Image Processing Reference
In-Depth Information
PIDC for different values of V i
0
-100
-200
-600 V
-650 V
-700 V
-750 V
-800 V
-300
-400
-500
-600
-700
-800
0
1
2
3
4
5
6
7
8
9
10
x (ergs/cm 2 )
FIGURE 10.9
PIDC for photoconductor of Table 10.4 for
five different values of Vi. i .
10.2.3 D EVELOPMENT M ODEL
In this step, the electrostatic latent image is converted into a visible image by
developing charged toner particles or liquid ink on the surface of the photoconductor.
Various types of development systems that are employed today (Table 10.5) use a
dry powder development [13,14]. They are classi
ed based on the method with
which the toner particles are transported to the photoconductor surface. These
systems use various mechanisms to charge the toner and transport them to the
TABLE 10.5
Types of Electrophotographic Development Systems
Development Technology
Acronym
Product Example
Insulative magnetic brush
IMB
1025, 9200
Conductive magnetic brush
CMB
1075, 4850
Wrapped development
HAZE
1065, 5090
Magnetically agitated development
MAZE
Kodak ColorEdge
Single component development
SCD
1012, Canon GP55
Single component magnetic
brush development
SCMB
5775, A-Color,
Canon CLC series
Positive
=
negative development
Trilevel
4850
Hybrid scavengeless development
HSD
iGen3
Hybrid jumping development
HJD
Information not available
Recharge and development
REaD
Konica 5028
 
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