Utility model content
Based on this, it is necessary to provide a kind of LED light modulating devices based on encoded signal and system, ensure that LED lamp
Luminous flux, and relatively conventional dimming power source can reduce volume and cost.
A kind of LED light modulating devices based on encoded signal, it include AC-DC mu balanced circuits, coding input change-over circuit,
Pwm signal process circuit and controlled light adjusting circuit;
The input of the AC-DC mu balanced circuits is used to access civil power, and the first output end of the AC-DC mu balanced circuits connects
The first power end of the coding input change-over circuit is connect, the second output end of the AC-DC mu balanced circuits connects the PWM letters
The second source end of number process circuit, the 3rd output end of the AC-DC mu balanced circuits connects the defeated of the controlled light adjusting circuit
Enter end;
The input of the coding input change-over circuit is used to connect coding dispensing device, the coding input change-over circuit
Output end connect the input of the pwm signal process circuit;
The output end of the pwm signal process circuit connects the control end of the controlled light adjusting circuit, described by controlled dimming
The output end of circuit is used to connect LED lamp.
In one of the embodiments, the coding input change-over circuit includes coding input sub-circuit, singlechip chip
U5, crystal oscillator Y1, electric capacity C24, electric capacity C25, electric capacity C26 and electric capacity C27;
The input of the coding input sub-circuit be used for connect coding dispensing device, the coding input sub-circuit it is defeated
Go out end connection singlechip chip U5 signal input pin;
Vibration electricity in oscillating circuit input pin and the singlechip chip U5 piece in the piece of the singlechip chip U5
Road output pin connects oscillating circuit input pin in the two ends of the crystal oscillator Y1, the piece of the singlechip chip U5 and also led to respectively
Oscillating circuit output pin in the electric capacity C26 ground connection, the piece of the singlechip chip U5 is crossed also to connect by the electric capacity C27
Ground, the power input pin of the singlechip chip U5 connects the first output end of the AC-DC mu balanced circuits, the single-chip microcomputer
Chip U5 power input pin is additionally operable to be grounded by the electric capacity C24, and the reset pin of the singlechip chip U5 is used for
It is grounded by the electric capacity C25, the first output pin of the singlechip chip U5 connects the pwm signal process circuit
First input end, the second output pin of the singlechip chip U5 connects the second input of the pwm signal process circuit.
In one of the embodiments, the coding input sub-circuit includes communication connecting seat J3, the communication connecting seat
J3 power pins connect the first output end of the AC-DC mu balanced circuits, two output pins of the communication connecting seat J3
Two signal input pins of the singlechip chip U5 are connected respectively.
In one of the embodiments, the coding input sub-circuit includes wireless communication module J4, button SW1, lighted
Diode (LED) 1 and resistance R46;
The power pins of the wireless communication module J4 connect the first output end of the AC-DC mu balanced circuits, the nothing
Line communication module J4 the first input pin connects the negative electrode of the LED 1, the sun of the LED 1
Pole is by the first output end of the resistance R46 connections AC-DC mu balanced circuits, and the second of the wireless communication module J4 is defeated
Enter one end that pin connects the button SW1, the other end of the button SW1 is used to be grounded, the wireless communication module J4's
Two output pins connect two signal input pins of the singlechip chip U5 respectively.
In one of the embodiments, the pwm signal process circuit includes resistance R32, resistance R33, resistance R34, electricity
Hinder R35, resistance R36, resistance R37, resistance R38, electric capacity C12, electric capacity C12 and metal-oxide-semiconductor Q4;
The grid of the metal-oxide-semiconductor Q4 connects the first output end of the coding input change-over circuit, the metal-oxide-semiconductor Q4's
Grid is also by the second output end of the resistance R37 connections AC-DC mu balanced circuits, and the grid of the metal-oxide-semiconductor Q4 is also used
It is grounded in by the resistance R38, the drain electrode of the metal-oxide-semiconductor Q4 passes sequentially through the resistance R36 of series connection, the resistance R34
And the second output end of the resistance R32 connections AC-DC mu balanced circuits, the source electrode of the metal-oxide-semiconductor Q4 is for being grounded;
One end of the resistance R35 connects the connecting node between the resistance R36 and the resistance R34, the resistance
The R35 other end is used to be grounded;
One end of the electric capacity C12 by the second output end of the resistance R33 connections coding input change-over circuit,
One end of the electric capacity C12 is also connected with the connecting node between the resistance R34 and the resistance R32, and the electric capacity C12's is another
One end is used to be grounded;
Connecting node between the resistance R34 and the resistance R36 as the pwm signal process circuit output
End, connects the control end of the controlled light adjusting circuit.
