CN1496098A - Image fetch device - Google Patents

Abstract

An image reading apparatus is provided which includes a cold-cathode tube as a light source for illuminating a document sheet, an inverter for providing the light source with driving power. A connection cable is used for electrically connecting the light source to the inverter. The image reading apparatus also includes three kinds of rows of light receiving elements arranged in the primary scanning direction for detecting the light reflected on the document sheet. A lens array is provided for focusing the reflected light at the respective rows of light receiving elements. The light receiving elements are mounted on a printed circuit board. The light source, the inverter, the lens array and the printed circuit board are supported by a single case of the image reading apparatus.

Description

Image read-out

Technical field

The present invention relates to image read-out, relate more specifically to a kind of capable image reading apparatus that reads filing paper with panchromatic mode light.The invention still further relates to a kind of image sensing chip that is suitable for use in this kind image reading apparatus most.

Background technology

A kind of traditional image read-out has been shown in the accompanying drawing 14.Shown image read-out comprises a Lights section Ba by cold-cathode tube 1 ' and speculum 2 ' constitute.Conventional apparatus also comprises one by flexible cable 3 ' drive the converter part Bb of energy to cold-cathode tube 1 ' provide, and a photoconduction part Bc who is provided with speculum 4a ', 4b '.Conventional apparatus also comprise be provided with lens 5 ' and imageing sensor 6 ' image reading section Bd.

In the course of the work, the Lights section is placed with the fastening glass panels 7 of the filing paper K that will read ' move back and forth down thereon on second scanning direction.Correspondingly, photoconduction part Bc also moves back and forth on second scanning direction.

Have been found that there is following weak point in traditional image read-out.

With reference to Figure 15, read for every row is carried out image, the light receiving piece 8 of each image sensing chip ' (only illustrating one) on second scanning direction with respect to filing paper reach distance P.And in this moving process, a length of light receiving piece 8 ' scan is the rectangle of (P+L), this means owing to the reason of light receiving piece self length L has read excessive area inswept to the image of every row.Its result uses traditional image read-out can't realize the Hi-Fi printing reproduction of the image on the paper.

Summary of the invention

Therefore, an object of the present invention is to provide a kind of image read-out that can overcome above-mentioned shortcoming.

Image read-out according to first aspect present invention comprises: one is used for the light source of light radiation filing paper; Delegation is arranged on the ruddiness receiving element that is used to detect catoptrical ruddiness composition on the filing paper on the main scanning direction, and the length of each ruddiness receiving element on second scanning direction vertical with main scanning direction is L; Delegation is arranged on the green glow receiving element of the green glow composition that is used for detection of reflected light on the main scanning direction, the standoff distance of the row of the row of green glow receiving element and ruddiness receiving element on second scanning direction is P, and the length of each green glow receiving element on second scanning direction is L; Delegation is arranged on the blue streak receiving element of the blue streak composition that is used for detection of reflected light on the main scanning direction, the row of blue streak receiving element on second scanning direction with the capable partition distance P of green glow receiving element, the length of each blue streak receiving element on second scanning direction is L; An and signal selector; Wherein, the one scan row is being carried out during image reads, in during when described each light receiving piece relative file paper moves first transmitting range on second scanning direction, signal selector will be adopted as the necessary image signal by the voltage that each light receiving piece produces, described each light receiving piece relative file paper on second scanning direction when then first transmitting range moves second transmitting range again during in, the voltage that signal selector will described each light receiving piece generation is given up as unnecessary picture signal.

Signal selector can be CPU, gate array or PLA (programmable logic array).

First transmitting range equals (P-L), and second transmitting range equals L.

In addition, first transmitting range can be less than (P-L), and second transmitting range can be greater than L.

Light source comprises a light-emitting diode.

According to a second aspect of the invention, provide a kind of image read-out, it is characterized in that comprising: one is used for the light source of light radiation filing paper; Delegation is arranged on the ruddiness receiving element that is used to detect catoptrical ruddiness composition on the filing paper on the main scanning direction, and the length of each ruddiness receiving element on second scanning direction vertical with main scanning direction is L; Delegation is arranged on the green glow receiving element of the green glow composition that is used for detection of reflected light on the main scanning direction, the standoff distance of the row of the row of green glow receiving element and ruddiness receiving element on second scanning direction is P, and the length of each green glow receiving element on second scanning direction is L; Delegation is arranged on the blue streak receiving element of the blue streak composition that is used for detection of reflected light on the main scanning direction, the row of blue streak receiving element on second scanning direction with the capable partition distance P of green glow receiving element, the length of each blue streak receiving element on second scanning direction is L; An and optical controller; Wherein, each scan line is being carried out in the image process of reading, in during when each light receiving piece relative file paper moves first transmitting range on second scanning direction, optical controller is opened light source, equally when described each light receiving piece with respect to filing paper after moving first transmitting range on second scanning direction during mobile again second transmitting range during in, optical controller is closed light source.

