578032 ----案號91132998_年月日 倐正_ 五、發明說明(1) ~、【發明所屬之技術領域】 本發明係關於一種影像感測模組,尤其關於一種縮短 光路長度之影像感測模組及使用該影像感測模組之底片掃 描器。 一、【先如技術】 圖1係為顯示傳統之接觸式影像感測模組掃描反射稿之 不意圖。如圖1所示,傳統之接觸式影像感測模組丨丨0包含 一本體111 ’ 一影像感測器11 2、一透鏡陣列11 6、一罩覆玻 璃層1 1 7、及一發光二極體(LED) 1 30。 影像感測為1 1 2位於本體1 1 1之底部,並包含複數個單 色光之感光單元113以及一個用以將感光單元113封裝之透 光層1 1 4。透鏡陣列1 1 6包含複數個柱狀透鏡。吾人應注音 到,柱狀透鏡與感光單元丨丨3係沿著垂直於圖面之方u向排〜 列。罩覆玻璃層1 1 7罩覆住透鏡陣列1 1 6與L E D 1 3 〇,^务灰 塵影響到影像感測模組11 〇之特性。 由LED 130發射出的光線,透過導光桿(未顯示)而 罩覆玻璃層117後,照在反射稿丨上面。反射稿丨將部分之光 線反射,反射光線由透鏡陣列丨丨6之柱狀透鏡分別 光單元11 3上,如此可獲致對應於反射稿丨之影像信號、、、。心 目前之cis(接觸式影像感測器)式掃描器中,模組 的長度大約等於所欲掃描文件的寬度。舉例而言,Μ =寸 之cis式掃描器所使用的CIS模組的長度大約在21〇公髮左、 t。因此,對於透鏡陣列116而言,物距約等於像ς屋:得 放=倍率為1,此乃為cis模組的長度約等於文件寬度之等 同思義。而且,接觸式影像感測模組所使用之感測=口有578032 ---- Case No. 91132998_ 年月 日 倐 正 _ V. Description of the invention (1) ~, [Technical field to which the invention belongs] The present invention relates to an image sensing module, and in particular to an image that shortens the optical path length Sensor module and film scanner using the image sensor module. I. [Such Technology] Figure 1 shows the intention of scanning the reflection draft of the traditional contact image sensor module. As shown in FIG. 1, a conventional contact image sensor module includes a body 111 ′, an image sensor 11 2, a lens array 11 6, a cover glass layer 1 1 7, and a light emitting diode 2 Polar body (LED) 1 30. The image sensing is that 1 1 2 is located at the bottom of the body 1 1 1 and includes a plurality of single-color light-sensitive units 113 and a light-transmitting layer 1 1 4 for packaging the light-sensitive units 113. The lens array 1 1 6 includes a plurality of lenticular lenses. I should note that the lenticular lens and the photosensitive unit 丨 3 are arranged in a direction of u, which is perpendicular to the drawing. The cover glass layer 1 1 7 covers the lens array 1 16 and L E D 1 3 0, and the dust affects the characteristics of the image sensing module 11 0. The light emitted by the LED 130 passes through a light guide rod (not shown), covers the glass layer 117, and shines on the reflection draft. The reflection draft 丨 reflects part of the light rays, and the reflected light rays are respectively on the light unit 11 13 of the cylindrical lens of the lens array 丨 6 so that the image signals corresponding to the reflection draft 丨 can be obtained. In current cis (contact image sensor) scanners, the length of the module is approximately equal to the width of the document to be scanned. For example, the length of the CIS module used by the cis scanner of M = inch is about 21mm, t. Therefore, for the lens array 116, the object distance is approximately equal to the image of the house: get = the magnification is 1, which is the same as the length of the cis module is approximately equal to the width of the document. Moreover, the sensing used by the contact image sensor module =
五、發明說明(2) 感應單色光,若要用此感測器掃描V. Description of the invention (2) Induction of monochromatic light, if you want to scan with this sensor
