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JPH0884218A - Ccd color linear solid-state image pickup device - Google Patents

Ccd color linear solid-state image pickup device

Info

Publication number
JPH0884218A
JPH0884218A JP21736194A JP21736194A JPH0884218A JP H0884218 A JPH0884218 A JP H0884218A JP 21736194 A JP21736194 A JP 21736194A JP 21736194 A JP21736194 A JP 21736194A JP H0884218 A JPH0884218 A JP H0884218A
Authority
JP
Japan
Prior art keywords
light receiving
original
read
scanning direction
coordinate
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
JP21736194A
Other languages
Japanese (ja)
Inventor
Takuya Watanabe
卓也 渡辺
Motohiro Kojima
基弘 小島
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.)
Panasonic Holdings Corp
Original Assignee
Matsushita Electronics 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 Matsushita Electronics Corp filed Critical Matsushita Electronics Corp
Priority to JP21736194A priority Critical patent/JPH0884218A/en
Publication of JPH0884218A publication Critical patent/JPH0884218A/en
Pending legal-status Critical Current

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Abstract

PURPOSE: To suppress the occurrence of color slurring even when an original is read while its information is thinned out in the subscanning direction by selecting a pitch of picture element rows of three rows of light emitting sections to be a multiple of six of the picture element pitch of the light receiving section in the main scanning direction. CONSTITUTION: An image reflected from an original is formed on a CCD through a reduction lens whose magnification factor is A. As soon as a Y coordinate Yi on the original is read by a light receiving section R, a light receiving section G reads a Y coordinate Yk(=Yi+6×A×P) and a light receiving section B reads a Y coordinate Yj(=Yi+2×A×P). After the original is fed by 2 lines, that is, 2×A×P in the subscanning direction, the light receiving section R reads Yi+2(=Yi+2×A×P) and the light receiving section G reads Yi+2(=Yi+8×A×P) and the light receiving section B reads Yi+2(=Yi+14×A×P). When the original is fed further by 2 lines, the light receiving sections R, G, B read respectively Yi+4(=Yi+4×A×P),Yj+4(=Yi+10×A×P) and Yk+4(=Yi+16×A×P), then the Y coordinate group read by the light receiving sections is Yi+A×P×2×n, that is identical to each other, and then no color slurring takes place.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、カラースキャナ,カラ
ー複写機などに用いられるCCDカラーリニア固体撮像
装置に関するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a CCD color linear solid-state image pickup device used in a color scanner, a color copying machine or the like.

【0002】[0002]

【従来の技術】近年、カラースキャナ,カラー複写機な
どの普及に伴ってCCDカラーリニア固体撮像装置の需
要が伸び、その特性向上が求められており、これに応え
るべく種々の装置が提案されている。
2. Description of the Related Art In recent years, with the spread of color scanners, color copying machines, and the like, demand for CCD color linear solid-state image pickup devices has increased, and improvements in the characteristics thereof have been demanded. Various devices have been proposed to meet these demands. There is.

【0003】以下、従来の装置について図面を参照しつ
つ説明する。図3は従来のCCDカラーリニア固体撮像
装置のCCD上の構成例を示しており、図中、R,G,
Bはそれぞれ赤色,緑色,青色のフィルタを形成した主
走査方向Xに平行な受光部である。この3行の受光部の
主走査方向の画素ピッチをPとすると、受光部Rと受光
部Gの副走査方向Yの行間距離DRG、および受光部Gと
受光部Bの副走査方向Yの行間距離DGBはPの整数倍に
なっており、(数1)で表すことができる。
A conventional device will be described below with reference to the drawings. FIG. 3 shows a configuration example on a CCD of a conventional CCD color linear solid-state image pickup device.
Reference numeral B denotes a light receiving portion which is formed in parallel with the main scanning direction X and which has red, green and blue filters formed, respectively. When the pixel pitch in the main scanning direction of the three rows of light receiving portions is P, the line distance DRG between the light receiving portions R and G in the sub scanning direction Y, and the line spacing between the light receiving portions G and B in the sub scanning direction Y. The distance DGB is an integral multiple of P and can be expressed by (Equation 1).

【0004】[0004]

【数1】DRG=nRG×P、DGB=nGB×P (nRG,nG
Bは整数) 次に、上記従来例の動作を説明するに、まず、このよう
に構成されているCCDカラーリニア固体撮像装置に、
光を照射された図2に示す読み取り原稿の反射像を倍率
Aの縮小レンズを用いて、そのCCD上に結像する。な
お、図2において主走査方向をX、副走査方向をY、原
稿上のY座標をYmとする。
[Formula 1] DRG = nRG × P, DGB = nGB × P (nRG, nG
(B is an integer) Next, in order to explain the operation of the above-mentioned conventional example, first, in the CCD color linear solid-state imaging device configured as described above,
The reflected image of the read document shown in FIG. 2 irradiated with light is formed on the CCD using a reduction lens of magnification A. In FIG. 2, the main scanning direction is X, the sub scanning direction is Y, and the Y coordinate on the document is Ym.

