JP2000106458A - Light emitting device for writing image - Google Patents
Light emitting device for writing imageInfo
- Publication number
- JP2000106458A JP2000106458A JP27491698A JP27491698A JP2000106458A JP 2000106458 A JP2000106458 A JP 2000106458A JP 27491698 A JP27491698 A JP 27491698A JP 27491698 A JP27491698 A JP 27491698A JP 2000106458 A JP2000106458 A JP 2000106458A
- Authority
- JP
- Japan
- Prior art keywords
- light
- light emitting
- emitting element
- emitting device
- transmitting
- 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
Links
Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L2224/00—Indexing scheme for arrangements for connecting or disconnecting semiconductor or solid-state bodies and methods related thereto as covered by H01L24/00
- H01L2224/01—Means for bonding being attached to, or being formed on, the surface to be connected, e.g. chip-to-package, die-attach, "first-level" interconnects; Manufacturing methods related thereto
- H01L2224/10—Bump connectors; Manufacturing methods related thereto
- H01L2224/15—Structure, shape, material or disposition of the bump connectors after the connecting process
- H01L2224/16—Structure, shape, material or disposition of the bump connectors after the connecting process of an individual bump connector
- H01L2224/161—Disposition
- H01L2224/16135—Disposition the bump connector connecting between different semiconductor or solid-state bodies, i.e. chip-to-chip
- H01L2224/16145—Disposition the bump connector connecting between different semiconductor or solid-state bodies, i.e. chip-to-chip the bodies being stacked
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L2224/00—Indexing scheme for arrangements for connecting or disconnecting semiconductor or solid-state bodies and methods related thereto as covered by H01L24/00
- H01L2224/01—Means for bonding being attached to, or being formed on, the surface to be connected, e.g. chip-to-package, die-attach, "first-level" interconnects; Manufacturing methods related thereto
- H01L2224/42—Wire connectors; Manufacturing methods related thereto
- H01L2224/47—Structure, shape, material or disposition of the wire connectors after the connecting process
- H01L2224/48—Structure, shape, material or disposition of the wire connectors after the connecting process of an individual wire connector
- H01L2224/4805—Shape
- H01L2224/4809—Loop shape
- H01L2224/48091—Arched
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L2224/00—Indexing scheme for arrangements for connecting or disconnecting semiconductor or solid-state bodies and methods related thereto as covered by H01L24/00
- H01L2224/01—Means for bonding being attached to, or being formed on, the surface to be connected, e.g. chip-to-package, die-attach, "first-level" interconnects; Manufacturing methods related thereto
- H01L2224/42—Wire connectors; Manufacturing methods related thereto
- H01L2224/47—Structure, shape, material or disposition of the wire connectors after the connecting process
- H01L2224/48—Structure, shape, material or disposition of the wire connectors after the connecting process of an individual wire connector
- H01L2224/484—Connecting portions
- H01L2224/48463—Connecting portions the connecting portion on the bonding area of the semiconductor or solid-state body being a ball bond
- H01L2224/48465—Connecting portions the connecting portion on the bonding area of the semiconductor or solid-state body being a ball bond the other connecting portion not on the bonding area being a wedge bond, i.e. ball-to-wedge, regular stitch
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L2224/00—Indexing scheme for arrangements for connecting or disconnecting semiconductor or solid-state bodies and methods related thereto as covered by H01L24/00
- H01L2224/01—Means for bonding being attached to, or being formed on, the surface to be connected, e.g. chip-to-package, die-attach, "first-level" interconnects; Manufacturing methods related thereto
- H01L2224/42—Wire connectors; Manufacturing methods related thereto
- H01L2224/47—Structure, shape, material or disposition of the wire connectors after the connecting process
- H01L2224/49—Structure, shape, material or disposition of the wire connectors after the connecting process of a plurality of wire connectors
- H01L2224/491—Disposition
- H01L2224/49105—Connecting at different heights
- H01L2224/49107—Connecting at different heights on the semiconductor or solid-state body
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L2924/00—Indexing scheme for arrangements or methods for connecting or disconnecting semiconductor or solid-state bodies as covered by H01L24/00
- H01L2924/30—Technical effects
- H01L2924/301—Electrical effects
- H01L2924/3025—Electromagnetic shielding
Landscapes
- Led Device Packages (AREA)
- Led Devices (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、自己現像タイプの
インスタントフィルムに画像を書き込む光学露光方式の
プリンタの画像書込みデバイスとして使用される画像書
込み用発光装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image writing light emitting device used as an image writing device of an optical exposure type printer for writing an image on a self-developing type instant film.
【0002】[0002]
【従来の技術】たとえば、デジタルビデオカメラやパー
ソナルコンピュータ等の画像出力のためのフルカラープ
リンタには、画像形成のための書込みデバイスが備えら
れる。この書込みデバイスとして、感光性のR,G,B
の何れか一つに感応するマイクロカプセルを表面に備え
た記録紙を用い、R,G,Bの発光ダイオード(以下、
「LED」と記す)による露光によって画像を書き込む
LEDレンズ光学露光方式のLEDヘッドが既に提案さ
れている。2. Description of the Related Art For example, a full-color printer for outputting an image, such as a digital video camera or a personal computer, is provided with a writing device for forming an image. As this writing device, photosensitive R, G, B
R, G, B light-emitting diodes (hereinafter, referred to as “recording paper”) using a recording paper provided with a microcapsule sensitive to any one of
An LED head of an LED lens optical exposure system for writing an image by exposure using “LED” has already been proposed.
【0003】書込みデバイスの基本的な構成は、プリン
ト基板に対して平行間隔を持たせてたとえばステンレス
板等のプレートを配置し、プリント基板を搭載面として
プレートとの間に発光素子を配列するというものであ
る。そして、発光素子からの光を記録紙に集光しやすく
するための球面のレンズを発光素子に対応させてプレー
トに組み込む構成としたものが旧来では主であった。The basic configuration of a writing device is to arrange a plate such as a stainless steel plate at a parallel interval with respect to a printed circuit board, and to arrange light emitting elements between the plate and the printed circuit board as a mounting surface. Things. In the past, a configuration in which a spherical lens for easily condensing light from a light emitting element on recording paper was incorporated into a plate corresponding to the light emitting element was mainly used.
【0004】ところが、このようなレンズを用いるもの
では、記録紙への放射照度を上げるにはレンズがプレー
トに組み込まれる開口径を大きくし、発光素子からの放
射束を多く受け入れることが必要である。これは、レン
ズの径を大きくすることで対応できるものの、光路長が
長くなるほか収差を伴うために記録に必要な適切なビー
ムが得られないことになり、画像書込みの精度に大きく
影響する。However, in the case of using such a lens, in order to increase the irradiance on the recording paper, it is necessary to increase the diameter of the opening in which the lens is incorporated in the plate and to receive a large amount of radiant flux from the light emitting element. . Although this can be dealt with by increasing the diameter of the lens, the optical path length becomes longer and aberrations occur, so that an appropriate beam necessary for recording cannot be obtained, which greatly affects the accuracy of image writing.
【0005】これに対し、本願出願人は、発光素子から
の光の利用効率を高く維持するとともに記録紙をより一
層高い放射照度で照射できプリント時間の短縮と小型化
も可能とした発光記録装置を提案し、特願平10−12
475号として出願した。On the other hand, the applicant of the present invention has proposed a light-emitting recording apparatus capable of maintaining high use efficiency of light from a light-emitting element, irradiating a recording sheet with a higher irradiance, and shortening a printing time and reducing the size. And proposed Japanese Patent Application No. Hei 10-12
No. 475.
【0006】この出願に係る発光記録装置は、プリント
配線基板との間に間隔をおいて配置したプレートを備
え、プリント配線基板の上にはその発光方向をプレート
側とした複数の発光素子を搭載し、更にプレートには発
光素子に対応する位置に光を透過させるための光透過部
を設けたものである。この光透過部は、たとえばその径
を1mm以下の大きさの円形の光学的な光透過窓とした
ものである。The light-emitting recording apparatus according to the present application includes a plate disposed at a distance from a printed wiring board, and a plurality of light-emitting elements whose light emitting directions are on the plate side are mounted on the printed wiring board. Further, the plate is provided with a light transmitting portion for transmitting light at a position corresponding to the light emitting element. The light transmitting portion is, for example, a circular optical light transmitting window having a diameter of 1 mm or less.
【0007】このような光透過窓を備えるプレートを組
み込んだ書込みデバイスでは、発光素子からの発光は光
透過窓を抜ける分だけが記録紙の表面に照射され、不要
な光はプレートによって遮られる。これにより、解像度
が高い画像の書込みが可能となるほか、レンズを光路中
に含まないので光路が短くて収差の影響もなくなり、発
光素子からの光の利用効率が向上するとともに記録紙へ
の放射照度も高めることができる。In a writing device incorporating a plate having such a light-transmitting window, only the light emitted from the light-emitting element passes through the light-transmitting window and is applied to the surface of the recording paper, and unnecessary light is blocked by the plate. This makes it possible to write a high-resolution image, and because the lens is not included in the optical path, the optical path is short and the influence of aberration is eliminated, the efficiency of using light from the light emitting element is improved, and radiation to recording paper is improved. Illuminance can also be increased.
