Xerox 1632 2240 3535 Color Carrera Manual

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6-37 DC1632/2240General Procedures and Information Prelaunch Training/Review 753-011 P LUTCin [Color] [A] 102 0~255 [2P TRC] P LUTCin (fixed number) when the Delta LUT is calculated.
753-012 P LUTCin [Color] [B] 204 0~255 [2P TRC] P LUTCin (fixed number) when the Delta LUT is calculated.
753-013 P LUTCin [Color] [D] 255 0~255 [2P TRC] P LUTCin (fixed number) when the Delta LUT is calculated.
753-014 Patch Cin [Y] [CinA] 102 0~255 [2P TRC] =  2P Patch Cin (Value is changed by the gradation correction result). (Change factor from MF) 
Changes name from [TRC Patch Cin in Job]
753-015 Patch Cin [M] [CinA] 102 0~255 [2P TRC] =  2P Patch Cin (Value is changed by the gradation correction result). (Change factor from MF) 
Changes name from [TRC Patch Cin in Job]
753-016 Patch Cin [C] [CinA] 102 0~255 [2P TRC] =  2P Patch Cin (Value is changed by the gradation correction result). (Change factor from MF) 
Changes name from [TRC Patch Cin in Job]
753-017 Patch Cin [K] [CinA] 77 0~255 [2P TRC] =  2P Patch Cin (Value is changed by the gradation correction result). (Change factor from MF) 
Changes name from [TRC Patch Cin in Job]
753-018 Patch Cin [Y] [CinB] 204 0~255 [2P TRC] =  2P Patch Cin (Value is changed by the gradation correction result). (Change factor from MF) 
Changes name from [TRC Patch Cin in Job]
753-019 Patch Cin [M] [CinB] 204 0~255 [2P TRC] =  2P Patch Cin (Value is changed by the gradation correction result). (Change factor from MF) 
Changes name from [TRC Patch Cin in Job]
753-020 Patch Cin [C] [CinB] 204 0~255 [2P TRC] =  2P Patch Cin (Value is changed by the gradation correction result). (Change factor from MF) 
Changes name from [TRC Patch Cin in Job]
753-021 Patch Cin [K] [CinB] 134 0~255 [2P TRC] =  2P Patch Cin (Value is changed by the gradation correction result). (Change factor from MF) 
Changes name from [TRC Patch Cin in Job]
753-022 TRC Target RADC [Y] [A] 780 0~1023 [2P TRC] Target RADC for Gradation Correction
753-023 TRC Target RADC [Y] [B] 415 0~1023 [2P TRC] Target RADC for Gradation Correction
753-024 TRC Target RADC [M] [A] 740 0~1023 [2P TRC] Target RADC for Gradation Correction
753-025 TRC Target RADC [M] [B] 360 0~1023 [2P TRC] Target RADC for Gradation Correction
753-026 TRC Target RADC [C] [A] 725 0~1023 [2P TRC] Target RADC for Gradation Correction
753-027 TRC Target RADC [C] [B] 355 0~1023 [2P TRC] Target RADC for Gradation Correction
753-028 TRC Target RADC [K] [A] 730 0~1023 [2P TRC] Target RADC for Gradation Correction
753-029 TRC Target RADC [K] [B] 310 0~1023 [2P TRC] Target RADC for Gradation Correction
753-030 TRC Current RADC [Y] [A] 780 0~1023 [2P TRC] Current RADC for Gradation Correction
753-031 TRC Current RADC [Y] [B] 415 0~1023 [2P TRC] Current RADC for Gradation Correction
753-032 TRC Current RADC [M] [A] 740 0~1023 [2P TRC] Current RADC for Gradation Correction
753-033 TRC Current RADC [M] [B] 360 0~1023 [2P TRC] Current RADC for Gradation Correction
753-034 TRC Current RADC [C] [A] 725 0~1023 [2P TRC] Current RADC for Gradation Correction
753-035 TRC Current RADC [C] [B] 355 0~1023 [2P TRC] Current RADC for Gradation Correction
753-036 TRC Current RADC [K] [A] 730 0~1023 [2P TRC] Current RADC for Gradation Correction
753-037 TRC Current RADC [K] [B] 310 0~1023 [2P TRC] Current RADC for Gradation Correction
753-801 Legible Y 1024 0~2047 Legible Adjustment (Y)
753-802 Legible M 1024 0~2047 Legible Adjustment (M)
753-803 Legible C 1024 0~2047 Legible Adjustment (C)
753-804 Legible K 1024 0~2047 Legible Adjustment (K)
753-805 Pattern Y 0 0~19 InOut Pattern Setup (Y)
753-806 Pattern M 0 0~19 InOut Pattern Setup (M)
753-807 Pattern C 0 0~19 InOut Pattern Setup (C)Table 13 Chain 753
Chain-Link Name Default Range Description 
						

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6-38DC1632/2240 Prelaunch Training/Review General Procedures and Information
755-xxx CRUM NVM List753-808 Pattern K 0 0~19 InOut Pattern Setup (K)Table 13 Chain 753
Chain-Link Name Default Range Description
Table 14 Chain 755
Chain-Link Name Default Range Description
755-001 #Y_Drum Life Count - kCy 0 0~3000 
(1bit= 1Kcycle)To determine Drum Life
755-002 #Y_Drum Cycle Count - Total 0 0~6M (5B8D80h) 
(1bit= 0.1cycle)Total P/R Cumulative No. of Rotations [To detect Life]
755-003 DC Drum Cycle Count 0 0~6M (5B8D80h) 
(1bit= 0.1cycle)DC Charged l P/R Cumulative No. of Rotations [To detect Life]
755-004 AC Drum Cycle Count 0 0~6M (5B8D80h) 
(1bit= 0.1cycle)AC Charged l P/R Cumulative No. of Rotations [To detect Life]
755-005 Print Count - Color 0 0~100K (186A0h) Accumulates the No. of Prints for FC Job.