【0005】このようにすると、原稿の主走査方向の特
定の1行i、すなわち原稿上のY座標Yiを赤色のフィ
ルタを形成した受光部Rが読み取る。同時に主走査方向
の特定の1行j、すなわち原稿上のY座標Yjを緑色の
フィルタを形成した受光部Gが読み取り、主走査方向の
特定の1行k、すなわち原稿上のY座標Ykを青色のフ
ィルタを形成した受光部Bが読み取る。これら3行の受
光部が読み取ったデータは記憶装置に書き込まれる。
In this way, a specific row i in the main scanning direction of the original, that is, the Y coordinate Yi on the original is read by the light receiving portion R having a red filter. At the same time, a specific row j in the main scanning direction, that is, the Y coordinate Yj on the original is read by the light receiving unit G having a green filter, and a specific row k in the main scanning direction, that is, the Y coordinate Yk on the original is blue. The light receiving unit B having the filter of No. 2 reads. The data read by the light receiving units of these three rows is written in the storage device.

【0006】ここでは、原稿の反射像を倍率Aの縮小レ
ンズを通してCCDカラーリニア固体撮像装置のCCD
上に結像させているので、赤色のフィルタを形成した受
光部Rが読み取る原稿上のY座標Yiと、緑色のフィル
タを形成した受光部Gが読み取る原稿上のY座標Yjと
の距離Yi−Yjと、CCDカラーリニア固体撮像装置の
CCD上の受光部Rと受光部Gの副走査方向Yの行間距
離DRGとには(数2)の関係がある。
Here, the reflected image of the original is passed through a reduction lens having a magnification of A, and the CCD of a CCD color linear solid-state image pickup device is used.
Since the image is formed on the upper side, the distance Yi− between the Y coordinate Yi on the original read by the light receiving unit R formed with the red filter and the Y coordinate Yj on the original read by the light receiving unit G formed with the green filter. There is a relationship of (Equation 2) between Yj and the inter-row distance DRG of the light receiving portion R and the light receiving portion G on the CCD of the CCD color linear solid-state imaging device in the sub scanning direction Y.

【0007】[0007]

【数2】Yi−Yj=A×DRG 同様に、緑色のフィルタを形成した受光部Gが読み取る
原稿上のY座標Yjと青色のフィルタを形成した受光部
Bが読み取る原稿上のY座標Ykとの距離Yj−YkとC
CDカラーリニア固体撮像装置のCCD上の受光部Gと
受光部Bの副走査方向Yの行間距離DGBとには(数3)の
関係がある。
## EQU00002 ## Yi-Yj = A.times.DRG Similarly, the Y coordinate Yj on the original read by the light receiving portion G formed with the green filter and the Y coordinate Yk on the original read by the light receiving portion B formed with the blue filter. Distance Yj-Yk and C
The light receiving portion G and the light receiving portion B on the CCD of the CD color linear solid-state imaging device have a relationship of (Equation 3) between the line spacing DGB in the sub-scanning direction Y.

【0008】[0008]

【数3】Yj−Yk=A×DGB 次に原稿を副走査方向に1行、すなわち距離A×Pだけ
紙送りした後、原稿の主走査方向の特定の1行i+1、
すなわち原稿上のY座標Yi+1=Yi+A×Pを赤色のフ
ィルタを形成した受光部Rが読み取る。同時に主走査方
向の特定の1行j+1、すなわち原稿上のY座標Yj+1
=Yj+A×P=Yi+A×DRG+A×P=Yi+A×(DRG
+P)=Yi+A×P×(nRG+1)を緑色のフィルタを形
成した受光部Gが読み取り、主走査方向の特定の1行k
+1、すなわち原稿上のY座標Yk+1=Yk+A×P=Y
i+A×(DRG+DGB)+A×P=Yi+A×P×(nRG+
nGB+1)を青色のフィルタを形成した受光部Bが読み
取る。これら3行の受光部が読み取ったデータは記憶装
置に書き込まれる。
## EQU00003 ## Yj-Yk = A.times.DGB Next, after the original is fed by one line in the sub-scanning direction, that is, by the distance A.times.P, one specific line in the main scanning direction i + 1,
That is, the Y-coordinate Yi + 1 = Yi + A × P on the original is read by the light receiving unit R having a red filter. At the same time, a specific row j + 1 in the main scanning direction, that is, the Y coordinate Yj + 1 on the original document
= Yj + A × P = Yi + A × DRG + A × P = Yi + A × (DRG
+ P) = Yi + A × P × (nRG + 1) is read by the light receiving unit G having a green filter, and a specific one row k in the main scanning direction is read.
+1, that is, the Y coordinate on the document Yk + 1 = Yk + A × P = Y
i + A x (DRG + DGB) + A x P = Yi + A x P x (nRG +
nGB + 1) is read by the light receiving unit B having a blue filter. The data read by the light receiving units of these three rows is written in the storage device.

