TW202110275A - Driving device - Google Patents
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- TW202110275A TW202110275A TW108129585A TW108129585A TW202110275A TW 202110275 A TW202110275 A TW 202110275A TW 108129585 A TW108129585 A TW 108129585A TW 108129585 A TW108129585 A TW 108129585A TW 202110275 A TW202110275 A TW 202110275A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/30—Semiconductor lamps, e.g. solid state lamps [SSL] light emitting diodes [LED] or organic LED [OLED]
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Abstract
Description
本發明係關於一種驅動裝置,特別係關於一種可用驅動一發光元件之驅動裝置。The present invention relates to a driving device, and more particularly to a driving device that can drive a light-emitting element.
在發光元件之照明應用中,最常見的問題是頻閃(Flicker),其係指光線之亮度會隨著時間會發生週期性變化。一般而言,當光線之切換頻率在60Hz以下時,人眼可很輕易覺察到光源的閃爍,而當光線之切換頻率在60Hz以上時,雖然人眼無法輕易察覺,但其仍易導致眼睛疲勞與不適。有鑑於此,勢必要提出一種全新之解決方案,以克服先前技術所面臨之缺陷。In the lighting application of light-emitting elements, the most common problem is flicker, which means that the brightness of light will periodically change over time. Generally speaking, when the switching frequency of light is below 60Hz, the human eye can easily perceive the flicker of the light source, and when the switching frequency of light is above 60Hz, although the human eye cannot easily detect it, it is still easy to cause eye fatigue And discomfort. In view of this, it is necessary to propose a new solution to overcome the shortcomings faced by the prior art.
在較佳實施例中,本發明提出一種驅動裝置,用於驅動一發光元件,並包括:一橋式整流器,根據一第一輸入電位和一第二輸入電位來產生一整流電位;一第一電容器,儲存該整流電位;一變壓器,包括一主線圈、一副線圈,以及一輔助線圈,其中該主線圈係用於接收該整流電位,而該副線圈係用於產生一變壓電位;一功率切換器,其中該主線圈係經由該功率切換器耦接至一接地電位,而該功率切換器係根據一時脈電位來進行切換操作;一輸出級電路,根據該變壓電位來產生一輸出電位,其中該發光元件係根據該輸出電位來決定是否要產生一光線;以及一控制器,產生該時脈電位;其中該輸出級電路更比較該輸出電位與一臨界電位,而若該輸出電位高於該臨界電位,則該輸出級電路即降低通過該發光元件之一輸出電流。In a preferred embodiment, the present invention provides a driving device for driving a light-emitting element, and includes: a bridge rectifier that generates a rectified potential according to a first input potential and a second input potential; and a first capacitor , Store the rectified potential; a transformer, including a main coil, a secondary coil, and an auxiliary coil, wherein the main coil is used to receive the rectified potential, and the secondary coil is used to generate a variable voltage; a power A switch, wherein the main coil is coupled to a ground potential via the power switch, and the power switch performs a switching operation according to a clock potential; an output stage circuit generates an output potential according to the variable voltage , Wherein the light-emitting element determines whether to generate a light according to the output potential; and a controller generates the clock potential; wherein the output stage circuit compares the output potential with a critical potential, and if the output potential is high At the critical potential, the output stage circuit reduces the output current through one of the light-emitting elements.
為讓本發明之目的、特徵和優點能更明顯易懂,下文特舉出本發明之具體實施例,並配合所附圖式,作詳細說明如下。In order to make the purpose, features and advantages of the present invention more comprehensible, specific embodiments of the present invention are listed below, with the accompanying drawings, and detailed descriptions are as follows.
