CN201937885U - Three-line dimmer - Google Patents
Three-line dimmer Download PDFInfo
- Publication number
- CN201937885U CN201937885U CN2010205401015U CN201020540101U CN201937885U CN 201937885 U CN201937885 U CN 201937885U CN 2010205401015 U CN2010205401015 U CN 2010205401015U CN 201020540101 U CN201020540101 U CN 201020540101U CN 201937885 U CN201937885 U CN 201937885U
- Authority
- CN
- China
- Prior art keywords
- chopping switch
- chopping
- alternating current
- semiconductor
- oxide
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
Landscapes
- Circuit Arrangement For Electric Light Sources In General (AREA)
Abstract
The utility model relates to a three-line dimmer, which comprises a zero-crossing detection circuit and a chopping switch control circuit, wherein the zero-crossing detection circuit is used for detecting the zero-crossing voltage of the alternating current and sending zero-crossing detection signals to the chopping switch control circuit when detecting the zero-crossing voltage, the chopping switch control circuit is used for receiving modulation signals sent by a controller and outputting corresponding control signals to the chopping switch so that the chopping switch works in the chopping state in the set number of alternating current periods and works in the full conduction state in other alternating current periods, and the chopping switch control circuit is also used for receiving the zero-crossing detection signals, controlling the switch-off or conduction of the chopping switch in the chipping state and controlling the chopping switch to change the current work state after the set time until the alternating current enters a next zero-crossing voltage. The three-line dimmer has the advantages that the chopping angle size is not influenced by the voltage change of the alternating current, so the dimming is carried out by a back stage driver through chopping angle detection, and the dimming brightness can not be influenced by the voltage change of the alternating current.
Description
Technical field
The utility model relates to electronic circuit field, particularly a kind of three line dimmers.
Background technology
At present, the dimmer of phase control mainly contains forward position dimmer and back along dimmer, the forward position dimmer normally adopts the copped wave of controllable silicon phase angle to carry out light modulation, and the back mainly utilizes controlled shutoff device (as MOSFET, IGBT etc.) to carry out the back along phase angle copped wave light modulation as chopping switch along dimmer.
Referring to Fig. 1, the structure of existing forward position dimmer is shown, dimmer comprises bidirectional triode thyristor Q1 and circuits for triggering thereof.At each periodic voltage zero cross near of alternating current, controllable silicon Q1 electric current natural zero-crossing and turn-offing, adjustable resistance R1 when the charging voltage of capacitor C 1 rises to bidirectional trigger diode DB3 trigger voltage, trigger bidirectional triode thyristor Q1 conducting to capacitor C 1 charging.By changing the resistance of adjustable resistance R1, change the charging interval of capacitor C 1, thereby change the angle of flow of bidirectional triode thyristor Q1, the forward position copped wave angle of the chopping voltage on the output voltage V 1 of dimmer is changed.Fig. 2 illustrates the phase angle chopping voltage waveform of desirable forward position dimmer output.
The forward position dimmer is widely used in the light modulation of incandescent lamp, is a kind of low-cost light modulation scheme.But when dimmer output in this forward position connects the Switching Power Supply load, after the bidirectional triode thyristor Q1 triggering and conducting, if Switching Power Supply exchanges the input side electric current when keeping electric current less than the minimum conducting of bidirectional triode thyristor Q1, bidirectional triode thyristor Q1 will turn-off, and cause the dimmer operation irregularity.
Tradition back commonly used is the three-wire system structure along the dimmer scheme, sees in the U.S. Pat 5038081 (LutronElectronic, " REVERSE PHASE-CONTROLLED DIMMER ") after the three-wire system along dimmer.As shown in Figure 3, the structure of this back along dimmer is shown, the auxiliary source that diode D1, capacitor C 2, diode D4, resistance R 5 constitute, (metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2) provides the conducting driving voltage for chopping switch, alternating current to capacitor C 5 chargings, when reaching bidirectional trigger diode D2 trigger voltage, drives photoelectrical coupler IC1 conducting through dimming resistor R6, metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 grid are also dragged down thereupon, trigger metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 and turn-off.Metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 close its two ends of having no progeny and bear line voltage and make triode Q3 conducting, keep metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 and turn-off until the line voltage zero passage.Because diac D2 in the circuit and photoelectrical coupler IC1 adopt reversible, dimmer can both operate as normal down to make the positive-negative half-cycle input of line voltage.Light modulation realizes by resistance R 6 and capacitor C 2 time-delays in this scheme.Fig. 4 is the desirable phase angle chopping voltage waveform along dimmer output.
Above-mentioned two kinds to the forward position of alternating current and back along chopping way, the chopping switch long-term work is under the copped wave pattern, the influence that the size of copped wave angle is changed by input voltage, the power factor of the big more dimmer input side of copped wave angle is low more, reduce the service efficiency of electric energy, and the sudden change of chopping voltage can cause bigger electromagnetic interference.
The utility model content
The purpose of this utility model provides a kind of three line dimmers, the influence that the utility model can make the size of copped wave angle not changed by alternating current voltage, and level driver in back is by detecting the light modulation of copped wave angle, the influence that light modulation brightness is not changed by alternating current voltage like this.
A kind of three line dimmers of the utility model, be arranged on the zero cross detection circuit between two inputs of alternating current, be arranged on the chopping switch between input of alternating current and output of dimmer, the chopping switch control circuit that is connected with described chopping switch with described zero cross detection circuit, it and is the auxiliary power supply circuit of described chopping switch control circuit power supply: described zero cross detection circuit, be used to detect the zero passage voltage of alternating current, send the zero passage detection signal when detecting zero passage voltage to described chopping switch control circuit; Described chopping switch control circuit, be used to receive conditioning signal and zero passage detection signal, the corresponding control signal of output arrives described chopping switch, makes chopping switch be operated in the copped wave state in the ac period of setting number, is operated in fully conducting state in other ac period; Under the copped wave state, turn-off or conducting by the described chopping switch of zero passage detection signal controlling, behind setting-up time, control described chopping switch again and change the work at present state, enter next zero passage voltage up to alternating current, make dimmer output chopping voltage, described setting-up time is determined by conditioning signal.
Preferably, described conditioning signal comprises one or more adjusting types, and described adjusting type comprises adjusting brightness, regulates color and regulates colour temperature; Under same adjusting type, the state of types value is regulated in the decision of the different conditions of conditioning signal, promptly determines the size of brightness, or the depth of color, or the height of colour temperature.
