JPH11261760A - Image reader - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image reader by which image read processing speed is improved. SOLUTION: This image reader reads image information on an original by scanning the original and is provided with a read processing means that includes photoelectric conversion elements S1-S7500 employing photodiodes placed side by side linearly, shift gate groups 41OL, 41EL, 41OR, 41ER and analog shift register groups 42OL, 42EL, 42OR, 42ER whose number corresponds to the photoelectric conversion element groups of a total of 4 systems of transfer channels consisting of odd number and even number systems of two divisions of the photoelectric conversion elements S1-S7500 divided in the middle, and individual amplifier circuits 40 for each of the 4 systems of transfer channels. Thus, the transfer processing of the image information read by the photoelectric conversion element groups is considerably quickened.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image reading device.

[0002]

2. Description of the Related Art Conventionally, photodiodes and CCDs (Ch
2. Description of the Related Art In an image reading apparatus using an Arranged Coupled Device, a large number (for example, thousands) of photoelectric conversion element rows constituting a line sensor are divided into two systems, one for odd-numbered pixels and one for even-numbered pixels, in order to increase the reading speed. , 2
A transfer channel for sequentially transferring charges corresponding to image information output from each of the photoelectric conversion elements belonging to the system photoelectric conversion element row toward two amplifier circuits connected to one end of the line sensor is employed. Thus, the read image data is processed.

[0003]

However, in the case of the above-described conventional image reading apparatus, the photoelectric conversion element array is divided into two systems for odd-numbered pixels and for even-numbered pixels and output from each photoelectric conversion element. Since the process of transferring the electric charge corresponding to the image information is performed, especially when a line sensor of a photoelectric conversion element array having thousands is used, it is not possible to perform a quick image reading process by taking a lot of time for the transfer process. There was a problem that.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and has as its object to provide an image reading apparatus capable of speeding up image reading processing and improving the quality of a read image. It is assumed that.

[0005]

According to the first aspect of the present invention,
An image reading apparatus that reads image information attached to the original by scanning the original, and a photoelectric conversion element group linearly arranged and arranged, and the photoelectric conversion element group is divided into an odd-numbered system and an even-numbered system, and Read processing means for dividing the odd-numbered and even-numbered photoelectric conversion element groups into a plurality of transfer channels to form a plurality of transfer channels, and transferring image information read by the photoelectric conversion element groups on the plurality of transfer channels. It is characterized by having.

According to the present invention, the image information read by the photoelectric conversion element group is divided into an odd-numbered system and an even-numbered system. Since the transfer processing is performed by a plurality of transfer channels formed in a plurality, the transfer processing of the image information read by the photoelectric conversion element group can be remarkably speeded up.

According to a second aspect of the present invention, there is provided an image reading apparatus for reading image information attached to an original by scanning the original, wherein the photoelectric conversion element group is arranged linearly in a row, and the photoelectric conversion element The group was divided at the center, and the photoelectric conversion element groups in both divided areas were divided into odd-numbered systems and even-numbered systems to form a total of four transfer channels, and the image information read by the photoelectric conversion element groups was divided into four systems. And read processing means for performing transfer processing.

According to the present invention, the image information read by the photoelectric conversion element group is divided at the center of the photoelectric conversion element group, and the divided photoelectric conversion element groups are divided into odd and even systems, respectively. Since the transfer processing is performed using a total of four transfer channels formed separately, the transfer processing of the image information read by the photoelectric conversion element group can be speeded up.

According to a third aspect of the present invention, there is provided an image reading apparatus for reading image information attached to an original by scanning the original, comprising: a photoelectric conversion element group using photodiodes arranged in a linear array; This photoelectric conversion element group is divided at the center, and the divided photoelectric conversion element groups are divided into odd-numbered systems and even-numbered systems to form a total of four transfer channels. , And read processing means having an individual amplifier circuit for each of the four transfer channels.

