CN106793246A - Leadage circuit and its control method and LED control circuit - Google Patents

Abstract

The invention discloses a kind of leadage circuit and its control method and LED control circuit, the present invention is applied to the LED control circuit of controllable silicon light modulation, directly or indirectly detect input voltage zero crossing, after the time of time delay second at input voltage zero crossing, module of releasing work reaches time of the predetermined value (the maintenance electric current of controllable silicon dimmer) between the moment for the very first time to produce leakage current, controllable silicon dimmer turn-on instant and drive circuit input current.Within very first time time, leadage circuit produces loss, when the very first time predetermined value is more than, extends for the second time；When the very first time predetermined value is less than, shortened for the second time so that very first time time is close or equal to predetermined value.Using the present invention, can adaptively be adjusted as second time of time delay with the size of predetermined value according to the very first time, reduce power consumption of releasing, and improve system effectiveness.

Description

Leadage circuit and its control method and LED control circuit

Technical field

The present invention relates to electric and electronic technical field, and in particular to a kind of leadage circuit and its control method and LED are controlled Circuit.

Background technology

LED because it is than traditional more energy efficient environmental protection of fluorescent lamp and incandescent lamp, so LED is slowly replacing existing Fluorescent lamp and incandescent lamp.In the incandescent lamp with controllable silicon dimmer, similarly wish to use LED to replace, thus LED needs compatible silicon controlled light modulator.But, by LED come replace incandescent lamp application in, due in controlled silicon conducting, Its output end voltage has larger voltage change ratio (dv/dt), causes to produce larger surge current in input.This surge Current oscillation amplitude is big, and the duration is short, easily causes the mistake of controllable silicon to turn off, and influences the steady operation of LED drive circuit, makes LED produces flicker；In addition, the input current of silicon-controlled device need to be more than its maintenance electric current, when input current is less than maintenance electricity During stream, the shut-off of controllable silicon is easily caused, also result in the flicker of LED.In order to solve the above-mentioned technical problem, in the prior art Using following scheme, but still suffer from certain technological deficiency.

Circuit theory diagrams as shown in Figure 1, illustrate the leadage circuit of prior art, i.e. current source I10 and adjustment pipe M00 Leadage circuit is composed in series, current source I10 can be replaced with resistance.When controllable silicon dimmer is turned on, linear LED drive circuit When electric current is difficult to the maintenance electric current for reaching controllable silicon dimmer, the adjustment pipe M00 conductings of leadage circuit, leadage circuit is produced and released Electric current iblr so that input current can reach maintenance electric current.As shown in Fig. 2 illustrating input voltage vin and input current The waveform of iin, dash area is the electric current that leadage circuit is produced, and this part leakage current can bring extra power consumption.And can Control silicon dimmer conduction angle is bigger, and leadage circuit produces the time t1 of leakage current iblr more long, and bigger, conversion efficiency is lost It is lower.

The content of the invention

In view of this, it is an object of the invention to provide a kind of small power consumption, the leadage circuit of efficiency high and its method and LED Control circuit, is used to solve the technical problem of prior art presence.

Technical solution of the invention is to provide a kind of leadage circuit of following structure, including：

Release module, exchange input obtains input voltage load is supplied through drive circuit through controllable silicon dimmer and rectifier bridge Electricity, the two ends of the module of releasing are connected with the cold end high of input voltage respectively；

Release control circuit, the control end with the module of releasing is connected；Input voltage zero crossing is directly or indirectly detected, After input voltage zero crossing the second time of time delay, the control module generation leakage current of releasing, the drive circuit it is defeated Enter electric current to reach the predetermined value moment then to control leakage current be zero；Controllable silicon dimmer turn-on instant is defeated with the drive circuit It is the very first time to enter the time that electric current reached between the predetermined value moment；

Wherein, when the described very first time reference time is more than, then extended for the second time；When the very first time is less than reference During the time, then shortened for the second time so that the very first time levels off to the reference time.

Preferably, described control circuit of releasing includes input voltage detection circuit, drive circuit input electric cur- rent measure Circuit and logic circuit, described logic circuit are connected with the control end of module of releasing, and described input voltage detection circuit is adopted Sample input voltage, when input voltage sampled signal reaches threshold voltage, then after the time of time delay second, through logic circuit control The module of releasing produces leakage current；Described drive circuit input electric cur- rent measure electric circuit inspection drive circuit input current, When sample rate current reaches the threshold current for characterizing predetermined value, then it is zero to control leakage current through logic circuit；By described first Time is compared with the reference time, and second time is correspondingly adjusted according to comparative result.

Preferably, described control circuit of releasing also includes time delay module and time comparison module, described time delay mould Block output end respectively with input voltage detection circuit, logic circuit and time comparison module are connected, and described time delay module exists Enter the time of line delay second when input voltage sampled signal reaches threshold voltage, after time delay terminates, by logic circuit control Leakage current is produced, the comparing of the very first time and the reference time is carried out in the time comparison module, and knot will be compared Fruit feeds back to the time delay module to adjust second time.