755-006 Print Count - Black 0 0~100K (186A0h) Accumulates the No. of Prints for BW Job.
755-007 #Y_Print Count - Full Color, A4L only 0 0~20000K 
(1312D00h) (1bit= 
100/A4.1 sheet)Accumulates the No. of Prints - A4LEF for FC Job.
755-008 #Y_Print Count - Black, A4L only 0 0~20000K 
(1312D00h)Accumulates the No. of Prints - A4LEF for BW Job.
755-009 #Y_Shutdown Count - Full Color 0 0~65535 (FFFFh) Accumulates the No. of ShutDowns during FC Job.
755-010 #Y_Shutdown Count - Black 0 0~65535 (FFFFh) Accumulates the No. of ShutDowns during BW Job.
755-011 #Y_Setup Count - Full Color 0 0~65535 (FFFFh) Accumulates the No. of Setups immediately after FC Job.
755-012 #Y_Setup Count - Black 0 0~65535 (FFFFh) Accumulates the No. of Setups immediately after BW Job.
755-013 #Y_First Install - Year 0 0~99 (63h) Writes the date info when the first job was performed.
755-014 #Y_First Install - Month 0 0~12 (Ch) Writes the date info when the first job was performed.
755-015 #Y_First Install - Day 0 0~31 (1Fh) Writes the date info when the first job was performed.
755-016 #Y_First install, Part#1 0 0~65535 (FFFFh) Records the M/C Serial No. when the CRU was first installed.
755-017 #Y_First install, Part#2 0 0~65535 (FFFFh) Records the M/C Serial No. when the CRU was first installed.
755-018 #Y_Last install, Part#1 0 0~65535 (FFFFh) Records the M/C (2nd time onwards) Serial No. when the CRU was last installed.
755-019 #Y_Last install, Part#2 0 0~65535 (FFFFh) Records the M/C (2nd time onwards) Serial No. when the CRU was last installed.
755-020 #Y_Machine Serial No. - Write count 0 0~65535 (FFFFh) Accumulates the No. of M/C into which CRU is installed.
755-022 #Y_CRU TYPE CRU 
Ty p e0~255 (FFh) CRU Type is recorded.
755-028 #M_Drum Life Count - kCy 0 0~3000 (BB8h) To determine Drum Life
755-029 M_Drum Cycle Count - Total 0 0~6M (5B8D80h) 
(1bit= 0.1cycle)Total P/R Cumulative No. of Rotations [To detect Life]
755-030 #M_DC Drum Cycle Count 0 0~6M (5B8D80h) 
(1bit= 0.1cycle)DC Charged l P/R Cumulative No. of Rotations [To detect Life]
755-031 #M_AC Drum Cycle Count 0 0~6M (5B8D80h) 
(1bit= 0.1cycle)AC Charged l P/R Cumulative No. of Rotations [To detect Life] 
						

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6-39 DC1632/2240General Procedures and Information Prelaunch Training/Review 755-032 #M_Print Count - Color 0 0~100K (186A0h)Accumulates the No. of Prints for FC Job.
755-033 #M_Print Count - Black 00~100K (186A0h) Accumulates the No. of Prints for BW Job.
755-034 #M_Print Count - Full Color, A4L only 0 0~20000K 
(1312D00h) (1bit= 
100/A4.1 sheet)Accumulates the No. of Prints - A4LEF for FC Job.
755-035 #M_Print Count - Black, A4L only 0 0~20000K 
(1312D00h) (1bit= 
100/A4.1 sheet)Accumulates the No. of Prints - A4LEF for BW Job.
755-036 #M_Shutdown Count - Full Color 0 0~65535 (FFFFh) [Description] = 
755-037 #M_Shutdown Count - Black 0 0~65535 (FFFFh) [Description] = 
755-038 #M_Setup Count - Full Color 0 0~65535 (FFFFh) Accumulates the No. of Setups immediately after FC Job.
755-039 #M_Setup Count - Black 0 0~65535 (FFFFh) Accumulates the No. of Setups immediately after BW Job.
755-040 #M_First Install - Year 0 0~99 (63h) Writes the date info when the first job was performed.
755-041 #M_First Install - Month 0 0~12 (Ch) Writes the date info when the first job was performed.
755-042 #M_First Install - Day 0 0~31 (1Fh) Writes the date info when the first job was performed.
755-043 #M_First install, Part#1 0 0~65535 (FFFFh) Records the M/C Serial No. when the CRU was first installed.
755-044 #M_First install, Part#2 0 0~65535 (FFFFh) Records the M/C Serial No. when the CRU was first installed.
755-045 #M_Last install, Part#1 0 0~65535 (FFFFh) Records the M/C (2nd time onwards) Serial No. when the CRU was last installed.
755-046 #M_Last install, Part#2 0 0~65535 (FFFFh) Records the M/C (2nd time onwards) Serial No. when the CRU was last installed.
755-047 #M_Machine Serial No. - Write count 0 0~65535 (FFFFh) Accumulates the No. of M/C into which CRU is installed.
755-049 #M_CRU TYPE CRU 
Type0~255 (FFh) CRU Type is recorded.
