M404926 五、新型說明: 【新型所屬之技術領域】 本創作係有關一種固態光源之燈芯模組與發光裝 置,尤指一種模組化的固態光源之燈芯模組與及其發光裝 置。 .【先前技術】 v 發光二極體所具有之省電、環保、高效率的特性,讓 • 發光二極體已普遍運用在交通號誌、3C商品或汽車領域等 各式產品上5目前發光二極體在電源的搭配上主要分為兩 類: 一者為直流電發光二極體(DC LED),直流電發光二 極體在使用上必須搭配AC/DC轉換器,而轉換器之成本 將造成整體系統成本過高,且電流經過AC/DC轉換器也 會使系統的發光效率折損約15至30%。另一方面,AC/DC 轉換器係為一種隨著時間老化的電子元器件,其壽命比發 φ 光二極體本身更短,故目前家用之發光二極體燈具之損 _ 壞,並非發光二極體的操作壽命過短,而是所使用的 AC/DC轉換器故障所導致。 再一為交流電發光二極體(AC LED),交流電發光二 極體不需使用外接之電流器轉換器,但由於交流電發光二 極體所採用的橋式整流器直接整合於晶粒上,其利用發光 二極體之PN介面的二極體特性兼作整流,故所形成之橋 式整流器佔用過多之晶粒空間,使得交流電發光二極體的 發光效率仍一直未能突破60 lm/W,造成交流電發光二極 3/12 M404926 體仍無法應用於高單位流明瓦需求的照明市場。 而目前交流電發光二極體的研發重點主要在於提高 交流電發光二極體的發光特性及製程上的改良,例如發光 效率不足、成本問題等缺點都亟待克服。 另一方面,由於全球照明市場有2/3為暖白光照明的 需求,冷白光市場只佔1/3,因此,室内照明市場的開發 則必須依賴暖白光產品研發以及演色性的提升,方能大量 的擴充市場需求。 本案創作人有鑑於上述習用的結構裝置於實際施用 時的缺失,且積累個人從事相關產業開發實務上多年之經 驗,精心研究,终於提出一種設計合理且有效改善上述問 題之結構。 【新型内容】 本創作實施例係提供一種固態光源之燈芯模組,包 含:一基板;一設於該基板上之高壓穩流晶片;至少一設 於該基板上且電連接於該高壓穩流晶片之第一高壓驅動 發光二極體;以及至少一設於該基板上且電連接於該高壓 穩流晶片之第二高壓驅動發光二極體。 本創作實施例更提供一種發光裝置,包含:一燈座; 一設於該燈座上之殼體,該殼體與該燈座形成一容置空 間;一設於該燈座上而容置於該容置空間中的固態光源之 燈芯模組,其包括:一基板;一設於該基板上之高壓穩流 晶片;至少一設於該基板上且電連接於該高壓穩流晶片之 第一高壓驅動發光二極體;以及至少一設於該基板上且電 4/12 連接於該高壓穩流晶片之第二高壓驅動發光二極體。 如上述構造,本創作利用高壓穩流晶片與高壓驅動發 ::極體輸己’達到將電壓匹配於發光二極體之順向導 ’紅賴較佳的發光效果;另外,本創作可解決 :統先使用橋接整合器將交流電職為直流電,再驅動^ 光一極體所造成的電源耗損及產生熱量的問題。 χ 、為使能更進一步瞭解本創作之特徵及技術内容,請參 閱^下有關本創作之詳細說明與附圖’然而所附圖式僅提 ί、>考與5兒明用,並非用來對本創作加以限制者。 【實施方式】 一本創作提出一種固態光源之燈芯模組及其發光裝 置’該燈芯模組可利用高壓穩流晶片(Hv】c)與高壓驅 動發光二極體(Hv LED)的搭配,以解決傳統先使用橋 接整合為將交流電轉換為直流電,再驅動發光二極體所造 成的電源耗損、散熱等問題。 ° 請參考圖1A所示,本創作之固態光源之燈芯模組 1 ’其包括基板1 〇、高壓穩流晶片1 1、第一高壓驅動 發光二極體i 2及第二高壓驅動發光二極體丄3 ’以下將 詳細說明本創作之固態光源之燈芯模組丄的各個構件。 基板1 0係為承載晶片與發光二極體的載板,其為一 印刷有線路之載板,而在本具體實施例中,基板丄〇係為 一種絕緣之陶瓷基板,其可具有較佳的散熱及耐高壓 性。 局壓穩流晶片1 1、第一高壓驅動發光二極體1 2及 M404926 第二高壓驅動發光二極體1 3均設置於基板丄〇上而形 成一模組化的裝置,高壓穩流晶片1 1、第一高壓驅動發 光一極體1 2及第一咼壓驅動發光二極體1 3可利用基 板1 0上的線路1 〇 1加以串接,其中高壓穩流晶片1工 可直接用於接收外部輸入之高交流電壓,以取代傳統利用 橋接整合器將交流電轉換為直流電的功能。 再者,本實施例之第一高壓驅動發光二極體^ 2及第 一同壓驅動發光二極體1 3係為SMD封裝態樣,其屬於 固恶光源,兩者均電連接於高壓穩流晶片丄丄,故高壓穩 流晶二1 1可輸出相對應於第一高壓驅動發光二極體^ 2及第二高壓驅動發光二極體λ 3之規格的電源,使第一 高壓驅動發光二極體i 2及第二高壓驅動發光二極體丄 3可產生發光的效果。而圖丨B顯示c〇B封裝態樣的第一 高壓驅動發光二極體12及第二高壓驅動發光二極體丄 3 ’然本創作不以此為限。 為了達到白光的光源效果,本發明係湘藍光與紅光 =己合形成混成白光,在本具體實施例中,第—高壓驅動 一極體1 2係、為高壓驅動之藍光發光二極體,例如一 士尤一柽肖且,而弟二向壓驅動發光二極體 2驅動之紅光發光二極體,例如—種A1⑽nP = = 言之,本創作利用藍光之發光二極體配 模組的發光效率。另一方面…a %且了“發明 述藍光發光二極體(即第到較佳之暖白光,上 數量係大於等於紅光二:動!光二極體12)的 九—極體(即第二高壓驅動發光二 6/12 M404926 極體1 3 )的數量,例如圖丨所示之固態光源之燈芯模組 1具有四個監光發光—極體及兩個紅光發光二極體,其可 達到2700至3500K之暖白光的發光效果,倥圖丨僅為一 種實施態樣,在其他實施態樣_ ’藍光發光二極體與紅光 發光二極體更可分別為五個與三個、或是八個與四個。M404926 V. New Description: [New Technology Field] This creation is about a wick module and illuminating device for solid-state light sources, especially a holographic module with a modular solid-state light source and its illuminating device. [Prior Art] v Light-emitting diodes have the characteristics of power saving, environmental protection and high efficiency. The light-emitting diodes have been widely used in various products such as traffic signs, 3C products or automotive fields. Diodes are mainly divided into two categories in the power supply: one is a DC LED (DC LED), the DC LED must be used with an AC/DC converter, and the cost of the converter will cause The overall system cost is too high, and the current through the AC/DC converter will also reduce the luminous efficiency of the system by about 15 to 30%. On the other hand, the AC/DC converter is an electronic component that ages over time, and its lifetime is shorter than that of the φ photodiode itself. Therefore, the damage of the current household LED lamp is not good, not the second. The operating life of the polar body is too short, but is caused by the failure of the