In one of the embodiments, the controlled light adjusting circuit include constant current chip U2, metal-oxide-semiconductor Q5, sampling resistor RS,
Resistance R22, resistance R30, resistance R33, resistance R331, electric capacity C10, electric capacity C11, electric capacity C13, common mode inductance L4, inductance L5, two
Pole pipe D7;
The input pin of the constant current chip U2 connects the 3rd output end of the AC-DC mu balanced circuits, the constant current core
Piece U2 input pin is also connected with the negative electrode of the diode D7, and the power pins of the constant current chip U2 pass through the electric capacity
C11 is grounded, and the controlling switch of the constant current chip U2 connects the output end of the PWM signal processing circuits, the constant current chip
U2 current sample pin passes through the 3rd output end of the sampling resistor RS connections AC-DC mu balanced circuits, the constant current
Chip U2 current sample pin is also respectively connected with the electric capacity C13 first ends and the common mode inductance L4 first input end,
The output pin of the constant current chip U2 connects the resistance R31 first ends respectively by the resistance R30 and the MOS is managed
Q5 grid;
The ends of resistance R31 second and the metal-oxide-semiconductor Q5 source electrode are respectively used to ground connection, and the drain electrode of the MOS pipes Q5 is led to
Cross the inductance L5 connects anode, the ends of electric capacity C13 second and the common mode inductance L4 of the diode D7 respectively
Two inputs;
The two ends of the resistance R22 connect the first output end and the common mode inductance L4 of the common mode inductance L4 respectively
Second output end, the electric capacity C10 is in parallel with the resistance R22;
The first output end of the common mode inductance L4 and the second output end of the common mode inductance L4 respectively as it is described by
Two output ends of controlled dimming circuit, for connecting LED lamp.
In one of the embodiments, the AC-DC mu balanced circuits include input filter commutation sub-circuit, transformer electricity
Road, power switch sub-circuit, chip power supply sub-circuit, the first output sub-circuit and the second output sub-circuit, transformer
Circuit includes armature winding, the first secondary windings, second subprime winding and third time level winding;
The input of the input filter commutation sub-circuit is used to access civil power, the input filter commutation sub-circuit it is defeated
Go out end and connect the first end of the armature winding and the 3rd power end of the power switch sub-circuit respectively;
The output end of the power switch sub-circuit connects the second end of the armature winding;
First secondary windings first end connection it is described first output sub-circuit input, first level around
Second end of group is used to be grounded, and the first output end of the first output sub-circuit connects the of the coding input change-over circuit
One power end, the second output end of the first output sub-circuit connects the second source end of the PWM signal processing circuits;
The first end of the second subprime winding connects the 3rd power end by the chip power supply sub-circuit, described
Second end of second subprime winding is used to be grounded;
The input of first end connection the second output sub-circuit of third time level winding, the third time level around
Second end of group is used to be grounded, and the output end of the second output sub-circuit connects the input of the controlled light adjusting circuit.