【0008】[0008]
【発明が解決しようとする課題】ところが、先の出願の
ものも含めて、発光素子のほうが光透過窓よりも大きい
アセンブリとなっている。これは、発光素子を余り小さ
くし過ぎると、発光素子から発する全放射束が下がって
しまい十分な光の放射パワーが得られないからである。However, the assembly of the light-emitting element, including that of the earlier application, is larger than the light-transmitting window. This is because, if the light emitting element is made too small, the total radiant flux emitted from the light emitting element decreases, and sufficient light radiation power cannot be obtained.
【0009】このような発光素子と光透過窓の大きさの
関係であると、発光素子からはその主光取出し面だけで
なく側方に抜ける光の成分もあるので、発光の全体が光
透過窓から照射されずにプレートの裏面で遮られてしま
う。このため、発光素子として放射パワーの高いものを
用いても、光透過窓から取り出されて記録紙に照射され
る光量は下がってしまい、光の利用効率が低下すること
になる。According to the relationship between the size of the light emitting element and the size of the light transmitting window, the light emitting element has not only the main light extraction surface but also light components that pass to the side, so that the entire light emission is light transmitting. It is blocked by the back of the plate without being irradiated from the window. For this reason, even if a light emitting element having a high radiation power is used, the light quantity taken out of the light transmitting window and irradiated on the recording paper is reduced, and the light use efficiency is reduced.
【0010】また、発光素子の主光取出し面からの光を
より多く光透過窓から抜けさせるには、発光素子の大き
さを光透過窓よりも小さくしていけばよい。しかしなが
ら、先に述べたように、発光素子を小さくするほど全放
射束も低下してしまうので、画像書込みに少なからず影
響を及ぼす。したがって、発光素子はその放射束が高く
なるように或る程度の大きさを持つものに制約を受ける
ことになり、コスト低減の障害になりかねない。Further, in order to allow more light from the main light extraction surface of the light emitting element to pass through the light transmitting window, the size of the light emitting element may be made smaller than that of the light transmitting window. However, as described above, as the size of the light emitting element is reduced, the total radiant flux is also reduced, which has a considerable effect on image writing. Therefore, the light emitting element is restricted by a light emitting element having a certain size so that the radiant flux becomes high, which may be an obstacle to cost reduction.
【0011】本発明において解決すべき課題は、発光素
子からの発光の利用効率及び放射パワーも向上し得る発
光装置を提供することにある。An object of the present invention is to provide a light emitting device capable of improving the use efficiency and radiated power of light emitted from a light emitting element.
【0012】[0012]
【課題を解決するための手段】本発明は、配線基板と、
前記配線基板に導通搭載された発光素子と、前記発光素
子の発光方向に対向して配置されたシールドプレート
と、前記発光素子の光取出し面に臨んで前記シールドプ
レートに設けた光透過構造とを備えた画像書込み用発光
装置であって、前記光透過構造は、前記発光素子の光取
出し面の外郭全体を含む大きさの形状とし、前記発光素
子の周りに、前記光取出し面以外から漏れる光を前記光
透過構造方向へ反射させる反射手段を備えてなることを
特徴とする。SUMMARY OF THE INVENTION The present invention provides a wiring board,
A light emitting element conductively mounted on the wiring board, a shield plate disposed to face the light emitting direction of the light emitting element, and a light transmission structure provided on the shield plate facing a light extraction surface of the light emitting element. An image writing light-emitting device comprising: a light-transmitting structure having a shape having a size including an entire outer periphery of a light extraction surface of the light-emitting element; and light leaking from around the light-emitting element except from the light-extraction surface. A reflecting means for reflecting the light in the direction of the light transmitting structure.
【0013】[0013]
【発明の実施の形態】請求項1に記載の発明は、配線基
板と、前記配線基板に導通搭載された発光素子と、前記
発光素子の発光方向に対向して配置されたシールドプレ
ートと、前記発光素子の光取出し面に臨んで前記シール
ドプレートに設けた光透過構造とを備えた画像書込み用
発光装置であって、前記光透過構造は、前記発光素子の
光取出し面の外郭全体を含む大きさの形状とし、前記発
光素子の周りに、前記光取出し面以外から漏れる光を前
記光透過構造方向へ反射させる反射手段を備えてなる画
像書込み用発光装置であり、発光素子を小さくしてもそ
の発光の殆ど全てを光透過構造を抜ける光として記録媒
体に照射できるとともに、反射手段によって光の利用効
率も高めるという作用を有する。The invention according to claim 1 includes a wiring board, a light emitting element conductively mounted on the wiring board, a shield plate arranged to face a light emitting direction of the light emitting element, and A light transmission structure provided on the shield plate facing the light extraction surface of the light emitting element, wherein the light transmission structure has a size including an entire outer periphery of the light extraction surface of the light emitting element. A light emitting device for image writing, comprising a reflection means for reflecting light leaking from other than the light extraction surface in the direction of the light transmitting structure around the light emitting element. Almost all of the emitted light can be applied to the recording medium as light passing through the light transmitting structure, and the reflecting means also has the effect of increasing the light use efficiency.
【0014】請求項2に記載の発明は、配線基板と、前
記配線基板に導通搭載されたサブマウント素子と、前記
サブマウント素子に導通搭載した発光素子と、前記発光
素子の発光方向に対向して配置されたシールドプレート
と、前記発光素子の光取出し面に臨んで前記シールドプ
レートに設けた光透過構造とを備えた画像書込み用発光
装置であって、前記光透過構造は、前記発光素子の光取
出し面の外郭全体を含む大きさの形状とし、前記サブマ
ウント素子は、前記光取出し面以外から漏れる光を前記
光透過構造方向へ反射させる反射手段を備えてなる画像
書込み用発光装置であり、発光素子を小さくしてもその
発光の殆ど全てを光透過構造を抜ける光として記録媒体
に照射できるとともに、サブマウント素子をその素子と
しての機能だけでなく発光素子からの光の利用効率も高
める部材としても活用できるという作用を有する。According to a second aspect of the present invention, there is provided a wiring board, a submount element conductively mounted on the wiring board, a light emitting element conductively mounted on the submount element, and facing a light emitting direction of the light emitting element. And a light-transmitting structure provided on the shield plate facing the light extraction surface of the light-emitting element, wherein the light-transmitting structure is a light-emitting element of the light-emitting element. A light emitting device for image writing, which has a shape having a size including the entire outer periphery of the light extraction surface, and wherein the submount element includes a reflection unit that reflects light leaking from a portion other than the light extraction surface toward the light transmission structure. Even if the light emitting element is made small, almost all of the light emission can be emitted to the recording medium as light passing through the light transmission structure, and the submount element can be used only as a function of the element. Ku has the effect that can be utilized as a utilization efficiency enhancing member of the light from the light emitting element.
【0015】請求項3に記載の発明は、光透過構造を一
部に形成した配線基板と、凹状断面を持ちその凹部を前
記配線基板の一面側に臨ませて導通固定したマウントブ
ロックと、前記マウントブロックの凹部内に導通固定さ
れその光取出し面を前記光透過構造に対峙させた発光素
子とを備え、前記光透過構造は、前記発光素子の光取出
し面の外郭全体を含む大きさの形状とし、前記マウント
ブロックの凹部には、前記光取出し面以外から漏れる光
を前記光透過構造方向へ反射させる反射手段を備えてな
る画像書込み用発光装置であり、発光素子を小さくして
もその発光の殆ど全てを光透過構造を抜ける光として記
録媒体に照射できるとともに、発光素子の導通固定のた
めのマウントブロックをその発光素子からの光の利用効
率も高める部材としても活用できるという作用を有す
る。According to a third aspect of the present invention, there is provided a mounting board having a light transmitting structure formed in a part thereof, a mount block having a concave cross section, and having the concave portion facing one surface side of the wiring board and being conductively fixed; A light-emitting element which is conductively fixed in the concave portion of the mount block and has a light extraction surface facing the light transmission structure, wherein the light transmission structure has a size including an entire outer periphery of the light extraction surface of the light emission element. A light emitting device for writing an image, comprising a reflecting means for reflecting light leaking from a portion other than the light extraction surface toward the light transmitting structure in the concave portion of the mount block. And a mount block for conducting and fixing the light emitting element to improve the utilization efficiency of the light from the light emitting element. It has the effect of being able to take advantage of even.
【0016】請求項4に記載の発明は、前記発光素子の
光軸と前記光透過構造の芯をほぼ一致させてなる請求項
1から3のいずれかに記載の画像書込み用発光装置であ
り,発光素子から発する光の利用効率が高く、記録媒体
をより高い放射照度で照射できるという作用を有する。According to a fourth aspect of the present invention, there is provided the image writing light emitting device according to any one of the first to third aspects, wherein an optical axis of the light emitting element is substantially aligned with a core of the light transmitting structure. It has an effect that the use efficiency of light emitted from the light emitting element is high and the recording medium can be irradiated with higher irradiance.
