201110810 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種發光二極體照明器及其亮度控制介面。具體 而言,本發明係關於一種可因應一使用者之觸碰時間調整亮度之 發光二極體照明器及其亮度控制介面。 【先前技術】 人們以往係利用煤油或者火把所提供之照明,進行夜間之舌 動,惟透過煤油或者火把所提供照明之品質並不穩定及持久但 隨著電力照明器的發明,前述照明品質不穩定及持久之缺點已被 大幅改善,再加上近年來照明科技的進步,電力照明器中所用之 燈泡將逐漸被發光二極體取代係為未來照明器之趨勢。 就目剛市面上所見之 β ........... 六仍你以燈泡或燈管子 為提供照明之主要手段,惟燈泡或燈管料電力之使用上係較^ 具效率的。再者’習知照明器控制照明亮暗程度之控制器通 機械式旋紐開關’使用者需藉由施以 ^ 以轉動其餘L^暗之目/力錄^開關上, —下,::摩:二 :=轉力矩於機械雛開關上以調整照明器亮度之方者二 上更具效率,且提供使用 仍係為該領域之業者亟需 综上所述’如何使照明器於電能使用 者一較為簡便且直覺之亮度控制方式, 解決之問題。 【發明内容】 201110810 本發明之一目的在於提供一種發光二極體照明器及其亮度控制 介面。一使用者可透過該亮度控制介面調整該發光二極體照明器 之売度,以提供該使用者適當之照明。 為達上述目的,本發明之發光二極體照明器包含至少一發光二 極體、一電源供應器、該亮度控制介面以及一控制器。該電源供 應器係與該至少一發光二極體呈電性連接,以提供一電流至該至 少一發光二極體,該亮度控制介面用以感測一使用者之一觸碰時 間以產生一控制訊號,該控制器係與該照明亮度控制介面以及 該電源供應器呈電性連接,用以根據該控制訊號產生一調變訊 號,該電源供應器係可根據該調變訊號調整該電流之一強度,俾 該至少一發光二極體可根據該電流之強度,產生一相對應之亮度。 又,為達上述目的,本發明之發光二極體照明器,係與該亮度 控制介面呈電性連接,該《度控制介面用以感測-使用者之一觸 碰時間,以產生一控制訊號,該發光二極體照明器包含至少一發 光二極體、一電源供應器以及一控制器,該電源供應器係與該至 少—發光二極體呈電性連接,以提供一電流至該至少一發光二極 體,該控制器係與該照明亮度控·面以及該電源供應器呈電性 連接肖以根據該控制訊號產生__調變訊號,該電源供應器 根據該調變訊號調整該電流之—強度,俾該至少—發光二極體可 根據該電流之強度,產生一相對應之亮度。 者為達别述目的,本發明之亮度控制介面,係可與一發光 -極體照明器呈電性連接,該亮度控制介面包含_觸碰感測器以 及—控制器,該觸碰感測器用以感測一使用者之—觸碰時間,以 201110810 產生一感測訊號,該控制器係與該觸碰感測器呈電性連接,用以 根據該感測訊號產生一控制訊號,俾該發光二極體照明器可根據 該控制訊號產生一相對應之亮度。 綜上所述,本發明之亮度控制介面係可感測使用者之觸碰時 間,以調整發光二極體照明器之照明亮度,換言之,透過本發明, 使用者在不需施以額外旋轉力矩之情況下,即可以觸控方式達成 控制發光二極體照明器亮度之功效,且該觸碰式之亮度控制介面 與機械式旋鈕開關相較之下更具有較不易損耗之優點,藉此習知 技術之缺點得以被有效克服。 在參閱圖式及隨後描述之實施方式後,該技術領域具有通常知 識者便可瞭解本發明之其他目的,以及本發明之技術手段及實施 態樣。 【實施方式】 本發明之第一實施例如第1圖所示,其係為一發光二極體照明 器1之示意圖,發光二極體照明器1係可設置於一室内或室外之 環境,以提供處於該環境之使用者照明之用,發光二極體照明器1 包含至少一發光二極體11、一電源供應器13、一亮度控制介面15 以及一第一控制器17。第一控制器17與照明亮度控制介面15以 及電源供應器13呈電性連接,且電源供應器12更與至少一發光 二極體11呈電性連接,以提供一電流130至至少一發光二極體 11,俾至少一發光二極體11可藉由電流130所提供之能量發光。 亮度控制介面14係用以感測使用者之一觸碰時間,以產生一控 制訊號150,第一控制器17係可根據控制訊號150產生一調變訊 201110810 號170至電源供應器13,電源供應器13可根據調變訊號170調整 電流130之一強度,俾至少一發光二極體11可根據電流130之強 度,產生一相對應之亮度,以達成使用者藉由觸碰之方式,調整 發光二極體照明器1之至少一發光二極體11亮度之目的。 詳言之,亮度控制介面15包含一觸碰感測器151及一第二控制 器153,第二控制器153係與觸碰感測器151呈電性連接。使用者 欲調整亮度時,係可觸碰亮度控制介面15,觸碰感測器151係可 立即感測使用者之觸碰時間,以產生一相對應之感測訊號152。於 感測訊號152產生後,第二控制器153係用以根據感測訊號152 產生控制訊號150,接下來如前所述,第一控制器17係可根據控 制訊號150,使電源供應器13調整電流130之強度。 需注意者,於本實施例中,控制訊號104係可為一脈波寬度調 變訊號,第一控制器17以及第二控制器153各可為一 FPGA、DSP 或是市面所供給之控制晶片,觸碰感測器141係可為一電容式觸 碰感測器,於其他實施例中,觸碰感測器141係可為其他類型之 觸碰感測器,並不以此為限。 為更彰顯發光二極體照明器1之技術特徵,以下將以一例舉作 說明,假設目前發光二極體照明器1係設置於一室内環境中以提 供照明,目前發光二極體照明器1之發光二極體11所發出之亮度 係為1燭光,且當亮度控制介面15之觸碰感測器151每被觸碰0.5 秒時,發光二極體照明器1之發光二極體11所發出之亮度將會隨 之增加1燭光之亮度。在此假設之下,當處於該室内環境之使用 者覺得室内照明亮度不足時,便可持續接觸亮度控制介面15之觸 201110810 碰感測器151,使其持續感測被觸碰。 舉例而言,當使用者係持續觸碰5秒時,觸碰感測器151係因 感測其持續被觸碰,產生感測訊號152,第二控制器153便根據感 測訊號152,產生控制訊號150至第一控制器17,俾第一控制器 17根據控制訊號150產生調變訊號170。接下來,電源供應器13 便根據調變訊號170調整電流130之強度,以使發光二極體照明 器1之發光二極體11可根據電流130調整後之強度,產生相對應 11燭光之亮度。 本發明之第二實施例如第2圖所示,其係為一發光二極體照明 系統2之示意圖,發光二極體照明系統2包含一發光二極體照明 器3以及一亮度控制介面15,發光二極體照明器3係與亮度控制 介面15呈電性連接,於本實施例中,亮度控制介面15係包含一 觸碰感測器151以及一控制器157,發光二極體照明器3係包含至 少一發光二極體11、一電源供應器13以及控制器19。 需說明者,亮度控制介面15之控制器157所具之功能係與第一 實施例所述之第二控制器153相同,發光二極體照明器3之控制 器19所具之功能亦與第一實施例所載之第一控制器17相同,據 此,亮度控制介面15之控制器157亦可根據觸碰感測器151所產 生之感測訊號152,產生控制訊號150,接著,發光二極體照明器 3之控制器19亦可根據控制訊號150產生調變訊號170,控制訊 號150以及調變訊號170之作用係已於第一實施例中敘明,在此 不再贅述。 再者,由第2圖可知,本實施例之發光二極體照明器3以及亮 201110810 度控制介面15係可分別設置於一室内或室外環境中之不同處,例 如發光二極體照明器3可設置於一辦公室之天花板,以達到最佳 之照明效果,亮度控制介面15係可設置於牆上,以方便使用者透 過亮度控制介面15調整發光二極體照明器3之亮度,所屬領域具 有通常知識者可根據第一實施例所載之内容,了解其與第二實施 例之相異處,故在此不再贅述。 综上所述,本發明之亮度控制介面係可感測使用者之觸碰時 間,以調整發光二極體照明器之照明亮度,換言之,透過本發明, 使用者在不需施以額外旋轉力矩之情況下,即可以觸控方式達成 控制發光二極體照明器亮度之功效,且該觸碰式之亮度控制介面 與機械式旋鈕開關相較之下更具有較不易損耗之優點,藉此習知 技術之缺點得以被有效克服。 上述之實施例僅用來例舉本發明之實施態樣,以及闡釋本發明 之技術特徵,並非用來限制本發明之保護範疇。任何熟悉此技術 者可輕易完成之改變或均等性之安排均屬於本發明所主張之範 圍,本發明之權利保護範圍應以申請專利範圍為準。 【圖式簡單說明】 第1圖係為本發明之第一實施例之一示意圖;以及 第2圖係為本發明之第二實施例之一示意圖。 