Sharp MX-5500N / MX-6200N / MX-7000N (serv.man46) Service Manual ▷ View online
MX-7000N SIMULATION 7 – 57
44-27
Purpose
Data clear
Function (Purpose) Used to clear the half tone process correc-
tion value.
Section
Operation/Procedure
44-28
Purpose
Adjustment/Setting
Function (Purpose) Used to set the process control execution
timing.
Section
Operation/Procedure
1)
1)
Select an item to be set with [
↑] and [↓] keys on the touch
panel.
2)
Enter the adjustment value with 10-key.
3)
Press [OK] key. (The set value is saved.)
SIMULATION NO.44-26
TEST
HALF TONE DENSITY CORRECT EXECUTION
EXECUTE
CLOSE
TOUCH [EXECUTE] THEN EXECUTION START.
SIMULATION NO.44-27
TEST
HALF TONE PROCON ADJUSTMENT DATA CLEAR
CLOSE
EXECUTE
ARE YOU SURE?
YES
NO
Item
Default
value
A
SW ON
When the power is supplied (when sleep is canceled.)
0:
Allow
0
1:
Inhibit
B
24H
When 24 hours or more passed with READY (sleep setting)
0:
Allow
0
1:
Inhibit
C
HUM
When a change in temperature/humidity for each Item I is
greater than item K when compared with the previous
process control execution
greater than item K when compared with the previous
process control execution
0:
Allow
0
1:
Inhibit
D
REV1
When the accumulated traveling distance of BK or M
photoconductor has passed for a certain time after supplying
the power.
photoconductor has passed for a certain time after supplying
the power.
0:
Allow
0
1:
Inhibit
E
REC2
When the accumulated traveling distance of BK or M
photoconductor has passed for a certain time after execution
of the previous density correction
photoconductor has passed for a certain time after execution
of the previous density correction
0:
Allow
0
1:
Inhibit
F
INITIAL
Warm-up after clearing counter of photoconductor and
developer unit
developer unit
0:
Allow
0
1:
Inhibit
G
PIX
When the toner consumption counter reaches the specified
accumulated count.
accumulated count.
0:
Allow
1
1:
Inhibit
H
HUM_LIMIT
The setting condition of item C is added to items A to G.
0:
Allow
1
1:
Inhibit
I
BK ONLY
Monochrome print continuation BK process control execution
inhibit/allow setting and number of repetitions
inhibit/allow setting and number of repetitions
0:
Allow: Five times
5
1:
Allow: Once
2:
Allow: Twice
3:
Allow: Three times
4:
Allow: Four times
5:
Allow: Five times
6:
Inhibit
J
BW_HV
Monochrome speed high density process control execution
setting
setting
0:
BKpr allow/BWpr allow, BW process control execution
when a certain condition is satisfied
when a certain condition is satisfied
5
1:
BKpr allow/BWpr allow, BW process control execution
when a certain condition is satisfied
when a certain condition is satisfied
2:
BKpr allow/BWpr allow, BW process control execution
when a certain condition is satisfied
when a certain condition is satisfied
3:
BKpr allow/BWpr allow, BK process control execution,
continuous BW process control execution
continuous BW process control execution
4:
BKpr allow/BWpr allow, 4-color process control
execution, continuous BW process control execution
execution, continuous BW process control execution
5:
BKpr allow/BWpr allow, BW process control execution
when a certain condition is satisfied
when a certain condition is satisfied
6:
BKpr inhibit/BWpr allow, only BK process control inhibit
7:
BKpr allow/BWpr inhibit, only BW process control inhibit
K
HUM HOUR
Item C temperature/humidity monitor monitoring time interval
(h: hour)
(h: hour)
1 - 24
2
L
HUM_DIF
Item C area difference specified value
1 - 9
2
M
BK_RATIO
Item E BK photoconductor specified accumulated rotation
distance value
distance value
Intermittent print for every 3
1 - 999
20
10: Equivalent to every 80
20: Equivalent to every 160
30: Equivalent to every 240
20: Equivalent to every 160
30: Equivalent to every 240
MX-7000N SIMULATION 7 – 58
44-29
Purpose
(Do not use in the market.)
Function (Purpose) Used to select the half tone correction dur-
ing a job.