【0017】請求項5に記載の発明は、前記光透過構造
と、少なくとも前記発光素子の光取出し面が前記光透過
構造に臨む部分との間に光透過性の樹脂を充填してなる
請求項1から4のいずれかに記載の画像書込み用発光装
置であり、発光素子からの光を効率的に光透過構造に取
り込むことができ、発光素子からの光の利用効率が高く
記録媒体をより高い放射照度で照射できるという作用を
有する。According to a fifth aspect of the present invention, a light transmitting resin is filled between the light transmitting structure and at least a portion of the light emitting element where the light extraction surface faces the light transmitting structure. 5. The light-emitting device for image writing according to any one of 1 to 4, wherein light from the light-emitting element can be efficiently taken into the light-transmitting structure, and the use efficiency of light from the light-emitting element is high and the recording medium is higher. It has the effect of being able to irradiate with irradiance.
【0018】請求項6に記載の発明は、前記発光素子の
光取出し面と前記光透過構造との間に、前記光取出し面
からの光を集光して前記光透過構造への光路を形成する
球面レンズを備えてなる請求項1から5のいずれかに記
載の画像書込み用発光装置であり、球面レンズによって
発光素子からの光を集光するので、その光の利用効率が
高く記録媒体をより高い放射照度で照射できるという作
用を有する。According to a sixth aspect of the present invention, light from the light extraction surface is condensed between the light extraction surface of the light emitting element and the light transmission structure to form an optical path to the light transmission structure. The light emitting device for image writing according to any one of claims 1 to 5, further comprising a spherical lens that converges light from the light emitting element by the spherical lens. It has the effect of irradiating with higher irradiance.
【0019】請求項7に記載の発明は、前記配線基板
は、金属製のベースと、前記ベースに積層した絶縁膜と
その表面に形成した配線パターンとからなり、前記ベー
スの底面には放熱用のフィンを備えてなる請求項1から
6のいずれかに記載の画像書込み用発光装置であり、フ
ィンによる放熱により発光素子の機能保全が図れるとい
う作用を有する。According to a seventh aspect of the present invention, the wiring board includes a metal base, an insulating film laminated on the base, and a wiring pattern formed on a surface of the base. The image writing light emitting device according to any one of claims 1 to 6, further comprising: a fin having a function of preserving a function of the light emitting element by radiating heat by the fin.
【0020】請求項8に記載の発明は、前記配線基板
は、装置側の固定部材に搭載固定される金属製のベース
と、前記ベースに積層した絶縁膜とその表面に形成した
配線パターンとからなり、前記ベースと固定部材の表面
粗度を細かくするとともに放熱性の固定グリースによっ
て接合してなる請求項1から6のいずれかに記載の画像
書込み用発光装置であり、放熱性の固定グリースによる
放熱と表面粗度の操作による伝熱面積の増加によって、
発光素子の機能保全が図れるという作用を有する。According to an eighth aspect of the present invention, the wiring board comprises a metal base mounted and fixed on a fixing member on the device side, an insulating film laminated on the base, and a wiring pattern formed on the surface thereof. The light-emitting device for image writing according to any one of claims 1 to 6, wherein the surface roughness of the base and the fixing member is reduced, and the base member and the fixing member are joined by a heat-dissipating fixed grease. By increasing the heat transfer area by manipulating heat radiation and surface roughness,
This has the function of maintaining the function of the light emitting element.
【0021】請求項9に記載の発明は、前記光透過構造
は、前記シールドプレートに開けた孔である請求項1か
ら8のいずれかに記載の画像書込み用発光装置であり、
孔開け加工だけで簡単に光透過構造が得られるという作
用を有する。According to a ninth aspect of the present invention, in the light emitting device for image writing according to any one of the first to eighth aspects, the light transmitting structure is a hole formed in the shield plate.
It has an effect that a light transmitting structure can be easily obtained only by drilling.
【0022】請求項10に記載の発明は、前記光透過構
造の孔の内部に光透過性樹脂を充填してなる請求項9に
記載の画像書込み用発光装置であり、孔を開けていても
光透過性樹脂によって外部からのゴミの侵入や光路の目
詰まりが防止されるという作用を有する。According to a tenth aspect of the present invention, there is provided the image writing light emitting device according to the ninth aspect, wherein a light transmitting resin is filled inside the hole of the light transmitting structure. The light-transmitting resin has an effect of preventing entry of dust from the outside and clogging of an optical path.
【0023】請求項11に記載の発明は、前記光透過構
造の孔を含んで光透光性の被膜層を形成してなる請求項
9または10記載の画像書込み用発光装置であり、被膜
層によって孔へのゴミの侵入や孔に充填された光透過性
樹脂の損傷が防止できるという作用を有する。According to a twelfth aspect of the present invention, there is provided the light emitting device for image writing according to the ninth or tenth aspect, wherein a light transmissive coating layer is formed including the holes of the light transmitting structure. This has the effect of preventing intrusion of dust into the holes and damage to the light transmitting resin filled in the holes.
【0024】請求項12に記載の発明は、前記光透過構
造の孔に、前記発光素子からの光を集光させるレンズを
備えてなる請求項9記載の画像書込み用発光装置であ
り、発光素子からの光をより効率的に記録媒体に照射で
きるという作用を有する。According to a twelfth aspect of the present invention, in the light emitting device for image writing according to the ninth aspect, a lens for condensing light from the light emitting element is provided in the hole of the light transmitting structure. Has the effect that the light from the recording medium can be more efficiently irradiated onto the recording medium.
【0025】以下、本発明の実施の形態における具体例
を図面を参照しながら説明する。図1は本発明の請求項
1に係る発明の一実施の形態であって、発光装置の要部
を示す縦断面図である。Hereinafter, a specific example of the embodiment of the present invention will be described with reference to the drawings. FIG. 1 is an embodiment of the invention according to claim 1 of the present invention, and is a longitudinal sectional view showing a main part of a light emitting device.
【0026】図1において、記録紙と対向配置されるプ
リント配線基板31の表面に配線パターン32a,32
bが形成されるとともに発光素子33が搭載され、その
上側にはシールドプレート34が配置されている。プリ
ント配線基板31及びシールドプレート34は図面の左
右及び奥行き方向に平面的に展開され、これらの間に後
述するように多数の発光素子が一様なパターンで配列さ
れる。In FIG. 1, wiring patterns 32a and 32a are formed on the surface of a printed wiring board 31 which is arranged to face recording paper.
The light-emitting element 33 is mounted on the substrate, and a shield plate 34 is disposed above the light-emitting element 33. The printed wiring board 31 and the shield plate 34 are developed in a plane in the left, right, and depth directions of the drawing, and a large number of light emitting elements are arranged in a uniform pattern therebetween as described later.
【0027】発光素子33は、たとえばGaN系化合物
半導体を利用した青色発光のもので、サファイアを利用
した基板33aにGaNのn型層33bとp型層33c
を積層している。そして、n型層33bとp型層33c
のそれぞれの表面にn電極33d及びp電極33eを形
成し、これらの電極33d,33eをそれぞれワイヤ3
3f,33gによって配線パターン32a,32bにボ
ンディングしている。したがって、配線パターン32
a,32bによる導通により、n型層33bとp型層3
3cとの間の活性層から発光し、n及びpの電極33
d,33eを形成した上面を主光取出し面として図にお
いて上向きの発光が得られる。The light emitting element 33 emits blue light using, for example, a GaN-based compound semiconductor. A GaN n-type layer 33b and a GaN p-type layer 33c are formed on a substrate 33a using sapphire.
Are laminated. Then, the n-type layer 33b and the p-type layer 33c
An n-electrode 33d and a p-electrode 33e are formed on the respective surfaces of
3f and 33g are used to bond to the wiring patterns 32a and 32b. Therefore, the wiring pattern 32
a, 32b, the n-type layer 33b and the p-type layer 3
3c, light is emitted from the active layer, and n and p electrodes 33
With the upper surface on which d and 33e are formed as the main light extraction surface, upward light emission in the figure is obtained.
【0028】一方、シールドプレート34は、発光素子
33の配列パターンに整合させて光透過窓34aを光透
過構造として設けたものである。すなわち、シールドプ
レート34をたとえば透明のガラス板とした場合、表面
をマスクパターン34bによって遮光処理することで光
透過窓34a部分だけを光が透過できる開口とし、光透
過窓34aを除く部分は全て遮光されている。光透過窓
34aは発光素子33の平面外郭形状よりも大きな開口
断面を持ち、その中心を発光素子33の光軸にほぼ一致
する関係とする。On the other hand, the shield plate 34 is provided with a light transmitting window 34a as a light transmitting structure in conformity with the arrangement pattern of the light emitting elements 33. That is, when the shield plate 34 is made of, for example, a transparent glass plate, the surface is light-shielded by the mask pattern 34b so that only the light transmission window 34a is an opening through which light can be transmitted, and all portions except the light transmission window 34a are light-shielded. Have been. The light transmission window 34 a has an opening cross section larger than the planar outer shape of the light emitting element 33, and the center thereof is set to be substantially coincident with the optical axis of the light emitting element 33.
