch control display unit (10) by described connecting circuit (30), described touch control display unit (10) receives and processes described remote information, control described drive circuit (40) by described connecting circuit (30), and then external loading is controlled.

2. two-way according to claim 1 touches the wireless remote control light modulation system, and described touch control display unit (10) comprises first via touch control unit (11) and the second touch control unit, road (12), described first via touch control unit (11) comprising: first touches draw runner circuit (111), the first touch control circuit (112) be connected with the first touch draw runner circuit (111), the the first dynamic LED display circuit (113) be connected with the first touch control circuit (112), described the second touch control unit, road (12) comprises the second touch draw runner circuit (121), the second touch control circuit (122) be connected with the second touch draw runner circuit (121), the the second dynamic LED display circuit (123) be connected with the second touch control circuit (122), described the first touch control circuit (112) and second touches draw runner circuit (121) and is connected with connecting circuit (30) respectively,

Described first touches the touch information that draw runner circuit (111) receives the user, and send described touch information to the first touch control circuit (112), described the first touch control circuit (112) is processed described touch information, by the first dynamic LED display circuit (113) display level, also by described connecting circuit (30), control described drive circuit (40), the described external loading of the first via is controlled;

Described second touches the touch information that draw runner circuit (121) receives the user, and send this touch information to described the second touch control circuit (122), described the second touch control circuit (122) is processed this touch information, by the second dynamic LED display circuit (123) display level, also by connecting circuit (30), control drive circuit (40), the second described external loading in tunnel is controlled.

3. two-way according to claim 2 touches the wireless remote control light modulation system, it is characterized in that, described first via touch control unit (11) or the second touch control unit, road (12) also comprise coupling key (114) and delete key (115), described coupling key (114) is connected with the first touch control circuit (112) or the second touch control circuit (122) with delete key (115), and described coupling key and delete key are comprised of the touch sensible bar.

4. two-way according to claim 2 touches the wireless remote control light modulation system, it is characterized in that, describedly enter wall cartridge module (100) and also comprise the networking status display circuit (50) be connected with radio control circuit (20), for show described remote control module (200) whether with described first via touch control unit (11) or the second touch control unit, road (12) networking successful connection.

5. two-way according to claim 1 touches the wireless remote control light modulation system, it is characterized in that, describedly enters wall cartridge module (100) and also comprises the power circuit module, is used to described each circuit entered in the wall cartridge module that power supply is provided.

6. two-way according to claim 1 and 2 touches the wireless remote control light modulation system, it is characterized in that, described drive circuit (40) comprises zero cross detection circuit (41) and the non-zero passage drive circuit (42) be connected with zero cross detection circuit.

7. two-way according to claim 6 touches the wireless remote control light modulation system, it is characterized in that, described non-zero passage drive circuit (42) comprises the non-zero passage drive circuit of the first via (421) and the non-zero passage drive circuit in the second tunnel (422), the non-zero passage drive circuit of the described first via (421) is for driving the described external loading of the first via, and described the second non-zero passage drive circuit in tunnel (422) is for driving the second described external loading in tunnel; The non-zero passage drive circuit of the described first via and described the second non-zero passage drive circuit in tunnel have identical circuit structure.

8. two-way according to claim 2 touches the wireless remote control light modulation system, it is characterized in that, described the first touch control circuit (112) comprises the first touch chip (U6), and this first touch chip adopts the chip that model is TGPM8F3716BIC; Described the second touch control circuit (122) comprises the second touch chip (U9), and this second touch chip adopts the chip that model is TGPM8F3716BIC; Described radio control circuit (20) comprises wireless receiving and dispatching module (U3), and this wireless receiving and dispatching module adopts the chip that model is CC2540.

9. two-way according to claim 2 touches the wireless remote control light modulation system, it is characterized in that, described the first dynamic LED display circuit (113) comprises 16 light-emitting diodes, for showing 16 gray scales; Described the second dynamic LED display circuit (123) comprises 16 light-emitting diodes, for showing 16 gray scales.

10. two-way according to claim 7 touches the wireless remote control light modulation system, it is characterized in that, the non-zero passage drive circuit of the described first via (422) comprises the first scr triggering device (U5), triode (Q3), the first controllable silicon (SQ1), the first end of the described first controlled silicon chip driver (U5) is by resistance (R6) connection+12V power supply, the collector electrode of the second end connecting triode (Q3), the 4th end connects the second end of the first controllable silicon (SQ1), the 6th end connects the 3rd end of the first controllable silicon (SQ1) by resistance (R11), the grounded emitter of triode (Q3), base stage is connected with the pin LIGHT_1 of described connecting circuit (30), the first end of the first controllable silicon (SQ1) connects first via external loading, the resistance (R12) of connecting between the second end of the first controllable silicon (SQ1) and first end, the RC resistance capaciting absorpting circuit that electric capacity (C7) forms.

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