Section
Operation/Procedure
44-31
Purpose
Adjustment/Setting
Function (Purpose) Used to adjust the phase of the photocon-
ductor.
Section
Process
Operation/Procedure
NOTE: Since it is rather difficult to perform the manual photocon-
ductor phase adjustment with this simulation, use SIM 50-
22 to perform the automatic adjustment.
22 to perform the automatic adjustment.
N
M_RATIO
Item E M photoconductor specified accumulated rotation
distance value
distance value
Intermittent print for every 3
1 - 999
20
10: Equivalent to every 80
20: Equivalent to every 160
30: Equivalent to every 240
20: Equivalent to every 160
30: Equivalent to every 240
O
PIX_RATIO
Item G toner consumption count specified accumulated value
1 - 999
100
P
COLOR BORDER
M photoconductor traveling distance upper limit when
executing BK process control
executing BK process control
1 - 999
20
Q
HT_DIF
HT process control execution judgment bias change value
difference value
difference value
1 - 255
40
R
BW_RATIO
BW process control BK photoconductor traveling distance
magnification ratio setting (%)
magnification ratio setting (%)
1 - 999
20
S
2TRAN_CLEAN_
TIME1
TIME1
Secondary transfer cleaning process time judgment
threshold value 1 (Unit: Sheet of paper)
threshold value 1 (Unit: Sheet of paper)
1 - 999
200
T
2TRAN_CLEAN_
TIME2
TIME2
Secondary transfer cleaning process time judgment
threshold value 2 (Unit: Sheet of paper)
threshold value 2 (Unit: Sheet of paper)
1 - 999
300
U
2TRAN_CLEAN_
TIME3
TIME3
Secondary transfer cleaning process time judgment
threshold value 3 (Unit: Sheet of paper)
threshold value 3 (Unit: Sheet of paper)
1 - 999
500
Item
Default
value
Item
Default
value
A
COPY
Copier
0 - 4
0: No execution
4
B
PRINTER
Printer
1: HV only
2
C
FAX
FAX
2: HV
→ PHT
2
D
SELF PRINT
Self print
3: HV
→ HT
4
4: HV
→ PHT → HT
A :
0
; SW ON : YES
B :
0
; 24H : YES
C :
0
; HUM : YES
D :
0
; REV1 : YES
A:
SIMULATION NO.44-28
PROCON TIMING ADJUSTMENT
0
0
1
OK
TEST
CLOSE
E :
0
; REV2 : YES
F :
0
; INITIAL : YES
G :
1
; PIX : NO
H :
1
; HUM_LIMIT : NO
I :
5
; BK ONLY
J :
5
; BW_HV
K :
2
; HUM HOUR
L :
2
; HUM_DIF
A : 4
;
COPY : HV PHT
B : 2
;
PRINTER : HV PHT HT
C : 2
;
FAX : HV PHT
D : 4
;
SELF PRINT : HV PHT HT
A:
SIMULATION NO.44-29
HALF TONE SETTING
4
0
4
OK
TEST
CLOSE
Item
Default
value
A
PRINT
MODE
MODE
Print mode
1: Deflection
check pattern
print for every
45
check pattern
print for every
45
° (8-sheet
print)
3
2: Deflection
check pattern
print for every
90
check pattern
print for every
90
° (4-sheet
print)
3: Check pattern
print at the set
value (1-sheet
print)
3: Check pattern
print at the set
value (1-sheet
print)
B
BASE
COLOR
COLOR
Print color select
1: BK
1
2: C
3: M
4: Y
3: M
4: Y
C
PHASE (C)
C tandem phase
setting
Y sensor reference C
phase state is
changed up to 355
setting
Y sensor reference C
phase state is
changed up to 355
° for
every 5
°.
0: 0
°
0
1: 5
°
:
:
:
70: 350
°
71: 355
°
D
PHASE (M)
M tandem phase
setting
Y sensor reference M
phase state is
changed up to 355
setting
Y sensor reference M
phase state is
changed up to 355
° for
every 5
°.
0: 0
°
0
1: 5
°
:
:
:
70: 350
°
71: 355
°
E
START
POINT (CL)
POINT (CL)
Color modulation
timing delay setting
Y sensor reference
color modulation start
timing is changed up
to 355
timing delay setting
Y sensor reference
color modulation start
timing is changed up
to 355
° for every 5°.