【0029】プリント配線基板31とシールドプレート
34との間には、発光素子33を囲むように光反射性の
樹脂層35を充填する。この樹脂層35は上端側を光透
過窓34aの内径にほぼ一致させるとともに発光素子3
3の周りの内周面が下端側に向けてすり鉢状となるよう
に形成されたものである。このように樹脂層35を備え
ることによって、発光素子33の活性層から側方に漏れ
る光を樹脂層35の内周面で反射させて光透過窓34a
側に回収することができる。The space between the printed wiring board 31 and the shield plate 34 is filled with a light-reflective resin layer 35 so as to surround the light emitting element 33. The resin layer 35 has an upper end side substantially equal to the inner diameter of the light transmission window 34 a and the light emitting element 3.
The inner peripheral surface around 3 is formed in a mortar shape toward the lower end side. By providing the resin layer 35 in this manner, light leaking laterally from the active layer of the light emitting element 33 is reflected by the inner peripheral surface of the resin layer 35, and the light transmission window 34a is formed.
Can be collected on the side.
【0030】以上の構成において、発光素子33へ通電
されるとき、側方に漏れる光は光反射性の樹脂層35の
内周面が反射面となって光透過窓34a側に回収され、
主光取出し面からの光と合わせて放射パワーが大幅に向
上する。また、発光素子33からの光はこれよりも大き
な光透過窓34aから記録媒体側に照射されるので、発
光素子33の主光取出し面からの発光の全体を画像書込
みに利用できる。In the above configuration, when the light-emitting element 33 is energized, the light leaking to the side is collected on the side of the light transmitting window 34a with the inner peripheral surface of the light-reflective resin layer 35 serving as a reflecting surface.
The radiation power is greatly improved in combination with the light from the main light extraction surface. Further, since the light from the light emitting element 33 is irradiated to the recording medium side from the light transmission window 34a which is larger than this, the entire light emission from the main light extraction surface of the light emitting element 33 can be used for image writing.
【0031】このように発光素子33の大きさを光透過
窓34aよりも小さくすることによって、主光取出し面
全体からの発光を記録媒体への照射光とすることができ
る。したがって、光透過窓34a以外を遮光してしまう
場合でも、発光素子33からの発光を有効に利用でき
る。また、発光素子33を小さくしても、光反射性の樹
脂層35の反射面からの光が回収できるので、照射パワ
ーが低下することはない。このため、発光素子33の放
射パワーは、反射面から回収される光に相当する分だけ
小さくなっても支障がないので、発光素子33の小型化
によるコスト低減が図られる。By making the size of the light emitting element 33 smaller than that of the light transmission window 34a, light emitted from the entire main light extraction surface can be used as light for irradiating the recording medium. Therefore, even when the light other than the light transmitting window 34a is shielded, the light emitted from the light emitting element 33 can be effectively used. Further, even if the light emitting element 33 is made small, the light from the reflection surface of the light-reflective resin layer 35 can be collected, so that the irradiation power does not decrease. For this reason, since there is no problem even if the radiation power of the light emitting element 33 is reduced by an amount corresponding to the light collected from the reflection surface, cost reduction is achieved by downsizing the light emitting element 33.
【0032】なお、図1の例では反射手段として光反射
性の樹脂層35としたが、これに代えて光反射率の高い
金属プレートを絶縁処理したものを用い、配線パターン
32a,32bと短絡しないように発光素子33の周り
に配置して反射させるようにしてもよい。In the example shown in FIG. 1, the light reflecting resin layer 35 is used as the reflecting means, but instead, a metal plate having a high light reflectance is insulated and short-circuited with the wiring patterns 32a and 32b. It may be arranged around the light emitting element 33 so as not to be reflected.
【0033】図2は本発明の発光装置の別の例の要部を
示す縦断面図である。図2において、記録紙と対向配置
されるプリント配線基板1の表面に配線パターン2a,
2bが形成され、配線パターン2aには複合半導体発光
素子Aを導通搭載するとともにワイヤ3によって配線パ
ターン2bとの間をボンディングし、更に複合半導体発
光素子Aの上にはシールドプレート4が配置されてい
る。FIG. 2 is a longitudinal sectional view showing a main part of another example of the light emitting device of the present invention. In FIG. 2, a wiring pattern 2a,
2b, the composite semiconductor light emitting element A is conductively mounted on the wiring pattern 2a, the wiring pattern 2b is bonded to the wiring pattern 2b with the wire 3, and a shield plate 4 is disposed on the composite semiconductor light emitting element A. I have.
【0034】プリント配線基板1は金属製のベース1a
とその表面に積層した絶縁膜1bとから構成され、シー
ルドプレート4はガラス,プラスチックス,ステンレ
ス,透明樹脂等を素材としたものである。そして、プリ
ント配線基板1及びシールドプレート4は図面の左右及
び奥行き方向に平面的に展開され、これらの間に後述す
るように多数の発光素子が一様なパターンで配列されて
いる。The printed wiring board 1 is made of a metal base 1a.
The shield plate 4 is made of glass, plastics, stainless steel, transparent resin, or the like. The printed wiring board 1 and the shield plate 4 are developed in a plane in the left, right, and depth directions of the drawing, between which a large number of light emitting elements are arranged in a uniform pattern as described later.
【0035】複合半導体発光素子Aは、静電気保護のた
めのSiダイオード5をサブマウント素子として備え、
このSiダイオード5に搭載した青色発光のLEDの発
光素子6との組合せとしたものである。The composite semiconductor light emitting device A includes a Si diode 5 for protecting against static electricity as a submount device.
This is a combination with a light emitting element 6 of a blue light emitting LED mounted on the Si diode 5.
【0036】Siダイオード5は、n型シリコン基板5
aを基材としてその底面に導電性ペースト7を介して配
線パターン2aと電気的に導通させるためのn極5bを
形成したものである。n型シリコン基板5aは、図3の
概略図に示すように上端側を円形の開口としてすり鉢状
とした凹部5a−1を形成し、この凹部5a−1の周り
の上端面の一部にはワイヤ3を通すための切欠5a−2
を設けたものである。そして、図2に示すように、n型
シリコン基板5aの上面にはその一部を除いて酸化膜5
cを形成し、酸化膜5cで被覆されていない部分を拡散
窓としてp型不純物イオンを注入することによって、n
型シリコン基板5aの一部にp型半導体領域5dを拡散
形成している。The Si diode 5 is an n-type silicon substrate 5
In this example, an n-electrode 5b is formed on the bottom surface of the substrate 5a to electrically connect to the wiring pattern 2a via the conductive paste 7 on the bottom surface. As shown in the schematic diagram of FIG. 3, the n-type silicon substrate 5a forms a mortar-shaped concave portion 5a-1 having a circular opening at the upper end side, and a part of the upper end surface around the concave portion 5a-1 is formed. Notch 5a-2 for passing wire 3
Is provided. Then, as shown in FIG. 2, the oxide film 5 is formed on the upper surface of the n-type silicon substrate 5a except for a part thereof.
c is formed, and p-type impurity ions are implanted by using a portion not covered with the oxide film 5c as a diffusion window, thereby forming n.
A p-type semiconductor region 5d is formed in a part of the silicon substrate 5a by diffusion.
【0037】n型シリコン基板5aの上面には、酸化膜
5c部分を含めてn電極8aとp電極8bがそれぞれ金
属蒸着法により形成されている。n電極8aは図2にお
いて凹部5a−1のほぼ左半分を占める底部とこれから
立ち上がる内周面にかけて形成され、酸化膜5cが形成
されずにn型シリコン基板5aが露出している部分に接
合されている。一方、p電極8bは凹部5a−1のほぼ
右半分を占める領域に形成されn型シリコン基板5aに
拡散形成したp型半導体領域5dに接合されている。On the upper surface of the n-type silicon substrate 5a, an n-electrode 8a and a p-electrode 8b including the oxide film 5c are formed by metal deposition. The n-electrode 8a is formed over the bottom occupying almost the left half of the concave portion 5a-1 in FIG. 2 and the inner peripheral surface rising therefrom, and is joined to a portion where the oxide film 5c is not formed and the n-type silicon substrate 5a is exposed. ing. On the other hand, the p-electrode 8b is formed in a region occupying substantially the right half of the concave portion 5a-1, and is joined to the p-type semiconductor region 5d diffused and formed in the n-type silicon substrate 5a.
