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JPH058959U - Light emitting device storage package - Google Patents

Light emitting device storage package

Info

Publication number
JPH058959U
JPH058959U JP5553691U JP5553691U JPH058959U JP H058959 U JPH058959 U JP H058959U JP 5553691 U JP5553691 U JP 5553691U JP 5553691 U JP5553691 U JP 5553691U JP H058959 U JPH058959 U JP H058959U
Authority
JP
Japan
Prior art keywords
light emitting
emitting element
groove
emitting device
light
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP5553691U
Other languages
Japanese (ja)
Inventor
守 村松
澄 登根
清茂 宮脇
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Kyocera Corp
Original Assignee
Kyocera Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Kyocera Corp filed Critical Kyocera Corp
Priority to JP5553691U priority Critical patent/JPH058959U/en
Publication of JPH058959U publication Critical patent/JPH058959U/en
Pending legal-status Critical Current

Links

Abstract

(57)【要約】 【目的】内部に収容する発光素子を外部電気回路に正確
に電気的接続することができる発光素子収納用パッケー
ジを提供することにある。 【構成】上面に発光素子4を収容するための凹部1aを
有する矩形状絶縁基体1の相対向する側面の一方に底面
から上面にかけて第1の溝部2aを形成し、且つ他方の
側面に底面から前記凹部底面と実質的に同一の高さにか
けて第2の溝部2bを形成した。第1の溝部2aは絶縁
基体1 の上面よりその位置が確認できることから発光素
子4の極性を溝部2a側に一定にしておけば発光装置を
外部電気回路基板の配線導体に表面実装させる際、内部
に収容する発光素子4の極性を外部から確認することが
でき、これによって発光素子4 を外部電気回路に正確に
接続することが可能となり、発光素子4 を常に正常に発
光させることができる。
(57) [Abstract] [Purpose] To provide a package for housing a light-emitting element in which a light-emitting element housed inside can be accurately electrically connected to an external electric circuit. [Structure] A first groove 2a is formed from one side surface of a rectangular insulating substrate 1 having a recessed portion 1a for accommodating a light emitting element 4 on the upper surface to the upper surface, and the other side surface is formed from the bottom surface. The second groove portion 2b was formed over the same height as the bottom surface of the recess. Since the position of the first groove 2a can be confirmed from the upper surface of the insulating substrate 1, if the polarity of the light emitting element 4 is kept constant on the groove 2a side, when the light emitting device is surface-mounted on the wiring conductor of the external electric circuit board, It is possible to confirm the polarity of the light emitting element 4 housed in the device from the outside, whereby the light emitting element 4 can be accurately connected to an external electric circuit, and the light emitting element 4 can always emit light normally.

Description

【考案の詳細な説明】[Detailed description of the device]

【0001】[0001]

【産業上の利用分野】[Industrial applications]

本考案は発光装置に使用される発光素子収納用パッケージに関し、より詳細に は回路配線基板に表面実装される発光装置に用いられる発光素子収納用パッケー ジの改良に関するものである。 The present invention relates to a package for housing a light emitting device used in a light emitting device, and more particularly to an improvement of a package for housing a light emitting device used in a light emitting device surface-mounted on a circuit wiring board.

【0002】[0002]

【従来の技術】[Prior Art]

従来、発光装置に使用される発光素子収納用パッケージは図4、図5に示すよ うにアルミナセラミックス等の電気絶縁材料から成る矩形状絶縁基体21の上面に 発光素子23を収容するための凹部を形成するとともに凹部底面から側面を介し底 面にかけて導出する一対のメタライズ配線層22、22を被着させた構造を有してお り、絶縁基体21の凹部底面に発光素子23を該発光素子23の電極がメタライズ配線 層22、22の各々に電気的に接続するように導電性接着材24を介して取着固定し、 しかる後、絶縁基体21の凹部内に透明樹脂部等から成る封止材25を充填させ、発 光素子23を気密に封止することによって最終製品としての発光装置となる。 Conventionally, as shown in FIGS. 4 and 5, a package for housing a light emitting element used in a light emitting device has a recess for accommodating the light emitting element 23 on the upper surface of a rectangular insulating substrate 21 made of an electrically insulating material such as alumina ceramics. It has a structure in which a pair of metallized wiring layers 22, 22 is formed and led out from the bottom surface of the recess to the bottom surface through the side surface. The light emitting element 23 is provided on the bottom surface of the recess of the insulating base 21. Of the metallized wiring layers 22 and 22 are electrically connected to each other via a conductive adhesive 24 so that they are electrically connected to each other, and then sealed in the concave portion of the insulating substrate 21 with a transparent resin portion or the like. A light emitting device as a final product is obtained by filling the material 25 and hermetically sealing the light emitting element 23.