【主要元件符號說明】 1 :發光二極體照明器 11 :發光二極體 13 :電源供應器 130 :電流 201110810 15:亮度控制介面 151 :觸碰感測器 153 :第二控制器 17 :第一控制器 19 :控制器 150 :控制訊號 152 :感測訊號 157 :控制器 170 :調變訊號 2 :發光二極體照明系統 3:發光二極體照明器201110810 VI. Description of the Invention: [Technical Field] The present invention relates to a light-emitting diode illuminator and a brightness control interface thereof. In particular, the present invention relates to a light-emitting diode illuminator and a brightness control interface thereof that are capable of adjusting brightness in response to a user's touch time. [Prior Art] In the past, the lighting provided by kerosene or torch was used to make tongue movement at night, but the quality of illumination provided by kerosene or torch was unstable and long lasting. However, with the invention of electric illuminators, the aforementioned lighting quality is not The shortcomings of stability and durability have been greatly improved. Coupled with the advancement of lighting technology in recent years, the light bulbs used in electric illuminators will gradually be replaced by light-emitting diodes as the trend of future illuminators. As you can see on the market, you can use the bulb or the lamp tube as the main means of providing illumination, but the use of light or lamp material is more efficient. of. Furthermore, the controller of the conventional illuminator controls the brightness of the illumination through the mechanical rotary knob. The user needs to turn the remaining L^dark/force recording switch by applying ^, -, :: Mo: 2: = Torque on the mechanical switch to adjust the brightness of the illuminator on the second side is more efficient, and the use of the system is still in the field of the industry, need to sum up the above - how to make the illuminator use electricity A simpler and intuitive brightness control method to solve the problem. SUMMARY OF THE INVENTION 201110810 One object of the present invention is to provide a light-emitting diode illuminator and a brightness control interface thereof. A user can adjust the brightness of the LED illuminator through the brightness control interface to provide appropriate illumination for the user. To achieve the above object, the LED illuminator of the present invention comprises at least one light emitting diode, a power supply, the brightness control interface, and a controller. The power supply is electrically connected to the at least one light emitting diode to provide a current to the at least one light emitting diode, wherein the brightness control interface is configured to sense a touch time of a user to generate a a control signal, the controller is electrically connected to the illumination brightness control interface and the power supply, and is configured to generate a modulation signal according to the control signal, and the power supply can adjust the current according to the modulation signal An intensity, the at least one light emitting diode can generate a corresponding brightness according to the intensity of the current. Moreover, in order to achieve the above object, the LED illuminator of the present invention is electrically connected to the brightness control interface, and the “degree control interface is used for sensing one of the user's touch time to generate a control. The light emitting diode illuminator includes at least one light emitting diode, a power supply, and a controller, the power supply being electrically connected to the at least two light emitting diodes to provide a current to the At least one light-emitting diode, the controller is electrically connected to the illumination control surface and the power supply to generate a __ modulation signal according to the control signal, and the power supply is adjusted according to the modulation signal The intensity of the current, 俾 the at least the light emitting diode, can produce a corresponding brightness according to the intensity of the current. For the purpose of the invention, the brightness control interface of the present invention can be electrically connected to a light-emitting body illuminator, and the brightness control interface comprises a touch sensor and a controller, and the touch sensing The device is configured to sense a touch time of a user to generate a sensing signal at 201110810. The controller is electrically connected to the touch sensor for generating a control signal according to the sensing signal. The LED illuminator can generate a corresponding brightness according to the control signal. In summary, the brightness control interface of the present invention can sense the touch time of the user to adjust the illumination brightness of the LED illuminator, in