Preferably, described logic circuit includes the first trigger and the second trigger, described time delay module output The status signal whether time delay terminates is characterized, the set end of first trigger receives the shape whether sign time delay terminates State signal, the output end of input voltage detection circuit and the output end of time delay module are respectively connected to NAND gate, the NAND gate Output end is connected with the replacement end of first trigger；The output end of first trigger is triggered after negating with described second The set end connection of device, the output end of drive circuit input electric cur- rent measure circuit negate after replacement end with second trigger The output end of connection, the output end of second trigger and the drive circuit input electric cur- rent measure circuit is connected and door respectively Two inputs, two inputs for being connected OR gate respectively with the output end of door and the output end of the first trigger, institute State OR gate output and characterize the signal for whether enabling to the module of releasing, it is described to be exported for characterizing when first with door output end Between timing signal.

Preferably, described control circuit of releasing includes that drive circuit input electric cur- rent measure circuit, leakage current are detected Circuit and logic circuit, described logic circuit are connected with the control end of module of releasing, described drive circuit input current inspection Slowdown monitoring circuit sampling drive circuit input current, and be compared with threshold current；Described vent discharge current detection circuit is in input During voltage zero-cross is detected, module of being released described in the logic circuit control produces leakage current, the leakage current of sampling, and Threshold value is compared with releasing；When the drive circuit input current is less than the threshold current, start timing, let out until described Discharge stream is reached when releasing threshold value, and timing terminates, and the timing time is used as the 3rd time.

When the drive circuit input current is less than the threshold current, judge that input voltage reaches after the 3rd time To zero crossing；And can timing or not timing the 3rd time of renewal.

Preferably, when judging that input voltage reaches zero crossing, it is described through logic circuit control after the time of time delay second Module of releasing produces leakage current；Described drive circuit input electric cur- rent measure electric circuit inspection drive circuit input current, when adopting When sample electric current reaches the threshold current for characterizing predetermined value, then it is zero to control leakage current through logic circuit；By the very first time It is compared with the reference time, second time is correspondingly adjusted according to comparative result.

Preferably, described control circuit of releasing also includes time delay module, time comparison module and zero passage judge module, Described time delay module output end respectively with zero passage judge module, logic circuit and time comparison module are connected, the zero passage Judge module is connected with the output end of vent discharge current detection circuit and the output end of drive circuit input electric cur- rent measure circuit respectively； Timing is carried out to the 3rd time by the zero passage judge module, and judge the zero crossing moment of input voltage, described time delay mould Block receives the signal at the sign zero crossing moment of the zero passage judge module output, and the time of time delay second, after time delay terminates, leads to Cross logic circuit control and produce leakage current, the ratio of the very first time and the reference time is carried out in the time comparison module Compared with, and comparative result is fed back into the time delay module to adjust second time.

Preferably, described logic circuit includes the 3rd trigger and the 4th trigger, described time delay module output The status signal whether time delay terminates is characterized, the set end of the 3rd trigger receives the shape whether sign time delay terminates State signal, the output end of zero passage judge module and the output end of time delay module are respectively connected to NAND gate, the output of the NAND gate End is connected with the replacement end of the 3rd trigger；The output end of the 3rd trigger negate after with the 4th trigger Set end is connected, and the output end of drive circuit input electric cur- rent measure circuit connects after negating with the replacement end of the 4th trigger Connect, the output end of the 4th trigger and the output end of the drive circuit input electric cur- rent measure circuit connect respectively first with Two inputs of door, the output end of drive circuit input electric cur- rent measure circuit and characterize the letter whether zero passage judge module enables Number it is respectively connected to two inputs of second and door；Described first touches with the output end of door, second with the output end of door and the 3rd The output end for sending out device connects three inputs of OR gate respectively, and whether the OR gate output characterizes the signal for enabling and released to described Module, described first exports the timing signal for characterizing the very first time with the output end of door.

Another technical solution of the invention is to provide a kind of control method of the leadage circuit of following steps：

Exchange input obtains input voltage through drive circuit to load supplying through controllable silicon dimmer and rectifier bridge, mould of releasing The two ends of block are connected with the cold end high of input voltage respectively；

Directly or indirectly detection input voltage zero crossing, after input voltage zero crossing the second time of time delay, controls described Module of releasing produces leakage current, and the input current of the drive circuit reaches the predetermined value moment, and then to control leakage current be zero； When the time that the input current of controllable silicon dimmer turn-on instant and the drive circuit reaches between the predetermined value moment is first Between；

Wherein, when the described very first time reference time is more than, then extended for the second time；When the very first time is less than reference During the time, then shortened for the second time so that the very first time levels off to the reference time.

Another technical solution of the invention is to provide a kind of LED control circuit of following structure, including：To take up an official post Anticipate a kind of leadage circuit and LED drive circuit, described LED drive circuit is linear drive circuit or on-off circuit.