755-055 #C_Drum Life Count - kCy 0 0~3000 (BB8h) To determine Drum Life
755-056 #C_Drum Cycle Count - Total 0 0~6M (5B8D80h) 
(1bit= 0.1cycle)Total P/R Cumulative No. of Rotations [To detect Life]
755-057 #C_DC Drum Cycle Count 0 0~6M (5B8D80h) 
(1bit= 0.1cycle)DC Charged l P/R Cumulative No. of Rotations [To detect Life]
755-058 #C_AC Drum Cycle Count 0 0~6M (5B8D80h) 
(1bit= 0.1cycle)AC Charged l P/R Cumulative No. of Rotations [To detect Life]
755-059 #C_Print Count - Color 0 0~100K (186A0h)Accumulates the No. of Prints for FC Job.
755-060 #C_Print Count - Black 0 0~100K (186A0h)Accumulates the No. of Prints for BW Job.
755-061 #C_Print Count - Full Color, A4L only 0 0~20000K 
(1312D00h) (1bit= 
100/A4.1 sheet)Accumulates the No. of Prints - A4LEF for FC Job.
755-062 #C_Print Count - Black, A4L only 0 0~20000K 
(1312D00h) (1bit= 
100/A4.1 sheet)Accumulates the No. of Prints - A4LEF for BW Job.
755-063 #C_Shutdown Count - Full Color 0 0~65535 (FFFFh) [Description] = 
755-064 #C_Shutdown Count - Black 00~65535 (FFFFh) [Description] = 
755-065 #C_Setup Count - Full Color 0 0~65535 (FFFFh) Accumulates the No. of Setups immediately after FC Job.
755-066 #C_Setup Count - Black 0 0~65535 (FFFFh) Accumulates the No. of Setups immediately after BW Job.
755-067 #C_First Install - Year 0 0~99 (63h) Writes the date info when the first job was performed.
755-068 #C_First Install - Month 0 0~12 (Ch) Writes the date info when the first job was performed.Table 14 Chain 755
Chain-Link Name Default Range Description 
						

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6-40DC1632/2240 Prelaunch Training/Review General Procedures and Information755-069 #C_First Install - Day 0 0~31 (1Fh) Writes the date info when the first job was performed.
755-070 #C_First install, Part#1 0 0~65535 (FFFFh) Records the M/C Serial No. when the CRU was first installed.
755-071 #C_First install, Part#2 0 0~65535 (FFFFh) Records the M/C Serial No. when the CRU was first installed.
755-072 #C_Last install, Part#1 0 0~65535 (FFFFh) Records the M/C (2nd time onwards) Serial No. when the CRU was last installed.
755-073 #C_Last install, Part#2 0 0~65535 (FFFFh) Records the M/C (2nd time onwards) Serial No. when the CRU was last installed.
755-074 #C_Machine Serial No. - Write count 0 0~65535 (FFFFh) Accumulates the No. of M/C into which CRU is installed.
755-076 #C_CRU TYPE CRU 
Ty p e0~255 (FFh) CRU Type is recorded.
755-082 #K_Drum Life Count - kCy 0 0~3000 (BB8h) To determine Drum Life
755-083 #K_Drum Cycle Count - Total 0 0~6M (5B8D80h) 
(1bit= 0.1cycle)Total P/R Cumulative No. of Rotations [To detect Life]
755-084 #K_DC Drum Cycle Count 0 0~6M (5B8D80h) 
(1bit= 0.1cycle)DC Charged l P/R Cumulative No. of Rotations [To detect Life]
755-085 #K_AC Drum Cycle Count 0 0~6M (5B8D80h) 
(1bit= 0.1cycle)AC Charged l P/R Cumulative No. of Rotations [To detect Life]
755-086 #K_Print Count - Color 0 0~100K (186A0h)Accumulates the No. of Prints for FC Job.
755-087 #K_Print Count - Black 00~100K (186A0h) Accumulates the No. of Prints for BW Job.
755-088 #K_Print Count - Full Color, A4L only 0 0~20000K 
(1312D00h) (1bit= 
100/A4.1 sheet)Accumulates the No. of Prints - A4LEF for FC Job.
755-089 #K_Print Count - Black, A4L only 0 0~20000K 
(1312D00h) (1bit= 
100/A4.1 sheet)Accumulates the No. of Prints - A4LEF for BW Job.
755-090 #K_Shutdown Count - Full Color 0 0~65535 (FFFFh)  
755-091 #K_Shutdown Count - Black 0 0~65535 (FFFFh)  
755-092 #K_Setup Count - Full Color 0 0~65535 (FFFFh) Accumulates the No. of Setups immediately after FC Job.
755-093 #K_Setup Count - Black 0 0~65535 (FFFFh) Accumulates the No. of Setups immediately after BW Job.
755-094 #K_First Install - Year 0 0~99 (63h) Writes the date info when the first job was performed.
755-095 #K_First Install - Month 0 0~12 (Ch) Writes the date info when the first job was performed.
755-096 #K_First Install - Day 0 0~31 (1Fh) Writes the date info when the first job was performed.
755-097 #K_First install, Part#1 0 0~65535 (FFFFh) Records the M/C Serial No. when the CRU was first installed.
755-098 #K_First install, Part#2 0 0~65535 (FFFFh) Records the M/C Serial No. when the CRU was first installed.
755-099 #K_Last install, Part#1 0 0~65535 (FFFFh) Records the M/C (2nd time onwards) Serial No. when the CRU was last installed.
755-100 #K_Last install, Part#2 0 0~65535 (FFFFh) Records the M/C (2nd time onwards) Serial No. when the CRU was last installed.
