CN204707309U - A kind of light adjusting circuit based on PWM - Google Patents

Abstract

The utility model provides a kind of light adjusting circuit based on PWM, comprising: switch element, is connected with a LED light source; Pwm signal generator, is connected with described switch element, and regulate pwm signal to open and shutoff to control described switch element, described light adjusting circuit also comprises: constant-current supply, is connected with described switch element, exports adjustable output current; Described constant-current supply comprises a current reference module, and adjustable described output current is a reference current I _r; Described current reference module and described pwm signal generator link, and make described reference current I _rwith the maximum current I of described constant-current supply _maxratio μ change with the change of the duty ratio D of described pwm signal.After adopting technique scheme, the light modulation of LED can high accuracy be regulated, and colour temperature is constant.

Description

A kind of light adjusting circuit based on PWM

Technical field

The utility model relates to field of illuminating lamps, particularly relates to a kind of light adjusting circuit based on PWM.

Background technology

In prior art, to the light modulation of LED, usually in the following ways:

Consulting Fig. 1, is the PWM dimming mode based on DC/DC converter (such as BUCK circuit), and when the pwm signal that pwm signal generator sends is high, drive operation, exports constant current; When pwm signal is low, quit work, utilize the object regulating the duty ratio of PWM to reach regulation output electric current.But under this kind of dimming mode, in the face of needing but to be difficult to reach requirement during the adjustment of high accuracy and small area analysis;

Therefore, existing LED dimming mode has defect, cannot meet high accuracy, light modulation demand that colour temperature is stable.

Utility model content

In order to overcome above-mentioned technological deficiency, the purpose of this utility model is that providing a kind of high accuracy can regulate and ensure the LED light adjusting circuit that colour temperature is constant.

The utility model discloses a kind of light adjusting circuit based on PWM, comprising: switch element, be connected with a LED light source; Pwm signal generator, is connected with described switch element, and regulate pwm signal to open and shutoff to control described switch element, described light adjusting circuit also comprises: constant-current supply, is connected with described switch element, exports adjustable output current; Described constant-current supply comprises a current reference module, and adjustable described output current is a reference current I _r; Described current reference module and described pwm signal generator link, and make described reference current I _rwith the maximum current I of described constant-current supply _maxratio μ change with the change of the duty ratio D of described pwm signal.

Preferably, described light adjusting circuit also comprises a sampling module, and described sampling module detects described output current and reference current I _r, and make comparisons with described duty ratio D, to regulate described output current.

Preferably, described sampling module includes:

-sampling unit, is connected between described constant-current supply and LED light source;

-operational amplifier, comprises first input end a, the second input b and an output, wherein

Described first input end a is connected between described sampling unit and described LED light source;

Described second input b and described current reference model calling;

Described output is connected with described constant-current supply.

Preferably, described sampling unit is sampling resistor or instrument transformer.

Preferably, described constant-current supply is limited peak-mode power supply.

Preferably, described current reference module adjusts the peak current benchmark of described limit peak-mode power supply to obtain described reference current I _r.

Preferably, the additional pwm signal source of described limit peak-mode power supply as enable, to realize the electric source topology of described limit peak-mode power supply.

Preferably, described constant-current supply is linear regulated power supply, regulates the internal reference of described linear regulated power supply to obtain described output current.

Preferably, described switch element is metal-oxide-semiconductor, transistor or pliotron.

Preferably, described light adjusting circuit also comprises an energy-storage travelling wave tube, is located at described constant-current supply inside or is connected between described constant-current supply and LED light source, absorbing and discharge the energy difference of described output current and the output current after described switch element chopping.

Preferably, described reference current I _rwith the maximum current I of described constant-current supply _maxratio μ and described pwm signal duty ratio D between difference between ± 20% between.

Preferably, described ratio μ is equal with duty ratio D.

After have employed technique scheme, compared with prior art, there is following beneficial effect:

1. the wide ranges precision of adjustable current is high, exportable ultra-small current;

2. can adapt to the LED particle of different voltage;

3. output current remains on PWM form, ensures that colour temperature is stablized.

Accompanying drawing explanation

Fig. 1 is the circuit diagram of the first LED light adjusting circuit in prior art;

Fig. 2 meets the circuit diagram based on the light adjusting circuit of PWM in the utility model one embodiment;

Fig. 3 meets the circuit diagram based on the light adjusting circuit of PWM in the utility model one preferred embodiment.

Reference numeral:

10-switch element;

20-operational amplifier;

30-sampling resistor;

40-energy-storage travelling wave tube.

Embodiment

Advantage of the present utility model is set forth further below in conjunction with accompanying drawing and specific embodiment.