在說明書及申請專利範圍當中使用了某些詞彙來指稱特定的元件。本領域技術人員應可理解,硬體製造商可能會用不同的名詞來稱呼同一個元件。本說明書及申請專利範圍並不以名稱的差異來作為區分元件的方式,而是以元件在功能上的差異來作為區分的準則。在通篇說明書及申請專利範圍當中所提及的「包含」及「包括」一詞為開放式的用語,故應解釋成「包含但不僅限定於」。「大致」一詞則是指在可接受的誤差範圍內,本領域技術人員能夠在一定誤差範圍內解決所述技術問題,達到所述基本之技術效果。此外,「耦接」一詞在本說明書中包含任何直接及間接的電性連接手段。因此,若文中描述一第一裝置耦接至一第二裝置,則代表該第一裝置可直接電性連接至該第二裝置,或經由其它裝置或連接手段而間接地電性連接至該第二裝置。In the specification and the scope of patent application, certain words are used to refer to specific elements. Those skilled in the art should understand that hardware manufacturers may use different terms to refer to the same component. This specification and the scope of patent application do not use differences in names as a way to distinguish elements, but use differences in functions of elements as a criterion for distinguishing. The terms "include" and "include" mentioned in the entire specification and the scope of the patent application are open-ended terms and should be interpreted as "including but not limited to". The term "approximately" means that within an acceptable error range, those skilled in the art can solve the technical problem within a certain error range and achieve the basic technical effect. In addition, the term "coupling" includes any direct and indirect electrical connection means in this specification. Therefore, if it is described in the text that a first device is coupled to a second device, it means that the first device can be directly electrically connected to the second device, or indirectly electrically connected to the second device through other devices or connection means. Two devices.
第1圖係顯示根據本發明一實施例所述之驅動裝置100之示意圖。驅動裝置100係用於驅動一發光元件190。例如,驅動裝置100可應用於桌上型電腦、筆記型電腦,或一體成形電腦。如第1圖所示,驅動裝置100包括:一橋式整流器110、一第一電容器C1、一變壓器130、一功率切換器140、一輸出級電路150,以及一控制器160。必須注意的是,雖然未顯示於第1圖中,但驅動裝置100更可包括其他元件,例如:一穩壓器或(且)一負回授電路。FIG. 1 is a schematic diagram of a
橋式整流器110係根據一第一輸入電位VIN1和一第二輸入電位VIN2來產生一整流電位VR。第一輸入電位VIN1和第二輸入電位VIN2皆可來自一外部電源,其中第一輸入電位VIN1和第二輸入電位VIN2之間可形成具有任意頻率和任意振幅之一交流電壓。例如,交流電壓之頻率可約為50Hz或60Hz,而交流電壓之方均根值可約為110V或220V,但亦不僅限於此。第一電容器C1可用於儲存整流電位VR。變壓器130包括一主線圈131、一副線圈132,以及一輔助線圈133,其中主線圈131和輔助線圈133皆可位於變壓器130之同一側,而副線圈132則可位於變壓器130之相對另一側。主線圈131係用於接收整流電位VR,而作為對整流電位VR之回應,副線圈132可用於產生一變壓電位VS。輔助線圈133係耦接至控制器160。另外,主線圈131係經由功率切換器140耦接至一接地電位VSS(例如:0V)。功率切換器140係根據一時脈電位VA來進行切換操作,其可交替地導通或斷開。輸出級電路150係根據變壓電位VS來產生一輸出電位VOUT。發光元件190係根據輸出電位VOUT來決定是否要產生一光線。例如,若輸出電位VOUT為高邏輯位準,則發光元件190將會產生光線,而若輸出電位VOUT為低邏輯位準,則發光元件190將不會產生任何光線。控制器160可以是一控制積體電路,其中控制器160係用於產生時脈電位VA。時脈電位VA於驅動裝置100初始化時可維持於一固定電位,而在驅動裝置100進入正常使用階段後則可提供週期性之時脈波形。在較佳實施例中,輸出級電路150更比較輸出電位VOUT與一臨界電位VTH,而若輸出電位VOUT高於臨界電位VTH,則輸出級電路150即降低通過發光元件190之一輸出電流IOUT;反之,若輸出電位VOUT低於或等於臨界電位VTH,則輸出級電路150不會降低通過發光元件190之輸出電流IOUT(亦即,輸出電流IOUT可能維持不變或是升高)。根據實際量測結果,此種電路設計方式可減少非理想之頻閃現象,故使用驅動裝置100之發光元件190將不易造成使用者之眼睛疲勞。The