【0038】青色発光の発光素子6は、GaN系化合物
半導体を絶縁性の基板に積層してフリップチップ型とし
てSiダイオード5の上面に搭載されたものである。こ
の発光素子6は、図1の例と同様に、透明のサファイア
基板6aに積層したn型層及びp型層のそれぞれの表面
にn側電極6b及びp側電極6cを蒸着法によって形成
したもので、これらのn側電極6b及びp側電極6cの
表面にはそれぞれバンプ電極6d,6eが形成されてい
る。そして、発光素子6は、図2に示すように、Siダ
イオード5のn電極8aとp電極8bとに跨がる配置と
して搭載され、n側電極6b及びp側電極6cをそれぞ
れp電極8b及びn電極8aにマウント接合し、ワイヤ
3はp電極8bにボンディングされた後にプリント配線
基板1の配線パターン2bに対してボンディングされ
る。更に、このワイヤ3のボンディングの後、凹部5a
−1の内部の全体が透明または光透過性の封止樹脂9に
よってモールドされ、発光素子6及びワイヤ3のボンデ
ィング部分を保護する。The light emitting element 6 for emitting blue light is a device in which a GaN-based compound semiconductor is laminated on an insulating substrate and mounted on the upper surface of the Si diode 5 as a flip-chip type. This light-emitting element 6 has an n-side electrode 6b and a p-side electrode 6c formed on the respective surfaces of an n-type layer and a p-type layer laminated on a transparent sapphire substrate 6a by a vapor deposition method as in the example of FIG. The bump electrodes 6d and 6e are formed on the surfaces of the n-side electrode 6b and the p-side electrode 6c, respectively. Then, as shown in FIG. 2, the light-emitting element 6 is mounted so as to straddle the n-electrode 8a and the p-electrode 8b of the Si diode 5, and the n-electrode 6b and the p-electrode 6c are respectively connected to the p-electrode 8b and the p-electrode 8b. The wire 3 is mounted on the n-electrode 8a and bonded to the wiring pattern 2b of the printed wiring board 1 after being bonded to the p-electrode 8b. Further, after the bonding of the wire 3, the concave portion 5a is formed.
The entire inside of -1 is molded with a transparent or light-transmitting sealing resin 9 to protect the bonding portion between the light emitting element 6 and the wire 3.
【0039】このような発光素子6の周りの導通構造で
は、発光素子6はSiダイオード5に対してp,nが逆
極性として接続されているので、順方向電圧に対しては
Siダイオード5のn型シリコン基板5aの抵抗成分が
保護抵抗として作用し、ツェナー降伏電圧以上の電圧に
よって開くバイパスにより過電流が逃がされる。また、
逆方向電圧に対しては、Siダイオード5の順方向の特
性によるバイパスによって過電流が逃がされる。したが
って、過電流が発光素子6に流れるのを防止でき、これ
によって発光素子6の静電破壊が防止できる。In such a conductive structure around the light emitting element 6, since the light emitting element 6 is connected to the Si diode 5 with p and n having the opposite polarities, the light emitting element 6 is connected to the Si diode 5 with respect to the forward voltage. The resistance component of the n-type silicon substrate 5a acts as a protection resistor, and an overcurrent is released by a bypass opened by a voltage equal to or higher than the Zener breakdown voltage. Also,
With respect to the reverse voltage, the overcurrent is released by the bypass due to the forward characteristic of the Si diode 5. Therefore, it is possible to prevent an overcurrent from flowing to the light emitting element 6, thereby preventing the light emitting element 6 from being electrostatically damaged.
【0040】ここで、Siダイオード5の凹部5a−1
はすり鉢状に形成されていてその中に発光素子6を落と
し込ませているので、凹部5a−1の底面及び内周面を
光反射面とすれば放射パワーの向上が可能である。すな
わち、凹部5a−1の中に形成するn電極8a及びp電
極8bを光反射率が高いAlまたはAg等によって蒸着
すれば、凹部5a−1の中の全体を光反射面とすること
ができる。そして、発光素子6をそのサファイア基板6
aがシールドプレート4を向くフリップチップ型の搭載
とする場合では、発光層からの光は図2において下側及
び側方へ抜ける成分が含まれるので、これらをn及びp
の電極8a,8bの表面による光反射を利用して発光方
向へ回収できる。Here, the concave portion 5a-1 of the Si diode 5
Since the light emitting element 6 is formed in a mortar shape and the light emitting element 6 is dropped therein, the radiation power can be improved if the bottom surface and the inner peripheral surface of the concave portion 5a-1 are formed as light reflecting surfaces. That is, if the n-electrode 8a and the p-electrode 8b formed in the concave portion 5a-1 are deposited with Al or Ag having a high light reflectivity, the entire inside of the concave portion 5a-1 can be made a light reflecting surface. . Then, the light emitting element 6 is connected to the sapphire substrate 6.
In the case of the flip-chip type mounting in which a is directed to the shield plate 4, the light from the light emitting layer includes components that pass down and to the side in FIG.
The light can be collected in the light emitting direction by utilizing the light reflection by the surfaces of the electrodes 8a and 8b.
【0041】また、発光素子6の中心を凹部5a−1の
中心に一致させるようにアセンブリすれば、発光素子6
の光軸をn及びpの電極8a,8bによる反射面の中央
に位置させることができる。したがって、発光素子6の
発光方向へ反射面からの光を集光させることができ、発
光ビームの集束化とそのパワーの向上が可能となる。そ
して、光透過性の透明の封止樹脂9を用いることによっ
て、光取出し効率も向上する。If the light emitting element 6 is assembled so that the center of the light emitting element 6 coincides with the center of the concave portion 5a-1, the light emitting element 6
Can be positioned at the center of the reflection surface formed by the n and p electrodes 8a and 8b. Therefore, the light from the reflecting surface can be converged in the light emitting direction of the light emitting element 6, and the convergence of the emitted light beam and the improvement of its power can be achieved. The light extraction efficiency is also improved by using the light-transmitting transparent sealing resin 9.
【0042】一方、シールドプレート4は、図2に示す
ように、Siダイオード5の上端に接触する配置として
固定されている。そして、このシールドプレート4には
プリント配線基板1に搭載した複合半導体発光素子Aの
配列パターンに整合させて光透過窓4aを光透過構造と
して設けている。この光透過窓4aは円形の平面形状を
持ち、その中心を発光素子6の光軸にほぼ一致する関係
とする。そして、光透過窓4aの大きさはSiダイオー
ド5の凹部5a−1の上端の開口径とほぼ同じであり、
発光素子6よりも大きな内径を持つ。On the other hand, as shown in FIG. 2, the shield plate 4 is fixed so as to be in contact with the upper end of the Si diode 5. The shield plate 4 has a light-transmitting window 4a as a light-transmitting structure that matches the arrangement pattern of the composite semiconductor light-emitting elements A mounted on the printed wiring board 1. The light transmitting window 4a has a circular planar shape, and the center of the light transmitting window 4a substantially coincides with the optical axis of the light emitting element 6. The size of the light transmission window 4a is substantially the same as the opening diameter of the upper end of the concave portion 5a-1 of the Si diode 5,
It has a larger inner diameter than the light emitting element 6.
【0043】発光素子6へ通電されるときには、Siダ
イオード5によって発光素子6の静電破壊が防止され、
その耐久性の向上が図られる。そして、発光素子6から
の発光は、その光軸とほぼ調心させたSiダイオード5
のn及びpの電極8a,8bを反射面として光透過窓4
a側に回収され、光取出し面からの光と合わせて放射パ
ワーが大幅に向上する。また、発光素子6からの光はこ
れよりも大きな光透過窓4aから照射されるので、発光
素子6の全体と凹部5a−1のn及びpの電極8a,8
bを利用した反射面の全体からの光が取り出せる。When the light emitting element 6 is energized, the Si diode 5 prevents the light emitting element 6 from being electrostatically damaged.
The durability is improved. Light emitted from the light emitting element 6 is emitted from the Si diode 5 that is substantially aligned with its optical axis.
The light transmission window 4 has the n and p electrodes 8a and 8b as reflection surfaces.
The radiated power is significantly improved by being collected on the side a and being combined with the light from the light extraction surface. In addition, since the light from the light emitting element 6 is irradiated from the light transmitting window 4a which is larger than the light transmitting element 6, the entire light emitting element 6 and the n and p electrodes 8a and 8 of the concave portion 5a-1 are formed.
Light from the entire reflecting surface using b can be extracted.
【0044】このように発光素子6の大きさを光透過窓
4aよりも小さくすることによって、主光取出し面とな
るサファイア基板6aの全体からの発光を記録媒体への
照射光とすることができる。したがって、光透過窓4a
以外を遮光してしまう場合でも、発光素子6からの発光
を有効に利用できる。また、発光素子6を小さくして
も、n及びpの電極8a,8bの反射面からの光が回収
できるので、図1の例と同様に、照射パワーが低下する
ことはない。By making the size of the light emitting element 6 smaller than that of the light transmitting window 4a, light emitted from the entire sapphire substrate 6a serving as a main light extraction surface can be used as irradiation light to the recording medium. . Therefore, the light transmission window 4a
Even when light is shielded from light other than the above, light emission from the light emitting element 6 can be effectively used. Further, even if the light emitting element 6 is made smaller, the light from the reflecting surfaces of the n and p electrodes 8a and 8b can be collected, so that the irradiation power does not decrease as in the example of FIG.