755-101 #K_Machine Serial No. - Write count 0 0~65535 (FFFFh) Accumulates the No. of M/C into which CRU is installed.
755-103 #K_CRU TYPE CRU 
Ty p e0~255 (FFh) CRU Type is recorded.Table 14 Chain 755
Chain-Link Name Default Range Description 
						

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6-41 DC1632/2240General Procedures and Information Prelaunch Training/Review
760-xxx Regicon NVM List
Table 15 Chain 760
Chain-Link Name Default Range Description
760-006 Block 3 0~4 Threshold of pattern valid no. of Blocks. Fail occurs if the value is not corrected below the Threshold.
760-007 Y-MAG 716 0~1432 Adjusts the Fast Scan direction image 100% magnification by switching the average frequency of each ROS 
Video lock. (4 Colors/Correction Resolution Ability =  1/4 Pixel unit)
760-008 M-MAG 716 0~1432 Adjusts the Fast Scan direction image 100% magnification by switching the average frequency of each ROS 
Video lock. (4 Colors/Correction Resolution Ability =  1/4 Pixel unit)
760-009 C-MAG 716 0~1432 Adjusts the Fast Scan direction image 100% magnification by switching the average frequency of each ROS 
Video lock. (4 Colors/Correction Resolution Ability =  1/4 Pixel unit)
760-010 K-MAG 716 0~1432 Adjusts the Fast Scan direction image 100% magnification by switching the average frequency of each ROS 
Video lock. (4 Colors/Correction Resolution Ability =  1/4 Pixel unit)
760-011 Y-BAL 421 0~842 Adjusts the Left Right Magnification with respect to Fast Scan direction image center by changing the slant of 
ROS Video Lock Sweep. (4 Colors/Correction Resolution Ability =  1/8 Pixel unit)
760-012 M-BAL 421 0~842 Adjusts the Left Right Magnification with respect to Fast Scan direction image center by changing the slant of 
ROS Video Lock Sweep. (4 Colors/Correction Resolution Ability =  1/8 Pixel unit)
760-013 C-BAL 421 0~842 Adjusts the Left Right Magnification with respect to Fast Scan direction image center by changing the slant of 
ROS Video Lock Sweep. (4 Colors/Correction Resolution Ability =  1/8 Pixel unit)
760-014 K-BAL 421 0~842 Adjusts the Left Right Magnification with respect to Fast Scan direction image center by changing the slant of 
ROS Video Lock Sweep. (4 Colors/Correction Resolution Ability =  1/8 Pixel unit)
760-015 Y-Skew misregistration  500 0~1000 100=1 rotation. 500 and above=CW direction, Below 500=CCW direction
760-016 M-Skew misregistration  500 0~1000 100=1 rotation. 500 and above=CW direction, Below 500=CCW direction
760-017 C-Skew misregistration  500 0~1000 100=1 rotation. 500 and above=CW direction, Below 500=CCW direction
760-018 K-Skew misregistration  500 0~1000 100=1 rotation. 500 and above=CW direction, Below 500=CCW direction
760-019 Y-XSO 236 0~472 Adjusts the Fast Scan direction write start position by the No. of Video Locks from SOS Signal. (4 Colors/Cor-
rection Resolution Ability =  1 Pixel unit)
760-020 M-XSO 236 0~472 Adjusts the Fast Scan direction write start position by the No. of Video Locks from SOS Signal. (4 Colors/Cor-
rection Resolution Ability =  1 Pixel unit)
760-021 C-XSO 236 0~472 Adjusts the Fast Scan direction write start position by the No. of Video Locks from SOS Signal. (4 Colors/Cor-
rection Resolution Ability =  1 Pixel unit)
760-022 K-XSO 236 0~472 Adjusts the Fast Scan direction write start position by the No. of Video Locks from SOS Signal. (4 Colors/Cor-
rection Resolution Ability =  1 Pixel unit)
760-023 Y-YSO 237 0~474 Adjusts the Slow Scan direction write start position by the No. of LS Signal Counts from the ROS/Image/Patch 
Start Signal. (4 Colors/Correction Resolution Ability =  1 Pixel unit)
760-024 M-YSO 237 0~474 Adjusts the Slow Scan direction write start position by the No. of LS Signal Counts from the ROS/Image/Patch 
Start Signal. (4 Colors/Correction Resolution Ability =  1 Pixel unit)
760-025 C-YSO 237 0~474 Adjusts the Slow Scan direction write start position by the No. of LS Signal Counts from the ROS/Image/Patch 
Start Signal. (4 Colors/Correction Resolution Ability =  1 Pixel unit)
760-026 K-YSO 237 0~474 Adjusts the Slow Scan direction write start position by the No. of LS Signal Counts from the ROS/Image/Patch 
Start Signal. (4 Colors/Correction Resolution Ability =  1 Pixel unit)
760-027 Regi Con/Circum. Length Correction 
implement SW3 0~3 For check during servicing etc. 0 =  Does not perform Regi Control nor Circumference Length Correction 1 =  
Performs Regi Control, does not perform Circumference Length Correction 2 =  Does not perform Regi Control, 
performs Circumference Length Correction 3 =  Performs Regi Control and Circumference Length Correction
760-028 RC Start Temp 40 10~250 Threshold of (Normal) Regi Control Implementation Temperature difference. Value on the left is 10 times of the 
Temperature. (0.1 Degree Celsius interval) 
						

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6-42DC1632/2240 Prelaunch Training/Review General Procedures and Information760-029 OLRC implementation SW 1 0~1 0 =  Does not perform OLRegi Control 1 =  Performs OLRegi Control
760-030 Y-OLRC Start Temp 30 10~100 Threshold of Yellow Open Loop Regi Control Implementation Temperature difference. Value on the left is 10 
times of the Temperature. (0.1 Degree Celsius interval)
760-031 M-OLRC Start Temp 30 10~100 Threshold of Magenta Open Loop Regi Control Implementation Temperature difference. Value on the left is 10 
times of the Temperature. (0.1 Degree Celsius interval)
760-032 K-OLRC Start Temp 30 10~100 Threshold of Black Open Loop Regi Control Implementation Temperature difference. Value on the left is 10 
times of the Temperature. (0.1 Degree Celsius interval)
760-035 Aok (for Diag Regi Con) 20 1~24 Threshold of No. of valid Blocks of fine adjustment pattern at Diag Regi Control (DC685). NG occurs if the value 
is out corrected below the Threshold.