According to the present invention, image information read by a photoelectric conversion element group using the photodiode is
This photoelectric conversion element group is divided at the center, and a large number of photoelectric conversion element groups in both divided areas are divided into odd-numbered systems and even-numbered systems, respectively, corresponding to the photoelectric conversion element groups forming a total of four transfer channels. With a configuration including a number of shift gate groups and analog shift registers, and four individual amplifier circuits, the transfer speed of image information read by the photoelectric conversion element group can be increased.

According to a fourth aspect of the present invention, there is provided an image reading apparatus for reading image information attached to an original by scanning the original, wherein the photoelectric conversion element group is linearly arranged and the photoelectric conversion element is arranged. Read processing means having a plurality of transfer circuit element groups corresponding to the number of groups, and a plurality of amplifier circuits corresponding to the number of transfer channels; and dividing the photoelectric conversion element group into odd-numbered systems and even-numbered systems, and odd-numbered systems and even-numbered systems. Each of the photoelectric conversion element groups of the system is divided into a plurality of groups, and the transfer circuit element group also forms a plurality of transfer channels divided corresponding to the photoelectric conversion element group, and image information read by the photoelectric conversion element group. And control means for controlling transfer to a plurality of amplifier circuits through a plurality of transfer channels.

According to this invention, the image information read by the photoelectric conversion element group is transferred to a plurality of amplifier circuits through the transfer circuit element group divided into a plurality of transfer channels under the control of the control means. Since each transfer control is performed, the transfer speed of the image information read by the photoelectric conversion element group can be remarkably increased.

According to a fifth aspect of the present invention, there is provided an image reading apparatus for reading image information attached to an original by scanning the original, comprising: a photoelectric conversion element group using photodiodes arranged in a linear array; Read processing means having a number of shift gate groups and analog shift registers corresponding to the number of photoelectric conversion element groups, and four amplifier circuits corresponding to the number of transfer channels; and dividing the photoelectric conversion element group from the center. The divided photoelectric conversion element group is divided into an odd number system and an even number system to form four systems, and the shift gate group and the analog shift register group also form transfer channels divided into four systems corresponding to the photoelectric conversion element group,
Control means for controlling transfer of image information read by the photoelectric conversion element group to a plurality of amplifier circuits through four transfer channels.

According to this invention, the image information read by the photoelectric conversion element group is converted into 4
Since transfer control is performed to each of a plurality of amplifier circuits via the shift gate group and the analog shift register group divided into transfer channels of a system, the speed of transfer processing of image information read by the photoelectric conversion element group is increased. I can do it.

According to a sixth aspect of the present invention, there is provided an image reading apparatus for reading image information attached to an original by scanning the original, wherein the photoelectric conversion elements are arranged in a linear array. The group is divided into an odd-numbered system and an even-numbered system, and the odd-numbered and even-numbered photoelectric conversion element groups are divided into a plurality with different boundaries to form a plurality of transfer channels, and the photoelectric conversion element group is used. Reading processing means for transferring read image information by a plurality of systems.

According to the present invention, similarly to the first aspect of the invention, the speed of the image information transfer processing can be remarkably increased.

Further, since the photoelectric conversion element group divided into the odd-numbered system and the even-numbered system is further divided into a plurality of transfer channels at different mutual boundaries, the photoelectric conversion elements of the odd-numbered systems are formed. And the boundary between the photoelectric conversion elements of the even-numbered systems can be shifted to perform the reading process. When an image is formed based on image information read by this image reading device, the boundary corresponds to the boundary. Almost no difference in the characteristics of the formed image in the region can be achieved, and the image quality can be improved.

According to a seventh aspect of the present invention, there is provided an image reading apparatus for reading image information attached to an original by scanning the original, comprising: a photoelectric conversion element group linearly arranged; Dividing the group into an odd-numbered system and an even-numbered system, and dividing the odd-numbered and even-numbered photoelectric conversion element groups into two with different boundaries to form a total of four transfer channels; Reading processing means for transferring image information read by the group in four systems.