Using circuit structure of the invention and method, compared with prior art, with advantages below：The present invention is applied to can The LED control circuit of control silicon light modulation, directly or indirectly detects input voltage zero crossing, the time delay second at input voltage zero crossing After time, module of releasing works to produce leakage current, controllable silicon dimmer turn-on instant to be reached with drive circuit input current Time of the predetermined value (the maintenance electric current of controllable silicon dimmer) between the moment is the very first time.Within very first time time, let out Electric discharge road produces loss, when the very first time predetermined value is more than, extends for the second time；When the very first time predetermined value is less than, contracting Short second time so that very first time time is close or equal to predetermined value.Using the present invention, can adaptively according to first when Between adjusted as second time of time delay with the size of predetermined value, reduce power consumption of releasing, and improve system effect Rate.

Brief description of the drawings

Fig. 1 is the structural representation of the controllable silicon LED control circuit of the application leadage circuit of prior art；

Fig. 2 is the working waveform figure of prior art Fig. 1；

Fig. 3 is the working waveform figure of leadage circuit of the present invention；

Fig. 4 is FB(flow block) of the invention；

Fig. 5 is the circuit structure diagram of leadage circuit embodiment one of the present invention；

Fig. 6 is the FB(flow block) of the logic circuit of leadage circuit embodiment one of the present invention；

Fig. 7 is the structural representation of logic circuit in leadage circuit embodiment one of the present invention；

Fig. 8 is the structural representation of time comparison module in leadage circuit embodiment one of the present invention；

Fig. 9 is the structural representation of time delay module in leadage circuit embodiment one of the present invention；

Figure 10 is the working waveform figure of leadage circuit embodiment one of the present invention；

Figure 11 is the circuit structure diagram of leadage circuit embodiment two of the present invention；

Figure 12 is the FB(flow block) of the logic circuit of leadage circuit embodiment two of the present invention；

Figure 13 is the structural representation of logic circuit in leadage circuit embodiment two of the present invention；

Figure 14 is the FB(flow block) of zero passage judge module in leadage circuit embodiment two of the present invention；

Figure 15 is the working waveform figure of leadage circuit embodiment two of the present invention.

Specific embodiment

The preferred embodiments of the present invention are described in detail below in conjunction with accompanying drawing, but the present invention is not restricted to these Embodiment.The present invention covers any replacement made in the spirit and scope of the present invention, modification, equivalent method and scheme.

In order that the public has to the present invention thoroughly understanding, it is described in detail in present invention below preferred embodiment specific Details, and description without these details can also completely understand the present invention for a person skilled in the art.

The present invention is more specifically described by way of example referring to the drawings in the following passage.It should be noted that, accompanying drawing is adopted Non- accurately ratio is used with the form for more simplifying and, is only used to convenience, lucidly aided in illustrating the embodiment of the present invention Purpose.

With reference to shown in Fig. 3, the work wave of leadage circuit of the present invention is illustrated.Input voltage vin, input are illustrated in figure The waveform of electric current iin and leakage current iblr.By directly or indirectly detection input voltage vin zero crossing, reached in input voltage To then after the second time of time delay t2, control leadage circuit produces leakage current iblr, when controllable silicon dimmer is turned on during zero crossing Carve and drive circuit input current iin2 reach predetermined value (the generally maintenance electric current of controllable silicon dimmer) between the moment when Between be very first time t1.In very first time t1, leadage circuit produces loss, when t1 is more than predetermined value T, increases for the second time t2；When t1 is less than predetermined value T, reduce the second time t2 so that very first time time t1 is close or equal to predetermined value T.In figure, + VF and-VF is equal to the conduction threshold of diode.

With reference to shown in Fig. 4, the FB(flow block) of leadage circuit of the present invention is illustrated.First judge input voltage vin whether zero passage, The threshold voltage being positioned proximate in zero is compared with sampled voltage, it is also possible to obtain input voltage vin indirectly by other amounts The moment of zero passage.Described input voltage vin is exchange input through the input voltage vin obtained by controllable silicon dimmer.Defeated After entering the second time of voltage over zero time delay t2, module of being released described in control is enabled to produce leakage current iblr.When input electricity After pressure Vin zero passages, start timing, the input current iin2 of the drive circuit reaches predetermined value (typically using controllable silicon light modulation The maintenance size of current of device) moment, then leadage circuit do not enable, leakage current is zero, and now timing terminates；Above-mentioned timing time The input current of as controllable silicon dimmer turn-on instant and the drive circuit reaches the time between the predetermined value moment, is One time t1.When described very first time t1 is more than reference time T, then extend the second time t2；When very first time t1 is less than During reference time T, then shorten the second time t2 so that the very first time levels off to reference time T.The method is shortened when releasing Between, reduce release power consumption, lifting system efficiency.