760-036 Aok (for normal Regi Con) 8 1~12 Threshold of No. of valid Blocks of fine adjustment pattern at Normal Regi Control. NG occurs if the value is out 
corrected below the Threshold.
760-037 LEDset-IN-A 2 0~2 MOB LED ON/OFF and Light Quantity Step at IN side. 0 =  Off 1 =  Low 2 =  High
760-038 LEDset-IN-B 2 0~2 MOB LED ON/OFF and Light Quantity Step at IN side.0 =  Off 1 =  Low 2 =  High
760-043 LEDset-OUT-A 2 0~2 MOB LED ON/OFF and Light Quantity Step at OUT side. 0 =  Off 1 =  Low 2 =  High
760-044 LEDset-OUT-B 2 0~2 MOB LED ON/OFF and Light Quantity Step at OUT side 0 =  Off 1 =  Low 2 =  High
760-049 Y-XBI 0 0~3 Adjusts the Fast Scan direction write start position by Switching the Video Lock position phase from SOS Sig-
nal. (4 Colors/Correction Resolution Ability =  1 Pixel unit)
760-050 M-XBI 0 0~3 Adjusts the Fast Scan direction write start position by Switching the Video Lock position phase from SOS Sig-
nal. (4 Colors/Correction Resolution Ability =  1 Pixel unit)
760-051 C-XBI 0 0~3 Adjusts the Fast Scan direction write start position by Switching the Video Lock position phase from SOS Sig-
nal. (4 Colors/Correction Resolution Ability =  1 Pixel unit)
760-052 K-XBI 0 0~3 Adjusts the Fast Scan direction write start position by Switching the Video Lock position phase from SOS Sig-
nal. (4 Colors/Correction Resolution Ability =  1 Pixel unit)
760-053 Y-OLXSO 10 0~20 The normal Regi Control cycle, separately adjusts the Fast Scan direction write start position by the No. of 
Video Locks from SOS signal in an Open Loop, from the temperature detection result. (4 Colors/Correction 
Resolution Ability =  1 Pixel unit)
760-054 M-OLXSO 10 0~20 The normal Regi Control cycle, separately adjusts the Fast Scan direction write start position by the No. of 
Video Locks from SOS signal in an Open Loop, from the temperature detection result. (4 Colors/Correction 
Resolution Ability =  1 Pixel unit)
760-055 C-OLXSO 10 0~20 The normal Regi Control cycle separately adjusts the Fast Scan direction write start position by the No. of Video 
Locks from SOS signal in an Open Loop, from the temperature detection result. (4 Colors/Correction Resolution 
Ability =  1 Pixel unit)
760-056 K-OLXSO 10 0~20 The normal Regi Control cycle, separately adjusts the Fast Scan direction write start position by the No. of 
Video Locks from SOS signal in an Open Loop, from the temperature detection result. (4 Colors/Correction 
Resolution Ability =  1 Pixel unit)
760-057 Y-OLXBI 0 0~3 The normal Regi Control cycle, separately adjusts the Fast Scan direction write start position by replacing the 
Video Locks phase from SOS signal in an Open Loop, from the temperature detection result. (4 Colors/Correc-
tion Resolution Ability =  1 Pixel unit)
760-058 M-OLXBI 0 0~3 The normal Regi Control cycle, separately adjusts the Fast Scan direction write start position by replacing the 
Video Locks phase from SOS signal in an Open Loop, from the temperature detection result. (4 Colors/Correc-
tion Resolution Ability =  1 Pixel unit)
760-059 O-OLXBI 0 0~3 The normal Regi Control cycle, separately adjusts the Fast Scan direction write start position by replacing the 
Video Locks phase from SOS signal in an Open Loop, from the temperature detection result. (4 Colors/Correc-
tion Resolution Ability =  1 Pixel unit)Table 15 Chain 760
Chain-Link Name Default Range Description 
						

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6-43 DC1632/2240General Procedures and Information Prelaunch Training/Review 760-060 K-OLXBI 0 0~3 The normal Regi Control cycle, separately adjusts the Fast Scan direction write start position by replacing the 
Video Locks phase from SOS signal in an Open Loop, from the temperature detection result. (4 Colors/Correc-
tion Resolution Ability =  1 Pixel unit)
760-061 Y-OLYSO 4 0~20 The normal Regi Control cycle, separately adjusts the Slow Scan direction write start position by the LS signal 
No. of  Counts from the ROS Image/Patch start signal in an Open Loop from the Temperature detection result. 
(4 Colors/Correction Resolution Ability =  1 Pixel unit)
760-062 M-OLYSO 10 0~20 The normal Regi Control cycle, separately adjusts the Slow Scan direction write start position by the LS signal 
No. of  Counts from the ROS Image/Patch start signal in an Open Loop from the Temperature detection result. 