【0045】図4は発光素子6と光透過窓4aとの間に
集光用の球面レンズ10を組み込んだ例を示す要部の概
略図である。FIG. 4 is a schematic view of an essential part showing an example in which a converging spherical lens 10 is incorporated between the light emitting element 6 and the light transmitting window 4a.
【0046】なお、この図4の例も含め、図5以降の各
例においては、図2及び図3で示した同じ構成部材につ
いて共通の符号で指示し、その詳細な説明は省略する。
また、Siダイオード5,発光素子6及びプリント配線
基板1との間の導通構造は図1に示したものと全く同様
である。In addition, in each of the examples shown in FIG. 5 and subsequent figures including the example shown in FIG. 4, the same components as those shown in FIGS. 2 and 3 are designated by the same reference numerals, and detailed description thereof will be omitted.
The conductive structure between the Si diode 5, the light emitting element 6 and the printed wiring board 1 is exactly the same as that shown in FIG.
【0047】図4において、Siダイオード5の上に導
通搭載した発光素子6のサファイア基板6aの上面に
は、発光素子6の光軸に中心が位置するように球面レン
ズ10が接着剤10aによって固定されている。この球
面レンズ10を組み込むため、プリント配線基板1とシ
ールドプレート4との間の間隔は図2の例に比べて広く
し、光透過窓4aは先の例と同様に発光素子6の光軸に
対して調心するアセンブリとする。In FIG. 4, a spherical lens 10 is fixed on an upper surface of a sapphire substrate 6a of a light emitting element 6 conductively mounted on a Si diode 5 by an adhesive 10a so that the center is located on the optical axis of the light emitting element 6. Have been. In order to incorporate this spherical lens 10, the distance between the printed wiring board 1 and the shield plate 4 is made wider than in the example of FIG. 2, and the light transmission window 4a is located at the optical axis of the light emitting element 6 as in the previous example. An assembly that aligns with the assembly.
【0048】このような球面レンズ10を光路中に備え
ることによって、Siダイオード5の上端をシールドプ
レート4の下面に突き当てない配置であっても、発光素
子6からの発光及び凹部5a−1内に位置しているn及
びpの電極(8a,8b:図2参照)の反射面からの反
射光を集光して光透過窓4aから照射できる。また、照
射光のビームを記録紙上で焦点を結ぶような球面レンズ
10の形状とすることによって、書込み画像の解像度を
更に向上させることができる。By providing such a spherical lens 10 in the optical path, even if the upper end of the Si diode 5 is not abutted against the lower surface of the shield plate 4, the light emission from the light emitting element 6 and the inside of the recess 5 a-1 can be achieved. The light reflected from the reflective surfaces of the n and p electrodes (8a, 8b: see FIG. 2) located at the position (1) can be collected and irradiated from the light transmission window 4a. The resolution of the written image can be further improved by forming the shape of the spherical lens 10 so that the irradiation light beam is focused on the recording paper.
【0049】図5はシールドプレート4の光透過窓4a
をレンズ構造とした例を示す縦断面図である。FIG. 5 shows the light transmission window 4a of the shield plate 4.
FIG. 3 is a longitudinal sectional view showing an example in which is a lens structure.
【0050】図5の(a)の例は光透過窓4aを複数の
ガラスファイバ4bを組み込んだものとし、これらのガ
ラスファイバ4bの集合によって凸面のレンズ4cとし
たものである。また、同図の(b)は同様に複数のガラ
スファイバ4dを組み込んで凹面のレンズ4eとしたも
のである。In the example of FIG. 5A, the light transmitting window 4a incorporates a plurality of glass fibers 4b, and a convex lens 4c is formed by assembling the glass fibers 4b. (B) of the same figure shows a case where a plurality of glass fibers 4d are similarly incorporated to form a concave lens 4e.
【0051】このように凸面のレンズ4cまたは凹面の
レンズ4eによって光透過窓4aを構成することによっ
て、シールドプレート4の表面から記録紙までの距離に
対応させた光の集光が可能となり、書込みの解像度の向
上が可能となる。By forming the light transmitting window 4a with the convex lens 4c or the concave lens 4e in this manner, it becomes possible to condense light corresponding to the distance from the surface of the shield plate 4 to the recording paper. Resolution can be improved.
【0052】図6は発光素子6からの発光の取出しを促
すための別の構成を示す概略図である。FIG. 6 is a schematic diagram showing another configuration for promoting light emission from the light emitting element 6. In FIG.
【0053】図6の(a)は図2に示した構成における
封止樹脂9に代えて、発光素子6のサファイア基板6a
の表面に光透過性樹脂11を積層した例であり、図2の
例のようにSiダイオード5の凹部5a−1の全体を樹
脂で封止するよりも、サファイア基板6aからの発光の
取出し効率を上げることができる。FIG. 6A shows a sapphire substrate 6a of the light emitting element 6 in place of the sealing resin 9 in the configuration shown in FIG.
This is an example in which the light-transmitting resin 11 is laminated on the surface of the sapphire substrate 6a, as compared with the case where the entire recess 5a-1 of the Si diode 5 is sealed with resin as in the example of FIG. Can be raised.
【0054】図6の(b)は、シールドプレート4の光
透過窓4aを光透過性樹脂12aの充填層とし、この光
透過性樹脂12aの表面も含めて全体を光透過性シート
12bで被覆したものである。光透過性シート12b
は、ガラスや合成樹脂の薄膜が利用できる。この例でも
発光素子6からの発光の取出し効率の向上が可能であ
る。また、シールドプレート4に孔を開けこの中に光透
過性樹脂12aを充填して光透過窓4aを形成するよう
にしても、光透過性シート12bによって封止されるの
で外部からの塵等の入り込みが防止され、発光素子6の
保全性が高まる。FIG. 6 (b) shows the light transmitting window 4a of the shield plate 4 as a filling layer of the light transmitting resin 12a, and the entire surface including the surface of the light transmitting resin 12a is covered with the light transmitting sheet 12b. It was done. Light transmitting sheet 12b
Can be a thin film of glass or synthetic resin. Also in this example, it is possible to improve the efficiency of extracting light emitted from the light emitting element 6. Also, even if a hole is formed in the shield plate 4 and the light-transmitting resin 12a is filled therein to form the light-transmitting window 4a, it is sealed by the light-transmitting sheet 12b, so that dust and the like from the outside can be prevented. Penetration is prevented, and the integrity of the light emitting element 6 is improved.
【0055】なお、シールドプレート4に光透過窓4a
として孔を開けるような場合では、光透過性シート12
bだけを設けてこの孔を塞ぐ構成としてもよいことは無
論である。The light transmitting window 4a is provided on the shield plate 4.
In such a case that a hole is formed, the light transmitting sheet 12
It is a matter of course that the hole may be closed by providing only b.
【0056】このように発光素子6からの光の取出しを
促す構成として各種のものが適用できるが、図4の球面
レンズ10を搭載した発光素子6を図5のレンズ4c,
4eまたは図6の(b)の構成との組合せとしてもよ
い。また、図6の(a)の光透過性樹脂11を積層した
発光素子6を図5の(a)及び(b)のレンズ4c,4
eと組合せることもできる。いずれの場合にも、発光素
子6からの発光の取出しを促すことができ、使用条件等
に応じた最適な構成の組合せとすればよい。As described above, various configurations can be applied as a configuration for promoting light extraction from the light emitting element 6. The light emitting element 6 having the spherical lens 10 shown in FIG.
4e or a combination with the configuration of FIG. 6 (b). Further, the light emitting element 6 in which the light transmitting resin 11 of FIG. 6A is laminated is replaced with the lenses 4c and 4 of FIGS. 5A and 5B.
It can also be combined with e. In any case, it is possible to encourage the emission of light from the light emitting element 6, and a combination of optimal configurations according to use conditions and the like may be used.
【0057】図7はプリント配線基板1からの放熱を促
して発光素子6への熱影響を抑えてその放射パワーが保
てる構成を示す概略図である。FIG. 7 is a schematic diagram showing a configuration in which heat radiation from the printed wiring board 1 is promoted to suppress the thermal effect on the light emitting element 6 and the radiation power can be maintained.
【0058】図7の(a)はプリント配線基板1のベー
ス1aの材料を熱伝導率が高いアルミニウムとし、その
下面には多数の凹凸形状としたフィン1cを形成した例
である。このようにフィン1cを設けることによって、
発光時に高温となる発光素子6からの熱は絶縁膜1bか
らベース1aに伝熱され、フィン1cから放熱される。
したがって、発光素子6の高温化が抑えられ放射パワー
の低下を免れ得る。FIG. 7A shows an example in which the material of the base 1a of the printed wiring board 1 is aluminum having a high thermal conductivity, and a plurality of fins 1c having an uneven shape are formed on the lower surface thereof. By providing the fins 1c in this manner,
The heat from the light emitting element 6, which becomes high temperature during light emission, is transferred from the insulating film 1b to the base 1a and is radiated from the fins 1c.