i30發出不同顏色之光線來達成。出心色效果,可利用LED 綜觀目前市場上所用的CI s感測哭 與影像感測器11 2隔開一段預定^距^,透鏡陣列11 6都是 為卜然而,光線亮度會隨著使;大倍率維持 時的曝光時間必須增長,因而盔 曰長而哀減,使得掃描 而且,影像品質會隨著曝光時間=描之目的。 圖2係為傳統之CCK電荷輕合元;掃 意圖。如圖2所示,CCD式掃描哭+ A入一 τ描-之不 120^*^124 〇 CCDfMt^ ^120 ^ U2及CCD影像感測器123。"、、且120包含反射鏡121、透鏡 光源1 2 4發出光線穿透底片2,空 反射,反射後之光線通過透鏡丨2 2取 ^ η、、、由反射鏡1 2 1 处聚焦至CCD影像咸測哭 上。光源124所發出之光線通常 rrn- ° 掃描之效果。 色之感先早凡,如此可獲致彩色 於此習知例中,從启y 9 s « 危 — 至C C D衫像感測器1 2 3之光路导 iV:/光線衰減量更大。再者,光線通過反射鏡 1J1 ’亦會有-定程度之衰減,使得 ί:上習本 =技藝者應可以理解到,由於反射鏡之配置 使付圖2之掃描器並無法達成小型化之需求。 三、【發明内容】 因此’本發明之-個目的係為提供一種具有縮短光 長度之影像感測模組。 本發明之另-目的係為提供一種薄型化之影像感測模 ^78032The i30 emits light of different colors to achieve it. The color effect can be used. Looking at the CI s sensor used in the market, it is separated from the image sensor 11 2 by a predetermined distance ^. The lens array 116 is for clarity. However, the brightness of the light will change with the ; The exposure time must be increased when high magnification is maintained, so the helmet is long and distressed, so that scanning and image quality will follow the purpose of exposure time = tracing. Figure 2 shows the traditional CCK charge light asteroid; As shown in FIG. 2, the CCD scan + A into a τ tracing-no 120 ^ * ^ 124 〇 CCDfMt ^ 120 ^ U2 and CCD image sensor 123. ", and 120 includes the reflector 121, the lens light source 1 2 4 emits light penetrating the negative 2, and is reflected in the air. The reflected light passes through the lens 丨 2 2 ^ η,, and is focused by the reflector 1 2 1 to The CCD image was crying. The light emitted by the light source 124 is usually the effect of rrn- ° scanning. The sense of color is early, so you can get the color. In this example, the light path guide iV: / light attenuation from the y 9 s «endangered to the C C D shirt image sensor 1 2 3 is greater. In addition, the light passing through the mirror 1J1 'will also have a certain degree of attenuation, so that the literary textbook artist can understand that due to the configuration of the mirror, the scanner shown in Figure 2 cannot achieve miniaturization. demand. 3. [Summary of the Invention] Therefore, one of the objectives of the present invention is to provide an image sensing module with a shortened light length. Another object of the present invention is to provide a thin image sensing module ^ 78032
、且藉以降低使用該影像感測模組之底片掃描器之 本發明之又另-目的係為提供一種能縮㈣光=。 =像感測模組,藉以加速使用該影像感測 之 為之掃描速度。 < 履片掃描 組,體個父⑽,:一種影像感測模 如象感測器包含複數個感光單元及用以罩覆該等感: 之透光層,該透光層具有遠離該等感光單元之上表面早7^ :透鏡陣列,位於該影像感測器上,並使該透鏡陣列與= 透光層之上表面密接貼合,用以接收複數個影像信號ϋ 該等影像信號聚焦至該等感光單元。該透鏡陣列^ ^焦深 度等於該透光層之上表面至該等感光單元之距離。…、冰 依據本發明之另一個實施樣態,係關於一種使用上述 影像感測模組之底片掃描器。 k 藉由上述構造,可使本發明之影像感測模組具有縮短 之光路長度,從而縮短曝光時間,加快掃描速度,並穩定 影像品質。 四、【實施方式】 圖3係為依據本發明之第一實施例之底片掃描器之示意 圖。如圖3所示,依據本發明第一實施例之底片掃描器包含 一影像感測模組1 0、一底片通道2 0、一光源3 0、及一驅動 機構4 0。 影像感測模組1 0包含一本體11、一影像感測器1 2、一 透鏡陣列1 6以及一罩覆玻璃層1 7,設於該透鏡陣列1 6之上In order to reduce the film scanner using the image sensing module, another object of the present invention is to provide a light-reducing lens. = Image sensor module to speed up the scanning speed when using this image sensor. < Crawl scanning group, one parent: An image sensing module such as an image sensor includes a plurality of photosensitive units and a light-transmitting layer for covering these feelings: the light-transmitting layer has a distance from the 7 ^ on the upper surface of the photosensitive unit: the lens array is located on the image sensor, and the lens array is closely adhered to the upper surface of the light transmitting layer to receive a plurality of image signals. The image signals are focused. To the photosensitive units. The focal depth of the lens array is equal to the distance from the upper surface of the transparent layer to the photosensitive units. ..., Bing According to another embodiment of the present invention, it relates to a film scanner using the above-mentioned image sensing