以下實施例將介紹驅動裝置100之詳細結構及操作方式。必須理解的是,這些圖式和敘述僅為舉例,而非用於限制本發明之範圍。The following embodiments will introduce the detailed structure and operation of the
第2圖係顯示根據本發明一實施例所述之驅動裝置200之示意圖。在第2圖之實施例中,驅動裝置200具有一第一輸入節點NIN1、一第二輸入節點NIN2,以及一輸出節點NOUT,並包括一橋式整流器210、一第一電容器C1、一變壓器230、一功率切換器240、一輸出級電路250,以及一控制器260。驅動裝置200之第一輸入節點NIN1和第二輸入節點NIN2可由一外部電源處分別接收一第一輸入電位VIN1和一第二輸入電位VIN2,而驅動裝置200之輸出節點NOUT可用於輸出一輸出電位VOUT至一發光元件290。FIG. 2 is a schematic diagram showing the
橋式整流器210包括一第一二極體D1、一第二二極體D2、一第三二極體D3,以及一第四二極體D4。第一二極體D1之陽極係耦接至第一輸入節點NIN1,而第一二極體D1之陰極係耦接至一第一節點N1以輸出一整流電位VR。第二二極體D2之陽極係耦接至第一輸入節點NIN1,而第二二極體D2之陰極係耦接至一接地電位VSS。第三二極體D3之陽極係耦接至第一節點N1,而第三二極體D3之陰極係耦接至第二輸入節點NIN2。第四二極體D4之陽極係耦接至接地電位VSS,而第四二極體D4之陰極係耦接至第二輸入節點NIN2。The
第一電容器C1之第一端係耦接至第一節點N1以接收並儲存整流電位VR,而第一電容器C1之第二端係耦接至接地電位VSS。The first terminal of the first capacitor C1 is coupled to the first node N1 to receive and store the rectified potential VR, and the second terminal of the first capacitor C1 is coupled to the ground potential VSS.
變壓器230包括一主線圈231、一副線圈232,以及一輔助線圈233。主線圈231之第一端係耦接至第一節點N1以接收整流電位VR,而主線圈231之第二端係耦接至一第二節點N2。副線圈232之第一端係耦接至一第三節點N3以輸出一變壓電位VS,而副線圈232之第二端係耦接至接地電位VSS。輔助線圈233之第一端係耦接至控制器260以接收一供應電位VCC,而輔助線圈233之第二端係耦接至接地電位VSS。例如,供應電位VCC可為一固定電位。The
功率切換器240包括一第一電晶體M1。第一電晶體M1可為一N型金氧半場效電晶體。第一電晶體M1之控制端係用於接收一時脈電位VA,第一電晶體M1之第一端係耦接至接地電位VSS,而第一電晶體M1之第二端係耦接至第二節點N2。控制器260係用於產生時脈電位VA。時脈電位VA於驅動裝置200初始化時可維持於一固定電位(例如:接地電位VSS),而在驅動裝置200進入正常使用階段後則可提供週期性之時脈波形。The
輸出級電路250包括一監控電路251、一第一比較器252、一第二比較器253、一第五二極體D5、一第六二極體D6、一第二電容器C2、一第二電晶體M2、一第三電晶體M3、一第一電阻器R1、一第二電阻器R2,以及一第三電阻器R3。例如,監控電路221可包括一電壓偵測器和一運算電路(未顯示),第一比較器251和第二比較器252可各自為一運算放大器,而第二電晶體M2和第三電晶體M3可各自為一N型金氧半場效電晶體。The
第五二極體D5之陽極係耦接至第三節點N3以接收變壓電位VS,而第五二極體D5之陰極係耦接至輸出節點NOUT。第二電容器C2之第一端係耦接至輸出節點NOUT,而第二電容器C2之第二端係耦接至接地電位VSS。The anode of the fifth diode D5 is coupled to the third node N3 to receive the variable potential VS, and the cathode of the fifth diode D5 is coupled to the output node NOUT. The first end of the second capacitor C2 is coupled to the output node NOUT, and the second end of the second capacitor C2 is coupled to the ground potential VSS.