Preferably, described adjusting type can represent that described chopping voltage characteristic parameter comprises chopping voltage number, copped wave angle, copped wave duty ratio, copped wave ON time and copped wave turn-off time with the chopping voltage characteristic parameter; Different adjusting types can corresponding identical or different chopping voltage characteristic parameter; Under same adjusting type, the corresponding state of regulating types value of the state of chopping voltage characteristic parameter, the i.e. depth of the size of corresponding brightness, or color, or the height of colour temperature.
Preferably, the chopping switch control circuit can adopt digital control approach.
Preferably, when described chopping switch comprises first metal-oxide-semiconductor (Q1) and second metal-oxide-semiconductor (Q2), the gate pole of first metal-oxide-semiconductor (Q1) and second metal-oxide-semiconductor (Q2) is connected as the first control utmost point of chopping switch, its source electrode is connected as the second control utmost point of chopping switch, when its drain electrode connects output of input of alternating current and dimmer respectively;
Perhaps, when described chopping switch comprises an IGBT (Q1) and the 2nd IGBT (Q2), the gate pole of the one IGBT (Q1) and the 2nd IGBT (Q2) is connected as the first control utmost point of chopping switch, its emitter is connected as the second control utmost point of chopping switch, when its collector electrode connects output of input of alternating current and dimmer respectively;
The chopping switch control circuit comprises first diode (D1), first electric capacity (C1), voltage-stabiliser tube (ZD1), first resistance (R1), single-chip microcomputer and photoelectrical coupler (OP1), the zero passage detection signal of the reception zero cross detection circuit output of single-chip microcomputer, and conditioning signal, the high or low level signal of output is to the transmitting terminal of photoelectrical coupler (OP1), and the receiving terminal of photoelectrical coupler (OP1) is connected between first control and the second control utmost point of chopping switch; Described first diode (D1) and first electric capacity (C1) are in series, first electric capacity (C1) end connects the second control utmost point of chopping switch, the other end connects the negative electrode of first diode (D1), and the anode of first diode (D1) connects another input of alternating current; Voltage-stabiliser tube (ZD1) is connected with first resistance (R1), the anode of voltage-stabiliser tube (ZD1) connects the second control utmost point of chopping switch, negative electrode connects an end of first resistance (R1) and the first control utmost point of chopping switch, and the other end of first resistance (R1) connects the negative electrode of first diode (D1).
Preferably, when described chopping switch comprises first metal-oxide-semiconductor (Q1) and second metal-oxide-semiconductor (Q2), the gate pole of first metal-oxide-semiconductor (Q1) and second metal-oxide-semiconductor (Q2) is connected as the first control utmost point of chopping switch, its source electrode is connected as the second control utmost point of chopping switch, when its drain electrode connects output of input of alternating current and dimmer respectively;
Perhaps, when described chopping switch comprises an IGBT (Q1) and the 2nd IGBT (Q2), the gate pole of the one IGBT (Q1) and the 2nd IGBT (Q2) is connected as the first control utmost point of chopping switch, its emitter is connected as the second control utmost point of chopping switch, when its collector electrode connects output of input of alternating current and dimmer respectively;
The chopping switch control circuit comprises first diode (D1), first electric capacity (C1), voltage-stabiliser tube (ZD1), first resistance (R1), second resistance (R2), single-chip microcomputer and photoelectrical coupler (OP1), the zero passage detection signal of the reception zero cross detection circuit output of single-chip microcomputer, and conditioning signal, the high or low level signal of output is to the transmitting terminal of photoelectrical coupler OP1; First end of the receiving terminal of photoelectrical coupler (OP1) connects the first control utmost point of chopping switch, and second end is connected the negative electrode of first diode (D1) by first resistance (R1); First diode (D1) and first electric capacity (C1) are connected in series, and first electric capacity (C1) end connects the second control utmost point of chopping switch, and the other end connects the negative electrode of first diode (D1), and the anode of first diode (D1) connects another input of alternating current; The anode of voltage-stabiliser tube (ZD1) is connected the second control utmost point of chopping switch, negative electrode is connected second end of the receiving terminal of end of first resistance (R1) and photoelectrical coupler (OP1), and second resistance (R2) is connected in parallel between the first control utmost point and the second control utmost point of chopping switch.
Preferably, chopping switch comprises rectifier bridge (BD1) and first metal-oxide-semiconductor (Q1), the negative input end of rectifier bridge (BD1) and positive input terminal are connected an input and dimmer one output of alternating current respectively, and the negative output terminal of rectifier bridge (BD1) and positive output end are connected the source electrode and the drain electrode of first metal-oxide-semiconductor (Q1) respectively;
The chopping switch control circuit comprises first resistance (R1), single-chip microcomputer and photoelectrical coupler (OP1), single-chip microcomputer receives the zero passage detection signal of zero cross detection circuit output, and conditioning signal, and the high or low level signal of output is to the transmitting terminal of photoelectrical coupler (OP1);
The receiving terminal of photoelectrical coupler (OP1) and power supply (VS) are connected in series between the gate pole and source electrode of first metal-oxide-semiconductor (Q1), and first resistance is connected in parallel between the gate pole and source electrode of first metal-oxide-semiconductor (Q1).
Preferably, chopping switch comprises rectifier bridge (BD1) and first metal-oxide-semiconductor (Q1), the negative input end of rectifier bridge (BD1) and positive input terminal are connected an input and dimmer one output of alternating current respectively, and the negative output terminal of rectifier bridge (BD1) and positive output end are connected the source electrode and the drain electrode of first metal-oxide-semiconductor (Q1) respectively;
The chopping switch control circuit comprises single-chip microcomputer and photoelectrical coupler (OP1), and single-chip microcomputer receives the zero passage detection signal of zero cross detection circuit output, and conditioning signal, and the high or low level signal of output is to the transmitting terminal of photoelectrical coupler OP1;
The receiving terminal of photoelectrical coupler (OP1) is connected between the gate pole and source electrode of first metal-oxide-semiconductor (Q1), is connected with first resistance (R1) and the power supply (VS) of series connection between the gate pole of first metal-oxide-semiconductor (Q1) and the source electrode.
Preferably, zero cross detection circuit comprises operational amplifier (ICI), the positive input terminal of operational amplifier (ICI) connects alternating current one input, the negative input end of operational amplifier (ICI) is connected the common port of the 3rd resistance (R3) and the 4th resistance (R4), the 3rd resistance (R3) and the 4th resistance (R4) are connected in series between two inputs of alternating current, the output of operational amplifier (ICI) output zero passage detection signal.
