CN109195257A - A kind of LED light wall controlled dimming method - Google Patents

Abstract

A kind of LED light wall controlled dimming method realizes light modulation by the LED light list firewire light adjusting circuit that brightness wall control unit, brightness regulation driving unit form.When needing to adjust brightness, the control of brightness wall control unit changes the phase shifting angle of single firewire output voltage waveforms to send brightness control signal, and in brightness control signal, the quantity for the single-phase half-sinusoid that brightness degree has a specific phase shifting angle with continuous is indicated；Brightness regulation driving unit changes the brightness of LED light according to the brightness degree in brightness control signal.Brightness wall control unit issue brightness control signal when, single continuous output phase of fire wire output end with phase shifting angle half-wave quantity be brightness control signal brightness degree.The LED light light-dimming method can be used for the substitution upgrading of common single fire line control headlamp.

Description

A kind of LED light wall controlled dimming method

Present patent application is divisional application, and application No. is 201510229502.6, the applying date is on May 8th, 2015 for original bill, A kind of entitled LED light wall controlled dimming method.

Technical field

The present invention relates to a kind of illuminator technology, especially a kind of LED light wall controlled dimming method.

Background technique

Due to the nonlinear characteristic of LED light, the brightness of LED light cannot be realized by the way of adjusting voltage.

When adjusting the brightness of LED light using controllable constant-current source, the change of operating current can bring the chromatography of LED light inclined It moves, meanwhile, LED light load current also becomes very low under low-light level, and the reduction of controllable constant-current source efficiency and temperature rise can be made to increase, be lost Power consumption on driving chip is bigger, so that the service life of constant-current source and LED light source can be damaged.

LED light brightness is controlled using PWM (pulsewidth modulation) dimming mode, to avoid voltage regulating mode and current system band can be adjusted The problem come.There are three types of currently used LED light light-dimming methods:

First is that using remote control control.LED light control circuit is equipped with remote controler reception device, can be by remote controler to LED light It has carried out grade light modulation either stepless dimming and has caused remote controler quantity the disadvantage is that a LED light needs to be equipped with a remote controler More, management bothers, and cost is also higher.

Second is that using digital control technology.For example, using DALI (lighting interface of digital address) technology, DALI system Software can be separately addressed to the single or multiple LED lamps on same forceful electric power circuit or different circuit, pass through DALI system Software is to single lamp or arbitrary lamp group is accurately dimmed and switch control.The program is technologically advanced, but cost is very high, system In addition to needing to lay power line, it is also necessary to lay control line.

Third is that using single firewire switch on and off control technology.For example, using NU102 special chip, i.e., using common wall The switch motion of face switch before the deadline, realizes the brightness regulation of LED light.But this method can only provide 4 grades of LED light Adjust brightness, and the requirement of switch motion having time.

Summary of the invention

The purpose of the present invention is intended to provide one kind in the case where not changing the wiring of existing illuminating line, utilizes single firewire pair The method of LED light progress wall controlled dimming.

In order to achieve the above objectives, the method for the present invention is realized by LED light list firewire light adjusting circuit.

The LED light list firewire light adjusting circuit is made of brightness wall control unit, brightness regulation driving unit；The brightness wall It controls unit and is equipped with single firewire input terminal, single fire wire output end, the list firewire input terminal is connected to AC power source firewire；It is described bright Degree adjusts driving unit and is equipped with firewire input terminal, zero curve input terminal, wherein the firewire input terminal is connected to brightness wall control unit Single fire wire output end, the zero curve input terminal is connected to AC power source zero curve.

The brightness wall control unit includes unidirectional thyristor, DC/DC voltage-stablizer, three terminal regulator, wall control single-chip microcontroller, crystal Oscillator XT1, triode, diode D01, diode D02, diode D03, diode D04, diode D1, voltage-stabiliser tube DW01, Voltage-stabiliser tube DW1, resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, resistance R01, resistance R02, pulse potential device, capacitor C1, capacitor C2, capacitor C3, capacitor C4.

Diode D01, diode D02, diode D03, diode D04 form single phase bridge type rectifier circu, 2 exchanges Input terminal is respectively single firewire input terminal, single fire wire output end；The rectification output plus terminal of single phase bridge type rectifier circu is that all-wave is whole End is flowed, rectification output negative terminal is publicly.

Anode, the cathode of unidirectional thyristor are respectively connected to full-wave rectification end, publicly, triode V1 collector series electrical It is connected to voltage-stabiliser tube DW1 anode after resistance R2, voltage-stabiliser tube DW1 cathode is connected to full-wave rectification end；Triode V1 emitter is through resistance R3 is connected to publicly；Triode V1 base stage is respectively connected to one end of resistance R4, resistance R5；The other end of resistance R4 connects To publicly；Triode V1 transmitting extremely trigger pulse output end, is connected to unidirectional thyristor control electrode；Other the one of resistance R5 End is trigger signal input terminal.

