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C150-E102-01EN
M3097DEImage Scanner
OEM Manual
REVISION RECORD
Edition Date published Revised contents
01 Dec. 1997 First Edition
Specification No.: C150-E102-01EN
The contents of this manual is subject to changewithout prior notice.
All Rights Reserved,Copyright 1997 FUJITSU LIMITED
This page is intentionally left blank.
i
CONTENTS
Chapter 1 General .......................................................................................................... 1-11.1 General description ..................................................................................................................... 1-1
1.2 Appearance and parts name ......................................................................................................... 1-2
Chapter 2 Specifications and Functions ......................................................................... 2-12.1 Basic specifications ..................................................................................................................... 2-1
2.2 Option specifications ................................................................................................................... 2-2
2.3 Reading limitation depending on the memory installed ................................................................. 2-3
2.4 Physical Specifications .............................................................................................................. 2-4
2.5 Regulation conformity ................................................................................................................. 2-5
2.6 Document specifications .............................................................................................................. 2-6
2.6.1 Paper size ............................................................................................................................ 2-6
2.6.2 Paper Conditions.................................................................................................................. 2-7
2.6.3 ADF capacity ....................................................................................................................... 2-8
2.6.4 Areas that must not be perforated (for ADF reading only) ...................................................... 2-9
2.6.5 Grounding color area ................................................................................................................2-10
2.6.6 Job separation sheet.............................................................................................................2-11
Chapter 3 Image Functions ............................................................................................ 3-13.1 Overview of the image functions .................................................................................................. 3-1
3.2 Basic image functions.................................................................................................................. 3-3
3.2.1 Output resolution ................................................................................................................. 3-3
3.2.2 Main Window area ............................................................................................................... 3-3
3.2.3 Binary reading ..................................................................................................................... 3-9
3.2.4 Halftone reading .................................................................................................................3-10
3.2.5 Grayscale reading................................................................................................................3-12
3.3 Optional image function .............................................................................................................3-12
3.3.1 DTC mode function (Auto I mode) .......................................................................................3-12
3.3.2 IPC mode (Auto II mode).....................................................................................................3-20
3.3.3 Sub-Window .......................................................................................................................3-29
3.3.4 Zooming .............................................................................................................................3-30
3.3.5 Dither download..................................................................................................................3-30
3.3.6 Gamma download................................................................................................................3-30
Chapter 4 Storage and Installation ................................................................................ 4-14.1 Packaging box and storage condition............................................................................................ 4-1
ii
4.2 Components in the packaging box ................................................................................................ 4-2
4.3 Installation procedure .................................................................................................................. 4-2
4.3.1 Removing the carrier fixing bracket ...................................................................................... 4-2
4.3.2 Connections ......................................................................................................................... 4-4
4.3.3 Mounting the stacker ............................................................................................................ 4-4
Chapter 5 Operation and Maintenance .......................................................................... 5-15.1 Operator panel operation ............................................................................................................. 5-1
5.1.1 Operator panel function ........................................................................................................ 5-1
5.1.2 Feed Mode setting ................................................................................................................ 5-2
Figure 5.2 Feed Mode setting ............................................................................................................. 5-3
5.1.3 Manual Feed mode ............................................................................................................... 5-4
5.1.4 Setup mode .......................................................................................................................... 5-5
5.1.5 Function of CE mode ............................................................................................................ 5-8
5.2 Document setting ........................................................................................................................ 5-9
5.2.1 Document setting on ADF paper chute .................................................................................. 5-9
5.2.2 Document setting on flatbed................................................................................................ 5-12
5.3 Cleaning ................................................................................................................................... 5-13
5.4 Consumable .............................................................................................................................. 5-14
Chapter 6 Error display and Recovery ........................................................................... 6-16.1 Error display ............................................................................................................................... 6-1
6.1.1 Temporary error ................................................................................................................... 6-1
6.1.2 Alarm .................................................................................................................................. 6-1
6.2 Jam clearance.............................................................................................................................. 6-2
Appendix A Scanner Interface.......................................................................Appendix A-1A.1 Control Interface ......................................................................................................... Appendix A-1
A.1.1 Connection Specifications ..................................................................................... Appendix A-1
A.1.2 Control Interface Signals ...................................................................................... Appendix A-2
A.1.3 Driver/Receiver .................................................................................................... Appendix A-3
A.1.4 Timing................................................................................................................. Appendix A-3
A.2 Video Interface............................................................................................................ Appendix A-4
A.2.1 Video Interface Signals......................................................................................... Appendix A-4
A.2.2 Driver/Receiver .................................................................................................... Appendix A-5
A.2.2.1 Driver/receiver for standard connector and M3096A21 connector..................... Appendix A-5
A.2.3 Data Transfer ....................................................................................................... Appendix A-6
A.2.3.1 Transfer sequence .......................................................................................... Appendix A-6
iii
A.2.3.2 Effect in main scanning.................................................................................. Appendix A-8
A.2.3.3 Effect in subscanning ................................................................................... Appendix A-11
A.2.4 Timing .............................................................................................................. Appendix A-14
A.3 Commands and Response .......................................................................................... Appendix A-16
A.3.1 Basic Command/Response Sequence ................................................................... Appendix A-16
A.3.2 Command/Response Format................................................................................ Appendix A-18
A.3.3 Command .......................................................................................................... Appendix A-19
A.3.3.1 CLEAR command ........................................................................................ Appendix A-21
A.3.3.2 CONTROL command ................................................................................... Appendix A-22
A.3.3.3 IMAGE CONTROL command ...................................................................... Appendix A-41
A.3.3.4 SUBWINDOW CONTROL command ........................................................... Appendix A-51
A.3.3.5 START command ........................................................................................ Appendix A-67
A.3.3.6 READ command .......................................................................................... Appendix A-67
A.3.3.7 SENSE command......................................................................................... Appendix A-67
A.3.3.8 RETURN SENSE command ......................................................................... Appendix A-67
A.3.3.9 IMAGE MODE SENSE command ................................................................ Appendix A-68
A.3.3.10 SEND DITHER 1 command ......................................................................... Appendix A-68
A.3.3.11 SEND DITHER 2 command ......................................................................... Appendix A-70
A.3.3.12 INQUIRY command..................................................................................... Appendix A-73
A.3.3.13 INQUIRY2 command................................................................................... Appendix A-73
A.3.4 Response............................................................................................................ Appendix A-74
A.3.4.1 Ready .......................................................................................................... Appendix A-76
A.3.4.2 Normal status .............................................................................................. Appendix A-76
A.3.4.3 Image status................................................................................................. Appendix A-81
A.3.4.4 Unit status ................................................................................................... Appendix A-84
A.3.4.5 Unit status 2 ................................................................................................ Appendix A-90
A.3.4.6 Read complete ............................................................................................. Appendix A-91
A.3.4.7 Operation error ............................................................................................ Appendix A-96
A.3.4.8 Temporary error........................................................................................... Appendix A-97
A.3.4.9 Equipment error........................................................................................... Appendix A-98
A.3.5 Details Sequence ................................................................................................ Appendix A-99
A.3.5.1 Initialization................................................................................................ Appendix A-99
A.3.5.2 Read operation............................................................................................Appendix A-100
A.3.6 Command/Response Correspondence .................................................................Appendix A-103
A.3.7 Command/Response Timing Chart .....................................................................Appendix A-104
A.4 Third Party Slot .......................................................................................................Appendix A-114
A.4.1 Control Interface ...............................................................................................Appendix A-114
A.4.1.1 Connection specifications ............................................................................Appendix A-114
iv
A.4.1.2 Control interface signals............................................................................. Appendix A-115
A.4.1.3 RTS and CTS control ................................................................................. Appendix A-116
A.4.1.4 Connection ................................................................................................ Appendix A-116
A.4.2 Video Interface................................................................................................. Appendix A-117
A.4.3 Data Transmission............................................................................................ Appendix A-118
A.4.4 Physical Specifications ..................................................................................... Appendix A-122
A.4.5 Logical Specification ........................................................................................ Appendix A-125
Appendix B Interface deference between M3097DE and M3093DE..............Appendix B-1B.1 Extended control register #0 ........................................................................................ Appendix B-1
B.2 Extended control register #2 ........................................................................................ Appendix B-1
B.3 Control register A#0.................................................................................................... Appendix B-2
B.4 Control register A#1.................................................................................................... Appendix B-3
B.5 Control register A#2.................................................................................................... Appendix B-3
B.6 Control register A#5.................................................................................................... Appendix B-4
B.7 Control register A#10 to A#17 ..................................................................................... Appendix B-4
B.8 Image control register A#1 .......................................................................................... Appendix B-5
B.9 Image control register A#4 .......................................................................................... Appendix B-5
B.10 Image control register A#5 and A#6............................................................................. Appendix B-6
B.11 Image control register A#7 and A#8............................................................................. Appendix B-6
B.12 Device information I.................................................................................................... Appendix B-7
B.13 Default of the device function information.................................................................... Appendix B-7
B.14 Device function information 2...................................................................................... Appendix B-8
Appendix C Throughput................................................................................Appendix C-1C.1 Offline test .................................................................................................................. Appendix C-1
C.2 Online test .................................................................................................................. Appendix C-1
1-1
Chapter 1 General
1.1 General descriptionM3097DE image scanner is an ideal input device for Electric filling systems, Facsimiles, opticalcharacter readers (OCR), computer aided design (CAD) systems, and automatic publishing systems.
M3097DE is basically the scanner which have the duplex scanning feature with the basis ofM3097E+ and with the interface compatibility to M3097E+ and M3093DE. The features of thescanner are focused on as follows.
(1) Duplex reading
This scanner can read duplex document with one scanning to reduce the scanning workload.
(2) Excellent paper-handling
This scanner can scan various kind of the document such as the size from A3 to A6.
(3) Fast reading
This scanner scans with the following scanning speed.
Simplex, A4, 200 dpi : 36 PPM (A4,200 dpi)
Duplex, A4, 200 dpi : 60 IPM (A4,200 dpi)
(4) High quality image
This scanner reads the documents with 400dpi basic resolution.
(5) Image processing
This scanner basically supports dither and error diffusion. Various image processing is available whensupported IPC option.
(6) New functions
Following functions are available for instance.
• Double feed detection
• Easy setting for some documents (IPC pre-setting function)
• Manual feed mode
General
1-2
1.2 Appearance and parts nameAppearance and parts name is shown in Figure. 1.1.
Figure 1.1 Part name of M3097DE
2-1
Chapter 2 Specifications and Functions
2.1 Basic specificationsBasic specifications of M3097DE are shown in Table 2.1.
Table 2.1 Basic Specifications of M3097DE
Item M3097DE Remarks
1 Operating method Flatbed and ADF
2 Image sensor CCD
3 Light source Xe Discharge tube (green)
Minimum A6 4 Document size Maximum A3 or DL
5 Basic resolution 400 dpi
6 Output resolution 100/150/200/240/300/400/600 dpi
7 Zooming of IPC option 50 to 800 dpi
See section 2.3
FB, A4,400 dpi 2.4 sec.
FB, A4,200 dpi 1.2 sec.
ADF, Simplex 36 PPM
8 Scanningspeed
ADF, Duplex 60 IPM
A4,200 dpi
9 Halftone patterns Dither / Error diffusion
10 Capacity of ADF 100 sheets A4,64g/m2
See section 2.6.3
11 Interface RS232C and Video
12 Video output Binary / Grayscale
13 Power requirements 100 to 120VAC, 50/60Hz
200 to 240VAC, 50/60Hz
14 Operating environment Temperature : 5°C to 35°C
Relative humidity : 20 to 80%
15 Basic memory 16 MB
IPC IPC-2D or IPC-3D*16 Option
Memory 16 MB See section 2.3
17 Scanner size 234H x 696W x 497D (mm)
18 Scanner weight 20 kg
Specifications and Functions
2-2
2.2 Option specificationsFollowing options are available for this scanner.
Table 2.2 Option of the scanner
Name Parts Number When the option required? RemarksIPC-2D CA01952-0192IPC-3D CA02919-0511
- When the image processingof Section 3.3 required.
Either IPC-2D or IPC-3Dcan be installed at a time.
Memory TBD - When duplex reading with201dpi to 400dpi via thirdparty slot.
One memory option can beinstalled per scanner.16 Mbyte, 72 pin, EDOSIMM 60 ns, non-parity
Figure 2.1 IPC-2D/3D option
Figure 2.2 Extended memory option
108
23.5
2.3 Reading limitation depending on the memory installed
2-3
2.3 Reading limitation depending on the memory installedM3097DE have the limitation of reading depending on the memory installed as shown in Table 2.3 and2.4.
Table 2.3 The reading limitation of M3097DE without option
Binary Grayscale *2Outputresolution Simplex Duplex Simplex Duplex
100/150/200 dpi
300/400 dpi Supported (No additional memory) Supported *1
600 dpi Not supported *2 Not supported *2
*1 Setting itself may be rejected.
*2 Grayscale is supported by Third party slot
Table 2.4 The reading limitation of M3097DE at zooming of IPC-2D or IPC3D option
Binary Grayscale *3Zooming
Simplex Duplex Simplex Duplex
50 to 200 dpi
201 to 400 dpi Supported (No additional memory) Supported *1
401 to 600 dpi
601 to 800 dpi
Not supported *2 Not supported *2
*1 Memory option required, otherwise the possibility of Image transfer error exists.
*2 Setting itself may be rejected.
*3 Grayscale is supported by Third party slot
Specifications and Functions
2-4
2.4 Physical Specifications
Table 2.5 Physical specifications
No. Item M3097DE/DG
Height 234 ( 9.2 in.)
Width 696 ( 27.4 in.)
1 Dimensions
(mm)
Depth 497 ( 19.6 in.)
2 Weight (Kg) 20 ( 44.2 lb)
Voltage(VAC) 100 to 120, 200 to 240 VAC ±10%
Phase Single
3 Powerrequirements
Frequency 50/60 Hz +2% -4%
4 Power consumption (VA) 120
5 Heat capacity 78 kcal ( 312 BTU/H)
6 Surge current (A) 30
7 Momentary power failure 100 % 0.5 Hz
8 Leakage current (mA) 0.75 or less
9 Dielectric strength AC 1.5 KV or more for one minute ormore(between FG and AC lines)
10 AC line noise Voltage 1.2 KV pulse duration 5 µs
Operating +5 to +3511 Temperature (°C)
Non operating -20 to +60
Operating 20 to 80 (No condensation)12 Relative humidity
(%) Non operating 8 to 95 (No condensation)
Operating 0.213 Vibration (G)
Non operating 0.4
Operating 514 Indication(degree) Non operating 10
15 ESD (KV) 8 or more
Operating 53 or less (ISO DIS 9296)16 Acoustic noise(dBA) Non operating 40 or less (ISO DIS 9296)
2.5 Regulation conformity
2-5
2.5 Regulation conformity
Table 2.6 Regulation conformity
Item Conformed regulation Regulation mark on thescanner
Remarks
UL 1950
CSA 22.2 950
Yes, CSA NRTL-C markSafety
EN60950 1992/A1:1993/A2:1993 Yes, GS mark by TUV
FCC Part15 Class A Yes
EN55022 1994 Class B EMI
EN50082-1 1992 Immunity
EN61000-3-2 1995 Harmonic emission
EMIetc.
EN61000-3-3 1995
Yes, CE mark
Voltage variation
Specifications and Functions
2-6
2.6 Document specificationsWhen using the flatbed, any condition of the paper can be read except paper size and ground colorspecification.
2.6.1 Paper size A
B
↑
Feeding direction
(Unit : mm)
Maximum Minimum
A B A B
148 105297 432
105 148
Figure 2.3 Paper size
Paper size conversion table
Category Dimensions Category Dimensions
Letter 8.5 x 11 in (216 x 279 mm) A3 11.7 x 16.54 in (297 x 420 mm)
Legal 8.5 x 14 in (216 x 356 mm) A4 8.3 x 11.7 in (210 x 297 mm)
Ledger 11 x 17 in (279 x 432 mm) A5 5.83 x 11.7 in (148 x 210 mm)
Executive 7.25 x 10.5 in (184 x 267 mm) B4 10.1 x 14.3 in (257 x 364 mm)
B5 7.2 x 10.1 in (183 x 257 mm)
2.6 Document specifications
2-7
2.6.2 Paper Conditions1) Paper type
• Woodfree paper
• PPC paper, Specified by XEROX Corporation
When using another paper, check that it is successfully fed by ADF beforeperforming a scanning operation.
2) Paper weight
13.9 lbs (52g/m2 ) to 27.8 lbs (104g/m2 )
3) Items to avoid
• The following documents may be hard to read by ADF.
Before you start the large quantity reading, check that the document is read appropriately. If theADF reading is not appropriate, read them by flatbed.
- Paper with a clip or staple
- Paper that has ink which is not dry.
- Paper thickness is not constant, such as an envelope.
- Paper that has large rumples or curl. (See Note 3)
- Paper that has folds or tears.
- Tracing paper
- Coating paper
- Carbon paper.
- Paper size that is out of standard.
- Items other than paper, such as clothes, metal sheet, or OHP film.
- Photographic paper
- Paper that has notches on its side.
- Paper that has a shape other than square.
- Paper that is very thin.
Note 1:
The important document which shall not be torn must be read by flatbed.
Note 2:
Carbon-less papers have the chemical composition which damages the pad and pick roller. Therefore,note the following remarks
Cleaning: If the miss pick occurs frequently, clean the pad and pick roller in accordance with theOperator’s guide.
Specifications and Functions
2-8
Replacement of parts: The life of the pad and the pick roller may be shorter than the case that PPCdocument is fed.
Replacement cycle of the pad and the pick roller may be around 100,000 sheets depending on the paperquality and cleaning cycle.
Note 3:
Paper should be straightened to fit the condition below.
2.6.3 ADF capacityThe number of pages that can be loaded into ADF chute depends on the paper size and reamweight. This information is shown in the following Figure:
Figure 2.4 ADF capacity
Paper weight conversion table
Country Unit Conversion
Japan Kg/ream 45 55 64.6 77.5 90 109.8 135
USA lb 13.9 17 20 24 27.9 34 41.8
Europe g/m2 52 64 75 90 104 127 157
52 64 81 104 127
g/m2
2.6 Document specifications
2-9
2.6.4 Areas that must not be perforated (for ADF reading only)Perforations in the shaded areas may cause Jam error. If you must read data from such paper, use theflatbed
Figure 2.5 Areas that must not be perforated
Specifications and Functions
2-10
2.6.5 Grounding color areaThe color of the shaded area shown in Figure 2.6 should be paper grounding color (white) or drop-outcolor. If not, set White level following OFF (Photograph) before reading.
(See A.3.3.2 CONTROL command/Control register A#1/B#1)
Figure 2.6 Grounding color area
2.6 Document specifications
2-11
2.6.6 Job separation sheetThe following figure shows the basic shape of the Job separation sheet. When Job separation sheetis scanned, the scanner can detect and inform it to the Host computer (See section A.3.4.2 Normalstatus/Device Information II-I).
Paper condition is such that described in section 2.6.1 or 2.6.2. And the paper size must be A4 orlarger (210 mm or wider)
Figure 2.7 Job separation sheet
3-1
Chapter 3 Image Functions
3.1 Overview of the image functionsThe image functions of this scanner are summarized in Table 3.1 and Table 3.2.
Table 3.1 Image functions
Selectable parameters Section No. and Image function No IPCoption
with IPC-2Doption
With IPC-3Doption
3.2.1 Output resolution 100/150/200/240/300/400/600 dpi (1) Offset and size See section 3.3.2 (1) 3.2.2 Main Window
clipping (2) Page end detection ON/OFF Density Contrast
3.2.3 Binary reading
White level following ON/OFF (1) Dither Four built-in patterns 3.2.4 Halftone reading (2) Error diffusion ON/OFF
3.2.5 Grayscale reading Contrast (1) Pre-filter N/A Ordinary/Ball-point Pen (2) Gradation N/A High Contrast /
Ordinary Ignored *3
(3)Dynamic threshold curve N/A 8 types (Darkness)
8 steps(Sensitivity) *2
(4)Equal to white N/A ON/OFF (5)Noise Removal N/A OFF / 2x2 / 3x3 / 4x4 / 5x5
3.3.1 DTC mode *1 *2
(6)Smoothing N/A Image/OCR (1)Simplified Dynamic
Threshold *2 *5 N/A 7 steps
(variance rate) 7 steps(Sensitivity) *4
IPC-2 like Simplified DynamicThreshold *5
N/A N/A 7 steps(Sensitivity) High/Mid/Low
(2)Image Emphasis N/A High/Mid/Low Image Emphasis (smooth) N/A Smooth Background
Removal *7 (3)Outline Extraction N/A ON/OFF (4)Automatic Separation N/A ON/OFF *6 (5)Mirror image/Black and
White reverse N/A ON/OFF
3.3.2 IPC mode *1
(6)Overlay N/A ON/OFF, six built-in patterns
3.3.3 Sub window N/A Max. 4 Ignored *8
3.3.4 Zooming N/A See Table 2.4
3.3.5 Dither downloading N/A Max. 8 patterns
3.3.6 Gamma downloading N/A Max. 8 patterns
3.3.7 Overlay downloading N/A Max. 8 patterns
*1 DTC and IPC mode functions are exclusive.
*2 In IPC-3D, DTC and IPC mode Simplified DTC use the same algorithm.
Image Functions
3-2
*3 In IPC-3D, The Gradation parameter is ignored.
*4 In IPC-3D, a seven step parameter is used like as with the Simplified Dynamic Threshold but thealgorithm is different.
*5 In IPC-3D, if both Simplified DTC and Image Emphasis are specified, the Simplified DTC algorithm isactivated. At that time, both the Simplified Dynamic Threshold and Image Emphasis High/Mid/Lowparameters are in affect.
*6 In IPC-3D, if Automatic Separation is specified, then Simplified Dynamic Threshold and ImageEmphasis/Smoothing are ignored.
*7 In IPC-3D, if Smoothing is specified, then Background Removal is applied. Rhis effect is similar to IPC-2D Smoothing.
