201005996 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種交流發光二極體打線結構,特 別是有關於一種可運作於多種工作電壓之交流發光二極 體打線結構。 - 【先前技術】 發光二極體(LED, Light Emitting Diode)在各種電子 ❿ 產品與工業上的應用日益普及,由於所需之能源成本遠 低於傳統之白熱燈或鹵素燈,且單一的發光二極之尺寸 非常的輕巧,乃傳統光源所不及,因此在電子產品體積 日益輕薄短小的趨勢之下,發光二極體的需求也與日俱 增。 然而,習知技藝之發光二極體,若欲調整其工作電 壓以獲得不同發光強度時,需利用電源供應器或整流器 將市電(110伏特或240伏特)之轉換成適當之電壓值,因 ❿ 此不但增加成本,且體積變大而不符合目前電子產品輕 薄短小之趨勢。且利用電源供應器或整流電路轉換電壓 時,不但耗損電能,且容易引起整流器過熱而引起部份 電子零件損壞及失效。 有鑑於習知技藝之各項問題,為了能夠兼顧解決 之,本發明人基於多年研究開發與諸多實務經驗,提出 一種交流發光二極體打線結構,以作為改善上述缺點之 實現方式與依據。 201005996 【發明内容】 有鑑於此,本發明之目的就是在提供一種交流發光 二極體打線結構,以解決習知技藝之發光二極體必須利 用整流器調整工作電壓之問題。 根據本發明之目的,提出一種交流發光二極體打線 結構,包含一基板、一交流發光二極體及複數導線。交 - 流發光二極體係設置於基板上,且交流發光二極體具有 二獨立單元,每一獨立單元具有二導電端子。導線係連 ❹ 接導電端子。其中交流發光二極體藉由導線串聯及並聯 導電端子,以運作於20伏特至70伏特之工作電壓。 其中,交流發光二極體係為一橋式電路晶片、一反 式並聯晶片或一交流電驅動晶片之其中一者。 此外,本發明更提出一種交流發光二極體打線結 構,包含一基板、複數個交流發光二極體及複數導線。 交流發光二極體係設置於基板上,每一交流發光二極體 具有二獨立單元,且每一獨立單元具有二導電端子。導 〇 線係電連接導電端子。其中交流發光二極體藉由導線以 串聯及並聯之方式相互電性連接,以運作於50伏特至 245伏特之工作電壓。 承上所述,因依本發明之交流發光二極體打線結 構,具有以下優點: (1) 此交流發光二極體打線結構藉由串聯各獨立單 元,以產生不同之工作電壓。 (2) 此交流發光二極體打線結構可藉由並聯交流發 光二極體,以提升發光強度。 201005996 【實施方式】 以下將參照相關圖式,說明依本發明之交流發光二 極體打線結構之實施例。 請參閱第1圖,其係為本發明之交流發光二極體打 線結構之第一實施例之示意圖。圖中,交流發光二極體 打線結構包含-基板11、-交流發光二極體12及複數 導線13」基板U係為具有複數銀穿孔之陶变基板其 ❹201005996 IX. INSTRUCTIONS: [Technical Field] The present invention relates to an AC light-emitting diode wire structure, and more particularly to an AC light-emitting diode wire structure that can operate at various operating voltages. - [Prior Art] Light Emitting Diodes (LEDs) are becoming more and more popular in various electronic products and industrial applications, because the energy cost required is much lower than that of traditional incandescent or halogen lamps, and a single illumination The size of the two poles is very light, which is beyond the reach of traditional light sources. Therefore, under the trend of increasingly thin and light electronic products, the demand for light-emitting diodes is increasing. However, in the light-emitting diodes of the prior art, if the operating voltage is to be adjusted to obtain different luminous intensities, it is necessary to use a power supply or a rectifier to convert the commercial power (110 volts or 240 volts) into an appropriate voltage value. This not only increases the cost, but also increases the size and does not conform to the current trend of thin and light electronic products. When the voltage is converted by the power supply or the rectifier circuit, not only the power is consumed, but also the rectifier is overheated and some electronic components are damaged and failed. In view of the problems of the prior art, in order to solve the problem, the inventors have proposed an AC light-emitting diode wire-bonding structure based on years of research and development and many practical experiences, as an implementation method and basis for improving the above disadvantages. SUMMARY OF THE INVENTION In view of the above, it is an object of the present invention to provide an AC light-emitting diode wiring structure to solve the problem that the light-emitting diode of the prior art must use a rectifier to adjust the operating voltage. According to an object of the present invention, an AC LED wiring structure is provided, comprising a substrate, an AC LED, and a plurality of wires. The AC-emitting diode system is disposed on the substrate, and the AC LED has two independent units, each of which has two conductive terminals. The wire is connected to the conductive terminal. The AC light-emitting diodes operate in a voltage range of 20 volts to 70 volts by connecting the wires in series and in parallel with the conductive terminals. The AC light-emitting diode system is one of a bridge circuit chip, an inverted parallel chip or an AC drive chip. In addition, the present invention further provides an AC light emitting diode wire bonding structure comprising a substrate, a plurality of AC light emitting diodes, and a plurality of wires. The AC light emitting diode system is disposed on the substrate, each AC light emitting diode has two independent units, and each of the independent units has two conductive terminals. The guide wire is electrically connected to the conductive terminal. The AC light-emitting diodes are electrically connected to each other in series and in parallel by wires to operate at an operating voltage of 50 volts to 245 volts. As described above, the AC light-emitting diode wiring structure according to the present invention has the following advantages: (1) The AC LED wiring structure is formed by connecting individual units in series to generate different operating voltages. (2) The AC LED wiring structure can improve the luminous intensity by connecting AC dipoles in parallel. 