Capacitor C1, resistance R1, capacitor C2 form π type filter circuit；The input of π type filter circuit is connected to diode D1 yin Pole, output are connected to DC/DC voltage-stablizer input terminal；Diode D1 anode is connected to full-wave rectification end；Three terminal regulator input terminal It is connected to DC/DC output end of voltage stabilizer, output end is single fire line control power supply；Capacitor C3 is that the output of DC/DC voltage-stablizer filters Capacitor, capacitor C4 are the output filter capacitor of three terminal regulator.Single fire line control power supply is used to power to wall control single-chip microcontroller.

After resistance R01 is coupled with resistance R02, the other end of resistance R01 is connected to full-wave rectification end, resistance R02 Other end be connected to publicly, voltage-stabiliser tube DW01 is connected in parallel on the both ends resistance R02；Resistance R01 is coupled with the series connection of resistance R02 Point is phase shift sampling pulse output end.

The common end of pulse potential device is connected to publicly, and pulse output end exports brightness Setting signal.

The brightness Setting signal input terminal of wall control single-chip microcontroller is connected to the pulse output end of pulse potential device；Wall control single-chip microcontroller Phase shift sampling pulse input terminal be connected to phase shift sampling pulse output end；The trigger signal output end of wall control single-chip microcontroller is connected to Trigger signal input terminal.

The brightness wall control unit sends brightness control by controlling the phase shifting angle of single fire wire output end output voltage waveforms Signal processed, brightness control signal share brightness 1-N, altogether N number of brightness degree；N is the integer more than or equal to 2.The representative value of N is 8。

Send the method for brightness control signal by wall control chip microcontroller, specifically:

Step A sets the brightness degree of brightness control signal as brightness 1；

Step B issues a brightness control signal；

Step C, judges whether brightness changes, and brightness changes, return step B；No change has taken place for brightness, maintains not Issue brightness control signal state, return step C.

The maintenance does not issue brightness control signal state, and it is all α's that single fire wire output end, which exports positive and negative half-wave phase shifting angle, Single-phase half-sinusoid.

Brightness control signal of the sending, single continuous K half-wave output phase shifting angle of fire wire output end is all the single-phase of β Half-sinusoid, the brightness degree of the brightness control signal of sending are brightness K；K is more than or equal to the 1, integer less than or equal to N.

The phase shifting angle β is greater than phase shifting angle α.Representative value is phase shifting angle α=4 °, phase shifting angle β=30 °.

The AC power source is single-phase 220V alternating current.

The list fire wire output end exports the single-phase half-sinusoid that positive and negative half-wave phase shifting angle is all α and takes uninterrupted triggering side Formula, method are that the trigger signal of wall control single-chip microcontroller output maintains always high level effective.

The method that control phase shifting angle is β is to select the intrinsic standoff ratio of resistance R01, resistance R02, when making to reach at phase shifting angle β, The phase shift sampling pulse that the voltage at full-wave rectification end rises to after making partial pressure becomes high level from low level.

The phase shifting angle is that the single-phase half-sinusoid of β takes phase shift sampling pulse triggering mode, and method is AC power source mistake Before zero, in trigger signal input terminal input low level, wall control single-chip microcontroller stops issuing effective trigger signal, and unidirectional thyristor exists It is turned off after AC power source zero passage；It reaches at phase shifting angle β, when phase shift sampling pulse output end becomes high level from low level, is touching Signalling input terminal input high level, wall control single-chip microcontroller issue effective trigger signal, unidirectional thyristor are connected；Unidirectional crystalline substance lock After pipe conducting, phase shift sampling pulse output end becomes low level from high level.The process is repeated, then can be repeated phase shifting angle control It is made as β.

The brightness regulation driving unit receives brightness control signal by the luminance signal receiving module and adjusts LED light Brightness, method are:

Step 1 sets the brightness degree of brightness control signal as brightness 1；

Step 2 adjusts LED luminance；

Step 3 judges whether there is brightness control signal on single firewire；There is no brightness control signal, return step three；There is brightness Signal is controlled, step 4 is gone to；

Step 4 receives brightness control signal, determines brightness degree；

Step 5, return step two.

Described to judge whether there is brightness control signal on single firewire, method is to judge whether firewire input terminal has the phase shifting angle to be The single-phase half-sinusoid of β；The reception brightness control signal, determines brightness degree, and method is to judge continuous phase shifting angle for β The number of single-phase half-sinusoid, having continuous K phase shifting angle is the single-phase half-sinusoid of β, and the brightness degree of brightness control signal is Brightness K.