AC/DC converter used. The other is an alternating current light emitting diode (AC LED). The alternating current light emitting diode does not need to use an external current transformer, but since the bridge rectifier used in the alternating current light emitting diode is directly integrated on the die, the utilization thereof is utilized. The diode characteristics of the PN interface of the light-emitting diode also serve as rectification, so the bridge rectifier formed occupies too much grain space, so that the luminous efficiency of the AC light-emitting diode has not broken through 60 lm/W, resulting in AC power. The LED 2/12 M404926 body is still not suitable for the lighting market with high unit flow demand. At present, the research and development of the AC light-emitting diodes mainly focuses on improving the light-emitting characteristics and process improvements of the AC light-emitting diodes, such as insufficient luminous efficiency and cost problems, which are urgently to be overcome. On the other hand, because 2/3 of the global lighting market is demanding warm white lighting, the market of cold white light only accounts for 1/3. Therefore, the development of the indoor lighting market must rely on the development of warm white light products and the improvement of color rendering. A large number of expansion market demand. In view of the lack of the above-mentioned conventional structural devices in actual application, and the accumulation of personal experience in the relevant industry development practice, the creators of this case have finally proposed a structure that is reasonable in design and effective in improving the above problems. [New Content] The present invention provides a wick module for a solid-state light source, comprising: a substrate; a high-voltage steady-current wafer disposed on the substrate; at least one disposed on the substrate and electrically connected to the high-voltage steady current a first high voltage driving light emitting diode of the chip; and a second high voltage driving light emitting diode disposed on the substrate and electrically connected to the high voltage steady current chip. The present invention further provides a light-emitting device, comprising: a lamp holder; a housing disposed on the lamp holder, the housing and the lamp holder forming an accommodation space; and being disposed on the lamp holder for accommodating a wick module of the solid state light source in the accommodating space, comprising: a substrate; a high voltage steady current chip disposed on the substrate; at least one disposed on the substrate and electrically connected to the high voltage steady current chip a high voltage driving light emitting diode; and at least one second high voltage driving light emitting diode disposed on the substrate and electrically connected to the high voltage steady current chip. According to the above configuration, the present invention utilizes a high-voltage steady-current wafer and a high-voltage drive to emit: a polar body to achieve a light-matching effect of matching the voltage to the light-emitting diode. The first use of the bridge integrator to drive the AC power to DC power, and then drive the power loss and heat generation caused by the light body. 