Preferably, described auxiliary power supply circuit comprises, be connected second electric capacity (C2) between two inputs of alternating current and the series arm of second diode (D2), the anode of second diode (D2) connects an input of alternating current, and negative electrode connects second electric capacity (C2); The negative electrode of second diode (D2) connects the anode of the 3rd diode (D3), the negative electrode of the 3rd diode (D3) connects linear voltage-stabilizing circuit, be connected with to electric capacity (C3) between the input of the negative electrode of the 3rd diode (D3) and alternating current, the anodal negative electrode that connects the 3rd diode (D3) of oriented electric capacity (C3), negative pole connects input of alternating current, and linear voltage-stabilizing circuit out-put supply VCC is to the chopping switch control circuit.
Compared with prior art, the utlity model has following advantage:
One, the zero passage detection signal that the turn-on and turn-off of chopping switch are generated by detection alternating current zero passage voltage in the dimmer, and the time acting in conjunction of setting by conditioning signal in the chopping switch control circuit, the influence that makes the size of copped wave angle not changed by alternating current voltage, level driver in back is by detecting the light modulation of copped wave angle, the influence that light modulation brightness is not changed by alternating current voltage like this;
Two, under the control of control circuit of chopping, dimmer only is operated in the copped wave state in the partial periodicity of alternating current, and in other cycle, dimmer is operated in fully conducting state at alternating current, and is very little to EMC and PF influence.
Description of drawings
Fig. 1 is the structure chart of existing forward position dimmer;
Fig. 2 is the phase angle chopping voltage oscillogram that desirable forward position dimmer is exported;
Fig. 3 is the structure chart of existing back along dimmer;
Fig. 4 is desirable back phase angle chopping voltage oscillogram along dimmer output;
Fig. 5 is the utility model three line dimmer structure charts;
Fig. 6 is that the back is along chopped waveform figure;
Fig. 7 is forward position chopped waveform figure;
Fig. 8 is that front and back are along chopped waveform figure;
Fig. 9 is forward position copped wave for partial periodicity, and partial periodicity is the oscillogram of back along copped wave;
Figure 10 is the first embodiment three wire dimmer circuit structure;
Figure 11 is the second embodiment three wire dimmer circuit structure;
Figure 12 is the 3rd embodiment three wire dimmer circuit structure;
Figure 13 is the 4th embodiment three wire dimmer circuit structure;
Figure 14 is the 5th embodiment three wire dimmer circuit structure;
Figure 15 is the 6th embodiment three wire dimmer circuit structure;
Figure 16 is the 7th embodiment three wire dimmer circuit structure.
Embodiment
For above-mentioned purpose of the present utility model, feature and advantage can be become apparent more, the utility model is described in further detail below in conjunction with the drawings and specific embodiments.
Consult Fig. 5, the utility model three line dimmer structures are shown, this dimmer comprises the zero cross detection circuit 11 that is arranged between two inputs of alternating current, be arranged on the chopping switch 12 between alternating current one input and dimmer one output, with the chopping switch control circuit 13 that zero cross detection circuit 11 is connected with chopping switch 12, provide the auxiliary power supply circuit 14 of power supply for chopping switch control circuit 13.
Zero cross detection circuit 11 detects the zero passage voltage of alternating current, when detecting zero passage voltage, sends the zero passage detection signal to chopping switch control circuit 13.
Chopping switch control circuit 13 output control signals are given chopping switch 12, make 12 of chopping switch in several limited ac periods, be operated in copped wave state (forward position copped wave, back along copped wave and/or front and back along copped wave), send regulating command to late-class circuit, and in other ac period, be operated in fully conducting state.
Chopping switch control circuit 13 receives the zero passage detection signal of zero cross detection circuit 11, and conditioning signal, if carry out forward position copped wave, chopping switch control circuit 13 turn-offs at alternating current voltage zero cross near control chopping switch 12, behind first Preset Time, 12 conductings of control chopping switch enter next zero cross near up to alternating current voltage, thereby realize forward position copped wave, first Preset Time is set according to the size of conditioning signal; If carry out the back along copped wave, chopping switch control circuit 13 is from 12 conductings of alternating current voltage zero cross near control chopping switch, behind second Preset Time, control chopping switch 12 turn-offs, enter next zero cross near up to alternating current voltage, thereby realize the back along copped wave, second Preset Time is set according to the size of conditioning signal.
Conditioning signal comprises one or more adjusting types, regulates type and comprises adjusting brightness, regulates color and regulates colour temperature.
Under same adjusting type, the state of types value is regulated in the decision of the different conditions of conditioning signal, promptly determines the size of brightness, or the depth of color, or the height of colour temperature.For example, conditioning signal can be level signal or pulse signal with certain duty ratio, and the state of types value is regulated in the big I decision of the height of level signal or the duty ratio of pulse signal.
Conditioning signal can come self-regulation brightness knob respectively, regulate the color knob, or adjusting colour temperature knob, or respectively from the adjusting brightness knob button of remote controller, regulate the color knob button, or regulate the colour temperature button, and the conditioning signal of other adjusting device generation, perhaps DALI, the standard interface signal of light adjusting systems such as DMX.
Chopping switch control circuit 13 can adopt the shutoff and the conducting of digital control approach control chopping switch 12.
Auxiliary power supply circuit 14 gives the chopping switch control circuit 13 power supplies.
Regulate type and can represent that described chopping voltage characteristic parameter comprises chopping voltage number, copped wave angle, copped wave duty ratio, copped wave ON time and copped wave turn-off time with the chopping voltage characteristic parameter;
The chopping voltage number is, when chopping switch is operated in the copped wave state, sends the chopping voltage number of a regulating command, and the chopping voltage number is defined as one in the half period of AC power; Usually the one-period with AC power is decided to be 360 degree (half period is 180 degree), and the copped wave angle is meant that chopping switch turn-offs the angle of (or conducting) time correspondence in half ac cycle; The copped wave duty ratio is in half ac cycle, the ratio of chopping switch conducting (or shutoff) time and AC power half period; The copped wave ON time is meant the time of chopping switch conducting in half ac cycle, and the copped wave turn-off time is meant the time that chopping switch turn-offs in half ac cycle.
Different adjusting types can corresponding identical or different chopping voltage characteristic parameter; Under same adjusting type, the corresponding state of regulating types value of the state of chopping voltage characteristic parameter, the i.e. depth of the size of corresponding brightness, or color, or the height of colour temperature.
For example, different copped wave numbers can be used as the differentiation mode of the adjusting type of brightness and color, and the copped wave number is 3 continuously, can be used as brightness regulated signal, the corresponding different brightness of size of different copped wave angles; The copped wave number is 5, can be used as the color adaptation signal, the corresponding different color of size of different copped wave angles; And for example, different copped wave angles also can be used as the signal of light modulation and toning, as brightness regulated signal, along copped wave angle can be used as color adaptation signal behind the 150-180 degree as 0-30 degree forward position copped wave angle.Late-class circuit (as the led driver circuit) carries out the adjusting of brightness or color according to the chopping voltage characteristic parameter of dimmer output through conversion process to the LED load.The LED lamp can be a kind of color or at least two kinds of color lamps (as R, G, B, W etc.); The LED load can be single channel or multichannel loading.
