TWM493838U - Driving system and control module of LED - Google Patents

Driving system and control module of LED Download PDF

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TWM493838U
TWM493838U TW103214405U TW103214405U TWM493838U TW M493838 U TWM493838 U TW M493838U TW 103214405 U TW103214405 U TW 103214405U TW 103214405 U TW103214405 U TW 103214405U TW M493838 U TWM493838 U TW M493838U
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voltage
control signal
circuit
signal
predetermined value
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TW103214405U
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wen-qin Xiao
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wen-qin Xiao
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Description

發光二極體的驅動系統及控制模組Light-emitting diode drive system and control module

本新型是有關於一種驅動系統及控制模組,特別是指一種發光二極體的驅動系統及控制模組。The invention relates to a driving system and a control module, in particular to a driving system and a control module of a light emitting diode.

習知應用在發光二極體(LED)手電筒的驅動系統往往僅藉由一直流電壓轉換電路,將電池的直流電壓轉換為一電壓值較高的輸出電壓,並提供一輸出電流以驅動手電筒的發光二極體發光。然而,該習知的驅動系統都採用恆定的輸出電流的設計,當該手電筒的使用時間增加時,該電池的內阻也逐漸增加,導致該電池的直流電壓及該輸出電壓都漸漸下降,但卻仍然提供恆定的輸出電流,而使得該電池的能量消耗更快,因此,如何延長手電筒的電池的使用時間就成為一個重要的課題。Conventionally, a driving system applied to a light-emitting diode (LED) flashlight often converts a DC voltage of a battery into a higher voltage output voltage by a DC voltage conversion circuit, and provides an output current to drive the flashlight. The light emitting diode emits light. However, the conventional driving system adopts a constant output current design. When the usage time of the flashlight increases, the internal resistance of the battery also gradually increases, causing the DC voltage of the battery and the output voltage to gradually decrease, but However, it still provides a constant output current, which makes the battery consume more energy. Therefore, how to extend the battery life of the flashlight becomes an important issue.

因此,本新型之目的,即在提供一種電池使用時間較長的發光二極體的驅動系統及控制模組。Therefore, the object of the present invention is to provide a driving system and a control module for a light-emitting diode having a long battery life.

於是,本新型發光二極體的驅動系統適用於驅動一發光二極體發光,並包含一升壓電路及一控制模組。Therefore, the driving system of the novel light emitting diode is suitable for driving a light emitting diode to emit light, and comprises a boosting circuit and a control module.

該升壓電路接收一直流的電源電壓,及一控制 信號,並根據該控制信號選擇性將該電源電壓轉換成一直流的輸出電壓,且提供一輸出電流以驅動該發光二極體發光,該輸出電壓大於該電源電壓。The booster circuit receives the power supply voltage of a constant current, and a control And outputting the power supply voltage to a direct current output voltage according to the control signal, and providing an output current to drive the light emitting diode to emit light, the output voltage being greater than the power supply voltage.

該控制模組接收一相關於該電源電壓的第一輸入電壓,並根據該第一輸入電壓,產生該脈寬調變的控制信號,且該控制信號的佔空比隨著該第一輸入電壓的變大而單調改變。當該電源電壓越小時,該控制信號的佔空比越小,使該升壓電路所提供的該輸出電流越小。The control module receives a first input voltage related to the power voltage, and generates a pulse width modulation control signal according to the first input voltage, and a duty ratio of the control signal follows the first input voltage It becomes bigger and changes monotonously. When the power supply voltage is smaller, the duty ratio of the control signal is smaller, so that the output current provided by the boosting circuit is smaller.

而本新型發光二極體的控制模組適用於控制一升壓電路選擇性將一電源電壓升壓轉換成一輸出電壓,以提供一輸出電流驅動一發光二極體發光,並包含一第一參考電路、一第二參考電路、一振盪電路、及一脈寬調變電路。The control module of the novel light-emitting diode is adapted to control a booster circuit to selectively convert a power supply voltage into an output voltage to provide an output current to drive a light-emitting diode to emit light, and includes a first reference. a circuit, a second reference circuit, an oscillating circuit, and a pulse width modulation circuit.