、 In order to further understand the characteristics and technical content of this creation, please refer to the detailed description and drawings of this creation. However, the drawings only mention ί, > To limit the creation of this creation. [Embodiment] A creation of a solid-state light source wick module and a illuminating device thereof can be realized by using a high-voltage steady-current chip (Hv) c and a high-voltage driving light-emitting diode (Hv LED). Solve the problem of power consumption and heat dissipation caused by the integration of bridges to convert AC power to DC power and then drive the LEDs. Please refer to FIG. 1A, the wick module 1' of the solid state light source of the present invention includes a substrate 1 〇, a high voltage steady current wafer 1 1 , a first high voltage driving light emitting diode i 2 and a second high voltage driving light emitting diode Body 3' The various components of the wick module of the solid state light source of the present invention will be described in detail below. The substrate 10 is a carrier substrate carrying a chip and a light emitting diode, which is a carrier board printed with a line. In the embodiment, the substrate is an insulating ceramic substrate, which may have better Heat dissipation and high pressure resistance. The pressure-stabilizing current chip 1 1 , the first high-voltage driving light-emitting diode 12 and the M404926 second high-voltage driving light-emitting diode 13 are all disposed on the substrate to form a modular device, and the high-voltage steady-current chip 1 1. The first high voltage driving light emitting body 1 2 and the first rolling driving light emitting diode 13 can be connected in series by the line 1 〇1 on the substrate 10, wherein the high voltage steady current wafer 1 can be directly used. It receives the high AC voltage of the external input to replace the traditional function of converting the AC power into DC power by using the bridge integrator. Furthermore, the first high-voltage driving light-emitting diode 2 and the first same-voltage driving light-emitting diode 13 in this embodiment are in the form of an SMD package, which belongs to a solid-solid light source, and both of them are electrically connected to a high-voltage stable state. The flow chip is 丄丄, so the high-voltage steady flow crystal 21 can output a power corresponding to the specifications of the first high-voltage driving light-emitting diode 2 and the second high-voltage driving light-emitting diode λ 3 to make the first high-voltage driving light The diode i 2 and the second high voltage driving light emitting diode 丄3 can produce an illuminating effect. Figure B shows the first high-voltage driving light-emitting diode 12 and the second high-voltage driving light-emitting diode 〇 3 ′ in the c〇B package aspect. In order to achieve the light source effect of white light, the present invention combines the blue light and the red light to form a mixed white light. In the specific embodiment, the first high voltage driving one pole body is a high voltage driven blue light emitting diode. For example, a red light emitting diode driven by a two-way voltage driving diode 2, for example, A1(10)nP = = in other words, the creation uses a blue light emitting diode module. Luminous efficiency. On the other hand...a% and the "nine-pole" (ie the second) of the invention of the blue light-emitting diode (ie, the preferred warm white light, the upper number is greater than or equal to the red light two: the moving light diode 12) The number of high-voltage driving light 6/12 M404926 polar body 1 3 ), for example, the solid-state light source wick module 1 shown in FIG. To achieve the luminous effect of warm white light of 2700 to 3500K, the image is only one implementation, and in other implementations, the blue light emitting diode and the red light emitting diode can be five and three respectively. Or eight or four.