【0003】 尚、かかる発光装置は絶縁基体21の底面に導出されたメタライズ配線層22、22 を外部の回路配線基板の配線導体に半田等の接着材を介して接着し、メタライズ 配線層22、22を所定の配線導体に電気的に接続させることによって外部回路配線 基板に表面実装される。In such a light emitting device, the metallized wiring layers 22 and 22 led out to the bottom surface of the insulating substrate 21 are adhered to the wiring conductors of the external circuit wiring board via an adhesive such as solder, and the metallized wiring layer 22 and Surface mounting is performed on the external circuit wiring board by electrically connecting 22 to a predetermined wiring conductor.

【0004】[0004]

【考案が解決しようとする課題】[Problems to be solved by the device]

しかしながら、この従来の発光装置においては内部に収容する発光素子が極性 を有しているのに対し、発光素子収納用パッケージにはその極性を認識するため の標識が付されていないため発光素子収納用パッケージ内に発光素子を収容して 成る発光装置は外部から発光素子の極性を認識することができなくなり、その結 果、発光装置を外部回路配線基板の配線導体に表面実装させる際、発光素子の極 性が逆となって実装されることが多々あり、発光素子の極性が逆となって実装さ れると発光素子23に電力を印加しても発光装置が発光しないという問題を発生し た。 However, in this conventional light emitting device, the light emitting element housed inside has a polarity, whereas the light emitting element housing package does not have a mark for recognizing the polarity. A light-emitting device that contains a light-emitting element in a package for a light source cannot recognize the polarity of the light-emitting element from the outside. As a result, when the light-emitting device is surface-mounted on the wiring conductor of the external circuit wiring board, The polarity of the light emitting element is often reversed, and when the polarity of the light emitting element is reversed, the problem that the light emitting device does not emit light even when power is applied to the light emitting element 23 occurs. ..

【0005】 そこで上記欠点を解消するために発光素子収納用パッケージを構成する絶縁基 体の外表面にペイント等を印刷して標識を付しておき発光装置の外部より内部に 収容する発光素子の極性が認識できるようにしておくことが考えられる。In order to solve the above-mentioned drawbacks, a paint or the like is printed on the outer surface of the insulating substrate that constitutes the package for housing the light emitting element to attach a mark to the light emitting element housed inside the light emitting device. It is conceivable to make the polarity recognizable.

【0006】 しかしながら、絶縁基体の外表面にペイント等の標識を付した場合、絶縁基体 の凹部底面に自動機等を用いて発光素子を取着する際、絶縁基体の外表面が自動 機のライン上を摺接する時に標識が容易に剥離してしまい、前述の欠点は完全に 解消し得ない。However, when a mark such as paint is attached to the outer surface of the insulating base, when the light emitting element is attached to the bottom surface of the concave portion of the insulating base by using an automatic machine or the like, the outer surface of the insulating base is a line of the automatic machine. The above-mentioned drawbacks cannot be completely eliminated because the sign easily peels off when sliding on the top.

【0007】[0007]

【課題を解決するための手段】[Means for Solving the Problems]

本考案は上面に発光素子を収容するための凹部を有する矩形状絶縁基体の相対 向する側面の一方に底面から上面にかけて第1の溝部を形成し、且つ他方の側面 に底面から前記凹部底面と実質的に同一の高さにかけて第2の溝部を形成したこ とを特徴とするものである。 According to the present invention, a first groove is formed on one of the opposite side surfaces of a rectangular insulating substrate having a recess for accommodating a light emitting element on the top surface from the bottom surface to the top surface, and on the other side surface from the bottom surface to the recess bottom surface. It is characterized in that the second groove portion is formed over substantially the same height.