Optical controller can be CPU, gate array or PLA.

Preferably, image read-out also comprises an output time controller, is used to regulate the output from the picture signal of each light receiving piece, thereby picture signal is exported from described each light receiving piece when light source is closed.

Description of drawings

By description meeting further feature of the present invention and advantage there is clearer understanding below in conjunction with respective drawings.

Fig. 1 is the decomposing schematic representation according to the image read-out of first embodiment of the invention;

Fig. 2 is the enlarged diagram of major part of the image read-out of Fig. 1;

Fig. 3 is along the generalized section of III-III direction among Fig. 2;

Fig. 4 is along the generalized section of IV-IV direction among Fig. 2;

Fig. 5 is the decomposing schematic representation of the image read-out of Fig. 1, shows the method for device assembling;

Fig. 6 is the floor map of image sensing chip that is used for the image read-out of Fig. 1;

Fig. 7 is along the generalized section of VII-VII direction among Fig. 6;

Fig. 8 is the floor map of distressed structure of the image sensing chip of Fig. 6;

Fig. 9 is the block diagram of control system that is used for the image read-out of Fig. 1;

The output time of the picture signal that provides from the light receiving piece of the image sensing chip of Fig. 6 is provided Figure 10;

Figure 11 is the circuit diagram of the image sensing chip of Fig. 6;

Figure 12 shows the deformation pattern of control system;

Figure 13 is the conveying of paper and the relation between the light source startup;

Figure 14 is traditional image read-out; And

Figure 15 shows the motion conditions of light receiving piece.

Embodiment

Below with reference to relative accompanying drawing most preferred embodiment of the present invention is described specifically.

At first with reference to figure 1, it is the decomposing schematic representation of each member that is used for the image read-out of first embodiment of the invention.The image read-out of present embodiment is a kind of plate capable image reading apparatus A, and it mainly comprises a housing 1, cold-cathode tube 2, converter 3, circuit board 4, light reflection bearing 5, shielding frame 6, lens bunches 7 and transparent cover piece 8.

In described embodiment, housing 1 (the main scanning direction N1 among Fig. 2) in one direction is elongated and a kind of body structure is arranged, and it is used to hold cold-cathode tube 2, converter 3, light reflection bearing 5, shielding frame 6 and lens bunches 7.Housing 1 supports from top cover piece fixed thereon 8.Housing 1 supports equally from the following circuit board that fixes with it 4.Housing 1 can be by constituting as synthetic resin etc.

Cold-cathode tube 2 with light exit surface 20 is as a white light source and extending on the main scanning direction on the whole width that is used at filing paper with white light homogeneous radiation filing paper.At work, drive energy (for example 600V, 30-160KHz, 3-5mA) parallel connection and offer cold-cathode tube 2.If necessary or best, available one or more White LEDs substitute cold-cathode tube 2.

Converter 3 comprises the circuit board 33 that is provided with suitable circuit (not shown) above.Converter 3 is used for low-voltage DC is converted to the alternating current of high pressure and high frequency.Cover unshowned circuit with lid shell 34.Converter 3 preferably also is provided with and is used for preventing that circuit from producing the related device of noise.Converter 3 comprises that being provided with two terminal 31a and 31b is used for from the power import part 31 of external power source input direct current.As shown in Figure 3, the reverse side of the circuit board 33 of converter 3 is provided with enough large-area ground plane 32.Ground plane 32 is electrically connected with above-mentioned terminal 31b.The output voltage of converter 3 is offered cold-cathode tube 2 by two flexible cable 30a and 30b.

Circuit board 4 has the upper surface (with respect to the inner surface of housing 1) that is used for fixing image sensing chip bunch.Though not shown among Fig. 1, the upper surface of circuit board 4 is formed with wiring figure, will the concrete condition of each image sensing chip 40 be described below.