Consult Fig. 2, in the utility model one embodiment, the light adjusting circuit based on PWM includes a switch element 10, is connected with LED light source, can play the effect turned on and off; Pwm signal generator, be connected with this switch element 10, and sending pwm signal to switch element 10, when can to arrange pwm signal be high, switch element 10 is opened, when pwm signal is low, switch element 10 is closed, then regulate the duration turned on and off of pwm signal controllable switch element 10, because pwm signal switches very fast, visually the stroboscopic of LED can not be perceived, is then adjusted to impulse form by pwm signal generator by the electric current of switch element 10.In order to reach previously described beneficial effect, light adjusting circuit also comprises constant-current supply, is connected with switch element 10, can export adjustable output current to LED light source, and thus, the size of current that LED light source receives is determined by this constant-current supply.Meanwhile, include a current reference module in constant-current supply, the size of adjustable output current, and export a reference current I _r, if the size arranging output current in current reference module is 60%, be namely configured to reference current I _rwith the available maximum current I of constant-current supply _max60% export.Moreover this current reference module and pwm signal generator link, by reference current I _rwith the maximum current I of constant-current supply _maxratio μ associate with the duty ratio D that pwm signal generator sends, this ratio μ is changed with the change of duty ratio D.In one preferred embodiment, two correlation degrees changed are:

μ＝D±20％

Thus, this ratio μ is not arbitrarily in conversion, but changes along with the change of duty ratio D.Particularly, duty ratio is set to D by pwm signal generator, then due to mutual interlock, and reference current I _rwith the maximum current I of constant-current supply _maxratio μ=D ± 20%, then reference current I _rsize be:

I _r＝I _max*(D±20％)

, open and shutoff because switch element 10 receives the continuous commutation circuit of pwm signal, then the average current of LED light source reception meanwhile for:

$\stackrel{\‾}{I}=I_{\max }*(D\±20\%)$

Due to above-mentioned average current computing formula in, need to be multiplied by duty ratio D, then regulate duty ratio D time, can to average current carry out more high-precision adjustment.

By regulating the duty ratio D of pwm signal generator, this average current adjustable thus change the brightness of LED light source.Simultaneously known, because the size of current of LED light source reception is all the time at reference current I _rand switch between 0, the colour temperature change of self luminescence is minimum or do not change.In one embodiment, duty ratio D can be configured to 80%, then ratio μ can be configured to 100%-80%, or duty ratio D is configured to 60%, then ratio μ can be configured to 80%-60%, although in this embodiment, duty ratio D is different from ratio μ, but the colour temperature due to LED light source requires the amplitude of current impulse may not be constant, therefore, just can meet colour temperature constant in a segment limit.In one preferred embodiment, also can duty ratio D be configured to identical with ratio μ, then all the time can constant colour temperature constant.

Be understandable that, in most preferred embodiment, be configured to equal by this ratio μ and duty ratio D, namely ratio μ is directly proportional to the change of duty ratio D, and adjustment duty ratio D just can to reference current I _rcarry out identical adjustment.

In one preferred embodiment, the light adjusting circuit based on PWM also comprises a sampling module, and sampling module will detect the output current of constant-current source without the size before current reference module reference and the reference current I after benchmark _rsize, the ratio μ of Calculation Basis, and comparing with duty ratio D, whether identical with duty ratio D or in the scope required with the benchmark ratio μ detecting current reference module, if not, then feedback information is to constant-current supply, and the output current value regulating constant-current supply to export.

Consult Fig. 3, in above preferred embodiment, sampling module specifically includes:

-sampling resistor 30, it is connected between constant-current supply and LED light source;

-operational amplifier 20, it includes first input end a, the second input b and an output,

Wherein

First input end a is connected between sampling resistor 30 and LED light source, to input the output current of constant-current supply;

Second input b and current reference model calling, with input reference electric current I _r;

Output is then connected with constant-current supply, so that this operational amplifier 20 is used as comparator, because current reference module and pwm signal link, then and duty ratio D and reference current I _rtogether export the second input b to, to help operational amplifier 20 benchmark electric current I _rwith the size of the ratio μ of output current and duty ratio D whether in claimed range, thus regulation output electric current.The pwm signal that wherein acquisition of duty ratio D sends by filtration pwm signal generator obtains.

Sampling module also can adopt other modes, as: sampling resistor is replaced with an instrument transformer, the output current of transformer in direct-detection constant-current supply, can play the effect of sampling equally.

