CN101489335B - LED driving circuit and secondary side controller thereof - Google Patents

Abstract

A light emitting diode driving circuit of the invention and a secondary side controller control the output voltage to a first driving voltage or a second driving voltage. When the output voltage is in the first driving voltage, the light emitting diode module can be in a stable light emitting state. When the output voltage is in the second driving voltage, the output voltage is approximately in the threshold voltage (larger than zero voltage) of light emitting diode module so that the light emitting diode module hardly radiates. Thus the variation of voltage applied to the light emitting diode module is less than the present voltage variation in light modulation process, thereby avoiding the problem of overlarge voltage stress or inaccurate light modulation control of light emitting diode in prior art.

Description

LED driving circuit and secondary side controller thereof

Technical field

The present invention relates to a kind of LED driving circuit and secondary side controller thereof of tool dimming function; Especially finger is a kind of in the light modulation process, can light emitting diode driving voltage be controlled in the LED driving circuit and the secondary side controller thereof of one first driving voltage and one second driving voltage.

Background technology

As shown in Figure 1, be existing buck (Buck) LED driving circuit.When transistor switch Q2 conducting (TURN ON), power supply V4 provides electric current to flow through transistor switch Q2 to inductance L 1, capacitor C 4 charging energy storage and provide energy to make it luminous to light-emitting diode D2, D5 simultaneously.When transistor switch Q2 closes (TURN 0FF), being released energy by inductance L 1, capacitor C 4 lets light-emitting diode D2, D5 continue luminous again.The electric current of light-emitting diode D2, D5 of flowing through can produce voltage drop and produce a current detection signal at resistance R 7 two ends.The negative input end of error amplifier U4 receives this current detection signal, and positive input terminal receives a voltage reference signal Vref, exports an error amplification signal in output in view of the above.Pulse-width modulation (Pulse Width Modulated; PWM) comparator U5 receives this error amplification signal and a triangular signal; Relatively export a pwm signal behind this two signal; With the ON time of decision transistor switch Q2, and reach control power supply V4 provides energy to the buck LED driving circuit number in each cycle.Basically transistor switch Q2 ON time can let circuit export enough voltage and electric current by feedback voltage control; Make resistance R 7 current sensors equal default value; If output current is too much or very little, the voltage at resistance R 7 two ends will change, and then the ON time of change transistor switch Q2; So can reach the electric current current stabilization the voltage at resistance R 7 two ends for being held in definite value.

Please again with reference to figure 1, utilize a NAND gate (NAND gate) U7A to receive a dim signal and this pwm signal simultaneously and reach the function of light modulation.When input dim signal when being low level (LOW LEVEL), make the output of NAND gate U7A transfer high level to and stop power transistor switch Q2 conducting.Though inductance L 1 and capacitor C 4 can release energy through diode D8 and keep light-emitting diode D2, D5 after transistor switch Q2 ended; Yet because the cycle of dim signal is longer; Inductance L 1 and capacitor C 4 can release energy, and when being lower than the critical voltage of light-emitting diode D2, D5, light-emitting diode D2, D5 are no longer luminous to output voltage (the contact voltage of inductance L 1 and capacitor C 4).Yet because the existence of some leakage paths, till the energy storage that output voltage still can continue to drop to inductance L 1 and capacitor C 4 discharges fully.When input dim signal when transferring high level to (HIGH LEVEL), the output of NAND gate U7A transfers to and controlled by pwm signal, will recover to reach stabilized illumination like aforesaid FEEDBACK CONTROL.So change and then control LED lights and obtains a mean flow rate with the shut-in time ratio and meet the requirements of dimming mode by the control signal pulse bandwidth.