該第一參考電路產生一第一參考電壓。該第二參考電路接收一相關於該電源電壓的第一輸入電壓及該第一參考電壓,並據以產生一第二參考電壓。當該第一輸入電壓小於一最小預定值時,該第二參考電壓等於該最小預定值,當該第一輸入電壓大於一最大預定值時,該第二參考電壓等於該最大預定值。該振盪電路產生一具有固定頻率且呈三角波的振盪信號。The first reference circuit generates a first reference voltage. The second reference circuit receives a first input voltage associated with the power supply voltage and the first reference voltage, and accordingly generates a second reference voltage. When the first input voltage is less than a minimum predetermined value, the second reference voltage is equal to the minimum predetermined value, and when the first input voltage is greater than a maximum predetermined value, the second reference voltage is equal to the maximum predetermined value. The oscillating circuit generates an oscillating signal having a fixed frequency and being a triangular wave.

該脈寬調變電路接收該第二參考電壓及該振盪信號,並據以產生一脈寬調變的控制信號來控制該升壓電路,且該振盪信號決定該控制信號的頻率,該第二參考電壓及該振盪信號決定該控制信號的佔空比。且該控制信號 的佔空比隨著該第一輸入電壓的變大而單調改變,當該電源電壓越小時,該控制信號的佔空比越小,使該升壓電路所提供的該輸出電流越小。The pulse width modulation circuit receives the second reference voltage and the oscillating signal, and generates a pulse width modulation control signal to control the boosting circuit, and the oscillating signal determines a frequency of the control signal, the first The second reference voltage and the oscillating signal determine the duty cycle of the control signal. And the control signal The duty ratio changes monotonically as the first input voltage becomes larger. When the power supply voltage is smaller, the duty ratio of the control signal is smaller, so that the output current provided by the boosting circuit is smaller.

本新型之功效是利用控制模組根據相關於該電源電壓的該輸入電壓,產生該脈寬調變的控制信號,進而控制該升壓電路在該電源電壓越低時,提供較小的輸出電流,以使提供該電源電壓的電池的使用時間能夠延長。The function of the novel is to use the control module to generate the pulse width modulation control signal according to the input voltage related to the power supply voltage, thereby controlling the boosting circuit to provide a smaller output current when the power supply voltage is lower. In order to extend the use time of the battery that supplies the power supply voltage.

1‧‧‧升壓電路1‧‧‧Boost circuit

2‧‧‧控制模組2‧‧‧Control Module

21‧‧‧第一參考電路21‧‧‧First reference circuit

22‧‧‧第二參考電路22‧‧‧Second reference circuit

23‧‧‧振盪電路23‧‧‧Oscillation circuit

24‧‧‧脈寬調變電路24‧‧‧ Pulse width modulation circuit

25‧‧‧數位邏輯電路25‧‧‧Digital logic circuit

R1‧‧‧第一電阻R1‧‧‧first resistance

R2‧‧‧第二電阻R2‧‧‧second resistance

SW1‧‧‧開關SW1‧‧‧ switch

VCC‧‧‧電池VCC‧‧‧Battery

V1‧‧‧第一輸入電壓V1‧‧‧ first input voltage

V2‧‧‧第一參考電壓V2‧‧‧ first reference voltage

V3‧‧‧第二參考電壓V3‧‧‧second reference voltage

D1‧‧‧發光二極體D1‧‧‧Lighting diode

D2‧‧‧第一二極體D2‧‧‧ first diode

L1‧‧‧電感L1‧‧‧Inductance

M1‧‧‧電晶體M1‧‧‧O crystal

本新型之其他的特徵及功效,將於參照圖式的實施方式中清楚地呈現,其中:圖1是一電路圖,說明本新型發光二極體的驅動系統的一實施例。Other features and effects of the present invention will be apparent from the following description of the drawings. FIG. 1 is a circuit diagram illustrating an embodiment of the driving system of the novel light-emitting diode.

參閱圖1,本新型發光二極體的驅動系統的實施例適用於驅動一發光二極體D1發光,並包含一升壓電路1、一開關SW1、及一控制模組2。該發光二極體D1具有一陽極端及一陰極端。Referring to FIG. 1 , an embodiment of a driving system for a light-emitting diode of the present invention is suitable for driving a light-emitting diode D1 to emit light, and includes a boosting circuit 1 , a switch SW1 , and a control module 2 . The light emitting diode D1 has an anode end and a cathode end.