(4 Colors/Correction Resolution Ability =  1 Pixel unit)
760-063 C-OLYSO 10 0~20 The normal Regi Control cycle, separately adjusts the Slow Scan direction write start position by the LS signal 
No. of  Counts from the ROS Image/Patch start signal in an Open Loop from the Temperature detection result. 
(4 Colors/Correction Resolution Ability =  1 Pixel unit)
760-064 K-OLYSO 10 0~20 The normal Regi Control cycle, separately adjusts the Slow Scan direction write start position by the LS signal 
No. of  Counts from the ROS Image/Patch start signal in an Open Loop from the Temperature detection result. 
(4 Colors/Correction Resolution Ability =  1 Pixel unit)
760-065 Y-OLMAG 100 0~200 The normal Regi Control separately adjusts the Fast Scan direction image 100% magnification by switching the 
average frequency of each ROS Video Lock in an Open Loop from the Temperature detection result. (4 Colors/
Correction Resolution Ability =  1/4 Pixel unit)
760-066 M-OLMAG 100 0~200 The normal Regi Control separately adjusts the Fast Scan direction image 100% magnification by switching the 
average frequency of each ROS Video Lock in an Open Loop from the Temperature detection result. (4 Colors/
Correction Resolution Ability =  1/4 Pixel unit)
760-067 C-OLMAG 100 0~200 The normal Regi Control separately adjusts the Fast Scan direction image 100% magnification by switching the 
average frequency of each ROS Video Lock in an Open Loop from the Temperature detection result. (4 Colors/
Correction Resolution Ability =  1/4 Pixel unit)
760-068 K-OLMAG 100 0~200 The normal Regi Control separately adjusts the Fast Scan direction image 100% magnification by switching the 
average frequency of each ROS Video Lock in an Open Loop from the Temperature detection result. (4 Colors/
Correction Resolution Ability =  1/4 Pixel unit)
760-070 Y-LD light volume at last RegiCon 0 0~1023  LD Light Quantity when Regi Control is performed.
760-071  M-LD light volume at last RegiCon 0 0~1023 LD Light Quantity when Regi Control is performed.
760-072 C-LD light volume at last RegiCon 0 0~1023  LD Light Quantity when Regi Control is performed.
760-073 K-LD light volume at last RegiCon 0 0~1023  LD Light Quantity when Regi Control is performed.
760-074 Y-XSO after LD light volume change 236 0~472 XSO value after correction based on the LD Light Quantity variation
760-075 M-XSO after LD light volume change 236 0~472 XSO value after correction based on the LD Light Quantity variation
760-076 C-XSO after LD light volume change 236 0~472 XSO value after correction based on the LD Light Quantity variation
760-077 K-XSO after LD light volume change 236 0~472 XSO value after correction based on the LD Light Quantity variation
760-078 Y-XBI after LD light volume change 0 0~3 XBI value after correction based on the LD Light Quantity variation
760-079 M-XBI after LD light volume change 0 0~3 XBI value after correction based on the LD Light Quantity variation
760-080 C-XBI after LD light volume change 0 0~3 XBI value after correction based on the LD Light Quantity variation
760-081 K-XBI after LD light volume change 0 0~3 XBI value after correction based on the LD Light Quantity variationTable 15 Chain 760
Chain-Link Name Default Range Description 
						

							6/02
6-44DC1632/2240 Prelaunch Training/Review General Procedures and Information
762-xxx Developer NVM List
Table 16 Chain 762
Chain-Link Name Default Range Description
762-002 #YMC Normal VM1 value 351 0~1023 
(1bit= -0.684V)Vm1 Developer DC energized voltage at YMC Color/Normal speed (104mm/s)
762-008 #YM_DB AC Normal Vp-p value 600 0~1023 
(1bit= 1.491Vpp)AC peak to peak energized voltage at YM Color/Normal speed.
762-012 #K_DB DC Normal Vm1 value 351 0~1023 
(1bit= -0.684V)Vm1 Developer DC energized voltage at K Color/Normal speed (104mm/s)
762-013 #CK_DB AC Normal Vp-p value 600 0~1023 
(1bit= 1.491Vpp)AC peak to peak energized voltage at CK Color/Normal speed.
762-018 #YMC_DB DC Half-speed Vm1 value 351 0~1023 
(1bit= -0.684V)Vm1 Developer DC energized voltage at YMC Color/Half speed (52mm/s)
762-024 #YM_DB AC Half-speed Vp-p value 600 0~1023 
(1bit= 1.491Vpp)AC peak to peak energized voltage at YM Color/Half speed.
762-028 #K_DB DC Half-speed Vm1 value 351 0~1023 
(1bit= -0.684V)Vm1 Developer DC energized voltage at K Color/Half speed (52mm/s)
762-029 #CK_DB AC Half-speed Vp-p value 600 0~1023 
(1bit= 1.491Vpp)AC peak to peak energized voltage at CK Color/Half speed.
762-043 Pixel/Drum rotation threshold for Deve-
Band20 0~65535 A standard value (Cumulative No. of Pixels/Drum Rotations) for creation DeveBand.