The brightness regulation driving unit is driven by single-phase rectifier power module of voltage regulation, luminance signal receiving module, brightness Module composition.

The single-phase rectifier power module of voltage regulation is made of single-phase transformer, single-phase rectifier bridge circuit, filter regulator circuit； Single-phase transformer input terminal is connected to firewire input terminal, zero curve input terminal；Single-phase transformer output end is connected to single-phase rectification bridge Circuit AC input terminal；Single-phase rectification bridge circuit rectifies output plus terminal is DC supply, negative terminal is with reference to ground；Filtering voltage regulation Circuit input end is connected to DC supply；The output of filter regulator circuit output end adjusts DC power supply and receives to luminance signal Module for power supply.

The luminance signal receiving module is made of adjusting single-chip minimum system, luminance signal sampling shaping circuit.

The adjusting single-chip minimum system is equipped with pulse capture input terminal and pwm pulse output end.

The luminance signal sampling shaping circuit is made of full-wave rectifying circuit, voltage-stabiliser tube amplitude limiter circuit；Full-wave rectification electricity Road input terminal is connected to single-phase transformer output end；Voltage-stabiliser tube amplitude limiter circuit input terminal be connected to full-wave rectifying circuit output end, Output end is connected to the pulse capture input terminal for adjusting single-chip minimum system.

The LED drive module is equipped with direct-flow input end, LED light drives end, PWM brightness regulated signal input terminal；LED drives The direct-flow input end of dynamic model block is connected to DC supply, and PWM brightness regulated signal input terminal, which is connected to, adjusts single-chip microcontroller most The pwm pulse output end of mini system, LED light driving end are connected to LED light.

It is connected on single firewire, can generate and issues by giving phase shift the invention has the advantages that providing one kind The brightness wall control unit physical circuit of the brightness degree brightness control signal of angle waveform composition, controls LED using single firewire mode Lamp brightness is not necessarily to remote controler, and the substitution liter of general lighting lamp may be implemented without power supply line is laid again without control line Grade；LED light brightness, which can according to need, is divided into any grade；Brightness control signal is only moved when changing brightness using low-angle Phase mode is sent, and continuous output phase is the brightness degree of brightness control signal with the half-wave quantity of phase shifting angle, and the time is short, Bu Huizao It is flashed at LED light.

Detailed description of the invention

Fig. 1 is system structure diagram.

Fig. 2 is brightness wall control unit embodiment circuit diagram.

Fig. 3 is waveform example when the maintenance of brightness wall control unit does not send brightness control signal state.

Fig. 4 is waveform example when brightness wall control unit sends brightness control signal.

Fig. 5 is to send brightness control signal flow chart.

Fig. 6 is brightness control signal sending control method.

Fig. 7 is brightness regulation structure of driving unit figure.

Fig. 8 is brightness regulation drive unit embodiment.

Fig. 9 is brightness control signal method of reseptance.

Specific embodiment

The present invention is described in further detail below by attached drawing and in conjunction with the embodiments, but embodiments of the present invention It is without being limited thereto.

Realize a kind of LED light list firewire light adjusting circuit example structure of the method for the present invention as shown in Figure 1, by brightness wall control Unit and brightness regulation driving unit are composed in series.Brightness wall control unit list firewire L is into single firewire L1 goes out；Brightness regulation driving Unit firewire L1 is into zero curve N goes out.

Brightness wall control unit embodiment circuit is as shown in Fig. 2, steady by unidirectional thyristor V01, DC/DC voltage-stablizer U1, three ends Depressor U2, wall control single-chip microcontroller U3, crystal oscillator XT1, triode V1, diode D01, diode D02, diode D03, two poles Pipe D04, diode D1, voltage-stabiliser tube DW01, voltage-stabiliser tube DW1, resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, resistance R01, resistance R02, pulse potential device WP, capacitor C1, capacitor C2, capacitor C3, capacitor C4 composition.

Diode D01, diode D02, diode D03, diode D04 form single phase bridge type rectifier circu, 2 exchanges Input terminal is respectively single firewire input terminal L, single fire wire output end L1.The rectification output plus terminal of single phase bridge type rectifier circu is all-wave Rectifier terminal A, rectification output negative terminal is publicly.

Anode, the cathode of unidirectional thyristor V01 is respectively connected to full-wave rectification end A, publicly, triode V1 collector string It is connected to voltage-stabiliser tube DW1 anode after connection resistance R2, voltage-stabiliser tube DW1 cathode is connected to full-wave rectification end A；Triode V1 emitter warp Resistance R3 is connected to publicly；Triode V1 base stage is respectively connected to one end of resistance R4, resistance R5；The other end of resistance R4 It is connected to publicly；Triode V1 transmitting extremely trigger pulse output end, is connected to unidirectional thyristor V01 control electrode；Resistance R5 Other end be trigger signal input terminal.