other words, through the invention, the user does not need to apply additional rotation torque. In the case of the touch mode, the brightness of the light-emitting diode illuminator can be controlled, and the touch-type brightness control interface has the advantage of being less prone to wear than the mechanical knob switch. The shortcomings of knowing technology can be effectively overcome. Other objects of the present invention, as well as the technical means and embodiments of the present invention, will be apparent to those of ordinary skill in the art. [Embodiment] A first embodiment of the present invention is shown in FIG. 1 , which is a schematic diagram of a light-emitting diode illuminator 1 , and the light-emitting diode illuminator 1 can be disposed in an indoor or outdoor environment. Providing illumination for the user in the environment, the LED illuminator 1 includes at least one LED 11, a power supply 13, a brightness control interface 15, and a first controller 17. The first controller 17 is electrically connected to the illumination brightness control interface 15 and the power supply 13 , and the power supply 12 is further electrically connected to the at least one LED 11 to provide a current 130 to at least one illumination. The polar body 11, the at least one light-emitting diode 11 can emit light by the energy provided by the current 130. The brightness control interface 14 is configured to sense a touch time of the user to generate a control signal 150. The first controller 17 can generate a tone change signal 201110810 170 to the power supply 13 according to the control signal 150. The supplier 13 can adjust the intensity of the current 130 according to the modulation signal 170, and at least one of the LEDs 11 can generate a corresponding brightness according to the intensity of the current 130, so as to achieve adjustment by the user by touch. The purpose of the brightness of at least one of the light-emitting diodes 11 of the light-emitting diode illuminator 1. In detail, the brightness control interface 15 includes a touch sensor 151 and a second controller 153. The second controller 153 is electrically connected to the touch sensor 151. When the user wants to adjust the brightness, the brightness control interface 15 is touched, and the touch sensor 151 can immediately sense the touch time of the user to generate a corresponding sensing signal 152. After the sensing signal 152 is generated, the second controller 153 is configured to generate the control signal 150 according to the sensing signal 152. Next, as described above, the first controller 17 can enable the power supply 13 according to the control signal 150. Adjust the intensity of current 130. It should be noted that, in this embodiment, the control signal 104 can be a pulse width modulation signal, and the first controller 17 and the second controller 153 can each be an FPGA, a DSP, or a control chip supplied by the market. The touch sensor 141 can be a capacitive touch sensor. In other embodiments, the touch sensor 141 can be other types of touch sensors, and is not limited thereto. In order to further highlight the technical features of the LED illuminator 1, the following will be described by way of example. It is assumed that the current LED illuminator 1 is installed in an indoor environment to provide illumination. Currently, the LED illuminator 1 is provided. The brightness emitted by the light-emitting diode 11 is 1 candle, and when the touch sensor 151 of the brightness control interface 15 is touched for 0.5 seconds, the light-emitting diode 11 of the light-emitting diode illuminator 1 is The brightness emitted will increase by 1 candle. Under this assumption, when the user in the indoor environment feels that the brightness of the indoor lighting is insufficient, the contact of the brightness control interface 15 is continuously contacted, and the sensor 151 is touched so that the continuous sensing is touched. For example, when the user continuously touches for 5 seconds, the touch sensor 151 generates a sensing signal 152 by sensing that it is continuously touched, and