In one of the embodiments, the first output sub-circuit includes voltage stabilizing chip U6, diode D6, the pole of voltage stabilizing two
Pipe ZD2, triode Q3, resistance R19, electric capacity EC2, electric capacity C9 in parallel and electric capacity C20 and the electric capacity C21 and electric capacity of parallel connection
C22;
The anode of the diode D6 connects the first end of first secondary windings, and the negative electrode of the diode D6 passes through
The resistance R20 connects the first end of the electric capacity EC2 and the colelctor electrode of the triode Q3, the hair of the triode Q3 respectively
Emitter-base bandgap grading connects the second output pin of the voltage stabilizing chip U6, and the base stage of the triode Q3 passes through the resistance R19 connections institute
State electric capacity EC2 first end, the base stage of the triode Q3 is also connected with described, the anode of the voltage-regulator diode ZD2 and described
Electric capacity EC2 the second end is respectively used to ground connection;
The electric capacity C9 in parallel and electric capacity C20 one end connect the second output pin of the voltage stabilizing chip U6, it is described simultaneously
Electric capacity C9 and electric capacity the C20 other end of connection are used to be grounded;
The electric capacity C21 in parallel and electric capacity C22 one end connect the first output pin of the voltage stabilizing chip U6, it is described simultaneously
Electric capacity C21 and electric capacity the C22 other end of connection are used to be grounded;
The first output pin of the voltage stabilizing chip U6 is the first output end of the described first output sub-circuit;The voltage stabilizing
Chip U6 the second output pin is the second output end of the described first output sub-circuit.
In one of the embodiments, the second output sub-circuit includes diode D5, the resistance R21 and electricity of series connection
Hold C4, and electric capacity EC3 and electric capacity EC4 in parallel;
The resistance R21 and electric capacity C4 of the series connection are in parallel with the diode D5, the anode connection institute of the diode D5
The first end of third time level winding is stated, the negative electrode of the diode D5 connects the electric capacity EC3 in parallel and electric capacity EC4 one end,
The electric capacity EC3 in parallel and the electric capacity EC4 other ends are used to be grounded, and the negative electrode of the diode D5 is used as the described second output
The output end of circuit, is also connected with the input of the controlled light adjusting circuit.
A kind of LED light adjusting systems based on encoded signal, its LED for including described in LED lamp and as described above any one is adjusted
Electro-optical device, wherein the LED lamp is connected with the output end of the controlled light adjusting circuit of the LED light modulating devices.
Above-mentioned LED light modulating devices and system, PWM letters are converted to by coding input change-over circuit by external encode signal
Number, LED/light source is dimmed according to pwm signal output current so that LED/light source can be as positioning node, applied to VLC skills
Art.It is defeated so as to be improved by adjusting dutycycle due to external encode signal is converted into the adjustable pwm signal of dutycycle
Go out electric current, to ensure the luminous flux of LED lamp;Due to without setting high-power driver in addition, so that relatively conventional light modulation
Power supply, can reduce volume and cost.Therefore, above-mentioned LED light modulating devices, can have in the case where keeping mutually equal luminous flux
Effect reduces the volume and cost of power supply.
Embodiment
To enable above-mentioned purpose of the present utility model, feature and advantage more obvious understandable, below in conjunction with the accompanying drawings to this
The embodiment of utility model is described in detail.Elaborate many details in order to abundant in the following description
Understand the utility model.But the utility model can be implemented with being much different from other manner described here, this area
Technical staff can do similar improvement in the case of without prejudice to the utility model intension, therefore the utility model is not by following public affairs
The limitation for the specific embodiment opened.
In addition, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or implying relative importance
Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or
Implicitly include at least one this feature.In description of the present utility model, " multiple " are meant that at least two, such as two
It is individual, three etc., unless otherwise specifically defined.
For example, a kind of LED light modulating devices based on encoded signal, it includes AC (Alternating current, exchange
Electricity)-DC (Direct current, direct current) mu balanced circuit, coding input change-over circuit, PWM (Pulse Width
Modulation, pulse width modulation) signal processing circuit and controlled light adjusting circuit;Wherein, the input of AC-DC mu balanced circuits
Hold for accessing civil power, the first output end of AC-DC mu balanced circuits connects the first power end of coding input change-over circuit, AC-
Second output end of DC mu balanced circuits connects the second source end of pwm signal process circuit, the 3rd output of AC-DC mu balanced circuits
The input of the controlled light adjusting circuit of end connection;The input of coding input change-over circuit is used to connect coding dispensing device, coding
The output end for inputting change-over circuit connects the input of pwm signal process circuit;Pwm signal process circuit output end connection by
The control end of controlled dimming circuit, the output end of controlled light adjusting circuit is used to connect LED lamp, for example, the two of controlled light adjusting circuit
Individual output end is respectively used to connect the positive pole and negative pole of LED lamp.