As shown in Figure 1, circuit board 4 is elongated on main scanning direction, and bunch on main scanning direction, the extending of image sensing chip 40.In addition, equally as shown in fig. 1, circuit board 4 is equipped with and is used for the connector 49 that connects with external circuit or equipment;

Light reflection bearing 5 support in the housing 1 cold-cathode tube 2 simultaneously high reflectance ground to cover piece 8 reflected white-light.Because light reflection seat 5 is provided, the white light that is produced by cold-cathode tube 2 promptly is used as the scanning position P (referring to Fig. 3) that guides in the band that extends on the main scanning direction or line concentrated area on the glass plate 9.

In order to hold cold-cathode tube 2, light reflection bearing 5 is provided with the groove 50 with opening 51, groove 50 has inner surface 50a, for reflective inner surface 50a efficiently is preferably white, the cross-sectional diameter of groove 50 but equals to be fixed on the external diameter of the rubber ring 21 around the two ends of cold-cathode tube 2 greater than the cross-sectional diameter of cold-cathode tube 2.

A kind of like this benefit of structure is to guarantee that cold-cathode tube 2 is away from light reflection bearing 5.In the case, can prevent that the heat that produced by cold-cathode tube 2 is by spreading with direct contact of light reflection bearing 5.Its result can remain on suitable temperature with cold-cathode tube 2, thereby is provided for carrying out the light that normal picture reads required capacity.

As shown in Fig. 3 and Fig. 4, light reflection bearing 5 is provided with the otch 52 that is used to hold flexible cable 30a and 30b.

Can be elongated on main scanning direction equally by the shielding frame 6 that mold pressing processing metal plate is made, as can be seen from Figure 1, shielding frame 6, the same length of cold-cathode tube 2 and light reflection bearing 5.Shielding frame 6 has rectangular cross section, and does not have top-side (referring to Fig. 3 or Fig. 4).Shielding frame 6 is provided with otch 61, is used to provide the passage of flexible cable 30a-30b, and has the terminal 62 of clip shape.The folder shape terminal 62 that uses for shielding frame 6 ground connection can curve by the entire portion with terminal 62 to be made.

As shown in Figure 5, housing 1 is formed with the upward opening cavity part 11 (the first cavity part) even as big as holding shielding frame 6.Therefore, after cold-cathode tube 2, light reflection bearing 5 and shielding frame 6 are put together, just can at an easy rate they be installed in the housing 1 together by they being inserted the first cavity part 11.

Housing 1 is formed with another a upward opening cavity part 12 (second cavity part) adjacent with the first cavity part 11 equally.The second cavity part 12 is used to hold converter 3.As shown in fig. 1, the otch 15 of two cavity part 11-12 passage by being used to provide flexible cable 30a-30b communicates with each other.Two cavity part 11-12 are used to hold the otch 16 that presss from both sides shape terminal 62 by another and communicate with each other.As shown in Figure 3, ground plane 32 and folder shape terminal 62 keep relativeness each other, and set up electrical connection betwixt.

Surround the first and second cavity part 11-12 with cover piece 8.Therefore, can unexpectedly not contact the high-pressure section that is placed in the converter 3 in the second cavity part 12.Yet, as shown in Figure 2, outside electric current intake section 31 keeps being exposed to by the window in the side that is formed on housing 1 17.In this structure, can be electrically connected with converter 3 foundation at an easy rate by plug 99 being inserted window 17.

Lens bunches 7 are included in the cluster GRIN Lens (Selfoclenses) of extending on the main scanning direction.The light that lens bunches 7 reflect on being used for filing paper K between 40 bunches of glass plate 9 and image sensing chips focuses on image sensing chip 40, forms the erect image of the non-amplification of reading from filing paper thus.As shown in Figure 5, housing 1 is formed with another cavity part 13 (the 3rd cavity part) that is used to hold the upward opening of lens bunches 7.

Image sensing chip 40 is set for the irradiation energy output image signal according to the light that reflects on the filing paper.Circuit board 4 can be by making such as resin materials such as epoxy resin or ceramic materials.

In the illustrated embodiment, the position of converter 3 is near cold-cathode tube 2.By a kind of like this structure, can correspondingly be shortened at the flexible cable 30a-30b of converter 3 and 2 extensions of cold-cathode tube.Therefore, can reduce, also can strengthen the light quantity that produces by cold-cathode tube 2 greatly along the energy loss of flexible cable 30a-30b.