監控電路251可偵測輸出電位VOUT,其中監控電路251係於一第四節點N4處複製並產生輸出電位VOUT,以及根據輸出電位VOUT和一目標閃爍百分比來於一第五節點N5處產生一臨界電位VTH。第一比較器252之正輸入端係耦接至第四節點N4,第一比較器252之負輸入端係耦接至第五節點N5,而第一比較器252之輸出端係於一第六節點N6處輸出一第一控制電位VC1。第二比較器253之正輸入端係耦接至第五節點N5,第二比較器253之負輸入端係耦接至第四節點N4,而第二比較器253之輸出端係於一第七節點N7處輸出一第二控制電位VC2。第一控制電位VC1和第二控制電位VC2可具有互補之邏輯位準。例如,若輸出電位VOUT高於臨界電位VTH,則第一控制電位VC1可為高邏輯位準且第二控制電位VC2可為低邏輯位準;反之,若輸出電位VOUT低於臨界電位VTH,則第一控制電位VC1可為低邏輯位準且第二控制電位VC2可為高邏輯位準。The
第一電阻器R1之第一端係耦接至輸出節點NOUT,而第一電阻器R1之第二端係耦接至一第八節點N8。第二電晶體M2之控制端係耦接至第六節點N6,第二電晶體M2之第一端係耦接至一第九節點N9,而第二電晶體M2之第二端係耦接至第八節點N8。第二電阻器R2之第一端係耦接至第九節點N9,而第二電阻器R2之第二端係耦接至接地電位VSS。第一電阻器R1、第二電晶體M2,以及第二電阻器R2可共同形成一輔助電流路徑,其可根據第一控制電位VC1來選擇性地導通或斷開。The first end of the first resistor R1 is coupled to the output node NOUT, and the second end of the first resistor R1 is coupled to an eighth node N8. The control terminal of the second transistor M2 is coupled to the sixth node N6, the first terminal of the second transistor M2 is coupled to a ninth node N9, and the second terminal of the second transistor M2 is coupled to The eighth node N8. The first end of the second resistor R2 is coupled to the ninth node N9, and the second end of the second resistor R2 is coupled to the ground potential VSS. The first resistor R1, the second transistor M2, and the second resistor R2 can jointly form an auxiliary current path, which can be selectively turned on or off according to the first control potential VC1.
第六二極體D6之陽極係耦接至第六節點N6,而第六二極體D6之陰極係耦接至一第十節點N10。第三電晶體M3之控制端係耦接至第七節點N7,第三電晶體M3之第一端係耦接至接地電位VSS,而第三電晶體M3之第二端係耦接至第十節點N10。第六二極體D6和第三電晶體M3可共同形成一快速放電路徑,其可根據第二控制電位VC2來選擇性地拉低或維持第一控制電位VC1之位準。中第三電阻器R3之第一端係耦接至一第十一節點N11,而第三電阻器R3之第二端係耦接至接地電位VSS。The anode of the sixth diode D6 is coupled to a sixth node N6, and the cathode of the sixth diode D6 is coupled to a tenth node N10. The control terminal of the third transistor M3 is coupled to the seventh node N7, the first terminal of the third transistor M3 is coupled to the ground potential VSS, and the second terminal of the third transistor M3 is coupled to the tenth node. Node N10. The sixth diode D6 and the third transistor M3 can jointly form a fast discharge path, which can selectively pull down or maintain the level of the first control potential VC1 according to the second control potential VC2. The first end of the third resistor R3 is coupled to an eleventh node N11, and the second end of the third resistor R3 is coupled to the ground potential VSS.