【0008】[0008]

【実施例】【Example】

次に本考案を添付図面に基づき詳細に説明する。 図1 は本考案の発光素子収納用パッケージの一実施例を示す断面図、図2 はそ の平面図を示し、1 は矩形形状をなす絶縁基体、2a、2bは溝部、3 はメタライズ 配線層である。 Next, the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a sectional view showing an embodiment of a package for housing a light emitting device of the present invention, FIG. 2 is a plan view thereof, 1 is a rectangular insulating substrate, 2a and 2b are grooves, and 3 is a metallized wiring layer. Is.

【0009】 前記絶縁基体1 はアルミナセラミックス等の電気絶縁材料から成り、その上面 に発光素子を収容するための凹部1aが設けてあり、該凹部1a底面には発光素子4 が導電性接着材5 を介して取着固定される。The insulating base 1 is made of an electrically insulating material such as alumina ceramics, and a recess 1a for accommodating a light emitting element is provided on the upper surface thereof, and the light emitting element 4 is provided with a conductive adhesive 5 on the bottom surface of the recess 1a. It is attached and fixed via.

【0010】 また前記絶縁基体1 にはその相対向する側面の一方に底面から上面にかけて第 1の溝部2aが、また他方の側面に底面から前記凹部1a底面と実質的に同一の高さ にかけて第2の溝部2bが形成されている。Further, the insulating base 1 has a first groove portion 2a on one of the opposite side surfaces from the bottom surface to the top surface, and on the other side surface from the bottom surface to the substantially same height as the bottom surface of the recess 1a. Two groove portions 2b are formed.

【0011】 前記絶縁基体1 に設けた溝部2aは絶縁基体1の底面から上面にかけて形成され ており絶縁基体1 の上面よりその位置が確認できることから内部に収容する発光 素子4 の極性を認識する標識として作用し、例えば絶縁基体1の凹部1a内に発光 素子4 を該発光素子4 の+側を溝部2a側として収容しておけば発光装置を外部電 気回路基板の配線導体に表面実装させる際、溝部2aの位置を確認し、該溝部a 側 を外部電気回路基板の配線導体の+側に接続させれば発光素子4 を外部電気回路 に正確に接続することができ、これによって発光素子4 を常に正確に発光させる ことが可能となる。 また前記絶縁基体1 に設けた溝部2a、2bはメタライズ配線層3 を形成する際の 配線形成用溝としても作用を為し、絶縁基体1 の凹部1a底面から側面を介し絶縁 基体1 底面にかけて一対のメタライズ配線層3 、3 を導出させる際、絶縁基板1 側面においてメタライズ配線層3 は溝部2a、2bに形成されることとなる。The groove portion 2a provided in the insulating base 1 is formed from the bottom surface to the upper surface of the insulating base 1, and its position can be confirmed from the upper surface of the insulating base 1. Therefore, a mark for recognizing the polarity of the light emitting element 4 housed inside is provided. When the light emitting device 4 is housed in the wiring conductor of the external electric circuit board, the light emitting device 4 is housed in the recess 1a of the insulating substrate 1 with the + side of the light emitting device 4 as the groove 2a side. By checking the position of the groove 2a and connecting the groove a side to the + side of the wiring conductor of the external electric circuit board, the light emitting element 4 can be accurately connected to the external electric circuit. It is possible to always emit light accurately. The grooves 2a and 2b provided on the insulating base 1 also function as wiring forming grooves when forming the metallized wiring layer 3, and a pair of grooves are formed from the bottom of the recess 1a of the insulating base 1 to the bottom of the insulating base 1 through the side surface. When the metallized wiring layers 3 and 3 are led out, the metallized wiring layers 3 are formed in the groove portions 2a and 2b on the side surface of the insulating substrate 1.

【0012】 前記一対のメタライズ配線層3 、3 は内部に収容する発光素子4 を外部電気回 路に電気的に接続する作用を為し、該メタライズ配線層3 の凹部1a底面部には発 光素子4 の電極が、また絶縁基体1 の底面部には外部電気回路基板の配線導体が 各々接続される。The pair of metallized wiring layers 3 and 3 serve to electrically connect the light emitting element 4 housed inside to an external electric circuit, and the metallized wiring layer 3 emits light at the bottom of the concave portion 1 a. The electrodes of the element 4 and the wiring conductor of the external electric circuit board are connected to the bottom surface of the insulating substrate 1, respectively.