As mentioned above, provide the high-frequency drive energy that produces by converter 3 to cold-cathode tube 2 by flexible cable 30a-30b.In this structure, high-frequency noise can exceedingly scatter out from flexible cable 30a-30b and/or cold-cathode tube 2.As not taking the suitable precautionary measures, the picture signal that provides from image sensing chip 40 can be provided these noises negatively, can't realize that therefore the Hi-Fi printing of institute's reading image is reproduced.Just based on this, image sensing chip 40 of the present invention is made it with shielding frame 6 to completely cut off with cold-cathode tube 2 and flexible cable 30a-30b and is come.Thereby the problems referred to above have been solved.

As previously mentioned, according to the present invention, under the situation of not using bolt or binding agent, cold-cathode tube 2, light reflection bearing 5 and shielding frame 6 are set together.In addition, only, the package assembly of above-mentioned three elements 2,5,6 just it can be placed in the housing 1 by being inserted the first cavity part 11.Similarly, only just it can be placed in relevant position in the housing 1 by simply converter 3 and lens bunches 7 being inserted cavity part 12 and 13 respectively.

Below with reference to Fig. 6, as shown in it, each is overlooked the image sensing chip 40 that is rectangle and comprises a carrying light receiving piece 41R, 41G, multirow NR, the NG of 41B, the chip substrate of NB.Every capable NR, NG, NB extend on main scanning direction N1, and each provisional capital includes different types of light receiving piece of similar number and structure.Particularly according to described embodiment, image sensing chip 40 comprises the first row NR that ruddiness receiving element 41R forms, the second row NG that green glow receiving element 41G forms, and the third line NB of blue streak receiving element 41B composition, they are arranged on the second scanning direction N2 by said sequence.Therefore, second of the green glow receiving element 41G row N G is sandwiched between the third line NB of the first row NR of ruddiness receiving element 41R and blue streak receiving element 41B.

As can see from Figure 1, each image sensing chip 40 all is installed on the circuit board 4, and its longitudinal axis extends along main scanning direction.Therefore, each row NR, NG, the NB of light receiving piece 41R, the 41G of each image sensing chip 40,41B composition align with the corresponding row of the light receiving piece of any other image sensing chip with respect to second scanning direction.For each image sensing chip 40 is accurately positioned on the circuit board 4, each image sensing chip 40 all can be provided with the position mark (not shown).Can select to be installed in the number of the image sensing chip 40 on the circuit board 4 according to the width of the filing paper that will read by image reading apparatus A.

Get back to Fig. 6, among every capable NR, the NG that light receiving piece 41R, the 41G in each image sensing chip 40,41B form, the NB, between each light receiving piece at the P that is spaced apart of main scanning direction N1.The interval that the second scanning direction N2 goes up between each light receiving piece also is set at P.The length of each light receiving piece on second scanning direction is L.In the embodiment shown, L equals P/2.

Typically, each light receiving piece 41R, 41G, 41B also can comprise a phototransistor, and it can provide an opto-electronic conversion to be used to produce voltage according to the light quantity that receives.The color that can use chromatic filter to carry out phototransistor is selected.

Therefore, as shown in Figure 7, select the red filter 42R that sees through to cover each ruddiness receiving element 41R with allowing ruddiness, and with allowing green glow to select the green filter 42G that sees through to cover each green glow receiving element 41G, similarly, with allowing blue streak to select the blue color filter 42B that sees through to cover each blue streak receiving element 41B.Each chromatic filter 42R, the 42G, the 42B that are made by suitably painted photosensitive resin or film are slightly larger than corresponding light receiving piece on length and width.As shown in the figure, the surface of the chip substrate of image sensing chip 40 is covered by the protective layer 43 of black.Protective layer 43 be formed with a plurality of on the position respectively with each light receiving piece 41R, 41G, the corresponding through hole 43a of 41B.

In these three kinds of chromatic filters, red filter 42R has maximum thickness.On the other hand, green filter 42G has the thickness of moderate, and blue color filter 42B is the thinnest.By a kind of like this structure, blue color filter 42B has maximum light transmission rate, and green filter 42G take second place the light percent of pass minimum of red filter 42R.In the case, the sensitivity of each light receiving piece can equate.Can specifically determine the concrete thickness of each chromatic filter by experimental technique described below.