因此,本創作係將高壓穩流晶片1 1 '第一高壓驅動 發光二極體1 2及第二高壓驅動發光二極體丨3置件於 基板:0上而形成一模組化的燈芯,且高壓穩流晶片丄 1、第一高壓驅動發光二極體i 2及第二高壓驅動發光二 極體1 3可利用基板i 〇上的線路工〇工進行電 接’例如將上述藍光發光二極體與紅光發光二極體的正極 對負極連接成串(即串聯’但*以此輕),並利用兩電 11、112直接連通於外部之高壓交流電,藉由高 壓穩流晶片1」將輸入電壓與第一高壓驅動發光二: 12及第二高壓驅動發光二極體13之順向導通電屙 j Fonvard軸啦,Vf )形成匹配,而使第—高壓驅動^ …一極體12及第二高壓驅動發光二極體丄 效果。 狄几 ,合上述,本創作所提出之固態光源之燈芯模組工係 :现驅動發光二極體與高壓穩流晶片1 1形成模組,高 壓驅動發光二極體晶片適Therefore, the present invention forms a modular wick by placing a high voltage steady current chip 1 1 'the first high voltage driving light emitting diode 12 and the second high voltage driving light emitting diode 丨3 on the substrate: 0. And the high voltage steady current chip 丄1, the first high voltage driving light emitting diode i2, and the second high voltage driving light emitting diode 13 can be electrically connected by using a line on the substrate i ', for example, the blue light emitting light The positive and negative electrodes of the polar body and the red light emitting diode are connected in a string (ie, in series 'but * is light), and the two electrodes 11 and 112 are directly connected to the external high voltage alternating current, and the high voltage steady current chip 1" The input voltage is matched with the first high-voltage driving light-emitting diode 2: 12 and the second high-voltage driving light-emitting diode 13 is matched with the Fj Fonvard axis, Vf), and the first high-voltage driving body 12 and the first body 12 are The second high voltage drives the LED 丄 effect. Diji, in combination with the above, the wicking module system of the solid-state light source proposed by the present invention: the current driving light-emitting diode and the high-voltage steady-current wafer 1 1 form a module, and the high-voltage driving light-emitting diode chip is suitable
變㈣),更可適用二低電流(即不需 ^ 用於U〇V至220V的交流電或是140V 广V的直流電,且因不具内建橋式整流,可增加發光 積,並可適用於直流與交流供t,省工力率也 可適用於既有的調暗(Dimming)迴路。 7/12 本創作更提出一種發光裝置,請參考圖2,其顯示本 創作所提出之燈泡型之發光裝置,但不以此為限,例如本 創作之發光裝置更可為其他封裝之燈管、路燈、射燈等等。 如圖所示’發光裝置係包括燈座2 0、透光殼體2 1 及口恕光源之燈芯模組1。在本具體實施例中,燈座2 〇 上設有一結合面,而該透光殼體2丄與固態光源之燈芯模 組^係設於該結合面上;具體而言,透光殼體2 1係為一 罩私、,、。構,其盍設於該結合面上,故透光殼體2 1與燈座 2 0形成一容置空間,而固態光源之燈芯模組χ則固接於 5玄結合面,並容設於該容置空間中。 如=別文所述,固態光源之燈芯模組2包括基板工 2、同壓穩流晶片1 1、第一高壓驅動發光二極體1 2及 第二高1驅動發光二極體丄3 ’以利用高壓穩流晶片丄丄 將輸入電壓與調整匹配於第—高壓驅動發光二極體i 2 及第二高壓驅動發光二極體1 3之順向導通電壓,使第一 高壓驅動發光二極體i 2之藍光與第二高壓驅動發光二 極體13之紅光混合成白光光源。 ^以就本創作所提出之較佳實施例之固態光源之燈芯 的發光裝置,本創作可發出暖白光之光線(約為 至3500K),而本創作之發光裝置的$燈出光效率約 為母瓦:至65流明(lm/w),以達產業要求之水準。 方面’為了提高本創作的應用範圍上述之高壓穩 :;心If加一調光晶片、或者整合電路而直接從整 通時間模式和/或頻率模式 〜X以產生與白熾燈相似的調光曲線,進 8/12 M404926 而達到〇%-1〇〇%範圍内的連續可調光效果。 綜上所述,本創作主要利用高壓穩流晶P高 :光二極體的搭配,以利用高壓穩流晶壓於 具内建橋式整流之高壓驅動發光二極傳3 使用橋接整合器將交流電轉換4直4 决傳統先 ^ΛΑ^ 钕俠马直峨電,再驅動發光二極 胆“成“源耗損及效率不佳的問題。故本創作提出一 種模組化的燈芯’其不使用志太耔一 々士 錢用成本⑸*的橋式整流,以降低 成本,並可提高發光裝置的發光穩定性。 二上所述僅為糊敎較佳可,相此偈限 本創作^補翻,故舉凡利本創作制#及圖示内容 所為之等效技術變化,均包含於本創作之範圍内。 【圖式簡單說明】 flA係為本創作第—實施例之固態光源之燈芯模組的示 意圖。 圖1B係為本創作第二實施例之固態光源之燈芯模組的示 意圖。 ’' 圖2係為本創作之發光裝置之示意圖。 【主要元件符號說明】 I 固態光源之燈芯模組 線路 電極 10 基板 101 II 高壓穩流晶片1 1 1、1 12 第一高壓驅動發光二極體 13 第二高壓驅動發光二極體 9/12 M404926 2 0 燈座 21 透光殼體Change (4)), it is more applicable to two low currents (that is, it does not need to be used for U〇V to 220V AC or 140V VV, and because it does not have built-in bridge rectification, it can increase the luminous product and can be applied to DC and AC for t, the labor rate can also be applied to the existing dimming circuit. 