The content of the invention
In order to solve the above technical problems, a kind of power supply of each lamp of present invention offer is independent of each other, control mode is flexible
Multifunction wireless shakes the outdoor lamp string of control.
The multifunction wireless of the present invention, which shakes the outdoor lamp string of control, includes isolation constant voltage outputting circuit, Digiplex, wireless controlled
Circuit processed, wireless power circuit, some lamp group modules, the isolation constant voltage outputting circuit are connected with external communication electricity AC, are used for
External communication electricity AC is converted into direct current and exports constant-voltage DC source, the wireless power circuit is with isolating constant pressure output electricity
Road and radio control circuit are all connected with, the Digiplex and radio control circuit radio communication, the isolation constant pressure output
Circuit is powered by wireless power circuit for radio control circuit, and the wireless power circuit will isolate constant voltage outputting circuit output
Constant-voltage DC source be converted to voltage needed for radio control circuit, the Digiplex is used to send control instruction, institute
Radio control circuit is stated to receive the control instruction and decode control instruction and be converted to for controlling the luminous control of lamp group module
Signal processed, some lamp group modules are parallel with one another, and the lamp group module includes lamp string constant current and control circuit and some lamp groups,
The lamp string constant current and control circuit are all connected with isolating constant voltage outputting circuit, radio control circuit and lamp group, and the lamp string is permanent
The constant-voltage DC source for isolating constant voltage outputting circuit output is converted to constant-current supply and thinks that lamp group is powered by stream and control circuit, institute
State lamp string constant current and control circuit is additionally operable to drive and controls lamp group;Wherein, the isolation constant voltage outputting circuit includes some guarantors
Protection element, EMC power filters element, resistance R4-R7, resistance R15-R17, rectifier bridge DW, send type filter circuit, chip U1, MOS
Pipe Q1, electric capacity C11, transformer T1, photoelectrical coupler OC and voltage-stabiliser tube DZ, external ac power source connect rectification by protection element
Type filter circuit is sent in bridge DW, rectifier bridge DW connection, sends type filter circuit to pass through resistance R5, R6, R7 and chip U1 connections, chip U1
Metal-oxide-semiconductor Q1 grid is connected, the type filter circuit of group is also connected to metal-oxide-semiconductor Q1 drain electrode, resistance by transformer T armature winding
R4 is connected to the both ends of transformer T armature winding, the first output end 1 and the second output end 2 of transformer T1 secondary windings
Between export 12V DC power supply, photoelectrical coupler OC, voltage-stabiliser tube DZ, electric capacity C11, resistance R15-R17 and resistance R20, R21 structure
Into feedback control loop.
Further, the wireless power circuit includes electric capacity C12-C14 and three-terminal regulator block U2, three-terminal regulator block U2's
First end is connected with the 12V DC power supply of above-mentioned transformer T1 secondary windings, and is grounded by electric capacity C12, three-terminal voltage-stabilizing
Block U2 the second end ground connection, three-terminal regulator block U2 three-polar output+5V dc sources, and be grounded by electric capacity C13, three ends are steady
Briquetting U2 the 3rd end is also grounded by electric capacity C14;The radio control circuit includes wireless receiving circuit and controller circuitry,
Wireless receiving circuit includes chip U4 and electric capacity C18, and chip U4 is the integrated chip for receiving 433MHZ frequency band signals, and it
One end is connected with 5V dc sources and is grounded by C18, and the second end is connected with controller circuitry, the 3rd end ground connection, controller electricity
Road includes chip U3, chip U5, electric capacity C15-C17, resistance R22-R23, power supply indicator LED1 and codan lamp
LED2, chip U3 first end and three-terminal regulator block U2 three-terminal link, the second end DA are connected with chip U4 the second end, the
Three-terminal link codan lamp LED2 negative electrode, LED2 anode pass through resistance R23 and transformer T1 secondary windings
Second output end 2 connects, and the second output end 2 of transformer T1 secondary windings also passes through resistance R23 and power supply indicator LED1
Anode connection, power supply indicator LED1 negative electrode is connected with the first output end 1 of transformer T1 secondary windings, chip U3's
4th end TX is connected with chip U5 first end, and chip U5 the second end is control terminal 3, and chip U5 the 3rd end is grounded, and is led to
Electric capacity C17 and chip U5 the 4th end are crossed, chip U5 the 4th end is connected with+5V dc sources, and chip U3 the 5th end passes through
Resistance R22 is connected with+5V dc sources, is also grounded by electric capacity C15, chip U3 the 6th end ground connection, chip U3 the 7th end
It is grounded by electric capacity C16.