Capacitor C1, resistance R1, capacitor C2 form π type filter circuit；The input of π type filter circuit is connected to diode D1 yin Pole, output are connected to DC/DC voltage-stablizer U1 input terminal；Diode D1 anode is connected to full-wave rectification end A；Three terminal regulator U2 is defeated Enter end and is connected to DC/DC voltage-stablizer U1 output end, output end as single fire line control power vd D；Capacitor C3 is DC/DC voltage-stablizer U1 Output filter capacitor, capacitor C4 be three terminal regulator U2 output filter capacitor.

The model of DC/DC voltage-stablizer U1 be DY10, three terminal regulator U2 model be HT7133.

HT7133 output+3.3V voltage.If the output voltage of DC/DC voltage-stablizer U1 meets the power supply of wall control single-chip microcontroller U3 It is required that three terminal regulator U2 can be omitted.DC/DC voltage-stablizer U1 is also an option that other voltage input characteristics with wide scope DC/DC voltage-stablizer.

After resistance R01 is coupled with resistance R02, the other end of resistance R01 is connected to full-wave rectification end A, resistance R02 Other end be connected to publicly, voltage-stabiliser tube DW01 is connected in parallel on the both ends resistance R02.Resistance R01, resistance R02 series connection tie-point For phase shift sampling pulse output end, voltage-stabiliser tube DW01 carries out clipping to phase shift sampling pulse.

The common end COM of pulse potential device WP is connected to publicly, for exporting brightness Setting signal.Pulse potential device WP When rotation, the brightness Setting signal of pulse output end SL, pulse output end SR output is 90 ° of phase phase difference of pulse.

Wall control single-chip microcontroller U3, crystal oscillator XT1 form single-chip minimum system.In Fig. 2 embodiment, wall control single-chip microcontroller U3 P2.0, P2.1 be brightness Setting signal input terminal, be respectively connected to pulse potential device WP pulse output end SL, pulse output Hold SR；P2.2 is phase shift sampling pulse input terminal, is connected to phase shift sampling pulse output end, i.e. resistance R01, resistance R02 series connection Tie-point；P1.1 is trigger signal output end, the trigger signal input terminal being connected on resistance R5.The model of wall control single-chip microcontroller U3 It is MSP430G2553.

Brightness wall control unit sends brightness control by controlling the phase shifting angle of single fire wire output end L1 output voltage waveforms Signal.In brightness control signal, brightness degree is indicated with the quantity of the continuous single-phase half-sinusoid with specific phase shifting angle；It is bright Degree control signal shares brightness 1-N, altogether N number of brightness；N is the integer more than or equal to 2, representative value 8.

Brightness control signal is only in the case where rotary pulsed potentiometer WP has brightness Setting signal just by brightness wall control Unit control is sent.When the maintenance of brightness wall control unit does not send brightness control signal state, uninterrupted triggering mode is taken, is touched It signals to maintain effectively always, i.e. wall control single-chip microcontroller U3 continuously sends out continual trigger signal, each key of brightness wall control unit Point waveform is as shown in Figure 3.

When AC power source zero passage, unidirectional thyristor V01 shutdown.After AC power source zero passage, although wall control single-chip microcontroller U3 continues Continual trigger signal is issued, maintenance trigger signal is high level state, but only when the voltage of full-wave rectification end A is greater than surely The pressure stabilizing value of pressure pipe DW1, triode V1 are just connected, and unidirectional thyristor V01 can just be triggered conducting.As can be seen from Figure 2, continual When trigger signal is effective, it is desirable that control triode V1 conducting, therefore it is high level that this, which continuously sends out continual trigger signal,.Cause This, shown in alternating voltage waveform such as Fig. 3 (a) of single fire wire output end L1, each half-wave is triggered at a phase shifting angle α and is led It is logical.Shown in voltage waveform such as Fig. 3 (b) of full-wave rectification end A.The voltage waveform of full-wave rectification end A is narrow voltage pulse, pulse Amplitude is determined that effect is to provide ON state supply voltage for DC/DC voltage-stablizer U1 by the pressure stabilizing value of voltage-stabiliser tube DW1.Due to DC/DC For voltage-stablizer DY10 in 12V DC voltage input, output voltage still can be in 5.8V or more, and the pressure stabilizing value of voltage-stabiliser tube DW1 is greater than 12V ?.When the pressure stabilizing value of voltage-stabiliser tube DW1 takes 20V, phase shifting angle α=4 °.