Therefore, the temperature rise of the light emitting element 6 is suppressed, and the radiation power can be prevented from lowering.
【0059】図7の(b)はプリント配線基板1をマウ
ントする固定部材13との間に放熱性の固定グリース1
3aを介在させた例である。固定部材13は書込み装置
の内部に配置されてプリント配線基板1を取り付けるた
めのもので、金属を材料としたものである。そして、プ
リント配線基板1のベース1aの底面と固定部材13の
表面粗度を比較的小さくしておき、両者を放熱性の固定
グリース13aで接合するときの表面積を広くする。こ
のような表面粗度の関係によってベース1aから固定部
材13への伝熱面積を広げることができ、放熱性の固定
グリース13aによってベース1aから固定部材13へ
の熱伝達が促される。したがって、同図の(a)の例と
同様に、発光素子6の高温化の抑制が可能となり、放射
パワーを安定したレベルに維持できる。FIG. 7B shows a heat-dissipating fixed grease 1 between the printed circuit board 1 and a fixed member 13 for mounting the printed wiring board 1.
This is an example where 3a is interposed. The fixing member 13 is disposed inside the writing device for mounting the printed wiring board 1, and is made of metal. The surface roughness of the bottom surface of the base 1a of the printed wiring board 1 and the surface roughness of the fixing member 13 are made relatively small, and the surface area when joining them with the heat-dissipating fixing grease 13a is increased. The heat transfer area from the base 1a to the fixing member 13 can be increased by such a relationship of the surface roughness, and heat transfer from the base 1a to the fixing member 13 is promoted by the heat-dissipating fixing grease 13a. Therefore, as in the example of FIG. 7A, it is possible to suppress the temperature of the light emitting element 6 from rising, and to maintain the radiation power at a stable level.
【0060】なお、図4〜図7のそれぞれの例において
も、図2の例で示したようにSiダイオード5の凹部5
a−1に形成されたn及びpの電極8a,8bを反射面
として利用することで、放射パワーを上げることができ
る。Note that, in each of the examples of FIGS. 4 to 7, as shown in the example of FIG.
The radiation power can be increased by using the n and p electrodes 8a and 8b formed in a-1 as the reflection surface.
【0061】図8は別の例を示す要部の縦断面図であ
り、これはシールドプレートをなくしてプリント配線基
板で兼用する構成としたものである。FIG. 8 is a longitudinal sectional view of a main part showing another example, in which a shield plate is eliminated and a printed wiring board is also used.
【0062】図8において、下面側に導体パターンを形
成したプリント配線基板21に光透過部としての光透過
窓21aを設け、この光透過窓21aに対応して発光素
子6を配置するためのマウントブロック22がプリント
配線基板21の下面に固定されている。In FIG. 8, a light transmitting window 21a as a light transmitting portion is provided on a printed wiring board 21 having a conductor pattern formed on the lower surface side, and a mount for disposing the light emitting element 6 corresponding to the light transmitting window 21a. The block 22 is fixed to the lower surface of the printed wiring board 21.
【0063】マウントブロック22はシリコン基板22
aを素材とし、図1のSiダイオード5の例と同様に内
部にすり鉢状の凹部22bを形成したものである。そし
て、凹部22bの表面には酸化膜22cを形成するとと
もに、この酸化膜22cの表面に一対の電極22d,2
2eを設けている。これらの電極22d,22eは、凹
部22bの内周面から底部にかけて展開して形成され、
マウントブロック22を導電性接着剤23によってプリ
ント配線基板21に固定することで、このプリント配線
基板21の導体パターンに導通する。そして、電極22
d,22eには発光素子6のp側及びn側の電極6c,
6bをそれぞれバンプ電極6e,6dによって導通させ
て発光素子6が凹部22b内に搭載される。The mount block 22 is a silicon substrate 22
a is made of a material, and a mortar-shaped concave portion 22b is formed inside similarly to the example of the Si diode 5 of FIG. Then, an oxide film 22c is formed on the surface of the concave portion 22b, and a pair of electrodes 22d and 2d are formed on the surface of the oxide film 22c.
2e is provided. These electrodes 22d and 22e are formed by developing from the inner peripheral surface to the bottom of the concave portion 22b.
By fixing the mount block 22 to the printed wiring board 21 with the conductive adhesive 23, the conductive pattern of the printed wiring board 21 is conducted. And the electrode 22
d and 22e are the p-side and n-side electrodes 6c of the light emitting element 6,
The light-emitting element 6 is mounted in the recess 22b by making the bumps 6b conductive by the bump electrodes 6e and 6d, respectively.
【0064】この構成においても、発光素子6は光透過
窓21aよりも小さいこととその周りの電極の22d,
22eを利用した反射面によって発光強度を上げること
ができる。また、シールドプレートを備えないで、プリ
ント配線基板21とマウントブロック22だけの組合わ
せとしているので、図1及び図2の例の構成に比べると
薄型化できる。Also in this configuration, the light emitting element 6 is smaller than the light transmission window 21a and the electrodes 22d and 22d around the light transmission window 21a.
The light emission intensity can be increased by the reflection surface using 22e. In addition, since the printed circuit board 21 and the mount block 22 are combined without a shield plate, the thickness can be reduced as compared with the configurations of the examples of FIGS.
【0065】[0065]
【発明の効果】本発明では、発光素子の光取出し面から
の発光の全てを光透過構造から照射させると同時に反射
手段によって光取出し面以外から漏れる光を反射させる
ことができるので、発光素子を小さくしても画像書込み
に必要な光の照射量が得られる。したがって、発光素子
の小型化によるコスト低減が可能となる。According to the present invention, all of the light emitted from the light extraction surface of the light emitting element can be emitted from the light transmitting structure, and at the same time, the light leaking from other than the light extraction surface can be reflected by the reflection means. Even if it is small, the amount of light irradiation necessary for writing an image can be obtained. Therefore, the cost can be reduced by downsizing the light emitting element.
【図1】本発明の画像書込み用発光装置の要部を示す縦
断面図FIG. 1 is a longitudinal sectional view showing a main part of a light emitting device for image writing according to the present invention.
【図2】本発明の画像書込み用発光装置の別の例の要部
を示す縦断面図FIG. 2 is a longitudinal sectional view showing a main part of another example of the image writing light emitting device of the present invention.
【図3】図2の発光装置に備える複合半導体発光素子の
概略斜視図FIG. 3 is a schematic perspective view of a composite semiconductor light emitting element included in the light emitting device of FIG. 2;
【図4】発光素子の上面に球面レンズを備える発光装置
の要部を示す縦断面図FIG. 4 is a longitudinal sectional view showing a main part of a light emitting device having a spherical lens on an upper surface of a light emitting element.
【図5】ガラスファイバによるレンズを利用した発光装
置の例を示す概略縦断面図FIG. 5 is a schematic longitudinal sectional view showing an example of a light emitting device using a glass fiber lens.
【図6】発光素子からの光取出し効率を上げる別の構成
例であって、(a)は発光素子の上に光透過性樹脂を積
層した例の縦断面図 (b)はシールドプレートの光透過窓に光透過性樹脂を
充填した例の概略図6A is a vertical sectional view of another example in which a light-transmitting resin is laminated on the light-emitting element, and FIG. Schematic diagram of an example in which a light-transmitting resin is filled in a transmission window
【図7】プリント配線基板からの放熱によって放射パワ
ーを抑制する例であって、(a)はプリント配線基板の
ベースにフィンを形成した例を示す縦断面図 (b)は固定部材との間に固定グリースを塗布した例を
示す縦断面図7A and 7B are examples in which radiation power is suppressed by heat radiation from a printed wiring board, and FIG. 7A is a longitudinal sectional view showing an example in which a fin is formed on a base of the printed wiring board; FIG. Longitudinal sectional view showing an example of applying fixed grease to
【図8】プリント配線基板とマウントブロックを組合わ
せた例を示す縦断面図FIG. 8 is a longitudinal sectional view showing an example in which a printed wiring board and a mount block are combined.