According to the present invention, similarly to the second aspect of the invention, the speed of the image information transfer process can be increased.

In addition, since the photoelectric conversion element group divided into the odd-numbered system and the even-numbered system is further divided into two transfer channels with different boundaries, the photoelectric conversion element group is divided into two. It is possible to perform the reading process by shifting the boundary between the elements and the boundary between the photoelectric conversion elements of the even-numbered systems, and when forming an image based on the image information read by this image reading apparatus, it corresponds to the boundary. The difference in the characteristics of the formed image in the region to be changed is almost eliminated, and the image quality can be improved.

According to a further aspect of the present invention, there is provided an image reading apparatus for reading image information attached to an original by scanning the original, comprising: a photoelectric conversion element group using photodiodes linearly arranged; The photoelectric conversion element group is divided into an odd-numbered system and an even-numbered system, and the odd-numbered and even-numbered photoelectric conversion element groups are divided into two with different boundaries to form a total of four transfer channels. A read processing unit having shift gate groups and analog shift register groups corresponding to the number of photoelectric conversion element groups and individual amplification circuits for four transfer channels is provided.

According to the present invention, since the reading process is performed by a total of four systems, the speed of the transfer process of the image information can be increased, and the boundary between the odd-numbered photoelectric conversion elements and the even-numbered photoelectric conversion elements can be improved. Can be read by a total of four systems shifted from the boundary of the image reading device. When an image is formed based on the image information read by the image reading device, the difference in the characteristics of the formed image in the area corresponding to the boundary is obtained. And the image quality can be improved.

According to a ninth aspect of the present invention, there is provided an image reading apparatus for reading image information attached to an original by scanning the original, the photoelectric conversion element group being linearly arranged and the photoelectric conversion element Read processing means having a plurality of transfer circuit element groups corresponding to the number of groups, and a plurality of amplifier circuits corresponding to the number of transfer channels; and dividing the photoelectric conversion element group into odd-numbered systems and even-numbered systems, and odd-numbered systems and even-numbered systems. Along with dividing the system photoelectric conversion element group into a plurality of systems each having a shifted boundary, the transfer circuit element group also forms a plurality of system transfer channels divided corresponding to the photoelectric conversion element group,
Control means for controlling transfer of image information read by the photoelectric conversion element group to a plurality of amplifier circuits through the plurality of transfer channels.

According to the present invention, the image information read by the photoelectric conversion element group is divided into an odd-numbered system and an even-numbered system under the control of the control means, and is transferred by a plurality of transfer channels each having a shifted boundary. Since transfer control is performed for each of the plurality of amplifier circuits via the transfer circuit element group, the speed of transfer processing of image information read by the photoelectric conversion element group can be remarkably increased. Further, when an image is formed based on image information read by the image reading apparatus, a difference in characteristics of a formed image in an area corresponding to the boundary can be almost eliminated, and image quality can be improved.

According to a tenth aspect of the present invention, there is provided an image reading apparatus for reading image information attached to an original by scanning the original, wherein the photoelectric conversion element group is linearly arranged and the photoelectric conversion element Read processing means having a plurality of transfer circuit element groups corresponding to the number of groups, and a plurality of amplifier circuits corresponding to the number of transfer channels; and dividing the photoelectric conversion element group into odd-numbered systems and even-numbered systems, and odd-numbered systems and even-numbered systems. The photoelectric conversion element group of the system is divided into four systems each having a shifted boundary, and the transfer circuit element group also forms four transfer channels divided corresponding to the photoelectric conversion element group. Control means for controlling the transfer of the read image information to the four amplifier circuits through the four transfer channels.

According to the present invention, the image information read by the photoelectric conversion element group is divided into an odd-numbered system and an even-numbered system under the control of the control means, and is divided into four transfer channels each having a shifted boundary. Since transfer control is performed to each of the four amplifier circuits via the transfer circuit element group,
The transfer speed of the image information read by the photoelectric conversion element group can be increased. Further, when an image is formed based on image information read by the image reading apparatus, a difference in characteristics of a formed image in an area corresponding to the boundary can be almost eliminated, and image quality can be improved.