762-044 Cumulative ICDC_Band_Value_Y 0 0~409600 Y Color Cumulative Pixels
762-045 Cumulative ICDC_Band_Value_M 0 0~409600 M Color Cumulative Pixels
762-046 Cumulative ICDC_Band_Value_C 0 0~409600 C Color Cumulative Pixels
762-047 Cumulative ICDC_Band_Value_K 0 0~409600 K Color Cumulative Pixels
762-053 #YM_DB AC Normal Frequency 60 0~127 AC Energized Voltage Frequency at YM Color Normal Speed
762-054 #YM_DB AC Normal Output Phase 
value65 0~127 AC Energized Voltage Phase Value at YM Color Normal Speed
762-059 #CK_DB AC Normal Frequency 60 0~127 AC Energized Voltage Frequency at CK Color Normal Speed
762-060 #CK_DB AC Normal Output Phase 
value65 0~127 AC Energized Voltage Phase Value at CK Color Normal Speed
762-064 #YM_DB AC Half-speed Frequency 60 0~127 AC Energized Voltage Frequency at YM Color Half Speed
762-065 YM_DB AC Half-speed Output Phase 
value65 0~127 AC Energized Voltage Phase Value at YM Color Half Speed
762-070 #CK_DB AC Half-speed Frequency 60 0~127 AC Energized Voltage Frequency at CK Color Half Speed
762-071 #CK_DB AC Half-speed Output Phase 
value65 0~127 AC Energized Voltage Phase Value at CK Color Half Speed
762-081 #Y_DB DC VB1 ON Normal Timing 110 0~255 
(1bit= 2.4462ms)Rising timing from Vm1 to VB1 at Y Color Normal Speed.
762-082 #M_DB DC VB1 ON Normal Timing 110 0~255 
(1bit= 2.4462ms)Rising timing from Vm1 to VB1 at M Color Normal Speed.
762-083 #C_DB DC VB1 ON Normal Timing 110 0~255 Rising timing from Vm1 to VB1 at C Color Normal Speed. (1bit= 2.4462ms)
762-084 #K_DB DC VB1 ON Normal Timing 102 0~255 Rising timing from Vm1 to VB1 at K Color Normal Speed. (1bit= 2.4462ms)
762-089 #Y_DB DC VB OFF Normal Timing 90 0~255 Falling timing from VB to VB2 at Y Color Normal Speed. (1bit= 2.4462ms) 
						

							6/02
6-45 DC1632/2240General Procedures and Information Prelaunch Training/Review 762-090 #M_DB DC VB OFF Normal Timing 90 0~255 Falling timing from VB to VB2 at M Color Normal Speed. (1bit= 2.4462ms)
762-091 #C_DB DC VB OFF Normal Timing 90 0~255 Falling timing from VB to VB2 at C Color Normal Speed. (1bit= 2.4462ms)
762-092 #K_DB DC VB OFF Normal Timing 82 0~255 Falling timing from VB to VB2 at K Color Normal Speed. (1bit= 2.4462ms)
762-093 #YM_DB AC ON Normal Timing 110 0~255 AC Voltage Energized timing at YM Color Normal Speed. (1bit= 2.4462ms)
762-094 #CK_DB AC ON Normal Timing 110 0~255 AC Voltage Energized timing at CK Color Normal Speed. (1bit= 2.4462ms)
762-095 #YM_DB AC OFF Normal Timing 118 0~255 AC Voltage off timing at YM Color Normal Speed. (1bit= 2.4462ms)
762-096 #CK_DB AC OFF Normal Timing 118 0~255 AC Voltage Off timing at CK Color Normal Speed.
762-105 #Y_DB DC VB1 ON Half-speed Timing 104 0~255 (1bit= 
4.8924ms)Rising timing from Vm1 to VB1 at Y Color Half Speed.
762-106 #M_DB DC VB1 ON Half-speed Timing 104 0~255 (1bit= 
4.8924ms)Rising timing from Vm1 to VB1 at M Color Half Speed.
762-107 #C_DB DC VB1 ON Half-speed Timing 104 0~255 (1bit= 
4.8924ms)Rising timing from Vm1 to VB1 at C Color Half Speed.
762-108 #K_DB DC VB1 ON Half-speed Timing 94 0~255 (1bit= 
4.8924ms)Rising timing from Vm1 to VB1 at K Color Half Speed.
762-113 #Y_DB DC VB OFF Half-speed Timing 92 0~255 (1bit= 
4.8924ms)Falling timing from VB to VB2 at Y Color Half Speed.
762-114 #M_DB DC VB OFF Half-speed Timing 92 0~255 (1bit= 
4.8924ms)Falling timing from VB to VB2 at M Color Half Speed.
762-115 #C_DB DC VB OFF Half-speed Timing 92 0~255 (1bit= 
4.8924ms)Falling timing from VB to VB2 at C Color Half Speed.
762-116 #K_DB DC VB OFF Half-speed Timing 88 0~255 (1bit= 
4.8924ms)Falling timing from VB to VB2 at K Color Half Speed.
762-117 #YM_ DB AC ON Half-speed Timing 110 0~255 (1bit= 
4.8924ms)AC Voltage Energized timing at YM Color Half Speed.
762-118 #CK_ DB AC ON Half-speed Timing 110 0~255 (1bit= 
4.8924ms)AC Voltage Energized timing at CK Color Half Speed.
762-119 #YM_ DB AC OFF Half-speed Timing 108 0~255 (1bit= 
4.8924ms)AC Voltage off timing at YM Color Half Speed.
762-120 #CK_ DB AC OFF Half-speed Timing 108 0~255 (1bit= 
4.8924ms)AC Voltage off timing at CK Color Half Speed.
762-121 #YMC_Deve MOT ON Normal Timing 184 0~255 Color Developer during motor rising timing at Normal Speed. (1bit= 2.4462ms)
762-122 #YMC_Deve MOT OFF Normal Timing 303 0~1023 Color Developer during motor falling timing at Normal Speed. (1bit= 2.4462ms)
762-123 #YMC_Deve MOT ON Half-speed Tim-
ing184 0~255 (1bit= 
4.8924ms)Color Developer during motor rising timing at Half Speed.