該升壓電路1接收一直流的電源電壓及一控制信號,並根據該控制信號選擇性將該電源電壓轉換成一直流的輸出電壓,且提供一輸出電流以驅動該發光二極體D1發光,其中,該輸出電壓大於該電源電壓。在本實施例中,該電源電壓由二個串聯的三號電池提供,且其大小為3伏特,為求方便起見,圖1中僅以一個電池符號VCC表示。 而在其他實施例中,該電源電壓也可以由一個或多個電池提供。The boosting circuit 1 receives a power supply voltage and a control signal, and selectively converts the power supply voltage into a direct current output voltage according to the control signal, and provides an output current to drive the light emitting diode D1 to emit light, wherein The output voltage is greater than the supply voltage. In the present embodiment, the power supply voltage is provided by two serially connected three-cell batteries, and its size is 3 volts. For convenience, only one battery symbol VCC is shown in FIG. In other embodiments, the supply voltage can also be provided by one or more batteries.

該升壓電路1包括一第一二極體D2、一電感L1、及一電晶體M1。該第一二極體D2包含一陽極端,及一輸出該輸出電壓並提供該輸出電流的陰極端。該電感L1具有一接收該電源電壓的第一端,及一電連接到該第一二極體D2之陽極端的第二端。該電晶體M1電連接於該第一二極體D2的陽極端及一接地點之間,並接收該控制信號,且受該控制信號控制於導通與不導通之間切換。當該電晶體M1導通時,該電源電壓不被轉換成該輸出電壓,而當該電晶體M1不導通時,該電源電壓被轉換成該輸出電壓。此外,在本實施例中,該電晶體M1是一N型電晶體。在其他實施例中,該電晶體M1也可以是其他種類的電晶體。The booster circuit 1 includes a first diode D2, an inductor L1, and a transistor M1. The first diode D2 includes an anode terminal and a cathode terminal that outputs the output voltage and provides the output current. The inductor L1 has a first end receiving the power supply voltage and a second end electrically connected to the anode end of the first diode D2. The transistor M1 is electrically connected between the anode terminal of the first diode D2 and a grounding point, and receives the control signal, and is controlled to switch between conduction and non-conduction by the control signal. When the transistor M1 is turned on, the power supply voltage is not converted into the output voltage, and when the transistor M1 is not turned on, the power supply voltage is converted into the output voltage. Further, in the present embodiment, the transistor M1 is an N-type transistor. In other embodiments, the transistor M1 may also be other kinds of transistors.

該開關SW1電連接於該升壓電路1之第一二極體D2的陰極端及該發光二極體D1的陽極端之間,且接收來自該升壓電路1的該輸出電壓及該輸出電流,及一開關信號,並受該開關信號控制於導通與不導通之間切換。該開關SW1於導通時,使該接收到的輸出電壓及該輸出電流傳送至該發光二極體D1,以驅動該發光二極體D1發光。在本實施例中,該開關SW1是一P型電晶體,在其他實施例中,該開關SW1也可以是其他種類的電晶體。The switch SW1 is electrically connected between the cathode end of the first diode D2 of the booster circuit 1 and the anode terminal of the LED diode D1, and receives the output voltage and the output current from the booster circuit 1. And a switching signal, and is controlled by the switching signal to switch between conduction and non-conduction. When the switch SW1 is turned on, the received output voltage and the output current are transmitted to the light-emitting diode D1 to drive the light-emitting diode D1 to emit light. In this embodiment, the switch SW1 is a P-type transistor. In other embodiments, the switch SW1 may be another type of transistor.

該控制模組2包括一第一參考電路21、一第二參考電路22、一振盪電路23、一脈寬調變電路24、及一數位邏輯電路25,並接收一相關於該電源電壓的第一輸入電 壓V1,且根據該第一輸入電壓V1,產生該脈寬調變的控制信號。該控制信號的佔空比隨著該第一輸入電壓V1的變大而單調改變,當該電源電壓越小時,該控制信號的佔空比越小,使該升壓電路1所提供的該輸出電流越小。The control module 2 includes a first reference circuit 21, a second reference circuit 22, an oscillating circuit 23, a pulse width modulation circuit 24, and a digital logic circuit 25, and receives a voltage related to the power supply voltage. First input Voltage V1 is generated, and according to the first input voltage V1, the pulse width modulation control signal is generated. The duty ratio of the control signal monotonously changes as the first input voltage V1 becomes larger. When the power supply voltage is smaller, the duty ratio of the control signal is smaller, so that the output provided by the boosting circuit 1 is made. The smaller the current.