[0027]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the image reading apparatus of the present invention will be described in detail.

(Embodiment 1) The image reading apparatus of the present embodiment shown in FIG. 1 comprises a document table (document table glass) 2 on which a document G is placed, a light source lamp 3, and a reflector 4.
Illumination device 5 that irradiates scanning light onto document G on document table 2
And a first carriage 7 on which a first mirror 6 is mounted, and a second carriage 10 on which a second mirror 8 and a third mirror 9 are mounted
And an imaging lens 11 that forms an image of the original G on a line sensor 30 using a photodiode and a CCD.

The image reading apparatus further includes a drive motor 12 for driving the first carriage 7 and the second carriage 10 to execute scanning operation for reading the original G.

Further, the image reading apparatus includes a CPU 20 for controlling the whole image processing, an image signal processing circuit 21 for processing the image signals collected by the line sensor 30, a RAM for storing the image signals, and A memory 22 including a ROM in which a control program is stored, and a drive circuit 23 for sending a drive signal to the drive motor 12 are respectively controlled. Further, the image reading device includes an operation panel 24.

As shown in FIG. 2, the image signal processing circuit 21 includes an amplifier circuit 40 capable of adjusting a gain and an offset, an AD conversion circuit 27, and a shading correction circuit 2.
8 is provided.

Here, a specific configuration example of the line sensor 30 and the amplifier circuit 40 will be described with reference to FIG.

As shown in FIG. 3, the line sensor 30 is provided with, for example, 7500 photoelectric conversion elements S1 to S7500 arranged in a line, and generates a charge proportional to the product of the irradiation light intensity and the irradiation time. It is supposed to.

These charges are transferred at regular time intervals to a shift gate group 41O as a transfer circuit element group as described later.
L, 41EL, 41OR, 41ER and the analog shift register group 42OL, 42EL, 42OR, are transferred to a transfer channel composed of 42ER, and the line sensor 3 is changed according to the transfer channel.
0, and the four output circuits 40OL, 40EL, 40OR, and 40 shown in FIG.
The output voltages are converted into output voltages VOL, VEL, VOR, and VER by the 40ER and output.

The shift gate group 41 OL, 41 EL, 41
OR, 41ER and analog shift register group 42OL, 42E
L, 42OR, 42ER, and four amplifier circuits 40OL, 40E
The reading processing means is constituted by L, 40OR, and 40ER.

In the first embodiment, as described above, there are four transfer channels.

The first channel includes photoelectric conversion elements S1 to S37 from one end of the main scanning to the center boundary CC '.
Odd-numbered photoelectric conversion elements S1, S3,.
In the system of S3749 (hereinafter referred to as OL), the second channel is an even-numbered photoelectric conversion element S2, S4 among the photoelectric conversion elements S1 to S3750 from one end of the main scan to the boundary CC ′. In the system of S3750 (hereinafter referred to as EL), the third channel includes photoelectric conversion elements S7500 and S7500 from the other end of the main scanning to the center boundary CC ′.
7549,... Among S3751, the odd-numbered photoelectric conversion elements S7549, S7547... S3751 (hereinafter referred to as OR), and the fourth channel extends from the other end of the main scanning to the boundary CC ′. Photoelectric conversion element S7500,
S7549,... S3751 are even-numbered photoelectric conversion elements S7500, S7548,... S3752 (hereinafter referred to as ER).

On one end side (the photoelectric conversion element S1 side) of the photoelectric conversion elements S1 to S7500 in the main scanning direction,
An auxiliary photoelectric conversion element group 43a including a total of 128 auxiliary photoelectric conversion elements D1 to D128 is arranged, and the other end side in the main scanning direction (the photoelectric conversion element S7500 side)
In addition, a total of 128 auxiliary photoelectric conversion elements D129 to D129
An auxiliary photoelectric conversion element group 43b composed of 256 is arranged.

