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KONICA MINOLTA BIZHUB C35, Theory Of Operation
This manual is in the PDF format and have detailed Diagrams, pictures and full procedures to diagnose and repair your KONICA MINOLTA BIZHUB C35.
You can print, zoom or read any diagram, picture or page from this Theory of Operation Manual. Every chapter on this manual is fully detailed and contain all the simulation codes, trouble codes, maintenance procedures, reset procedures, diagnose procedures of KONICA MINOLTA BIZHUB C35 photocopier. You can find easily everything what do you need.
To see what contain, please read table of contents:
BIZHUB C35 MAIN BODY
OUTLINE
1. SYSTEM CONFIGURATION
2. PRODUCT SPECIFICATIONS
2.1 TYPE
2.2 FUNCTIONS
2.3 MEDIA
2.4 MAINTENANCE
2.5 MACHINE SPECIFICATIONS
2.6 OPERATING ENVIRONMENT
2.7 PRINT FUNCTIONS
2.8 SCAN FUNCTIONS
2.9 FAX FUNCTIONS
3. SECTION CONFIGURATION
4. MEDIA PATH
COMPOSITION/OPERATION
5. OVERALL COMPOSITION
5.1 CONTROL BLOCK DIAGRAM
5.2 IMAGE CREATION PROCESS
5.3 TIMING CHART AT MAIN BODY POWER ON
6. INTERFACE SECTION
6.1 COMPOSITION
7. SCANNER SECTION
7.1 COMPOSITION
7.2 DRIVE
7.3 OPERATION
7.3.1 WHEN THE POWER IS ON
7.3.2 CONTROL WHEN THE START KEY IS PRESSED
8. WRITE SECTION
8.1 COMPOSITION
8.2 OPERATION
8.2.1 OVERVIEW
8.2.2 LASER EXPOSURE PROCESS
8.2.3 LASER EMISSION TIMING
8.2.4 LASER EMISSION AREA
8.2.5 MAIN SCAN MAGNIFICATION ADJUSTMENT
8.2.6 IMAGE PROCESSING
9. TONER SUPPLY SECTION
9.1 COMPOSITION
9.2 DRIVE
9.3 OPERATION
9.3.1 TONER COLLECTING PORT SHUTTER MECHANISM
9.3.2 TONER REPLENISHING MECHANISM
9.3.3 TONER REPLENISHING CONTROL
9.3.4 TONER CARTRIDGE DETECTION
9.3.5 TONER CONSUMPTION RATE DETECTION
9.3.6 TONER LIFE DETECTION
9.3.7 TONER NEAR-EMPTY CONDITION DETECTION
9.3.8 TONER EMPTY CONDITION DETECTION
9.3.9 MONOCHROME PRINTS
10. IMAGING UNIT SECTION (OVERALL COMPOSITION)
10.1 COMPOSITION
10.2 OPERATION
10.2.1 IMAGING UNIT DETECTION
10.2.2 IMAGING UNIT CONSUMPTION RATE DETECTION
10.2.3 IMAGING UNIT LIFE DETECTION
11. IMAGING UNIT SECTION (PHOTO CONDUCTOR)
11.1 COMPOSITION
11.2 DRIVE
11.3 OPERATION
11.3.1 PHOTO CONDUCTOR DRIVE MECHANISM
12. IMAGING UNIT SECTION (CHARGE CORONA)
12.1 COMPOSITION
12.2 DRIVE
12.3 OPERATION
12.3.1 CHARGE ROLLER
12.3.2 CLEANING ROLLER
13. IMAGING UNIT SECTION (DEVELOPING)
13.1 COMPOSITION
13.2 DRIVE
13.3 OPERATION
13.3.1 TONER FLOW
13.3.2 DEVELOPING SYSTEM
13.3.3 CLEANING MECHANISM
13.3.4 TONER COLLECTING PORT SHUTTER MECHANISM
13.3.5 IMAGE PROCESSING
14. TRANSFER SECTION (1ST TRANSFER)
14.1 COMPOSITION
14.2 DRIVE
14.3 OPERATION
14.3.1 1ST TRANSFER OUTPUT CONTROL
14.3.2 1ST TRANSFER ROLLER PRESSURE/RETRACTION CONTROL
14.3.3 TRANSFER BELT CLEANING MECHANISM
14.3.4 1ST TRANSFER BELT BACKWARD ROTATION CONTROL
14.3.5 TONER COLLECTING PORT SHUTTER MECHANISM
15. TRANSFER SECTION (2ND TRANSFER)
15.1 COMPOSITION
15.2 DRIVE
15.3 OPERATION
15.3.1 2ND TRANSFER ROLLER PRESSURE MECHANISM
15.3.2 2ND TRANSFER VOLTAGE CONTROL
15.3.3 2ND TRANSFER VOLTAGE SETTING CONTROL (ATVC: AUTO TRANSFER VOLTAGE CONTROL)
15.3.4 2ND TRANSFER ROLLER CLEANING CONTROL
16. WASTE TONER COLLECTING SECTION
16.1 COMPOSITION
16.2 DRIVE
16.3 OPERATION
16.3.1 TONER FLOW AT THE IMAGING UNIT SECTION
16.3.2 WASTE TONER FLOW AT TRANSFER BELT UNIT SECTION/2ND TRANSFER SECTION
16.3.3 TONER COLLECTING PORT SHUTTER MECHANISM