This existing dimming mode is because be operated in conducting with extreme by both; With producing excessive instantaneous voltage, its voltage and current waveform is as shown in Figure 2, and its change in voltage is that zero volt is to N*VF; Wherein N is the light-emitting diode quantity of series connection; VF is the cross-pressure of light-emitting diode when flowing through scheduled current, and if any the dozens of series LED, then the change in voltage at its two ends will reach hundreds of volts.And the cross-pressure that N*VFmin wherein is meant when light-emitting diode is in critical voltage to be caused; When output voltage drops to N*VFmin by N*VF; Light-emitting diode almost stops luminous, and the rate of release of energy storage of electric capacity will slow down slowly until discharging fully this moment as shown in Figure 2.Because the conducting once more of light-emitting diode needs ON time; When the voltage that moment provides excessive; To have in the light-emitting diodes will bear many series connection and make light-emitting diode burn danger situation greater than a lot of voltage stress of specification to take place, therefore must provide voltage the slow control circuit that rises because of conducting is different.Though voltage is slow to be risen control circuit and can solve the above problems by adding, so this measure has not only increased the cost of LED driving circuit, and the instantaneous time of the voltage up-down of light modulation process also can increase and influences the accuracy of brightness adjustment control.

Summary of the invention

In view of this; For solving the problems of the technologies described above; The object of the present invention is to provide a kind of have to close at light-emitting diode (LED) module still keep a fundamental voltage at the light-emitting diode (LED) module two ends when dark; Make it can guarantee that input has small voltage just to change at the light-emitting diode (LED) module two ends; Make the design of LED driving circuit increase extra output current-limiting circuit in addition and to ensure that light-emitting diode component does not have the danger of damage and takes place, therefore can reduce LED driving circuit cost and the layout of simplifying the PCB circuit board because of considering the output voltage rise time.

For reaching above-mentioned purpose, the present invention provides a kind of LED driving circuit, comprises a change-over circuit, a light-emitting diode (LED) module, a current detector and a control module.Above-mentioned change-over circuit is to convert an input voltage to an output voltage according to a control signal.Above-mentioned light-emitting diode (LED) module couples this change-over circuit, and according to this output voltage and luminous.Above-mentioned current detector couples this light-emitting diode (LED) module, produces a current detection signal according to an electric current of this light-emitting diode (LED) module of flowing through.Above-mentioned control module produces this control signal according to this current detection signal and a dim signal, makes this output voltage be controlled in one first driving voltage or one second driving voltage.Wherein, when this output voltage was positioned at this first driving voltage, this light-emitting diode (LED) module is in decided the current drives state and stable luminous; And when output voltage was positioned at this second driving voltage, this output voltage made this light-emitting diode (LED) module luminous hardly approximately near a critical voltage of this light-emitting diode (LED) module.

The present invention also provides another kind of LED driving circuit, and it comprises a change-over circuit, a light-emitting diode (LED) module, a current detector, a voltage detector and a control module.Above-mentioned change-over circuit is to convert an input voltage to an output voltage according to a control signal.Above-mentioned light-emitting diode (LED) module couples this change-over circuit, and according to this output voltage and luminous.Above-mentioned current detector couples this light-emitting diode (LED) module, produces a current detection signal according to an electric current of this light-emitting diode (LED) module of flowing through.Above-mentioned voltage detector couples this light-emitting diode (LED) module, to produce a voltage detection signal according to putting on one of this light-emitting diode (LED) module voltage.Above-mentioned control module produces this control signal according to this current detection signal, this voltage detection signal and a dim signal, makes this output voltage be controlled in one first driving voltage or one second driving voltage.Wherein, when this output voltage was positioned at this first driving voltage, this light-emitting diode (LED) module is in decided the current drives state and stable luminous; And when output voltage was positioned at this second driving voltage, this output voltage made this light-emitting diode (LED) module luminous hardly approximately near a critical voltage of this light-emitting diode (LED) module.

The present invention also provides a kind of secondary side control circuit; It is applied to a LED driving circuit; Wherein this LED driving circuit comprises at least one detector that a primary side control circuit, a change-over circuit and are coupled to this change-over circuit, and this secondary side control circuit couples this at least one detector.Above-mentioned secondary side control circuit can comprise a signal processor and a signal selecting circuit.Wherein, above-mentioned signal processor couples this at least one detector, and produces corresponding at least one processing signals according at least one detection signal that this at least one detector produced; Above-mentioned signal selecting circuit couples this signal processor and selects one of this at least one processing signals of output according to a dim signal.In addition, above-mentioned secondary side control circuit also can comprise a signal selecting circuit and a signal processor.Wherein, above-mentioned signal selecting circuit couples this at least one detector and selects one of output received signal according to a dim signal; Above-mentioned signal processor couples this signal selecting circuit, and selects the signal that circuit produced to export a processing signals according to this number.