At first, prepare a red test table.Then, read red test chart with image reading apparatus A, and the level of the picture signal that provides of measuring light receiving element 41R.Carry out similar step, to the green test chart of light receiving piece 41G, to light receiving piece 41B with blue look test chart.Thereby make the level of the picture signal that provides by each chromatic filter all identical by the thickness of determining each chromatic filter.

Available another kind of method is carried out the sensitivity control to light receiving piece 41R, 41G, 41B.For example, as shown in Figure 8, the surface area of each light receiving piece can be become and have nothing in common with each other.In described embodiment, the length L R minimum of element 41R, and the length L G of element 41G is bigger, the length L B maximum of element 41B.The width of each element 41R, 41G, 41B is all the same in described embodiment.

Below with reference to Fig. 9, it is the block diagram of the control section of image reading apparatus A of the present invention.Control section comprises a CPU (central processing portion) 101, ROM (read-only memory) 102, RAM (random access memory) 103, reaches I/OIF (input/output interface) 104.CPU101 comprises time controller 101a and signal selector 101b.

CPU101 is responsible for the integral body control to image reading apparatus A.ROM102 stores required various programs of operation CPU101 or the like.RAM103 stores such as numerical datas such as view data simultaneously for CPU101 provides the working region.I/O interface 104 is subjected to the control of CPU101 to be used to arrive and/or from the transfer of data of image sensing chip 40, converter 3 and motor 105.I/O interface 104 is used for analog picture signal is converted to data image signal equally.Motor 105 is used to be enabled in the roller (not shown) that the transmission filing paper is used on second scanning direction.

As shown in figure 11, each image sensing chip 40 all has the photoelectric circuit that is used for its work.More particularly, the photoelectricity shifting circuit is equipped with 128 bit shift register 401, chip selector 402, one group of ruddiness electric transistor PTR1-PTR128 (constituting ruddiness receiving element 41R), one group of green glow electric transistor PTG1-PTG128 (constituting green glow receiving element 41G), one group of blue streak electric transistor PTB1-PTB128 (constituting blue streak receiving element 41B); One group of first ruddiness field-effect transistor FETR1-FETR128, one group of first green glow field-effect transistor FETG1-FETG128, one group of first blue streak field-effect transistor FETB1-FETB128; One second ruddiness field-effect transistor FETR201, one second green glow field-effect transistor FETG201, one second blue streak field-effect transistor FETB201; One the 3rd ruddiness field-effect transistor FETR211, a Three Greens optical field effect transistor FETG211, one the 3rd blue streak field-effect transistor FETB211; One ruddiness operational amplifier OPR1, a green glow operational amplifier OPG1, a blue streak operational amplifier OPB1; One group three ruddiness resistance R R1-RR3, one group three green glow resistance R G1-RG3, one group three blue streak resistance R B1-RB3, and 11 clamped nipple SI, CLK, GND, AOR1, AOR2, SO, AOG1, AOG2, AOB1, AOB2, VDD.Each first field-effect transistor FETR1-FETR128, FETG1-FETG128, FETB1-FETB128, the second field-effect transistor FETR201, FETG201, FETB201 and the 3rd field-effect transistor FETR211, FETG211, FETB211 can be MOS (metal-oxide semiconductor (MOS)) field-effect transistor.

Joint selected from joint SI, CLK, GND, AOR1, AOR2, SO, AOG1, AOG2, AOB1, AOB2, VDD links to each other with the external circuit (not shown) by connector 49 (referring to Fig. 1).Joint SI receives the series connection signal.Joint CLK is provided clock signal, for example 8MHZ.Joint GND is used for ground connection.Joint AOR1 exports the analog picture signal with the corresponding non-amplification of ruddiness amount that receives, and red image signal is amplified in joint AOR2 output.Joint AOG1 exports the analog picture signal with the corresponding non-amplification of green glow amount that receives, and the green video signal that joint AOG2 output is amplified.Joint AOB1 exports the analog picture signal with the corresponding non-amplification of blue streak amount that receives, and the blue color image signal that AOB2 output is amplified.Joint SO output series connection line output signal, joint VDD is provided with the logic voltage of 5V.

Be described using image reading apparatus A to carry out the operation embodiment that image reads below.

At first, filing paper K is fed forward on glass plate 9, and cold-cathode tube 2 is switched on the white light that is used for radiation filing paper K with generation.Collected by lens bunches 7 focusing on the image sensing chip bunches 40 in reflected white light on the filing paper K, thereby produce the erect image of non-amplification at each corresponding line place of light receiving piece 41R, 41G, 41B.