Further, the lamp string constant current and control circuit include chip U6, chip U7, resistance R24-R28, electric capacity C19-
C20 and indicator lamp LED3, the lamp group 60 include some lamp string LS1-LS3, and chip U6 the first pin is vacant, crus secunda and chip
U7 connections, the 3rd pin to the 5th pin connect some lamp string LS1-LS3, power end and the second of transformer T1 secondary windings respectively
Output end 2 is connected, and the 6th pin is vacant, and the 7th pin is faced by resistance R25 and transformer T1 secondary windings the first output end 1
Street, octal are connected by resistance R24 with chip U5 control terminal 3, and the secondary windings for passing through electric capacity C20 and transformer T1
Second output end 2 is connected, and chip U7 the first pin is connected by resistance R27 and transformer T1 secondary windings the second output end 2
Connect, crus secunda is connected with the second output end 2 of transformer T1 secondary windings, and the 3rd pin is connected with chip U6 crus secunda, also
It is connected by resistance R28, R26 and electric capacity C19 with the second output end 2 of transformer T1 secondary windings, the connection instruction of the 4th pin
Lamp LED3 negative electrode, indicator lamp LED3 anode are connected with electric capacity C19, and are connected with some lamp string LS1-LS3 etc., and the 5th pin connects
It is connected between resistance R26 and resistance R28.
The multifunction wireless of the present invention shakes control outdoor lights string by isolating constant voltage outputting circuit respectively to radio control circuit
And lamp group module for power supply, the power supply of each lamp group module are independent of each other, the control mode of lamp group module is flexible, control mode letter
Single, control, long transmission distance can be achieved in single line.
Embodiment
In order to make the purpose , technical scheme and advantage of the present invention be clearer, it is right below in conjunction with drawings and Examples
The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and
It is not used in the restriction present invention.
Fig. 1 is refer to, the present invention provides a kind of multifunction wireless and shakes the outdoor lamp string of control, including isolation constant voltage outputting circuit
10th, Digiplex 20, radio control circuit 30, wireless power circuit 40, some lamp string constant currents and control circuit 50, Yi Jiruo
Dry lamp group 60.
Isolation constant voltage outputting circuit 10 is connected with external communication electricity AC, for external communication electricity AC to be converted into direct current simultaneously
Export constant-voltage DC source.
Wireless power circuit 40 is all connected with isolating constant voltage outputting circuit 10 and radio control circuit 30, Digiplex 20
With the radio communication of radio control circuit 30.It is radio control circuit 30 to isolate constant voltage outputting circuit 10 by wireless power circuit 40
Power supply.The constant-voltage DC source that isolation constant voltage outputting circuit 10 exports is converted to controlled in wireless electricity by the wireless power circuit 40
Voltage needed for road 30.
Digiplex 20 is used to send control instruction, and radio control circuit 30 receives the control instruction and to control instruction
Decode and be converted to control signal.
Radio control circuit 30 includes the wireless receiving circuit 32 and controller circuitry 34 being connected with each other.Wireless receiving circuit
32 are used to receive the control instruction that Digiplex 20 is sent, and controller circuitry 34 is used to carry out decoding operate simultaneously to control instruction
Control signal is converted to, and control signal is transferred to corresponding lamp group 60 from corresponding output channel.