【0009】このように1行ずつの紙送り動作を順次行
うことによって、赤色のフィルタを形成した受光部Rが
読み取る原稿上のY座標群はYi+A×P×n(nは整
数)、緑色のフィルタを形成した受光部Gが読み取る原
稿上のY座標群はYj+A×P×n1=Yi+A×(DRG+
P×n1)=Yi+A×P×n(n1は整数)、青色のフィル
タを形成した受光部Bが読み取る原稿上のY座標群はY
k+A×P×n2=Yi+A×(DRG+DGB+P×n2)=Y
i+A×P×n(n2は整数)となり原稿上の同一のY座標
群をR,G,Bの3色の受光部が読み取る。
By sequentially performing the paper feeding operation line by line in this manner, the Y coordinate group on the original read by the light receiving unit R formed with the red filter is Yi + A × P × n (n is an integer) and green. The Y coordinate group on the original read by the light receiving unit G having the filter is Yj + A × P × n 1 = Yi + A × (DRG +
P × n 1 ) = Yi + A × P × n (n 1 is an integer), and the Y coordinate group on the document read by the light receiving unit B having a blue filter is Y
k + A × P × n 2 = Yi + A × (DRG + DGB + P × n 2 ) = Y
i + A × P × n ( n 2 is an integer) the same Y coordinate group on next original R, G, the light receiving portion of the three colors of B is read.

【0010】これらのデータは前記記憶装置に書き込ま
れているので、原稿上のある特定の1行のR,G,B3
種の受光部に書き込まれたデータを同時に読み出し、信
号処理を行うことができ、3種の受光部の原稿読み取り
時の時間的ずれを補正することができる。このようにし
て、原稿全面をCCDカラーリニア固体撮像装置が読み
取るのである。以下、説明を簡略化するため、前記記憶
装置へのデータ書き込み,読み出し動作の説明は省略す
る。
Since these data are written in the storage device, one specific row of R, G, B3 on the document is read.
It is possible to read the data written in the light receiving units of the same type at the same time and perform signal processing, and it is possible to correct the time lag when reading the originals of the three types of light receiving units. In this way, the entire surface of the original is read by the CCD color linear solid-state imaging device. Hereinafter, in order to simplify the description, description of the data writing / reading operation to / from the storage device is omitted.

【0011】次に、原稿の副走査方向を間引いて読み取
りを行い、副走査方向の解像度を下げる動作を行ったと
き、例えば2倍に間引いたときの動作を説明する。
Next, a description will be given of the operation when the original is read while being thinned out in the sub-scanning direction, and the operation for reducing the resolution in the sub-scanning direction is performed, for example, when the original is thinned twice.

【0012】まず原稿の主走査方向についてはその特定
の1行i、すなわち原稿上のY座標Yiを赤色のフィル
タを形成した受光部Rが読み取ると同時に主走査方向の
特定の1行j、すなわち原稿上のY座標Yjを緑色のフ
ィルタを形成した受光部Gが読み取り、主走査方向の特
定の1行k、すなわち原稿上のY座標Ykを青色のフィ
ルタを形成した受光部Bが読み取る。原稿の副走査方向
については2行、すなわち2×A×Pの距離だけ紙送り
した後、原稿の主走査方向の特定の1行i+2、すなわ
ち原稿上のY座標Yi+2=Yi+2×A×Pを赤色のフィ
ルタを形成した受光部Rが読み取ると同時に主走査方向
の特定の1行j+2、すなわち原稿上のY座標Yj+2=
Yj+2×A×Pを緑色のフィルタを形成した受光部G
が読み取り、主走査方向の特定の1行k+2、すなわち
原稿上のY座標Yk+2=Yk+2×A×Pを青色のフィル
タを形成した受光部Bが読み取る。
First, in the main scanning direction of the original, a specific row i, that is, the Y coordinate Yi on the original is read by the light receiving portion R having a red filter, and at the same time, a specific row j in the main scanning direction, that is, The Y-coordinate Yj on the original is read by the light-receiving unit G having a green filter, and a specific row k in the main scanning direction, that is, the Y-coordinate Yk on the original is read by the light-receiving unit B having a blue filter. In the sub-scanning direction of the document, the paper is fed by two lines, that is, a distance of 2 × A × P, and then one specific line i + 2 in the main scanning direction of the document, that is, the Y coordinate Yi + 2 = Yi + 2 × A × on the document. At the same time that P is read by the light receiving unit R having a red filter, a specific one row j + 2 in the main scanning direction, that is, Y coordinate Yj + 2 =
Yj + 2 × A × P is a light receiving portion G formed with a green filter
Is read, and a specific one row k + 2 in the main scanning direction, that is, the Y coordinate Yk + 2 = Yk + 2 * A * P on the document is read by the light receiving unit B having a blue filter.