Waveform example is as shown in Figure 4 when brightness wall control unit sends brightness control signal.What Fig. 4 was sent is the bright of brightness 3 Degree control signal.

Wall control single-chip microcontroller U3 issues the process of a brightness control signal as shown in figure 5, steps are as follows:

Step 1, stop issuing trigger signal；

Step 2, it waits and receives phase shift sampling pulse；

Step 3, trigger signal is issued, phase shift sampling pulse is waited to disappear；

Step 4, if brightness control signal is not sent complete, step 1 is gone to；Otherwise the transmission for terminating brightness control signal, into dimension It holds and does not send brightness control signal state.

After wall control single-chip microcontroller U3 stops issuing trigger signal, next AC power source zero crossing, unidirectional thyristor V01 is closed It is disconnected；Making trigger signal output before AC power source zero crossing is low level, then in AC power source zero crossing unidirectional thyristor V01 Shutdown；After zero passage, even if reaching at phase shifting angle α, because unidirectional thyristor V01 is still off, full-wave rectification without trigger signal The voltage of end A persistently rises.The intrinsic standoff ratio for reasonably selecting resistance R01, resistance R02, when making to reach at phase shifting angle β, full-wave rectification The phase shift sampling pulse that the voltage of end A rises to after making partial pressure becomes high level from low level.Wall control single-chip microcontroller U3 receives height After the phase shift sample-pulse signal of level, trigger signal output end is enabled to export high level, issues trigger signal, unidirectional thyristor V01 conducting, phase shift sampling pulse disappear, and become low level.If brightness control signal is brightness K, process K just now is repeated Secondary, brightness control signal is sent completely.Phase shifting angle β representative value is 30 °, if the high-level threshold of phase shift sampling pulse is 1.5V, Then resistance R01 value is 100 times of resistance R02.Issue a brightness control signal, single continuous K half-wave of fire wire output end L1 Output phase shifting angle is all the single-phase half-sinusoid of β, and the brightness control signal of sending is brightness K；K is more than or equal to 1, is less than or equal to The integer of N.Phase shifting angle β is greater than phase shifting angle α.

The brightness control signal sent shown in Fig. 4 is brightness 3, and Fig. 4 (a) is the friendship of single fire wire output end L1 in transmission process Galvanic electricity corrugating, Fig. 4 (b) are the voltage waveform of full-wave rectification end A in transmission process.Fig. 4 (c) is phase shift sampling in transmission process The pulse schematic diagram of pulse, when drawing Fig. 4 (c), idealization processing has all been done in pulse 1, pulse 2, pulse 3, i.e., signal is lower than height Make low level processing when level threshold, makees high level processing when higher than high-level threshold.

The method that brightness wall control unit sends brightness control signal is as shown in Figure 6, comprising:

Step A sets the brightness degree of brightness control signal as brightness 1；

Step B issues a brightness control signal；

Step C, judges whether brightness changes, and brightness changes, return step B；No change has taken place for brightness, maintains not Issue brightness control signal state, return step C.

The structure of brightness regulation driving unit is as shown in fig. 7, receive mould by single-phase rectifier power module of voltage regulation, luminance signal Block, brightness drive module composition.

Single-phase rectifier power module of voltage regulation is made of single-phase transformer, single-phase rectifier bridge circuit, filter regulator circuit；It is single-phase Transformer inputs are connected to firewire input terminal L1, zero curve input terminal N；Single-phase transformer output end is connected to single-phase rectification bridge electricity Road ac input end；Single-phase rectification bridge circuit rectifies output plus terminal is DC supply, negative terminal is with reference to ground；Filtering voltage regulation electricity Road input terminal is connected to DC supply；Filter regulator circuit output adjusts DC power supply, supplies to luminance signal receiving module Electricity.

Luminance signal receiving module is made of adjusting single-chip minimum system, luminance signal sampling shaping circuit, is adjusted single Piece machine minimum system is equipped with pulse capture input terminal and pwm pulse output end.

Luminance signal sampling shaping circuit is made of full-wave rectifying circuit, voltage-stabiliser tube amplitude limiter circuit；Full-wave rectifying circuit is defeated Enter end and is connected to single-phase transformer output end.Voltage-stabiliser tube amplitude limiter circuit input terminal is connected to full-wave rectifying circuit output end, output End is connected to the pulse capture input terminal of single-chip minimum system.

LED drive module is equipped with direct-flow input end, LED light drives end, PWM brightness regulated signal input terminal.LED drives mould The direct-flow input end of block is connected to DC supply, and PWM brightness regulated signal input terminal is connected to the PWM arteries and veins for adjusting single-chip microcontroller Output end is rushed, LED light driving end is connected to LED light.

Brightness regulation drive unit embodiment is as shown in Figure 8.