該數位邏輯電路25接收一來自外部的選擇信號及一時鐘信號。該數位邏輯電路25基於該時鐘信號來運作,並根據該選擇信號,產生該開關信號、及一待命信號。當該選擇信號指示該控制模組2運作時,該待命信號為邏輯0,當該選擇信號指示該控制模組2不運作時,該待命信號為邏輯1。當該選擇信號指示該控制模組2運作且該發光二極體D1以一預定頻率閃爍時,該開關信號能以該預定頻率控制該開關SW1於導通及不導通之間切換,以達成閃爍的效果。The digital logic circuit 25 receives a selection signal from the outside and a clock signal. The digital logic circuit 25 operates based on the clock signal and generates the switching signal and a standby signal based on the selection signal. When the selection signal indicates that the control module 2 is operating, the standby signal is logic 0, and when the selection signal indicates that the control module 2 is not operating, the standby signal is logic 1. When the selection signal indicates that the control module 2 is operating and the LED diode D1 is blinking at a predetermined frequency, the switch signal can control the switch SW1 to switch between conduction and non-conduction at the predetermined frequency to achieve flickering. effect.

該第一參考電路21產生該第一參考電壓V2。該振盪電路23產生一具有固定頻率且呈三角波的振盪信號及該時鐘信號。The first reference circuit 21 generates the first reference voltage V2. The oscillating circuit 23 generates an oscillating signal having a fixed frequency and having a triangular wave and the clock signal.

該第二參考電路22接收該第一輸入電壓V1及該第一參考電壓V2,並據以產生一第二參考電壓V3。當該第一輸入電壓V1小於一最小預定值時,該第二參考電壓V3等於該最小預定值,當該第一輸入電壓V1大於一最大預定值時,該第二參考電壓V3等於該最大預定值。在本實施例中,該驅動系統還包含一電阻值為100k歐姆的第一電阻R1及一電阻值為22k歐姆的第二電阻R2,該第一電阻R1具有一接收該電源電壓的第一端及一輸出該第一輸入電 壓V1的第二端,該第二電阻R2具有一電連接該第一電阻R1的第二端的第一端及一接收該待命信號的第二端。當該待命信號的電壓為零,即邏輯0時,該第一輸入電壓V1的大小為該電源電壓的分壓,也就是正比於該電源電壓。在其他實施例中,該第一電阻R1及第二電阻R2的電阻值可能會因為該電池VCC的內阻不同,例如不同種類的電池VCC或不同數量的電池VCC,及因為該電池VCC與該控制模組2之間的導線電阻的大小,而選用不同的電阻值。The second reference circuit 22 receives the first input voltage V1 and the first reference voltage V2, and accordingly generates a second reference voltage V3. When the first input voltage V1 is less than a minimum predetermined value, the second reference voltage V3 is equal to the minimum predetermined value, and when the first input voltage V1 is greater than a maximum predetermined value, the second reference voltage V3 is equal to the maximum predetermined value. In this embodiment, the driving system further includes a first resistor R1 having a resistance value of 100 k ohms and a second resistor R2 having a resistance value of 22 k ohms, the first resistor R1 having a first end receiving the power supply voltage And outputting the first input power The second end of the voltage V1 has a first end electrically connected to the second end of the first resistor R1 and a second end receiving the standby signal. When the voltage of the standby signal is zero, that is, logic 0, the magnitude of the first input voltage V1 is a divided voltage of the power supply voltage, that is, proportional to the power supply voltage. In other embodiments, the resistance values of the first resistor R1 and the second resistor R2 may be different due to different internal resistance of the battery VCC, such as different types of batteries VCC or different numbers of batteries VCC, and because the battery VCC and the battery The size of the wire resistance between the control modules 2 is selected, and different resistance values are selected.

該脈寬調變電路24接收該第二參考電壓V3及該振盪信號,並據以產生該脈寬調變的控制信號。該脈寬調變電路24將該第二參考電壓V3及該振盪信號作比較,當該振盪信號大於該第二參考電壓V3時,產生該控制信號為邏輯0,當該振盪信號小於該第二參考電壓V3時,產生該控制信號為邏輯1。The pulse width modulation circuit 24 receives the second reference voltage V3 and the oscillation signal, and accordingly generates the pulse width modulation control signal. The pulse width modulation circuit 24 compares the second reference voltage V3 with the oscillating signal. When the oscillating signal is greater than the second reference voltage V3, the control signal is generated as logic 0, and when the oscillating signal is smaller than the first When the reference voltage V3 is two, the control signal is generated to be logic 1.