Referring to Fig. 1, its structure for the LED light modulating devices 100 based on encoded signal of the embodiment of the utility model one
Schematic diagram.As shown in figure 1, the LED light modulating devices include AC-DC mu balanced circuits 110, coding input change-over circuit 120, PWM
Signal processing circuit 130 and controlled light adjusting circuit 140, wherein, the input of AC-DC mu balanced circuits is used to access civil power, AC-
First output end of DC mu balanced circuits connects the first power end of coding input change-over circuit, and the second of AC-DC mu balanced circuits is defeated
Go out the second source end of end connection pwm signal process circuit, the 3rd output end of AC-DC mu balanced circuits connects controlled light adjusting circuit
Input;The input of coding input change-over circuit is used to connect coding dispensing device, the output of coding input change-over circuit
The input of end connection pwm signal process circuit;The output end of pwm signal process circuit connects the control of controlled light adjusting circuit
End, the output end of controlled light adjusting circuit is used to connect LED lamp, for example, two output ends of controlled light adjusting circuit are respectively used to
Connect the positive pole and negative pole of LED lamp.
In the present embodiment, AC-DC mu balanced circuits are carried out at rectification, voltage conversion and voltage stabilizing to the electric main of access
Reason, obtains at least three road galvanic current pressure outputs, and at least three road galvanic current pressures are respectively coding input conversion
Circuit, pwm signal process circuit and controlled light adjusting circuit are powered.
Coding input change-over circuit is used to obtain external encode signal, and the decoding of external encode signal is converted into in-line coding
Signal and PWM dim signals, and in-line coding signal and PWM dim signals are exported to PWM signal processing circuits.Wherein, compile
Code input change-over circuit is by communicating the outside transmitted by the coding dispensing device outside connecting seat or wireless communication module reception
Encoded signal.For example, outside coding dispensing device is host computer.
As a kind of embodiment, coding input change-over circuit includes singlechip chip, by singlechip chip by outside
Encoded signal decoding is converted to in-line coding signal and PWM dim signals.For example, the PWM dim signals are that dutycycle is adjustable
Pwm signal.
Pwm signal process circuit adjusts the control signal voltage of its output according to in-line coding signal and PWM dim signals
Value, and the control signal is sent to controlled light adjusting circuit, controlled light adjusting circuit is according to the magnitude of voltage of the control signal to LED
Tool is dimmed.For example, controlled dimming circuit adjusts the current value of its output according to the magnitude of voltage of the control signal, with to LED
Tool is dimmed.
Above-mentioned LED light modulating devices, PWM signals are converted to by coding input change-over circuit by external encode signal, according to
Pwm signal output current is dimmed to LED/light source so that LED/light source can be as positioning node, applied to VLC technologies.Due to
External encode signal is converted into the adjustable pwm signal of dutycycle, so as to improve output current by adjusting dutycycle,
To ensure the luminous flux of LED lamp;Due to without setting high-power driver in addition, so that relatively conventional dimming power source, energy
Enough reduce volume and cost.Therefore, above-mentioned LED light modulating devices, can be effectively reduced in the case where keeping mutually equal luminous flux
The volume and cost of power supply.
In one of the embodiments, as shown in Figure 2 b, coding input change-over circuit 120 includes coding input sub-circuit
121st, singlechip chip U5, crystal oscillator Y1, electric capacity C24, electric capacity C25, electric capacity C26 and electric capacity C27;Wherein coding input sub-circuit
Input be used to connect coding dispensing device, the output end connection singlechip chip U5 of coding input sub-circuit signal input
Pin;Oscillating circuit output pin point in oscillating circuit input pin and singlechip chip U5 piece in singlechip chip U5 piece
Not Lian Jie crystal oscillator Y1 two ends, oscillating circuit input pin is also grounded by electric capacity C26 in singlechip chip U5 piece, single-chip microcomputer
Oscillating circuit output pin is also grounded by electric capacity C27 in chip U5 piece, singlechip chip U5 power input pin connection
First output end of AC-DC mu balanced circuits, singlechip chip U5 power input pin is additionally operable to be grounded by electric capacity C24, single
Piece movement piece U5 reset pin is used to be grounded by electric capacity C25, singlechip chip U5 the first output pin connection pwm signal
The first input end of process circuit, the second input of singlechip chip U5 the second output pin connection pwm signal process circuit
End.
