JP2934483B2 - Image sensor - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image sensor, and more particularly to an image sensor having a feature in sensitivity adjustment of an output unit.

(B) Conventional technology An image sensor irradiates light from an LED (light emitting diode) light source onto a detection surface of a document or the like, and reflects the reflected light by a plurality of light receiving elements (photodiodes) arranged in rows. There is a type that receives and amplifies a light receiving signal of each light receiving element by an amplifier in a time sequential manner and outputs the result. In this type of image sensor, if the irradiation amount of the LED light source varies, even if the document is the same, an output difference occurs. Therefore, a means for correcting the variation of the LED light source is provided. As a conventional correction means, a method of adjusting an amplifier circuit of an analog output unit by using a variable resistor or a method of adjusting the output of an analog output unit by changing the voltage of an LED light source are employed. The former method adjusts the sensitivity variation of the LED light source and the sensor using a trimmer (variable resistor). The variation of the resistance R ₁₁ = R ₁₂ of the amplifier circuit 31 of the analog output unit shown in FIG. 3 and the adjustment of the gain are performed. It was adjusted by the variable resistor VR _1, the offset of the variable resistor VR ₂ - adjusted with (negative) voltage. In the latter method, a function of varying the voltage of a light source is provided in a fax main body or a sensor unit in which an image sensor is incorporated, and the sensitivity of the sensor is adjusted by adjusting the amount of light of the light source.

(C) Problems to be Solved by the Invention Among the above-mentioned conventional adjustment methods, the former requires that the operator adjust the trimmer while watching the output waveform using an oscilloscope or the like, and it is very difficult to automate the former. The latter has a problem that when the power supply voltage is made variable, the variation in the light amount of the LED light source changes, and the characteristics of the sensor itself may be deteriorated.

The present invention has been made in view of the above problems, and an image sensor capable of easily outputting and adjusting the level with respect to variations in light amount of a light source without deteriorating the characteristics of the sensor itself. It is intended to provide.

(D) Means and Action for Solving the Problems In the image sensor of the present invention, light from a light emitting element is projected on a detection surface, and the reflected light is received by a plurality of light receiving elements arranged in a row. In the one which amplifies and outputs the light receiving signal of the light receiving element by an amplifier in a time sequential manner, the amplifier is constituted by an IC chip having a plurality of externally selectable resistors for adjusting the sensitivity, and the IC chip is provided outside the IC chip. A resistor selection circuit for selectively connecting a resistor for sensitivity adjustment, wherein the IC
The chip has an amplifier, a plurality of resistors for sensitivity adjustment connected in parallel to an input terminal of the amplifier, and a pad connected to each resistor, and the resistor selection circuit includes the IC.
A selection circuit pad wire-bonded to each pad of the chip and an earth pattern are provided, and the sensitivity is adjusted by selectively connecting the selection circuit pad to the earth pattern.

In this image sensor, since the pads of the IC chip and the selection circuit pads of the resistance selection circuit are wire-bonded correspondingly, the selection circuit pad (that is, the resistance for adjusting the sensitivity of the IC chip) is selectively connected to the ground pattern. Thus, the output level can be adjusted.

(E) Examples Hereinafter, the present invention will be described in more detail with reference to examples.

FIG. 2 is a partial schematic block diagram of an image sensor in which the present invention is implemented. In the drawing, a photodiode (light receiving _{element) 1 -1, 1 -2, ...} , 1 -n is not shown LED
The light from the light emitting element (light emitting element) is reflected by the original and enters the light receiving element, and receives the current / voltage conversion circuits 2 _-1 , 2 _-2,.
Convert to voltage signal with 2 _-n . Each current / voltage conversion circuit 2 _-1 ,
Each of the analog output signals 2 _-2 ,..., 2- _n is sequentially derived from the switching transistors 4 _-1 , 4 _-1 ,..., 4- _n , and is amplified via the buffer amplifier 5. Input to the operational amplifier 6.

Shift register 3 is an n-bit configuration, the first input signal SIN is input to the cell _3-1 by the logic "1", hereinafter cell of the logic "1" is, one bit input for each clock pulse CLK It is to be shifted to the right. Each cell _3-1 of the shift register 3, 3 _-2, ..., 3 _-n is in response to the slide into shifted sequentially "1", the output the logical "1", the transistors _4-1, 4 _-2, ..., 4 _-n are sequentially selected ON, the corresponding current / voltage conversion circuit _{2 -1, 2 -2, ...,} 2 -n
Is input to the buffer amplifier 5.