module. With the above structure, the image sensing module of the present invention can have a shortened optical path length, thereby shortening the exposure time, speeding up the scanning speed, and stabilizing the image quality. Fourth Embodiment [Embodiment] Fig. 3 is a schematic diagram of a film scanner according to a first embodiment of the present invention. As shown in FIG. 3, the film scanner according to the first embodiment of the present invention includes an image sensing module 10, a film channel 20, a light source 30, and a driving mechanism 40. The image sensing module 10 includes a body 11, an image sensor 1, 2, a lens array 16 and a cover glass layer 17 disposed on the lens array 16
578032 案號91132998_年月曰__^_ 五、發明說明(4) 方’用以罩覆該透鏡陣列1 6。值得注意的是,罩覆玻璃層 1 7係為可以省略之構件,如此可更縮短光路長度。 影像感測器1 2係設於該本體1 1中,並包含一基板丨8、 複數個感光單元13及用以罩覆該等感光單元13之透光層 14。透光層14具有遠離該等感光單元13之上表面15。光源 3 0穿透底片2後’產生複數個影像信號傳遞至透鏡陣列1 6。 透鏡陣列1 6包含複數個柱狀透鏡,並位於該影像感測 器1 2上,而使該透鏡陣列1 6與該透.光層丨4之上表面丨5密接 貼合,用以接收複數個影像信號並將該等影像信號聚至 该等感光單兀1 3中。吾人應注意到,柱狀透鏡盥戌 13係沿著垂直於圖面之方向排列。依此㈣,使 列16之聚焦深度Di等於該透光層14之上表面15至該等感光 單元1 3之距離。 於此實施例之影像感測器1 2可以是類似於圖2之CCD 像感測器’具有紅色、、綠色及藍色之複數個感光單元,: ^底片進㈣色掃描。此時,㈣3() 管或LED。吾人應注意到,亦可 /枝堂光k 3 〇。 j 」便用十面先源來取代光源 聚焦 度變 底片 影像 實施 著底 對底 田於 得 此 度 的 動578032 Case No. 91132998_year month __ ^ _ V. Description of the invention (4) Fang 'is used to cover the lens array 16. It is worth noting that the cover glass layer 17 is a component that can be omitted, which can shorten the optical path length even more. The image sensor 12 is disposed in the body 11 and includes a substrate 8, a plurality of photosensitive units 13, and a light-transmitting layer 14 for covering the photosensitive units 13. The light transmitting layer 14 has an upper surface 15 far from the photosensitive units 13. After the light source 30 penetrates the negative film 2, a plurality of image signals are generated and transmitted to the lens array 16. The lens array 16 includes a plurality of lenticular lenses and is located on the image sensor 12 so that the lens array 16 and the transparent layer 丨 4 upper surface 丨 5 are closely adhered to receive a plurality of An image signal is collected into the photosensitive units 13. I should note that the lenticular lenses 13 are arranged in a direction perpendicular to the drawing surface. According to this, the focal depth Di of the column 16 is equal to the distance from the upper surface 15 of the light-transmitting layer 14 to the photosensitive units 13. The image sensor 12 in this embodiment may be similar to the CCD image sensor in FIG. 2 and has a plurality of photosensitive units of red, green, and blue. ^ The negative is scanned in black. At this time, ㈣3 () tube or LED. I should note that it is also possible / Zhitang Guang k 3 〇. "J" will use the ten-sided source to replace the focus of the light source. The film image will be moved to the bottom to get the degree.
^又1相對於習知技術而言是大幅減少,使 =,大幅減少了光線亮度之衰減程度。因 71曝光時間可大幅縮短,從而加快掃描速 口口貝不會變差。 、氐片2係由驅動機構4 〇驅動而朝箭頭A ΰ 道20移動’影像感測模組1 〇則固定不 片2遂行掃描之動作。^ And 1 is a drastic reduction compared with the conventional technology, so that the attenuation degree of light brightness is greatly reduced. The 71 exposure time can be greatly shortened, so that the scanning speed is increased. The cymbal 2 is driven by the driving mechanism 40 and moves toward the arrow A 道 channel 20. The image sensing module 10 is fixed to scan the film 2 without moving.