發光元件290可包括串聯於輸出節點NOUT和第十一節點N11之間之一或複數個發光二極體。發光二極體之總數量在本發明中並不特別作限制。在另一些實施例中,前述發光二極體亦可改為次毫米發光二極體(Mini LED)、微發光二極體(Micro LED),或是有機發光二極體(Organic LED,OLED),但亦不僅限於此。例如,若輸出電位VOUT為高邏輯位準,則發光元件290將會產生一光線,而若輸出電位VOUT為低邏輯位準,則發光元件290將不會產生任何光線。詳細而言,發光元件290之閃爍百分比可如下列方程式(1)所述:The light emitting element 290 may include one or a plurality of light emitting diodes connected in series between the output node NOUT and the eleventh node N11. The total number of light-emitting diodes is not particularly limited in the present invention. In other embodiments, the aforementioned light-emitting diodes can also be changed to sub-millimeter light-emitting diodes (Mini LED), micro-light-emitting diodes (Micro LED), or organic light-emitting diodes (Organic LED, OLED) , But it's not limited to this. For example, if the output potential VOUT is at a high logic level, the light emitting element 290 will generate a light, and if the output potential VOUT is at a low logic level, the light emitting element 290 will not generate any light. In detail, the flicker percentage of the light-emitting element 290 can be as described in the following equation (1):
…………………………………………….(1)其中「P」代表發光元件290之閃爍百分比,「A」代表輸出電位VOUT之極大值,而「B」代表輸出電位VOUT之極小值。 ………………………………………. (1) “P” represents the flicker percentage of the light-emitting element 290, “A” represents the maximum value of the output potential VOUT, and “B” represents the output The minimum value of the potential VOUT.
在一些實施例中,監控電路251可先偵測輸出電位VOUT之極小值,再根據目標閃爍百分比和輸出電位VOUT之極小值來估算出輸出電位VOUT之目標極大值,其即可設定成為前述之臨界電位VTH。例如,若將目標閃爍百分比定為20%,則根據方程式(1),監控電路251將可推得「」之結論,亦即,輸出電位VOUT之目標極大值可等於輸出電位VOUT之極小值之1.5倍,而臨界電位VTH可設定為輸出電位VOUT之目標極大值。一般來說,若發光元件290之閃爍百分比越低(例如:低於或等於20%),則人眼將越不容易察覺其頻閃現象。In some embodiments, the
在一些實施例中,驅動裝置200之操作原理可如下列所述。若輸出電位VOUT高於臨界電位VTH,則第一控制電位VC1可為高邏輯位準且第二控制電位VC2可為低邏輯位準,以致能第二電晶體M2並禁能第三電晶體M3。此時,一分支電流IDIV將由輸出節點NOUT經過第一電阻器R1、第二電晶體M2,以及第二電阻器R2(亦即,前述之輔助電流路徑)流至接地電位VSS,使得通過發光元件290之一輸出電流IOUT降低。反之,若輸出電位VOUT低於臨界電位VTH,則第一控制電位VC1可為低邏輯位準且第二控制電位VC2可為高邏輯位準,以禁能第二電晶體M2並致能第三電晶體M3。此時,前述分支電流IDIV將會快速下降為0,使得通過發光元件290之輸出電流IOUT提高。In some embodiments, the operating principle of the
第3圖係顯示根據本發明一實施例所述之驅動裝置200之輸出電流IOUT之波形圖,其中一第一曲線CC1代表驅動裝置200未使用輸出級電路250時之輸出電流IOUT,而一第二曲線CC2代表驅動裝置200已使用輸出級電路250時之輸出電流IOUT。第4圖係顯示根據本發明一實施例所述之驅動裝置200之輸出電位VOUT之波形圖,其中一第三曲線CC3代表驅動裝置200未使用輸出級電路250時之輸出電位VOUT,而一第四曲線CC4代表驅動裝置200已使用輸出級電路250時之輸出電位VOUT。根據第3、4圖之量測結果可知,在使用所提之輸出級電路250來動態地微調輸出電流IOUT後,驅動裝置200之輸出電流IOUT和輸出電位VOUT兩者之極大值均同時下降,使得發光元件290將可具有較低之閃爍百分比(其趨近於目標閃爍百分比)。Figure 3 shows a waveform diagram of the output current IOUT of the
在一些實施例中,驅動裝置200之元件參數可如下列所述。第一電阻器R1之電阻值可介於9kΩ至11kΩ之間,較佳為10kΩ。第二電阻器R2之電阻值可介於45kΩ至55kΩ之間,較佳為50kΩ。第三電阻器R3之電阻值可介於423Ω至517Ω之間,較佳為470Ω。第一電容器C1之電容值可介於96μF至144μF之間,較佳為120μF。第二電容器C2之電容值可介於1200μF至1800μF之間,較佳為1500μF。主線圈231對副線圈232之匝數比值可介於1至40之間,較佳為20。副線圈232對輔助線圈233之匝數比值可介於1至3之間,較佳為1.33。以上參數範圍係根據多次實驗結果而得出,其有助於最佳化驅動裝置200之轉換效率及有效抑制頻閃現象。In some embodiments, the component parameters of the