In embodiment illustrated in fig. 8, single-phase rectifier power module of voltage regulation is by single-phase transformer TC, diode D05, diode D06, diode D07, diode D08, capacitor C5, resistance R03, voltage-stabiliser tube DW02 composition.Wherein, diode D05, diode D06, diode D07, diode D08 form single-phase rectifier bridge circuit, and capacitor C5, resistance R03, voltage-stabiliser tube DW02 composition filtering are steady Volt circuit.Capacitor C5 obtains DC supply VIN to single-phase rectification bridge output filtering, and output adjusts direct current on voltage-stabiliser tube DW02 Power supply VCC.

In embodiment illustrated in fig. 8, luminance signal receiving module is by adjusting single-chip microcontroller U4, crystal oscillator XT2, diode D09, diode D10, resistance R6, resistance R7, voltage-stabiliser tube DW2 composition.Wherein, single-chip microcontroller U4, crystal oscillator XT2 composition are adjusted Single-chip minimum system, the P2.0 for adjusting single-chip microcontroller U4 is pulse capture input terminal, and P1.2 is pwm pulse output end.Diode D09, diode D10 form full-wave rectifying circuit, diode D09, diode D10 anode to be respectively connected to single-phase transformer defeated Outlet L2, N2, it is full-wave rectifying circuit output end that cathode, which is coupled,.Resistance R6, resistance R7, voltage-stabiliser tube DW2 form voltage-stabiliser tube clipping Circuit.One end of resistance R6 is coupled for voltage-stabiliser tube amplitude limiter circuit output end with voltage-stabiliser tube DW2 cathode and is connected to adjusting single-chip microcontroller The pulse capture input terminal of U4.The other end of resistance R6 is voltage-stabiliser tube amplitude limiter circuit input terminal and is connected to full-wave rectifying circuit Output end.Voltage-stabiliser tube DW2 anode is connected to reference to ground, and resistance R7 is connected in parallel on the both ends of voltage-stabiliser tube DW2.

The model for adjusting single-chip microcontroller U4 is MSP430G2553.Wall control single-chip microcontroller U3, adjusting single-chip microcontroller U4 are also an option that it The low-power scm of his MSP430 series.

In embodiment illustrated in fig. 8, brightness drive module by LED constant-current driver U5, inductance LG, resistance R8, restore two fastly Pole pipe D2 composition, the model PT4115 of LED constant-current driver.The both ends of resistance R8 are respectively connected to LED constant-current driver U5 Power voltage terminal VIN, output electric current induction end SEN；Fast recovery diode D2 cathode is connected to the electricity of LED constant-current driver U5 Source voltage end VIN, anode are connected to the output switching terminal SW of LED constant-current driver U5；One end of inductance LG is connected to LED constant current The output switching terminal SW of driver U5；The output electric current induction end SEN and inductance LG other end of LED constant-current driver U5 be LED light drives end；The power voltage terminal VIN of LED constant-current driver U5 is the direct-flow input end of LED drive module；LED constant current is driven The brightness adjustment control end DIM of dynamic device U5 is PWM brightness regulated signal input terminal.

Fig. 9 is brightness control signal method of reseptance.Brightness regulation driving unit receives brightness by luminance signal receiving module Signal and adjusting brightness of LED lamps are controlled, method is:

Step 1 sets the brightness degree of brightness control signal as brightness 1；

Step 2 adjusts LED luminance；

Step 3 judges whether there is brightness control signal on single firewire；There is no brightness control signal, return step three；There is brightness Signal is controlled, step 4 is gone to；

Step 4 receives brightness control signal；

Step 5, return step two.

Judge whether there is brightness control signal on single firewire, method is that judge whether firewire input terminal L1 has phase shifting angle be β Single-phase half-sinusoid；Brightness control signal is received, method is for judging continuous phase shifting angle for the single-phase half-sinusoid of β Number, having continuous K phase shifting angle is the single-phase half-sinusoid of β, and brightness control signal is brightness K.Luminance signal sampling shaping circuit Alternating voltage on firewire input terminal L1 is converted into rectangular wave, as shown in Fig. 4 (d).Phase shifting angle α, phase shifting angle β and Fig. 4 (d) institute The negative pulse shown is corresponding, wherein phase shifting angle α respective pulses 4, pulse 8, pulse 9, is the negative pulse of narrower width；β pairs of phase shifting angle Pulse 5, pulse 6, pulse 7 are answered, is the negative pulse of wider width.Luminance signal receiving module, which only needs to differentiate, to be sent to adjusting monolithic The width of machine minimum system pulse capture input terminal negative pulse, that is, can determine whether firewire input terminal L1 has phase shifting angle is the list of β Phase half-sinusoid；Calculate the quantity for the single-phase half-sinusoid that phase shifting angle is β, available brightness control signal.