201005996 [Embodiment] Hereinafter, an embodiment of an AC light-emitting diode wiring structure according to the present invention will be described with reference to the related drawings. Please refer to Fig. 1, which is a schematic view showing a first embodiment of the AC light emitting diode wiring structure of the present invention. In the figure, the alternating current light emitting diode has a wiring structure including a substrate 11, an alternating current light emitting diode 12, and a plurality of wires 13. The substrate U is a ceramic substrate having a plurality of silver perforations.
G 可耐受高溫’及將交流發光二極體12所產生之熱能由 銀穿孔迅速傳導出去,避免熱能f積至交流發光二極體 12上而縮短使用壽命。交流發光二極體12具有二獨立 單元12卜每一獨立單元121具有二導電端子122。交流 發,-極體12於順向偏廢及逆向偏壓下均可處於發光 狀態’而不須利用整流器或電源供應器將交流電轉換成 直流電。導線B係由金屬材f所製成,係用以電連接獨 :單兀之導電端子122。藉由圖i之打線方式,此交流 電發光二極體打線結構可運作於2G伏特至4()伏工 作電壓。 請參閱第2圖’其係為本發明之交流發光二極體打 二實施例之示意圖。在本實施例中,基板 -實二=二^ 22及導線23之結構及功能均與第 :::::同’在此不予贅述。第二實施例與第-實施 =異f於二獨立單元221係以_電連接導電端 =相互串聯’而可運作於4。伏特至6。伏特之工 «參閱第3圖,其係為本發明之交流發光二極體打 201005996 線結構之第三實施例之示意圖。在本實施例中,基板31 及導線33之結構及功能均與第一實施例相同,在此不予 贅述。第三實施例與第一實施例之差異在於此交流發光 二極體打線結構具有二交流發光二極體32,且其四獨立 單元321係以導線33電連接導電端子322相互串聯,而 可運作於60伏特至130伏特之工作電壓。 - 請參閱第4圖,其係為本發明之交流發光二極體打 線結構之第四實施例之示意圖。在本實施例中,基板41 ❹ 及導線43之結構及功能均與第三實施例相同,在此不予 贅述。第四實施例與第三實施例之差異在於此交流發光 二極體打線結構具有四交流發光二極體42,其四獨立單 元421均以導線43電連接導電端子422以相互串聯,可 於60伏特及130伏特之工作電壓下發出二倍於第三實施 例之發光強度。 請參閱第5圖,其係為本發明之交流發光二極體打 線結構之第五實施例之示意圖。在本實施例中,基板51 ❿ 及導線53之結構與功能均與第一實施例相同,在此不予 贅述。第五實施例與第一實施例之差異在於此交流發光 二極體打線結構係具有三交流發光二極體52,且其六獨 立單元521係以導線532電連接導電端子522以相互串 聯,以運作於130伏特至170伏特之工作電壓。 請參閱第6圖,其係為本發明之交流發光二極體打 線結構之第六實施例之示意圖。在本實施例中,基板61 及導線63之結構與功能均與第一實施例相同,在此不予 贅述。第六實施例與第一實施例之差異在於此交流發光 201005996 二極體打線結構係具有四交流發光二極體62,且其八獨 立單元621係以導線63電連接導電端子622以相互串 聯,以運作於160伏特至245伏特之工作電壓。 歸納上述,本發明交流發光二極體打線結構之功效 在於藉由導線串聯不同數量之獨立單元,使交流發光二 極體可運作於不同之工作電壓,以供任何電壓需求之電 - 氣產品所使用。 . 本發明交流發光二極體打線結構之另一功效在於不 © 需利用電源供應器或整流器調整電壓,不但節省成本, 且體積可更為縮小,以符合現代電器產品短小輕薄之趨 勢。 以上所述僅為舉例性,而非為限制性者。任何未脫 離本發明之精神與範疇,而對其進行之等效修改或變 更,均應包含於後附之申請專利範圍中。 【圖式簡單說明】 Ο 第1圖係為本發明之交流發光二極體打線結構之第一實施 例之示意圖; 第2圖係為本發明之交流發光二極體打線結構之第二實施 例之示意圖; 第3圖係為本發明之交流發光二極體打線結構之第三實施 例之示意圖; 第4圖係為本發明之交流發光二極體打線結構之第四實施 例之示意圖; 第5圖係為本發明之交流發光二極體打線結構之第五實施 201005996 例之示意圖;以及 第6圖係為本發明之交流發光二極體打線結構之第六實施 例之示意圖。 【主要元件符號說明】 11、21、31、4卜 51、61 :基板; . 12、22、32、42、52、62 :交流發光二極體; 121、221、321、421、521、621 :獨立單元; ❹ 122、222、322、422、522、622 :導電端子;以及 13、23、33、43、53、63 :導線 °G can withstand high temperatures' and the thermal energy generated by the alternating current LED 12 is quickly conducted out of the silver perforations, preventing thermal energy from accumulating on the alternating current LED 12 and shortening the service life. The AC LED 12 has two independent units 12. Each of the individual units 121 has two conductive terminals 122. The alternating current, the polar body 12 can be in a light-emitting state under both forward and reverse biases without the need to use a rectifier or power supply to convert alternating current into direct current. The wire B is made of a metal material f for electrically connecting the single-sided conductive terminal 122. The AC LED wiring structure can operate from 2G volts to 4 volts by the wiring method of Figure i. Please refer to FIG. 2, which is a schematic diagram of an embodiment of an alternating current light emitting diode according to the present invention. In this embodiment, the structure and function of the substrate - the real two = two 22 and the wire 23 are the same as the :::::' and will not be described herein. The second embodiment and the first implementation = the same as the two independent units 221 are electrically connected to the conductive terminals = in series with each other and operate at 4. Volt to 6. Volt's work «Refer to Figure 3, which is a schematic diagram of a third embodiment of the AC-emitting diode 201005996 line structure of the present invention. In the present embodiment, the structure and function of the substrate 31 and the wires 33 are the same as those of the first