With reference to shown in Fig. 5, the circuit structure of leadage circuit embodiment one of the present invention is illustrated, be applied to controllable silicon light modulation In LED control circuit.LED control circuit includes leadage circuit and LED drive circuit, and described leadage circuit includes module of releasing With control circuit of releasing, described leadage circuit be used to solve being caused by input current is too small under the controllable silicon dimmer Flicker problem, and overcome the technological deficiency existing for prior art.Its input power is that exchange is input into, and the exchange input warp can The input voltage vrec of direct current is exported after control silicon light modulator U02 and rectifier bridge U01, i.e., as the input voltage of LED load.Exchange Input is connected to rectifier bridge U01 by controllable silicon dimmer U02, and the positive output end of rectifier bridge is connected with the anode of diode D00, LED drive circuit anode is connected with the negative electrode of the diode D00.Usual LED drive circuit can be presented certain capacitive, therefore, Diode D00 is added between vrec and LED drive circuit；When exchange input absolute value reduction when, LED drive circuit due to With capacitive, its voltage can reduce relatively slow, and the sampling resistor for adding diode D00 and input voltage vrec detection circuits can be by The absolute value of vrec voltage follows exchange input, so as to ensure the degree of accuracy to input voltage sampling.

Described leadage circuit includes releasing and module and releases control circuit, described module of releasing include adjustment pipe and with The current source or resistance of the adjustment pipe series connection.Main improvement of the invention is release control circuit and corresponding controlling party Method.Described control circuit of releasing includes input voltage vrec detections circuit, drive circuit input electric cur- rent measure circuit and logic Circuit U 12, described logic circuit U12 is connected with the control end of the module U03 that releases, described input voltage vrec detection circuits Sampled input voltage, (is compared), then when input voltage sampled signal reaches threshold voltage VREF1 in comparator U10 After the second time of time delay t2, through being released described in logic circuit U12 controls, module U03 produces leakage current iblr；Described drive Dynamic circuit input electric cur- rent measure electric circuit inspection drive circuit input current iin2, when sample rate current reaches the threshold value for characterizing predetermined value (it is compared in comparator U40) during electric current VREF4, then it is zero to control leakage current iblr through logic circuit U12；Will be described Very first time t1 is compared with the reference time T, and second time t2 is correspondingly adjusted according to comparative result.When described Drive circuit be linear drive circuit when, the electric current of the adjustment pipe M30 of the linear drive circuit of sample streams, you can for characterizing The input current in2 of the drive circuit.

Described control circuit of releasing also includes time delay module U13 and time comparison module U14, the time delay module U13 For entering line delay to the input voltage crossover point signal ZVD that input voltage vrec detection circuits are produced, and after time delay terminates, Logic circuit U12 is given by signal transmission, to cause module U03 enables of releasing.When the time comparison module U14 is used for first Between the t1 and reference time T be compared, to realize the feedback regulation to the second time t2.Described time delay module U13 points Output end, logic circuit U12 and time comparison module U13 not with input voltage vrec detection circuits are connected, described time delay Module U13 is entering the second time of line delay t2 when input voltage sampled signal reaches threshold voltage VREF1, after time delay terminates, Control to produce leakage current iblr by logic circuit U12, very first time t1 and institute are carried out in the time comparison module U14 The comparing of reference time T is stated, and comparative result is fed back into the time delay module to adjust second time t2.

With reference to shown in Fig. 6, the FB(flow block) of the logic circuit U12 of leadage circuit embodiment of the present invention is illustrated.This accompanying drawing With reference to Fig. 5, the specific implementation step for obtaining embodiment one is：The initial value of t2 is 0.AC power through controllable silicon dimmer U02, After rectifier bridge U01, the voltage vrec after rectification is obtained.Resistance R10, R11 carry out partial pressure to vrec, the voltage on resistance R11 During less than reference voltage VREF1, the output ZVD upsets of comparator U10, the starting point as input voltage vrec zero crossings is believed Number.The negative input end of comparator U10 is connected to R11, reference voltage is connected to as a example by the positive input terminal of comparator U10.When defeated When entering voltage zero-cross, voltage is less than VREF1 on resistance R11, then the output ZVD of comparator U10 is changed into high level from low level. After delay circuit U13 time delays t2, delay circuit output signal ZVDLY overturns the high level signal of ZVD, and is input to logic electricity Leadage circuit enabler flags position EN is put 1 by road U12, logic circuit U12, and leadage circuit is enabled, and busbar voltage vrec is pulled down to Close to 0V.When the output ZVD of comparator U10 is low, i.e. at the t01 moment in Fig. 3, logic circuit U12 starts timing, timing signal BLT is uprised from low.Drive circuit input electric cur- rent measure electric circuit inspection iin2 electric currents, when voltage RS is low on current sampling resistor R40 When reference voltage VREF4, i.e. between t01-t02, leadage circuit U03 continues to enable.When voltage RS is higher than reference voltage VREF4 When, the output signal ZC upsets of comparator U40, logic circuit U12 timing terminates timing signal BLT by step-down high, while releasing Circuit U 03 is not enabled, i.e., leadage circuit does not produce leakage current.T01-t02 is the time t1 that leadage circuit produces power consumption, i.e., BLT is output as height between t01-t02.Timing signal BLT is connected to the input of time comparison circuitry U14, when t1 is more than T When, time comparison circuitry U14 output time delay direction flags BLDIR is high level；Conversely, time delay direction flag BLDIR is Low level.When delay circuit U13 adjusts the time delay after input voltage crossover point signal ZVD according to time delay direction flag BLDIR Between t2, t1 is adjusted to T or close to T.Wherein time delay t2 minimum values are 0, are half power frequency period or more to the maximum.

