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© February 2007 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO166/206
COPY PROCESS
3 - 1
3. COPY PROCESS
3.1 General Description of Copying Process
Fig. 3-1
(1) Charging: Applies negative charge on the
surface of the photoconductive drum.
(7) Separation: Separates paper with the toner
image from the photoconductive drum.
# #
(2) Data reading: The images on the original
are converted into electrical signals.
(8) Fusing: Fuses the toner image onto the
paper by applying heat and pressure.
# #
(3) Data writing: The electrical signals are con-
verted into light signal (laser emission)
which exposes the surface of the photo-
conductive drum.
(9) Cleaning: Scrapes off the residual toner
from the drum.
# #
(4) Development: Negatively-charged toner
adheres to the photoconductive drum and
forms visible image.
(10) Discharging: Eliminates the residual nega-
tive charge from the surface of the photo-
conductive drum.
#
(5) Transfer bias: Improves transfer efficiency.
#
(6) Transfer: Transfers the visible toner image
on the photoconductive drum onto paper.
#
Data reading(scanning)
CIS
600 dpi,7084 pixel
Image processing
Discharging
Discharge LED (red)
Wavelength 660nm x10pcs
(
10
)
(
8
)
(
7
)
(
6
)
(
5
)
(
9
)
(
2
)
(
1
)
(
3
)
(
4
)
Data writing
Semiconductive laser
Pw=4.0 nJ/mm
2
Charging
-448V
(grid voltage)
Development
Magnetic roller
Bias -340VDC+AC
Toner
Carrier
Cleaning
Blade method
Bypass feeding
(
100 sheets
)
Drawer feeding
(
250 sheets
)
PFU
(
250 sheets
)
Transfer
H 340 µADC
C 369 µADC
L 282 µADC
Separation
H -107 µADC
Paper exit
Fusing
Lamp heating method
564W x2
Transfer bias
DC +565V
L -70 µADC
C -107 µADC
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