本發明提出一種新穎之驅動裝置,其包括可限制發光元件之閃爍百分比之輸出級電路。根據實際量測結果,使用前述輸出級電路可抑制對應發光元件之非理想頻閃,以降低使用者之眼睛疲勞不適感。大致而言,本發明之驅動裝置不易受到一般市電低頻雜訊之負面影響,故其很適合應用於各種各式之電子裝置當中。The present invention provides a novel driving device, which includes an output stage circuit that can limit the flicker percentage of the light-emitting element. According to the actual measurement results, the use of the aforementioned output stage circuit can suppress the non-ideal flicker of the corresponding light-emitting element, thereby reducing the user's eye fatigue and discomfort. Generally speaking, the driving device of the present invention is not susceptible to the negative effects of general low-frequency noise from the mains, so it is very suitable for use in various types of electronic devices.
值得注意的是,以上所述之電位、電流、電阻值、電感值、電容值,以及其餘元件參數均非為本發明之限制條件。設計者可以根據不同需要調整這些設定值。本發明之驅動裝置並不僅限於第1-4圖所圖示之狀態。本發明可以僅包括第1-4圖之任何一或複數個實施例之任何一或複數項特徵。換言之,並非所有圖示之特徵均須同時實施於本發明之驅動裝置當中。雖然本發明之實施例係使用金氧半場效電晶體為例,但本發明並不僅限於此,本技術領域人士可改用其他種類之電晶體,例如:接面場效電晶體,或是鰭式場效電晶體等等,而不致於影響本發明之效果。It is worth noting that the above-mentioned potential, current, resistance value, inductance value, capacitance value, and other component parameters are not the limiting conditions of the present invention. The designer can adjust these settings according to different needs. The driving device of the present invention is not limited to the state illustrated in Figs. 1-4. The present invention may only include any one or more of the features of any one or more of the embodiments shown in FIGS. 1-4. In other words, not all the features shown in the figures need to be implemented in the driving device of the present invention at the same time. Although the embodiment of the present invention uses metal oxide half field effect transistors as an example, the present invention is not limited to this. Those skilled in the art can use other types of transistors, such as junction field effect transistors or fins. Type field effect transistors, etc., without affecting the effect of the present invention.
在本說明書以及申請專利範圍中的序數,例如「第一」、「第二」、「第三」等等,彼此之間並沒有順序上的先後關係,其僅用於標示區分兩個具有相同名字之不同元件。The ordinal numbers in this specification and the scope of the patent application, such as "first", "second", "third", etc., do not have a sequential relationship with each other, and they are only used to distinguish two having the same Different components of the name.
本發明雖以較佳實施例揭露如上,然其並非用以限定本發明的範圍,任何熟習此項技藝者,在不脫離本發明之精神和範圍內,當可做些許的更動與潤飾,因此本發明之保護範圍當視後附之申請專利範圍所界定者為準。Although the present invention is disclosed as above in the preferred embodiment, it is not intended to limit the scope of the present invention. Anyone who is familiar with the art can make some changes and modifications without departing from the spirit and scope of the present invention. Therefore, The scope of protection of the present invention shall be subject to those defined by the attached patent scope.