Introduce several typical chopper control modes below:
1. the back is along chopping way
As shown in Figure 6, detect the natural zero-crossing moment of input AC electricity, export control signal constantly in zero passage and make chopping switch 12 conductings; According to preset rule (this rule be regulating command with the copped wave characteristic parameter between corresponding relation) determine to regulate the corresponding copped wave angle of luminance instructions, according to the frequency of copped wave angle and alternating current, need behind chopping switch 12 passing zero triggers to determine second preset time t 2 that continues; Behind duration t 2, chopping switch control circuit 13 output control signals are turn-offed chopping switch 12, T/2>t2 (T is the cycle of alternating current) wherein, thus realize that the back is along chopping way.The characteristic parameter of copped wave is level load transfer conditioning signal backward, and conditioning signal comprises the regulating command of brightness and/or color.Copped wave number among Fig. 6 is two ac periods, need to prove, the copped wave number can be two or more.
2. forward position chopping way,
As shown in Figure 7, opposite with the back along the control timing of chopping way, exporting control signal constantly in zero passage turn-offs chopping switch 12, behind duration t1 (first Preset Time), chopping switch control circuit 13 output control signals, make chopping switch 12 conductings, T/2>t1 (T is the cycle of alternating current) wherein, thus realize the forward position chopping way.Copped wave number among Fig. 7 is two ac periods, need to prove, the copped wave number can be two or more.
3. front and back are along chopping way:
As shown in Figure 8, detect the natural zero-crossing moment of input AC electricity, from zero passage regularly the 3rd preset time t 3 back control chopping switch 12 conductings constantly, and from zero passage control chopping switch 12 shutoffs after the 4th preset time t 4 constantly, T/2>t4>t3 (T is the cycle of alternating current) wherein, thus before and after realizing along chopping way.
Need to prove, described forward position chopping way, the back is along chopping way, and front and back can be used in combination when sending regulating command along chopping way.Fig. 9 for example, partial periodicity is forward position copped wave, partial periodicity is that the back is along copped wave.
Compare along dimmer with the back with traditional forward position, the utility model dimmer has multiple advantage, the one, the turn-on and turn-off of chopping switch 12 are by detecting the zero passage detection signal that the alternating current zero passage voltage generates in the dimmer, and the Preset Time acting in conjunction of setting in the chopping switch control circuit 13, the influence that makes the size of copped wave angle not changed by alternating current voltage, level driver in back is by detecting the light modulation of copped wave angle, the influence that light modulation brightness is not changed by alternating current voltage like this;
The 2nd, under the control of control circuit of chopping 13, dimmer only is operated in the copped wave state in the partial periodicity of alternating current, and in other cycle, dimmer is operated in fully conducting state at alternating current, and is very little to EMC and PF influence;
The 3rd, owing to introduced the input (as the N line) that alternating current does not connect chopping switch, be that the auxiliary power supply circuit 14 of chopping switch control circuit 13 realizes convenient, circuit is simple;
Introduce concrete circuit execution mode below.
First embodiment
Referring to Figure 10, the first embodiment three wire dimmer circuit structure is shown, dimmer is back along dimmer, or front and back are along dimmer.Chopping switch 12 comprises metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2, and the gate pole of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 is connected with source electrode, and drain electrode connects an input of alternating current and an output of dimmer respectively.
Chopping switch control circuit 13 comprises the first diode D1, first capacitor C 1, voltage-stabiliser tube ZD1, first resistance R 1, single-chip microprocessor MCU and photoelectrical coupler OP1, the zero passage detection signal V1 of reception zero cross detection circuit 11 outputs of single-chip microprocessor MCU, and conditioning signal V2, the control signal of output is to the transmitting terminal of photoelectrical coupler OP1, and the receiving terminal of photoelectrical coupler OP1 is connected between the gate pole and source electrode of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2.Chopping switch control circuit 13 also comprises by diode D1 and capacitor C 1 forms the halfwave rectifier device, diode D1 and capacitor C 1 are connected in series, capacitor C 1 one ends connect the source electrode of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2, the other end connects the negative electrode of diode D1, and the anode of diode D1 connects another input of alternating current; Voltage-stabiliser tube ZD1 connects with resistance R 1, and the anode of voltage-stabiliser tube ZD1 connects the source electrode of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2, and negative electrode connects an end of resistance R 1 and the gate pole of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2, and the other end of resistance R 1 connects the negative electrode of diode D1.Diode D1 and capacitor C 1 are formed halfwave rectifier, through exporting a constant level after the voltage-stabiliser tube ZD1, power supply are provided for the gate pole of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2.
Need to prove that in the present embodiment is that two metal-oxide-semiconductors are example with chopping switch, in the practical application, chopping switch can be two IGBT, and its connected mode is: gate pole is connected, and emitter is connected, the drain electrode of the corresponding metal-oxide-semiconductor of its collector electrode, the source electrode of the corresponding metal-oxide-semiconductor of emitter.
After being, chopping switch control circuit 13 prolongs chopping way, when chopping switch 12 is in the copped wave state, the principle of control circuit of chopping is: input ac voltage Vin at natural zero-crossing constantly, zero cross detection circuit 11 output zero passage detection signal V1 give single-chip microprocessor MCU, the control signal of a high level of single-chip microprocessor MCU output is given photoelectrical coupler OP1, the phototriode that makes photoelectrical coupler OP1 is for cut-off state, the gate pole of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 provides a constant level by capacitor C 1 and voltage-stabiliser tube ZD1, makes metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 conducting; After postponing second preset time t 2, low level control signal of single-chip microprocessor MCU output, and to make the gate pole level of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 by photoelectrical coupler OP1 be low level or zero, makes metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 for cut-off state, realizes that dimmer is output as the back along chopping voltage.Second preset time t 2 is set by the conditioning signal of single-chip microprocessor MCU input.
