Image stabilization control, 1 overview of image stabilization control, 1 complete correction control – Konica Minolta 5430 DL 5440 DL 5450 User Manual

Image Stabilization Control

Main Unit Theory of Operation

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17. Image Stabilization Control

• To ensure that a stabilized output image is produced at all times, a comprehensive con-

trol is provided for the developing bias voltage, laser light intensity, registration correction,
gamma correction, and other parameters.

17.1 Overview of image stabilization control

• Image stabilization control may be divided into two types: complete and full correction

control. The following explain specific details of each type of control.

17.1.1

Complete correction control

• Controls 1 through 6 below are collectively called the “complete correction control.”
• For details of each of these controls, see the relevant page.

Control name

Purpose

1

AIDC Sensor calibra-
tion control

☞ 2-65

Changes in various types of characteristics due to change with time of
the AIDC Sensor (deteriorated LED, dirty sensor surface), part-to-part
variations in the sensors, and change of environment affect the AIDC
Sensor output corresponding to the clear Transfer Belt surface. To cor-
rect fluctuations in the output, the sensor LED intensity is adjusted so as
to keep constant the AIDC Sensor output value.

2

Developing bias Vpp
control

☞ 2-33

If the developing bias voltage (Vpp) is too high for the Ds distance in
each Toner Cartridge, a leak image (background leak, image area leak)
results. If Vpp is excessively low, halftone reproducibility becomes poor.
This control detects a Vpp range, in which no image failure occurs, to set
the optimum Vpp.

3

Developing bias duty
control (control of the
maximum amount of
toner sticking to the
Transfer Belt)

☞ 2-34

To correct the target amount of toner sticking to the Transfer Belt to form
the solid image.

4

Laser light intensity con-
trol

☞ 2-6

To correct the target level of fluctuations in fine line reproduction and
reverse image (white on black) reproduction that occur due to variations
in photo conductor electrostatic characteristics, developing characteris-
tics, and transfer characteristics (part-to-part variations, environment,
durability).

5

Gamma characteristics
detection control

☞ 2-35

To correct the tone by using the AIDC Sensor to measure the density of
a gradation pattern produced on the Transfer Belt and sending the
results of the measurement to the controller.

6

Registration correction
control

☞ 2-6

To correct incorrect color registration that occurs due to variations in
parts of the machine used for regulating different drawing positions.

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