*8 In IPC-3D, Sub-windows are not available and are ignored if specified.
Table 3.2 Functions which are available for main window and sub-window
0100Binary black and
whiteDithering Error diffusion
02Grayscale
Imagecomposition
Item
Mainwindow
Sub-window
Mainwindow
Sub-window
Mainwindow
Sub-window
Mainwindow
X, Y resolution o x o x o x o
Upper left X, Y o o o o o o oWidth, length o o o o o o oThreshold o o
Brightness o o o o
Contrast o o o o o o oBit per pixel 01 01 01 01 01 01 08Halftone pattern o o o o
Subwindow list o x o x o x xPaperspecification
o x o x o x o
DTC
DTC (*1) o x o (*2) x o (*2) x
Outlineemphasis
o o o o o o
Outlineextraction
o (*3) o (*3)
Automaticseparation
o (*4) o (*4) o (*4) o (*4) o (*4) o (*4)
Simplified DTC o (*4) o (*4)
IPC
RIF (reverseimage format)
o o o o o o o (*6)
Mirror image o x o x o x
3.2 Basic image functions
3-3
o: Can be specified.
x: Cannot be specified.
: Enabled if automatic separation is specified, otherwise ignored.
: Can be specified but not enabled.
*1 If DTC is specified, IPC can be specified but not enabled.
*2 The image is not guaranteed.
*3 Can be specified but not enabled if Image Emphasis is also specified.
*4 Can be specified but not enabled if Outline Extraction is also specified.
3.2 Basic image functionsThe command and register name in [ ] beneath the section title shows where the item is specified inAppendix A.
3.2.1 Output resolution[A.3.3.2 CONTROL command / Control register A#0]
Selectable output resolution is shown in Table 2.3. The default is 400 dpi.
The output resolutions of 100/150/200/240/300/600 dpi are converted from 400dpi by an electricalmethod. If IPC option is installed, Zooming function is available (see section 3.3.4). The outputresolution with IPC option is shown in Table 2.4.
3.2.2 Main Window areaThere are four ways to specify the Main Window , that is;
(1) Specification by the operator panel or ADF paper size detection
(2) Specification by standard document size
(3) Specification by width and length
(4) Specification by offset, width and length (Clipping)
Top three methods, (1) to (3), are the methods which specify both front side and back side at a time.And the method (4) are available to set deferent area for front side and back side.
User must count in the mechanical offset error of the scanner as shown in Table 3.1. User can adjustthe offset with Setup mode of operator panel, scanner by scanner.
Image Functions
3-4
Table 3.1 Mechanical offset error of the scanner
Output resolution X0 (dots) *1 Y0 (dots) *1
600 dpi 18 ± 18 24 ± 24
400 dpi 12 ± 12 16 ± 16
300 dpi 9 ± 9 12 ± 12
240 dpi 8 ± 8 10 ± 10
200 dpi 6 ± 6 8 ± 8
150 dpi 5 ± 5 6 ± 6
100 dpi 3 ± 3 4 ± 4
*1 When the document skewed, X0 and Y0 represents the minimum length of the offset along with theedge.
(1) Specification by the operator panel or ADF paper size detection
When the Flatbed (FB) reading is specified, operator panel setting is effective. When the ADFreading is specified, ADF paper size detection is effective.
Table 3.2 Specification by the operator panel or ADF paper size detection
Register settingParameter
Control register No. Value
Default
A#5 B’10xxxxxx’Set with the operator panel at flatbedreading A#0/B#0 B’xx10xxxx’
A#5 B’10xxxxxx’Set with ADF document size at ADFreading A#0/B#0 B’xx11xxxx’
Y0
X0
Origin point of ULX, ULY
Actual origin point of the sheet
3.2 Basic image functions
3-5
(2) Standard document size
The Main Window area is set by specifying the standard document size. Setting method is shownin Table 3.3. The actual output sizes of the Main Window are shown in Table 3. .
Table 3.3 Specification by the standard document size
Register settingParameter
Control register No. Value
Default
A3 B’10000011’
A4 B’10000100’
A5 B’10000101’
Letter portrait B’10000110’
Letter B’10000111’
B4 B’10001100’
B5 B’10001101’
Portrait
Legal B’10001111’
A4 B’10010100’
A5 B’10010101’
Letter B’10010111’
Landscape
B5
A#5
B’10011101’
(3) Specification by width and length
The Main Window size is specified by the width and length in units of 1/400 inch.
Table 3.4 Specification by width and length
Register settingParameter
Control register No. value
Default
Width A#6, A#7
Length A#8, A#9
See example below
Image Functions
3-6
Ex. Width (main scanning direction) = 8.5″ = 3,400 (@1/400 inch) = X’D48’
Length (Sub-scanning direction) = 11″ = 4400 (@1/400 inch) = X’1130’
Output resolution = 600 dpi
The specification of Width must be;
A#6 = X’0D’
A#7 = X’48’
The specification of Length must be;
A#8 = X’11’
A#9 = X’30’
As a result the output Main Window width and length may be rounded up as follows.
Width = [ 3400
---------- × 600 ÷ 8
400
] = 637 bytes
Length = [ 3400
---------- × 600
400
] = 6600 raster
* the value in [ ] are rounded up to integer
(4) Specification by the offset (X1, Y1), width (X2) and length (Y2)
This method is called “clipping”. Main Window can be set by specifying offset (X1,Y1) , width(X2) and length (Y2). Each dimension are defined as shown in Figure 3. and Figure 3. The unitof each dimension is 1/400 inch. These dimensions are defined for front side and back sideindependently.
NOTICE: When the Jam detection is set OFF, the scanner ignores the length and continues reading.
Table 3.5 Specification by clippingRegister settingParameter
Control register No. valueDefault
X direction offset A#10,A#11Width A#12,A#13Y direction offset A#14,A#15Length A#16,A#17
See example below
3.2 Basic image functions
3-7
Figure 3.1 Picking for ADF reading
Figure 3.2 Picking for Flatbed reading
Y1Y2
X1
X2
Image Functions
3-8
Ex. Offset X1 = 0.5″ = 200 (@1/400 inch) = X’C8’
Y1 = 0.6″ = 240 (@1/400 inch) = X’F0’
Width X2 (main scanning direction) = 8.3″ = 3,320 (@1/400 inch) = X’CF8’
Length Y2 (Sub-scanning direction) = 11.7″ = 4,680 (@1/400 inch) = X’1248’
Output resolution = 600 dpi
The specification of X1 must be;
A#10 = X’00’
A#11 = X’C8’
The specification of X2must be;
A#12 = X’0C’
A#13 = X’F8’
The specification of Y1 must be;
A#14 = X’00’
A#15 = X’F0’
The specification of Y2must be;
A#16 = X’12’
A#17 = X’48’
As a result the output Main Window width and length may be rounded up as follows.
Width = [ 3320
---------- × 600 ÷ 8
400
] = 622 bytes
Length =[
4680
---------- × 600
400
] = 7020 raster
* the value in [ ] are rounded up to integer
3.2 Basic image functions
3-9
3.2.3 Binary reading[A.3.3.2 CONTROL command / Control register A#1/B#1= B’xxxxxx0x’]
Following three parameters are available when binarizing the image. The 256 levels of the density ateach pixel is processed by Contrast and binarized by fixed Threshold (Density). When the Whitelevel following is se ON, the white level of the CCD output follows the background of the document.So this is useful for line art drawing but not for photograph.
Table 3.6 Parameter of Binarization
Parameter Control register No. value Default
Binary reading ON A#2/B#2 B’xxxxxx0x’ ON
8 step setting ON A#19 B’xxxxxxx0’
set from operator panel
Light
Normal
Dark
A#1/B#1 B’xxxx00xx’
B’xxxx1000’
to
B’xxxx1100
to
B’xxxx1111’
256 step setting ON A#19 B’xxxxxxx1’
Density *1
Light
to
Dark
A#20/B#20 X’01’
to
X’FF’
Set fromoperatorpanel
Contrast Mostly soft contrast
Normal
Mostly sharp contrast
A#21/B#21 X’01’
to
X’80’
to
X’FF’
X’80’
Set from the operator panel A#1/B#1 B’0xxxxxxx’
White level following ON.
The threshold follows thebackground of the document.*2
B’10xxxxxx’
White levelfollowing
White level following OFF.The threshold do not followthe background of thedocument.
B’11xxxxxx’
ON
*1 When the IPC-2D or IPC-3D is installed, the value varies along with the control of DTC mode or IPCmode.
*2 3 mm from top of the document must be white or drop-out color (See section 2.6.5)
Image Functions
3-10
3.2.4 Halftone readingThis scanner supports two types of halftone image, that is Dither and Error Diffusion.
NOTICE: The density of the halftone can not be adjusted by the Threshold in Table 3.4 but theBrightness in Table 3.5.
(1) Dither
This is a way of producing halftone images with white and black pixels. The scanned image isprocessed by the unit of group of pixels.
At first a reference table called “dither matrix” is specified. Each element in the matrix (8x8)has a threshold value of 256 levels. Allocation of threshold values in the dither matrix is called“dither pattern”. Group of the scanned images are compared with the dither pattern, and eachelement is decided whether it is black or white. Number of black pixels corresponds to a levelof scale, producing pseudo grayscale images.
Four built-in dither patterns are available. Parameters which affect dither are shown in Table3.7.
Table 3.7 Parameter of ditherParameter Control register No. value Default
Halftone reading ON A#2/B#2 B’xxxx11xx’ ONDither ON A#19/B#19 B’xxxx000x’
8 step setting ON A#19 B’xxxxxxx0’set from operator panelLight
Normal
Dark
A#1/B#1 B’xxxx00xx’B’xxxx1000’toB’xxxx1100toB’xxxx1111’
256 step setting ON A#19 B’xxxxxxx1’
Density *1
LighttoDark
A#20/B#20 X’01’toX’FF’
Set fromoperatorpanel
Contrast Mostly soft contrast
Normal
Mostly sharp contrast
A#21/B#21 X’01’toX’80’toX’FF’
X’80’
0 B’0000xxxx’1 B’0001xxxx’2 B’0010xxxx’
Bult-in
3 B’0011xxxx’0 B’1000xxxx’to to
Ditherpattern No.
Download *2
7
A#2/B#2
B’1111xxxx’ *1 Effective only for Built-in pattern
*2 IPC-2D or OPC-3D required. (See section 3.3.5)
3.2 Basic image functions
3-11
(2) Error diffusion
This is a way of producing halftone (Pseudo grayscale) images with white and black pixels.Optical density of pixels and its adjacent pixels are totaled and black pixels are repositioned inthe order of density in accordance with relations between adjacent pixels.
This scheme aims to minimize errors between scanned density and printed density on theaverage. Density data of adjacent pixels are modified by diffusing errors on the objective pixelinto several pixels to be binarized. This scheme is aimed to keep high levels of grayscale andhigh resolution, producing high quality halftone. Especially when dotted halftone images likephotos on the newspaper are scanned, this scheme suppresses moire patterns.
Following parameters are available for this function
The parameters which affects the Halftone image are shown in Table 3.8.
Table 3.8 Parameters of Error diffusion
Parameter Control register No. value Default
Halftone reading ON A#2/B#2 B’xxxx11xx’ ON
Error diffusion ON A#19/B#19 B’xxxx100x’
8 step setting ON A#19 B’xxxxxxx0’
Set from operator panel
Light
to
Normal
to
Dark
A#1/B#1 B’xxxx00xx’
B’xxxx1000’
to
B’xxxx1100
to
B’xxxx1111’
256 step setting ON A#19 B’xxxxxxx1’
Density *1
Light
to
Dark
A#20/B#20 X’01’
to
X’FF’
Set fromoperatorpanel
Contrast Mostly soft contrast
to
Normal
to
Mostly sharp contrast
A#21/B#21 X’01’
to
X’80’
to
X’FF’
X’80’
*1 Effective only for Built-in pattern
Image Functions
3-12
3.2.5 Grayscale reading[A.3.3.2 CONTROL command / Control registerA#2/B#2 = B’xxxxxx1x’]
Eight bit Grayscale reading is available. Following image processing functions can be specified forgrayscale reading. (See Table 3.2)
• X,Y resolution
• Main window area
• Contrast
• Black and White reverse
NOTICE: The throughput of the grayscale reading may 1/2 slower than binary reading.
NOTICE: Output resolution is limited as shown in Table 2.3 and 2.4.
3.3 Optional image functionImage functions in this section are available when IPC-2D or IPC3D option is installed.
The name of command and register in [ ] beneath the section title show where the item is specified inAppendix A.
3.3.1 DTC mode function (Auto I mode)[A.3.3.2 CONTROL command / Control register ]
This mode is designed to scan for better image quality to provide OCR (Optical Character Reader).Threshold algorithm was developed to capture important text features for recognition purpose. Theimage processing is deferent between IPC-2D and IPC-3D as follows.
IPC-2D : Note that the DTC image processing is composed by the following sub-functions.
3.3 Optional image function
3-13
IPC-3D: Dynamic Threshold is identical to the Simplified Dynamic Threshold in IPC mode.
(See section 3.3.2)
NOTICE 1: Threshold, Brightness, and Contrast settings are ignored in DTC mode.
NOTICE 2: Gamma correction is also ignored in DTC mode.
(1) Pre-filter
The pre-filter performs filtering before processing the Dynamic Threshold. Ordinary and Ball-point Pen are selectable in Pre-filter.
Table 3.9 Parameter of Pre-filter
Name ofparameter
Controlregister No
Value Effect with IPC-2D Effect with IPC-3D Default
Ordinary B’1xxxxxxx’ Linear gamma curve
HighContrast
A#3/B#3B’0xxxxxxx’
Makes low contrastImage clear (for darkbackgrounddocument)
Linear gamma curve Ordinary
Use Ordinary basically. For the texts written by ball-point pens, use of Ball-point Pen may betterfor OCR. This is because, the texts written by ball-point pens actually have two thin lines perstroke. To human eye, this is not big problem, but OCR may not recognize the text. The Ball-pointPen filter detects lighter areas compared to the surroundings and increases the density of thelighter area. puts these two lines into one solid line. This can prevents cuts, void or too thin lines.
Image Functions
3-14
(2) Gradation
Gradation specifies the gamma curve correction before processing Dynamic Threshold. Whenscanning news papers or old documents which background is dark, it is desirable that the gammacurve has coarse steps in the lighter side and fine steps in the darker side. This is called HighContrast gamma curve.
γ curve
As the Dynamic Threshold with IPC-3D includes an automatic contrast adjustment, High Contrastsetting is not required.
Table 3.10 Parameter of Gradation
ParameterControlregisterNo
Value Effect with IPC-2D Effect with IPC-3D Default
Ordinary X’xxx00xxx’Normal gamma curve
(for general document)Normal gamma curve
HighContrast
A#3/B#3
X’xxx10xxx’Makes low contrastImage clear
No effect
Ordinary
* For dark background document such as newspaper or old document
3.3 Optional image function
3-15
(3) Dynamic Threshold Curve
For the Dynamic Threshold function, the threshold is changed with the average optical density ofa small area (e.g. 5x5 pixel area).
Relation between the threshold and maximum density is formed as a curve when the threshold isexpressed in the Y-axis and the maximum density in the X-axis. This curve is called “thresholdcurve”.
Image Functions
3-16
This function allows a customer to select a threshold curve. Several different curves are prepared, one isthe OCR type and other is the image type. The characteristic of the curve is deferent between IPC-2D andIPC-3D.
IPC-2D: The image type curve has steeper inclination in the middle of the curve. For OCR typecurve, the customer can select type (inclination) and density level.
PC-3D: 8 curves are available which adjusts the sensitivity of the image
The parameter of Dynamic Threshold are as follows.
Table 3.11 The deference of Dynamic Threshold Curve parameter
Option ParameterControlregister
NoValue Selectable parameter Default
0 for OCR
to
5 for OCR
B’xxxxx000’
to
B’xxxxx101’
Brightest
DarkestIPC-2D
6 for Image
7 for Image
B’xxxxx110’
B’xxxxx111’
Makes bright image to dark
Makes dark image to bright
6 for image
IPC-3D
0
to
4
to
7
A#3/B#3 B’xxxxx000’
to
B’xxxxx100’
to
B’xxxxx111’
Decrease the noise
Normal
Makes image sharp butincreases noise
4
3.3 Optional image function
3-17
(4) Equal to White
Equal to White specifies the result of binaizing when the value of a pixel equals the threshold.The default is Equal to White OFF.
The effect of this parameter is slight but, if the scanned image text is bold, set to Equal to White.If the scanned Image text is too narrow or lost, set to Equal to Black (Equal to White OFF).
Table 3.12 Parameter of Noise Removal
ParameterControlregister No
Value Effect Default
Equal to White ON
Equal to White OFFA#4/B#4
B’xxxxxxx1’
B’xxxxxxx0’
Equal to White
Equal to BlackEqual to White ON
Image Functions
3-18
(5) Noise Removal
Noise Removal reduces the isolated spot noise after Dynamic Threshold. If the image isnoisy. Turn on the Noise Removal and set the granularity to the size of noise to be removed.The parameter of Noise Removal is as follows.
Table 3.13 Parameter of Noise Removal
ParameterControl
register NoValue Effect Default
OFF
2x2
3x3
4x4
5x5
A#4/B#4
B’001xxxxx’
B’0000001x’
B’0000010x’
B’0000100x’
B’0001000x’
Noise Removal is not done
2x2 or smaller dot is removed
3x3 or smaller dot is removed
4x4 or smaller dot is removed
5x5 or smaller dot is removed
OFF
NOTICE: In IPC-3D, Noise Removal is ignored when the OCR smoothing is ON.
3.3 Optional image function
3-19
(6) Smoothing
Smoothing in DTC mode is done after binarizing. This function smooths a slant line or curveby eliminating jagged edges on the line. An irregularly protruding portions are removed andan Irregularly cut portions are filled In. The parameters of smoothing are as follows. TheImage Smoothing do no smoothing. If an image scanned in low resolution and the outline isjagged, specify the OCR smoothing. When OCR smoothing is specified with IPC-3D, Noiseremoval is not done.
Table 3.14 Parameter of Smoothing
ParameterControl
register No Value Effect with IPC-2D Effect with IPC-3D Default
ImageSmoothing
X’x01xxxxx’ No smoothing No smoothing
OCRSmoothing
A#3/B#3
X’x00xxxxx’ Smooth is done Smooth is done *1
X’00’
*1 Noise removal is ignored.
NOTICE: In IPC-3D, Noise removal is ignored, when OCR smoothing is specified.
Image Functions
3-20
3.3.2 IPC mode (Auto II mode)[A.3.3.3 IMAGE CINTROL command]
(1) Simplified Dynamic Threshold
The parameters which affects Simplified Dynamic Threshold are shown in Table 3.15.
Table 3.15 Parameter for Simplified Dynamic Threshold
ParameterImage control register
No.value Default
Simplified Dynamic Threshold OFF B’xxxx10xx’
Simplified Dynamic Threshold ON B’xxxx11xx’
Variance rate
Default
1 : Small
to
7 : Large
A#4/B#4B’x000xxxx’
B’x001xxxx’
to
B’x111xxxx’
OFF
In this mode, the algorithm of dynamic threshold is deferent between IPC-2D and IPC-3D.
This mode is recommended for general electric filing purpose.
Table 3.16 Algorithm of Simplified Dynamic Threshold
Option Algorithm of the Dynamic Threshold Condition
IPC-2D: Simplified Dynamic Threshold Anytime
Simplified Dynamic ThresholdWhen Image Emphasis is notspecified
IPC-3D:IPC-2 like Simplified DynamicThreshold
When Image Emphasis is specified
a) Simplified Dynamic Threshold
The Simplified Dynamic Threshold is effective to obtain sharp images or capture texts havingcolored backgrounds. This effect is similar to Image Emphasis. The difference is that theSimplified Dynamic Threshold does not emphasis the background. This is useful for forms,checks and most real world document.In IPC mode, Simplified Dynamic Threshold was asimplified implementation of the Dynamic threshold. In IPC-2D, Simplified DynamicThreshold is no simpler, but sometimes more effective than Dynamic Threshold forbackground texts. In IPC-3D, both Dynamic Threshold are the same and sophisticated.
b) IPC2 like Simplified Dynamic Threshold
IPC-3D supports IPC-2 like Simplified Dynamic Threshold for compatibility purpose. Whenboth Image Emphasis and Simplified Dynamic Threshold are set, it is regarded as IPC-2 likeSimplified Dynamic Threshold. In this case, IPC-3D Sensitivity parameters in SimplifiedDynamic Threshold are used as the Variance Rate, and Image Emphasis parameters are usedfor emphasis. The IPC-2 like Simplified Dynamic Threshold increases resolution.
3.3 Optional image function
3-21
Image Functions
3-22
The conceptual image processing flow in the IPC mode is shown below.
3.3 Optional image function
3-23
(2) Image Emphasis
Image Emphasis performs filtering to emphasize image edges or to smooth (IPC-2D) orremove background noise (IPC-3D). If text edges are not clear or faint, turn on the ImageEmphasis. Three levels of Image Emphasis, High/Mid/Low, are available. As a side effect,Image Emphasis also emphasizes the noise. It is better to set Image Emphasis higher to obtaingood image, until the noise is not perceptible.
In IPC-2D, Smooth is also available which works as negative emphasis so image edgesbecomes faint even if original is ordinary sharp.
In IPC-3D, Background Removal is available instead of Smooth. Background Removal iseffective to remove background tones. For the case of the texts surrounded by halftone patternsuch as dither, background should be removed to emphasize the text. Background is useful forsuch cases.
The algorithm of Smooth and Background Removal is deferent but the outputs are similar.