When chopping switch control circuit 13 is the forward position chopping way, when chopping switch 12 is in the copped wave state, the principle of control circuit of chopping is: input ac voltage Vin at natural zero-crossing constantly, zero cross detection circuit 11 output zero passage detection signal V1 give single-chip microprocessor MCU, low level control signal of single-chip microprocessor MCU output is given photoelectrical coupler OP1, the phototriode that makes photoelectrical coupler OP1 is for conducting state, the gate pole of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 is a low level, and promptly metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 turn-off; After postponing first preset time t 1, the control signal of a high level of single-chip microprocessor MCU output is given photoelectrical coupler OP1, the phototriode that makes photoelectrical coupler OP1 is for cut-off state, the gate pole of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 provides a constant level by capacitor C 1 and voltage-stabiliser tube ZD1, make metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 conducting, realize that dimmer is output as the forward position chopping voltage.First preset time t 1 is set by the conditioning signal of single-chip microprocessor MCU input.
When chopping switch control circuit 13 is that front and back are along chopping way, when chopping switch 12 is in the copped wave state, the principle of control circuit of chopping 13 is: input ac voltage Vin at natural zero-crossing constantly, zero cross detection circuit 11 output zero passage detection signal V1 give single-chip microprocessor MCU, low level control signal of single-chip microprocessor MCU output is given photoelectrical coupler OP1, the phototriode that makes photoelectrical coupler OP1 is for conducting state, the gate pole of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 is a low level, and promptly metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 turn-off; The control signal of a high level of single-chip microprocessor MCU output is given photoelectrical coupler OP1 behind three time of delay control t3, the phototriode that makes photoelectrical coupler OP1 is for cut-off state, the gate pole of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 provides a constant level by capacitor C 1 and voltage-stabiliser tube ZD1, makes metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 conducting; After delay control four preset time t 4, low level control signal of single-chip microprocessor MCU output, and to make the gate pole level of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 by photoelectrical coupler OP1 be low level or zero, makes metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 for cut-off state.
When chopping switch 12 was in fully conducting state, control circuit of chopping 13 output control signals made metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 be in conducting state.
Like this, the utility model is with the three-way back of single-chip microprocessor MCU control during along a plurality of led driver load of dimmer band, the height one that is easy to realize a plurality of LED lamp currents under the dimming state is made peace and is extinguished simultaneously, and the three-way back of single-chip microprocessor MCU control can realize that along dimmer color lighting (as RGB) system regulates the needs of brightness and color simultaneously.
Second embodiment.
Referring to Figure 11, the second embodiment three wire dimmer circuit structure is shown, dimmer is back along dimmer, or front and back are along dimmer.Chopping switch 12 comprises metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2, and the gate pole of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 is connected with source electrode, and drain electrode connects an input and dimmer one output of alternating current respectively.
Chopping switch control circuit 13 comprises single-chip microprocessor MCU, the zero passage detection signal V1 of reception zero cross detection circuit 11 outputs of single-chip microprocessor MCU, and conditioning signal V2, the control signal of output is to the transmitting terminal of photoelectrical coupler OP1, receiving terminal one end of photoelectrical coupler OP1 is connected the gate pole of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2, and the other end is connected the negative electrode of diode D1 by resistance R 1.Diode D1 and capacitor C 1 are formed the halfwave rectifier device, and diode D1 and capacitor C 1 are connected in series, and capacitor C 1 one ends connect the drain electrode of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2, and the other end connects the negative electrode of diode D1, and the anode of diode D1 connects another input of alternating current; The anode of voltage-stabiliser tube ZD1 is connected the source electrode of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2, and negative electrode is connected the negative electrode of diode D1 by resistance R 1.Connect resistance R 2 between the gate pole of metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 and the source electrode.
Chopping switch control circuit 13 is compared with embodiment illustrated in fig. 10, because photoelectrical coupler OP1 is different with connected mode embodiment illustrated in fig. 10, therefore, in the present embodiment, when high-level control signal of single-chip microprocessor MCU output, photoelectrical coupler OP1 by the time, the gate pole level by metal-oxide-semiconductor Q1 after the photoelectrical coupler and metal-oxide-semiconductor Q2 is a low level, metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 are in cut-off state; When low level control signal of single-chip microprocessor MCU output, metal-oxide-semiconductor Q1 and metal-oxide-semiconductor Q2 are in conducting state.
Need to prove that in the present embodiment is that two metal-oxide-semiconductors are example with chopping switch, in the practical application, chopping switch can be two IGBT, and its connected mode is: gate pole is connected, and emitter is connected, the drain electrode of the corresponding metal-oxide-semiconductor of its collector electrode, the source electrode of the corresponding metal-oxide-semiconductor of emitter.
The 3rd embodiment.
Referring to Figure 12, the 3rd embodiment three wire dimmer circuit structure is shown, chopping switch 12 comprises rectifier bridge BD1 and metal-oxide-semiconductor Q1, the first input end of rectifier bridge BD1 and second input are connected an input and dimmer one output of alternating current respectively, and the negative output terminal of rectifier bridge BD1 and positive output end are connected source electrode and the drain electrode of metal-oxide-semiconductor Q1 respectively; The receiving terminal of series connection photoelectrical coupler OP1 between the gate pole of metal-oxide-semiconductor Q1 and the source electrode also is connected with the resistance R 1 and the power supply VS of series connection between the gate pole of metal-oxide-semiconductor Q1 and the source electrode.
The 4th embodiment.
Referring to Figure 13, the 4th embodiment three wire dimmer circuit structure is shown, chopping switch 12 comprises rectifier bridge BD1 and metal-oxide-semiconductor Q1, the first input end of rectifier bridge BD1 and second input are connected an input and dimmer one output of alternating current respectively, and the negative output terminal of rectifier bridge BD1 and positive output end are connected source electrode and the drain electrode of metal-oxide-semiconductor Q1 respectively; The photoelectrical coupler OP1 receiving terminal and the power supply VS that connect series connection between the gate pole of metal-oxide-semiconductor Q1 and the source electrode connect between the gate pole of metal-oxide-semiconductor Q1 and the source electrode and also connect resistance R 1.
Of particular note, Figure 10, Figure 11, Figure 12, embodiment illustrated in fig. 13 in, the metal-oxide-semiconductor of chopping switch 12 all can be substituted by IGBT.The operation principle of the single-chip microprocessor MCU in the foregoing description is basic identical.
The 5th embodiment.
Referring to Figure 14, the 5th embodiment three wire dimmer circuit structure is shown, chopping switch 12 is bidirectional triode thyristor Q1, chopping switch control circuit 13 is a single-chip microprocessor MCU, the zero passage detection signal V1 of reception zero cross detection circuit 11 outputs of single-chip microprocessor MCU, and conditioning signal V2, output a control signal to bidirectional triode thyristor Q1, control bidirectional triode thyristor Q1 action.Chopping switch control circuit 13 adopts forward position chopping way control bidirectional triode thyristor Q1.
The 6th embodiment.