1 プリント配線基板 1a ベース 1b 絶縁膜 1c フィン 2a,2b 配線パターン 3 ワイヤ 4 シールドプレート 4a 光透過窓 4b,4d ガラスファイバ 4c,4e レンズ 5 Siダイオード(サブマウント素子) 5a n型シリコン基板 5a−1 凹部 5a−2 切欠 5b n極 5c 酸化膜 5d p型半導体領域 6 発光素子 6a サファイア基板 6b n側電極 6c p側電極 6d,6e バンプ電極 7 導電性ペースト 8a n電極 8b p電極 9 封止樹脂 10 球面レンズ 10a 接着剤 11 光透過性樹脂 12a 光透過性樹脂 12b 光透過性シート 13 固定部材 13a 固定グリース 21 プリント配線基板 21a 光透過窓 22 マウントブロック 22a シリコン基板 22b 凹部 22c 酸化膜 22d,22e 電極 23 導電性接着剤 31 プリント配線基板 32a,32b 配線パターン 33 発光素子 33a 基板 33b n型層 33c p型層 33d n電極 33e p電極 33f,33g ワイヤ 34 シールドプレート 34a 光透過窓 34b マスクパターン 35 樹脂層 DESCRIPTION OF SYMBOLS 1 Printed wiring board 1a Base 1b Insulating film 1c Fin 2a, 2b Wiring pattern 3 Wire 4 Shield plate 4a Light transmission window 4b, 4d Glass fiber 4c, 4e Lens 5 Si diode (submount element) 5a n-type silicon substrate 5a-1 Recess 5a-2 notch 5b n-pole 5c oxide film 5d p-type semiconductor region 6 light emitting element 6a sapphire substrate 6b n-side electrode 6c p-side electrode 6d, 6e bump electrode 7 conductive paste 8a n-electrode 8b p-electrode 9 sealing resin 10 Spherical lens 10a Adhesive 11 Light transmissive resin 12a Light transmissive resin 12b Light transmissive sheet 13 Fixing member 13a Fixed grease 21 Printed wiring board 21a Light transmissive window 22 Mount block 22a Silicon substrate 22b Recess 22c Oxide film 22d, 22e Electrode 23 Conductive The adhesive 31 printed wiring board 32a, 32b wiring patterns 33 light emitting elements 33a substrate 33b n-type layer 33c p-type layer 33d n electrode 33e p electrode 33f, 33 g wire 34 shield plate 34a light transmitting window 34b mask pattern 35 resin layer
───────────────────────────────────────────────────── フロントページの続き (72)発明者 小屋 賢一 大阪府高槻市幸町1番1号 松下電子工業 株式会社内 Fターム(参考) 5F041 AA04 CB27 DA01 DA07 DA14 DA20 EE11 EE21 FF13 FF16 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Kenichi Koya 1-1, Komachi, Takatsuki-shi, Osaka Matsushita Electronics Co., Ltd. F-term (reference) 5F041 AA04 CB27 DA01 DA07 DA14 DA20 EE11 EE21 FF13 FF16
Claims (12)
れた発光素子と、前記発光素子の発光方向に対向して配
置されたシールドプレートと、前記発光素子の光取出し
面に臨んで前記シールドプレートに設けた光透過構造と
を備えた画像書込み用発光装置であって、 前記光透過構造は、前記発光素子の光取出し面の外郭全
体を含む大きさの形状とし、 前記発光素子の周りに、前記光取出し面以外から漏れる
光を前記光透過構造方向へ反射させる反射手段を備えて
なる画像書込み用発光装置。1. A wiring board, a light emitting element conductively mounted on the wiring board, a shield plate disposed to face a light emitting direction of the light emitting element, and the shield facing a light extraction surface of the light emitting element. A light transmitting structure provided on a plate, wherein the light transmitting structure has a shape having a size including an entire outer periphery of a light extraction surface of the light emitting element; A light-emitting device for writing an image, comprising a reflecting means for reflecting light leaking from a portion other than the light extraction surface toward the light transmitting structure.
れたサブマウント素子と、前記サブマウント素子に導通
搭載した発光素子と、前記発光素子の発光方向に対向し
て配置されたシールドプレートと、前記発光素子の光取
出し面に臨んで前記シールドプレートに設けた光透過構
造とを備えた画像書込み用発光装置であって、 前記光透過構造は、前記発光素子の光取出し面の外郭全
体を含む大きさの形状とし、 前記サブマウント素子は、前記光取出し面以外から漏れ
る光を前記光透過構造方向へ反射させる反射手段を備え
てなる画像書込み用発光装置。2. A wiring board, a submount element conductively mounted on the wiring board, a light emitting element conductively mounted on the submount element, and a shield plate disposed so as to face a light emitting direction of the light emitting element. And a light transmitting structure provided on the shield plate facing the light extraction surface of the light emitting element, wherein the light transmission structure covers the entire outer surface of the light extraction surface of the light emitting element. The light emitting device for image writing, wherein the submount element includes a reflection unit configured to reflect light leaking from a portion other than the light extraction surface toward the light transmission structure.
と、凹状断面を持ちその凹部を前記配線基板の一面側に
臨ませて導通固定したマウントブロックと、前記マウン
トブロックの凹部内に導通固定されその光取出し面を前
記光透過構造に対峙させた発光素子とを備え、 前記光透過構造は、前記発光素子の光取出し面の外郭全
体を含む大きさの形状とし、 前記マウントブロックの凹部には、前記光取出し面以外
から漏れる光を前記光透過構造方向へ反射させる反射手
段を備えてなる画像書込み用発光装置。3. A wiring board partially formed with a light transmitting structure, a mount block having a concave cross-section and having a concave portion facing one surface side of the wiring substrate and conductively fixed therein, and a conductive block in the concave portion of the mount block. A light emitting element having a light extraction surface fixed to face the light transmission structure, wherein the light transmission structure has a shape including a whole outer periphery of the light extraction surface of the light emission element, and a concave portion of the mount block. A light-emitting device for writing an image, comprising a reflecting means for reflecting light leaking from a portion other than the light extraction surface toward the light transmitting structure.
芯をほぼ一致させてなる請求項1から3のいずれかに記
載の画像書込み用発光装置。4. The light emitting device for image writing according to claim 1, wherein an optical axis of said light emitting element and a core of said light transmitting structure are substantially aligned.
素子の光取出し面が前記光透過構造に臨む部分との間に
光透過性の樹脂を充填してなる請求項1から4のいずれ
かに記載の画像書込み用発光装置。5. The light-transmitting resin according to claim 1, wherein a light-transmitting resin is filled between the light-transmitting structure and a portion where at least a light extraction surface of the light-emitting element faces the light-transmitting structure. The light emitting device for image writing according to the above.
構造との間に、前記光取出し面からの光を集光して前記
光透過構造への光路を形成する球面レンズを備えてなる
請求項1から5のいずれかに記載の画像書込み用発光装
置。6. A spherical lens for condensing light from the light extraction surface and forming an optical path to the light transmission structure between the light extraction surface of the light emitting element and the light transmission structure. The light-emitting device for image writing according to claim 1.
記ベースに積層した絶縁膜とその表面に形成した配線パ
ターンとからなり、前記ベースの底面には放熱用のフィ
ンを備えてなる請求項1から6のいずれかに記載の画像
書込み用発光装置。7. The wiring board includes a metal base, an insulating film laminated on the base, and a wiring pattern formed on a surface of the base, and a heat radiation fin provided on a bottom surface of the base. Item 7. An image writing light emitting device according to any one of Items 1 to 6.
載固定される金属製のベースと、前記ベースに積層した
絶縁膜とその表面に形成した配線パターンとからなり、
前記ベースと固定部材の表面粗度を細かくするとともに
放熱性の固定グリースによって接合してなる請求項1か
ら6のいずれかに記載の画像書込み用発光装置。8. The wiring board comprises a metal base mounted and fixed on a fixing member on the device side, an insulating film laminated on the base, and a wiring pattern formed on the surface thereof.
The light-emitting device for image writing according to any one of claims 1 to 6, wherein the surface roughness of the base and the fixing member is reduced, and the base member and the fixing member are joined by a heat-dissipating fixing grease.
トに開けた孔である請求項1から8のいずれかに記載の
画像書込み用発光装置。9. The image writing light emitting device according to claim 1, wherein said light transmitting structure is a hole formed in said shield plate.
樹脂を充填してなる請求項9に記載の画像書込み用発光
装置。10. The light-emitting device for image writing according to claim 9, wherein a light-transmitting resin is filled inside the hole of the light-transmitting structure.
の被膜層を形成してなる請求項9または10記載の画像
書込み用発光装置。11. The light-emitting device for image writing according to claim 9, wherein a light-transmitting coating layer is formed so as to include the holes of the light-transmitting structure.
からの光を集光させるレンズを備えてなる請求項9記載
の画像書込み用発光装置。12. The light emitting device for image writing according to claim 9, wherein a lens for condensing light from said light emitting element is provided in a hole of said light transmitting structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP27491698A JP2000106458A (en) | 1998-09-29 | 1998-09-29 | Light emitting device for writing image |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP27491698A JP2000106458A (en) | 1998-09-29 | 1998-09-29 | Light emitting device for writing image |
Publications (1)
Publication Number | Publication Date |
---|---|
JP2000106458A true JP2000106458A (en) | 2000-04-11 |
Family
ID=17548331
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP27491698A Pending JP2000106458A (en) | 1998-09-29 | 1998-09-29 | Light emitting device for writing image |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2000106458A (en) |
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