In Fig. 4, wall control single-chip microcontroller U3 the 1st time stop issue trigger signal at the time of AC power source positive half-wave, therefore, Upper 1st phase shifting angle of firewire input terminal L1 is that the single-phase half-sinusoid of β is negative half-wave.Due to wall control single-chip microcontroller U3 the 1st time stopping It is random at the time of issuing trigger signal, so, the 1st stopping may also be in AC power source at the time of issuing trigger signal Negative half-wave, at this point, the single-phase half-sinusoid that upper 1st phase shifting angle of firewire input terminal L1 is β becomes positive half-wave.Due to luminance signal Sampling shaping circuit first rectifies the alternating voltage on firewire input terminal L1, is reconverted into rectangular wave, therefore, the 1st phase shifting angle Single-phase half-sinusoid for β is positive half-wave or negative half-wave, does not influence brightness regulation driving unit and sentences to brightness control signal Disconnected and reception.

Claims (10)

1. a kind of LED light wall controlled dimming method is realized by LED light list firewire light adjusting circuit, it is characterised in that:

The LED light list firewire light adjusting circuit is made of brightness wall control unit, brightness regulation driving unit；The brightness wall control list Member is equipped with single firewire input terminal, single fire wire output end, and the list firewire input terminal is connected to AC power source firewire；The brightness tune It saves driving unit and is equipped with firewire input terminal, zero curve input terminal, wherein the firewire input terminal is connected to the list of brightness wall control unit Fire wire output end, the zero curve input terminal are connected to AC power source zero curve；

The brightness wall control unit includes unidirectional thyristor, DC/DC voltage-stablizer, three terminal regulator, wall control single-chip microcontroller, crystal oscillation Device XT1, triode, diode D01, diode D02, diode D03, diode D04, diode D1, voltage-stabiliser tube DW01, pressure stabilizing Pipe DW1, resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, resistance R01, resistance R02, pulse potential device, capacitor C1, electricity Hold C2, capacitor C3, capacitor C4；

Diode D01, diode D02, diode D03, diode D04 form single phase bridge type rectifier circu, 2 exchange inputs End is respectively single firewire input terminal, single fire wire output end；The rectification output plus terminal of single phase bridge type rectifier circu is full-wave rectification end, Rectification output negative terminal is publicly；

Anode, the cathode of unidirectional thyristor are respectively connected to full-wave rectification end, publicly, triode V1 collector series resistance R2 After be connected to voltage-stabiliser tube DW1 anode, voltage-stabiliser tube DW1 cathode is connected to full-wave rectification end；Triode V1 emitter connects through resistance R3 It is connected to publicly；Triode V1 base stage is respectively connected to one end of resistance R4, resistance R5；The other end of resistance R4 is connected to public affairs Altogether；Triode V1 emitter is connected to unidirectional thyristor control electrode；The other end of resistance R5 is trigger signal input terminal；

Capacitor C1, resistance R1, capacitor C2 form π type filter circuit；The input of π type filter circuit be connected to diode D1 cathode, Output is connected to DC/DC voltage-stablizer input terminal；Diode D1 anode is connected to full-wave rectification end；The connection of three terminal regulator input terminal It is single fire line control power supply to DC/DC output end of voltage stabilizer, output end；Capacitor C3 is the output filter capacitor of DC/DC voltage-stablizer, Capacitor C4 is the output filter capacitor of three terminal regulator；

After resistance R01 is coupled with resistance R02, the other end of resistance R01 is connected to full-wave rectification end, and resistance R02's is another Outer one end is connected to publicly, and voltage-stabiliser tube DW01 is connected in parallel on the both ends resistance R02；Resistance R01 is with the tie-point of connecting of resistance R02 Phase shift sampling pulse output end；

The common end of pulse potential device is connected to publicly, and pulse output end exports brightness Setting signal；

The brightness Setting signal input terminal of wall control single-chip microcontroller is connected to the pulse output end of pulse potential device, and phase shift sampling pulse is defeated Enter end and be connected to phase shift sampling pulse output end, trigger signal output end is connected to trigger signal input terminal；

The brightness wall control unit sends brightness control letter by controlling the phase shifting angle of single fire wire output end output voltage waveforms Number, brightness control signal shares brightness 1-N, altogether N number of brightness degree；N is the integer more than or equal to 2；

Send the method for brightness control signal by wall control chip microcontroller, specifically:

Step A sets the brightness degree of brightness control signal as brightness 1；

Step B issues a brightness control signal；

Step C, judges whether brightness changes, and brightness changes, return step B；No change has taken place for brightness, maintains not Issue brightness control signal state, return step C.

