JPH05211595A - Light quantity correcting circuit for led array head - Google Patents

Abstract

PURPOSE:To properly correct the quantity of light emission of each LED in the LED array head for half-tone image data by extracting correction image data from input image data according to the reference quantity of light emission and outputting the data to a specified LED. CONSTITUTION:Each of the LEDs in the LED array head 6 is previously supplied with a current having a level corresponding to the maximum value of gradations and the reference quantity of light emission of each of the LED is measured. Then the mean value of the light emission quantities is found and the rates of the respective LEDs to the mean value are stored in a dot data storage part 3. When the image data are outputted to the respective LEDs, a data correction part 4 refers to a data table and outputs the correction data to a head controller 5. Then the respective LEDs emits the quantities of light corresponding to the respective correction data to expose a photosensitive body. The corrections are so made that the image data are large for the LEDs which are low in rate of the quantity of light emission and small for the LEDs which are large in rate, so variance in the quantity of light emission is suppressed to reduce light and shade unevenness.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a light quantity correction circuit for an LED array head for correcting variations in the light emission quantity of an LED array head for exposing a photoconductor used in an image forming apparatus such as a digital copying machine or a printer. Regarding

[0002]

2. Description of the Related Art Conventionally, an image forming apparatus such as a digital copying machine or a printer is provided with an LED array head composed of a plurality of LEDs (LED chips) arranged in a line in the main scanning direction, and the LED array head is used. It is known that an image is formed by exposing a photoreceptor or the like. In the image forming apparatus, the LED
By controlling the light emission amount of the array head, there is one that enables the formation of an image having a halftone such as a photographic original.

By the way, since each LED constituting the above LED array head has a variation in the amount of emitted light of about ± 10%, uneven density occurs in the main scanning direction of the image, particularly in the halftone portion of the image. However, there is a problem that the above-mentioned unevenness clearly appears as a streak and the image quality is deteriorated.

As a countermeasure against this, the variation of the light emission amount of each LED is classified in advance, and the light emission time is lengthened for the LED of low light emission amount and shortened for the LED of high light emission amount. In order to equalize the light emission amount (Japanese Patent Application Laid-Open No. 2-62257), the correction data for correcting the light emission amount of each LED is measured in advance and stored in the shift register, and the correction data corresponding to the above correction data is stored. Japanese Patent Laid-Open No. 3-196070 proposes a technique for reducing the variation in the light emission amount of each LED by changing the pulse length of the light emission pulse output to each LED.

[0005]

However, in the above-mentioned JP-A-2-62257 and JP-A-3-196070, the image data is binarized, and each of the LED array heads is binarized. The LED emits light only when the image data is "1", and the light emission amount is corrected only when the image data is "1". For this reason, there is a limit to proper correction for halftone image data.

On the other hand, for an LED array head of the type that emits light including LEDs in halftone, it is possible to correct the light amount by giving a shorter light emitting time, for example. In this case, the light emitting level is set. It is necessary to perform the light amount correction together with the control of, and the configuration becomes complicated.

The present invention solves the above problems, and each LE of the LED array head for halftone image data.
It is an object of the present invention to provide a light amount correction circuit for an LED array head that appropriately corrects the light emission amount of D.

[0008]

In order to achieve the above object, the present invention has a plurality of LEDs arranged in a line, and corrects image data input corresponding to each LED. LE which is designed to emit light from each LED
In the light amount correction circuit of the D array head, first storage means for storing the reference light emission amount of each LED in association with the LED array, and each LE to which the image data is input.
Designating means for designating D, second storage means for storing the corrected image data for the input image data for each reference light emission amount, and the reference light emission amount of the designated LED from the first storage means. And a control means for reading out and guiding it to the second storage means, extracting corrected image data for the input image data from the second storage means based on the reference light emission amount, and outputting the corrected image data to the designated LED. It is a thing.

[0009]

According to the light quantity correction circuit of the LED array head having the above structure, the first storage means stores the reference light emission quantity of each LED of the LED array head in association with the LED array, and the second storage means stores the reference light quantity. The corrected image data for the input image data is stored for each light emission amount,
Each LED that image data is input is specified,
The reference light emission amount of the designated LED is read from the first storage unit and guided to the second storage unit, and the corrected image data is extracted from the input image data from the second storage unit according to the reference light emission amount. By being output to the designated LED, the variation in the light emission amount of each LED of the LED array head with respect to the halftone image data is suppressed.

[0010]

1 is a block diagram showing an example of an image forming apparatus to which a light amount correction circuit according to the present invention is applied. The image forming apparatus includes an image processing unit 1, a counter 2, a dot data storage unit 3, a data correction unit 4, a head controller 5, and an LE.
It is composed of a D array head 6 and a controller 7.

The image processing unit 1 is composed of a scanner or the like, and reads an original or the like having halftones such as photographs one line at a time in the sub-scanning direction, and shows, for example, light and dark of 32 gradations for each pixel in the main scanning direction. It outputs image data. LED
The array head 6 includes a plurality of LEs arranged in a line.
D (LED chip) is provided and has a predetermined length and is arranged to face the main scanning direction on the surface of a photoreceptor (not shown). Further, the LED array head 6 includes a shift register, a latch circuit, and the like having the number of stages corresponding to the number of LEDs, latches the corrected image data sequentially output from the head controller 5, and further drives pulses. Each LED is synchronized with a signal to emit light for a time corresponding to the corrected image data.