100、200:驅動裝置 110、210:橋式整流器 130、230:變壓器 131、231:主線圈 132、232:副線圈 133、233:輔助線圈 140、240:功率切換器 150、250:輸出級電路 160、260:控制器 190、290:發光元件 251:監控電路 252:第一比較器 253:第二比較器 C1:第一電容器 C2:第二電容器 CC1:第一曲線 CC2:第二曲線 CC3:第三曲線 CC4:第四曲線 D1:第一二極體 D2:第二二極體 D3:第三二極體 D4:第四二極體 D5:第五二極體 D6:第六二極體 IDIV:分支電流 IOUT:輸出電流 M1:第一電晶體 M2:第二電晶體 M3:第三電晶體 N1:第一節點 N2:第二節點 N3:第三節點 N4:第四節點 N5:第五節點 N6:第六節點 N7:第七節點 N8:第八節點 N9:第九節點 N10:第十節點 N11:第十節點 NIN1:第一輸入節點 NIN2:第二輸入節點 NOUT:輸出節點 R1:第一電阻器 R2:第二電阻器 R3:第三電阻器 VA:時脈電位 VC1:第一控制電位 VC2:第二控制電位 VCC:供應電位 VIN1:第一輸入電位 VIN2:第二輸入電位 VOUT:輸出電位 VR:整流電位 VS:變壓電位 VSS:接地電位 VTH:臨界電位100, 200: drive device 110, 210: Bridge rectifier 130, 230: Transformer 131, 231: main coil 132, 232: secondary coil 133, 233: auxiliary coil 140, 240: power switch 150, 250: output stage circuit 160, 260: Controller 190, 290: light-emitting element 251: Monitoring Circuit 252: first comparator 253: second comparator C1: The first capacitor C2: second capacitor CC1: the first curve CC2: second curve CC3: third curve CC4: fourth curve D1: The first diode D2: The second diode D3: The third diode D4: The fourth diode D5: Fifth diode D6: The sixth diode IDIV: branch current IOUT: output current M1: The first transistor M2: second transistor M3: third transistor N1: the first node N2: second node N3: third node N4: Fourth node N5: fifth node N6: sixth node N7: seventh node N8: The eighth node N9: Ninth node N10: Tenth node N11: Tenth node NIN1: the first input node NIN2: second input node NOUT: output node R1: first resistor R2: second resistor R3: third resistor VA: clock potential VC1: The first control potential VC2: second control potential VCC: supply potential VIN1: the first input potential VIN2: second input potential VOUT: output potential VR: Rectified potential VS: Variable voltage potential VSS: Ground potential VTH: critical potential
第1圖係顯示根據本發明一實施例所述之驅動裝置之示意圖。 第2圖係顯示根據本發明一實施例所述之驅動裝置之示意圖。 第3圖係顯示根據本發明一實施例所述之驅動裝置之輸出電流之波形圖。 第4圖係顯示根據本發明一實施例所述之驅動裝置之輸出電位之波形圖。Fig. 1 is a schematic diagram showing a driving device according to an embodiment of the present invention. Fig. 2 is a schematic diagram showing the driving device according to an embodiment of the present invention. Fig. 3 is a waveform diagram showing the output current of the driving device according to an embodiment of the present invention. Fig. 4 is a waveform diagram showing the output potential of the driving device according to an embodiment of the present invention.
100:驅動裝置 100: drive device
110:橋式整流器 110: Bridge rectifier
130:變壓器 130: Transformer
131:主線圈 131: main coil
132:副線圈 132: Secondary coil
133:輔助線圈 133: auxiliary coil
140:功率切換器 140: power switch
150:輸出級電路 150: output stage circuit
160:控制器 160: Controller
190:發光元件 190: Light-emitting element
C1:第一電容器 C1: The first capacitor
IOUT:輸出電流 IOUT: output current
VA:時脈電位 VA: clock potential
VIN1:第一輸入電位 VIN1: the first input potential
VIN2:第二輸入電位 VIN2: second input potential
VOUT:輸出電位 VOUT: output potential
VR:整流電位 VR: Rectified potential
VS:變壓電位 VS: Variable voltage potential
VSS:接地電位 VSS: Ground potential
VTH:臨界電位 VTH: critical potential
Claims (10)
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