embodiment, and will not be described herein. The difference between the third embodiment and the first embodiment is that the alternating current light emitting diode wiring structure has two alternating current light emitting diodes 32, and the four independent units 321 are electrically connected to the conductive terminals 322 by wires 33 in series, and are operable. Operating voltage from 60 volts to 130 volts. - Please refer to Fig. 4, which is a schematic view showing a fourth embodiment of the AC light emitting diode wiring structure of the present invention. In the present embodiment, the structure and function of the substrate 41 and the wire 43 are the same as those of the third embodiment, and will not be described herein. The difference between the fourth embodiment and the third embodiment is that the AC LED wiring structure has four AC LEDs 42 , and the four independent units 421 are electrically connected to the conductive terminals 422 by wires 43 to be connected in series with each other. The illuminating intensity of the third embodiment is doubled under the operating voltage of volts and 130 volts. Please refer to FIG. 5, which is a schematic view showing a fifth embodiment of the AC light emitting diode wiring structure of the present invention. In the present embodiment, the structure and function of the substrate 51 ❿ and the wire 53 are the same as those of the first embodiment, and will not be described herein. The difference between the fifth embodiment and the first embodiment is that the alternating current light emitting diode wiring structure has three alternating current light emitting diodes 52, and the six independent units 521 are electrically connected to the conductive terminals 522 by wires 532 to be connected in series with each other. Operating from 130 volts to 170 volts. Please refer to FIG. 6, which is a schematic diagram of a sixth embodiment of the AC light emitting diode wiring structure of the present invention. In the present embodiment, the structure and function of the substrate 61 and the wires 63 are the same as those of the first embodiment, and will not be described herein. The difference between the sixth embodiment and the first embodiment is that the alternating current illumination 201005996 diode wiring structure has four alternating current light emitting diodes 62, and the eight independent units 621 are electrically connected to the conductive terminals 622 by wires 63 to be connected in series with each other. Operating from 160 volts to 245 volts. In summary, the function of the AC light-emitting diode wire-bonding structure of the present invention is to make the AC light-emitting diodes operate at different working voltages by using different numbers of independent units in series, so as to supply any voltage-demand electric-gas products. use. Another function of the AC LED wiring structure is that it does not need to use a power supply or a rectifier to adjust the voltage, which not only saves cost, but also reduces the size to meet the short and light trend of modern electrical products. The above is intended to be illustrative only and not limiting. Any changes or modifications to the spirit and scope of the present invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a first embodiment of an alternating current light-emitting diode wiring structure according to the present invention; and FIG. 2 is a second embodiment of the alternating current light-emitting diode wiring structure of the present invention. 3 is a schematic view of a third embodiment of the AC light-emitting diode wire structure of the present invention; FIG. 4 is a schematic view showing a fourth embodiment of the AC light-emitting diode wire structure of the present invention; 5 is a schematic diagram of a fifth embodiment of the alternating current light-emitting diode wire-bonding structure of the present invention; and FIG. 6 is a schematic view showing a sixth embodiment of the alternating current light-emitting diode wire-bonding structure of the present invention. [Description of main component symbols] 11, 21, 31, 4, 51, 61: substrate; . 12, 22, 32, 42, 52, 62: AC light-emitting diode; 121, 221, 321, 421, 521, 621 : independent unit; ❹ 122, 222, 322, 422, 522, 622: conductive terminals; and 13, 23, 33, 43, 53, 63: wires °