the second controller 153 generates the sensing signal 152 according to the sensing signal 152. The control signal 150 is sent to the first controller 17, and the first controller 17 generates the modulation signal 170 according to the control signal 150. Next, the power supply 13 adjusts the intensity of the current 130 according to the modulation signal 170, so that the light-emitting diode 11 of the LED illuminator 1 can be adjusted according to the intensity of the current 130 to generate a brightness corresponding to 11 candles. . The second embodiment of the present invention is shown in FIG. 2 , which is a schematic diagram of a light-emitting diode illumination system 2 . The LED illumination system 2 includes a light-emitting diode illuminator 3 and a brightness control interface 15 . The light-emitting diode illuminator 3 is electrically connected to the brightness control interface 15. In the embodiment, the brightness control interface 15 includes a touch sensor 151 and a controller 157, and the light-emitting diode illuminator 3 The system includes at least one light emitting diode 11, a power supply 13 and a controller 19. It should be noted that the controller 157 of the brightness control interface 15 has the same function as the second controller 153 described in the first embodiment, and the controller 19 of the LED illuminator 3 has the same function. The first controller 17 is the same as the first controller 17. The controller 157 of the brightness control interface 15 can also generate the control signal 150 according to the sensing signal 152 generated by the touch sensor 151. The controller 19 of the polar illuminator 3 can also generate the modulation signal 170 according to the control signal 150. The functions of the control signal 150 and the modulation signal 170 are described in the first embodiment, and are not described herein again. Furthermore, as can be seen from FIG. 2, the LED illuminator 3 and the bright 201110810 degree control interface 15 of the present embodiment can be respectively disposed at different places in an indoor or outdoor environment, such as the LED illuminator 3. It can be set in the ceiling of an office to achieve the best lighting effect. The brightness control interface 15 can be set on the wall to facilitate the user to adjust the brightness of the LED illuminator 3 through the brightness control interface 15 . A person skilled in the art can understand the difference from the second embodiment according to the content of the first embodiment, and therefore no further details are provided herein. In summary, the brightness control interface of the present invention can sense the touch time of the user to adjust the illumination brightness of the LED illuminator, in other words, through the invention, the user does not need to apply additional rotation torque. In the case of the touch mode, the brightness of the light-emitting diode illuminator can be controlled, and the touch-type brightness control interface has the advantage of being less prone to wear than the mechanical knob switch. The shortcomings of knowing technology can be effectively overcome. The embodiments described above are only intended to illustrate the embodiments of the present invention, and to explain the technical features of the present invention, and are not intended to limit the scope of the present invention. Any changes or equivalents that can be easily made by those skilled in the art are within the scope of the invention. The scope of the invention should be determined by the scope of the claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a first embodiment of the present invention; and Fig. 2 is a schematic view showing a second embodiment of the present invention. [Main component symbol description] 1 : Light-emitting diode illuminator 11 : Light-emitting diode 13 : Power supply 130 : Current 201110810 15: Brightness control interface 151 : Touch sensor 153 : Second controller 17 : A controller 19: controller 150: control signal 152: sensing signal 157: controller 170: modulation signal 2: LED illumination system 3: LED illuminator