Wherein, electric capacity C26, electric capacity C27 and crystal oscillator Y1 constitute singlechip chip U5 oscillating circuit, and the oscillating circuit is combined
Circuit inside singlechip chip U5 produces the clock frequency needed for singlechip chip U5.Electric capacity C25 and electric capacity C24 are respectively used to
Filtering.
Specifically, external encode Signal coding is converted to in-line coding signal PWM_code and PWM by singlechip chip U5
Dim signal PWM_dim, singlechip chip U5 the first output pin send in-line coding signal PWM_code to pwm signal
The first input end of process circuit, singlechip chip U5 the second output pin sends PWM dim signals PWM_dim to PWM
Second input of signal processing circuit.Wherein, in-line coding signal PWM_code is pressed by the square-wave signal of multiple different cycles
The requirement sequence of setting is obtained.For example, as shown in figure 4, in-line coding signal PWM_code is respectively t0, t1, t2, t3 by the cycle
Obtained etc. the order arrangement of multiple square-wave signals, wherein t0 represents code 0, and t1 represents code 1, and t2 represents code 2, and t3 represents code
3, because the cycle of each code is different, each code may make up an ID according to a kind of permutation and combination of presetting digit capacity
One of them 7 ID that (identification, identity), such as above-mentioned 4 codes are constituted for [0,1,3,1,0,
3,2].Wherein, when presetting digit capacity is that N, code number are M, N N ID of M powers are may make up, such as above-mentioned 4 codes can
Constitute 74 powers totally 2401 ID.
Wherein, external encode signal is acquired from external encode dispensing device.For example, coding input sub-circuit 121 is wrapped
Communication at least one of link block 121a and wireless communication module 121b are included, it is outer to receive host computer etc. by communication connecting seat 121a
The external encode signal of portion's coding dispensing device transmission, or the external encodes such as host computer hair is received by wireless communication module 121b
Send the external encode signal that device is wirelessly sent.
For example, as shown in Figure 2 b, coding input sub-circuit includes communication connecting seat J3, communication connecting seat J3 power supply draws
Pin connects the first output end of AC-DC mu balanced circuits, and communication connecting seat J3 two output pins connect singlechip chip respectively
U5 two signal input pins.And for example, communication connecting seat J3 passes through UART (Universal Asynchronous
Receiver/Transmitter, UART Universal Asynchronous Receiver Transmitter) external encode signal is sent to singlechip chip U5 by agreement.Again
Such as, external encode signal includes UART_RX signals and UART_TX signals, and singlechip chip U5 is inputted including at least two signals
Pin, UART_RX signals and UART_TX signals are separately input into two signal input pins different in singlechip chip U5.
And for example, as shown in Figure 2 b, coding input sub-circuit includes wireless communication module J4, button SW1, light emitting diode
LED1 and resistance R46;Wireless communication module J4 power pins 8 connect the first output end of AC-DC mu balanced circuits, wireless telecommunications
The connecting luminous diode LED1 of the first input pin 4 of module J 4 negative electrode, the anode of LED 1 passes through resistance R46
The first output end of AC-DC mu balanced circuits is connected, wireless communication module J4 the second input pin 3 connects button SW1 one end,
The button SW1 other end is used to be grounded, and wireless communication module J4 two output pins 6 and 7 connect singlechip chip U5 respectively
Two signal input pins.When button SW1 is pressed, wireless communication module J4 starts, and receives the coding such as host computer and sends
The external encode signal that device is sent, the external encode signal includes UART_RX signals and UART_TX signals, wireless telecommunications mould
Block J4 sends the UART_ to singlechip chip U5 two signal input pins respectively by output pin 6 and output pin 7
RX signals and UART_TX signals.
Wherein, LED 1 is used for the state for indicating wireless communication module J4, for example, as wireless communication module J4
When in running order, the conducting of LED 1 is luminous.