【0013】 尚、前記一対のメタライズ配線層3 、3 はタングステン、モリブデン等の高融 点金属粉末から成り、従来周知のスクリーン印刷法等よって絶縁基体1 の所定位 置に被着される。The pair of metallized wiring layers 3, 3 are made of a high melting point metal powder such as tungsten and molybdenum, and are deposited on the insulating substrate 1 at predetermined positions by a conventionally known screen printing method or the like.

【0014】 また前記一対のメタライズ配線層3 、3 はその露出外表面にニッケル、金等の 耐蝕性に優れ、且つ良導電性である金属をメッキにより1.0 乃至20.0μm の厚み に層着させておくとメタライズ配線層3 、3 の酸化腐食が有効に防止されるとと もにメタライズ配線層3 、3 と発光素子の電極及び外部電気回路との電気的接続 が極めて良好なものとなる。従って、メタライズ配線層3 、3 の酸化腐食を防止 し、発光素子の電極及び外部電気回路との電気的接続を良好とするにはメタライ ズ配線層3 、3 の露出外表面にニッケル、金等の金属をメッキにより1.0 乃至20 .0μm の厚みに層着させておくことが好ましい。The pair of metallized wiring layers 3 and 3 are formed by depositing a metal such as nickel and gold having excellent corrosion resistance and good conductivity on the exposed outer surface by plating to a thickness of 1.0 to 20.0 μm. If so, the oxidative corrosion of the metallized wiring layers 3 and 3 is effectively prevented, and the electrical connection between the metallized wiring layers 3 and 3 and the electrode of the light emitting element and the external electric circuit becomes very good. Therefore, in order to prevent oxidative corrosion of the metallized wiring layers 3 and 3 and to make good electrical connection with the electrodes of the light emitting element and the external electric circuit, nickel, gold, etc. should be formed on the exposed outer surface of the metallized wiring layers 3 and 3. It is preferable that the above metal is deposited by plating to a thickness of 1.0 to 20.0 μm.

【0015】 かくして、本考案の発光素子収納用パッケージによれば、絶縁基体1 の凹部1a 底面に発光素子4 を、該発光素子4 の電極が一対のメタライズ配線層3 、3 の各 々に電気的に接続するように導電性接着材5 を介して取着固定し、しかる後、凹 部1a内に透明樹脂部等から成る封止材6 を充填させ、発光素子4 を気密に封止す ることによって最終製品としての発光装置となる。Thus, according to the package for accommodating the light emitting device of the present invention, the light emitting device 4 is formed on the bottom surface of the recess 1a of the insulating substrate 1, and the electrodes of the light emitting device 4 are electrically connected to the pair of metallized wiring layers 3 3 respectively. To secure the light emitting element 4 in a hermetically sealed state by attaching and fixing it via a conductive adhesive 5 so that the light emitting element 4 is sealed in the recess 1a. By doing so, it becomes a light emitting device as a final product.

【0016】 次に本考案の発光素子収納用パッケージの製造方法を図3 により説明する。Next, a method of manufacturing the package for housing the light emitting device of the present invention will be described with reference to FIG.

【0017】 まず絶縁基体1 と成る2 枚のセラミックグリーンシート11a 、11b を準備する 。First, two ceramic green sheets 11a and 11b to be the insulating substrate 1 are prepared.

【0018】 前記2 枚のセラミックグリーンシート11a 、11b は例えば、アルミナ(Al 2 O 3 ) 、シリカ(SiO2 ) 、マグネシア(MgO) 、カルシア(CaO) 等の原料粉末に適当 な有機溶剤、溶媒を添加混合して泥漿状となすとともにこれを従来周知のドクタ ーブレード法、カレンダーロール法等を採用しシート状となすことによって形成 される。 次に前記セラミックグリーンシート11a に絶縁基体1 の溝部2aとなる貫通孔A と溝部2bとなる貫通孔B を形成し、且つセラミックグリーンシート11b に絶縁基 体1 の発光素子4 を収容させる凹部1aを形成するための貫通孔C と溝部2aとなる 貫通孔D を形成する。The two ceramic green sheets 11a and 11b are, for example, organic solvents and solvents suitable for raw material powders such as alumina (Al 2 O 3 ), silica (SiO 2 ), magnesia (MgO) and calcia (CaO). It is formed by adding and mixing to form a sludge shape, and forming it into a sheet shape by using a conventionally known doctor blade method, calender roll method or the like. Next, the ceramic green sheet 11a is formed with a through hole A which will be the groove 2a and a through hole B which will be the groove 2b of the insulating substrate 1, and the ceramic green sheet 11b will be provided with a recess 1a for accommodating the light emitting element 4 of the insulating substrate 1. A through hole C for forming the groove and a through hole D to be the groove portion 2a are formed.