In sum; In the light modulation process; LED driving circuit of the present invention and secondary side controller thereof put on the change in voltage of light-emitting diode (LED) module less than existing change in voltage; Light-emitting diode receives excessive voltage stress or the coarse problem of brightness adjustment control in the skill so can avoid having now, thereby can reduce electromagnetic interference, LED driving circuit cost and the layout of simplifying the PCB circuit board.

Description of drawings

Fig. 1 is existing buck (Buck) LED driving circuit;

Fig. 2 is the driving voltage and the drive current waveform sketch map of existing LED driving circuit;

Fig. 3 A to Fig. 3 D is the circuit diagram according to LED driving circuit of the present invention;

Fig. 4 is according to the driving voltage of the light-emitting diode (LED) module of those embodiment of the present invention and drive current waveform sketch map.

The primary clustering symbol description:

10... change-over circuit 12,12c... primary side control unit

242a, U4... error amplifier 241a signal selector

29c... minimum working period signal generator

20a, 20b... secondary side control unit

24a, 24b, 24c, 26a... signal processor

28a, 28b, 28c... signal selecting circuit

30... light-emitting diode (LED) module 32... current detector

34... first fen splenium of voltage detector 34a...

34b... second fen splenium 36... isolated location

VIN... input voltage Vref... reference voltage

Vref1... the first reference voltage Vref 2..., second reference voltage

Vref3... the 3rd reference voltage Q2... works as transistor switch

V4... power supply L1... inductance

C4... electric capacity D2, D5... light-emitting diode

D8... diode R7... resistance

U... comparator U7A... NAND gate

Embodiment

The invention is characterized in that in the brightness adjustment control process output voltage of LED driving circuit is controlled in one first driving voltage or one second driving voltage.When output voltage was positioned at first driving voltage, light-emitting diode (LED) module was a Current Feedback Control, so be in stable luminance; And when output voltage is positioned at second driving voltage; Be Voltage Feedback control; So rough critical voltage (but greater than zero volt) that equals light-emitting diode (LED) module of this output voltage; Make light-emitting diode (LED) module luminous hardly, be preferably the critical voltage that is slightly less than light-emitting diode (LED) module, not luminous to guarantee light-emitting diode (LED) module.So; In the light modulation process; The change in voltage that puts on light-emitting diode (LED) module is less than existing change in voltage; Light-emitting diode bears too high voltages or the coarse problem of brightness adjustment control and reduction because of crossing the electromagnetic interference (EMI, Electromagnetic Interference) that large amplitude produces in the skill so can avoid having now.

Decide electric current in order to reach above-mentioned control, can to use, decide voltage and switch or decide electric current and minimum work period switching way is implemented.Below will explain with preferred embodiments more of the present invention.

Fig. 3 A is a circuit diagram of deciding the LED driving circuit embodiment that electric current/decide voltage switches according to the present invention.Shown in Fig. 3 A, LED driving circuit comprises a change-over circuit 10, a control module, a light-emitting diode (LED) module 30, a current detector 32 and a voltage detector 34.Control module comprises a primary side control unit 12, a secondary side control unit 20a and an isolated location 36.Change-over circuit 10 converts an input voltage VIN to an output voltage V 0, for the usefulness of driven for emitting lights diode (led) module 30 according to a control signal of primary side control unit 12.Voltage detector 34 detects the voltage of light-emitting diode (LED) module 30, to export a voltage detection signal; Current detector 32 is connected with light-emitting diode (LED) module 30, and the electric current that detects the light-emitting diode (LED) module 30 of flowing through is to produce a current detection signal.Secondary side control unit 20a receives this voltage detection signal, this current detection signal and a dim signal; And produce a secondary side control signal in view of the above; And be sent to primary side control unit 12 through isolated location 36; Isolated location 36 is optical coupler in the present embodiment, can be transformer or other barrier assembly when practical application.Primary side control unit 12 can be the prior PWM controller, and it produces above-mentioned control signal according to this selection control signal, converts input voltage to output voltage V 0 with control transformation circuit 10.In the present embodiment, change-over circuit 10 is to be example explanation with the flyback DC-to-DC switching circuit, and can be change-over circuit such as forward type, semibridge system, full-bridge type in the practical application and not limited.