Table 3.17 Parameter of Image Emphasis
Option ParameterImagecontrol
register Novalue Default
Common Outline Extraction OFF B’101xxxxx’ OFF
No Emphasis and smoothing B’xxxxx000’
High emphasis
Mid emphasis
Low emphasis
B’xxxxx001’
B’xxxxx010’
B’xxxxx011’
IPC-2D
Smooth (Negative effect of emphasis) B’xxxxx1xx’
OFF
No emphasis and background removal B’xxxxx000’
High emphasis
Medium emphasis
Low emphasis
B’xxxxx001’
B’xxxxx010’
B’xxxxx011’
IPC-3D
Removes noisy background
A#2/B#2
B’xxxxx1xx’
Off
Image Functions
3-24
3.3 Optional image function
3-25
(3) Outline Extraction
The Outline function extracts the edges from images. This function is rarely used. It may beused in DTP for image effects or image sensing.
Table 3.18 parameter of Outline Extraction
Parameter Image control register No value Default
Outline Extraction OFF B’100xxxxx’
Outline Extraction ONA#2/B#2
B’110xxxxx’OFF
Image Functions
3-26
(4) Automatic Separation
With this feature, the scanner automatically recognize the text areas and photo areas on thedocument. For the areas that are recognized as text areas, scanned data are processed as purebinary with no halftone algorithm (fixed threshold or automatic binarization). For areas thatare recognized as photo areas, scanned data are processed with a halftone algorithm (Dither orError Diffusion).
Table 3.19 Parameter of Automatic Separation
Parameter Image control register No. value Default
Automatic separation OFF B’xxxxxx10’
Automatic separation ONA#1/B#1
B’xxxxxx11’OFF
*1 Simplified DTC and Image Emphasis are available for binary regions.
*2 In IPC-2D, other image processing as Simplified Dynamic Threshold and Image Emphasis areignored.
3.3 Optional image function
3-27
(5) Mirror image / Black and White reverse
A scanned Image is turned over symmetrically in the main scan direction, generating a mirroredreflection of an image.
Black and White Reverse turns the black part of the Image white and white part of the Image black.This effect Is similar to the negative/positive Images from camera.
Table 3.20 Parameter of Mirror Image/Black and White reverse
ParameterImage control
register Novalue Default
Mirror image OFF/Black and White reverse OFF B’xx100xxx’
Mirror image ON/Black and White reverse OFF B’xx101xxx’
Mirror image OFF/Black and White reverse ON B’xx110xxx’
Mirror image ON/Black and White reverse ON
A#1/B#1
B’xx111xxx’
OFF
Image Functions
3-28
(6) Overlay
Black areas can be overlayed by a white pattern. The scanner supports six patterns built-in.
Table 3.21 Parameter of Overlay
Parameter Control register No. value Default
Overlay OFF A#3/B#3 B’xxxx10xx’ OFF
Overlay ON *1 B’xxxx11xx’
0 B’0000xxxx’
1 B’0001xxxx’
2 B’0010xxxx’
3 B’0011xxxx’
4 B’0100xxxx’
Bult-in
5 B’0101xxxx’
0 B’1000xxxx’
to to
Overlaypattern No.
Download *2
7
A#2/B#2
B’1111xxxx’
*1 When dither or Error diffusion processing is valid by the control register A#2/B#2, overlay is notperformed even if it is valid by this register
3.3 Optional image function
3-29
3.3.3 Sub-Window[A.3.3.3 IMAGE CONTROL command/Image control registerA#1/B#1 = B’x1xxxxxx’]
[A.3.3.4 SUBWINDOW CONTROL command]
In the Main Window specified in section 3.2.1, muximum four small portions on each front and backside of the document can be clipped as Sub-Window. In each Sub Window, the deferent scanningmethods which is shown in Figure 3.2 can be specified.
NOTICE 1: IF the area specified for any sub window does not fit in the area of the main window,the portion of the area outside the main window area is ignored. Only the portion wherethe main and sub window overlap (shown hatched) is processed.
NOTICE 2: If sub-windows in a main window overlap with each other as a result of the valuesULX, ULY, W and L , the scanner returns the error.
Image Functions
3-30
3.3.4 Zooming[A.3.3.3 IMAGE CONTROL command / Image control registerA#5,A#6/B#5,B#6]
Zooming is the function to enlarge or reduce the image from 400 dpi. X and Y independent variableresolutions are supported. This zooming is processed in grayscale, so smooth and non-distortedimages can be obtained even when halftone is applied.
NOTICE: Resolution is converted by an electrical method. Therefore , no matter how highresolution is specified, small texts or narrow lines will not be resolved more clearly than400 dpi image does.
NOTICE: Zooming rate of back side reading must be same as front side.
NOTICE: The output resolution is limited depending upon memory installed as described inTable 2.4.
Zooming (800 dpi at 200%)
3.3.5 Dither download[A.4.10 SEND command / SEND data]
User’s own dither pattern is downloaded with this function. Four built-in dither patterns are availablebasically and 8 more dither patterns can be downloaded.
3.3.6 Gamma download[A.4.10 SEND command / SEND data]
Gamma downloading is supported to scan with user’s own gamma correction pattern. Tow built-ingamma patterns, Ordinary and High contrast, are basically available. And four more gamma patternscan be downloaded.
NOTICE: When the downloaded gamma pattern is specified for grayscale reading, the last two bitof the pixel output data is always B’00’.
4-1
Chapter 4 Storage and Installation
4.1 Packaging box and storage conditionPhysical specification of the packaging box are listed in Table 4.1
Table 4.1 Physical specifications of the packaging boxItem Specification Remarks
Width 670 mmDepth 915 mm
Size of thebox
Height 375 mmWeight of the box 29 kgDoggy door Yes (size : 285 × 50 mm)
Label for scanneridentification
Attached on the side of the packagingbox.Label contents;• Scanner type• Scanner Parts number• Serial number
See figure 4.1
Temperature -20°C to 60°C less than 15°C/hrHumidity 8 to 95% with no condensation
Conditionof storage
Stacking less than 8 stories
Label
Doggy door 670
375
915
Figure 4.1 Packaging box
Storage and Installation
4-2
4.2 Components in the packaging boxFollowing components are included in the packaging box. Note that the power cable is deferentbetween the scanner for USA/North America and the scanner for Europe.
Table 4.2 The components in the boxQuantity per boxName of the component
USA, NorthAmerica version
Europe versionDescription
Scanner 1 1Inspection report 1 1Operator’s Guide 1 1 ManualCleaning and maintenance 1 1 ManualPad ASY 1 1 See Section 5.4
for 100V 1 -Power cable
for 200V - 1Stacker 1 1
4.3 Installation procedure4.3.1 Removing the carrier fixing bracket
1) Set the scanner on the edge of the desk so that the ADF extends from the desk.
4.3 Installation procedure
4-3
2) Look at the bottom of the scanner to find the carrier fixing bracket.
3) Remove the screw, and remove the carrier fixing bracket from position A . Then install thecarrier fixing bracket at position B .
Storage and Installation
4-4
4.3.2 ConnectionsConnect the cables as follows;(1) Set the power switch OFF. (see Figure 1.1)(2) Connect the power cable.
Connect the power cable to the power inlet (see Figure 1.1) on the back of the imagescanner.Connect the other end of the power cable to a power outlet.
(3) Connect the interface cablesConnect the interface cables to the interface connectors (see Figure 1.1) and fasten thecables with catches or screws. Connect the other end of each Interface cable to the hostcomputer.
4.3.3 Mounting the stackerHook the pins on the stacker to the claws on the image scanner.
5-1
Chapter 5 Operation and Maintenance
5.1 Operator panel operation
5.1.1 Operator panel functionOperator pane has one LCD, six buttons and three LEDs as follows. The functions of each buttonand LED are shown in Table 5.1.
Paper counter(↑) (↓) (STOP)
Previous Next Exit 0 Power
(START) 0 READ 50 Scanner Ready 100000 ç è Enter 0 Check
Abrasion counter
Table 5.1 Functions of buttons and LEDs
Name of the buttonand LED
Function
NextLCD displays the next screen on the screen flow chart of Figure5.1 or 5.2. The settings you have made is effective.
PreviousLCD displays the backward screen of the screen flow chart ofFigure 5.1 or 5.2. The settings you have made is effective.
ç Moves the cursor (the blinking part) to the leftè Moves the cursor (the blinking part) to the right
Exit
• When “Check” LED lights, pressing this button releases errorstatus (turn off “Check” and returns to “Scanner Ready” screen).
• When you are setting on the operator, pressing this buttonreturns to “Scanner Ready” screen immediately. Note that thesetting you have select is effective after pressing this button.
Button
ENTER Registers the parameter selected by cursor.Power Indicates that the scanner is ON.READ Indicates that the scanner is reading documents.
LEDCheck
• If it blinks at one second cycle, it means that some temporaryerror occurs. (See section 6.1)
• If it blinks at four seconds cycle, ADF cleaning is required.• If it lights, it means that some alarm occurred. (See section 6.1)
Table 5.2 Functions of the counter Counter Function
Paper counter Paper counter counts the scanned sheet from the start of reading toHopper empty or an error detection.
Abrasion counter Abrasion counter counts the accumulated number of the scannedsheet. This counter increments at every 10 sheets. Use this counter tocheck the cleaning cycle or parts replacement cycle.,
Operation and Maintenance
5-2
5.1.2 Feed Mode settingThe procedures for setting feed mode are as follows.
(1) Turn the power ON by pressing “I” side of the power switch.(2) When the scanner displays “Scanner Ready”, press “Next” button.
Scanner Ready
(3) The scanner displays “Mode select 0” at the upper line of LCD, then press “Enter” button.Now Feed Mode setting is ready.
Mode select 0 Reading mode change?
(4) Select the item by pressing “Previous” or “Back” button, and select the parameter by
pressing “ç” or “è” button, and press “Enter” button to set the parameter. Finally closethe Feed Mode setting by pressing “Exit” button. The flow chart of the Feed Mode setting isshown In Figure 5.2.
Figure 5.1 Mode change
xxx Scanner Ready xxxx
Manual Feed xxx Scanner Ready xxxx
Mode select 0 Reading mode Change?
EnterM2
M1
Previous
M1 At Manual Feed modeExit
Next
Mode select 1M Manual mode Change?
Enter
To Manual Feed mode
M3PreviousNext
Mode select 2Setup mode Change?
Enter
To Setup mode
M4PreviousNext
To Reading mode
5.1 Operator panel operation
5-3
Figure 5.2 Feed Mode setting
Mode select 0 Reading mode Change?
01 Reading device =ADF/FB
02 Reading face=Simplex/Duplex
03 Paper Direction =Portrait/Landscape
04 Size =A4/A3/LT/LG/DLT
05 Resolution =100/150/200/240/300
06 Front Density =nnn/nn/noo
07 Back Density =nnn/nn/noo
08 Front Halftone =No/HT1/HT2
09 Back Halftone =No/HT1/HT2
10 Front Document Type =L.(Line) / P.(Photo)
11 Back Document Type =L.(Line) / P.(Photo)
M DF A4 400 noo HT1 P DB A4 400 noo HT1 P
S22
S23
S24
S25
S26
S27
S28
S29
S2A
S2B
S2C
Next, Enter Previous
Previous
Previous
Previous
Previous
Previous
Previous
Previous
Previous
Previous
Previous
Enter
S21
Next,Entert
From S2C
To S21
M2 Previous
Exit
Next Previous
To M3
To M1
Nexr, Enter
Next, Entert
Next, Entert
Next, Entert
Next, Entert
Next, Entert
Next,Entert
Next, Entert
Next, Entert
Next, Entert
Next
Operation and Maintenance
5-4
5.1.3 Manual Feed modeIn this mode, the scanner waits for some predetermined time without issuing “Hopper empty” afterall documents are read. This predetermined time (time-out limit) is specified by Setup mode.Therefore you can set next documents on ADF chute without interrupting reading operation. Theprocedures for setting manual feed mode are as follows.
(1) Turn the power ON by pressing “I” side of the power switch (see Figure 1.1). The scanner
displays “Scanner Ready”.
Scanner Ready
(2) Press “Next” button. Then the scanner displays “Mode select 0”
Mode select 0 Reading mode change?
(3) Press “Next” button. Then the scanner displays “Mode select 1”
Mode select 1M Manual mode change?
(4) Then press “Enter” button. Then the scanner displays following screen.
M01 Manual feed = No/Yes
(5) Select “Yes” by pressing “è” button, and press “Enter”. Now the Manual Feed mode is set.
(6) Press “Exit” to return to “Scanner Ready “ screen.Note that “Manual Feed” is shown on the. This means that the scanner is in Manual Feedmode.
Manual Feed Scanner Ready
5.1 Operator panel operation
5-5
5.1.4 Setup modeOperator can set following items by Setup mode.
Table 5.3 Functions of Setup mode
No Item Description Selectableparameters
Default
1 Double feedcheck
Double feed is detected by checkingthe document length one by one.
Tolerance:No/10/15/20mm
No
2 IPC pre-setting Scanner automatically sets therecommended reading parameters.Five recommended documentparameters are available.
Document:No/1/2/3/4/5
No
3 Reset ofAbrasion counter
Abrasion counter can be reset. - -
4 Pick start timesetting
The time from the documentinsertion to the start of picking isspecified. User can select mostcomfortable Pick start time for thejob.
Time:0.2 to 9.8 sec 1.0 sec
4 Time-out limitsetting
The time that the scanner waits fornext document insertion after lastdocument scanned can be specified.
Time:27 values from1 to 1999 sec
30 sec
5 ADF front offsetsetting *
Horizontal and vertical offset of thefront side image by ADF isspecified.
Offset:H: -2 to +3mmV: -2 to +3mm
Offset:H: 0 mmV: 0 mm
6 ADF back offsetsetting *
Horizontal and vertical offset of theback side image by ADF isspecified.
Offset:H: -2 to +3mmV: -2 to +3mm
Offset:H: 0 mmV: 0 mm
7 FB offset setting*
Horizontal and vertical offset of theFB image is specified.
Offset:H: -2 to +3mmV: -2 to +3mm
Offset:H: 0 mmV: 0 mm
8 IPC/Memorystatus display
The type of IPC option (IPC-2D orIPC-3D) and total memory installedare displayed.
9 SCSI ID setting SCSI ID is selectable SCSI ID:0/1/2/3/4/5/6/7 5
* This offset means the deference from the value adjusted by automatic offset adjustment.
The procedures for setting Setup mode are as follows.
(1) Turn the power ON by pressing “I” side of the power switch (see Figure 1.1). Then thescanner displays “Scanner Ready”
Scanner Ready >
Operation and Maintenance
5-6
(2) Press “Next” button. Then the scanner displays “Mode select 0”,
Mode select 0 Reading mode change?
(3) Press “Next” button. Then the scanner displays “Mode select 1”,
Mode select 1M Manual mode change?
(4) Press “Next” button again. Then the scanner displays “Mode select 2”
Mode select 2! Setup mode Change?
(5) Press “Enter” button. Now the scanner is in Setup mode.
(6) At first the screen is S41 in the screen flow chart next page. Select items by pressing “Next”or “Previous” buttons, and select parameters by pressing “ç” or “è” buttons, and press“Enter” button to set the parameter. Finally close the Setup mode by pressing “Exit” button.The flow chart of the Setup mode is in Figure 5.3
5.1 Operator panel operation
5-7
Figure.5.3 Flow chart of the Setup mode
M 01 Manual feed =No/Yes
!01 Double Feed Check =No/Yes → 10/15/20 mm
!02 IPC Pre-set=No/Yes → 1/2/3/4/5
!03 Abrasion counter =xxxxxx Reset No/Yes
!04 Pick start time = 0.2 Sec
!05 Time-out limit = 30 Sec
!06 ADF Front Offset Change? No/Yes
!07 ADF Back Offset Change? No/Yes
!08 FB Offset Change? No/Yes
!09 IPC/Memory Status IPC-2D / 32MB(TOTAL)
S42
S43
S44
S45
S46
S47
S48
S49
Previous
Previous
Previous
Previous
Previous
Previous
Previous
Previous
Previous
Enter
S41
Next, NO Enter
from S4BM4
M3
Next Previous
S31
Exit
Previous
Enter
Mode select 2! Setup mode Change?
Mode select 1M Manual feed Change?
To M1(Figure 5.1)
Next,Enter,Exitto M1
!02-1 IPC Host SettingIgnore Yes/No
!03-1 Are you sure? No/Yes
Enter at Yes
EnterEnter at Yes
Enter
Enter at yes
!06-1 Return to default? No/Yes
!06-2 Front Offset H H= +0.0 mm (+:Left)
!06-3 Front Offset V V= +0.0 mm (+:Up)
Enter
Enter
Enter!07-1 Return to default? No/Yes
!07-2 Back Offset H H= +0.0 mm (+:Left)
!07-3 Back Offset V V= +0.0 mm (+:Up)
Enter
Enter
Enter at Yes!08-1 Return to default? No/Yes
!08-2 FB Offset H H= +0.0 mm (+:Left)
!08-3 FB Offset V V= +0.0 mm (+:Up)
Enter
Enter
Enter
Enter at Yes
NextNext,Enter
Next, NO Enter
Next,Enter
Next,Enter
Next, No Enter
Next, Entert
Next, No Enter
Next, No Enter
Enter
Operation and Maintenance
5-8
5.1.5 Function of CE mode
CE mode is available only for maintenance person, so the details of the CE mode are shown in themaintenance manual of this scanner. In this section only the items of the CE mode is shown in table5.4 as a reference.
Table 5.4 Function of CE mode
LCD display Features
T01 Single Test feed Scanner tests the FB or ADF single sheet reading.Scanner tests not only the feeding but also AGC control ofcarrier unit and Optical unit.
T02 Multi Test feed Scanner continuously tests the feeding and AGC controlunit “Exit” is pressed.
T03 Offset Adjsutment Scanner automatically adjusts the offset of FB image,ADF front image and ADF back image.
T04 EEPROM Setting This function supports the inquiry and over-writing of theEEPROM data.
T05 OP Panel Test Scanner tests the function of the LCD, LEDs and switcheson the operator panel.
T06 ADF Sensor Test Scanner tests the switches on ADF indicating the ON/OFFreal time status on LCD.
T07 PROM Version Scanner displays the firmware version in PROM.
T08 Life Counter Scanner displays the accumulated sheet number wich ADFhas fed.
T09 Baud Rate This function supports the baud rate setting of RS232C.Baud rate is selectable from 9600/4800/2400/1200 bps.
T10 Product ID This function supports the setting of Product ID of SCSIinterface.
Product ID is selectable fromM3099G/M3097DG/M3097G/M3093DG/M3093GX/M3096G/M3096GX.
T11 Memory Test Scanner tests the image memory.
5.2 Document setting
5-9
5.2 Document setting
5.2.1 Document setting on ADF paper chute
The procedures for setting the document on ADF are as follows.NOTICE: Note that the documents follows section 2.6 “Document Specifications”.
(1) Pull up the ADF paper chute as follows:
hold the document feeder with one hand and pull up the ADF paper chute with the otherhand to set the shaft in position B.
(2) Fan the documentFan the document to loose static electricity and prevent double feed or jam.
(3) Angle the document edges as follows to avoid double feed.a) Lift the documents holding the both ends with both hands.b) Hold the documents tightly with your left hand, and bend the documents as shown in
B.c) Grip tightly with your right hand, loosen the grip of your left hand, and straighten the
documents as shown in C.
Rotation direction
Bar
Operating position
ADF paper chute
Operation and Maintenance
5-10
(4) Place the documents on ADF paper chute as follows
a) Open the right and left guides of the ADF paper chute about 5 mm wider than thedocument width
b) Place the documents with front side down onto ADF paper chute with the top edgesfacing the ADF.
c) Adjusts the right and left guides to the document sides. Skewing may occur if there is agap between the guides and documents.
d) Slides the documents down until they touch the pick roller in the ADF. If thedocuments hit the pick roller in ADF hard, two or more sheets may be fed at once.Make sure that the upper end of documents are not turned.
NOTICE: The number of the documents to be placed on ADF paper chute is limited as describedin section 2.6.3.
5.2 Document setting
5-11
(5) Start read operation. After reading, remove the documents from the stacker.NOTICE: If a wrong document size or mode is selected, the document may not be read
correctly. For example;- Portrait and landscape setting- If 3mm of the leading edge of the document is not white or drop-out color, set
White level following OFF.
Operation and Maintenance
5-12
5.2.2 Document setting on flatbedThe procedures for setting the document on ADF are as follows.
(1) Open the document cover.(2) Place the document with face down on the document bed. Correct any curled or folded parts
of the document.(3) Position the long side (in landscape mode) or the short side (in portrait mode) of the
document to the left side of the document bed.(4) Position the left top corner of the document to the reference mark. If the document is not
placed correctly, scanned image position may be incorrect.(5) Close the document cover slowly.(6) Start the read operation. After reading, open the document cover and remove the document.
Operator panel
5.3 Cleaning
5-13
5.3 CleaningCleaning is important to keep stable scanning. Cleaning section, tool and cycle are explained in Table 5.5.
Table 5.5 Cleaning of the scanner
No Cleaning section Tool Cleaning cycle 1 Pad 2 Rubber rollers
(Pick roller, Feed roller,Ejection rollers)
3 Plastic rollers*2(Coupled feed roller)
4 White part of the guide 5 Glass 6
ADF
Sheet guide or other area
Dry cloth andIsopropyle alcohol*1
or
Cleaning paper *1
5,000 sheets
7 Document holding pad 8
FBDocument bed (glass)
Dry cloth andneutral cleanser *3*4
*1 Fujitsu recommends to use following cleaning tools, ask your dealer or Fujitsu sales representative if itis available.
Tool name Part number Description Cleaner F1 CA91001-2316 Isopropyl alcohol 100ml Cleaning paper CA91001-2314 10 absorbent sheets
*2 Fujitsu recommends to use following cleaning tool when the plastic roller is heavily soiled.
Tool name Part number Description Cleaner F2 CA91001-2317 Organic solvent 70ml
*3 Do not use organic solvents such as a thinner.*4 Make sure no liquid enters the scanner from the edges of the document bed glass.
Operation and Maintenance
5-14
5.4 ConsumableOperator needs to replace following parts. It is recommended to use abrasion counter on the operatorpanel and schedule the replacement of parts. Parts to be replacement cycle are as follows.The parts replacement procedures are described in the Operator’s Guide.