According to the light quantity that receives, light receiving piece 41R, 41G, 41B produce the signal of telecommunication.More specifically, under the control of the time controller 101a of CPU101, light receiving piece 41R, 41G, 41B be to the one scan line output first picture group image signal, and filing paper K forward travel distance (P-L) simultaneously.Then, under the control of time controller 101a, light receiving piece 41R, 41G, 41B export the second picture group image signal to same scan line, simultaneously the filing paper K distance L of advancing again.

According to described embodiment, under the control of the signal selector 101B of CPU101, first group picture signal is used as desired signal and deposits among the RAM103, and second group picture signal is used as the unwanted picture signal and ignore or give up to fall.Yet, alternately also the picture signal of first can be neglected, be used for further processing and deposit the picture signal in the second portion in RAM103.

Need clear and definite to be, when filing paper K has advanced distance (P-L), light receiving piece 41R, 41G, 41B will be on second scanning direction scanning document paper KP distance.Therefore, by the aforesaid picture signal that neglects second group,, can the image that each scan line carries out the zero lap mode be read when when second scanning direction is seen.

With reference now to Figure 10,, used time of T representation file paper K forward travel distance P wherein.Use R respectively _n, R _N+1, R _N+2Deng the representative red signal light that light receiving piece 41R produces in first half period T, and the ruddiness picture signal R that identity element 41R is produced in second half period T _{N '}, R _{N+1 '}, R _{N+2 '}Deng expression.Similarly, the green glow picture signal G that light receiving piece 41G produces in first half period T _N-1, G _n, G _N+1Deng expression.And the green glow picture signal G that in second half period T, produces by identity element 41G _{N-1 '}, G _{N '}, G _{N+1 '}Deng expression.In addition, the blue streak picture signal B that in first half period T, produces by light receiving piece 41B _N-2, B _N-1, B _nDeng expression.And the blue streak picture signal B that in second half period T, produces by identity element 41B _{N-2 '}, B _{N-1 '}, B _{N '}Deng expression.

According to the present invention, picture signal R _n, R _N+1, R _N+2G _N-1, G _n, G _N+1... B _N-2, B _N-1, B _N(the first picture group image signal) adopted as desired signal, and picture signal R _{N '}, R _{N+1 '}, R _{N+2 '}G _{N-1 '}, G _{N '}, G _{N+1 '}... B _{N-2 '}, B _{N-1 '}, B _{N '}(the second picture group image signal) ignored by CPU101.

The concrete operation details of image sensing chip 40 is described below.The image of image reading apparatus A reads to be serially or to connect the image sensing chip 40 of ground from cluster and carry out to another.More specifically, for example, in shown in Figure 1 bunch, it is from left end image sensing chip 40 (the first image sensing chip) beginning and stop at right-hand member image sensing chip (last image sensing chip) that serialization graph looks like to read.Image in each image sensing chip 40 reads process to carry out according to following manner.

When the clock signal such as 8MHz was input to joint CLK, serial input signals was provided for joint SI.The serial input signals that provides thus is transfused to end to one of chip selector 402 is set.Its result, chip selector 402 is selected signal from selecting output and clock signal synchronously to export high level.The high level that obtains by the change over clock signal selects signal to be imported into the second field-effect transistor FETR201, FETG201, FETB201 grid separately then, thereby makes three transistor turns when clock signal is maintained at low level.

On the other hand, serial input signals synchronously offers the serial input terminal of shift register 401 equally with the clock signal that is imported into the clock end of shift register 401.When the decline of serial input signals and clock signal synchronously is input to first of shift register 401, first becomes conducting ON high level signal is transported to each grid of each first field-effect transistor FETR1, FETG1, FETB1 (corresponding to first of shift register 401), thereby makes these transistor turns.At this moment, because clock signal is in low level, each the 3rd field-effect transistor FETR211, FETG211, the FETB211 that receive no inversion clock signal are held and close.Its result because electric charge is accumulated in each phototransistor PTR1, PTG1, PTB1 place, and flows through each resistance R R3, RG3, RB3 by the relevant first field-effect transistor FETR1, FETG1, FETB1 discharging current.The shunt voltage of each resistance R R3, RG3, RB3 is input to operational amplifier OPR1, OPG1 separately, the non-oppisite phase end of OPB1, thereby be exaggerated by an amplification coefficient, this amplification coefficient is to be decided by the resistance ratio between corresponding among corresponding and each resistance PR2, PG2, the PB2 among each resistance PR1, PG1, the PB1.The voltage of thus obtained amplification is exported from each joint AOR2, AOG2, AOB2 by each second field-effect transistor FETR201, FETG201, the FETB201 that is maintained at conducting state.And clock signal is maintained at low level simultaneously, promptly selects signal to be maintained at high level.Simultaneously, voltage is also exported from each joint AOR1, AOG1, AOB1 between the two ends of the non-amplification of each resistance R R3, RG3, RB3.