Secondary side control unit 20a has comprised voltage detection signal processor 24a, current detection signal processor 26a and signal selecting circuit 28a.Voltage detection signal processor 24a receives voltage detection signal and dim signal, and produces a voltage processing signals in view of the above; And current detection signal processor 26a received current detection signal, to produce a current processing signal.Signal selecting circuit 28a receives voltage processing signals and current processing signal, and selects to export one of them according to varying in size of both signals.In the present embodiment, dim signal is pulse signal and inputs to voltage detection signal processor 24a, with the voltage processing signals size of adjustment voltage detection signal processor 24a output.

Voltage detection signal processor 24a comprises signal selector 241a and error amplifier 242a.Signal selector 241a selects first higher reference voltage Vref 1 of output or the second lower reference voltage Vref 2 according to dim signal.The in-phase input end of error amplifier 242a receives first reference voltage Vref 1 or second reference voltage Vref 2 that signal selector 241a is exported, and inverting input receives the voltage detection signal of voltage detector 34, and output voltage processing signals in view of the above.Current detection signal processor 26a is an error amplifier, receives the 3rd reference voltage Vref 3 in in-phase input end, the current detection signal of inverting input received current detector 32, and output current processing signals in view of the above.Signal selecting circuit 28a comprises two diodes; The negative terminal of these diodes couples voltage detection signal processor 24a and current detection signal processor 26a respectively; Anode then all is coupled to isolated location 36, and select output voltage processing signals and current processing signal in than low level person.In the present embodiment; When the dimming control signal level is that representative is when " closing " first level signal of " OFF "; Second reference voltage Vref 2 that signal selector 241a output is lower makes voltage detection signal processor 24a reduce the level of the voltage processing signals of being exported.At this moment, the level of voltage processing signals is lower than the level of current processing signal, and signal selecting circuit 28a selects the output voltage processing signals.Therefore, LED driving circuit operates in constant voltage mode, and output voltage is reduced near the critical voltage of light-emitting diode (LED) module, and this moment, light-emitting diode (LED) module was luminous hardly.When the dimming control signal level was second level signal of representative " ON ", first reference voltage Vref 1 that signal selector 241a output is higher made voltage detection signal processor 24a improve the level of the voltage processing signals of being exported.At this moment, signal selecting circuit 28a selects the output current processing signals.Therefore, LED driving circuit operates in constant current mode, output voltage rise and the current stabilization that makes light-emitting diode (LED) module in a predetermined current value, this moment the light-emitting diode (LED) module stabilized illumination.So; The output voltage of LED driving circuit is the first driving voltage (constant current mode; Current stabilization is in predetermined current value) or second driving voltage (constant voltage mode, voltage are stable at a scheduled voltage), avoid aforementioned the problems of the prior art thereby the difference of two driving voltages is less.In addition; If circuit is opened a way; Make the current detection signal level of current detector 32 feedbacks very low; The voltage detection signal that this moment, output voltage V 0 can constantly rise to voltage detector 34 arrives till first reference voltage Vref 1, and this moment, voltage detection signal processor 24a obtained the FEEDBACK CONTROL ownership once again, the maximum of restriction output voltage V 0 and reach over-voltage protecting function.

Certainly; Dim signal except that as the input signal of above-mentioned in-phase input end with control voltage detection signal processor 24a reach the control output signal level; Also the level of the input signal of the inverting input of may command voltage detection signal processor 24a or the means such as output output signal level of directly controlling voltage detection signal processor 24a reach above-mentioned functions, even also arbitrary input signal or the output signal of controllable current detection signal processor 26a reach above-mentioned functions.With reference to figure 3B, be the LED driving circuit sketch map of the incoming signal level of the inverting input of control voltage detection signal processor 24a.In the present embodiment; Voltage detector 34 comprises first fen splenium 34a and second fen splenium 34b; Utilize the dividing potential drop ratio of signal selector 241a switched voltage detector 34, switch LED driving circuit in the function of constant current mode or constant voltage mode and reach.