In addition, a required number of shift gate groups 41OL, 41OL correspond to the respective systems OL, EL, OR, ER.
EL, 41OR, 41ER and a required number of analog shift register groups 42OL, 42EL, 42OR, 42ER are provided, and analog shift register groups 42OL, 42EL, 42OR, 42
Each output of the ER is amplified by an independent amplifier circuit 40OL, 40EL, 40EL, 40ER constituting the amplifier circuit 40, converted into a digital signal by an A / D converter circuit 27, and illuminated by a shading correction circuit 28. Irregularities and sensitivity variations in pixel units are corrected and stored in the memory 22.

The image data stored in the memory 22 is read out as continuous one-line data in synchronization with an external device (not shown).

In the image reading apparatus of the present embodiment, the first carriage 7 and the second carriage 10 move at a speed perpendicular to the reading direction by the line sensor 30, that is, in the sub-scanning direction (the direction of the arrow shown in FIG. 1). Ratio 2: 1
And is driven by the drive motor 12. Then, the document G on the document table 2 is illuminated by the illumination device 5 mounted on the first carriage 7. The reflected light from the original G is
Folded by mirror 6, second mirror 8, third mirror 9,
An image read from the original G is formed on the photoelectric conversion elements S1 to S7500 including, for example, 7500 photodiodes linearly provided on the line sensor 30 via the imaging lens 11 to reach the in-sensor 30. , And is processed by the image signal processing circuit 21, and is written to the memory 22 under the control of the CPU 20.

At this time, according to the first embodiment, as described above, the required number of shift gate groups 41OL, 41EL, 41OR and 41ER are divided into four systems OL, EL, OR and ER.
And the required number of analog shift register groups 42OL and 42E
The charges of the photoelectric conversion elements S1 to S7500 are transferred using L, 42OR, and 42ER, and amplified by independent amplifier circuits 40OL, 40EL, 40EL, and 40ER, respectively.
The signal is converted into a digital signal by the / D conversion circuit 27 and the shading correction circuit 28 corrects illumination unevenness and sensitivity variation in pixel units. Therefore, compared with the conventional example, reading is performed by the photoelectric conversion element groups S1 to S7500. In addition, the speed of the transferred image information can be increased.

Further, the four systems OL, EL, OR,
Divided into ER, shift gate group 41OL, 41EL, 41OR,
41ER and a required number of analog shift register groups 42OL,
It is also possible to execute the control of the transfer of electric charges over the four systems of 42EL, 42OR, and 42ER under the control of the CPU 20, which is loaded with a control program in advance.

(Embodiment 2) Embodiment 2 of the present invention will be described with reference to FIG.

In the second embodiment, as shown in FIG. 4, the configuration of the transfer channel of the line sensor 30 is such that the first channel has a boundary A− from one end of the main scanning.
Of the photoelectric conversion elements S1 to S3746 up to A ', a system of odd-numbered photoelectric conversion elements S1, S3,... S3745 (hereinafter, referred to as OL) is used. -B 'photoelectric conversion element S
Even-numbered photoelectric conversion elements S among 1 to S3754
2, S4,..., S3754 (hereinafter referred to as EL), and the third channel is a boundary A from the other end of the main scanning.
-A 'photoelectric conversion elements S7500, S7549,...
... Odd-numbered photoelectric conversion element S754 among S3747
9, S7547... S3747 (hereinafter referred to as OR), and the fourth channel is a photoelectric conversion element S7500, S754 from the other end of the main scanning to the boundary BB ′.
9, the even-numbered photoelectric conversion elements S in S3755
7500, S7548,..., S3756 (hereinafter referred to as E
R is referred to as R), and the other configuration is the same as that of the first embodiment.

According to the second embodiment, the photoelectric conversion element groups S1 to S
7500 can speed up the transfer process of the read image information.