Referring to Figure 15, the 6th embodiment three wire dimmer circuit structure is shown, and among this embodiment, auxiliary power supply circuit 14 comprises capacitor C 2 and the diode D2 that is connected between two inputs of alternating current, the anode of diode D2 connects input of alternating current, and negative electrode connects capacitor C 2; The negative electrode of diode D2 connects the anode of diode D3, the negative electrode of diode D3 connects linear voltage-stabilizing circuit, be connected with to capacitor C 3 between input of the negative electrode of diode D3 and alternating current, the negative electrode of oriented capacitor C 3 cathode connecting diode D3, negative pole connects input of alternating current.Linear voltage-stabilizing circuit provides power supply VCC for chopping switch control circuit 13.
The 7th embodiment.
Referring to Figure 16, the 7th embodiment three wire dimmer circuit structure is shown, among this embodiment, among this embodiment, zero cross detection circuit 11 comprises and operational amplifier ICI that the positive input terminal of operational amplifier ICI connects input of alternating current, and the negative input end of operational amplifier ICI is connected the common port of resistance R 3 and resistance R 4, resistance R 3 and resistance R 4 are connected in series between two inputs of alternating current, the output of operational amplifier ICI output zero passage detection signal V1.
Among Figure 15 and the 6th embodiment and the 7th embodiment shown in Figure 16, chopping switch 12 can be connected on the L line of alternating current, also can be connected on the alternating current N line.
In the utility model, chopping switch 12 can be that (as MOSFET, IGBT) the two-way admittance switch of device formation also can be by controlled shutoff device and the common two-way admittance switch that constitutes of other semiconductor device (as diode) by controlled shutoff device.
The utility model control circuit of chopping 13 can be an analog circuit, also can be digital circuit (comprising single-chip microcomputer etc.).
The load of described Switching Power Supply class can be the driver of LED one class solid-state illumination light source, also can be the driver of glow discharge spot lamp; The LED lamp can be single or multiple LED lamps, the LED lamp of same color or different colours (as R, G, B etc.).
The above only is a preferred implementation of the present utility model, does not constitute the qualification to the utility model protection range.Any any modification of within spirit of the present utility model and principle, being done, be equal to and replace and improvement etc., all should be included within the claim protection range of the present utility model.
Claims (10)
1. line dimmer, it is characterized in that, be arranged on the zero cross detection circuit between two inputs of alternating current, be arranged on the chopping switch between input of alternating current and output of dimmer, the chopping switch control circuit that is connected with described chopping switch with described zero cross detection circuit, and be the auxiliary power supply circuit of described chopping switch control circuit power supply:
Described zero cross detection circuit is used to detect the zero passage voltage of alternating current, sends the zero passage detection signal when detecting zero passage voltage to described chopping switch control circuit;
Described chopping switch control circuit, be used to receive conditioning signal and zero passage detection signal, the corresponding control signal of output arrives described chopping switch, makes chopping switch be operated in the copped wave state in the ac period of setting number, is operated in fully conducting state in other ac period; Under the copped wave state, turn-off or conducting by the described chopping switch of zero passage detection signal controlling, behind setting-up time, control described chopping switch again and change the work at present state, enter next zero passage voltage up to alternating current, make dimmer output chopping voltage, described setting-up time is determined by conditioning signal.
2. three line dimmers as claimed in claim 1 is characterized in that, described conditioning signal comprises one or more adjusting types, and described adjusting type comprises adjusting brightness, regulate color and regulate colour temperature;
Under same adjusting type, the state of types value is regulated in the decision of the different conditions of conditioning signal, promptly determines the size of brightness, or the depth of color, or the height of colour temperature.
3. three line dimmers as claimed in claim 2, it is characterized in that, described adjusting type can represent that described chopping voltage characteristic parameter comprises chopping voltage number, copped wave angle, copped wave duty ratio, copped wave ON time and copped wave turn-off time with the chopping voltage characteristic parameter;
Different adjusting types can corresponding identical or different chopping voltage characteristic parameter; Under same adjusting type, the corresponding state of regulating types value of the state of chopping voltage characteristic parameter, the i.e. depth of the size of corresponding brightness, or color, or the height of colour temperature.
4. three line dimmers as claimed in claim 1 is characterized in that the chopping switch control circuit can adopt digital control approach.
5. as each described three line dimmers of claim 1-4, it is characterized in that, when described chopping switch comprises first metal-oxide-semiconductor (Q1) and second metal-oxide-semiconductor (Q2), the gate pole of first metal-oxide-semiconductor (Q1) and second metal-oxide-semiconductor (Q2) is connected as the first control utmost point of chopping switch, its source electrode is connected as the second control utmost point of chopping switch, when its drain electrode connects output of input of alternating current and dimmer respectively;
Perhaps, when described chopping switch comprises an IGBT (Q1) and the 2nd IGBT (Q2), the gate pole of the one IGBT (Q1) and the 2nd IGBT (Q2) is connected as the first control utmost point of chopping switch, its emitter is connected as the second control utmost point of chopping switch, when its collector electrode connects output of input of alternating current and dimmer respectively;
The chopping switch control circuit comprises first diode (D1), first electric capacity (C1), voltage-stabiliser tube (ZD1), first resistance (R1), single-chip microcomputer and photoelectrical coupler (OP1), the zero passage detection signal of the reception zero cross detection circuit output of single-chip microcomputer, and conditioning signal, the high or low level signal of output is to the transmitting terminal of photoelectrical coupler (OP1), and the receiving terminal of photoelectrical coupler (OP1) is connected between first control and the second control utmost point of chopping switch; Described first diode (D1) and first electric capacity (C1) are in series, first electric capacity (C1) end connects the second control utmost point of chopping switch, the other end connects the negative electrode of first diode (D1), and the anode of first diode (D1) connects another input of alternating current; Voltage-stabiliser tube (ZD1) is connected with first resistance (R1), the anode of voltage-stabiliser tube (ZD1) connects the second control utmost point of chopping switch, negative electrode connects an end of first resistance (R1) and the first control utmost point of chopping switch, and the other end of first resistance (R1) connects the negative electrode of first diode (D1).