In addition; In the practical application; Dim signal can be direct current light modulation (like the direct current dim signal DCDIM among Fig. 3 C), pulse signal or clock light modulation (promptly in a scheduled time length, calculate the quantity of clock signal, and be converted into the work period of light modulation) etc. and not limited.Below, another preferred embodiment is explained with the direct current light modulation.

Fig. 3 C is the LED driving circuit sketch map according to a direct current light modulation of the present invention (promptly just representing the amplitude of light modulation with the level of dim signal) embodiment.Wherein, secondary side control unit 20b has comprised signal processor 24b and signal selecting circuit 28b.Signal selecting circuit 28b receives direct current dim signal, voltage detection signal and current detection signal; And select one of voltage sense signal and current detection signal to signal processor 24b based on the direct current dim signal; Signal processor 24b outputs signal to primary side control unit 12 according to voltage detection signal that is received or current detection signal, makes primary side control unit 12 control transformation circuit 10 in view of the above.Present embodiment is compared to the 3rd A figure illustrated embodiment, and is except that dim signal is direct current signal, also that signal selecting circuit is preposition and can save the quantity of signal processor.

Signal selecting circuit 28b comprises the pulse converter 281b that always circulates, a level adjuster 282b and a signal selector 283b.Direct current changes pulse converter 281b can be a comparator, and in-phase input end receives the direct current dim signal, inverting input receives a triangular signal, and exports a pulse signal in view of the above.The current detection signal level that level adjuster 282b adjustment is received makes the level of current detection signal be adjusted to level with voltage detection signal in same scope.The voltage detection signal that current detection signal that signal selector 283b incoming level adjuster 282b is exported and voltage detector 34 are exported, and select output current detection signal or voltage detection signal according to the pulse signal that direct current changes pulse converter 281b output.Signal processor 24b is an error amplifying circuit, and in-phase input end receives a reference voltage Vref, and reverse input end receives the signal that signal selector 283b is exported, and exports secondary side in view of the above and control signal to isolated location 36.Isolated location 36 couples a Zener diode 38, and as output over-voltage protection, when causing output voltage V 0 abnormal ascending in circuit abnormality, strangulation output voltage V 0 is in a maximum output voltage value.

In the present embodiment, the pulse signal level that changes pulse converter 281b output when direct current is representative when " closing " first level signal of " OFF ", signal selector 283b voltage sense signal.Therefore, LED driving circuit operates in constant voltage mode, and output voltage is reduced near the critical voltage of light-emitting diode (LED) module, and this moment, light-emitting diode (LED) module was luminous hardly.When direct current changes pulse signal level that pulse converter 281b selects output is representative when " opening " second level signal of " ON ", and signal selector 283b selects the output current detection signal.At this moment, LED driving circuit operates in constant current mode, output voltage rise and the current stabilization that makes light-emitting diode (LED) module in a predetermined current value, this moment the light-emitting diode (LED) module stabilized illumination.

As previously mentioned, the present invention can also decide electric current and minimum work period switching way is implemented.Please refer to Fig. 3 D, for decide the circuit diagram of the preferred embodiment that electric current and minimum work period switch according to the present invention.Secondary side control unit 20c comprises a signal processor 24c, a minimum working period signal generator 29c and signal news selector 28c.Signal processor 24c is an error amplifier, exports a current processing signal according to a current detection signal and a reference voltage that current detector 32 is produced.Minimum working period signal generator 29c can be set the size of minimum work period by the outside, adjusts with the fit different applications environment, as: the resistance shown in the embodiment by the outside, perhaps set by electric capacity or alternate manner.The minimum working period signal that signal selector 28c received current processing signals and minimum working period signal generator 29c are produced, and according to the output of dim signal DIM selection one of which.Primary side control unit 12c receives the signal of the secondary side control unit 20c output that is transmitted through isolated location 36, and control transformation circuit 10 in view of the above.