Further, according to the second embodiment, a total of 4
Since the reading process is performed by the system, the speed of the transfer process of the image information can be increased, and the boundary between the photoelectric conversion element group between the odd systems OL and OR and the boundary between the photoelectric conversion element group between the even systems EL and ER can be improved. , The reading process can be performed by a total of four systems. When an image is formed based on the image information read by this image reading apparatus, the odd systems OL and OR, and the even systems EL and ER There is almost no difference in the characteristics of the region corresponding to the boundary, whereby the image quality can be improved without the difference in shading.

In the above description, the line sensor 30
Has been described in the main scanning direction, but the present invention is also easily applied to a line sensor configured to perform reading processing in three or more divisions, that is, in a plurality of channels of six or more channels in order to further increase the speed. be able to.

[0049]

According to the present invention, the photoelectric conversion element group is divided into an odd-numbered system and an even-numbered system, and the odd-numbered and even-numbered photoelectric conversion element groups are divided into a plurality of systems (mainly, a plurality of systems). Since the transfer processing of the image information read by the (four systems) transfer channels is performed, it is possible to provide an image reading apparatus capable of remarkably speeding up the transfer processing of the image information read by the photoelectric conversion element group.

Further, according to the present invention, a plurality of (mainly four) transfer channels are formed by dividing the photoelectric conversion element group divided into an odd-numbered system and an even-numbered system into a plurality of systems with different mutual boundaries. Then, since the reading process is performed by shifting the boundary between the photoelectric conversion elements of the odd-numbered systems and the boundary between the photoelectric conversion elements of the even-numbered systems, the image is read based on the image information read by this image reading apparatus. When the formation is performed, it is possible to provide an image reading apparatus capable of almost eliminating the difference in the characteristics of the formed image in the area corresponding to the boundary and improving the image quality.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram of an image reading device according to a first embodiment of the present invention.

FIG. 2 is a block diagram illustrating a configuration of an image signal processing circuit of the image reading device according to the first embodiment of the present invention.

FIG. 3 is a schematic explanatory diagram illustrating a configuration of a line sensor and an amplifier circuit in the image reading device according to the first embodiment of the present invention.

FIG. 4 is a schematic explanatory diagram illustrating configurations of a line sensor and an amplifier circuit in the image reading device according to the second embodiment of the present invention.

[Explanation of symbols]

 2 Document Placement Table 3 Light Source Lamp 5 Illumination Device 11 Imaging Lens 12 Drive Motor 20 CPU 30 Line Sensor 40OL Amplification Circuit 41OL Shift Gate 42OL Analog Shift Register S1 Photoelectric Conversion Element G Document

Claims (10)