762-124 #YMC_Deve MOT OFF Half-speed 
Timing303 0~1023 (1bit= 
4.8924ms)Color Developer during motor falling timing at Half Speed.
762-134 #K_Deve C/L ON Normal Timing 164 0~255 K Color Developer during clutch rising timing at Normal Speed. (1bit= 2.4462ms)
762-135 #K_Deve C/L OFF Normal Timing 531 0~1023 K Color Developer during clutch falling timing at Normal Speed. (1bit= 2.4462ms)
762-136 #K_Deve C/L ON Half-speed Timing 164 0~255 (1bit= 
4.8924ms)K Color Developer during clutch rising timing at Half Speed.
762-137 #K_Deve C/L OFF Half-speed Timing 531 0~1023 (1bit= 
4.8924ms)K Color Developer during clutch falling timing at Half Speed.Table 16 Chain 762
Chain-Link Name Default Range Description 
						

							6/02
6-46DC1632/2240 Prelaunch Training/Review General Procedures and Information762-173 #Y_DB DC VB ON Normal Timing 370 0~1023 Rising timing from VB3 to VB at Y Color Normal Speed. (1bit= 2.4462ms)
762-174 #M_DB DC VB ON Normal Timing 370 0~1023 Rising timing from VB3 to VB at M Color Normal Speed. (1bit= 2.4462ms)
762-175 #C_DB DC VB ON Normal Timing 370 0~1023 Rising timing from VB3 to VB at C Color Normal Speed. (1bit= 2.4462ms)
762-176 #K_DB DC VB ON Normal Timing 370 0~1023 Rising timing from VB3 to VB at K Color Normal Speed. (1bit= 2.4462ms)
762-177 #Y_DB DC VB ON Half-speed Timing 370 0~1023 (1bit= 
4.8924ms)Rising timing from VB3 to VB at Y Color Half Speed.
762-178 #M_DB DC VB ON Half-speed Timing 370 0~1023 (1bit= 
4.8924ms)Rising timing from VB3 to VB at M Color Half Speed.
762-179 #C_DB DC VB ON Half-speed Timing 370 0~1023 (1bit= 
4.8924ms)Rising timing from VB3 to VB at C Color Half Speed.
762-180 #K_DB DC VB ON Half-speed Timing 370 0~1023 (1bit= 
4.8924ms)Rising timing from VB3 to VB at K Color Half Speed.
762-185 #YMC_DB DC Normal VB3 Value 877 0~1023 (1bit= -
0.684V)VB3 Developer DC Energized Voltage value of YMC Color/Normal Speed.
762-186 #K_DB DC Normal VB3 Value 877 0~1023 (1bit= -
0.684V)VB3 Developer DC Energized Voltage value of K Color/Normal Speed.
762-187 #YMC_DB DC Half-speed VB3 Value 877 0~1023 (1bit= -
0.684V)VB3 Developer DC Energized Voltage value of YMC Color/Half Speed.
762-188 #K_DB DC Half-speed VB3 Value 877 0~1023 (1bit= -
0.684V)VB3 Developer DC Energized Voltage value of K Color/Half Speed.
762-190 #4DB DC Hi-speed VM1 Value 351 0~1023 (1bit= -
0.684V)Vm1 Developer DC Energized Voltage value at K Color/High Speed.
762-194 #K_DB DC Hi-speed VM3 Value 877 0~1023 (1bit= -
0.684V)VB3 Developer DC Energized Voltage value at K Color/High Speed.
762-195 #K_DB DC Vm0 ON Hi-speed Timing 107 0~255 (1bit= 
1.3114ms)Rising timing from 0v to Vm0 at K Color/High Speed.
762-196 #K_DB DC Vm1 OFF Hi-speed Timing 99 0~255 (1bit= 
1.3114ms)Falling timing from Vm1 to Vm0 at K Color/High Speed.
762-197 #K_DB DC VB1 ON Hi-speed Timing 130 0~255 (1bit= 
1.3114ms)Rising timing from Vm1 to VB1 at K Color/High Speed.
762-202 #K_DB DC VB OFF Hi-speed Timing 91 0~255 (1bit= 
1.3114ms)Falling timing from VB to VB2 at K Color/High Speed.
762-203 #CK_DB AC ON Hi-speed Timing 137 0~255 (1bit= 
1.3114ms)AC Voltage Energized timing at CK Color High Speed.
762-204 #CK_DB AC OFF Hi-speed Timing 137 0~255 (1bit= 
1.3114ms)AC Voltage off timing at CK Color High Speed.
762-210 #K_DB DC VB ON Hi-speed Timing 370 0~1023 (1bit= 
1.3114ms)Rising timing from VB3 to VB at K Color/High Speed.
762-211 #1, 2DB AC Target Value at 1200dpi 600 0~1023 (1bit= 
1.491V)AC peak to peak energized voltage at YM Color 1200dpi/Normal Speed Setup
762-213 #3, 4DB AC Target Value at 1200dpi 600 0~1023 (1bit= 
1.491V)AC peak to peak energized voltage at CK Color 1200dpi/Normal Speed Setup
762-215 #1, 2DB AC Target Value at 1200dpi/
Half-speed600 0~1023 (1bit= 
1.491V)AC peak to peak energized voltage at YM Color 1200dpi/Half Speed SetupTable 16 Chain 762
Chain-Link Name Default Range Description