7/12 This creation also proposes a lighting device, please refer to Figure 2, which shows the bulb type proposed by this creation. The illuminating device is not limited thereto. For example, the illuminating device of the present invention can be other packaged lamps, street lamps, spotlights, etc. As shown in the figure, the illuminating device includes a lamp holder 20 and a light-transmitting housing. 2 1 and the wicking module 1 of the light source. In the embodiment, the lamp holder 2 is provided with a bonding surface, and the light-emitting housing 2 is connected to the wick module of the solid-state light source. Specifically, the light-transmissive housing 2 1 is a cover, and is disposed on the joint surface, so that the light-transmitting housing 2 1 and the socket 20 form an accommodation space. The wick module of the solid-state light source is fixed to the 5-seam joint surface and is accommodated in the accommodating space. The wick module 2 of the light source comprises a substrate 2, a constant voltage flow chip 1 1 , a first high voltage driving light emitting diode 12 and a second high 1 driving light emitting diode 丄 3 ′ to utilize a high voltage steady current chip 丄丄Matching the input voltage and the adjustment to the forward voltage of the first high voltage driving light emitting diode i 2 and the second high voltage driving light emitting diode 13 to make the blue light of the first high voltage driving light emitting diode i 2 and the second The red light of the high-voltage driving light-emitting diode 13 is mixed into a white light source. The light-emitting device of the solid-state light source of the preferred embodiment proposed in the present invention can emit warm white light (about 3500K). The light-emitting efficiency of the light-emitting device of this creation is about the mother tile: to 65 lumens (lm/w), to reach the level required by the industry. Aspect 'In order to improve the application range of the creation, the high-pressure stability mentioned above; Add a dimming chip, or integrate the circuit directly from the pass-through time mode and / or frequency mode ~ X to produce a dimming curve similar to incandescent lamps, into 8/12 M404926 and reach 〇%-1〇〇% Continuous dimming effect. In summary, this creation The main use of high-pressure steady flow crystal P high: the combination of light diodes, to use high-voltage steady-state crystal pressure in the high-voltage drive light-emitting diode with built-in bridge rectifier 3 use the bridge integrator to convert the AC to 4 straight 4 First ^ΛΑ^ 钕 马 马 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , Bridge rectification, in order to reduce the cost, and improve the luminous stability of the illuminating device. The above description is only a better paste, so this limit is limited to the creation of the creation, so the example of the creation of the law The equivalent technical changes of the content are included in the scope of this creation. [Simplified Schematic] flA is a schematic diagram of the wick module of the solid state light source of the first embodiment. Fig. 1B is a schematic view of the wick module of the solid state light source of the second embodiment of the present invention. ’' Fig. 2 is a schematic view of the illuminating device of the present invention. [Main component symbol description] I Solid-state light source wick module line electrode 10 Substrate 101 II High-voltage steady-current wafer 1 1 1 , 1 12 First high-voltage driving light-emitting diode 13 Second high-voltage driving light-emitting diode 9/12 M404926 2 0 lamp holder 21 transparent housing