【0019】 尚、前記セラミックグリーンシート11a 、11b に形成される各々の貫通孔A 、 B 、C 、D は従来周知のセラミック孔開け加工法、具体的にはセラミックグリー ンシートを打ち抜きパンチで打ち抜くことによって各セラミックグリーンシート 11a 、11b の所定位置に所定大きさに形成される。Each of the through holes A, B, C and D formed in the ceramic green sheets 11a and 11b is a conventionally known ceramic punching method, specifically, punching a ceramic green sheet with a punching punch. Thus, the ceramic green sheets 11a and 11b are formed to have predetermined sizes at predetermined positions.

【0020】 そして次に前記セラミックグリーンシート11a に該セラミックグリーンシート 11a の上面から貫通孔A 、B を介し底面にかけて金属ペーストを印刷塗布し、メ タライズ配線層3 、3 となるメタライズ配線用金属層13、13を被着させる。Then, a metal paste is printed and applied to the ceramic green sheet 11a from the upper surface of the ceramic green sheet 11a to the bottom surface thereof through the through holes A and B to form the metallized wiring metal layers 3 and 3. 13 and 13 are attached.

【0021】 前記メタライズ配線用金属層13、13はタングステン、モリブデン、マンガン等 の高融点金属粉末からなり該金属粉末に有機溶剤、溶媒を添加混合した得た金属 ペーストを従来周知のスクリーン印刷法等の厚膜手法を採用し印刷塗布すること によってセラミックグリーンシート11a の所定位置に所定パターンに被着される 。The metallized wiring metal layers 13, 13 are made of a high melting point metal powder such as tungsten, molybdenum, manganese, etc. The metal paste obtained by adding and mixing an organic solvent and a solvent to the metal powder is a conventionally known screen printing method or the like. The thick film method is applied to the ceramic green sheet 11a in a predetermined pattern to form a predetermined pattern.

【0022】 そして最後に前記セラミックグリーンシート11b をセラミックグリーンシート 11a の上面に貫通孔D を貫通孔A に合致するようにして載置させ、生積層体とな すとともに該間積層体を高温( 約1600℃) で焼成して2 枚のセラミックグリーン シート11a 、11b 及びメタライズ配線用金属層13、13とを焼結一体化させてセラ ミック焼結体となし、その後、前記セラミック焼結体を分割線E-E に沿って複数 個に分割することによって図1 、図2 に示す一対のメタライズ配線層3 、3 を有 する矩形状の絶縁基体1 となる。Finally, the ceramic green sheet 11b is placed on the upper surface of the ceramic green sheet 11a so that the through holes D are aligned with the through holes A to form a green laminated body and the laminated body at high temperature ( After firing at about 1600 ° C), the two ceramic green sheets 11a and 11b and the metallized wiring metal layers 13 and 13 are sintered and integrated to form a ceramic sintered body. By dividing into a plurality of pieces along the dividing line EE, a rectangular insulating base 1 having a pair of metallized wiring layers 3 and 3 shown in FIGS. 1 and 2 is obtained.