第8頁 {列 中 , 广 578032 修正Page 8 {Column, Canton 578032 Amendment
_案號 91132998 五、發明說明(5) 係為依據本發明之第二實施例之底立 ;二匕,大致與第-實施例相同,其不同點在;;72 架60所承载’而驅動機構40係用以驅動;:2 :固疋架60通過該底片通道2〇。依此構造,使得較= 片2可以方便地受到固定。 之底 圖5係為依據本發明之第三實 圖。此實施例大致盥繁# η二 ㈠田為之示意 门—Γ 與貫施例相同,其不同點在於启Η 9 古1不動,因此不需任何驅動機構來驅動底片2移 於 =日寸’移動機構5◦驅動影像感測模組1〇朝著箭頭 = 動,用以掃描位於底片通道2〇中之底片2。 方向移 圖6係為依據本發明之第四實施例之底片掃描器 圖。此實施例大致盘第一眘妳彳丨 甘丁 Π ’、思 ^ ^ ώ ^ ”弟貝轭例相同,其不同點在於省略 罩覆玻璃層17 ’且大幅縮短底片2至透鏡陣列16之距 此,:將影像感測模組i◦之厚度減至最低,並將光 減至取小,已符合本發明之縮短曝光時間之目的。、又 以上乃本發明之較佳實施例以及設計圖式,惟 施例以及設計圖式僅是舉例說明,並非用於限貝 藝,權利範圍,凡以均等之技藝手段、或為下述「以 : '圍^内容所涵蓋之權利範圍而實施者,均不脫離:發 明之範’而為申請人之權利範圍。_Case No. 91132998 V. Description of the invention (5) is a stand according to the second embodiment of the present invention; the two daggers are roughly the same as the first embodiment, the differences are in the above; and 72 are driven by 60's The mechanism 40 is used to drive; 2: The fixed frame 60 passes through the negative film channel 20. According to this structure, the comparative piece 2 can be easily fixed. Figure 5 is a third embodiment according to the present invention. This embodiment is roughly 繁 繁 # η 二 ㈠ 田 as the signal door—Γ is the same as the conventional embodiment, except that Kai 9 and 1 are not moving, so no driving mechanism is required to drive the negative 2 to move == inch. The moving mechanism 5 ◦ drives the image sensing module 10 to move toward the arrow to scan the film 2 located in the film channel 20. Directional shift FIG. 6 is a diagram of a film scanner according to a fourth embodiment of the present invention. This embodiment is roughly the first example. Ganding Π, ^ ^ ^ ^ ^ "The same example is used, but the difference is that the cover glass layer 17 'is omitted and the distance from the negative 2 to the lens array 16 is greatly shortened. Therefore, reducing the thickness of the image sensing module i◦ to a minimum and reducing the light to a small size have met the purpose of shortening the exposure time of the present invention. The above are the preferred embodiments and design drawings of the present invention However, the examples and design drawings are only examples, and are not intended to limit the shell art, the scope of rights, whoever implements with equal technical means, or for the following "to: the scope of the rights covered by the content Without departing from the scope of the invention, but the scope of the applicant's rights.
第9頁 578032 案號 9113刈卯 圖式簡單說明 五、【圖式簡單說明』 圖1係為顯示傳統之接觸式 示意圖。 …象感測模組掃描反射 圖2係為傳統之cCD (電荷耦合 曰 修正 意圖 稿之 元件)式底片掃描器之示 圖3係為依據本發明之第一 貫苑例之底片 圖4係為依據本發明之第一气 圖5係為依據本發明之第三實 掃描器之示意 知例之底片⑼器之示意 圖。 、知例之底片掃插器之示意 圖6係為依據本發明之第告 圖。 貝麵例之底片 【符號之說明】 1〜反射稿 _ 1 0〜影像感測模組 掃描器之示意 1 2〜影像感測器 14〜透光層 1 6〜透鏡陣列 1 8〜基板 3 0〜光源 5 0〜移動機構 I 1 〇〜影像感測模組 II 2〜影像感测器 1 1 4〜透光層 z〜底片 11〜本體 13〜感光單元 15〜上表面 1 7〜罩覆玻璃層 20〜底片通道 4 〇〜驅動機構 60〜底片固定架 1 1 1〜本體 1 1 3〜感光單元 1 1 6〜透鏡陣列 第10頁 578032Page 9 578032 Case No. 9113 刈 卯 Simple illustration of the drawing 5. [Simplified illustration of the drawing] Figure 1 is a schematic diagram showing the traditional contact type. … Like the scanning scan reflection of the sensor module. Figure 2 shows a conventional cCD (Charge Coupled Device) device. Figure 3 shows the negative film scanner according to the first example of the present invention. Figure 4 shows the negative film. First Figure 5 according to the present invention is a schematic view of a negative film holder according to a schematic example of a third real scanner according to the present invention. Fig. 6 is a schematic view of a known example of a film scanning device. Negative film [Description of symbols] 1 ~ Reflection draft_ 1 0 ~ Schematic of image sensor module scanner 1 2 ~ Image sensor 14 ~ Transparent layer 16 ~ Lens array 1 8 ~ Substrate 3 0 ~ Light source 5 0 ~ Moving mechanism I 1 〇 ~ Image sensor module II 2 ~ Image sensor 1 1 4 ~ Transparent layer z ~ Film 11 ~ Body 13 ~ Photosensitive unit 15 ~ Upper surface 1 7 ~ Cover glass Layer 20 to film channel 4 〇 to drive mechanism 60 to film holder 1 1 1 to body 1 1 3 to photosensitive unit 1 6 to lens array page 10 578032