2. LED light wall controlled dimming method according to claim 1, it is characterised in that:

The maintenance does not issue brightness control signal state, and it is all the single-phase of α that single fire wire output end, which exports positive and negative half-wave phase shifting angle, Half-sinusoid；

Brightness control signal of the sending, single continuous K half-wave output phase shifting angle of fire wire output end are all the single-phase sine of β Half-wave, the brightness degree of the brightness control signal of sending are brightness K；K is more than or equal to the 1, integer less than or equal to N；The shifting Phase angle beta is greater than phase shifting angle α.

3. LED light wall controlled dimming method according to claim 2, it is characterised in that:

Single fire wire output end exports the single-phase half-sinusoid that positive and negative half-wave phase shifting angle is all α and takes uninterrupted triggering mode, specifically Method is that the trigger signal of wall control single-chip microcontroller output remains always effective.

4. LED light wall controlled dimming method according to claim 3, it is characterised in that:

The method that control phase shifting angle is β is to select the intrinsic standoff ratio of resistance R01, resistance R02, when making to reach at phase shifting angle β, all-wave The phase shift sampling pulse that the voltage of rectifier terminal rises to after making partial pressure becomes high level from low level.

5. LED light wall controlled dimming method according to claim 4, it is characterised in that:

The phase shifting angle is that the single-phase half-sinusoid of β takes phase shift sampling pulse triggering mode, and method is AC power source zero passage Before, wall control single-chip microcontroller stops issuing trigger signal, and unidirectional thyristor turns off after AC power source zero passage；It reaches at phase shifting angle β, moves When phase sampling pulse output end becomes high level from low level, wall control single-chip microcontroller issues trigger signal, and unidirectional thyristor is connected.

6. LED light wall controlled dimming method according to any one of claims 1-5, it is characterised in that:

The brightness regulation driving unit receives brightness control signal by the luminance signal receiving module and to adjust LED light bright Degree, method is:

Step 1 sets the brightness degree of brightness control signal as brightness 1；

Step 2 adjusts LED luminance；

Step 3 judges whether there is brightness control signal on single firewire；There is no brightness control signal, return step three；There is brightness Signal is controlled, step 4 is gone to；

Step 4 receives brightness control signal, determines brightness degree；

Step 5, return step two.

7. LED light wall controlled dimming method according to claim 6, it is characterised in that:

Described to judge whether there is brightness control signal on single firewire, method is that judge whether firewire input terminal has phase shifting angle be β's Single-phase half-sinusoid；The reception brightness control signal, determines brightness degree, and method is to judge continuous phase shifting angle for the list of β The number of phase half-sinusoid, having continuous K phase shifting angle is the single-phase half-sinusoid of β, and the brightness degree of brightness control signal is bright Spend K.

8. LED light wall controlled dimming method according to claim 7, it is characterised in that: the brightness regulation driving unit by Single-phase rectifier power module of voltage regulation, luminance signal receiving module, brightness drive module composition；

The single-phase rectifier power module of voltage regulation is made of single-phase transformer, single-phase rectifier bridge circuit, filter regulator circuit；It is single-phase Transformer inputs are connected to firewire input terminal, zero curve input terminal；Single-phase transformer output end is connected to single-phase rectifier bridge circuit Ac input end；Single-phase rectification bridge circuit rectifies output plus terminal is DC supply, negative terminal is with reference to ground；Filter regulator circuit Input terminal is connected to DC supply；The output of filter regulator circuit output end adjusts DC power supply to luminance signal receiving module Power supply；

The luminance signal receiving module is made of adjusting single-chip minimum system, luminance signal sampling shaping circuit；

The adjusting single-chip minimum system is equipped with pulse capture input terminal and pwm pulse output end；

The luminance signal sampling shaping circuit is made of full-wave rectifying circuit, voltage-stabiliser tube amplitude limiter circuit；Full-wave rectifying circuit is defeated Enter end and is connected to single-phase transformer output end；Voltage-stabiliser tube amplitude limiter circuit input terminal is connected to full-wave rectifying circuit output end, output End is connected to the pulse capture input terminal for adjusting single-chip minimum system；

The brightness drive module is equipped with direct-flow input end, LED light drives end, PWM brightness regulated signal input terminal；Brightness driving The direct-flow input end of module is connected to DC supply, and PWM brightness regulated signal input terminal, which is connected to, adjusts single-chip microcontroller minimum The pwm pulse output end of system, LED light driving end are connected to LED light.

9. LED light wall controlled dimming method according to any one of claims 1-5, it is characterised in that: the phase shifting angle α= 4 °, phase shifting angle β=30 °.

10. LED light wall controlled dimming method according to any one of claims 1-5, it is characterised in that: the N=8.