該控制信號的佔空比隨著該第一輸入電壓V1的變大而單調改變,且在本實施例中具有下列的關係:,當1>V1>0.2,D =0.8,當V1>1,D =0.05,當V1<0.2,隨著使用時間的增加,該電池VCC的內阻也逐漸增加,使得該電池VCC的電源電壓及該第一輸入電壓V1都漸漸下降,此時,該第二參考電壓V3也會隨著該第一輸入電壓V1漸漸下降,進而使得該控制信號的佔空比漸漸變小,導致該升壓電路1所產生的該輸出電壓及所提供的該輸出電 流漸漸變小,而能延長該電池VCC的使用時間。The duty ratio of the control signal monotonously changes as the first input voltage V1 becomes larger, and has the following relationship in this embodiment: When 1>V1>0.2, D =0.8, when V1>1, D =0.05, when V1<0.2, the internal resistance of the battery VCC gradually increases with the increase of the use time, so that the power supply voltage of the battery VCC And the first input voltage V1 gradually decreases. At this time, the second reference voltage V3 also gradually decreases with the first input voltage V1, thereby causing the duty ratio of the control signal to gradually decrease, thereby causing the boosting. The output voltage generated by the circuit 1 and the supplied output current are gradually reduced, and the use time of the battery VCC can be prolonged.

特別值得一提的是:在本實施例中,該驅動系統包含該開關SW1,在其他實施例中,該驅動系統也可以不包含該開關SW1,而該升壓電路1的第一二極體D2的陰極端直接電連接該發光二極體D1的陽極端。It is particularly worth mentioning that in the embodiment, the driving system includes the switch SW1. In other embodiments, the driving system may not include the switch SW1, and the first diode of the boosting circuit 1 The cathode end of D2 is directly electrically connected to the anode end of the light-emitting diode D1.

綜上所述,藉由該控制模組2根據相關於該電源電壓的第一輸入電壓V1,產生該脈寬調變的控制信號,進而控制該升壓電路在該電源電壓越低時,提供較小的輸出電流,以使提供該電源電壓的電池VCC的使用時間能夠延長,故確實能達成本新型之目的。In summary, the control module 2 generates the pulse width modulation control signal according to the first input voltage V1 related to the power voltage, thereby controlling the boost circuit to provide when the power voltage is lower. The smaller output current is such that the use time of the battery VCC that supplies the power supply voltage can be extended, so that the purpose of the present invention can be achieved.

惟以上所述者,僅為本新型之較佳實施例而已,當不能以此限定本新型實施之範圍,即大凡依本新型申請專利範圍及專利說明書內容所作之簡單的等效變化與修飾,皆仍屬本新型專利涵蓋之範圍內。However, the above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, that is, the simple equivalent changes and modifications made in accordance with the scope of the present patent application and the contents of the patent specification, All remain within the scope of this new patent.

1‧‧‧升壓電路1‧‧‧Boost circuit

2‧‧‧控制模組2‧‧‧Control Module

21‧‧‧第一參考電路21‧‧‧First reference circuit

22‧‧‧第二參考電路22‧‧‧Second reference circuit

23‧‧‧振盪電路23‧‧‧Oscillation circuit

24‧‧‧脈寬調變電路24‧‧‧ Pulse width modulation circuit

25‧‧‧數位邏輯電路25‧‧‧Digital logic circuit

R1‧‧‧第一電阻R1‧‧‧first resistance

R2‧‧‧第二電阻R2‧‧‧second resistance

SW1‧‧‧開關SW1‧‧‧ switch

VCC‧‧‧電池VCC‧‧‧Battery

V1‧‧‧第一輸入電壓V1‧‧‧ first input voltage

V2‧‧‧第一參考電壓V2‧‧‧ first reference voltage

V3‧‧‧第二參考電壓V3‧‧‧second reference voltage

D1‧‧‧發光二極體D1‧‧‧Lighting diode

D2‧‧‧第一二極體D2‧‧‧ first diode

L1‧‧‧電感L1‧‧‧Inductance

M1‧‧‧電晶體M1‧‧‧O crystal

Claims (8)