6. as each described three line dimmers of claim 1-4, it is characterized in that, when described chopping switch comprises first metal-oxide-semiconductor (Q1) and second metal-oxide-semiconductor (Q2), the gate pole of first metal-oxide-semiconductor (Q1) and second metal-oxide-semiconductor (Q2) is connected as the first control utmost point of chopping switch, its source electrode is connected as the second control utmost point of chopping switch, when its drain electrode connects output of input of alternating current and dimmer respectively;
Perhaps, when described chopping switch comprises an IGBT (Q1) and the 2nd IGBT (Q2), the gate pole of the one IGBT (Q1) and the 2nd IGBT (Q2) is connected as the first control utmost point of chopping switch, its emitter is connected as the second control utmost point of chopping switch, when its collector electrode connects output of input of alternating current and dimmer respectively;
The chopping switch control circuit comprises first diode (D1), first electric capacity (C1), voltage-stabiliser tube (ZD1), first resistance (R1), second resistance (R2), single-chip microcomputer and photoelectrical coupler (OP1), the zero passage detection signal of the reception zero cross detection circuit output of single-chip microcomputer, and conditioning signal, the high or low level signal of output is to the transmitting terminal of photoelectrical coupler OP1; First end of the receiving terminal of photoelectrical coupler (OP1) connects the first control utmost point of chopping switch, and second end is connected the negative electrode of first diode (D1) by first resistance (R1); First diode (D1) and first electric capacity (C1) are connected in series, and first electric capacity (C1) end connects the second control utmost point of chopping switch, and the other end connects the negative electrode of first diode (D1), and the anode of first diode (D1) connects another input of alternating current; The anode of voltage-stabiliser tube (ZD1) is connected the second control utmost point of chopping switch, negative electrode is connected second end of the receiving terminal of end of first resistance (R1) and photoelectrical coupler (OP1), and second resistance (R2) is connected in parallel between the first control utmost point and the second control utmost point of chopping switch.
7. as each described three line dimmers of claim 1-4, it is characterized in that, chopping switch comprises rectifier bridge (BD1) and first metal-oxide-semiconductor (Q1), the negative input end of rectifier bridge (BD1) and positive input terminal are connected an input and dimmer one output of alternating current respectively, and the negative output terminal of rectifier bridge (BD1) and positive output end are connected the source electrode and the drain electrode of first metal-oxide-semiconductor (Q1) respectively;
The chopping switch control circuit comprises first resistance (R1), single-chip microcomputer and photoelectrical coupler (OP1), single-chip microcomputer receives the zero passage detection signal of zero cross detection circuit output, and conditioning signal, and the high or low level signal of output is to the transmitting terminal of photoelectrical coupler (OP1);
The receiving terminal of photoelectrical coupler (OP1) and power supply (VS) are connected in series between the gate pole and source electrode of first metal-oxide-semiconductor (Q1), and first resistance is connected in parallel between the gate pole and source electrode of first metal-oxide-semiconductor (Q1).
8. as each described three line dimmers of claim 1-4, it is characterized in that, chopping switch comprises rectifier bridge (BD1) and first metal-oxide-semiconductor (Q1), the negative input end of rectifier bridge (BD1) and positive input terminal are connected an input and dimmer one output of alternating current respectively, and the negative output terminal of rectifier bridge (BD1) and positive output end are connected the source electrode and the drain electrode of first metal-oxide-semiconductor (Q1) respectively;
The chopping switch control circuit comprises single-chip microcomputer and photoelectrical coupler (OP1), and single-chip microcomputer receives the zero passage detection signal of zero cross detection circuit output, and conditioning signal, and the high or low level signal of output is to the transmitting terminal of photoelectrical coupler OP1;
The receiving terminal of photoelectrical coupler (OP1) is connected between the gate pole and source electrode of first metal-oxide-semiconductor (Q1), is connected with first resistance (R1) and the power supply (VS) of series connection between the gate pole of first metal-oxide-semiconductor (Q1) and the source electrode.
9. as each described three line dimmers of claim 1-4, it is characterized in that, zero cross detection circuit comprises operational amplifier (ICI), the positive input terminal of operational amplifier (ICI) connects alternating current one input, the negative input end of operational amplifier (ICI) is connected the common port of the 3rd resistance (R3) and the 4th resistance (R4), the 3rd resistance (R3) and the 4th resistance (R4) are connected in series between two inputs of alternating current, the output of operational amplifier (ICI) output zero passage detection signal.
10. three line dimmers as claimed in claim 9, it is characterized in that, described auxiliary power supply circuit comprises, be connected second electric capacity (C2) between two inputs of alternating current and the series arm of second diode (D2), the anode of second diode (D2) connects an input of alternating current, and negative electrode connects second electric capacity (C2); The negative electrode of second diode (D2) connects the anode of the 3rd diode (D3), the negative electrode of the 3rd diode (D3) connects linear voltage-stabilizing circuit, be connected with to electric capacity (C3) between the input of the negative electrode of the 3rd diode (D3) and alternating current, the anodal negative electrode that connects the 3rd diode (D3) of oriented electric capacity (C3), negative pole connects input of alternating current, and linear voltage-stabilizing circuit out-put supply VCC is to the chopping switch control circuit.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010205401015U CN201937885U (en) | 2010-09-17 | 2010-09-17 | Three-line dimmer |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010205401015U CN201937885U (en) | 2010-09-17 | 2010-09-17 | Three-line dimmer |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN201937885U true CN201937885U (en) | 2011-08-17 |
Family
ID=44449386
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2010205401015U Expired - Lifetime CN201937885U (en) | 2010-09-17 | 2010-09-17 | Three-line dimmer |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN201937885U (en) |
Cited By (13)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102404907A (en) * | 2010-09-17 | 2012-04-04 | 英飞特电子(杭州)有限公司 | Three-wire dimmer |