On the contrary, when the clock signal when low level rises to high level, each second field-effect transistor FETR201, FETG201, FETB201 end, and each the 3rd field-effect transistor FETR211, FETG211, FETB211 conducting.Its result, each joint AOR2, AOG2, AOB2 no-output, and each phototransistor PTR1, PTG1, PTB1 retain first field-effect transistor FETR1, FETG1, FETB1 and separately three field-effect transistor FETR211, FETG211, the FETB211 discharge of electric charge by separately.When the clock signal and when high level drops to low level, the primary serial signal that had before remained on shift register 401 is moved to second with each first field-effect transistor FETR2, FETG2, FETB2 corresponding with second of conducting, and the respectively second field-effect transistor FETR201, FETG201, FETB201 conducting.Its result, the electric charge of each second phototransistor PTR2, PTG2, PTB2 is by the first relevant field-effect transistor FETR2, FETG2, FETB2 discharge, produces voltage between the two ends of RR3, RG3, RB3 of each resistance thus.Consequent voltage does not have the output of amplification and amplifies the back from each joint AOR2, AOG2, AOB2 output at each amplifier OPR1, OPG1, OPB1 from each joint AOR1, AOG1, AOB1.

By repeating above-mentioned steps, can be used for exporting non-enlarged image signal simultaneously also from each joint AOR2, AOG2, AOB2 output enlarged image signal by scanning in succession from each joint AOR1, AOG1, AOB1 for other phototransistor PTR3-PTR128 of the same image sensing chip 40 (the first image sensing chip) of shades of colour (red, green, orchid), PTG3-PTG128, PTB3-PTB128.When serial input signals at the relevant trailing edge of clock signal during from last position output of shift register 401, the removing end that serial input signals is imported into chip selector 402 takes out from joint SO and be used as the serial output signal simultaneously.Its result, the chip selector 402 of the first image sensing chip 40 will select signal to remain on low level.

Serial output signal from the joint SO of the first image sensing chip 40 (the image sensing chip of left end among Fig. 1) is used as the joint SI that serial input signals is input to next image sensing chip 40 (the second image sensing chip).This makes the second image sensing chip 40 and the first image sensing chip carry out work in an identical manner.

The 3rd and the working method of the image sensing chip 40 of any back also all identical with the first and second image sensing chips.

Being converted to digital signal from the analog picture signal (for each respective color) of a right-hand member image sensing chip or a last image sensing chip by I/O interface 104 deposits among the RAM103.Here be pointed out that filing paper K has also advanced apart from (P-L) when obtaining to deposit in the digital signal among the RAM103.

On the other hand, in described embodiment, the picture signal that is produced by each light receiving piece in second half period T is neglected by the signal selector 101b of CPU101.

In the above-described embodiments, CPU101 (or signal selector 101b) selects required picture signal to deposit among the RAM103.Alternately, also can select by I/O interface 104.In the case, only will required analog signal conversion be digital signal and while unwanted picture signal is not converted into digital signal, can make one's options.

According to the present invention, also can design like this, promptly for the required image signal of each scan line from light receiving piece 41R, 41G, 41B output and simultaneously filing paper K move ahead and be slightly smaller than a segment distance of (P-L).

Below with reference to Figure 12 and 13, it is depicted as the second embodiment of the present invention.In this embodiment, CPU101 contains an output time controller 101a as among first embodiment, and an optical controller 101c, as shown in Figure 12.For a light source, can use the LEDC (light-emitting diode) that can send white light.