【0013】さらに原稿を副走査方向に2行紙送りした
後、原稿の主走査方向の特定の1行i+4、すなわち原
稿上のY座標Yi+4=Yi+4×A×Pを赤色のフィルタ
を形成した受光部Rが読み取ると同時に主走査方向の特
定の1行j+4、すなわち原稿上のY座標Yj+4=Yj+
4×A×Pを緑色のフィルタを形成した受光部Gが読み
取り、主走査方向の特定の1行k+4、すなわち原稿上
のY座標Yk+4=Yk+4×A×Pを青色のフィルタを形
成した受光部Bが読み取る。
After feeding the original by two lines in the sub-scanning direction, a red filter is formed on a specific line i + 4 in the main scanning direction of the original, that is, Y coordinate Yi + 4 = Yi + 4 × A × P on the original. At the same time when the light receiving section R reads, a specific one row j + 4 in the main scanning direction, that is, the Y coordinate Yj + 4 = Yj + on the document is read.
4 × A × P is read by the light-receiving unit G having a green filter, and a specific row in the main scanning direction k + 4, that is, Y coordinate Yk + 4 = Yk + 4 × A × P on the original is formed as a blue filter. The light receiving unit B reads.

【0014】この1行ずつの紙送り動作を順次行うこと
によって、赤色のフィルタを形成した受光部Rが読み取
る原稿上のY座標群はYi+A×P×2×n、緑色のフ
ィルタを形成した受光部Gが読み取る原稿上のY座標群
はYj+A×P×2×n1=Yi+A×(DRG+P×2×n
1)、青色のフィルタを形成した受光部Bが読み取る原稿
上のY座標群はYk+A×P×2×n2=Yi+A×(DRG
+DGB+P×2×n2)となる。
By sequentially performing the paper feeding operation for each line, the Y coordinate group on the original read by the light receiving section R having the red filter is Yi + A × P × 2 × n, and the light receiving having the green filter is received. The Y coordinate group on the original read by the section G is Yj + A × P × 2 × n 1 = Yi + A × (DRG + P × 2 × n
1 ), the Y coordinate group on the original read by the light receiving unit B having the blue filter is Yk + A × P × 2 × n 2 = Yi + A × (DRG
+ DGB + P × 2 × n 2 ).

【0015】一般に、原稿の副走査方向を間引いて読み
取りを行い、副走査方向の解像度を下げる動作を行った
とき、例えばM倍(Mは整数)に間引いたときには、CC
Dカラーリニア固体撮像装置のCCD上の受光部Rが読
み取る原稿上のY座標群はYi+A×P×M×n、受光
部Gが読み取る原稿上のY座標群はYj+A×P×M×
1=Yi+A×(DRG+P×M×n1)=Yi+A×P×
(nRG+M×n1)、受光部Bが読み取る原稿上のY座標
群はYk+A×P×M×n2=Yi+A×(DRG+DGB+P
×M×n2)=Yi+A×P×(nRG+nGB+M×n2)とな
る。
Generally, when an original is read while being thinned out in the sub-scanning direction and an operation for lowering the resolution in the sub-scanning direction is performed, for example, when thinning to M times (M is an integer), the CC
The Y coordinate group on the original read by the light receiving unit R on the CCD of the D color linear solid-state imaging device is Yi + A × P × M × n, and the Y coordinate group on the original read by the light receiving unit G is Yj + A × P × M ×
n 1 = Yi + A × (DRG + P × M × n 1 ) = Yi + A × P ×
(nRG + M × n 1 ), the Y coordinate group on the document read by the light receiving unit B is Yk + A × P × M × n 2 = Yi + A × (DRG + DGB + P
× M × n 2 ) = Yi + A × P × (nRG + nGB + M × n 2 ).