| CN104160788A (en) * | 2012-01-26 | 2014-11-19 | 皇家飞利浦有限公司 | Two-wire neutralless digital dimmer for leading-edge dimmable lamp driver and a method of operation thereof |
| CN104837258A (en) * | 2015-05-08 | 2015-08-12 | 湖南工业大学 | Circuit for controlling ceiling fan and lamp through single live wire |
| CN104837253A (en) * | 2015-05-08 | 2015-08-12 | 湖南工业大学 | Circuit for remotely controlling a plurality of ceiling fans and lamps through single live wire |
| CN104837251A (en) * | 2015-05-08 | 2015-08-12 | 湖南工业大学 | Single-live-wire dimming circuit for wall-controlled LED lamp |
| CN104837254A (en) * | 2015-05-08 | 2015-08-12 | 湖南工业大学 | Method for remotely controlling a plurality of ceiling fans and lamps through single live wire |
| CN104869705A (en) * | 2015-05-08 | 2015-08-26 | 湖南工业大学 | Ceiling fan lamp single-live line control circuit |
| CN104968108A (en) * | 2015-07-06 | 2015-10-07 | 湖南工业大学 | Method of remotely adjusting the brightness of multiple LED lamps through controllable rectification waves |
| CN108040403A (en) * | 2017-10-30 | 2018-05-15 | 厦门亚锝电子科技有限公司 | Light modulator |
| CN109714859A (en) * | 2019-01-24 | 2019-05-03 | 美智光电科技有限公司 | Intelligent switching control circuit |
| WO2019084939A1 (en) * | 2017-11-04 | 2019-05-09 | 肖志蓝 | Stepless color temperature and brightness adjustment led light system and control method therefor |
| CN112638016A (en) * | 2020-12-31 | 2021-04-09 | 珠海雷特科技股份有限公司 | Silicon controlled rectifier dimmer based on communication protocol dimming and working method thereof |
| CN112738943A (en) * | 2020-12-31 | 2021-04-30 | 珠海雷特科技股份有限公司 | Silicon controlled power amplifier capable of switching leading edge control and trailing edge control and working method thereof |
-
2010
- 2010-09-17 CN CN2010205401015U patent/CN201937885U/en not_active Expired - Lifetime
Cited By (18)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102404907B (en) * | 2010-09-17 | 2014-05-28 | 英飞特电子(杭州)股份有限公司 | Three-wire dimmer |
| CN102404907A (en) * | 2010-09-17 | 2012-04-04 | 英飞特电子(杭州)有限公司 | Three-wire dimmer |
| CN104160788B (en) * | 2012-01-26 | 2016-11-16 | 皇家飞利浦有限公司 | For forward position tunable optical lamp driver two-wire and without neutral digital light adjuster and the method that operates on it |
| CN104160788A (en) * | 2012-01-26 | 2014-11-19 | 皇家飞利浦有限公司 | Two-wire neutralless digital dimmer for leading-edge dimmable lamp driver and a method of operation thereof |
| CN104837254B (en) * | 2015-05-08 | 2017-05-17 | 湖南工业大学 | Method for remotely controlling a plurality of ceiling fans and lamps through single live wire |
| CN104837258A (en) * | 2015-05-08 | 2015-08-12 | 湖南工业大学 | Circuit for controlling ceiling fan and lamp through single live wire |
| CN104837254A (en) * | 2015-05-08 | 2015-08-12 | 湖南工业大学 | Method for remotely controlling a plurality of ceiling fans and lamps through single live wire |
| CN104869705A (en) * | 2015-05-08 | 2015-08-26 | 湖南工业大学 | Ceiling fan lamp single-live line control circuit |
| CN104837251A (en) * | 2015-05-08 | 2015-08-12 | 湖南工业大学 | Single-live-wire dimming circuit for wall-controlled LED lamp |
| CN104837253A (en) * | 2015-05-08 | 2015-08-12 | 湖南工业大学 | Circuit for remotely controlling a plurality of ceiling fans and lamps through single live wire |
| CN104837253B (en) * | 2015-05-08 | 2017-03-29 | 湖南工业大学 | A kind of circuit of the multiple Lamp with ceiling fan of single live wire distant control |
| CN104869705B (en) * | 2015-05-08 | 2017-05-17 | 湖南工业大学 | Ceiling fan lamp single-live line control circuit |
| CN104968108A (en) * | 2015-07-06 | 2015-10-07 | 湖南工业大学 | Method of remotely adjusting the brightness of multiple LED lamps through controllable rectification waves |
| CN108040403A (en) * | 2017-10-30 | 2018-05-15 | 厦门亚锝电子科技有限公司 | Light modulator |
| WO2019084939A1 (en) * | 2017-11-04 | 2019-05-09 | 肖志蓝 | Stepless color temperature and brightness adjustment led light system and control method therefor |
| CN109714859A (en) * | 2019-01-24 | 2019-05-03 | 美智光电科技有限公司 | Intelligent switching control circuit |
| CN112638016A (en) * | 2020-12-31 | 2021-04-09 | 珠海雷特科技股份有限公司 | Silicon controlled rectifier dimmer based on communication protocol dimming and working method thereof |
| CN112738943A (en) * | 2020-12-31 | 2021-04-30 | 珠海雷特科技股份有限公司 | Silicon controlled power amplifier capable of switching leading edge control and trailing edge control and working method thereof |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN201937885U (en) | Three-line dimmer | |
| CN109246885B (en) | Phase-cut dimming device of LED | |
| CN102404907B (en) | Three-wire dimmer | |
| CN101605413B (en) | LED drive circuit suitable for controlled silicon light adjustment | |
| CN101657057B (en) | LED power circuit | |
| CN109041348A (en) | Adaptive circuit module, the LED drive circuit with controllable silicon dimmer and method | |
| CN102300355A (en) | Light emitting diode (LED) dimming system | |
| CN105025632B (en) | A kind of LED lamp and its control circuit of switch toning | |
| WO2014067427A1 (en) | Dimming drive circuit of alternating current directly-driven led module | |
| CN201114906Y (en) | Multi-purpose crystal tube controller circuit and controllable lighting circuit | |
| CN103491689B (en) | Controllable silicon light modulation LED driving switch power circuit | |
| CN202495757U (en) | Impulse current limiting circuit and corresponding chopping dimming system thereof | |
| CN201742607U (en) | LED dimming system | |
| CN201467538U (en) | LED driving circuit for controlled silicon dimming | |
| CN201995174U (en) | Back-porch small-phase-angle light dimming circuit | |
| CN209593811U (en) | Adaptive circuit module, the LED drive circuit with controllable silicon dimmer | |
| CN101523992A (en) | Power controller having current limited rms voltage regulated output | |
| CN204069410U (en) | Two-wire system light adjusting circuit | |
| CN110366296A (en) | Pass through the controller of power line communication, LED lamp and LED control system | |
| CN201821272U (en) | Three-wire dimmer | |
| CN214757020U (en) | Power adjusting circuit, LED power supply and LED lamp | |
| CN201509348U (en) | LED power circuit | |
| CN200947591Y (en) | Single input automatic light-tuning electronic switch | |
| CN210042294U (en) | LED color temperature adjusting circuit and device | |
| CN203340368U (en) | LED dimming table lamp |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C56 | Change in the name or address of the patentee | ||
| CP01 | Change in the name or title of a patent holder |
Address after: Hangzhou City, Zhejiang province 310053 Binjiang District Dongxin Road No. 66 East communication B block 309 Patentee after: LED One (Hangzhou) Co.,Ltd. Address before: Hangzhou City, Zhejiang province 310053 Binjiang District Dongxin Road No. 66 East communication B block 309 Patentee before: Inventronics (Hangzhou) Co., Ltd. |
|
| AV01 | Patent right actively abandoned |
Granted publication date: 20110817 Effective date of abandoning: 20140528 |
|
| RGAV | Abandon patent right to avoid regrant |