In one of the embodiments, as shown in Figure 2 b, pwm signal process circuit includes resistance R32, resistance R33, resistance
R34, resistance R35, resistance R36, resistance R37, resistance R38, electric capacity C12, electric capacity C12 and metal-oxide-semiconductor Q4;Wherein metal-oxide-semiconductor Q4 grid
Pole connects the first output end of coding input change-over circuit, metal-oxide-semiconductor as the first input end of the pwm signal process circuit
Q4 grid is also by the second output end of resistance R37 connection AC-DC mu balanced circuits, and metal-oxide-semiconductor Q4 grid is additionally operable to by electricity
R38 ground connection is hindered, metal-oxide-semiconductor Q4 drain electrode passes sequentially through the resistance R36 of series connection, resistance R34 and resistance R32 connection AC-DC voltage stabilizings electricity
Second output end on road, metal-oxide-semiconductor Q4 source electrode is used to be grounded;Between resistance R35 one end connection resistance R36 and resistance R34
Connecting node, the resistance R35 other end is used to be grounded;Electric capacity C12 one end passes through resistance R33 connection coding input change-over circuits
The second output end, electric capacity C12 one end is also connected with the connecting node between resistance R34 and resistance R32, and electric capacity C12's is another
Hold for being grounded;Connecting node between resistance R34 and resistance R36 is connected controlled as the output end of pwm signal process circuit
The control end of light adjusting circuit.
In the present embodiment, the first output end output in-line coding signal PWM_code of coding input change-over circuit, coding
Input the second output end output PWM dim signals PWM_dim of change-over circuit.Wherein, as shown in figure 5, PWM dim signals PWM_
After dim is filtered via the resistance R33 and electric capacity C12 RC filter circuits constituted, light modulation reference voltage is formed at electric capacity C12 two ends
DIM_ref,
The light modulation reference voltage DIM_ref determines the maximum of output current after R34, R35 partial pressure.In-line coding signal
PWM_code is sent to metal-oxide-semiconductor Q4 grid, control metal-oxide-semiconductor Q4 drain-source voltage, when metal-oxide-semiconductor Q4 ends, at pwm signal
The output end voltage for managing circuit is higher, exports high level;When metal-oxide-semiconductor Q4 is turned on, resistance R36 is in parallel with resistance R35, PWM letters
The voltage reduction of the output end (connecting node i.e. between resistance R34, resistance R35, resistance R36 three) of number process circuit, it is defeated
Go out low level.As shown in fig. 6, the control signal DIM of the output end output of pwm signal process circuit is cut between low and high level
Change, control signal DIM is corresponding with in-line coding signal PWM_code cycle and dutycycle.
Wherein, magnitudes of voltage of the control signal DIM in low level is relevant with resistance R36 resistance, by adjusting resistance R36
Resistance, can set magnitude of voltage during control signal DIM low levels, so as to adjust the output current of controlled light adjusting circuit.For example,
By adjusting resistance R36 resistances so that when control signal DIM is low level, the output current of controlled light adjusting circuit can be more than
The 50% of maximum output current, so as to improve the luminous flux of LED light sources.
In one of the embodiments, as shown in Figure 2 b, controlled light adjusting circuit includes constant current chip U2, MOS pipe Q5, adopted
Sample resistance RS, resistance R22, resistance R30, resistance R33, resistance R331, electric capacity C10, electric capacity C11, electric capacity C13, common mode inductance L4,
Inductance L5, diode D7;Wherein constant current chip U2 input pin connects the 3rd output end of AC-DC mu balanced circuits, constant current core
Piece U2 input pin is also connected with diode D7 negative electrode, and constant current chip U2 power pins are grounded by electric capacity C11, constant current core
Piece U2 controlling switch connects the output end of pwm signal process circuit, constant current chip as the control end of controlled light adjusting circuit
U2 current sample pin passes through the 3rd output end of sampling resistor RS connection AC-DC mu balanced circuits, constant current chip U2 electric current
Sampling pin is also respectively connected with electric capacity C13 first ends and common mode inductance L4 first input end, constant current chip U2 output pin
Connect resistance R31 first ends and metal-oxide-semiconductor Q5 grid respectively by resistance R30;The ends of resistance R31 second and metal-oxide-semiconductor Q5 source electrode
Ground connection is respectively used to, metal-oxide-semiconductor Q5 drain electrode connects diode D7 anode, the ends of electric capacity C13 second by inductance L5 and is total to respectively
Mould inductance L4 the second input;Resistance R22 two ends connect common mode inductance L4 the first output end and common mode inductance L4 respectively
The second output end, electric capacity C10 is in parallel with resistance R22;Common mode inductance L4 the first output end and the second of common mode inductance L4 defeated
Go out two output ends of the end respectively as controlled light adjusting circuit, for connecting LED lamp.