Table 5.6 Parts replacement
No Part name Part number Replacement cycle Remarks 1 Pad ASY PA03951-0021 Every 100,000 sheets or
annually *1One per scanner
2 Pick roller PA03951-0025 Every 200,000 sheets orannually *1
One set per scanner(two rollers are in one set)
*1 These replacement cycle may be shortened depending on the paper scanned and bad scanner cleaning.When carbon-less paper is used, the replacement cycle becomes short so these parts must be preparedearlier than above.
*2
Figure 5.4 Pad ASY
5.3 Cleaning
5-15
(Two rollers are included)
Figure 5.5 Pick roller
6-1
Chapter 6 Error display and Recovery
6.1 Error display
6.1.1 Temporary error(1) Hopper empty
Paper Empty
This message is displayed if there is no more paper onthe ADF paper chute during a read operation in ADFmode. Fill the ADF paper chute with paper. To enablethe read operation, press the stop button
(2) Jam
Paper Jam
This message is displayed if a document is jammed inthe ADF. See section 6.2 for removing jammeddocuments.
(3) ADF cover open
ADF-Cover Open
This message is displayed if the ADF is not closedcompletely. Close the ADF completely, and enablethe read operation.
(4) Double feed error
Double Feed Error
This message is displayed when the ADF detects theDouble feed error. Check the document and re-scanthe document.
NOTICE: The scanner stores the length of the first sheet. And scanner compares the length ofscanned document with the first sheet. Double feed is detected when the scanneddocument is longer than the first sheet. So each sheet length of the document must besame.
NOTICE: The scanner can not detect the Double feed error, when the documents completelyoverlap each other.
6.1.2 AlarmOne of the following message is displayed if an error occurs in the scanner. If one of the followingerror message is displayed, turn the power off and then on again. If the same message is displayed,contact your service representative.
(1) Optical alarm front
Optical Alarm(F)
(2) Optical alarm back
Optical Alarm(B)
Error display and Recovery
6-2
(3) FB mechanism alarm
Mechanical Alarm
(4) Motor fuse alarm
Motorfuse Alarm
(5) Lamp fuse alarm
Lampfuse Alarm
(6) Image transfer error
Image Transfer Alarm
(7) Memory alarm
Memory Alarm
(8) EEPROM alarm
EEPROM Alarm
6.2 Jam clearanceIf documents jam while being fed by the ADF, remove the jammed documents as follows.
(1) Remove the documents from the ADF paper chute.
(2) Pulling the ADF lever, open the ADF unit.
(3) Remove the jammed documents.
(4) Close the ADF until the ADF lever locks.
6-3
Figure 6.1 Jam clearance
Appendix A-1
Appendix A Scanner Interface
A.1 Control InterfaceThis chapter describes the control interface between the host computer and the scanner. For details of theinterface, refer to the EIA RS-232C standard.
A.1.1 Connection Specifications
Specification Remarks
Transmission system Half-duplex
Synchronization system Start-stop
Data length 8 bits
Stop bit 1 bit
Data check Odd parity check
Data transfer rate 1200, 2400, 4800, 9600 bps Set by hostmachine orAPPENDIX D
Default: 4800 bps.
Maximum connection 5 m (16 ft.)
Standard EIA RS-232C
D2 D3 D4 D5 D6 D7D0 D1 P
Start bit Stop bit
Scanner Interface
Appendix A-2
A.1.2 Control Interface Signals
(1) Send data (T/D)
This signal is the response and acknowledge for the command sent on the R/D line.
(2) Received data (R/D)
This line sends the command and acknowledge for a response.
(3) Send request (RTS)
This line sends a request to send a response and acknowledge for the command.
(4) Transmission enabled (CTS)
This line sends an acceptance of RTS signal.
(5) Terminal ready (DTR)
This signal indicates that the scanner is ready for transmission and reception. This signal is set to off whenthe scanner is turned off, when the scanner is initially checked after power-on, or when a fault is detected.
(6) Controller ready (DSR)
This signal indicates that the host computer is ready for transmission and reception.
Figure A.1.1 Control interface signal lines
T/D
Hostcomputer Scanner
R/D
RTS
CTS
DTR
DSR
A.1 Control Interface
Appendix A-3
A.1.3 Driver/Receiver
Driver: SN75188 or equivalentReceiver: SN75189 or equivalent
To determine the threshold level of the signal at the receiver, the following circuit must beconnected to the response control pins.
A.1.4 TimingScanner → Host computer (At transmission)
a: +0 msb: +0 to 5 msc: +0 to 10 ms (more than 1 word length)d: +0 ms
RTS
TXD
CTS
GG
GG
GG
GG
a b c d
100 pF
0 V
-12 V
To response control pin
20 kٶ
Scanner Interface
Appendix A-4
A.2 Video InterfaceThis chapter describes the video interface, which transfers the scanning data from the scanner to the hostcomputer.
A.2.1 Video Interface Signals
(1) VCL
This signal is a sampling clock for the video data V0 to V7.
(2) HGATE
This signal indicates that the main-scanning video data is valid.
(3) VGATE
This signal indicates that the subscanning video data is valid.
(4) V0 to V7
These signal lines carry the scanning video data. Logical “0” indicates a black dot.
(5) FAIL
This signal indicates that a device error (MPU ROM/RAM error) has occurred in the scanner.
Figure A.2.1 Video interface signal lines
V0 to V7 (8 lines)
Hostcomputer
FAIL
VCL
Scanner
HGATE
VGATE
A.2 Video Interface
Appendix A-5
A.2.2 Driver/Receiver
A.2.2.1 Driver/receiver for standard connector and M3096A21 connector(1) VCL
330 Ω
0 V
+5 V
LS240, LS14, or equivalent
150 Ω
MB463or S38
Scannerside
Host side
(2) V0 to V7
+5 V
LS240, LS14, or equivalent
1 kΩ
MB463 or LS38
0 V
1000 pF
+5V
1 kĦ
LS240, LS14,or equivalent
100 Ω
MB463 or LS38
(3) HGATE, VGATE, and FAIL
Scanner Interface
Appendix A-6
A.2.3 Data Transfer
A.2.3.1 Transfer sequenceScanning is performed as shown in Figure A.2.2, and the scanning data is assigned to the videodata signal as shown in Figure A.2.3. The scanning data is sent to the host computer in order ofscanning.
Scanning video data is transferred to the host computer through video data signal linesV0 to V7 in parallel synchronized with VCL.
Figure A.2.2 Scanning direction
Subscanning
Main scanning
A.2 Video Interface
Appendix A-7
Figure A.2.3 Scanning data assignment
7 6 5 4 3 2 1 0 7 6 5 0 7 6 5 4 3 2 1 0
7 6 5 4 3 2 1 0 7 0 7 6 5 4 3 2 1 02 1
7 6 5 4 3 2 1 4 0 7 6 5 4 3 2 1 0
7 6 5 4 3 6 0 7 6 5 4 3 2 1 02 1
3 2 1
5 4 3
Main scanning
Subscanning
Notes:1. “0” to “7” correspond to the video data signal V0 to V7 respectively.
2. The most significant bit (MSB) of each video data signal is read first.
Scanner Interface
Appendix A-8
A.2.3.2 Effect in main scanning
X : Offset dotsY : Transferred dataα : Dummy dots∇ : Reference point of main-scanning
(1) Flatbed
The values of X, Y, and α are shown in Table A.2.1 and A.2.2.
(2) ADF
The values of X, Y, and α are same as the value used in Flatbed.
HGATE
VIDEOX
Y
α
∇¤
A.2 Video Interface
Appendix A-9
Paper size A3 B4 A4 B5 A5 Legal Letter DoubleLetter
Offset dots 18 ±18 18 ±18 18 ±18 18 ±18 18 ±18 18 ±18 18 ±18 18 ±18
Transferreddata
7296 6144 5184 5184 3456 5184 5184 6600600dpi
Dummydots
0 0 0 0 0 0 0 0
Offset dots 12 ±12 12 ±12 12 ±12 12 ±12 12 ±12 12 ±12 12 ±12 12 ±12
Transferreddata
4864 4096 3456 3456 2304 3456 3456 4400400dpi
Dummydots
0 0 0 0 0 0 0 0
Offset dots 9 ±9 9 ±9 9 ±9 9 ±9 9 ±9 9 ±9 9 ±9 9 ±9
Transferreddata
3648 3072 2592 2592 1728 2592 2592 3304300dpi
Dummydots
0 0 0 0 0 0 0 0
Offset dots 8 ±8 8 ±8 8 ±8 8 ±8 8 ±8 8 ±8 8 ±8 8 ±8
Transferreddata
2920 2464 2080 2080 1384 2080 2080 2640240dpi
Dummydots
0 0 0 0 0 0 0 0
Offset dots 6 ±6 6 ±6 6 ±6 6 ±6 6 ±6 6 ±6 6 ±6 6 ±6
Transferreddata
2432 2048 1728 1728 1152 1728 1728 2200200dpi
Dummydots
0 0 0 0 0 0 0 0
Offset dots 5 ±5 5 ±5 5 ±5 5 ±5 5 ±5 5 ±5 5 ±5 5 ±5
Transferreddata
1824 1536 1296 1296 864 1296 1296 1656150dpi
Dummydots
0 0 0 0 0 0 0 0
Offset dots 3 ±3 3 ±3 3 ±3 3 ±3 3 ±3 3 ±3 3 ±3 3 ±3
Transferreddata
1216 1024 864 864 576 864 864 1104100dpi
Dummydots
0 0 0 0 0 0 0 0
(Unit: dots)
Note:Data of dummy dots are sent as white.
Table A.2.1 Transferred data length in main scanning (portrait mode)
Scanner Interface
Appendix A-10
Paper size A3 B4 A4 B5 A5 Legal Letter DoubleLetter
Offset dots - - 18 ±18 18 ±18 18 ±18 - 18 ±18 -
Transferreddata
- - 7016 6072 4968 - 6600 -600dpi
Dummydots
0 0 0 0 0 0 0 0
Offset dots - - 12 ±12 12 ±12 12 ±12 - 12 ±12 -
Transferreddata
- - 4680 4048 3312 - 4400 -400dpi
Dummydots
0 0 0 0 0 0 0 0
Offset dots - - 9 ±9 9 ±9 9 ±9 - 9 ±9 -
Transferreddata
- - 3512 3040 2480 - 3304 -300dpi
Dummydots
0 0 0 0 0 0 0 0
Offset dots - - 8 ±8 8 ±8 8 ±8 - 8 ±8 -
Transferreddata
- - 2080 3432 1984 - 2640 -240dpi
Dummydots
0 0 0 0 0 0 0 0
Offset dots - - 6 ±6 6 ±6 6 ±6 - 6 ±6 -
Transferreddata
- - 2344 2024 1656 - 2200 -200dpi
Dummydots
0 0 0 0 0 0 0 0
Offset dots - - 5 ±5 5 ±5 5 ±5 - 5 ±5 -
Transferreddata
- - 1760 1520 1240 - 1656 -150dpi
Dummydots
0 0 0 0 0 0 0 0
Offset dots - - 3 ±3 3 ±3 3 ±3 - 3 ±3 -
Transferreddata
- - 1176 1016 832 - 1104 -100dpi
Dummydots
0 0 0 0 0 0 0 0
(Unit: dots)
Note:Data of dummy dots are sent as white.
Table A.2.2 Transferred data length in main scanning (landscape mode)
A.2 Video Interface
Appendix A-11
A.2.3.3 Effect in subscanning
X : Offset lines (Max.)Y : Transferred lines∇ : Reference point of subscanning
(1) Flatbed
The values of X and Y and are shown in Tables A.2.3 and A.2.4.
VGATE
VIDEOX
Y
∇¤
Scanner Interface
Appendix A-12
Paper size A3 B4 A4 B5 A5 Legal Letter DoubleLetter
Offset dots 0 - 48 0 - 48 0 - 48 0 - 48 0 - 48 0 - 48 0 - 48 -600dpi Transferred
data9921 8598 7016 6072 4961 8400 6600 10368
Offset dots 0 - 32 0 - 32 0 - 32 0 - 32 0 - 32 0 - 32 0 - 32 0 - 32400dpi Transferred
data6614 5732 4677 4048 3307 5600 4400 6912
Offset dots 0 - 24 0 - 24 0 - 24 0 - 24 0 - 24 0 - 24 0 - 24 0 - 24300dpi Transferred
data4961 4300 3508 3036 2480 4200 3300 5184
Offset dots 0 - 20 0 - 20 0 - 20 0 - 20 0 - 20 0 - 20 0 - 20 0 - 20240dpi Transferred
data3969 3440 2806 2429 1984 3360 2640 4160
Offset dots 0 – 16 0 – 16 0 – 16 0 – 16 0 – 16 0 – 16 0 – 16 0 – 16200dpi Transferred
data3307 2886 2339 2024 1654 2800 2200 3456
Offset dots 0 - 12 0 - 12 0 - 12 0 - 12 0 - 12 0 - 12 0 - 12 0 - 12150dpi Transferred
data2480 2150 1754 1518 1240 2100 1650 2592
Offset dots 0 - 8 0 - 8 0 - 8 0 - 8 0 - 8 0 - 8 0 - 8 0 - 8100dpi Transferred
data1433 1169 1169 1012 827 1400 1100 1728
(Unit: lines)
Table A.2.3 Transferred data length in sub-scanning (portrait mode)
A.2 Video Interface
Appendix A-13
Paper size A3 B4 A4 B5 A5 Legal Letter DoubleLetter
Offset dots - - 0 - 48 0 - 48 0 - 48 - 0 - 48 -600dpi Transferred
data- - 5184 5184 3456 - 5184 -
Offset dots - - 0 - 32 0 - 32 0 - 32 - 0 - 32 -400dpi Transferred
data- - 3456 3456 2304 - 3456 -
Offset dots - - 0 - 24 0 - 24 0 - 24 - 0 - 24 -300dpi Transferred
data- - 2592 2592 1728 - 2592 -
Offset dots - - 0 - 20 0 - 20 0 - 20 - 0 - 20 -240dpi Transferred
data- - 2080 2080 1384 - 2080 -
Offset dots - - 0 - 16 0 - 16 0 - 16 - 0 - 16 -200dpi Transferred
data- - 1728 1728 1152 - 1728 -
Offset dots - - 0 - 12 0 - 12 0 - 12 - 0 - 12 -150dpi Transferred
data- - 1296 1296 864 - 1296 -
Offset dots - - 0 - 8 0 - 8 0 - 8 - 0 - 8 -100dpi Transferred
data- - 864 864 576 - 864 -
(Unit: lines)
Note:If ADF is used, transferred lines are determined by real size of the document. (Causes VGATE to take ‘0’when the document end passes through the reading position.)
(2) ADF
The document size (VGATE) is set to off when the edge of the document passes the read position.
Table A.2.4 Transferred data length in sub-scanning (landscape mode)
Scanner Interface
Appendix A-14
A.2.4 Timing
The values of t1 to t8 are shown in Tables A.2.5 and A.2.6.
(1) VCL and V0 to V7
VCLt2
t1
V0 to V7
t4t3
(2) VCL and HGATE
GG
HGATE
t6
VCLt5
GG
(3) HGATE and VGATE
HGATE
t8t7
VGATE
GG
GG
A.2 Video Interface
Appendix A-15
Table A.2.5 Timing specification at binary output (continued)(Unit: ns)
800 ns *3 400 ns *4
MIN. TYP. MAX. MIN. TYP. MAX. MIN. TYP. MAX. MIN. TYP. MAX.
t1 700 800 700
*1
300 400 500
*1
t2 300 400 500 100 200 300
t3 250 400 500 50 200 300
t4 300 400 500
*1
100 200 300
*1
t5 200 300 400 200 300 400
t6 600 700 1200 400 500 1000
t7 2600
µs *2
2600
µs *2
t8 2600 2700 2800 2600 2700 2800
*1 Sometimes these values become several µs longer, due to the memory control.
*2 Sometimes these values become several ms longer, due to the scanner control.
*3 800 ns or 400 ns is the transfer rate specified by the Extended control register #2.When the output resolution is 400 dpi or less, the front-side data transfer rate is 800 ns.When the output resolution is 401 dpi or more, the front-side data transfer rate is 400 ns.
*4 This is the transfer rate specified by the Extended control register #2 for back-side reading.
Scanner Interface
Appendix A-16
A.3 Commands and Response
A.3.1 Basic Command/Response SequenceData is transmitted between the host computer and the image scanner in the form of commands andresponses. Figure A.3.1 shows the basic command/response sequence. In Figure A.3.1, “Other thanACK” means a parity, flaming, overrun, or count error.
A.3 Commands and Response
Appendix A-17
Notes:
1. Abnormal reception means that a parity error, flaming error, overrun error, or count error has occurred.
2. Command or response transmission is retried only twice.
3. Upon reception, a command or response is checked for transmission errors. When the check result has noproblem, ACK is returned immediately to the originating source. When the check result has problem, dataother than ACK is returned after all data has been received.
4. The originating source of the command/response monitors the response from the receiving side. ACKindicates that command/response transmission is completed. Data other than ACK causes thecommand/response to be transmitted again. The transmission is retried only twice. After that, the scannerwaits for a new command.
5. Response data such as ACK must be returned to the originating source within 0.5 second.
6. The interval between words in the data steam must be no more than 10 ms.
7. Response of the CLEAR command must be less than one minute.Figure A.3.1 Basic command/response sequence
Completion of commandtransmission
Abnormal reception
Response retransmission(only twice)
Response transmission end
Host Computer Scanner
ACK
Other than ACK
Command
Command retransmission(only twice)
Abnormal reception
Normal reception
- Command processing- Operation
Response
Normal reception
ACK
Other than ACK
Scanner Interface
Appendix A-18
Table A.3.1 shows the meaning of the response data and its code (indicated in hexadecimal).
A.3.2 Command/Response FormatThe command/response format is as follows.
(1) CNT (count) field
The total number of bytes in the command/response to be transmitted is represented.
(2) CMD/RPS field
A command or response code is indicated.
(3) TEXT field
Additional information for a command or response, called control or device information, is indicated.
(4) Additional field
In some commands, additional field exists next to TEXT field.
CNT CMD/RPS TEXT Additional field
Table A.3.1 Response data
Code (Hex)MeaningResponse data
Receptionerror
Parity error A parity error has been detected in receiveddata.
Flaming errorOverrun error
A flaming error or an overrun error has beendetected in received data.
Count error The byte count for the command or responsedoes not match the number of bytestransferred.
ACK (Acknowledge) A command or response has been receivednormally.
‘FF’
‘80’
‘81’
‘82’
A.3 Commands and Response
Appendix A-19
A.3.3 CommandCommands sent from the host machine to the scanner are as listed in Table A.3.2.
Table A.3.2 Commands
Command name Commandcode
Details
CLEAR 44This command initializes the scanner.
This command can be issued at any time.
CONTROL 58This command sets the operation mode of thescanner and the operation mode in the mainwindow.
IMAGE *
CONTROL5A
This command sets the image processing mode ofthe scanner.
SUB WINDOW
CONTROL *5C
This command sets the subwindow attribute of thescanner.
START 53This command reports the size of a document tobe read.
READ 54This command starts reading. The scanner startsreading according to the operation mode setpreviously.
SENSE 41 This command requests a scanner status report.
RETURN SENSE 42 This command requests a status report on thereturn of the flatbed scan.
IMAGE MODESENSE
43
This command requests a status report of theimage processing mode of each main window andthe number of pixels (in units of a byte) per line inthe X-direction.
SEND DITHER1 46 This command transfers the dither and overlaypatterns.
SEND DITHER2 47 This command transfers the dither, γ curve, oroverlay patterns.
INQUIRY 40 This command requests a device informationreport.
INQUIRY2 4A This command requests additional deviceinformation report
*: Effective if image processing circuit (IPC-2D or IPC-3D option) is mounted
Scanner Interface
Appendix A-20
Command name 1 2 3 4 or later
CLEAR X’03’ X’44’ CLEAR command details -
CONTROL X’0X’ X’58’ Control register startnumber.
Control register
IMAGE CONTROL X’0X’ X’5A’ Image control register startnumber.
Image control register
SUB WINDOWCONTROL
X’0X’ X’5C’Subwindow control registerstart number.
Subwindow controlregister
START X’02’ X’53’ - -
READ X’02’ X’54’ - -
SENSE X’02’ X’41’ - -
RETURN SENSE X’02’ X’42’ - -
IMAGE MODESENSE
X’03’ X’43’IMAGE MODE SENSEcommand details(M3093DE)
-
SEND DITHER1 X’43’ X’46’Dither or overlay patternnumber.
Dither or overlaypattern, 64 bytes ormore
SEND DITHER2 X’05’ X’47’ X’00’
Byte 4 and 5: CNT
Byte 6: Pattern ID
Byte 7 or later:
dither, overlay or γcurve data
INQUIRY X’02’ X’40’ - -
INQUIRY2 X’02’ X’4A’ - -
1
05
Example : SEND DITHER2 Command
2
47
3
00
4
00
5
10
6
01
7
11
8
22
9
33
A
44
B
55
C
66
D
77
E
88
F
99
10 bytes
Length of byte 6 to byte F
A.3 Commands and Response
Appendix A-21
A.3.3.1 CLEAR commandThis command initializes the scanner and can be issued at any time.
Byte 1
CNT
Byte 2
CMD
Byte 3
TEXT
X’03’ X’44’ Details on CLEAR command
CLEAR command details
Note: “Ready” is the response when this command ends normally.
*1 If the CONTROL REGISTER CLEAR command is issued after the READ command is sent to the scannerbut before the Read Complete is received from the scanner, a command sequence error occur.
7 6 5 4 3 2 1 0
LSB
00: Power-on clear
This command resets the system to thepower-on status.
01: Control register clear
This command initializes the operationmode, image processing mode, andsubwindow mode. (*1)
10: Reading stop
This command stops operation duringreading (VGATE OFF, return).
Scanner Interface
Appendix A-22
A.3.3.2 CONTROL commandThis command sets the scanner to the operation mode.