Constant-current supply can select different modes in different embodiments.Such as, limit peak-mode power supply can be selected to be constant-current source, when the benchmark of the peak current of current reference adjustment limit peak-mode power supply can obtain reference current I _r, thus regulate average current moreover, when limitting the peak current of peak-mode power supply constant, also in the limit additional pwm signal source of peak-mode power supply as enable, to change the mean value of the output current that limit peak-mode power supply exports, thus the electric source topology of limit peak-mode power supply can be realized.Again such as, constant-current supply can be linear regulated power supply, carries out linear regulation to its internal reference, just can obtain different output current values.In above two embodiments, employing be the constant-current source that can control average output current, be understandable that, other constant-current supplies that can reach same effect all can use.

Other is optional or preferably, switch element 10 can select the switch element 10 for above-mentioned controllable current turn-on and turn-off driven by pwm signal such as metal-oxide-semiconductor, transistor or pliotrons.Be understandable that equally, the switch element 10 that can reach same effect all can use.

In another preferred embodiment, because the power pulse that constant-current source exports is turned to a pulse-type current by switch element 10, unnecessary electric energy can be produced in the utility model light adjusting circuit or lack electric energy, then be provided with an energy-storage travelling wave tube 40 between constant-current supply and LED light source, as electric capacity, absorb or discharge the energy difference between the output current after output current and chopping, thus ensure regardless of under which kind of output current, current precision and size adjustment all realize by the constant-current supply of constant current, and the amplitude consistency of electric current forces the ON time of switching element to be guaranteed by pwm signal.Nature, but also it is integrated in constant-current supply the energy-storage travelling wave tube of this such as electric capacity, adjusts depending on different circuit requirement.

Adopt above-mentioned arbitrarily or after any embodiment, average current value can between 1%-100% high accuracy adjustable, and output current is impulse type ensure that in colour temperature dimming process, colour temperature is consistent.

Should be noted that, embodiment of the present utility model has preferably implementation, and not any type of restriction is done to the utility model, any person skilled in art of being familiar with may utilize the technology contents of above-mentioned announcement change or be modified to equivalent effective embodiment, in every case the content of technical solutions of the utility model is not departed from, the any amendment done above embodiment according to technical spirit of the present utility model or equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims (12)

1., based on a light adjusting circuit of PWM, comprising:

Switch element, is connected with a LED light source;

Pwm signal generator, is connected with described switch element, and regulate pwm signal to open and shutoff to control described switch element, it is characterized in that, described light adjusting circuit also comprises:

Constant-current supply, is connected with described switch element, exports adjustable output current;

Described constant-current supply comprises a current reference module, and adjustable described output current is a reference current I _r; Described current reference module and described pwm signal generator link, and make described reference current I _rwith the maximum current I of described constant-current supply _maxratio μ change with the change of the duty ratio D of described pwm signal.

2. light adjusting circuit as claimed in claim 1, is characterized in that,

Described light adjusting circuit also comprises a sampling module, and described sampling module detects described output current and reference current I _r, and make comparisons with described duty ratio D, to regulate described output current.

3. light adjusting circuit as claimed in claim 2, is characterized in that,

Described sampling module includes:

-sampling unit, is connected between described constant-current supply and LED light source;

-operational amplifier, comprises first input end a, the second input b and an output, wherein

Described first input end a is connected between described sampling unit and described LED light source;

Described second input b and described current reference model calling;

Described output is connected with described constant-current supply.

4. light adjusting circuit as claimed in claim 3, is characterized in that,

Described sampling unit is sampling resistor or instrument transformer.

5. light adjusting circuit as claimed in claim 1, is characterized in that,

Described constant-current supply is limited peak-mode power supply.

6. light adjusting circuit as claimed in claim 5, is characterized in that,

Described current reference module adjusts the peak current benchmark of described limit peak-mode power supply to obtain described reference current I _r.

7. light adjusting circuit as claimed in claim 5, is characterized in that,

The additional pwm signal source of described limit peak-mode power supply as enable, to realize the electric source topology of described limit peak-mode power supply.

8. light adjusting circuit as claimed in claim 1, is characterized in that,

Described constant-current supply is linear regulated power supply, regulates the internal reference of described linear regulated power supply to obtain described output current.

9. light adjusting circuit as claimed in claim 1, is characterized in that,

Described switch element is metal-oxide-semiconductor, transistor or pliotron.

10. light adjusting circuit as claimed in claim 1, is characterized in that,

Described light adjusting circuit also comprises an energy-storage travelling wave tube, is located at described constant-current supply inside or is connected between described constant-current supply and LED light source, absorbing and discharge the energy difference of described output current and the output current after described switch element chopping.

11. light adjusting circuits as claimed in claim 1, is characterized in that,

Described reference current I _rwith the maximum current I of described constant-current supply _maxratio μ and described pwm signal duty ratio D between difference between ± 20% between.

12. light adjusting circuits as claimed in claim 11, is characterized in that,

Described ratio μ is equal with duty ratio D.