The operational amplifier 6 has a silicon IC chip configuration, and its internal configuration is the most characteristic of this embodiment. FIG. 1 shows the internal circuit configuration of the operational amplifier 6. In FIG. 1, P ₁ , P ₂ ,..., P ₇ and P _i , P _o are pads, pads P ₁ , P ₂ , P _3, and P ₄ are pads for selecting a resistor for sensitivity adjustment, Pads P ₄ , P ₅ , P ₆ are each GN
Pads for D, V _SS , and V _DD are provided, a pad _Pi is for input, and a pad _Po is for output.

Input pad P _i is the resistance R ₃ via a connected to the (+) input terminal of amplifier 11, also of amplifier 11 (+) resistance between the input terminal and the ground R ₄ are connected. Further, the amplifier 11 (-) resistor R _1a between the input terminal and the pad P ₁ is, similarly to the amplifier 11 (-) input terminal and each pad P _2, P _3, the resistance between P ₄ R
_1b , R _1c and R _1d are connected respectively. These R _1a , R
_1b , R _1c , and R _1d have different resistance values. Of the amplifier 11 (-) of the resistance R ₂ between the input terminal and the output terminal is connected, and the output terminal pad P _o of the amplifier 11
It is connected to the.

As shown in FIG. 2, pads P ₁ ,..., P ₄ of the operational amplifier 6 are respectively connected to pads P ₁₁ , P ₁₂ , P ₁₃ , and P ₁₄ for a selection circuit, which are patterned on a sensor substrate (not shown).
12, ..., are connected with 12, yet these pads P _11,
..., P ₁₄ is Waibon 13 to ground pattern P ₁₅ formed on one or several is selected and also the sensor substrate
Connected by Which of the pads P ₁₁ ,..., P ₁₄ is selectively connected is determined according to the required sensitivity (gain) of the amplifier of the operational amplifier corresponding to the light amount level of the LED light source.

Now, the level of the pad P ₁ of the operational amplifier 6 is set to e ₁ , and the pad P _i
When the level of the e _2, level e ₀ of the output pad P _o is , And the by varying the resistance R _1, it is possible to adjust the output e _0. Since the resistors R _1a , R _1b , R _1c , and R _1d have different resistance values, any one of them is independently connected to the ground pad P ₁₅ by the wiper 13 and variously connected in parallel by some combination. Can be selectively connected, and the output level can be adjusted step by step.

In the image sensor of the embodiment, if the sensitivity level of the sensor itself and the light amount of the LED light source are known, a plurality of resistors can be used.
The output level can be adjusted by selecting R _1a , R _1b , R _1c , and R _1d .

(F) Effects of the Invention According to the present invention, the sensitivity is adjusted by selectively connecting the selection circuit pad (that is, the resistance for adjusting the sensitivity of the IC chip) to the ground pattern in the resistance selection circuit. The effect of is obtained.

Once the selection circuit pad and the ground pattern are connected,
There is no need to readjust the sensitivity.

Even if there is a variation in the amount of light of the light emitting element as a light source and a variation in the sensor, the variation in the output level can be reduced and stabilized without deteriorating the characteristics of the sensor by selecting the resistor for sensitivity adjustment.

[Brief description of the drawings]

FIG. 1 is a circuit connection diagram showing an internal circuit of an operational amplifier showing a main part of an image sensor according to an embodiment of the present invention, and FIG.
FIG. 3 is a block diagram showing a partial configuration of an image sensor of the embodiment, and FIG. 3 is a circuit connection diagram of an amplifier circuit showing a conventional sensitivity adjustment example. _{1 -1 · 1 -2 · ... ·} 1 -n: light-6: an operational _{amplifier, R 1a · R 1b · R} 1c · R 1d: resistor for sensitivity _{adjustment, P 11 · P 12 · P} 13 · P 14 : Selective circuit pad, P ₁₅ : Ground pattern 12.13: Wibon lead.

Continuation of the front page (58) Field surveyed (Int.Cl. ⁶ , DB name) H04N 1/024-1/036 H04N 1/04 H04N 1/40

Claims (1)

(57) [Claims] 1. A light from a light emitting element is projected on a detection surface, and reflected light is received by a plurality of light receiving elements arranged in a row.
An image sensor which amplifies and outputs the light receiving signal of each light receiving element in a time-sequential manner by an amplifier, wherein the amplifier comprises an IC chip having a plurality of externally selectable resistors for sensitivity adjustment, A resistor selection circuit for selecting and connecting the sensitivity adjustment resistor, wherein the IC chip is connected to the amplifier, a plurality of sensitivity adjustment resistors connected in parallel to an input terminal of the amplifier, and each of the resistors. The resistor selection circuit has a selection circuit pad wire-bonded corresponding to each pad of the IC chip, and an earth pattern, and selectively connects the selection circuit pad to the earth pattern. An image sensor characterized in that the sensitivity is adjusted by the following.