Selection of control register
This scanner has an additional function to select control register, using bits 6 and 7 of byte 3 of theCONTROL command supported by the existing devices (M3093E, M3096E+, and M3097E).
• Front-side reading or front-side and back-side reading control register specification
• Back-side reading control register specification
• Extended control register specification
The registers are specified as follows:
Hereafter, a control register for front-side reading (compatible with the exiting devices) is called controlregister A. A control register for back-side reading is called control register B.
#0 EXT. control reg.
#1EXT. control reg.
#0EXT. control reg.
#0Control reg. A
#XX~
#21Control reg. A
#0Control reg. B
#XX~
#21Control reg. B
b7 b0 b7 b0 b0b7
Selection of register
b61
b70
b60
b70
b60
b71
Front-sidereading
Back-sidereading
Control register No.
Control register No.CMD (X'58')CNT (X'0X')
b7 b0
b61
b71
Undefined
Control register
REG No.
A.3 Commands and Response
Appendix A-23
(a) Control register A#0
X’00’is set when the power is turned on or when a CLEAR command is issued for initialization.
*1 When the start of reading is specified from the operator panel, the Ready lamp lights at reception of aSTART command.
7 6
0
5 4 3 2 1 0
LSBMSB
Scanning resolution
0XXX: Set from the operator panel
No operation (Other scanners)
1 0 0 0 400 dpi1 0 0 1 300 dpi1 0 1 0 240 dpi1 0 1 1 200 dpi1 1 0 0 100 dpi1 1 0 1 150 dpi1 1 1 0 Not defined1 1 1 1 600 dpi
Flatbed/ADF
0X: Set from the operator panel
1 0: Flatbed operation1 1: ADF operation
Specified start of reading)
0: Operator panel (*1)1: Host computer
Scanner Interface
Appendix A-24
(b) Control register A#1
Control register B#1
X’00’ is set when the power is turned on or when a CLEAR command is issued for initialization.
*1 The scanning speed of ADF (sheets/min) in Linedrawing mode is different from that of Photographmode. See Appendix C for more information.
7
0
6
0
5
0
4
0
3
0
2
0
1
0
Control register B#0
0
0
LSBMSB
7
0
6 5 4 3 2 1 0
LSBMSB
Density
00XXX: Set from the operator panel
0 1 0 0 0: Light0 1 0 0 1: Darken more0 1 0 1 0: Somewhat light and more0 1 0 1 1:0 1 1 0 0: Normal (*3)0 1 1 0 1:0 1 1 1 0: Somewhat dark0 1 1 1 1: Dark
1XXXX: Automatic (*2)
Linedrawing/photograph
0X: Specified from the operator panel
1 0: Linedrawing (*1)1 1: Photograph (*1)
A.3 Commands and Response
Appendix A-25
*2 This function is valid for image processing circuit (IPC-2D or IPC-3D) option.
When the IPC-2D or IPC-3D option is installed and these bits indicate 1xxxx, the scanner applies theDTC function, and the function of the image control register and subwindow control register are notoperated.
*3 When the control registor A#19/B#19, bit 0 is ‘0’ 8 typs density are sellectable by the control registorA#1/B#1, bit 3 to 0.And when the control registor A#19/B#19, bit 0 is ‘1’, 256 typs density are sellectable by the controlregistor A#20/#20.
Scanner Interface
Appendix A-26
(c) Control register A#2Control register B#2
X’00’ is set when the power is turned on or when a CLEAR command is issued for initialization.
*1 • When the built-in pattern is used, the density information shown in the control register A#1/B#1 is valid.
• 4 patterns (000 to 011) are valid when the built-in pattern is selected.
• When the download pattern is used, the density information shown in Control register A#1/B#1 isinvalid.
• 8 patterns (000 to 111) is valid when the download pattern is selected.
*2 Dithered or Error diffusion are selected by control register A#19/B#19.
*3 This is effective for control register A#2.
*4 Grayscale reading is effective for front-side reading with the resolution of 400dpi or less through thirdparty slot. Before the duplex reading bit 1 of control register A#2 and B#2 must be set 0.
7 6 5 4 3 2 1
0
0
LSBMSB
Jam detection when scanning (*3)0 : Executed1 : Not executed
0 : Binary reading1 : Grayscale reading (*4)
Specifies halftone0X: Set from the operator panel1 0: Not dithered1 1: Dithered or Error Diffusion (*2)
Dither pattern (*1)0 0 00 0 10 1 00 1 11 0 01 0 11 1 01 1 1
Built-in/Download0 : Built-in1 : Download
A.3 Commands and Response
Appendix A-27
(d) Control register A#3Control register B#3
X ’A6’ is set when the power is turned on or when a CLEAR command is issued for initialization.
This register is valid when IPC-2D or IPC-3D option is installed.
7 6 5 4 3 2 1 0
LSBMSB
DTCThreshold curve000 Light001 For OCR010 (Darken more and more)011100101 Dark110 Dark111 Light
Gradation00 Ordinary image10 High contrast image (Ex. Newspaper)
Smoothing mode00 For OCR01 For Image scanner1011
Filtering0 : Ball-point pen mode1 : Ordinary mode
For Image scanner
Not defined
Scanner Interface
Appendix A-28
(e) Control register A#4Control register B#4
X’20’ is set when the power is turned on or when a CLEAR command is issued for initialization.
This register is valid when the IPC-2D or IPC-3D is installed.
*1 When this bit is “0”, the output video data is black if the gradation of the video data is equal to or largerthan threshold. When this bit is “1”, the output video data is white if the gradation of the video data isequal to or larger than threshold.
7
0
6
0
5 4 3 2 1 0
LSBMSB
Binary data when the threshold equals video datato be binary-coded. (*1)
0 : Output binary data is “1” (Black)1 : Output binary data is “0” (White)
Noise removing of 2 x 2 matrix0 : OFF1 : ON
Noise removing of 3 x 3 matrix0 : OFF1 : ON
Noise removing of 4 x 4 matrix0 : OFF1 : ON
Noise removing of 5 x 5 matrix0 : OFF1 : ON
Enables the noise removing bits (bits 1 to 4 iseffective when this bit is “0”).
0 : ON1 : OFF
(Dynamic threshold mode setting)
A.3 Commands and Response
Appendix A-29
(f) Control register A#5
X’0X’ is set when the power is turned on or when a CLEAR command is issued for initialization.Default document size depends on the EEPROM setting.
7 6 5 4 3 2 1 0LSBMSB
Standard document size
0 0 0 0 A00 0 0 1 A1 Not defined0 0 1 0 A20 0 1 1 A30 1 0 0 A40 1 0 1 A50 1 1 0 Double-letter0 1 1 1 Letter1 0 0 0 B01 0 0 1 B11 0 1 0 B21 0 1 1 B31 1 0 0 B41 1 0 1 B51 1 1 0 Not defined1 1 1 1 Legal
Specifies a vertical or horizontal direction0: Portrait1: Landscape
Picking0: Not specified1: Specified
Document selection0 0: Depends on setting from the operator
panel.0 1: Depends on setting from the operator
panel or the size detector of the ADF (*1)1 0: Depends on the value of the standard
document size setting register.1 1: Depends on the value of the nonstandard
document size setting register.
Not defined
Scanner Interface
Appendix A-30
*1 For the flatbed, this setting depends on what is set by the operator panel. For the ADF, this settingdepends on the size detector of the ADF.
Control register B#5
X'00' is set when the power is turned on or when a CLEAR command is issued for initialization.
(g) Control registers A#6 to A#9
Nonstandard document size setting register
• The size must be specified in binary in units of 1/400 inch.
Depending on the resolution below, the number of bytes of the document in main scanning direction whenthe nonstandard document size is specified for scanning is as follows (without clipping setting):
7
0
6
0
5 4
0
3
0
2
0
1
0
0
0
LSB
Clipping0 : Not specified1 : Specified
B#5
Document size in sub-scanningdirection
Document size in main scanningdirection
MSB LSB
A#6 A#7 A#8 A#9
07 0 7 0 7 0 7
(A#6, A#7)400 x α ÷ 8 byte (Rounding up to the integer)
α indicates the output resolution.
A.3 Commands and Response
Appendix A-31
Depending on the resolution below, the number of rasters of the document in sub-scanning direction whenthe nonstandard document size is specified for scanning is as follows (without clipping setting):
Note:When these registers are specified, two consecutive registers (A#6 and A#7 or A#8 and A#9) must bespecified.
Control registers B#6 to B#9
X'00' must be set to this register.X'00' is set when the power is turned on or the CLEAR command is issued for initialization.
(A#8, A#9)400 x α Raster (Rounded up to the integer)
α indicates the output resolution.
(A#8) (A#9)
ex.
CNT CMD REG No. A#6 A#7
or
CNT CMD REG No. A#6 A#7 A#8 A#9
7
0
6
0
5
0
4
0
3
0
2
0
1
0
0
0
LSB
B#6 to B#9
Scanner Interface
Appendix A-32
(h) Control register A#10 to A#17Control register B#10 to B#17
Picking area (main window) setting registerThe following explanation is same to control register A/B.
Picking is specified when the scanner is required to read a special area as shown below
X1
Picking in subscanning directionPicking in main scanningdirection
X2
MSB LSB MSB LSB MSB LSB MSB LSB
Y1 Y2
#10 #11 #12 #13 #14 #15 #16
7 0
#17
7 0 7 0 7 0 7 0 7 0 7 0 7 0
Upper edge of document
∇¢
Document Surface
X2X1
Picking area
Y1
Y2
Left edge of document
For ADF reading
A
B
A.3 Commands and Response
Appendix A-33
Picking is applied when bit 5 of the control register A#5/B#5 is “1” and the address of points A and B is specifiedin the control registers A#10/B#10 to A#17/B#17.
Note:When these registers are specified, four consecutive registers (A#10/B#10 to A#13/B#13 or A#14/B#14 toA#17/B#17) must be specified.
Front side of scanner
Reference point
Documentboard
Area to bescanned
A
B
For Flatbed reading
Ex.
(A#15) (A#16) (A#17)(A#14)
CNT CMD A#10 A#11 A#12 A#13
A#14 A#15 A#16 A#17A#10 A#11 A#12 A#13
Or.
CNT CMD REG.No.
REG.No.
Scanner Interface
Appendix A-34
Operation error occurs when the values of X1 + X2 [(#10, #11) + (#12, #13)] and Y1 + Y2 [(#14, #15) +(#16, #17)] are more than the values shown below.
X1 + X2 Y1 + Y2
4864 6912
These values must be specified in binary in units of 1/400 inch.
Notes:
1. When the picking is specified, only a specified area of the document is read. However, when the ADF isused, and the document length is shorter than the specified area, read operation is stopped at the edge ofdocument.
2. When the jam detection bit (control register #2) is “1”, a setting of Y2 is ignored.
3. Number of mainscanning bytes with respect to the resolution is as follows.
4. Number of sub-scanning rasters with respect to the resolution is as follows.
(#12, #13)400 x α÷8 byte (Rounding up to the integer)
α indicates the output resolution
(#16, #17)400 x α Raster (Rounding up to the integer)
α indicates the output resolution
A.3 Commands and Response
Appendix A-35
(i) Control register A#18Control register B#18
This register reserved for future.
X’00’ is set whenever the power is turned on or when the initial state is specified by the CLEARcommand.
7
0
6
0
5
0
4
0
3
0
2
0
1
0
0
0
LSB
Scanner Interface
Appendix A-36
(j) Control register A#19
Control register B#19
*1 If the built-in patterns are valid, 0 to 2 (‘000’ to ‘010’) can be selected.
X’00’ is set whenever the power is turned on or when the initial state is specified by the CLEAR command.
7 6 5 4 3 2
0
1
0
0
LSB
Read density step specification0: Eight steps (Control register A#1/B#1 is valid.)1: 256 steps (Control register A#20/B#20
is valid.)
Halftone processing method specification0: Dithering1: Error diffusion
γ pattern number specification (*1)
0 0 0: Normal0 0 1: Soft0 1 0: Sharp0 1 11 0 01 0 11 1 01 1 1
Downloaded or built-in γ patterns0: The patterns built into the device are valid.1: The downloaded patterns are valid.
Three types (0 to 2) areeffective if the built-inpatterns are valid.Eight types (0 to 7) areeffective if downloading isenabled.
A.3 Commands and Response
Appendix A-37
(k) Control register A#20Control register B#20
*1 This register is valid if bit 0 of control register A#19/B#19 is 1.
X’00’ is set whenever the power is turned on or when the initial state is specified by the CLEARcommand.
(l) Control register A#21Control register B#21
X’00’ is set whenever the power is turned on or when the initial state is specified by the CLEARcommand.
7 6 5 4 3 2 1 0
LSB
Read density (256-step selection) (*1)
X’00’ Default (same as for X•e80•f )X’01’ Light
To ↓
X’FF’ Dark
7 6 5 4 3 2 1 0
LSB
Contrast specification
X’00’ Default (same as for X’80’ )X’01’ Lowest contrast
X’80’ Normal
X’FF’ Highest contrast
Scanner Interface
Appendix A-38
(m) Extended control register #0
#0
7 6 5 4 3
0
2
0
1
0
0
0
LSB
Back-side data transfer mode specification (*1)This function specifies how image data in the back-sidememory of this device is to be rotated.
0 0 0: Transfer mode 00 0 1: Transfer mode 1 (not supported)0 1 0: Transfer mode 2 (not supported)0 1 1: Transfer mode 3 (not supported)1XX: Not supported
Reading type specification (switching between simplex orduplex reading)
0XX: No operation1 0 0: Simplex reading1 1 X: Duplex reading
A.3 Commands and Response
Appendix A-39
*1 Data transfer mode
Mainscanning
Mainscanning
Mainscanning
C
C
C
CA
Mode 1
Mode 2
Mode 3
Mirror
Mirror
Mode 0
EXTBack-sideFront-sideTransfer mode
Mainscanning
Subscanning
B
C
D
Mainscanning
Subscanning
D
A
B
Supported
D
A
B
Not supported
D
A
B
Not supported
D
A
B
Not supported
Not supported
Not supported
Not supported
↑ ↑
↑
Subscanning
↑
Sub-scanning ↑
Sub-scanning
Scanner Interface
Appendix A-40
(n) Extended control register #1
Note: X'00' must be set to this register.
X'00' is set when the power is turned on or CLEAR command is issued for initialization.
(o) Extended control register #2
This register specifys the transfer rate of binary reading for front-side and back-side image data.X'00' is set when the power is turned on or CLEAR command is issued for initialization.
*1 : When the output resolution is 400 dpi or less, transfer rate is 800 ns.When the output resolution is 401 dpi or more, transfer rate is 400 ns.
*2 : This is available only for third party slot. It is necessary to check the operation with the Host computer.
#1
7
0
6
0
5
0
4
0
3
0
2
0
1
0
0
0
LSB
#2
7 6 5 4 3
0
2
0
1
0
0
0
LSB
Front-side data transfer rate0XXX: Depending on the resolution (*1)1 0 0 0 : Undefined1 0 0 1 : Undefined1 0 1 0 : Undefined1 0 1 1 : Undefined1 1 0 0 : Undefined1 1 0 1 : Undefined1 1 1 0 : Undefined1 1 1 1 : Undefined
Back-side data transfer rate0XXX: Two fold speed: 400 ns1 0 0 0: Undefined1 0 0 1: 800 ns1 0 1 0: 400 ns1 0 1 1: 200 ns *21 1 0 0: Undefined1 1 0 1: Undefined1 1 1 0: Undefined1 1 1 1: Undefined
Reserved
A.3 Commands and Response
Appendix A-41
(p) Extended control register #3
X'00' must be set to this register.
X'00' is set when the power is turned on or CLEAR command is issued for initialization.
A.3.3.3 IMAGE CONTROL commandThis command sets the scanner to the operation mode of the image processing circuit.
Byte 1
CNT
Byte 2
CMD
Byte 3
TEXT
Byte 4
or later
X’0x’ X’5A’Image controlregister startnumber.
Image controlregister
Note:
If this command is sent to the scanner without image processing option (IPC-2D or IPC-3D), the scannersends “Operation error” as response.
#3
7
0
6
0
5
0
4
0
3
0
2
0
1
0
0
0
LSB
Third byte
7
0
6 5 4 3 2 1 0
LSB
Image control register start number.
Image control register selection0: Selects image control register A (front side)1: Selects image control register B (back side)
Scanner Interface
Appendix A-42
Image control register
When the image processing option (IPC-2D or IPC-3D) is connected, the following image processing canbe executed. This register sets the image processing mode.
- Image area automatic separation function (simultaneous reading of characters and photographs)
- Inversion function (black/white conversion)
- Mirror image output function (right/left conversion)
- Image emphasis, outline extraction function
- Overlay function
- Symplified dynamic threshold
- Zooming function ranging from 25% to 400% in 1% increments. (*1)(Max. 800 dpi)
- Function to change the reading mode of a section in the main window (subwindow function) (*2)
The method of image processing can be separately specified for the main window and subwindow unlessotherwise specified.
*1 Same zooming rate is applied both front-side and back-side reading.
*2 This function is executed by the subwindow control command described later.
(a) Image control register A#0Image control register B#0
X’00’ is set when the power is turned on or the initial state is specified by the CLEAR command.This register must be sent before setting the image control registers #1 to #8.(Same to image control register A/B)
7
0
6
0
5
0
4
0
3
0
2
0
1
0
0
0
LSB
A.3 Commands and Response
Appendix A-43
(b) Image control register A#1Image control register B#1
Note:Image control registers A#1/B#1 to A#3/B#3 must be sent in one sequence (Same to image controlregister A/B). One of automatic separation, image emphasis, outline extract, overlay can be specified.
*1 The subwindow control register is valid when the subwindow is valid.
*2 Halftone specification (control register A#2/B#2) is invalid in the automatic separation mode.However halftone processing (dither or error diffusion) for photo area follows control registerA#19/B#19, and the dither pattern follows control register A#2/B#2.
*3 When automatic separation specification is based on operator panel, the bit 7 of image controlregister A#2/B#2 and the bit 3 of image control register A#3/B#3 must be set to ‘0’.
7
0
6 5 4 3 2 1 0
0
LSB
Automatic separation specification (*2)0X: Based on the operator panel specification
(*3)1 0: Automatic separation is not done.1 1: Automatic separation
Conversion mode specification0XX: No operation1 0 0: Not provided with white/black
conversion.Not provided with right/left conversion.
1 0 1: Not provided with white/blackconversion.Provided with right/left conversion.
1 1 0: Provided with white/black conversion.Not provided with right/left conversion.
1 1 1: Provided with white/black conversion.Provided with right/left conversion.
Subwindow specification (*1)0 : Subwindow invalid1 : Subwindow valid
Scanner Interface
Appendix A-44
X’00’ is set when the power is turned on or when the initial state is specified by the CLEAR command.
(c) Image control register A#2Image control register B#2
X’00’ is set when the power is turned on or when the initial state is specified by the CLEAR command.
7 6 5 4 3 2 1 0
LSB
Sharpness control (image emphasis)
0 0 0: Normal0 0 1: Emphasis, large sharp0 1 0: Emphasis, middle0 1 1: Emphasis, small1XX: Smoothing soft
Outline extraction control
0 0: Outline extract0 1: Not defined1 0: Not defined1 1: Not defined
Sharpness, outline extraction specification
0XX: No operation
1 0 0: Not operation1 0 1: Enables sharpness control1 1 0: Enables outline extraction1 1 1: Not defined
A.3 Commands and Response
Appendix A-45
(d) Image control register A#3Image control register B#3
*1 This scanner has 6 patterns as built-in overlay pattern. (“000” to “101”)8 patterns can be registered as down load pattern. (“000” to “111”)The bits 4 to 7 is valid when the overlay specification is valid.
*2 When dither or Error Diffusion processing is valid by the control register #2 or operator panel, overlay isnot performed even if it is valid by this register.
X’00’ is set when the power is turned on or when the initial state is specified by the CLEAR command.
7 6 5 4 3 2 1
0
0
0
LSB
Overlay specification (*2)
0X: No operation
1 0: Not overlay1 1: Overlay
Overlay mode number specification (*1)
0 0 00 0 10 1 00 1 11 0 01 0 11 1 01 1 1
Download/built-in overlay pattern
0: Built-in pattern valid1: Download pattern valid
Scanner Interface
Appendix A-46
Built-in overlay pattern
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
FF FF FF FF FF FF FF FF
FF FF FF FF FF FF FF FF
FF FF FF FF FF FF FF FF
FF FF FF FF FF FF FF FF
00 00 00 00 FF FF FF FF
00 00 00 00 FF FF FF FF
00 00 00 00 FF FF FF FF
00 00 00 00 FF FF FF FF
00 00 00 00 FF FF FF FF
00 00 00 00 FF FF FF FF
00 00 00 00 FF FF FF FF
00 00 00 00 FF FF FF FF
FF FF FF 00 00 00 00 FF
FF FF FF FF 00 00 00 00
00 FF FF FF FF 00 00 00
00 00 FF FF FF FF 00 00
00 00 00 FF FF FF FF 00
00 00 00 00 FF FF FF FF
FF 00 00 00 00 FF FF FF
FF FF 00 00 00 00 FF FF
No. 0Horizontal lines
No. 1Vertical lines
No. 2Angled pattern
A.3 Commands and Response
Appendix A-47
FF FF FF FF 00 00 00 00
FF FF FF FF 00 00 00 00
FF FF FF FF 00 00 00 00
FF FF FF FF 00 00 00 00
00 00 00 00 FF FF FF FF
00 00 00 00 FF FF FF FF
00 00 00 00 FF FF FF FF
00 00 00 00 FF FF FF FF
FF FF FF FF FF FF FF FF
00 FF FF FF FF FF FF FF
00 00 FF FF FF FF FF FF
00 00 00 FF FF FF FF FF
00 00 00 00 FF FF FF FF
00 00 00 00 00 FF FF FF
00 00 00 00 00 00 FF FF
00 00 00 00 00 00 00 FF
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
00 00 FF FF FF FF 00 00
00 00 FF FF FF FF 00 00
00 00 FF FF FF FF 00 00
00 00 FF FF FF FF 00 00
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
No. 3Dots pattern
No. 4Triangle pattern
No. 5Lattice pattern
Scanner Interface
Appendix A-48
(e) Image control register A#4Image control register B#4
8 parameter (000 to 111) can be specified as variance rate.