In the present embodiment, when the level of dim signal DIM was first level signal of representative " OFF ", signal selector 28c selected the minimum working period signal of output.Through the minimum work period of suitably setting; Primary side control unit 12c is minimum according to the work period of the control signal that minimum working period signal is exported, and makes the rough basic loss of keeping the circuit unit beyond the light-emitting diode (LED) module 30 of energy that reaches secondary side through change-over circuit 10.That is to say that after driving voltage is reduced near the critical voltage of light-emitting diode (LED) module 30 stop to descend and maintain about a magnitude of voltage, this moment, light-emitting diode (LED) module was luminous hardly.When the level of dim signal DIM was second level signal of representative " ON ", signal selector 28c selected the output current detection signal.Therefore, LED driving circuit operates in constant current mode, output voltage rise and the current stabilization that makes light-emitting diode (LED) module in a predetermined current value, this moment the light-emitting diode (LED) module stabilized illumination.

See also Fig. 4, be driving voltage and drive current waveform sketch map according to the light-emitting diode (LED) module of those embodiment of the present invention.When dim signal DIM was the level of representative " ON ", the driving voltage of light-emitting diode (LED) module was for maintaining near the first driving voltage N*VF, and the light-emitting diode (LED) module drive current of this moment also stably is controlled at I; When dim signal DIM was the level of representative " OFF ", the driving voltage of light-emitting diode (LED) module maintained near the second driving voltage N*VFmin, and this moment, the light-emitting diode (LED) module drive current was zero (or near zero).So, under the driving voltage variation of the light-emitting diode situation little, still can reach dimming function than the driving voltage variation of prior art.

In sum; Though the present invention discloses above content with preferred embodiment, be not in order to limit the scope that the present invention implements, any those skilled in the art; Do not breaking away from the spirit and scope of the present invention; When doing a little change and retouching, promptly all according to equalization variation and modification that the present invention did, should be claim of the present invention and contain.

Claims (16)

1. LED driving circuit is characterized in that it comprises:

Change-over circuit converts input voltage to output voltage according to control signal;

Light-emitting diode (LED) module is coupled to this change-over circuit output, and according to this output voltage and luminous;

Current detector couples this light-emitting diode (LED) module, and the electric current that detects this light-emitting diode (LED) module of flowing through produces current detection signal; And

Control module according to this current detection signal and dim signal, produces this control signal, makes this output voltage be controlled in the voltage level of first driving voltage or second driving voltage along with the change in voltage of this control signal;

Wherein, when this output voltage was positioned at this first driving voltage, this light-emitting diode (LED) module was in stable luminance; And when output voltage was positioned at this second driving voltage, this light-emitting diode (LED) module was not luminous, and the difference of this first driving voltage and this second driving voltage poor less than this first driving voltage and earthing potential.

2. LED driving circuit according to claim 1 is characterized in that: said control module comprises:

The secondary side control unit couples this current detector, and this secondary side control unit receives this current detection signal and produces the current processing signal in view of the above, and according to this dim signal this current processing signal of output or minimum working period signal;

Isolated location is coupled to this secondary side control unit, and this isolated location receives the signal that this secondary side control unit is exported, and produces a secondary side signal in view of the above; And

The primary side control unit couples this isolated location, to produce this control signal according to this secondary side signal.

3. LED driving circuit according to claim 2 is characterized in that: said secondary side control unit comprises:

Signal processor receives this current detection signal, and produces the current processing signal in view of the above;

Minimum working period signal generator is in order to produce a minimum working period signal; And

Signal news selector couples this signal processor and should minimum working period signal generator, and selects this current processing signal of output or one of should the minimum working period signal according to this dim signal.