The counter 2 synchronously outputs, from the image processing section 1, a count signal indicating an address corresponding to the position in the main scanning direction of the image data of each pixel read to the data correction section 4 in time series. Is used to specify each LED to which the image data is input. Then, by outputting the count signal to the dot data storage unit 3, the dot data storage unit 3 sequentially outputs the correction data for each LED forming the LED array head 6. The dot data storage unit 3 stores, for example, the maximum light emission amount of each LED of the LED array head 6 that is measured in advance as a reference light emission amount (hereinafter, referred to as light emission amount data) in association with each LED. It is a thing. Then, the dot data storage unit 3 sequentially outputs the light emission amount data of each LED to the data correction unit 4 according to the count signal from the counter 2.

The data correction unit 4 stores, for example, the data table shown in Table 1 below, and the image data of each pixel from the image processing unit 1 is converted into each LED from the data storage unit 3.
The level correction is performed based on the light emission amount data and the data table, and the correction data is output to the head controller 5.

[0014]

[Table 1]

The head controller 5 controls the LED array head 6 so that each LED of the LED array head 6 emits light with a light emission amount according to the correction data from the data correction section 4. Then, each LED of the LED array head 6 emits light with a light emission amount according to the correction data, whereby the photoconductor is exposed and an electrostatic latent image is formed. The electrostatic latent image is developed with toner, and the toner image is transferred and fixed on a transfer paper or the like.

The control unit 7 controls the image processing unit 1, the counter 2 and the head controller 5. Also,
The control unit 7 controls the image processing unit 1 so that the image data corresponding to each LED is output from the image processing unit 1 in time series.

Next, the operation of the data correction section 4 will be described. The image data is 32 from “0” to “31”.
It is composed of gradations, and the image becomes darker as the image data becomes larger. Further, the gradation of 32 gradations of one pixel is formed by changing the light emission amount of one LED. Further, in this embodiment,
Each LED of the LED array head 6 will be described as having a variation of ± 10%.

A current having a level corresponding to the maximum value "31" of 32 gradations is previously supplied to each LED of the LED array head 6, and the maximum light emission amount of each LED, for example, can be emitted by using a light receiving element or the like. Is measured as a reference emission amount (emission amount data). Then, the average value of the light emission amount data is calculated, and the ratio of each LED to the average value is calculated in increments of 1%, for example, and is stored in the dot data storage unit 3 in advance.

When the image processing unit 1 outputs image data "10" to each LED, the data correction unit 4 refers to the data table shown in Table 1 above.
If the light emission amount data of the LED is 90%, the correction data “1
1 ", if 95%, the correction data" 11 "
If%, the correction data “10” is output to the head controller 5, and if 110%, the correction data “9” is output to the head controller 5.

When the image processing unit 1 outputs image data "20" to each LED, the data correction unit 4 refers to the data table in Table 1 above and sets LE.
If the light emission amount data of D is 90%, the correction data “22”
If 95%, the correction data “21” is output to the head controller 5, if it is 105%, the correction data “19” is output to the head controller 5. Then, each of the LEDs exposes the photoconductor by emitting light with a light emission amount corresponding to each correction data.

As described above, each image data is corrected to be large for the LED having a low light emission rate, and each image data is small for the LED having a high light emission rate. As described above, the variation in the light emission amount of each LED with respect to the halftone image data output from the image processing unit 1 is suppressed, and the uneven density of the image is reduced.

The table data of the data correction section 4 is not limited to that shown in Table 1. For example, as shown in FIG. 2, paying attention to the non-linearity of the density of the image on the transfer paper with respect to the image data, The correction data may be set so that the gradation of the gradation characteristic becomes gentle. In this case, the halftone of the original can be displayed more properly. In this way, a more appropriate image can be formed by arbitrarily correcting the halftone image data.

The reference light emission amount is not limited to the maximum light emission amount (corresponding to the image data "31") of each LED of the LED array head 6, and for example, "1".
It may be the light emission amount for the image data of 5 "or" 20 ".

[0024]

The present invention is directed to each LE of the LED array head.
Since the input image data to each LED is corrected according to the reference light emission amount of D, each LED for the halftone image data is corrected.
It is possible to suppress unevenness in the amount of light emitted, reduce unevenness in image density, and form an appropriate image.

[Brief description of drawings]

FIG. 1 is a block diagram showing an example of an image forming apparatus to which a light amount correction circuit according to the present invention is applied.

FIG. 2 is a characteristic diagram showing a relationship between image data and contrast of an image on a transfer sheet.

[Explanation of symbols]

 1 Image Processing Section 2 Counter 3 Dot Data Storage Section 4 Data Correction Section 5 Head Controller 6 LED Array Head 7 Control Section

Continuation of front page (51) Int.Cl. ⁵ Identification number Office reference number FI technical display location H04N 1/036 A 9070-5C 1/04 Z 7251-5C

Claims (1)

[Claims] 1. An LE having a plurality of LEDs arranged in a line, and correcting the image data input corresponding to each LED to cause each LED to emit light.
In the light amount correction circuit of the D array head, first storage means for storing the reference light emission amount of each LED in association with the LED array, and each LE to which the image data is input.
Designating means for designating D, second storage means for storing the corrected image data for the input image data for each reference light emission amount, and the reference light emission amount of the designated LED from the first storage means. And a control means for reading out and guiding it to the second storage means, extracting corrected image data for the input image data from the second storage means based on the reference light emission amount, and outputting the corrected image data to the designated LED. A light quantity correction circuit for an LED array head.