With reference to shown in Fig. 7, the circuit structure of logic circuit in leadage circuit embodiment one of the present invention is illustrated.Described patrols Collecting circuit includes the first trigger U12_1 and the second trigger U12_5, and described time delay module output characterizes whether time delay terminates Status signal ZVDLY, the set end S of first trigger receives and described characterizes the status signal whether time delay terminates ZVDLY, the output end of input voltage detection circuit and the output end of time delay module U13 are respectively connected to NAND gate U12_2, it is described with The output end of not gate U12_2 is connected with the replacement end R of the first trigger U12_1；The output of the first trigger U12_1 End be connected after negating with the set end of second trigger, after the output end of drive circuit input electric cur- rent measure circuit is negated and The replacement end R connections of the second trigger U12_5, the output end and the drive circuit of the second trigger U12_5 is defeated The output end for entering current detection circuit connects two inputs with door U12_4 respectively, the output end with door U12_4 and the The output end of one trigger U12_1 connects two inputs of OR gate U12_3 respectively, and whether the OR gate U12_3 outputs sign The signal EN of enable to the module U03, the timing exported with door U12_4 output end for characterizing the very first time of releasing Signal BLT.Can be that it is replaced although giving a structure for specific logic circuit above, and be not limited to Said structure.

With reference to shown in Fig. 8, the circuit structure of time comparison module in leadage circuit embodiment one of the present invention is illustrated.Logic Effective time signal B LT controlling switches S14_1, S14_2 of releasing that circuit U 12 is produced, S14_1 conductings, electric current when BLT is high Source I14 is charged to electric capacity C14, and high level signal, time delay plus-minus mark are exported when electric capacity C14 voltages are more than reference voltage V REF14 Will signal BLDIR is height, while counter U14_6 is reset, illustrates that delay time needs to lengthen；When BLT is low, S14_2 leads Logical C14 electric discharges.

T=C14*Vref14/I14；

When the BLT times T is shorter than, the duration, counter U14_6 added counting to produce carry, and U14_5 resets more than T5, BLDIR is low, illustrates that delay time needs to shorten.

T5=T_CLK14*2^N1

Wherein N1 is the digit of counter U14_6.

With reference to shown in Fig. 9, the circuit structure of time delay module in leadage circuit embodiment one of the present invention is illustrated.Time delay is added and subtracted Flag bit enables signal as the plus-minus counting of counter U13_1, U13_2；CLK13 as counter U13_2 clock signal, Its cycle is the minimum step of time delay；When input voltage zero passage, ZVD signals are high level, and R/S triggers U13-5 outputs are high Level, until when drive circuit input current flag bit ZC sets to 0, R/S triggers U13-5 outputs reset, and produce ZVDC signals, make It is the clock signal of counter U13-1.When time delay plus-minus flag signal BLDDIR is 1, counter U13_1, U13_2 add meter Number；When time delay plus-minus flag signal BLDDIR is 0, counter U13_1 subtracts counting, counter U13_2 and adds counting.Work as counting When device U13_1, U13_2 count value is identical, biconditional gate U13_3 output high level exports high level with door U13_4, and ZVDLY is defeated Go out high level, as the zero cross signal after ZVD time delays, after through logic circuit U12 produce leadage circuit enable signal.

With reference to shown in Figure 10, the work wave of leadage circuit embodiment one of the present invention is illustrated.Illustrate input voltage Vin, input current iin, leakage current iblr, the corresponding specific waveform of enable signal EN and sampled signal RS.By in figure As can be seen that the leakage current iblr working times are more long in initial power-on, after delay process, the iblr times are shorter and shorter, Until maintain minimum releasing within time T, it is ensured that leadage circuit has relatively low power consumption.

With reference to shown in Figure 11, the circuit structure of leadage circuit embodiment two of the present invention is illustrated.This scheme can be without defeated Enter voltage vrec detection circuits, can also reach the effect of above scheme, be used to simplify peripheral element, i.e., detect by other means The zero crossing of input voltage vrec, but need to increase leakage current iblr detection circuits.

In the present embodiment, described control circuit of releasing includes that drive circuit input electric cur- rent measure circuit, leakage current are examined Slowdown monitoring circuit and logic circuit U11, described logic circuit U11 are connected with the control end of the module U03 that releases, described drive circuit Input electric cur- rent measure circuit sampling drive circuit input current, and be compared with threshold current, described leakage current detection When input voltage zero passage detection is enabled, module of being released described in the logic circuit control produces leakage current to circuit, and samples The leakage current, is sampled by resistance R50, and is compared with threshold value of releasing (being characterized with VREF4)；The drive circuit When input current is less than the threshold current VREF4 (Low threshold for being close to zero that the reference signal is characterized), that is, drive electricity Road input current starts timing, when the leakage current iblr reaches releases threshold value, timing knot close to zero or zero passage Beam, the timing time as the 3rd time T3, again through after the drive circuit input current reaches the threshold current The moment of three time T3 judges that input voltage reaches zero crossing.