【0016】[0016]

【発明が解決しようとする課題】しかしながら、上記従
来の構成では、原稿を副走査方向をM倍に間引いて読み
取りを行った場合、CCDカラーリニア固体撮像装置の
3行の受光部の行間距離DRG=nRG×PおよびDGB=n
GB×Pの設定において、nRG,nGBがMの倍数でない場
合、3行の受光部が読み取る原稿上のY座標群すべてを
Yi+A×P×M×n(nは整数)の形で表せず、3行の
受光部が読み取る原稿上のY座標群が一致しないため色
ずれが生じるという問題点を有していた。
However, in the above-described conventional configuration, when the original is read by thinning out the sub-scanning direction by M times, the inter-row distance DRG of the three light-receiving portions of the CCD color linear solid-state image pickup device is read. = NRG × P and DGB = n
In the setting of GB × P, if nRG and nGB are not multiples of M, all Y coordinate groups on the original read by the light receiving units of three rows cannot be represented in the form of Yi + A × P × M × n (n is an integer). There is a problem that color shift occurs because the Y coordinate groups on the document read by the light receiving units of the three rows do not match.

【0017】本発明は、上記従来の問題点を解決するも
のであり、原稿を副走査方向に間引いて読み取りを行っ
た場合でも受光部R,受光部G,受光部Bが読み取る原
稿の行位置が一致し、色ずれが生じないCCDカラーリ
ニア固体撮像装置を提供することを目的とするものであ
る。
The present invention solves the above-mentioned conventional problems, and the line positions of the document read by the light receiving portions R, G, and B even when the original is thinned out in the sub-scanning direction for reading. It is an object of the present invention to provide a CCD color linear solid-state image pickup device which does not cause color misregistration.

【0018】[0018]

【課題を解決するための手段】本発明は、上記目的を達
成するために、CCDカラーリニア固体撮像装置の受光
部R,受光部G,受光部Bの行間隔を、原稿の副走査方
向に間引く倍率から決定した構成としたものである。
SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides a CCD color linear solid-state image pickup device in which the line intervals of the light receiving portion R, the light receiving portion G, and the light receiving portion B are set in the original sub-scanning direction. The configuration is determined from the thinning rate.

【0019】[0019]

【作用】本発明は、原稿を副走査方向に間引いて読み取
りを行うときでも受光部R,受光部G,受光部Bが読み
取る原稿上の位置が一致するため色ずれが生じない。
According to the present invention, even when the original is thinned out in the sub-scanning direction for reading, the light receiving portions R, G, and B match the positions on the original to be read, so that no color misregistration occurs.

【0020】[0020]

【実施例】以下、本発明の一実施例について図面を参照
しながら説明する。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

【0021】図1は本発明の一実施例におけるCCDカ
ラーリニア固体撮像装置のCCD上の構成例を示し、図
中、R,G,Bはそれぞれ赤色,緑色,青色のフィルタ
を形成した主走査方向Xに平行な受光部、Pは受光部の
主走査方向の画素ピッチである。
FIG. 1 shows an example of the configuration of a CCD color linear solid-state image pickup device on a CCD according to an embodiment of the present invention. In the figure, R, G and B are main scanning in which red, green and blue filters are formed, respectively. A light receiving portion parallel to the direction X, P is a pixel pitch of the light receiving portion in the main scanning direction.

【0022】本発明は、この3行の受光部間隔のピッチ
が受光部の主走査方向の画素ピッチの6の倍数、すなわ
ちDRG=DGB=6×N×P(Nは整数)であることを特徴
とする。
According to the present invention, the pitch of the light receiving portion intervals of the three rows is a multiple of 6 of the pixel pitch of the light receiving portion in the main scanning direction, that is, DRG = DGB = 6 × N × P (N is an integer). Characterize.

【0023】一例として、3行の受光部間隔のピッチが
受光部の主走査方向の画素ピッチの6の倍数、すなわち
DRG=DGB=6×Pの場合を説明すると、まず副走査方
向に間引かずに読み取りを行ったときの動作は前記従来
例と同一である。すなわち、図2の読み取り原稿に光を
照射し、反射像を倍率Aの縮小レンズを用いて図1のC
CDカラーリニア固体撮像装置のCCD上に結像し読み
取り動作を行うが、この場合、R,G,Bの3色の受光
部は原稿上の同一のY座標群(Yi+A×P×n)を読み
取り、従来例と同一となる。
As an example, a case where the pitch of the light receiving portion intervals of three rows is a multiple of 6 of the pixel pitch of the light receiving portions in the main scanning direction, that is, DRG = DGB = 6 × P, will be described. The operation when reading without doing is the same as that of the conventional example. That is, the reading original in FIG. 2 is irradiated with light, and the reflected image is reflected by a reduction lens of magnification A in C in FIG.
An image is formed on the CCD of the CD color linear solid-state image pickup device and a reading operation is performed. In this case, the R, G, and B light receiving portions of the same Y coordinate group (Yi + A × P × n) on the document are used. Read, the same as the conventional example.