According to second embodiment, under the control of optical controller 101c, light source is opened simultaneously the filing paper K distance alpha that moves ahead, and when light source is closed filing paper K another distance beta of advancing.Here α is not more than (P-L), and (alpha+beta) equals P.As shown in it, when filing paper had advanced a distance alpha again, light source was opened, and when filing paper had advanced another distance beta, light source was closed.

In the above-described embodiments, under the control of output time controller 101a, each receiving element is exported a picture signal when light source is closed.

Most preferred embodiment of the present invention is described.Clearly it can do various variations.

For example, can carry out the sensitivity control of light receiving piece by the amplification coefficient of regulating operational amplifier OPR1, OPG1, OPB1.In the case, the amplification coefficient of operational amplifier OPR1 is minimum, and the amplification coefficient second of operational amplifier OPG1 is little, and the maximum of OPB1.

In addition, the sensitivity control of light receiving piece is carried out in the brightness (red, green, orchid) of composition that also can be by regulating the white light that cold-cathode tube produces.Specifically, make the brightness of blue streak composition the strongest, the brightness of green glow composition is inferior strong, and the brightness of ruddiness composition is the most weak.

This type of variation is not used as and has broken away from essence of the present invention and scope, and to those skilled in the art, clearly this type of variation is included in the scope of claims.

Claims (9)

1, a kind of image read-out is characterized in that comprising:

One is used for the light source of light radiation filing paper;

Delegation is arranged on the ruddiness receiving element that is used to detect catoptrical ruddiness composition on the filing paper on the main scanning direction, and the length of each ruddiness receiving element on second scanning direction vertical with main scanning direction is L;

Delegation is arranged on the green glow receiving element of the green glow composition that is used for detection of reflected light on the main scanning direction, the standoff distance of the row of the row of green glow receiving element and ruddiness receiving element on second scanning direction is P, and the length of each green glow receiving element on second scanning direction is L;

Delegation is arranged on the blue streak receiving element of the blue streak composition that is used for detection of reflected light on the main scanning direction, the row of blue streak receiving element on second scanning direction with the capable partition distance P of green glow receiving element, the length of each blue streak receiving element on second scanning direction is L; And

One signal selector;

Wherein, the one scan row is being carried out during image reads, in during when described each light receiving piece relative file paper moves first transmitting range on second scanning direction, signal selector will be adopted as the necessary image signal by the voltage that each light receiving piece produces, described each light receiving piece relative file paper on second scanning direction when then first transmitting range moves second transmitting range again during in, the voltage that signal selector will described each light receiving piece generation is given up as unnecessary picture signal.

2, image read-out according to claim 1 is characterized in that first transmitting range equals (P-L), and second transmitting range equals L.

3, image read-out according to claim 2 is characterized in that L equals P/2.

4, image read-out according to claim 1 is characterized in that first transmitting range less than (P-L), and second transmitting range is greater than L.

5, image read-out according to claim 1 is characterized in that light source comprises a cold-cathode tube.

6, image read-out according to claim 1 is characterized in that light source comprises a light-emitting diode.

7, a kind of image read-out is characterized in that comprising:

One is used for the light source of light radiation filing paper;

Delegation is arranged on the ruddiness receiving element that is used to detect catoptrical ruddiness composition on the filing paper on the main scanning direction, and the length of each ruddiness receiving element on second scanning direction vertical with main scanning direction is L;

Delegation is arranged on the green glow receiving element of the green glow composition that is used for detection of reflected light on the main scanning direction, the standoff distance of the row of the row of green glow receiving element and ruddiness receiving element on second scanning direction is P, and the length of each green glow receiving element on second scanning direction is L;

Delegation is arranged on the blue streak receiving element of the blue streak composition that is used for detection of reflected light on the main scanning direction, the row of blue streak receiving element on second scanning direction with the capable partition distance P of green glow receiving element, the length of each blue streak receiving element on second scanning direction is L; And

One optical controller;

Wherein, each scan line is being carried out in the image process of reading, in during when each light receiving piece relative file paper moves first transmitting range on second scanning direction, optical controller is opened light source, equally when described each light receiving piece with respect to filing paper after moving first transmitting range on second scanning direction during mobile again second transmitting range during in, optical controller is closed light source.

8, image read-out according to claim 7 is characterized in that first transmitting range equals (P-L), and second transmitting range equals L.

9, image read-out according to claim 7, it is characterized in that also comprising an output time controller, be used to regulate output, thereby picture signal is exported from described each light receiving piece when light source is closed from the picture signal of each light receiving piece.

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