一種發光二極體的驅動系統,適用於驅動一發光二極體發光,並包含:一升壓電路,接收一直流的電源電壓,及一控制信號,並根據該控制信號選擇性將該電源電壓轉換成一直流的輸出電壓,且提供一輸出電流以驅動該發光二極體發光,該輸出電壓大於該電源電壓;及一控制模組,接收一相關於該電源電壓的第一輸入電壓,並根據該第一輸入電壓,產生脈寬調變的該控制信號,且該控制信號的佔空比隨著該第一輸入電壓的變大而單調改變,當該電源電壓越小時,該控制信號的佔空比越小,使該升壓電路所提供的該輸出電流越小。 A driving system for a light emitting diode, suitable for driving a light emitting diode, and comprising: a boosting circuit, receiving a power supply voltage of a constant current, and a control signal, and selectively selecting the power voltage according to the control signal Converting to a direct current output voltage, and providing an output current to drive the light emitting diode to emit light, the output voltage being greater than the power supply voltage; and a control module receiving a first input voltage associated with the power supply voltage, and according to The first input voltage generates the control signal of the pulse width modulation, and the duty ratio of the control signal monotonously changes as the first input voltage becomes larger. When the power supply voltage is smaller, the control signal accounts for The smaller the null ratio, the smaller the output current provided by the boost circuit. 如請求項1所述的發光二極體的驅動系統,其中,該升壓電路包括:一第一二極體,包含一陽極端及一電連接該發光二極體,且輸出該輸出電壓並提供該輸出電流的陰極端;一電感,具有一接收該電源電壓的第一端,及一電連接到該第一二極體之陽極端的第二端;及一電晶體,電連接於該第一二極體的陽極端及一接地點之間,並接收來自該控制模組的控制信號,且受該控制信號控制於導通與不導通之間切換。 The driving system of the light-emitting diode according to claim 1, wherein the boosting circuit comprises: a first diode comprising an anode terminal and an electrical connection diode, and outputting the output voltage and providing a cathode end of the output current; an inductor having a first end receiving the power supply voltage and a second end electrically connected to the anode end of the first diode; and a transistor electrically connected to the first end Between the anode end of a diode and a ground point, and receiving a control signal from the control module, and being controlled by the control signal to switch between conduction and non-conduction. 如請求項2所述的發光二極體的驅動系統,還包含一開關,該開關電連接於該升壓電路之第一二極體的陰極端及該發光二極體之間,且接收一開關信號,及來自該升 壓電路的該輸出電流,並受該開關信號控制於導通與不導通之間切換,該開關於導通時,使該接收到的輸出電流傳送至該發光二極體,以驅動該發光二極體發光。 The driving system of the light-emitting diode according to claim 2, further comprising a switch electrically connected between the cathode end of the first diode of the boosting circuit and the light-emitting diode, and receiving a switch Switching signal, and from the liter The output current of the voltage circuit is controlled by the switching signal to switch between conduction and non-conduction. When the switch is turned on, the received output current is transmitted to the LED to drive the LED. Body luminescence. 如請求項3所述的發光二極體的驅動系統,其中,該控制模組還接收一選擇信號,並根據該選擇信號,產生該開關信號。 The driving system of the LED according to claim 3, wherein the control module further receives a selection signal and generates the switching signal according to the selection signal. 如請求項1所述的發光二極體的驅動系統,其中,該控制模組包括:一第一參考電路,產生一第一參考電壓;一第二參考電路,接收該第一輸入電壓及該第一參考電壓,並據以產生一第二參考電壓,當該第一輸入電壓小於一最小預定值時,該第二參考電壓等於該最小預定值,當該第一輸入電壓大於一最大預定值時,該第二參考電壓等於該最大預定值;一振盪電路,產生一具有固定頻率且呈三角波的振盪信號;及一脈寬調變電路,接收該第二參考電壓及該振盪信號,並據以產生脈寬調變的該控制信號,且該振盪信號決定該控制信號的頻率,該第二參考電壓及該振盪信號決定該控制信號的佔空比。 The driving system of the LED according to claim 1, wherein the control module comprises: a first reference circuit for generating a first reference voltage; a second reference circuit for receiving the first input voltage and the a first reference voltage, and accordingly generating a second reference voltage, when the first input voltage is less than a minimum predetermined value, the second reference voltage is equal to the minimum predetermined value, when the first input voltage is greater than a maximum predetermined value The second reference voltage is equal to the maximum predetermined value; an oscillating circuit generates an oscillating signal having a fixed frequency and a triangular wave; and a pulse width modulation circuit receiving the second reference voltage and the oscillating signal, and The control signal corresponding to the pulse width modulation is generated, and the oscillation signal determines the frequency of the control signal, and the second reference voltage and the oscillation signal determine the duty ratio of the control signal. 