16.3.4 WASTE TONER BOTTLE-IN-POSITION DETECTION MECHANISM
16.3.5 WASTE TONER FLOW IN THE WASTE TONER BOTTLE
16.3.6 WASTE TONER NEAR-FULL CONDITION DETECTION CONTROL
16.3.7 WASTE TONER FULL CONDITION DETECTION CONTROL
17. MEDIA FEED SECTION (TRAY 1)
17.1 COMPOSITION
17.2 DRIVE
17.3 OPERATION
17.3.1 MEDIA LIFT PLATE MECHANISM
17.3.2 MEDIA SEPARATION MECHANISM
17.3.3 MEDIA FEED CONTROL
17.3.4 MEDIA EMPTY CONDITION DETECTION CONTROL
18. MEDIA FEED SECTION (TRAY 2)
18.1 COMPOSITION
18.2 DRIVE
18.3 OPERATION
18.3.1 MEDIA LIFT PLATE MECHANISM
18.3.2 MEDIA SEPARATION MECHANISM
18.3.3 MEDIA FEED CONTROL
18.3.4 MEDIA EMPTY CONDITION DETECTION CONTROL
18.3.5 TRAY OPEN/CLOSE DETECTION CONTROL
18.3.6 MEDIA MISFEED DETECTION CONTROL
19. CONVEYANCE SECTION (IDC SENSOR)
19.1 COMPOSITION
19.1.1 DRIVE
19.2 OPERATION
19.2.1 TONER DENSITY DETECTION CONTROL
19.2.2 IDC SENSOR CALIBRATION CONTROL
19.2.3 IDC SENSOR COVER OPEN/CLOSE MECHANISM
19.2.4 IMAGE PROCESSING
20. CONVEYANCE SECTION (REGISTRATION ROLLER)
20.1 COMPOSITION
20.2 DRIVE
20.3 OPERATION
20.3.1 CONVEYANCE SPEED CONTROL
20.3.2 REGISTRATION ROLLER CONTROL
20.3.3 CONTROL OF LOOP FORMED BEFORE REGISTRATION ROLLER
20.3.4 MEDIA NEUTRALIZATION
20.3.5 MEDIA SIZE ERROR DETECTION CONTROL
20.3.6 TEMPERATURE/HUMIDITY SENSOR
21. FUSING SECTION
21.1 COMPOSITION
21.2 DRIVE
21.3 OPERATION
21.3.1 FUSING ROLLER DRIVE CONTROL
21.3.2 FUSING TEMPERATURE CONTROL
21.3.3 PROTECTION FROM ABNORMAL TEMPERATURES
21.3.4 FUSING SPEED CONTROL
21.3.5 FUSING UNIT NEW ARTICLE DETECTION
22. DUPLEX SECTION
22.1 COMPOSITION
22.2 DRIVE
22.3 OPERATION
22.3.1 MEDIA TRANSPORT CONTROL
22.3.2 DUPLEX PRINT CONTROL
23. MEDIA EXIT SECTION
23.1 COMPOSITION
23.2 DRIVE
23.3 OPERATION
23.3.1 TRANSPORT CONTROL
23.3.2 MEDIA FULL DETECTION
24. IMAGE STABILIZATION CONTROL
24.1 OUTLINE
24.2 OPERATION SEQUENCE
24.2.1 SIMPLIFIED CORRECTION CONTROL
24.2.2 COMPLETE CORRECTION CONTROL
24.2.3 INDIVIDUAL REGISTRATION CONTROL
24.3 CONTROL DESCRIPTIONS
24.3.1 SIMPLIFIED CORRECTION CONTROL
24.3.2 COMPLETE CORRECTION CONTROL
24.3.3 INDIVIDUAL REGISTRATION CONTROL
24.4 EXECUTION TIMING
24.4.1 PREDRIVE OPERATION
24.4.2 DURING AND AFTER A PRINT CYCLE
24.4.3 WHEN THE AIDC MODE IS SELECTED
25. POWER SUPPLY SECTION
25.1 PARTS ENERGIZED WHEN THE MAIN POWER SWITCH IS TURNED ON
25.1.1 CONFIGURATION
25.1.2 OPERATION
26. FAN CONTROL
26.1 CONFIGURATION
26.2 OPERATION
26.2.1 FUNCTION
26.2.2 FAN CONTROL
27. AUTOMATIC DOCUMENT FEEDER SECTION
27.1 COMPOSITION
27.2 DRIVE
27.3 OPERATION
27.3.1 DOCUMENT FEED MECHANISM
27.3.2 DOCUMENT SEPARATION MECHANISM
27.3.3 DOCUMENT TRANSPORT MECHANISM
27.3.4 DOCUMENT EXIT MECHANISM
27.3.5 SWITCHING MECHANISM FOR TURNOVER/PAPER EXIT
27.4 PAPER PATH
27.4.1 1-SIDED MODE
27.4.2 2-SIDED MODE
LOWER FEEDER UNIT PF-P08:
LOWER FEEDER UNIT
OUTLINE
1. PRODUCT SPECIFICATIONS
COMPOSITION/OPERATION
2. OVERALL COMPOSITION
3. DRIVE
4. OPERATIONS
4.1 MEDIA FEED CONTROL
4.1.1 MEDIA LIFT PLATE MECHANISM
4.1.2 FEED ROLLER/VERTICAL TRANSPORT ROLLER CONTROL
4.1.3 MEDIA SEPARATION MECHANISM
4.1.4 MEDIA DETECTION MECHANISM
4.1.5 MEDIA EMPTY CONDITION DETECTION CONTROL
4.1.6 EDGE GUIDE PLATE
4.1.7 TRAILING EDGE GUIDE PLATE
4.1.8 MEDIA SIZE DETECTION CONTROL
4.1.9 MEDIA REFERENCE POSITION ADJUSTMENT MECHANISM
4.1.10 MEDIA MISFEED DETECTION CONTROL
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