Service manual
Photosensitive Section
The photosensitive section converts the light energy into electrical signals and accumulates the resulting
signal charge over a short term. The description below explains the process of photoelectrical conversion to
change the incoming light energy into an accumulated signal charge.
The above photosensor sections are arranged in parallel rows, where the number of units in each horizontal
row is equivalent to the maximum number of pixels per line plus α (dummy).
Figure 2-4 illustrates this arrangement.
Photodiode
MOS
Capacitor
Shift Electrode
Transmission
Section
Light
The equivalent circuit at left shows the
operating principles of the photosensitive
section. The circuit consists of a photodiode,
a MOS capacitor, and a shift electrode.
(The transmission section, which follows the
photosensitive section, also is illustrated
simply in terms of capacitance.)
Light reflected from the original document
impacts the photodiode, which converts the
energy into a corresponding amount of
electric current. The resulting electric current
causes the MOS capacitor to accumulate
electrons in numbers proportional to the
strength of the originally received light.
When the shift electrode goes on, the
electrons accumulated in the MOS
capacitor are released.
The shift electrode then goes off, which
completes the transfer of the signal-charge
to the transmission section.
Figure 2-3. Operation of the Photosensitive Section
Transmission
Section
Photosensing
Section
Figure 2-4. Arrangement of Photosensors
Operating Principles GT-5000 / Action Scanner II Service Manual
2-2 Rev. A