【0024】しかし、原稿の副走査方向を間引いて読み
取りを行い、副走査方向の解像度を下げる動作を行った
ときは、従来例と異なった動作をし、色ずれが生じない
のである。一例として2倍に間引いたときの動作を説明
する。
However, when the original is read while being thinned out in the sub-scanning direction, and the operation for lowering the resolution in the sub-scanning direction is performed, the operation is different from that of the conventional example, and the color misregistration does not occur. As an example, the operation when the thinning is doubled will be described.

【0025】まず原稿の主走査方向の特定の1行i、す
なわち原稿上のY座標Yiを赤色のフィルタを形成した
受光部Rが読み取ると同時に主走査方向の特定の1行
j、すなわち原稿上のY座標Yj=Yi+6×A×Pを緑
色のフィルタを形成した受光部Gが読み取り、主走査方
向の特定の1行k、すなわち原稿上のY座標Yk=Yi+
12×A×Pを青色のフィルタを形成した受光部Bが読み
取る。
First, a specific row i in the main scanning direction, that is, a Y coordinate Yi on the original is read by a light receiving portion R formed with a red filter, and at the same time, a specific row j in the main scanning direction, that is, on the original. Y-coordinate Yj = Yi + 6 × A × P is read by the light-receiving unit G having a green filter, and a specific row k in the main scanning direction, that is, Y-coordinate Yk = Yi + on the document.
12 × A × P is read by the light receiving unit B having a blue filter.

【0026】次に原稿を副走査方向に2行、すなわち2
×A×Pの距離だけ紙送りした後、原稿の主走査方向の
特定の1行i+2、すなわち原稿上のY座標Yi+2=Yi
+2×A×Pを赤色のフィルタを形成した受光部Rが読
み取ると同時に主走査方向の特定の1行j+2、すなわ
ち原稿上のY座標Yj+2=Yi+8×A×Pを緑色のフィ
ルタを形成した受光部Gが読み取り、主走査方向の特定
の1行k+2、すなわち原稿上のY座標Yk+2=Yi+14
×A×Pを青色のフィルタを形成した受光部Bが読み取
る。
Next, the original is arranged in two lines in the sub-scanning direction, that is, two lines.
After the paper has been fed by a distance of × A × P, one specific row i + 2 in the main scanning direction of the original, that is, the Y coordinate Yi + 2 = Yi on the original.
At the same time as + 2 × A × P is read by the light receiving unit R having a red filter, a specific row j + 2 in the main scanning direction, that is, Y coordinate Yj + 2 = Yi + 8 × A × P on the original is formed as a green filter. The light receiving section G reads and reads a specific line k + 2 in the main scanning direction, that is, the Y coordinate Yk + 2 = Yi + 14 on the document.
XA * P is read by the light receiving unit B having a blue filter.

【0027】さらに原稿を副走査方向に2行紙送りした
後、原稿の主走査方向の特定の1行i+4、すなわち原
稿上のY座標Yi+4=Yi+4×A×Pを赤色のフィルタ
を形成した受光部Rが読み取ると同時に主走査方向の特
定の1行j+4、すなわち原稿上のY座標Yj+4=Yi+
10×A×Pを緑色のフィルタを形成した受光部Gが読み
取り、主走査方向の特定の1行k+4、すなわち原稿上
のY座標Yk+4=Yi+16×A×Pを青色のフィルタを形
成した受光部Bが読み取る。
Further, after feeding the original by two lines in the sub-scanning direction, a specific line i + 4 in the main scanning direction of the original, that is, the Y coordinate Yi + 4 = Yi + 4 × A × P on the original is formed with a red filter. At the same time when the light receiving unit R reads, a specific row j + 4 in the main scanning direction, that is, the Y coordinate Yj + 4 = Yi + on the document
10 × A × P is read by the light receiving part G having a green filter, and a specific one row k + 4 in the main scanning direction, that is, Y coordinate Yk + 4 = Yi + 16 × A × P on the original is formed as a blue filter. The light receiving unit B reads.

【0028】このように原稿を副走査方向に2行ごとの
紙送り動作を順次行うことによって、赤,緑,青色のフ
ィルタを形成した受光部R,G,Bが読み取る原稿上の
Y座標群はYi+A×P×2×nとすべて同一になり色
ずれが生じない。
By sequentially performing the paper feeding operation for every two lines in the sub-scanning direction in this manner, the Y coordinate group on the document read by the light receiving portions R, G, B formed with red, green and blue filters. Is the same as Yi + A × P × 2 × n, and no color shift occurs.