When judging that input voltage reaches zero crossing, after the second time of time delay t2, released through described in logic circuit U11 controls Module produces leakage current iblr；Described drive circuit input electric cur- rent measure electric circuit inspection drive circuit input current, when adopting When sample electric current reaches the threshold current for characterizing predetermined value, then it is zero to control leakage current iblr through logic circuit U11；By described One time t1 is compared with the reference time T, and second time t2 is correspondingly adjusted according to comparative result.

Described control circuit of releasing also includes time delay module U13, time comparison module U14 and zero passage judge module U15, Described time delay module U13 output end, logic circuit U11 and time comparison module U14 companies respectively with zero passage judge module U15 Connect, output ends and drive circuit input electric cur- rent measure of the zero passage judge module U15 respectively with vent discharge current detection circuit are electric The output end connection on road；Timing is carried out to the 3rd time T3 by the zero passage judge module, and judges the zero crossing of input voltage Moment, described time delay module receives the signal at the sign zero crossing moment of the zero passage judge module output, and time delay second Time t2, after time delay terminates, controls to produce leakage current iblr, in the time comparison module U14 by logic circuit U11 The comparing of very first time t1 and the reference time T is carried out, and it is described to adjust that comparative result is fed back into the time delay module Second time t2.

With reference to shown in Figure 12, the FB(flow block) of the logic circuit U11 of leadage circuit embodiment of the present invention two is illustrated.This accompanying drawing With reference to Figure 11, the specific implementation step for obtaining embodiment two is：

The initial value of the second time t2 is 0.After AC power is through controllable silicon dimmer U02, rectifier bridge U01, rectification is obtained Voltage vrec afterwards.Input voltage zero passage detection enables signal CTL is used for the detection of the time of input voltage zero-crossing timing the 3rd, and And in order to ensure that the accuracy of the 3rd time reduces power consumption of releasing simultaneously, CTL can be the square-wave signal far below work frequency. During first upper electricity, it is high level that input voltage zero passage detection enables signal CTL, as long as now drive circuit input current sampling electricity Resistance R40 voltages RS is less than reference voltage Vref 4, and comparator U40 output ends are high level, and leadage circuit U03 is in and enables work State.When input voltage is higher, LED current is big, and drive circuit sampling resistor R40 voltages are higher than VREF4, comparator U40 outputs Low level, input voltage zero cross signal ZVD is now low level；When input voltage is reduced by height, drive circuit input current is adopted The reduction of sample resistance R40 voltages, when drive circuit input current sampling resistor R40 voltages RS is less than VREF4, comparator U40 is defeated Go out upset, leadage circuit U03 is enabled, and input voltage zero-crossing detection circuit U15 starts timing；Leakage current iblr sampling resistors R50 voltages are higher than reference voltage V REF5, comparator U50 output low levels；Input voltage continues to reduce, and when close to 0V, releases Electric current iblr is decreased to close to 0, and leakage current iblr sampling resistor R50 voltages are less than reference voltage V REF5, and comparator U50 is defeated Go out high level, input voltage crossover point signal ZVD is changed into high level, while input voltage zero-crossing detection circuit U15 counts knot Beam, timing time is T3, as between drive circuit input current iin2 trailing edges zero crossing and input voltage zero crossing when Between T3.

When it is low level that input voltage zero passage detection enables signal CTL, each power frequency period afterwards works as drive circuit Input current sampling resistor R40 voltages by becoming less than reference voltage VREF4 higher than reference voltage VREF4 when (on comparator U40 Rise edge) time delay T3 generation input voltage crossover point signals ZVD.The high level signal of ZVD is passed through after time delay process U13 time delays t2 Logic circuit U11 is crossed, leadage circuit working mark position EN is put 1 by logic circuit U11, and leadage circuit is enabled, busbar voltage vrec It is pulled down to close to 0V.When the output ZCBLD of leakage current detection comparator U50 is low, i.e. t01 moment in Figure 15, time Comparison circuit U14 starts working.Drive circuit input electric cur- rent measure electric circuit inspection iin2 electric currents, when on current sampling resistor R40 When voltage RS is less than reference voltage VREF4, i.e. between t01-t02, leadage circuit U03 continues to enable.When voltage RS is higher than reference During voltage VREF4, the output signal ZC upsets of comparator U40, time comparison circuitry U14 end-of-jobs, while leadage circuit U03 Do not enable, i.e., leadage circuit does not produce leakage current.The time t1 that leadage circuit produces power consumption is from t01-t02, when t1 is big When T, time comparison circuitry output time delay direction flag BLDIR is high level；Conversely, time delay direction flag BLDIR is Low level.When delay circuit U13 adjusts the time delay after input voltage crossover point signal ZVD according to time delay direction flag BLDIR Between t2, t1 is adjusted to T or close to T.Wherein time delay t2 minimum values are 0, are half power frequency period or more to the maximum.With reference to Figure 13 It is shown, illustrate the circuit structure of logic circuit in leadage circuit embodiment two of the present invention.When input voltage zero-crossing examination makes When energy signal CTL is high level, as long as drive circuit input current iin2 is high level less than setting value, i.e. ZC, with door U11_6 is output as high level, and three input OR gate U11_3 output high level, leadage circuit is enabled, input voltage zero-crossing examination electricity Road U15 detects input voltage zero crossing, 0-t07 in such as Figure 15, and holding time T3.Believe when input voltage zero-crossing examination is enabled When number CTL is low level, low level is output as with door U11_6.When drive circuit input current iin2 detects circuit ZC by low electricity When flat upset is for high level (t03), delay time T3, ZVD signal is changed into high level from low level, even if now ZC is electricity high It is flat, but R/S triggers U11_1 (the t01 moment resets), U11_5 (the t02 moment resets) output low level, it is output as with door U11_4 Low level, leadage circuit is not enabled.When delay circuit U13 output signals ZVDLY puts 1, R/S triggers U11_1 is output as High level, it is high level that leadage circuit enables signal EN, and leadage circuit is enabled, and input voltage vrec is 0, until controllable silicon light modulation Device is turned on, and ZVD is low, R/S triggers U11_1 output low levels, U11_5 output high level, if now ZC is height, with door U11_4 exports high level, and leadage circuit enables signal EN and continues as high level, is used to maintain input current to ensure the steady of controllable silicon Fixed conducting；Until when ZC is low, U11_4, U11_5 output reset, it is low, leadage circuit stopping work that leadage circuit enables signal EN Make.The time signal B LT (t01~t02) that leadage circuit produces power consumption is with door U11_4 outputs.