X’00’ is set when the power is turned on or when the initial state is specified by the CLEAR command.
7
0
6 5 4 3 2 1
0
0
0
LSB
Simplified dynamic threshold specification
0X: No operation
1 0: Simplified DTC invalid1 1: Simplified DTC valid
Simplified DTC mode number specification
0 0 0 Variance rate Default0 0 1 of threshold level Small0 1 00 1 11 0 01 0 11 1 01 1 1 Large
A.3 Commands and Response
Appendix A-49
(f) Image control register A#5 and A#6
*1 Registers A#5 and A#6 must be sent consecutively. Registers A#5, A#6, A#7, and A#8 must besent consecutively for different vertical/horizontal magnification.
*2 When both sides of documents are scanned and magnified in the sub-scanning direction, thefollowing limitations exist:
1) B x (C/100) < 800
When a resolution exceeding 800 dpi is specified for scanning, an operation error occurs(800 dpi is the maximum allowable resolution).
*3 When the vertical/horizontal zooming specification is set to “0”, the horizontal and verticalmagnification is indicated. When this specification is set to “1”, vertical magnification isspecified at bit 0 of the register #5 and at all bits of the register #6.
X’0864’ is set when the power is turned on or when the initial status is specified.
ExampleHow to calculate the output resolution :
• Control register #1 is X’0B’ (200 dpi)• Image control register #5 and #6 are X’0819’ (25%)
Output resolution = 200 dpi x 0.25 = 50 dpi
(*1)
7
0
6
0
5
0
4
0
3
1
2
0
1 0
(LSB)
7 6 5 4 3 2 1 0
(LSB)
Magnification/vertical magnification (when eachdirection zooming is valid)
000011001 25% to to110010000 400% (*2)
Vertical/horizontal zooming specification (*3)
0: Same magnification for both direction1: Different magnification for each direction
A#5 A#6
Scanner Interface
Appendix A-50
(g) Image control registers A#7 and A#8
*1 Magnification is valid only when the horizontal/vertical zooming specification (bit 1 of the registerA#5) is set to “1”.
*2 Document magnification has the following limitations:
1) B x (C/100) < 800
If more of 800 dpi is specified for a read operation, an operation error occurs.
This expression is rounded up to the integer:
X’0000’ is set when the power is turned on or when the initial state is specified.
NOTICE: Image control register B#5 to B#8 must be set X’08000000’.
(*1)
7
0
6
0
5
0
3
0
2
0
1
0
0
(LSB)
7 6 5 4 3 2 0
(LSB)
Horizontal magnification (when each directionzooming is valid.)
000011001 25% to to110010000 400% (*2)
A#7 A#8
14
0
A.3 Commands and Response
Appendix A-51
A.3.3.4 SUBWINDOW CONTROL command
This command sets the scanner to the operation mode of subwindow.
Byte 1
CNT
Byte 2
CMD
Byte 3
TEXT
Byte 4
or later
X’0x’ X’5C’Subwindow controlregister start number
Subwindow controlregister
This command specifies the subwindow attribute information. The third byte specifies thesubwindow control register start number. These registers are valid when bit 6 of the image controlregister A#1/B#1 is set to “1” (subwindow is valid).
X’00’ is set when the power is turned on or when the initial state is specified by the CLEARcommand.
Relationship between subwindow control registers A#0/B#0, A#1/B#1 and A#2/B#2 throughA#18/B#18
The subwindow control register #0 used to select the subwindow number (0 to 3). The subwindowcontrol register #1 specifies which subwindow (0 to 3) is enabled at reading.
Third byte
7
0
6 5 4 3 2 1 0
LSB
Subwindow control register start number.
Subwindow control register selection0: Select SUBWINDOW control register A (front)1: Select SUBWINDOW control register B (back)
(Right pointer)
Subwindow control register A#0/B#0
(Subwindow 0 to 3 enable/disable)
Subwindow control register A#1/B#1
(Subwindow 0 information)Subwindow control register A#2/B#2 to A#18/B#18
(Subwindow 1 information)Subwindow control register A#2/B#2 to A#18/B#18
(Subwindow 2 information)Subwindow control register A#2/B#2 to A#18/B#18
(Subwindow 3 information)Subwindow control register A#2/B#2 to A#18/B#18
Scanner Interface
Appendix A-52
Example of subwindow setting
ID
Photograph
1 2
297 mm
3
4
7
8
420mm
5 6
Subwindow 0• Simplified DTC mode
Subwindow 1• Halftone mode
(dither No. 0, density: normal)
Main window• Fixed threshold
(density: normal)
Subwindow 01 60 mm (X’03B1’)2 100 mm (X’0627’)3 50 mm (X’0313’)4 40 mm (X’0276’)
Subwindow 15 50 mm (X’0313’)6 90 mm (X’0589’)7 240 mm (X’0EC4’)8 100 mm (X’0627’)
Value in parentheses indicateshexadecimal indication of pixels at400 dpi reading.
5 6
A.3 Commands and Response
Appendix A-53
The IMAGE MODE SENSE or RETURN SENSE command can be issued at any timing inthis sequence.
09 58 00 A8 6C 08 A6 20 ~
(Host) (Scanner)
04 4E 98 0283~
CONTROL command(FB mode, A3 size, 400 dpi etc.)
SUBWINDOW CONTROL command(parameter setting of subwindow 0)
13 5C 00 00 00 03 B1 06 ~
27~ 03 13 02 76 04 00 00 ~
00~ 00 24
SUBWINDOW CONTROL command(parameter setting of subwindow 1)
13 5C 00 01 00 03 13 05 ~
89~ 0E C4 06 27 04 04 00 ~
00~ 00 00
SUBWINDOW CONTROL command(enabling subwindow 0 and 1)
04 5C 01 03
START command
02 53
READ command
02 54
04 4E 98 02
04 4E 98 02
04 4E 98 02
04 4E 98 02
04 46 98 02
Read complete
Normal status
Normal status
Normal status
Normal status
Normal status
Scanner Interface
Appendix A-54
Subwindow control register A#0Subwindow control register B#0
Note:
This register must be set before setting the subwindow control registers A#2/B#2 to A#18/B#18).
X’00’ is set when the power is turned on or when the initial state is specified by the CLEAR command.
7
0
6
0
5
0
4
0
3
0
2
0
1 0
LSB
Subwindow number specification
00: Subwindow 001: Subwindow 110: Subwindow 211: Subwindow 3
A.3 Commands and Response
Appendix A-55
Subwindow control register A#1Subwindow control register B#1
X’00’ is set when the power is turned on or when the initial state is specified by the CLEAR command.
7
0
6
0
5
0
4
0
3 2 1
LSB
Subwindow specification
Subwindow 0
0: Invalid1: Valid
Subwindow 1
0: Invalid1: Valid
Subwindow 2
0: Invalid1: Valid
Subwindow 30: Invalid1: Valid
0
Scanner Interface
Appendix A-56
Subwindow control register A#2 to A#9Subwindow control register B#2 to B#9
Subwindow area specification register Aor B
Value is specified in binary in units of 1/400 inch.
Note: When specifying this register, send four consecutive bytes.
Y2X1
Subscan directionMain scan direction
X2
MSB LSB MSB LSB MSB LSB MSB LSB
Y1
7 0
#2 #3 #4 #5 #6 #7 #8 #9
7 0 7 0 7 0 7 0 7 0 7 0 7 0
Background
X2X1
Subwindow
Y1
Y2
A.3 Commands and Response
Appendix A-57
Example:
Notes:
1. Each subwindow must not exist in same line (main scanning direction).
(A#7) (A#8) (A#9)(A#6)
CNT CMD REG.No. A#2 A#3 A#4 A#5
A#6 A#7 A#8 A#9A#2 A#3 A#4 A#5
Otherwise
CNT CMD REG.No.
Sub window0
Main window
Sub window1
Scanner Interface
Appendix A-58
2. If the area of the subwindow exceeds the main window area, only the subwindow area included in themain window is valid.
Sub window 0
Sub window 1
Invalid subwindow area
Main window
Sub window 3
A.3 Commands and Response
Appendix A-59
Subwindow control register A#10Subwindow control register B#10
*1 Valid if bit 0 of subwindow control register A#16/B#16 is 0 (eight-step selection). Otherwise, thedensity specification in subwindow control register A#17/B#17 is valid (256-step selection).
X’04’ is set when the power is turned on or when the initial state is specified by the CLEAR command.
7
0
6
0
5
0
4
0
3
0
2 1 0
LSB
000: Light Darken more001 and more010: Somewhat light011100: Normal101110: Somewhat dark111: Dark
Density (*1)
Scanner Interface
Appendix A-60
Subwindow control register A#11Subwindow control register B#11
*1 When download pattern is specified, the density information (Subwindow control register A#10/B#10or A#17/B#17) is ignored.
*2 Four pattern can be specified when built-in pattern is selected.Eight pattern is available for download pattern.
*3 Select dithering or error diffusion as the halftone processing type using subwindow control registerA#16/B#16. If dithering is selected, bits 4 to 7 are valid.
X’00’ is set when the power is turned on or the initial state is specified by the CLEAR command.
7 6 5 4 3
0
2 1
0
0
0
LSB
Halftone
0: Not dithered1: Dithered or Error Diffusion (*3)
Dither pattern specification (*2)
000001010011100101110111
Download/Bulit-in
0: Built-in pattern1: Download pattern (*1)
A.3 Commands and Response
Appendix A-61
Subwindow control register A#12Subwindow control register B#12
*1 Subwindow control registers A#12/B#12 to A#14/B#14 must be sent in one sequence.One of automatic separation, image emphasis, outline extract, overlay can be specified.
*2 When image area separation is specified, the density level for line drawing area follows thesubwindow control register A#10/B#10 or A#17/B#17, and the dither pattern for photo area followsthe subwindow control register A#11/B#11, and halftone processing for photo area followssubwindow control register A#16/B#16.
X’00’ is set when the power is turned on or when the initial state is specified by the CLEAR command.
7
0
6
0
5
0
4 3
0
2
0
1 0
0
LSB
Automatic separation specification (*2)
0: Not specified1: Specified
Black/white conversion mode specification
0: Normal1: Reverse
(*1)
Scanner Interface
Appendix A-62
Subwindow control register A#13Subwindow control register B#13
X’00’ is set when the power is turned on or when the initial state is specified by the CLEAR command.
7
0
6 5 4
0
3
0
2 1 0
LSB
Image emphasis mode specification
0 0 0: Normal0 0 1: Emphasis, large sharp0 1 0: Emphasis, middle0 1 1: Emphasis, small1XX: Smoothing soft
Image emphasis, outline extraction specification
0 0: No operation 0 1: Enable image emphasis 1 0: Enable outline extraction 1 1: Not defined
A.3 Commands and Response
Appendix A-63
Subwindow control register A#14Subwindow control register B#14
*1 When built-in pattern is specified, six pattern (“000” to “101”) can be usable.When download pattern is specified, eight pattern can be usable.
*2 When halftone is specified by subwindow control register A#11/B#11, overlay never performedeven if it is specified in this register.
X’00’ is set when the power is turned on or when the initial state is specified by the CLEAR command.
7 6 5 4 3
0
2 1
0
0
0
LSB
Overlay specification (*2)
0: Not specified1: Specified
Overlay pattern specification (*1)
000001010011100101110111
Download/Built-in specification
0: Built-in pattern1: Download pattern
Scanner Interface
Appendix A-64
Subwindow control register A#15Subwindow control register B#15
*1 When the simplified DTC is specified in mainwindow, the variance rate of mainwindow (imagecontrol register A#4/B#4) is valid regardless of the value here.
X’00’ is set when the power is turned on or when the initial state is specified by the CLEAR command.
7
0
6 5 4 3
0
2 1
0
0
0
LSB
Simplified DTC specification
0: No operation1: Operation
Variance rate of threshold level (*1)
000 Default001 Small010011100101:110111 Large
A.3 Commands and Response
Appendix A-65
Subwindow control register A#16Subwindow control register B#16
*1 If the built-in patterns are valid, number 0 to 2 (three types) can be selected.
X’00’ is set whenever the power is turned on or when the initial state is specified by the CLEARcommand.
7 6 5 4 3 2
0
1
0
0
LSB
Read density step specification0: Eight steps (Subwindow control A#10/B#10
register is valid.)1: 256 steps (Subwindow control A#17/B#17
register is valid.)
Halftone processing method specification
0: Dithering1: Error diffusion
γ pattern number specification (*1)
0 0 0: Normal0 0 1: Soft0 1 0: Sharp0 1 1:1 0 0 Three types (0 to 2) if1 0 1 the built-in patterns are valid.1 1 0 Eight types (0 to 7) if1 1 1 downloading is enabled.
Downloaded or built-in γ patterns0: The patterns built into the device are valid.1: The downloaded patterns are valid.
Subwindow attribute
Scanner Interface
Appendix A-66
Subwindow control register A#17Subwindow control register B#17
*1 This register is valid if bit 0 of subwindow control register A#16/B#16 is 1.
X’00’ is set whenever the power is turned on or when the initial state is specified by the CLEARcommand.
Subwindow control register A#18Subwindow control register B#18
X’00’ is set whenever the power is turned on or when the initial state is specified by the CLEARcommand.
7 6 5 4 3 2 1 0
LSB
Read density (256-step selection) (*1)
X’00’ Default (same as for X’80’ )X’01’ Light
To ↓
X’FF’ Dark
Subwindow attribute
7 6 5 4 3 2 1 0
LSB
Contrast specification
X’00’ Default (same as for X’80’)X’01’ Lowest contrast
X’80’ Normal
X’FF’ Highest contrast
Subwindow attribute
A.3 Commands and Response
Appendix A-67
A.3.3.5 START command
When the scanner receives this command, the scanner reports the size of document being read.
Byte 1
CNT
Byte 2
CMD
Byte 3 andlater
X’02’ X’53’ -
A.3.3.6 READ command
When the scanner receives this command, the scanner starts reading based on the previously setoperation mode.
Issuing the response other than Read Complete during read operation causes error.
Byte 1
CNT
Byte 2
CMD
Byte 3 andlater
X’02’ X’54’ -
A.3.3.7 SENSE command
When the scanner receives this command, the scanner reports the scanner status.
The Sense command can be issued at any time if another command does not require the responsefrom the scanner.
Byte 1
CNT
Byte 2
CMD
Byte 3 andlater
X’02’ X’41’ -
A.3.3.8 RETURN SENSE command
By this command, the scanner reports that the carrier unit has come back to the home position.
Byte 1
CNT
Byte 2
CMD
Byte 3 andlater
X’02’ X’42’ -
Scanner Interface
Appendix A-68
A.3.3.9 IMAGE MODE SENSE command
This command is valid for the scanner with the image processing circuit. When the scannerreceives this command, the scanner reports the image processing mode of the mainwindow and thenumber of pixels (Unit: Byte) per line in the X-direction.
By specification byte 3 of this command, the front or back-side image status can be selected.
Byte 1
CNT
Byte 2
CMDByte 3 TEXT
X’03’ X’43’X’00’: Front side image status is required.
X’40’ Back side image status is required.
A.3.3.10 SEND DITHER 1 command
This command is valid for the scanner with the image processing circuit. By this command,download patterns of dither or overlay pattern can be registered.
Byte 1
CNT
Byte 2
CMDByte 3TEXT
Byte 4 or later
X’43’ X’46’Dither or overlay patternnumber
Pattern data to beregistered
A.3 Commands and Response
Appendix A-69
Details for Byte 3 (Dither or Overlay patterns)
*1 Up to 8 types, from No. 0 to No. 7, can be registered for dither pattern or overlay pattern. When thepower to the scanner is turned off or when the scanner is reset, registration must be done again.When a pattern is built in, registration need not be done again.
Pattern data format
1 byte data corresponds to data for 1 dot.
1) For dither pattern
X’00’ to X’FF’ f should be sent as dither pattern.
2) For overlay pattern
X’00’ or X’FF’ should be sentWhen the data is X’FF’, the data of the dot is changed to white.When the data is X’00’, the data of the dot is not changed.
7 6
0
5
0
4
0
3
0
2 1 0
LSB
Dither and overlay pattern numbers (*1)
0 0 00 0 10 1 00 1 11 0 01 0 11 1 01 1 1 : Eight types
Dither and overlay specifications
0: Dither1: Overlay
Scanner Interface
Appendix A-70
Transfer the dither and overlay patterns in the order shown below.
Download is optional.
A.3.3.11 SEND DITHER 2 command
Byte 1 Byte 2 Byte 3 Byte 4, 5 Byte 6 Byte 7 or later
05 47Reserved
(00)Count A
(*1)Dithering γ, and overlaypattern number
Dithering γ, and overlaypattern(Count A-1) byte
- For the SEND DITHER1 command, the dithered matrix size is always 8 x 8.
- For the SEND DITHER2 command, the dithered matrix size is variable (n x n). (n < 32) Data canalso be downloaded.
*1 Count A (bytes 4 and 5) contains the number of data units from byte 6 or a subsequent byte. (256bytes or more data can be transferred.)
Example: SEND DITHER2 command
(8 x 8 matrix)
1 2 3 4 5 6 7 8
9 10 11 12 13 14 15 16
17 18 19 20 21 22 23 24
41 42 43 44 45 46 47 48
49 50 51 52 53 54 55 56
57 58 59 60 61 62 63 64
1
05
2
47
3
00
4
00
5
0A
6
01
7
11
8
22
9
33
A
44
B
55
C
66
D
77
E
88
F
99
Ten bytes
Number data units from byte 6 to byte F
A.3 Commands and Response
Appendix A-71
Byte 6: Dithering, γ, or overlay pattern number, and the corresponding pattern
*1 Eight dithering, eight γ, and eight overlay patterns (0 to 7) can be registered. If the scanner is turnedoff, or reset, they must be registered again. If the patterns built into the scanner are used, they neednot be registered.
*2 Dithering and overlay patterns must be transferred in the following order:
Dithering, γ, or overlay pattern (*2)
7 6 5
0
4
0
3
0
2 1 0
LSB
Dithering, γ, or overlay pattern (*1)0 0 00 0 10 1 00 1 11 0 01 0 11 1 01 1 1 Eight types
Dithering or overlay specification
0 0 Dithering0 1 γ1 0 Overlay1 1 Undefined
Byte 6 Byte 7 or later
8
(n x n matrix)
1 2 3 4 5 6 7
1
2
e
r
t
•
→1
→2
• →3
→ →r
→
→ END
→t
Scanner Interface
Appendix A-72
The γ patterns must be transferred in the following order and format (SEND DITHER2 is used):
Note:
For overlay pattern matrix data, X’FF’ or X’00’ must be set.
X’FF’: Forces the corresponding pixel to be white.X’00’: Binarizes the corresponding pixel based on the specified slice (density). For a floating
slice, it is binarized based on the normal density.
(Black) FF
Conversiondensity
0000
FF (Black)
1
00
2
01
3
02
4
03
5
04
6
05
7
06
8
07
9
08
10
09
11
0A
12
0B
251
FA
252
FB
253
FC
254
FD
255
FE
256
FF
Conversion density corresponding to density X
X →
Y →
Transferorder →
256 bytes
X
Y
Scanner read density
FF
For an 8 x 8 matrix
00 00 00 00 FF
00 00 00
00 00 00 00
00 00 00 00
00 00 00 00
00 00 00 00
Example:
00
FF FF FF
FF FF FF FF
FF FF FF FF
FF FF FF
FFFF FF FF
FFFF FF FF
A.3 Commands and Response
Appendix A-73
A.3.3.12 INQUIRY command
When the scanner receives this command, the scanner reports the device function information.
Byte 1
CNT
Byte 2
CMD
Byte 3 andlater
X’02’ X’40’ -
A.3.3.13 INQUIRY2 command
When the scanner receives this command, the scanner reports the additional device functioninformation.
Byte 1
CNT
Byte 2
CMD
Byte 3 andlater
X’02’ X’4A’ -
Scanner Interface
Appendix A-74
A.3.4 Response
Table A.3.3 lists the response for the commands sent from the scanner to the host computer.
Table A.3.3 Response
ResponseResponse
codeDetails
Ready 52 Completion of scanner initialization
Normal status 4E Response to command reception
Image status 4CReporting the image processing mode foreach main window and the number of bytesper line in the X-axis direction
Unit status 4A Reporting the device information
Unit status2 4B Reporting the additional device information
Read complete 46 Completion of READ command reception
Operation error 55 Occurrence of error related to operationspecification program
Temporary error 54 Occurrence of Temporary error
Equipment error 50 Occurrence of device fault
A.3 Commands and Response
Appendix A-75
Byte
Response1 2 3 4 5 and later
Ready 02 52
06 4E Deviceinformation I
Deviceinformation
II-i
Deviceinformation
II-ii
Deviceinformation
II-iiiNormalstatus *
04(Default)
4E Deviceinformation I
Deviceinformation
II-i
Image status 0C 4C Device information III to device information XII (10 bytes)
0646
Deviceinformation I
Deviceinformation
II-i
Deviceinformation
II-ii
Deviceinformation
II-iiiReadcomplete *
04(Default)
46Device
information I
Deviceinformation
II-i
Operationerror 03 55
Detailed errorinformation I
Temporaryerror
03 54 Detailed errorinformation II
Equipmenterror
03 50 Detailed errorinformation III
Unit status(M3093DE)
1E 4A Device function information I to VII
Unit status 2(M3093DE)
1E 4B
* 04 byte or 06 byte is specified by EEPROM. Default is 04 byte.
Scanner Interface
Appendix A-76
A.3.4.1 ReadyThis response indicates that the scanner initialization is complete.
Byte 1
CNT
Byte 2
CMD
Byte 3 andlater
X’02’ X’52’ -
A.3.4.2 Normal status
This response is for command reception and includes device information. Device informationindicates the status of scanner operation.