4. a LED driving circuit is characterized in that, comprises:

Change-over circuit, this change-over circuit converts input voltage to output voltage according to control signal;

Light-emitting diode (LED) module is coupled to this change-over circuit output, and according to this output voltage and luminous;

Current detector couples this light-emitting diode (LED) module, according to current detection signal of electric current generation of this light-emitting diode (LED) module of flowing through;

Voltage detector couples this light-emitting diode (LED) module, produces a voltage detection signal according to the voltage that puts on this light-emitting diode (LED) module; And

Control module according to this current detection signal, this voltage detection signal and dim signal, produces this control signal, makes this output voltage be controlled in the voltage level of first driving voltage or second driving voltage along with the change in voltage of this control signal;

Wherein, when this output voltage was positioned at this first driving voltage, this light-emitting diode (LED) module was in stable luminance; And when output voltage was positioned at this second driving voltage, this light-emitting diode (LED) module was not luminous, and the difference of this first driving voltage and this second driving voltage poor less than this first driving voltage and earthing potential.

5. LED driving circuit according to claim 4 is characterized in that, said control module comprises:

The secondary side control unit; Couple this current detector and this this voltage detector; This secondary side control unit receives this current detection signal and this voltage detection signal; And produce a current processing signal and a voltage processing signals in view of the above respectively, and according to this dim signal this current processing signal of output or this voltage processing signals;

Isolated location is coupled to this secondary side control unit, and this isolated location receives the signal that this secondary side control unit is exported, and produces a secondary side signal in view of the above; And

The primary side control unit couples this isolated location, to produce this control signal according to this secondary side signal.

6. LED driving circuit according to claim 5 is characterized in that, said secondary side control unit comprises:

The current signal processor receives this current detection signal, and produces the current processing signal in view of the above;

Processor voltage signal receives this voltage detection signal and this dim signal, and produces a voltage processing signals in view of the above; And

Signal news selector couples this current signal processor and this processor voltage signal, and accept this current processing signal and this voltage processing signals and select to export its one of.

7. LED driving circuit according to claim 6 is characterized in that, said current signal processor comprises first error amplifier, and this first error amplifier receives this current detection signal and first reference voltage, to produce this current processing signal.

8. LED driving circuit according to claim 6 is characterized in that said processor voltage signal comprises second error amplifier, and this second error amplifier receives this voltage detection signal and second reference voltage, to produce this voltage processing signals.

9. LED driving circuit according to claim 8 is characterized in that the level of one of said second reference voltage and this voltage detection signal is adjusted according to this dim signal.

10. secondary side control circuit that is applied to like a LED driving circuit of claim 1 or 4; This LED driving circuit comprises primary side control circuit, change-over circuit and is coupled at least one detector of this change-over circuit; This secondary side control circuit couples this at least one detector; It is characterized in that this secondary side control circuit comprises:

Signal processor couples this at least one detector, and produces at least one corresponding processing signals according at least one detection signal that said at least one detector produced; And

Signal selecting circuit couples this signal processor and selects a signal among said at least one processing signals of output according to dim signal.

11. secondary side control circuit according to claim 10 is characterized in that: also comprise level adjuster, couple one of said at least one detector in order to adjust the level of this corresponding detection signal.

12. secondary side control circuit according to claim 10 is characterized in that: said signal processor comprises at least one error amplifier, each error amplifier produces this processing signals according to this detection signal and the reference voltage of correspondence.

13. secondary side control circuit according to claim 10; It is characterized in that: said signal selecting circuit comprises at least one diode; The anode of each diode couples this signal processor to receive this corresponding processing signals, and the negative terminal of said diode couples each other.

14. secondary side control circuit that is applied to like the LED driving circuit of claim 1 or 4; This LED driving circuit comprises primary side control circuit, change-over circuit and is coupled at least one detector of this change-over circuit; This secondary side control circuit couples this at least one detector; It is characterized in that this secondary side control circuit comprises:

Signal selecting circuit couples said detector and selects one of output received signal according to dim signal; And

Signal processor couples this signal selecting circuit, and exports a processing signals according to the signal that this signal selecting circuit produced.

15. secondary side control circuit according to claim 14 is characterized in that: also include minimum working period signal generator, this signal generator produces a minimum working period signal to this signal selecting circuit.

16. secondary side control circuit according to claim 14 is characterized in that: said signal processor comprises error amplifier, this error amplifier produces this processing signals according to signal and the reference voltage that this signal selecting circuit produced.

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