如請求項5所述的發光二極體的驅動系統,其中,該最小預定值是0.2伏特,該最大預定值是1伏特,該第一輸入電壓及該控制信號的佔空比具有下列的關係, ,當1>V1>0.2,D =0.8,當V1>1,D =0.05,當V1<0.2,D為該控制信號的佔空比,V1為該第一輸入電壓的大小。The driving system of the light emitting diode according to claim 5, wherein the minimum predetermined value is 0.2 volt, the maximum predetermined value is 1 volt, and the first input voltage and the duty ratio of the control signal have the following relationship , When 1>V1>0.2, D =0.8, when V1>1, D =0.05, when V1<0.2, D is the duty ratio of the control signal, and V1 is the magnitude of the first input voltage. 一種發光二極體的控制模組,適用於控制一升壓電路選擇性將一電源電壓升壓轉換成一輸出電壓,以提供一輸出電流驅動一發光二極體發光,並包含:一第一參考電路,產生一第一參考電壓;一第二參考電路,接收一相關於該電源電壓的第一輸入電壓及該第一參考電壓,並據以產生一第二參考電壓,當該第一輸入電壓小於一最小預定值時,該第二參考電壓等於該最小預定值,當該第一輸入電壓大於一最大預定值時,該第二參考電壓等於該最大預定值;一振盪電路,產生一具有固定頻率且呈三角波的振盪信號;及一脈寬調變電路,接收該第二參考電壓及該振盪信號,並據以產生脈寬調變的一控制信號來控制該升壓電路,且該振盪信號決定該控制信號的頻率,該第二參考電壓及該振盪信號決定該控制信號的佔空比,其中,該控制信號的佔空比隨著該第一輸入電壓的變大而單調改變,當該電源電壓越小時,該控制信號的佔空比越小,使該升壓電路所提供的該輸出電流越小。 A control module for a light-emitting diode is adapted to control a booster circuit to selectively convert a power supply voltage into an output voltage to provide an output current to drive a light-emitting diode to emit light, and includes: a first reference The circuit generates a first reference voltage; a second reference circuit receives a first input voltage associated with the power supply voltage and the first reference voltage, and accordingly generates a second reference voltage, when the first input voltage When less than a minimum predetermined value, the second reference voltage is equal to the minimum predetermined value. When the first input voltage is greater than a maximum predetermined value, the second reference voltage is equal to the maximum predetermined value; an oscillating circuit generates a fixed value An oscillating signal having a frequency and a triangular wave; and a pulse width modulation circuit receiving the second reference voltage and the oscillating signal, and controlling the boosting circuit according to a control signal for generating a pulse width modulation, and the oscillating The signal determines a frequency of the control signal, the second reference voltage and the oscillating signal determine a duty ratio of the control signal, wherein a duty ratio of the control signal follows the Input voltage increases monotonously changes, when the power source voltage is smaller, the smaller the duty ratio of the control signal so that the output current provided by the booster circuit decreases. 如請求項7所述的發光二極體的控制模組,其中,該最小預定值是0.2伏特,該最大預定值是1伏特,該第一輸入電壓及該控制信號的佔空比具有下列的關係, ,當1>V1>0.2,D =0.8,當V1>1,D =0.05,當V1<0.2,D為該控制信號的佔空比,V1為該第一輸入電壓的大小。The control module of the light-emitting diode according to claim 7, wherein the minimum predetermined value is 0.2 volt, the maximum predetermined value is 1 volt, and the first input voltage and the duty ratio of the control signal have the following relationship, When 1>V1>0.2, D =0.8, when V1>1, D =0.05, when V1<0.2, D is the duty ratio of the control signal, and V1 is the magnitude of the first input voltage.
TW103214405U 2014-08-13 2014-08-13 Driving system and control module of LED TWM493838U (en)

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