Lamp string constant current and control circuit 50 are all connected with isolating constant voltage outputting circuit 10 and radio control circuit 30.Lamp string is permanent
Stream and control circuit 50 are also connected with lamp group 60.It is lamp group to isolate constant voltage outputting circuit 10 by lamp string constant current and control circuit 50
60 power supplies.Lamp string constant current and the one side of control circuit 50 are converted to the constant-voltage DC source that isolation constant voltage outputting circuit 10 exports
Constant-current supply, on the other hand drive and control lamp group 60.The lamp group 60 of each lamp string constant current and control circuit 50 and corresponding connection
Form lamp group module 70.Some lamp group modules 70 are parallel with one another.
Fig. 2 is refer to, isolation constant voltage outputting circuit 10 includes some protection elements, such as fuse F, piezo-resistance VSR, heat
Quick resistance RT, and EMC power filter elements, such as common mode inductance LD, differential mode capacitor C1, and resistance R1-R21, rectifier bridge DW,
Type filter circuit is sent, such as electric capacity C2, C3 and inductance L1, and chip U1, metal-oxide-semiconductor Q1, electric capacity C4-C11, diode D1-D5, is become
Depressor T1, photoelectrical coupler OC and voltage-stabiliser tube DZ.
Input ac voltage 120V/60HZ passes through protection element (fuse F, piezo-resistance VSR, thermistor RT), EMC
Power filter element (common mode inductance LD, differential mode capacitor C1) reaches rectifier bridge DW, and 120V alternating voltages are converted into by rectifier bridge DW
The DC voltage of pulsation, then by sending type filter circuit (electric capacity C2, C3 and inductance L1) to become smoother dc source, should
Dc source is divided into two-way:All the way by R5, R6, R7 reach chip U1 VDD pin to ensure that chip U1 can be opened normally for the first time
It is dynamic, and the grid for the 1st pin generation high level signal driving metal-oxide-semiconductor Q1 for passing through chip U1;The primary that another way passes through transformer T
Winding reaches metal-oxide-semiconductor Q1 drain electrode so that metal-oxide-semiconductor Q1 is turned on, transformer T1 armature winding storage energy, when energy reaches one
When determining degree, when the resistance at both ends rises to certain threshold voltage (0.47V) on resistance R4, U1 the 4th pin will produce dynamic
U1 the 1st pin is allowed to export low level, metal-oxide-semiconductor Q1 shut-offs, transformer T1 armature winding releases energy, wherein passing through change all the way
Depressor T1 secondary windings produces opposite induced voltage, conveys energy to rear class, another way is continued to core by assists winding
Piece U1 VDD pin power supply, to ensure that chip U1 can continual work.First output end 1 of transformer T1 secondary windings
And second export 12V DC power supply between output end 2.
Photoelectrical coupler OC, voltage-stabiliser tube DZ, electric capacity C11, resistance R15-R17 and resistance R20, R21 form feedback control loop with
The output voltage of adjustment transformer T1 secondary windings is simultaneously stablized in 12V.
Fig. 3 is refer to, wherein wireless power circuit includes electric capacity C12-C14 and three-terminal regulator block U2, three-terminal regulator block U2
First end be connected with the 12V DC power supply of above-mentioned transformer T1 secondary windings, and be grounded by electric capacity C12, three ends are steady
Briquetting U2 the second end ground connection, three-terminal regulator block U2 three-polar output+5V dc sources, and be grounded by electric capacity C13, three ends
Regulator block U2 the 3rd end is also grounded by electric capacity C14.
The effect of wireless power circuit is into the voltage needed for the control chip of controller circuitry 12V DC Power convert
+ 5V dc sources, 12V DC power supply have been directly changed into+5V dc sources by three-terminal regulator block U3, and electric capacity C13, C14 are
Filter capacitor.