Byte 1
CNT
Byte 2
CMDByte 3 Byte 4
X’04’ X’4E’Device
Information IDevice
Information II
Byte 1
CNT
Byte 2 Byte 3 Byte 4 to 6
X’06’ X’4E’ DeviceInformation I
DeviceInformation II-i to
II-iii
A.3 Commands and Response
Appendix A-77
Device information I
7 6 5 4 3 2 1 0
LSB
Resolution
0 0 0 400 dpi0 0 1 300 dpi0 1 0 240 dpi0 1 1 200 dpi1 0 0 100 dpi1 0 1 150 dpi1 1 0 Not defined1 1 1 600 dpi
Document size
0XXXX The nonstandard document
1 0 0 0 0 A01 0 0 0 1 A1 Not defined1 0 0 1 0 A21 0 0 1 1 A31 0 1 0 0 A41 0 1 0 1 A51 0 1 1 0 Double-letter1 0 1 1 1 Letter1 1 0 0 0 B01 1 0 0 1 B11 1 0 1 0 B2 Not defined1 1 0 1 1 B31 1 1 0 0 B41 1 1 0 1 B51 1 1 1 0 Not defined1 1 1 1 1 Legal
MSB
Scanner Interface
Appendix A-78
Device information II-i
*1 This bit is valid when it is specified in normal status response for the START command.
7 6 5 4 3 2 1 0
Dynamic threshold circuit option0 : Not provided1 : Provided
ADF0 : Not provided1 : Provided
Flatbed/ADF0 : Flatbed state1 : ADF
Vertical/horizontal0 : Portrait1 : Landscape
Half-tone0 : OFF1 : ON
ADF cover0 : Close1 : Open
Job separate sheet detection (*1)0 : Nonjob separate sheet1 : Job separate sheet
Paper setting0 : No paper in paper chute1 : Paper in paper chute
LSBMSB
A.3 Commands and Response
Appendix A-79
Device information II-ii
*1 This bit is available only in the case of "Normal status" to START command or "Read complete" toREAD command. (What indicates which data is transferred, front-side data or back-side data.)
7 6 5
0
4 3
0
2
0
1
0
0
Halftone (Back-side)0 : OFF1 : ON
Front-side/back-side reading (*1)0 : Front-side reading1 : Back-side reading
Reading status00 : Simplex (front-side) reading1X : Duplex reading
LSB
Scanner Interface
Appendix A-80
Device information II-iii
*2 This bit is same as the bit in Device information II-i.
7
0
6
0
5 4 3
0
2
0
1 0
Dynamic threshold (Front-side) (*2)0 : OFF1 : ON
Error diffusion (Front-side)0 : OFF1 : ON
Dynamic threshold (Back-side)0 : OFF1 : ON
Error diffusion (Back-side)0 : OFF1: ON
LSB
A.3 Commands and Response
Appendix A-81
A.3.4.3 Image status
This response reports the status of the image processing function.
Byte 1
CNT
Byte 2
RPS
Byte 3 or later
X’0C’ X’4C’ Device Information ‡V to XII
Device information III
7 6 5 4 3 2 1 0
LSB
Subwindow specified/not specified 0: Not specified
1: Specified
Simplified dynamic thresholdspecified/not specified 0: Not specified
1: Specified
Overlay specified/notspecified 0: Not specified
1: Specified
Sharpness/outline extractspecified/not specified 0: Not specified
1: Specified
Black/white specified/not 0: Not specifiedspecified 1: Specified
Mirror image 0: Not specified1: Specified
Image area automaticseparation specified/notspecified 0: Not specified
1: Specified
Image processing option0: Not provided1: Provided
Scanner Interface
Appendix A-82
Device information IV
Device information V and VI
Device information VII and VIII
VIIVIII
7
0
6
0
5
0
4
0
3
0
2
0
1
0
0
LSB
7 6 5 4 3 2 1 0
LSB
Horizontal magnification
000011001to
110010000
25%to
400%
7 6 5 4 3 2 1 0
LSB
Reserved
VVI
7
0
6
0
5
0
4
0
3
0
2
0
1
0
0
LSB
7 6 5 4 3 2 1 0
LSB
Vertical magnification
000011001to
110010000
25%to
400%
A.3 Commands and Response
Appendix A-83
Device information IX and X
Device information XI and XII
Note:
X’0000’ is sent when ADF mode is selected.
IXX
7
0
6
0
5
0
4
0
3
0
2
0
1 0
LSB
7 6 5 4 3 2 1 0
LSB
Number of bytes per line in the X-axis direction
XIXII
7
0
6 5 4 3 2 1 0
LSB
7 6 5 4 3 2 1 0
LSB
Number of lines in the Y-axisdirection
Scanner Interface
Appendix A-84
A.3.4.4 Unit status
Byte 1
CNT
Byte 2
RPSByte 3 or later
X’1E’ X’4A’ Device function information I to VII
(1) Device function information I
Information on the scanner device type is posted.
The scanner returns X’07’
7
0
6
0
5
0
4
0
3
0
2 1
1
0
1
LSB
Flatbed0 : Not provided1 : Provided
ADF0 : Not provided1 : Provided
Simplex or duplex scanner0 : Device for simplex reading1 : Device for duplex reading
A.3 Commands and Response
Appendix A-85
(2) Device function information II
The read density supported by the scanner is posted.
The scanner returns X'2F'.
The scanner returns X'06'.
II-1
7
0
6
0
5
1
4
0
3
1
2
1
1
1
0
1
LSB
200 dpi
240 dpi
300 dpi
400 dpi
480 dpi
600 dpi
960 dpi
II-2
7
0
6
0
5
0
4
0
3
0
2
1
1
1
0
0
LSB
100 dpi
150 dpi
0: Not provided1: Provided
Scanner Interface
Appendix A-86
(3) Device function information III
The paper size supported by the scanner is posted.
The scanner returns X'F8'.
The scanner returns X'F0'.
III-1
7
1
6
0
5
1
4
1
3
0
2
0
1
0
0
0
LSB
A0A1
A2A3
A4A5
DLLT
0: Not provided1: Provided
III-2
7
1
6
1
5
1
4
0
3
0
2
0
1
0
0
0
LSB
B0B1
B2B3
B4B5
LGNonstandard size
0: Not provided1: Provided
[Reserved]
III-3
7
0
6
0
5
0
4
0
3
0
2
0
1
0
0
0
LSB
A.3 Commands and Response
Appendix A-87
(4) Device function information IV
The image processing function for the front-side data supported by the scanner is posted.
IV-1
7 6 5 4 3 2 1 0
LSB
Simplified dynamic thresholdDithering
Error diffusionAutomatic separation
Gray scaleMirror image
EnlargedReduced
0: Not provided1: Provided
IV-2
7 6 5 4 3 2 1 0
LSB
Inversion
Outline extraction
Image emphasisSmoothing mode
Filtering
Noise removing
γ curving
Overlay
0: Not provided1: Provided
IV-3
7 6 5 4 3 2 1 0
LSB
ClippingUndefined
0: Not specified1: Specified
Scanner Interface
Appendix A-88
(5) Device function information V
The image processing function for the back-side data supported by the scanner is posted.
V-1
7 6 5 4 3 2 1 0
LSB
Simplified dynamic thresholdDithering
Error diffusionAutomatic separation
Gray scaleMirror image
EnlargedReduced
0: Not provided1: Provided
V-2
7 6 5 4 3 2 1 0
LSB
Inversion
Outline extraction
Image emphasis
Smoothing mode
Filtering
Noise removing
γ curving
Overlay
0: Not provided1: Provided
V-3
7 6 5 4 3 2 1 0
LSB
ClippingUndefined
0: Not specified1: Specified
A.3 Commands and Response
Appendix A-89
(6) Device function information VI
Information on the scanner options is posted.
The scanner returns X'00'.
The scanner returns X'00'.
(7) Device function information VII
VI-1
7 6 5 4 3 2 1 0
LSB
Endorser
Barcode recognition
MH compression
MR compressionMMR compression
Undefined
0: Not provided1: Provided
VI-2
7
0
6
0
5
0
4
0
3
0
2
0
1
0
0
0
LSB
[Reserved]
VII-1
7 6 5 4 3 2 1 0
LSB
Front-side image memory capacityX’XX’X 0.5 megabytes
Scanner Interface
Appendix A-90
Memory size of the M3093DE memory option is shown in this byte.
A.3.4.5 Unit status 2
Byte 1
CNT
Byte 2
RPS
Byte 3 or later
X’1E’ X’4B’ Device function information 2
(1) Device function information 2
Information on the scanner type and ROM revision are posted.
Byte 3 to 18
X’4D’, X’33’, X’30’, X’39’, X’37’, X’44’, X’45’, X’20’, ..., X’20’
Byte 19 to 25 Byte 26
VII-2
7 6 5 4 3 2 1 0
LSB
Back-side image memory capacityX’XX’X 0.5 megabytes
Scanner type (ASCII code)Example shows ‘M3097DE’. Space (X’20’) maybe filled after the scanner type.
ROM revision (ASCII code)(From A to Z)
ROM number (ASCII code)
A.3 Commands and Response
Appendix A-91
Byte 27 to 32
X’20’, ... ... ... ... ... , X’20’
A.3.4.6 Read complete
This response indicates that READ command execution terminated normally.
Byte 1
CNT
Byte 2
RPS
Byte 3
TEXTByte 4
X’04’ X’46’Device
Information IDevice
Information II
Byte 1 Byte 2 Byte Byte 4 to 6
X’06’ X’46’ DeviceInformation I
DeviceInformation II-i to
II-ii
Reserved : filled with X’20’.
Scanner Interface
Appendix A-92
Device information indicates the status of the scanner operation.
Device information I
7 6 5 4 3 2 1 0
LSB
Resolution
0 0 0 400 dpi0 0 1 300 dpi0 1 0 240 dpi0 1 1 200 dpi1 0 0 100 dpi1 0 1 150 dpi1 1 0 Not defined1 1 1 600 dpi
Document size
0XXXX Nonstandard document1 0 0 0 0 A01 0 0 0 1 A1 Not defined1 0 0 1 0 A21 0 0 1 1 A31 0 1 0 0 A41 0 1 0 1 A51 0 1 1 0 Double letter1 0 1 1 1 Letter1 1 0 0 0 B01 1 0 0 1 B11 1 0 1 0 B2 Not defined1 1 0 1 1 B31 1 1 0 0 B41 1 1 0 1 B51 1 1 1 0 Not defined1 1 1 1 1 Legal
MSB
A.3 Commands and Response
Appendix A-93
Device information II-i
*1 This bit is valid when it is specified in normal status response for the START command.
7 6 5 4 3 2 1 0
LSB
Dynamic threshold circuit option0 : Not provided1 : Provided
ADF0 : Not provided1 : Provided
Flatbed/ADF0 : Flatbed state1 : ADF
Vertical/horizontal0 : Portrait1 : Landscape
Halftone0 : OFF1 : ON
ADF cover0 : Close1 : Open
Job separate sheet detection (*1)0 : Nonjob separate sheet1 : Job separate sheet
Paper setting0 : No paper in Paper chute1 : Paper in Paper chute
MSB
Scanner Interface
Appendix A-94
Device information II-ii
*1 This bit is available only in the case of "Normal status" to START command or "Read complete" to READcommand. (What indicates which data is transferred, front-side data or back-side data.)
7 6 5
0
4 3
0
2
0
1
0
0
Halftone (Back-side)0 : OFF1 : ON
Front-side/back-side reading (*1)0 : Front-side reading1 : Back-side reading
Reading status00: Simplex (front-side) reading1X : Duplex reading
LSB
A.3 Commands and Response
Appendix A-95
Device information II-iii
*2 This bit is same as the bit in Device information II-i.
7
0
6
0
5 4 3
0
2
0
1 0
Dynamic threshold (Front-side) (*2)0 : OFF1 : ON
Error diffusion (Front-side)0 : OFF1 : ON
Dynamic threshold (Back-side)0 : OFF1 : ON
Error diffusion (Back-side)0 : OFF1 : ON
LSB
Scanner Interface
Appendix A-96
A.3.4.7 Operation error
This response indicates that the error related to operation specification program occurs.
Byte 1
CNT
Byte 2
RPS
Byte 3
TEXT
X’03’ X’55’ Detailed error information I
Detailed information I
Detailed information I gives details on errors in command/response transmission and reception toand from the host computer.
*1 Although standard paper size bit on control register A#5 is on (Bit 7 takes “1” and bit 6 takes “0”), the sizespecifying bits (bits 0 to 4) are not defined.
Control register contents do not change even if the above errors are detected.
7 6 5 4 3 2 1
0
0
0
LSB
The dither pattern or the overlay pattern r pattern notregistered was specified.
The bit or number of an undefined control register wasspecified.
An operation was specified for a nonexistent option.
Read area specification error (*1)
An undefined command was received.
Command sequence error
MSB
A.3 Commands and Response
Appendix A-97
A.3.4.8 Temporary error
This response indicates that the temporary error occurs.
Byte 1
CNT
Byte 2
RPSByte 3 TEXT
X’03’ X’54’ Detailed error information II
Detailed information II
Detailed error information II provides details of temporary errors that can be corrected by operatorintervention.
(1) Jamming
Paper jammed in the paper path during ADF operation.1) Paper already existed in ADF before the READ command was executed.2) Paper did not pass the sensor in ADF within the specific time.
(2) Paper chute empty
There was no paper on the paper chute when the READ command was received during ADFoperation.
(3) ADF cover open
The ADF cover was opened during ADF operation or the ADF cover was open when ADF readingbegan.
(4) STOP button pressed
The Stop button was pressed during reading or while the scanner was waiting for the operator topress the Start button.
7 6
0
5
0
4
0
3
0
2 1 0
LSB
Jamming
Paper chute empty
ADF cover open
Stop button pressed
MSB
Scanner Interface
Appendix A-98
A.3.4.9 Equipment error
This response indicates that the device fault occurs.
Byte 1
CNT
Byte 2
RPSByte 3 TEXT
X’03’ X’50’ Detailed error information III
Detailed error information III
Detailed error information III provides details of device errors that require a call to CE.
7 6 5
0
4 3 2 1
0
0
0
LSB
The stepping motor (flatbed) fuse is blown.
The stepping motor (ADF) fuse is blown.
The Lamp fuse is blown.
Optics error
Mechanical scanning error
MSB
A.3 Commands and Response
Appendix A-99
A.3.5 Details Sequence
A.3.5.1 Initialization
Figure 6.2 shows the command/response sequence for initialization.
Note :
The maximum time from the CLEAR command reception to the returning of a response is lessthan one minute.
Figure A.3.2 Initialization sequence
ReadyNormal
Host computer Scanner
CLEAR
- Initialization- Internal diagnosis
Equipment checkAbnormal
Scanner Interface
Appendix A-100
A.3.5.2 Read operation
Figures A.3.3 and A.3.4 show the command/response sequences for the read operation.
Notes:1. The CONTROL command can be issued more than once.
2. The response to the RETURN SENSE command is made after returning.
3. The RETURN SENSE or IMAGE MODE SENSE command need not always be issued.
Figure A.3.3 Simplex read operation sequence (automatic mode)
Scanner
VGATEOFF
VGATE ON
PaperejectImage status
Normal status
Readcomplete
Normal status Documentsizedetection
Normal status
Host machine
CONTROL
Command processingControl registersetting
Flatbed ADF
Paper feed start
START
Document sizereport
IMAGE MODESENSE
Image status
READ
Documentreading
Documentreading
IMAGE MODESENSE
RETURNSENSE
Return
A.3 Commands and Response
Appendix A-101
Notes:1. The CONTROL command can be issued more than once.
2. The response to the RETURN SENSE command is made after returning.
3. The RETURN SENSE or IMAGE MODE SENSE command need not always be issued.
Figure A.3.4 Read operation sequence (manual mode)
Normal status
Documentsizedetection
Normal status
VGATEOFF
VGATE ON
PaperejectImage status
Normal status
Readcomplete
Host machine Scanner
CONTROL
Command processing
Flatbed
START
IMAGE MODESENSE
Image status
READ
Documentreading
Documentreading
IMAGE MODESENSE
RETURNSENSE
Ready lamp lights.
ADF
Paper carry start
Start buttonpressed
Return
Scanner Interface
Appendix A-102
Normal status
Read complete (back-side) VGATEOFF
VGATEOFF
Image status (back-side) VGATEON
Document eject
VGATE ON
Normal status(back-side reading)
Document size report (*2)
Document size report (*1) Normal status (front-side reading) Documentsizedetection
Read complete(front-side)
Host machine Scanner
CONTROL (magnification)• Duplex reading specification
CONTROL A (Front-side)CONTROL B (Back-side)
Command processing
START
IMAGE MODESENSE (front-side) Image status (front-side)
Document feed start
Read
Documentreading
(front-side)
Documentreading
(back-side)Storing in
RAM
IMAGE MODESENSE (back-side)
Read
Back-side datatransfer
Reading from RAM
Figure A.3.5 Duplex read operation sequence (Automatic mode)
A.3 Commands and Response
Appendix A-103
Notes of Figure A.3.5;
1) The CONTROL command can be issued more than once.
2) The document size reported in *2 is the same as that reported in *1.
3) The CONTROL command must not be issued between the READ command for front-side readingand START command for back-side reading. The issued command is ignored when this is done. Ifnecessary, the CLEAR command that stops reading data must be issued before the command isissued. Paper is ejected when the CLEAR command is issued.
4) IMAGE MODE SENSE is not necessarily issued.
A.3.6 Command/Response Correspondence
(1) Initialization was completed normally.
(2) The command was destroyed by a transmission error.
(3) Equipment abnormality was detected during initialization.
Normal Abnormal
Response
CommandReady Normal
status
Readcom-plete
Imagestatus
Unitstatus
Opera-tionerror
Tempo-raryerror
Equip-menterror
CLEAR (1) (2) (3)
CONTROL (4) (5)
IMAGE.CTL (4) (5)
SUB.W.CTL (4) (5)
START (6) (8) (9) (14)
READ (7) (8) (9) (10)
SENSE (11) (12) (13) (14)
RETURNSENSE
(15) (8) (14)
IMG.MODESNS
(4) (8) (14)
SEND DITHER (4) (5)
INQUIRY (4) (5)
Scanner Interface
Appendix A-104
(4) Command processing ended normally.
(5) The command was destroyed due to an operation error or transmission error.
(6) Command processing ended normally.
(7) Reading operation ended normally.
(8) The command was destroyed because a sequence error or transmission error was detected.
(9) Jam, hopper empty, or ADF cover open was detected.
(10) Equipment abnormality was detected during read operation.
(11) Answer when no error was generated
(12) The command was destroyed due to a transmission error.
(13) Paper jam not yet recovered.
(14) A device fault has been detected. (The fault has already been reported by the last CLEAR or READcommands.)
(15) Return operation was completed normally.
A.3.7 Command/Response Timing Chart
These timing charts are in the normal sequence at connector pins of the scanner. In these charts,STB, PB, and SPB mean start bit, parity bit, and stop bit respectively.Figures A.3.6 to A.3.11 show the timing chart for each command.Figure A.3.6 CLEAR command sequenceFigure A.3.7 CONTROL command sequenceFigure A.3.8 START command sequenceFigure A.3.9 READ command sequenceFigure A.3.10 SENSE command sequenceFigure A.3.11 RETURN SENSE command sequence
A.3 Commands and Response
Appendix A-105
1: M
ore
than
1 w
ord
leng
th (
chan
ged
by d
ata
tran
sfer
rat
e)2:
Les
s ta
n 50
0 m
s3:
Les
s th
an 5
s The
hos
t com
pute
r se
nds
the
CL
EA
R c
omm
and
to th
e sc
anne
r.
X’0
3’, ‘
44’,
‘00
’A
CK
for
the
CL
EA
R c
omm
and
is s
ent t
o th
e ho
st c
ompu
ter.
X
’FF’
Res
pons
e fo
r th
e C
LE
AR
com
man
d is
sen
t to
the
host
com
pute
r.
X’0
2’, ‘
52’
AC
K f
or th
e re
spon
se (
issu
ed a
t Seq
uenc
e 3)
is s
ent t
o th
e sc
anne
r.
X’F
F’ Fig
ure
A.3
.6
CL
EA
R c
omm
and
sequ
ence
Scanner Interface
Appendix A-106
1: L
ess
than
500
ms
2: M
ore
than
1 w
ord
leng
th
The
hos
t com
pute
r se
nds
the
CO
NT
RO
L c
omm
and
to th
e sc
anne
r
X’0
6’, ‘
58’,
‘00
’, ‘
A8’
, ‘4C
’, ‘
08’
AC
K f
or th
e C
ON
TR
OL
com
man
d is
sen
t to
the
host
com
pute
r.
X’F
F’
Fig
ure
A.3
.7 C
ON
TR
OL
com
man
d se
quen
ce (
1/4)
A.3 Commands and Response
Appendix A-107
1: L
ess
than
500
ms
2: M
ore
than
1 w
ord
leng
th
Res
pons
e fo
r th
e C
ON
TR
OL
com
man
d is
sen
t to
the
host
com
pute
r.
X’0
4’, ‘
4E’,
‘E
0’, ‘
03’
AC
K f
or th
e re
spon
se (
issu
ed a
t Seq
uenc
e 3)
is s
ent t
o th
e sc
anne
r.
X’F
F’
Fig
ure
A.3
.7 C
ON
TR
OL
com
man
d se
quen
ce (
2/4)
Scanner Interface
Appendix A-108
1: L
ess
than
500
ms
2: M
ore
than
1 w
ord
leng
th
The
hos
t com
pute
r se
nds
the
CO
NT
RO
L c
omm
and
to th
e sc
anne
rag
ain.
X
’04’
, ‘58
’, ‘
05’,
‘94
’A
CK
for
the
CO
NT
RO
L c
omm
and
is s
ent t
o th
e ho
st c
ompu
ter.
X
’FF’
Fig
ure
A.3
.7 C
ON
TR
OL
com
man
d se
quen
ce (
3/4)
A.3 Commands and Response
Appendix A-109
1: L
ess
than
500
ms
2: M
ore
than
1 w
ord
leng
th
Res
pons
e fo
r th
e C
ON
TR
OL
com
man
d (I
ssue
d at
Sequ
ence
5)
is s
ent t
o th
e ho
st c
ompu
ter.