【0029】また、同様に原稿の副走査方向を3倍に間
引いて読み取ったときにも副走査方向に3行ずつ紙送り
動作を順次行うことによって、赤,緑,青色のフィルタ
を形成した受光部R,G,Bが読み取る原稿上のY座標
群はYi+A×P×3×nとすべて同一になり色ずれが
生じない。
Similarly, when the original is read by thinning it in the sub-scanning direction by three times, the paper feeding operation is sequentially performed every three lines in the sub-scanning direction, so that the red, green, and blue filters are formed. The Y coordinate group on the original read by the sections R, G, and B is the same as Yi + A × P × 3 × n, and no color shift occurs.

【0030】このような構成によれば原稿の副走査方向
に2倍,3倍といったよく使用される間引き動作をさせ
ても色ずれが生じない。
With such a structure, color misregistration does not occur even if the thinning operation which is frequently used such as double or triple in the sub-scanning direction of the original is performed.

【0031】また、上記の実施例では簡略化のため3行
の受光部間隔のピッチを受光部の主走査方向の画素ピッ
チの6の倍数としたが、6の倍数倍としても同様に3行
の受光部が読み取るY座標群はすべて一致するので色ず
れは生じない。
Further, in the above embodiment, the pitch of the light receiving portion intervals of three rows is set to be a multiple of 6 of the pixel pitch of the light receiving portions in the main scanning direction for simplification. Since all the Y coordinate groups read by the light receiving unit of No. 1 match, no color shift occurs.

【0032】これをより一般化して説明すると、副走査
方向にM倍に間引いて原稿を読み取るときには、受光部
Rが読み取る原稿上のY座標群はYi+A×P×M×
n、受光部Gが読み取る原稿上のY座標群はYi+A×
P×(nRG+M×n1)、受光部Bが読み取る原稿上のY
座標群はYi+A×P×(nRG+nGB+M×n2)となるの
で、受光部Rと受光部Gの副走査方向Yの行間距離DRG
を受光部の副走査方向の画素ピッチPで割ったものであ
るnRG、および受光部Gと受光部Bの副走査方向Yの行
間距離DGBを受光部の副走査方向の画素ピッチPで割っ
たものであるnGBが間引き倍率Mの整数倍ならば、赤,
緑,青色のフィルタを形成した受光部R,G,Bが読み
取る原稿上のY座標群はすべてYi+A×P×M×nの
形で表され一致するので色ずれが生じないことになるの
である。
This will be explained in more general terms. When the original is read by thinning it by M times in the sub-scanning direction, the Y coordinate group on the original read by the light receiving unit R is Yi + A × P × M ×.
n, the Y coordinate group on the original read by the light receiving unit G is Yi + A ×
P × (nRG + M × n 1 ), Y on the original read by the light receiving unit B
Since the coordinate group is Yi + A × P × (nRG + nGB + M × n 2 ), the line-to-line distance DRG between the light receiving portion R and the light receiving portion G in the sub scanning direction Y
Is divided by the pixel pitch P in the sub-scanning direction of the light receiving section, and the line spacing DGB between the light receiving section G and the light receiving section B in the sub-scanning direction Y is divided by the pixel pitch P in the sub scanning direction of the light receiving section. If nGB is the integer multiple of the thinning rate M, then red,
The Y coordinate groups on the original read by the light receiving units R, G, and B formed with the green and blue filters are all expressed in the form of Yi + A × P × M × n and coincide with each other, so that no color shift occurs. .

【0033】なお、本実施例ではCCDカラーリニア固
体撮像装置の3行の受光部の配列をR,G,Bの順序と
したが、G,R,BやR,B,Gなどの順序でもよい。
In the present embodiment, the arrangement of the three rows of light receiving portions of the CCD color linear solid-state image pickup device is in the order of R, G, B. However, the order of G, R, B or R, B, G is also possible. Good.

【0034】また本実施例では、カラーフィルタの色が
赤色,緑色,青色の場合を示したが、黄,シアン,マゼ
ンタなど別の色の組合せの場合でもよい。
Further, in this embodiment, the case where the color of the color filter is red, green and blue is shown, but the combination of different colors such as yellow, cyan and magenta may be used.

【0035】[0035]

【発明の効果】本発明は、以上の実施例から明らかなよ
うに、CCDカラーリニア固体撮像装置の3行の受光部
の画素行間隔のピッチを受光部の主走査方向の画素ピッ
チの6の倍数とする構成にすることにより、原稿の副走
査方向に2倍,3倍といったよく使用される間引き動作
をさせても、受光部R,受光部G,受光部Bが読み取る
原稿の行位置が一致し、色ずれが生じない。
According to the present invention, as is apparent from the above embodiments, the pitch of the pixel row intervals of the three light receiving portions of the CCD color linear solid-state image pickup device is set to the pixel pitch of six in the main scanning direction of the light receiving portions. By adopting the multiple structure, even if the commonly used thinning operation such as 2 times or 3 times in the sub-scanning direction of the original is performed, the line positions of the original read by the light receiving portions R, G, and B can be changed. They match and no color shift occurs.