Constant current chip U2 is according to the correspondingly sized electric current of the voltage output of its controlling switch (DIM pin).That is, constant current chip is worked as
When U2 DIM pin receive the low and high level for the control signal DIM that pwm signal process circuit is exported after code conversion, according to height
Low level magnitude of voltage exports corresponding electric current.For example, when the code sequence of encoded signal is [0,1,3,1,0,3,2], it is permanent
Flow chip U2 and export current waveform as shown in Figure 7.As shown in fig. 6, electric current during low level could be arranged to maximum current
0-70%, so, when low level, is maintained to higher output current, so as to keep mutually equal light
The volume and cost of power supply are effectively reduced in the case of flux.
In one embodiment, as shown in figure 3, AC-DC mu balanced circuits 110 include input filter commutation sub-circuit 111, become
Depressor sub-circuit 112, power switch sub-circuit 113, the output sub-circuit 115 and second of chip power supply sub-circuit 114, first are exported
Sub-circuit 116, wherein transformer sub-circuit include armature winding T1a, the first secondary windings T1b, second subprime winding T1c and the
Three secondary windings T1d;The input of input filter commutation sub-circuit is used to access civil power, the output of input filter commutation sub-circuit
End connects the first end of armature winding and the 3rd power end of power switch sub-circuit respectively;The output end of power switch sub-circuit
Connect the second end of armature winding;The first end connection first of first secondary windings exports the input of sub-circuit, first level
Second end of winding is used to be grounded, and the first output end of the first output sub-circuit connects the first power supply of coding input change-over circuit
End, the second output end of the first output sub-circuit connects the second source end of pwm signal process circuit;The of second subprime winding
One end connects the 3rd power end by chip power supply sub-circuit, and the second end of second subprime winding is used to be grounded;Third time level around
The first end connection second of group exports the input of sub-circuit, and the second end of third time level winding is used to be grounded, the second output
The output end of circuit connects the input of controlled light adjusting circuit.Wherein, the output end of the second output sub-circuit is that the AC-DC is steady
3rd output end of volt circuit.It is appreciated that the first power end, second source end and the 3rd power end are for the ease of differentiation
Title, the first power end of coding input change-over circuit is the power end of coding input change-over circuit, pwm signal process circuit
Second source end be pwm signal process circuit power end, the 3rd power end of power switch sub-circuit is that power supply is opened
The power end of climax circuit.
In the present embodiment, power switch sub-circuit includes power supply chip U1 and switching tube Q1, starts in power supply chip U1
Before, the voltage in the output end of input filter commutation sub-circuit 111 is exported after partial pressure to power supply chip U1 power pins, is
Power supply chip U1 powers with startup power supply chip U1.After power supply chip U1 starts, the first secondary windings T1b, second subprime winding
T1c and third time level winding T1d are respectively induced voltage, the sensing by chip power supply sub-circuit 114 to second subprime winding T1c
Voltage is handled, and is that power supply chip U1 powers.Wherein, the first secondary windings T1b induced voltage is through the first output sub-circuit
After processing, respectively coding input change-over circuit and pwm signal process circuit is powered, second subprime winding T1c induced voltage
It is that power supply chip U1 powers after being handled through chip power supply sub-circuit.