【0023】[0023]

【考案の効果】[Effect of the device]

本考案の発光素子収納用パッケージによれば発光素子を収容するための凹部を 有する矩形状絶縁基体の相対向する側面の一方に底面から上面にかけて溝部を形 成したことから収容する発光素子の極性を例えば溝部側を+側として収容してお けば発光装置を外部電気回路基板の配線導体に表面実装させる際、溝部の位置を 確認し、該溝部側を外部電気回路基板の配線導体の+側に接続させれば発光素子 を外部電気回路に正確に接続することができ、これによって発光素子を常に正確 に発光させることが可能となる。 According to the package for housing a light emitting device of the present invention, a groove is formed from the bottom surface to the top surface on one of the opposite side surfaces of a rectangular insulating substrate having a recess for housing the light emitting element. If the groove side is accommodated as the + side, for example, when the light emitting device is surface-mounted on the wiring conductor of the external electric circuit board, the position of the groove section is confirmed, and the groove side is + of the wiring conductor of the external electric circuit board. If it is connected to the side, the light emitting element can be accurately connected to the external electric circuit, and thus the light emitting element can always emit light accurately.

【図面の簡単な説明】[Brief description of drawings]

【図1】本考案の発光素子収納用パッケージの一実施例
を示す断面図である。
FIG. 1 is a sectional view showing an embodiment of a package for housing a light emitting device according to the present invention.

【図2】図1のパッケージの平面図である。FIG. 2 is a plan view of the package of FIG.

【図3】図1に示すパッケージの製造方法を説明するた
めの一部断面図である。
FIG. 3 is a partial cross-sectional view for explaining the method of manufacturing the package shown in FIG.

【図4】従来の発光素子収納用パッケージの断面図であ
る。
FIG. 4 is a cross-sectional view of a conventional light emitting device housing package.

【図5】図4のパッケージの平面図である。5 is a plan view of the package of FIG.

【符号の説明】[Explanation of symbols]

1・・・・・・・絶縁基体 2a、2b・・・溝部 3・・・・・・・メタライズ配線層 4・・・・・・・発光素子 5・・・・・・・導電性接着材 6・・・・・・・封止材 1 ... Insulating substrate 2a, 2b ... Groove 3 ... Metallized wiring layer 4 ... Light emitting element 5 ... Conductive adhesive 6 ... Encapsulating material

Claims (1)

【実用新案登録請求の範囲】 【請求項1】上面に発光素子を収容するための凹部を有
する矩形状絶縁基体の相対向する側面の一方に底面から
上面にかけて第1の溝部を形成し、且つ他方の側面に底
面から前記凹部底面と実質的に同一の高さにかけて第2
の溝部を形成したことを特徴とする発光素子収納用パッ
ケージ。
Claims for utility model registration: 1. A first groove is formed from the bottom surface to the top surface on one of opposite side surfaces of a rectangular insulating substrate having a recess for accommodating a light emitting element on the top surface, and The second side extends from the bottom surface to substantially the same height as the bottom surface of the recess.
A package for housing a light-emitting element, characterized in that the groove portion is formed.
JP5553691U 1991-07-17 1991-07-17 Light emitting device storage package Pending JPH058959U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP5553691U JPH058959U (en) 1991-07-17 1991-07-17 Light emitting device storage package

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP5553691U JPH058959U (en) 1991-07-17 1991-07-17 Light emitting device storage package

Publications (1)

Publication Number Publication Date
JPH058959U true JPH058959U (en) 1993-02-05

Family

ID=13001450

Family Applications (1)

Application Number Title Priority Date Filing Date
JP5553691U Pending JPH058959U (en) 1991-07-17 1991-07-17 Light emitting device storage package

Country Status (1)

Country Link
JP (1) JPH058959U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11424210B2 (en) 2003-04-01 2022-08-23 Xiamen San'an Optoelectronics Co., Ltd. Light-emitting package

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS60262476A (en) * 1984-06-08 1985-12-25 Matsushita Electric Ind Co Ltd Light-emitting element
JPH01270282A (en) * 1988-04-21 1989-10-27 Matsushita Electric Ind Co Ltd Light emitting diode

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS60262476A (en) * 1984-06-08 1985-12-25 Matsushita Electric Ind Co Ltd Light-emitting element
JPH01270282A (en) * 1988-04-21 1989-10-27 Matsushita Electric Ind Co Ltd Light emitting diode

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11424210B2 (en) 2003-04-01 2022-08-23 Xiamen San'an Optoelectronics Co., Ltd. Light-emitting package
US11476227B2 (en) 2003-04-01 2022-10-18 Xiamen San'an Optoelectronics Co., Ltd. Light-emitting apparatus

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