Radio control circuit includes wireless receiving circuit and controller circuitry.Wireless receiving circuit includes chip U4 and electric capacity
C18, chip U4 are the integrated chips of a special responsible reception 433MHZ frequency band signals, and its first end connects with 5V dc sources
Connect and be grounded by C18, the second end is connected with controller circuitry, the 3rd end ground connection.
Controller circuitry include chip U3, chip U5, electric capacity C15-C17, resistance R22-R23, power supply indicator LED1 and
Codan lamp LED2.
Chip U3 first end and three-terminal regulator block U2 three-terminal link, the second end DA and chip U4 the second end connect
Connect, three-terminal link codan lamp LED2 negative electrode, LED2 anode by resistance R23 and transformer T1 it is secondary around
Second output end 2 of group connects.Second output end 2 of transformer T1 secondary windings also passes through resistance R23 and power supply indicator
LED1 anode connection, power supply indicator LED1 negative electrode are connected with the first output end 1 of transformer T1 secondary windings.
Chip U3 the 4th end TX is connected with chip U5 first end, and chip U5 the second end is control terminal 3, chip U5's
3rd end is grounded, and by electric capacity C17 and chip U5 the 4th end, chip U5 the 4th end is connected with 5V dc sources.
Chip U3 the 5th end is connected by resistance R22 with 5V dc sources, is also grounded by electric capacity C15.
Chip U3 the 6th end ground connection, chip U3 the 7th end is grounded by electric capacity C16.
Chip U3 is single-chip microcomputer, and the signal for being responsible for wireless receiving to come carries out decoding operate, is exported by the 4th end TX,
Reinforcement driving is carried out by chip U5 again, operation is controlled to each lamp group afterwards.
Wherein, power supply indicator LED1 is green light, and codan lamp LED2 is bi-colour light, is shown during reception signal red
Color.
Fig. 4 is refer to, lamp group module 70 includes lamp string constant current and control circuit 50 and lamp group 60, lamp string constant current and control electricity
Road 50 includes chip U6, chip U7, resistance R24-R28, electric capacity C19-C20 and indicator lamp LED3.Lamp group 60 includes some lamp strings
LS1-LS3 etc..
Chip U6 the first pin is vacant, and crus secunda is connected with chip U7, and the 3rd pin to the 5th pin connects some lamp strings respectively
LS1-LS3, power end are connected with the second output end 2 of transformer T1 secondary windings, and the 6th pin is vacant, and the 7th pin passes through resistance
R25 and transformer T1 secondary windings the first output end 1 are overlooking, and octal is connected by resistance R24 and chip U5 control terminal 3
Connect, and be connected by electric capacity C20 with the second output end 2 of transformer T1 secondary windings.
Chip U7 the first pin is connected by resistance R27 with the second output end 2 of transformer T1 secondary windings, crus secunda
It is connected with the second output end 2 of transformer T1 secondary windings, the 3rd pin is connected with chip U6 crus secunda, also passes through resistance
R28, R26 and electric capacity C19 are connected with the second output end 2 of transformer T1 secondary windings, the 4th pin connection indicator lamp LED3's
Negative electrode, indicator lamp LED3 anode are connected with electric capacity C19, and are connected with some lamp string LS1-LS3 etc., and the 5th pin is connected to resistance
Between R26 and resistance R28.
Its chips U6 is responsible for receiving control signal, and chip U7 is responsible for current constant control work.
The present invention is powered to radio control circuit 30 and lamp group module 70 respectively by isolating constant voltage outputting circuit 10, each
The power supply of lamp group module 70 is independent of each other, and can concentrate or control each lamp group module 70 respectively, and each lamp group module 70 is again
Individual separate component, it is possible to achieve Synchronization Control, flowing water control can be realized again, control mode is flexible, and control mode is simple, single line
Control, long transmission distance can be achieved.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention
All any modification, equivalent and improvement made within refreshing and principle etc., should be included in the scope of the protection.