In one of the embodiments, as shown in Figure 2 a, first output sub-circuit include voltage stabilizing chip U6, diode D6,
Voltage-regulator diode ZD2, triode Q3, resistance R19, electric capacity EC2, electric capacity C9 in parallel and electric capacity C20 and the electric capacity C21 of parallel connection
With electric capacity C22;Diode D6 anode connects the first of the first secondary windings as the input of the described first output sub-circuit
End, diode D6 negative electrode connects electric capacity EC2 first end and triode Q3 colelctor electrode, triode by resistance R20 respectively
Q3 emitter stage connection voltage stabilizing chip U6 the second output pin, triode Q3 base stage passes through resistance R19 connection electric capacity EC2
First end, triode Q3 base stage is also connected with, and voltage-regulator diode ZD2 anode and electric capacity EC2 the second end are respectively used to connect
Ground;Electric capacity C9 in parallel and electric capacity C20 one end connection voltage stabilizing chip U6 the second output pin, electric capacity C9 in parallel and electric capacity
The C20 other ends are used to be grounded;Electric capacity C21 in parallel and electric capacity C22 one end connection voltage stabilizing chip U6 the first output pin, and
Electric capacity C21 and electric capacity the C22 other end of connection are used to be grounded;Voltage stabilizing chip U6 the first output pin is the first output sub-circuit
First output end;Voltage stabilizing chip U6 the second output pin is the second output end of the first output sub-circuit.For example, voltage stabilizing chip
U6 the first output pin output+3.3V constant pressure, voltage stabilizing chip U6 the second output pin output+12V constant pressure.
In one of the embodiments, the second output sub-circuit includes diode D5, the resistance R21 and electric capacity C4 of series connection,
And electric capacity EC3 and electric capacity EC4 in parallel;The resistance R21 and electric capacity C4 wherein connected is in parallel with diode D5, diode D5's
Anode connects the first end of third time level winding, the electric capacity EC3 of diode D5 negative electrode connection parallel connection and electric capacity EC4 one end, and
Electric capacity EC3 and electric capacity the EC4 other end of connection are used to be grounded, diode D5 negative electrode as the second output sub-circuit output end,
It is also connected with the input of controlled light adjusting circuit.
Wherein, diode D5 is used for rectification.For example, in order to strengthen rectification effect, diode D5 by least two it is positive simultaneously
The diode composition of connection.The resistance R21 and electric capacity C4 of series connection, and electric capacity EC3 in parallel and electric capacity EC4 are used to filter, example
Such as, in order to strengthen filter effect, electric capacity EC3 and electric capacity EC4 use electrochemical capacitor, wherein electrochemical capacitor EC3 and EC4 positive pole point
Not Lian Jie diode D5 negative electrode, electrochemical capacitor EC3 and EC4 negative pole is respectively used to ground connection.
The invention also discloses a kind of LED light adjusting systems based on encoded signal, as shown in figure 8, the LED is dimmed
System includes LED lamp and the LED light modulating devices as described in above-mentioned any embodiment, and wherein LED lamp connects with LED light modulating devices
Connect.For example, LED lamp is connected with the output end of the controlled light adjusting circuit of LED light modulating devices.
The above-mentioned LED light adjusting systems based on encoded signal, due to external encode signal is converted into the adjustable PWM of dutycycle
Signal, so as to improve output current by adjusting dutycycle, to ensure the luminous flux of LED lamp;Due to without in addition
High-power driver is set, so that relatively conventional dimming power source, can reduce volume and cost.Therefore, above-mentioned LED light modulations dress
Put, the volume and cost of power supply can be effectively reduced in the case where keeping mutually equal luminous flux.
It should be noted that can be straight when an element is considered as " connection " another element in above example
Another element is connected in succession or may be simultaneously present intermediary element.On the contrary, when element is referred to as " direct " and another element
During connection, in the absence of intermediary element.
Each technical characteristic of above example can be combined arbitrarily, to make description succinct, not to above-described embodiment
In each technical characteristic it is all possible combination be all described, as long as however, the combination of these technical characteristics be not present lance
Shield, is all considered to be the scope of this specification record.
Above example only expresses several embodiments of the present utility model, and it describes more specific and detailed, but simultaneously
Therefore the limitation to utility model patent scope can not be interpreted as.It should be pointed out that for the ordinary skill people of this area
For member, without departing from the concept of the premise utility, various modifications and improvements can be made, these belong to this reality
With new protection domain.Therefore, the protection domain of the utility model patent should be determined by the appended claims.