With reference to shown in Figure 14, the flow of zero passage judge module U15 work in leadage circuit embodiment two of the present invention is illustrated Block diagram.Drive circuit input current iin2 zero crossings and leakage current iblr mistakes are detected and preserved by zero passage judge module U15 Zero crossing time.In the case where zero passage judge module U15 is enabled, whether drive circuit input current is judged less than threshold current, When it is less than threshold current, then module of releasing is enabled and produces leakage current.When leakage current is less than respective threshold, then preserve The moment, update the 3rd time T3.The 3rd time T3 be from ZC by step-down high to ZCBLD by step-down high time.

With reference to shown in Figure 15, the work wave of leadage circuit embodiment two of the present invention is illustrated.Illustrate input voltage Vin, input current iin, leakage current iblr, the corresponding specific waveform of enable signal EN, CTL and sampled signal RS.By As can be seen that similar to embodiment one in figure, in initial power-on, the leakage current iblr working times are more long, through delay process Afterwards, the iblr times are shorter and shorter, until maintain minimum releasing within time T, it is ensured that leadage circuit has relatively low power consumption.

In addition, although embodiment is separately illustrated and illustrated above, but it is related to the common technology in part, in this area Those of ordinary skill apparently, can between the embodiments be replaced and integrate, and be related to one of embodiment that record is not known Content, then refer to another embodiment on the books.

Embodiments described above, does not constitute the restriction to the technical scheme protection domain.It is any in above-mentioned implementation Modification, equivalent and improvement made within the spirit and principle of mode etc., should be included in the protection model of the technical scheme Within enclosing.

Claims (11)

1. a kind of leadage circuit, it is characterised in that：Including：

Release module, exchange input obtains input voltage through drive circuit to load supplying through controllable silicon dimmer and rectifier bridge, The two ends of the module of releasing are connected with the cold end high of input voltage respectively；

Release control circuit, the control end with the module of releasing is connected；Input voltage zero crossing is directly or indirectly detected, defeated After entering the time of voltage over zero time delay second, module of being released described in control produces leakage current, the input of the drive circuit Electric current reaches the predetermined value moment, and then to control leakage current be zero；The input of controllable silicon dimmer turn-on instant and the drive circuit The time that electric current reaches between the predetermined value moment is the very first time；

Wherein, when the described very first time reference time is more than, then extended for the second time；The reference time is less than when the very first time When, then shortened for the second time so that the very first time levels off to the reference time.

2. leadage circuit according to claim 1, it is characterised in that：Described control circuit of releasing is examined including input voltage Slowdown monitoring circuit, drive circuit input electric cur- rent measure circuit and logic circuit, described logic circuit connect with the control end of module of releasing Connect, described input voltage detection circuit sampled input voltage when input voltage sampled signal reaches threshold voltage, is then prolonging When the second time after, through the logic circuit control module generation leakage current of releasing；Described drive circuit input current inspection Slowdown monitoring circuit detects drive circuit input current, when sample rate current reaches the threshold current for characterizing predetermined value, then through logic circuit It is zero to control leakage current；The very first time is compared with the reference time, is correspondingly adjusted according to comparative result Second time.

3. leadage circuit according to claim 2, it is characterised in that：Described control circuit of releasing also includes time delay module With time comparison module, described time delay module output end respectively with input voltage detection circuit, logic circuit and time ratio Compared with module connection, described time delay module entering the time of line delay second when input voltage sampled signal reaches threshold voltage, After time delay terminates, control to produce leakage current by logic circuit, the very first time and institute are carried out in the time comparison module The comparing of reference time is stated, and comparative result is fed back into the time delay module to adjust second time.