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

【図1】本発明のCCDカラーリニア固体撮像装置の一
実施例を示し、そのCCD上の信号読み取りに関する概
略図である。
FIG. 1 is a schematic view showing an embodiment of a CCD color linear solid-state image pickup device of the present invention and reading a signal on the CCD.

【図2】CCDカラーリニア固体撮像装置が読み取る原
稿の一例を示す概略図である。
FIG. 2 is a schematic diagram showing an example of a document read by a CCD color linear solid-state imaging device.

【図3】従来のCCDカラーリニア固体撮像装置の一実
施例を示し、そのCCD上の信号読み取りに関する概略
図である。
FIG. 3 is a schematic view showing an example of a conventional CCD color linear solid-state image pickup device and related to signal reading on the CCD.

【符号の説明】[Explanation of symbols]

R…赤色のフィルタを形成した受光部、 G…緑色のフ
ィルタを形成した受光部、 B…青色のフィルタを形成
した受光部、 P…受光部の主走査方向の画素ピッチ、
DRG…赤色のフィルタを形成した受光部と青色のフィ
ルタを形成した受光部の行間隔、 DGB…緑色のフィル
タを形成した受光部と青色のフィルタを形成した受光部
の行間隔、 X…主走査方向、 Y…副走査方向、 i
−4,i−3,i−2,i−1,i,i+1,i+2,
i+3,i+4…赤色のフィルタを形成した受光部が読
み取る原稿上の行、 j−4,j−3,j−2,j−
1,j,j+1,j+2,j+3,j+4…緑色のフィ
ルタを形成した受光部が読み取る原稿上の行、 k−
4,k−3,k−2,k−1,k,k+1,k+2,k
+3,k+4…青色のフィルタを形成した受光部が読み
取る原稿上の行、Yi,Yj,Yk…i,j,kの位置に
対応するY座標。
R ... Light receiving portion formed with a red filter, G ... Light receiving portion formed with a green filter, B ... Light receiving portion formed with a blue filter, P ... Pixel pitch in the main scanning direction of the light receiving portion,
DRG ... Row spacing between light receiving section formed with red filter and light receiving section formed with blue filter, DGB ... Row spacing between light receiving section formed with green filter and light receiving section formed with blue filter, X ... Main scanning Direction, Y ... sub-scanning direction, i
-4, i-3, i-2, i-1, i, i + 1, i + 2
i + 3, i + 4 ... Rows on the document read by the light-receiving unit formed with a red filter, j-4, j-3, j-2, j-
1, j, j + 1, j + 2, j + 3, j + 4 ... Rows on the document read by the light-receiving unit formed with a green filter, k−
4, k-3, k-2, k-1, k, k + 1, k + 2, k
+3, k + 4 ... Rows on the document read by the light-receiving unit formed with a blue filter, Yi, Yj, Yk ... Y coordinates corresponding to the positions of i, j, k.

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】 主走査方向に平行に3行の受光部を有
し、前記3行の受光部の副走査方向の画素行間隔ピッチ
が、前記受光部の主走査方向の画素ピッチの6の倍数で
あることを特徴とするCCDカラーリニア固体撮像装
置。
1. A light receiving section having three rows parallel to the main scanning direction, and a pixel row interval pitch of the light receiving sections of the three rows in the sub-scanning direction is 6 pixel pitches in the main scanning direction of the light receiving section. A CCD color linear solid-state imaging device characterized by a multiple.
JP21736194A 1994-09-12 1994-09-12 Ccd color linear solid-state image pickup device Pending JPH0884218A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP21736194A JPH0884218A (en) 1994-09-12 1994-09-12 Ccd color linear solid-state image pickup device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP21736194A JPH0884218A (en) 1994-09-12 1994-09-12 Ccd color linear solid-state image pickup device

Publications (1)

Publication Number Publication Date
JPH0884218A true JPH0884218A (en) 1996-03-26

Family

ID=16702976

Family Applications (1)

Application Number Title Priority Date Filing Date
JP21736194A Pending JPH0884218A (en) 1994-09-12 1994-09-12 Ccd color linear solid-state image pickup device

Country Status (1)

Country Link
JP (1) JPH0884218A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6924840B1 (en) 1998-06-24 2005-08-02 Seiko Epson Corporation Color image capturing device and image reader using the color image capturing device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6924840B1 (en) 1998-06-24 2005-08-02 Seiko Epson Corporation Color image capturing device and image reader using the color image capturing device

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