X
’04’
, ‘4E
’, ‘
E0’
, ‘03
’
AC
K f
or t
he r
espo
nse
(iss
ued
at S
eque
nce
7) is
sen
t to
the
scan
ner.
X
’FF’
Fig
ure
A.3
.7 C
ON
TR
OL
com
man
d se
quen
ce (
4/4)
Scanner Interface
Appendix A-110
1: L
ess
than
500
ms
2: M
ore
than
1 w
ord
leng
th
The
hos
t com
pute
r se
nds
STA
RT
com
man
d to
the
scan
ner.
X
’02’
, ‘53
’A
CK
for
the
STA
RT
com
man
d is
sen
t to
the
host
com
pute
r.
X’F
F’R
espo
nse
for
the
STA
RT
com
man
d is
sen
t to
the
host
com
pute
r.
X’0
4’, ‘
4E’,
‘E
0’, ‘
03’
AC
K f
or th
e re
spon
se (
issu
ed a
t Seq
uenc
e 3)
is s
ent t
o th
e ho
stco
mpu
ter.
Fig
ure
A.3
.8 S
TA
RT
com
man
d se
quen
ce
A.3 Commands and Response
Appendix A-111
1: L
ess
than
500
ms
2: M
ore
than
1 by
te
The
hos
t co
mpu
ter
send
the
RE
AD
com
man
d to
the
scan
ner.
X
’02’
, ‘5A
’A
CK
for
the
RE
AD
com
man
d is
sen
t to
the
host
com
pute
r.
X’F
F’R
espo
nse
for
the
RE
AD
com
man
d (r
ead
com
plet
e) is
sen
t t th
esc
anne
r.
X’0
4’, ‘
46’,
‘E
0’, ‘
01’
AC
K f
or th
e re
ad c
ompl
ete
is s
ent t
o th
e sc
anne
r.
Fig
ure
A.3
.9 R
EA
D c
omm
and
sequ
ence
Scanner Interface
Appendix A-112
1: L
ess
than
500
ms
2: 1
byt
e
The
hos
t com
pute
r se
nds
the
SEN
SE c
omm
and
to th
e sc
anne
r.
X’0
2’, ‘
42’
AC
K f
or th
e SE
NSE
com
man
d is
sen
t to
the
host
com
pute
r.
X’F
F’R
espo
nse
for
the
SEN
SE c
omm
and
is s
ent t
o th
e ho
st c
ompu
ter.
X’0
4’, ‘
4E’,
‘E
0’, ‘
03’
AC
K f
or th
e re
spon
se (
issu
ed a
t Seq
uenc
e 3)
is s
ent t
o th
esc
anne
r.
X’F
F’
Fig
ure
A.3
.10
SE
NSE
com
man
d se
quen
ce
A.3 Commands and Response
Appendix A-113
1: L
ess
than
500
ms
2: m
ore
than
1 w
ord
leng
th
The
hos
t com
pute
r se
nds
the
RE
TU
RN
SE
NSE
com
man
d to
the
scan
ner.
X
’02’
, ‘42
’A
CK
for
the
RE
TU
RN
SE
NSE
com
man
d is
sen
t to
the
host
com
pute
r.
X’F
F’R
espo
nse
for
the
RE
TU
RN
SE
NSE
com
man
d is
sen
t to
the
host
com
pute
r.
X’0
4’, ‘
4E’,
‘E
0’, ‘
01’
AC
K f
or th
e re
spon
se (
issu
ed a
t Se
qeue
nce
3) is
sen
t to
the
scan
ner.
X
’FF’
Fig
ure
A.3
.11
RE
TU
RN
SE
NSE
com
man
d se
quen
ce
Scanner Interface
Appendix A-114
A.4 Third Party Slot
A.4.1 Control Interface
A.4.1.1 Connection specifications
Specification Remarks
Transmission system Half-duplex
Synchronization system Start-stop
Data length 8 bits
Stop bit 1 bit
Data check Odd parity check
Data transfer rate 1200, 2400, 4800, 9600 bps Set by EEPROMon Interface PCA
Maximum connection
Standard EIA RS-232C
D2 D3 D4 D5 D6 D7D0 D1 P
Start bit Stop bit
A.4 Third Party Slot
Appendix A-115
A.4.1.2 Control interface signals
(1) Transmitted data (TXD)
This signal is the response and acknowledge for the command sent on the R/D line.
(2) Received data (RXD)
This line sends the command and acknowledge for a response.
This line sends a request to send a respose and acknowledge for the command.
This line sends an acceptance of RTS signal.
This signal indicates that the scanner is ready for transmission and reception. This signal is set to off whenthe scanner is turned off, when the scanner is initially checked after power-on, when a fault is detected.
This signal indicates that the host computer is ready for transmission and reception.
Figure A.4.1 Controlinterface signal lines
TXD
Card Scanner
RXD
RTS
CTS
DTR
DSR
(3) Send request (RTS): Active Low Signal
(4) Transmission enabled (CTS): Active Low Signal
(5) Terminal ready (DTR): Active Low Signal
(6) Controller ready (DSR): Active Low Signal
Scanner Interface
Appendix A-116
A.4.1.3 RTS and CTS control
(1) Scanner Third Party Slot (at transmission)
A.4.1.4 Connection
RTS
TXD
CTS
GG
GG
GG
GG
(2) Third Party Slot Scanner (at transmission)
RTS and CTS: Not controlled (CTS is always active)
RTS
CTS
RXD
TXD
DSR
DTR
FG
SG
RTS
CTS
RXD
TXD
DSR
DTR
FG
SG
A.4 Third Party Slot
Appendix A-117
A.4.2 Video Interface
(1) Signals
This signal is a sampling clock for the video data V0 to V7.
2) HGATE
This signal indicates that the main-scanning video data is valid.
3) VGATE
This signal indicates that the subscanning video data is valid.
4) V0 to V7
These signal lines carry the scanning video data. Logical “0” indicates a black dot.
5) FAIL
This signal indicates that a device error (MPU ROM/RAM error) has occurred in the scanner.
Figure A.4.2 Video interface signal lines
V0 to V7 (8 lines)
Third Party Slot
FAIL
VCL
Scanner
HGATE
VGATE
1) VCL (Active Low)
Scanner Interface
Appendix A-118
A.4.3 Data Transmission
(1) Data transfer sequence (Binary mode)
(2) Data transfer sequence (Multi bit mode)
012345670
0
1
1
2
2
3
3
4
4
5
5
6
6
7
7
01234567
LSBMSB
subscanning
main scanning
V7 to V0
subscanning
main scanning
A.4 Third Party Slot
Appendix A-119
(3) Video signal validity in main scanning
X: Offset dotsY: Transferred dataa: Dummy dots∇: Reference point of main-scanning
(4) Video signal validity in sub scanning
X: Offset lines (Max.)Y: Transferred lines∇: Reference point of subscanning
HGATE
VIDEOX
Y
a
∇¤
VGATE
VIDEOX
Y
∇¤
Scanner Interface
Appendix A-120
(5) Timing
1) VCL and V0 to V7
VCL
t1
V0 to V7
t4t3
t2
2) VCL and HGATE
GG
HGATE
t6
VCL
t5
3) HGATE and VGATE
HGATE
t8t7
VGATE
GG
GG
A.4 Third Party Slot
Appendix A-121
(6) Timing specification
Binary/multibit output timing is as follows.Unit : ns
800 ns *3 400 ns *4 200 ns *4 100 ns *5
MIN. TYP. MAX. MIN. TYP. MAX. MIN. TYP. MAX. MIN. TYP. MAX.
t1 750 800 850*1
350 400 450 150 200 250*1
50 100 150*1
t2 350 400 450 150 200 250 50 100 150 0 50 100
t3 350 400 450 150 200 250 50 100 150 0 50 100
t4 350 400 450*1
150 200 250*1
50 100 150*1
0 50 100*1
t5 250 300 350 250 300 350 250 300 350 250 300 350
t6 650 700 750 450 500 350 350 400 450 300 350 400
t7 2600*2
2600*2
2600*2
2600*2
t8 2600 2700 2800 2600 2700 2800 2600 2700 2800 2600 2700 2800
*1 Sometimes these values become several µs longer, due to the memory control.
*2 Sometimes these values become several ms longer, due to the scanner control.
*3 800 ns or 400 ns is the transfer rate specified by the Extended control register #2.When the output resolution is 400 dpi or less, the front-side data transfer rate is 800 ns.When the output resolution is 401 dpi or more, the front-side data transfer rate is 400 ns.
*4 These are the transfer rate specified by the Extended control register #2 for back-side reading.
*5 When reading with grayscale output, transfer rate is 100 ns.
Scanner Interface
Appendix A-122
A.4.4 Physical Specifications
(1) Control signals (*1)
Driver/Receiver (Scanner side): 8251 or equivalent
Input voltage“L”: 0 to 0.8V “H”: 2.0 to Vcc
Output voltage“L”: 0 to 0.4V (IOL = 2.5 mA) “H”: 2.4 to Vcc
(2) Video signals (*2)
Driver/Receiver (Scanner side)
Output voltage“L”: 0 to 0.4V (IOL = 3.2 mA) “H”: 2.4 to Vcc
(3) Power supply for extended slot (VCC)
+5V ±5%, MAX 1.0A
*1 This is different from Section 4.3.
*2 This is different from Section 5.2.1.
A.4 Third Party Slot
Appendix A-123
(4) Connector pin assignment
Board connector: PCN 13-44S-2.54DSA 44pin (Hirose Electric Corp.) or equivalent.
No. Signal name No. Signal name
123456789
10111213141516171819202122
V0V1V2V3V4V5V6V7VGATEHGATEVCLFAILFGTXDRXDRTSCTSDSRDTRCONECTVCC
VCC
23242526272829303132333435363738394041424344
GNDGNDGNDGNDGNDGNDGNDGNDGNDGNDGNDGNDGNDGNDGNDGNDGNDGNDGNDGNDVCC
VCC
* CONECT: Board-in :0Board-out :1
Scanner Interface
Appendix A-124
(5) Dimensions of the board
For M3093EX/DE and M3097DE
A.4 Third Party Slot
Appendix A-125
A.4.5 Logical Specification
Please refer to Chapter 6 for logical commands/statuses those sent or received in control signal.
Multi-bit image data is available from this third party slot. To validate multi-bit scanning, bit 1 in controlregister #2 must be set to ‘1’.
Control register #2
7 6 5 4 3 2 1 0
LSBMSB
Video data0 : Binary1 : Multi-bit
Appendix B-1
Appendix B Interface deference between M3097DE and M3093DE
The interface difference between M3097DE and M3093DE is explained in this section.
B.1 Extended control register #0Simplex/duplex selection by the operator panel is available for M3097DE by setting extendedcontrol resistor #0 as follows.
Extended control register #0 7 6 5 4 3 2 1 0
0 0 0
Reading type specification (switching between simplex and duplex)M3097DE M3093DE
0 × × : Set from the operator panel No operation1 0 0 : Simplex reading1 1 × : Duplex reading
B.2 Extended control register #2The basic transfer rate of M3097DE is two times faster than that of M3093DE. Front-side transferrate depends upon the output resolution. This is because the scanner reads front-side image whiletransferring the data. Back-side transfer rate is selectable from basic speed to fourfold speed. Thetransfer rate is specified by the extended control resistor #2 as follows.
Extended control register #2 7 6 5 4 3 2 1 0
0 0 0 0
Front-side data transfer rateM3097DE M3093DEResolution
Front-side Front-side0 × × × : 50 to 400 dpi 800 ns 1333 ns
401 to 800 dpi 400 ns 667 ns1 × × × : 50 to 800 dpi undefined
Back-side transfer rateM3097DE M3093DE
0 × × × : Twofold speed 400 ns 667 ns1 0 0 0 : Not defined1 0 0 1 : Basic speed 800 ns 1333 ns1 0 1 0 : Twofold speed 400 ns 667 ns1 0 1 1 : Fourfold speed * 200 ns 333 ns1 1 × × : Not defined
* It is necessary to check the operation with the Host computer.
Interface deference between M3097DE and M3093DE
Appendix B-2
B.3 Control register A#0
The selection of the output resolution, Flatbet/ADF sellection, and the way to start can be set by theoperator panel of M3097DE as follows.
Control register A#0 7 6 5 4 3 2 1 0
0
Output resolutionM3097DE M3093DE
0 × × ×:
Set from the operatorpanel
No operation
1 0 0 0 : 400 dpi1 0 0 1 : 300 dpi1 0 1 0 : 240 dpi1 0 1 1 : 200 dpi1 1 0 0 : 100 dpi1 1 0 1 : 150 dpi1 1 1 0 : Not defined1 1 1 1 : 600 dpi *1 *2
Flatbed/ADFM3097DE M3093DE
0 × : Set from the operator panel No operation1 0 : Flatbed operation1 1 : ADF operation
The way to set start of readingM3097DE M3093DE
0 : Set from the operator panel No operation1 : Set from Host computer*1 If the scanner is M3093DE without memory option, the scanning area may be
limited as follows. (See Table 2.5)
M3093DE without memory optionMaximum main scanning dots 3456 pixelsMaxi,um sub-scanning lines 5600 pixels
*2 If 600dpi is specified for M3093DE, you can not set “Automatic” in densityspecification of control register A#1/B#1.
B.4 Control register A#1
Appendix B-3
B.4 Control register A#1Control register B#1
Control register A#1 / B#1 7 6 5 4 3 2 1 0
0
DensityM3097DE M3093DE
0 0 × × × : Set from the operator panel No operation0 1 0 0 0 : Light0 1 0 0 1 :0 1 0 1 0 : Somewhat light0 1 0 1 1 :0 1 1 0 0 : Normal0 1 1 0 1 :0 1 1 1 0 : Somewhat dark0 1 1 1 1 : Dark1 × × × × : Automatic *1
Linedrawing/PhotographM3097DE M3093DE
00 : Set from the operator panel No operation10 : Linedrawing11 : Photograph*1 This function is valid for image processing circuit (IPC-2/3 or IPC-
2D/3D) option. When the IPC-2/3 or IPC-2D/3D option is installed andthese bits indicate 1XXXX, the scanner applies the DC function , andthe function of the image control register and sub-window controlregister are not operated.
B.5 Control register A#2 Control register B#2
Halftone can be specified the operator panel of M3097 as follows.
Control register A#2 / B#2 7 6 5 4 3 2 1 0
Jam detection when scanning Binary/Grayscale selention Specifies halftone
M3097DE M3093DE00 : Set from the operator panel No operation10 : Not dithered11 : Dithered or Error Diffusion
Density setting Built-in/Download of dither pattern selection
Interface deference between M3097DE and M3093DE
Appendix B-4
B.6 Control register A#5
Standard document size can be specified as follows.
Control register A#5 7 6 5 4 3 2 1 0
Standard document sizeM3097DE M3093DE
0 0 0 0 : Not defined0 0 0 1 : Not defined0 0 1 0 : Not defined0 0 1 1 : A3 Not defined0 1 0 0 : A40 1 0 1 : A50 1 1 0 : Double letter Not defined0 1 1 1 : Letter1 0 0 0 : Not defined1 0 0 1 : Not defined1 0 1 0 : Not defined1 0 1 1 : Not defined1 1 0 0 : B4 Not defined1 1 0 1 : B51 1 1 0 : Not defined1 1 1 1 : Legal
Specifies portrait or landscape
Picking is specified
Document selectionM3097DE M3093DE
0× : Set from the operator panel No operation01 : FB : depends on the operator panel
ADF: depends on the size detectedFB : depends on standard document sizeADF: depends on the size detected
10 : Depends on the value of the standard document size setting register.11 : Depends on the value of the nonstandard document size setting register.
B.7 Control register A#10 to A#17Control register B#10 to B#17
These register specifies the picking area of the main window. The limitation of the main scanning andsub-scanning direction are different between M3097DE and M3093DE as follows.
Table B.7.1 The limitation of picking areaM3097DE M3093DE
Main scanning limitation X1 + X2 4864 3456Sub-scanning limitation Y1 + Y2 6912 5600
B.8 Image control register A#1
Appendix B-5
B.8 Image control register A#1Image control register B#1
Image control register A#1 /B#1 7 6 5 4 3 2 1 0
0
Automatic separation specificationM3097DE M3093DE
0× : Set from the operator panel *1 No operation *210 : Automatic separation is no done11 : Automatic separation
Conversion mode specification
Sub-window specification
*1 Bit 7 of the image control register A#2/B#2 and bit 3 of the image control registerA#3/B#3 must be set ‘0’.
*2 Automatic separation specification is same as the status before the command.
B.9 Image control register A#4Image control register B#4
Image control register A#4 / B#4 7 6 5 4 3 2 1 0
0 0 0
Simplified dynamic threshold specificationM3097DE M3093DE
0× : Set from the operator panel No operation10 : Simplified DTC invalid11 : Simplified DTC valid
Simplified DTC mode number specification
Interface deference between M3097DE and M3093DE
Appendix B-6
B.10 Image control register A#5 and A#6
Image control register A#5 and A#6 A#5 (LSB) A#6 (LSB) 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0
0 0 0 0 1 0
Magnification or vertical magnification(when each directionzooming is valid)
00001101 25% to to110010000 400% *1
*1 When both sides of documents are scanned and magnified in the sub-scanning direction byM3093DE, the following limitation exists. (values under o in [ ] is ommited)
A × (B/400) × (C/100) ------------------------------- < 5600 lines (only M3093DE without option) 8
B.11 Image control register A#7 and A#8
Image control register A#7 and A#8 A#7 (LSB) A#8 (LSB) 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0
0 0 0 0 1 0
Horizontal magnification(when each direction zooming isvalid)
00001101 25% to to110010000 400% *1
*1 When documents are magnified in main scanning direction by M3093DE, the followinglimitation exists. (values under o in [ ] is ommited)
A × (B/400) × (C/100) ------------------------------- < 432 bytes (only M3093DE without option) 8
B.12 Device information I
Appendix B-7
B.12 Device information I
Document size of the device information I is deferent between M3097DE and M3093DE as follows.
MAS LSB 7 6 5 4 3 2 1 0
Resolution Standard document size
M3097DE M3093DE10000 : Not defined10001 : Not defined10010 : Not defined10011 : A3 Not defined10100 : A410101 : A510110 : Double letter Not defined10111 : Letter11000 : Not defined11001: Not defined11010 : Not defined11011 : Not defined11100 : B4 Not defined11101 : B511110 : Not defined11111 : Legal
B.13 Default of the device function information
The deference of the device function information (default) is as follows.
Table 3.2 The default of the unit status.M3097DE M3093DE
Device function information III-1 X’F8’ X’B0’Device function information III-2 X’F0’ X’E0’
Interface deference between M3097DE and M3093DE
Appendix B-8
B.14 Device function information 2Byte 3 to 9 of the unit status 2 is different between M3097DE and M3093DE as follows. These bytesinforms the scanner type in response to INQUIRY 2 command.
Table 3.3 Device function information 2M3097DE M3093DE
Byte 3 X’4D’ X’4D’Byte4 X’33’ X’33’Byte 5 X’30’ X’30’Byte 6 X’39’ X’39’Byte 7 X’37’ X’33’Byte 8 X’44’ X’44’Byte 9 X’45’ X’45’
B.12 Device information I
Appendix C-1
Appendix C Throughput
Following is not a guaranteed data but a tested result in Fujitsu.
C.1 Offline test
Offline test throughput (PPM) *, **Document size
Documentdirection 200 dpi 300 dpi 400 dpi 600 dpi
A3 29.5 14.5 15.6 10.7
B4 32.9 23.1 17.7 12.2
A4 39.8 28.1 21.8 15.0
B5 37.9 26.9 21.3 14.8
A5 50.0 35.7 27.7 19.7
Double letter 28.6 20.0 15.2 10.4
Letter 40.1 28.1 21.5 15.0
Executive
Portrait
41.7 29.4 21.1 16.1
A4 50.0 35.7 27.7 19.7
B5 47.8 34.1 27.8 19.2
A5 TBD TBD TBD TBD
LT 49.7 34.8 26.8 18.9
Executive
Landscape
53.9 38.3 30.0 21.3
* PPM: Paper Per Minute** The throughput at 150 dpi and 100 dpi is same as 200 dpi.
C.2 Online test
(1) M3097DE
• Host computer: FMV-DESKPOWER (FMV41D4S3)DX4-100 MHz, 56 MByte
• KOFAX board: KF-9275
• Application: KOFAX Image Control Ver 2.1 (16 Bit)
• Driver: KOFAX for M3099EX/M3093DE
• Remarks: Image data was compressed by CCITT Group 4 and stored.
Appendix C-2
• Test result:
Document size/direction Resolution Simplex (PPM) Duplex (IPM) *
A4, portrait
200
300
400
600
37.4
26.8
20.8
14.5
71.5
46.6
33.8
20.3
Letter, portrait
200
300
400
600
39.3
28.3
22.1
15.4
75.4
49.6
35.7
21.5
A3, portrait
200
300
400
600
28.5
20.1
15.5
TBD
44.1
31.2
22.1
TBD
* IPM: Image Per Minute
(2) M3097DG
• Host computer: FMV5166TE5 Pentium 166 MHz, RAM72MByte
• SCSI board: AHA2940AU (Synchronous 10M)
• Application: Image View (Ver 2.0 10)
• Driver: ISIS (PIXDFLT 51.209, FUJIGINX Ver 1.140)
• Remarks: Product ID, M3093DG/M3099GX was selected.
• Test result:
Document size/direction Resolution Simplex (PPM) Duplex (IPM) *
A4, portrait
200
300
400
600
37.4
27.4
20.7
14.7
67.3
42.3
34.3
22.0
Letter, portrait
200
300
400
600
38.9
28.7
22.3
15.5
70.5
44.9
36.1
23.2
A3, portrait
200
300
400
26.5
20.4
15.7
46.5
28.1
21.0