4. leadage circuit according to claim 3, it is characterised in that：Described logic circuit includes the first trigger and the Two triggers, described time delay module output characterizes the status signal whether time delay terminates, the set end of first trigger Receive the status signal whether sign time delay terminates, the output end of input voltage detection circuit and the output end of time delay module NAND gate is respectively connected to, the output end of the NAND gate is connected with the replacement end of first trigger；First trigger Output end negate after be connected with the set end of second trigger, the output end of drive circuit input electric cur- rent measure circuit takes It is connected with the replacement end of second trigger after anti-, the output end of second trigger and the drive circuit input current Detect that the output end of circuit connects two inputs with door, the output end and the output end of the first trigger with door respectively Connect two inputs of OR gate respectively, whether OR gate output characterizes the signal that enables to the module of releasing, it is described with The output end of door exports the timing signal for characterizing the very first time.

5. leadage circuit according to claim 1, it is characterised in that：Described control circuit of releasing includes that drive circuit is defeated Enter current detection circuit, vent discharge current detection circuit and logic circuit, described logic circuit connects with the control end of module of releasing Connect, described drive circuit input electric cur- rent measure circuit sampling drive circuit input current, and be compared with threshold current；Institute During input voltage zero passage detection, module of being released described in the logic circuit control is produced lets out the vent discharge current detection circuit stated Discharge stream, the leakage current of sampling, and be compared with threshold value of releasing；The drive circuit input current is less than the threshold value During electric current, start timing, when the leakage current reaches releases threshold value, timing terminates, when the timing time is as the 3rd Between.

6. leadage circuit according to claim 5, it is characterised in that：The threshold is less than in the drive circuit input current During value electric current, judge that input voltage reaches zero crossing after the 3rd time；And timing or not timing updated for the 3rd time.

7. leadage circuit according to claim 5, it is characterised in that：When judging that input voltage reaches zero crossing, time delay After second time, through being released described in logic circuit control, module produces leakage current；Described drive circuit input electric cur- rent measure Electric circuit inspection drive circuit input current, when sample rate current reaches the threshold current for characterizing predetermined value, then through logic circuit control Leakage current processed is zero；The very first time is compared with the reference time, institute is correspondingly adjusted according to comparative result Stated for the second time.

8. leadage circuit according to claim 7, it is characterised in that：Described control circuit of releasing also includes time delay mould Block, time comparison module and zero passage judge module, described time delay module output end, logic electricity respectively with zero passage judge module Road and time comparison module are connected, the zero passage judge module respectively with the output end and drive circuit of vent discharge current detection circuit The output end connection of input electric cur- rent measure circuit；Timing is carried out to the 3rd time by the zero passage judge module, and judges input The zero crossing moment of voltage, described time delay module receives the letter at the sign zero crossing moment of the zero passage judge module output Number, and the time of time delay second, after time delay terminates, control to produce leakage current by logic circuit, in the time comparison module In carry out the comparing of the very first time and the reference time, and comparative result is fed back into the time delay module to adjust described Two times.

9. leadage circuit according to claim 8, it is characterised in that：Described logic circuit includes the 3rd trigger and the Four triggers, described time delay module output characterizes the status signal whether time delay terminates, the set end of the 3rd trigger Receive the status signal whether sign time delay terminates, the output end of zero passage judge module and the output end difference of time delay module NAND gate is accessed, the output end of the NAND gate is connected with the replacement end of the 3rd trigger；3rd trigger it is defeated Go out after end negates and be connected with the set end of the 4th trigger, after the output end of drive circuit input electric cur- rent measure circuit is negated Replacement end with the 4th trigger is connected, the output end and the drive circuit input electric cur- rent measure of the 4th trigger The output end of circuit connects two inputs of first and door, the output end and table of drive circuit input electric cur- rent measure circuit respectively The signal whether zero judge module of going on a punitive expedition enables is respectively connected to two inputs of second and door；Described first with the output of door Three inputs that end, second are connected OR gate with the output end of door and the output end of the 3rd trigger respectively, the OR gate is exported To the module of releasing, described first exports based on characterizing the very first time signal whether sign enables with the output end of door When signal.

10. a kind of control method of leadage circuit, it is characterised in that：

Exchange input obtains input voltage through drive circuit to load supplying through controllable silicon dimmer and rectifier bridge, module of releasing Two ends are connected with the cold end high of input voltage respectively；

Directly or indirectly detection input voltage zero crossing, after input voltage zero crossing the second time of time delay, releases described in control Module produces leakage current, and the input current of the drive circuit reaches the predetermined value moment, and then to control leakage current be zero；It is controllable The time that the input current of silicon dimmer conduction moment and the drive circuit reaches between the predetermined value moment is the very first time；

Wherein, when the described very first time reference time is more than, then extended for the second time；The reference time is less than when the very first time When, then shortened for the second time so that the very first time levels off to the reference time.

A kind of 11. LED control circuits, it is characterised in that：Driven including any one leadage circuit of above claim 1-9 and LED Dynamic circuit, described LED drive circuit is linear drive circuit or on-off circuit.