[Claims] 1. An image reading apparatus for reading image information attached to an original by scanning the original, comprising: a photoelectric conversion element group arranged linearly in a row; The photoelectric conversion element groups of the odd-numbered system and the even-numbered system are divided into a plurality of groups to form a plurality of transfer channels, and the image information read by the photoelectric conversion element groups is transferred through a plurality of transfer channels. An image reading apparatus, comprising: 2. An image reading apparatus for reading image information attached to a document by scanning the document, comprising: a photoelectric conversion element group linearly arranged in a line; A read process for dividing the photoelectric conversion element groups in both regions into odd-numbered systems and even-numbered systems to form a total of four transfer channels and transferring image information read by the photoelectric conversion element groups in four systems. And an image reading device. 3. An image reading apparatus for reading image information attached to an original by scanning the original, comprising: a photoelectric conversion element group using photodiodes linearly arranged; and a photoelectric conversion element group. Are divided at the center, and the divided photoelectric conversion element groups are divided into odd-numbered systems and even-numbered systems, respectively, to form a total of four transfer channels. An image reading apparatus, comprising: a read processing unit having a shift register group and individual amplifier circuits for each of four transfer channels. 4. An image reading apparatus for reading image information attached to a document by scanning the document, comprising: a photoelectric conversion element group linearly arranged; and a number of photoelectric conversion element groups corresponding to the photoelectric conversion element group. A read processing unit having a transfer circuit element group and a plurality of amplifier circuits corresponding to the number of transfer channels; and dividing the photoelectric conversion element group into an odd system and an even system, and an odd system and an even system. And the transfer circuit element group also forms a plurality of transfer channels divided corresponding to the photoelectric conversion element group, and transfers image information read by the photoelectric conversion element group to the plurality of transfer channels. Control means for controlling transfer to a plurality of amplifying circuits respectively. 5. An image reading apparatus for reading image information attached to an original by scanning the original, comprising: a photoelectric conversion element group using photodiodes arranged in a linear array; Read processing means having a number of shift gate groups and analog shift registers corresponding to the number of the above, and four amplifying circuits corresponding to the number of transfer channels; and a group of photoelectric conversion elements divided and divided from the center of the group of photoelectric conversion elements Is divided into an odd number system and an even number system to form four systems, and the shift gate group and the analog shift register group also form transfer channels divided into four systems corresponding to the photoelectric conversion element groups, and are formed by the photoelectric conversion element group. And control means for controlling transfer of the read image information to a plurality of amplifier circuits using four transfer channels. Image reading apparatus. 6. An image reading apparatus for reading image information attached to a document by scanning the document,
A photoelectric conversion element group linearly arranged and arranged, and the photoelectric conversion element group is divided into an odd-numbered system and an even-numbered system, and the odd-numbered and even-numbered photoelectric conversion element groups are divided into a plurality at different boundaries. An image reading apparatus, comprising: a read processing unit configured to separately form a plurality of systems of transfer channels and to transfer image information read by the photoelectric conversion element group by a plurality of systems. 7. An image reading apparatus for reading image information attached to an original by scanning the original, comprising: a photoelectric conversion element group arranged linearly in a row; The image information read by the photoelectric conversion element group is formed by dividing the photoelectric conversion element groups of the odd-numbered system and the even-numbered system into two at different boundaries to form a total of four transfer channels. An image reading apparatus, comprising: reading processing means for performing transfer processing of the data by four systems. 8. An image reading apparatus for reading image information attached to an original by scanning the original, comprising: a photoelectric conversion element group using photodiodes arranged in a linear array; Are divided into odd-numbered systems and even-numbered systems, and the odd-numbered and even-numbered photoelectric conversion element groups are divided into two with different boundaries to form a total of four transfer channels. These correspond to the photoelectric conversion element groups. An image reading apparatus, comprising: read processing means having the following number of shift gate groups and analog shift register groups, and individual amplifier circuits for each of four transfer channels. 9. An image reading apparatus for reading image information attached to a document by scanning the document, comprising: a photoelectric conversion element group linearly arranged; and a number of photoelectric conversion element groups corresponding to the photoelectric conversion element group. A read processing unit having a transfer circuit element group and a plurality of amplifier circuits corresponding to the number of transfer channels; and dividing the photoelectric conversion element group into an odd system and an even system, and an odd system and an even system. Is divided into a plurality of systems each having a shifted boundary, and the transfer circuit element group also forms a plurality of systems of transfer channels divided corresponding to the photoelectric conversion element group, and image information read by the photoelectric conversion element group is formed. Control means for controlling transfer to a plurality of amplifier circuits by the plurality of transfer channels, respectively. 10. An image reading apparatus for reading image information attached to an original by scanning the original, comprising: a photoelectric conversion element group linearly arranged; and a number corresponding to the photoelectric conversion element group. A read processing unit having a transfer circuit element group and a plurality of amplifier circuits corresponding to the number of transfer channels; and dividing the photoelectric conversion element group into an odd system and an even system, and an odd system and an even system. And the transfer circuit element group also forms four transfer channels divided corresponding to the photoelectric conversion element group, and the image information read by the photoelectric conversion element group is described above. Control means for controlling transfer to four amplifying circuits using four transfer channels, respectively.