0: 0
°
0
1: 5
°
:
:
:
70: 350
°
71: 355
°
F
AMPLITUDE
(CL)
(CL)
Color modulation
amplitude correction
value setting
amplitude correction
value setting
0 - 15
0
MX-7000N SIMULATION 7 – 59
44-37
Purpose
Adjustment/Setting
Function (Purpose) Used to perform the image density correc-
tion setting.
Section
Operation/Procedure
1)
1)
Select a target color for setting with touch panel.
2)
Select a target item with [
↑] and [↓] keys.
3)
Enter the adjustment value with 10-key.
4)
Press [OK] key. (The set value is saved.)
G
START
POINT (BK)
POINT (BK)
BK modulation timing
delay setting
BK sensor reference
BK modulation start
timing is changed up
to 355
delay setting
BK sensor reference
BK modulation start
timing is changed up
to 355
° for every 5°.
0: 0
°
0
1: 5
°
:
:
:
70: 350
°
71: 355
°
H
AMPLITUDE
(BK)
(BK)
BK modulation
amplitude correction
value setting
amplitude correction
value setting
0 - 15
0
I
PAPER
Tray selection
1: Manual feed
4
2: Tray 1
3: Tray 2
4: Tray 3
5: Tray 4
6: LCC
3: Tray 2
4: Tray 3
5: Tray 4
6: LCC
J
MULTI
COUNT
COUNT
Print quantity
1 - 999
1
K
PAPER
TYPE
TYPE
Paper type
1: Normal paper
1
2: Heavy paper
3: OHP
4: Envelope
3: OHP
4: Envelope
Item
Default
value
A : 3
; PRINT MODE : SET VALUE
B : 1
; BASE COLOR : K
C : 0
; PHASE(C) : 0DEG
D : 0
; PHASE(M) : 0DEG
A:
SIMULATION NO.44-31
DRUM POSITION SETTING
3
1
3
OK
TEST
CLOSE
E : 0
; START POINT (CL) : 0DEG
F : 0
; START POINT(BK) : 0DEG
H : 0
I : 4
J : 1
K : 1
; PAPER TYPE : PLAIN
EXECUTE
; AMPLITUDE (CL)
G : 0
; AMPLITUDE (BK)
; PAPER : CS1
; MULTI COUNT
Button
Item
Default
value
K
A
DV_ADJ_CL_K_L_DATA_1
Color print developing bias correction data 1 (low speed)
2
B
DV_ADJ_CL_K_L_DATA_2
Color print developing bias correction data 2 (low speed)
3
C
DV_ADJ_CL_K_L_DATA_3
Color print developing bias correction data 3 (low speed)
4
D
DV_ADJ_CL_K_M_DATA_1
Color print developing bias correction data 1 (Medium speed)
2
E
DV_ADJ_CL_K_M_DATA_2
Color print developing bias correction data 2 (Medium speed)
3
F
DV_ADJ_CL_K_M_DATA_3
Color print developing bias correction data 3 (Medium speed)
4
G
DV_ADJ_BK_H_DATA_1
Black and white print developing bias correction data 1 (High speed)
2
H
DV_ADJ_BK_H_DATA_2
Black and white print developing bias correction data 2 (High speed)
3
I
DV_ADJ_BK_H_DATA_3
Black and white print developing bias correction data 3 (High speed)
4
J
DV_ADJ_START_CL_K_L_1
Color print developing bias correction start position data 1 (less than 10[s] low speed)
4
K
DV_ADJ_START_CL_K_L_2
Color print developing bias correction start position data 2 (more than 10[s], less than 60 [s] low
speed)
speed)
3
L
DV_ADJ_START_CL_K_L_3
Color print developing bias correction start position data 3 (more than 60[s], less than 240 [s] low
speed)
speed)
1
M
DV_ADJ_START_CL_K_L_4
Color print developing bias correction start position data 4 (less than 240 [s] low speed)
1
N
DV_ADJ_START_CL_K_M_1
Color print developing bias correction start position data 1 (less than 10 [s] middle speed)
4
O
DV_ADJ_START_CL_K_M_2
Color print developing bias correction start position data 2 (more than 10 [s] less than 60 [s] middle
speed)
speed)
3
P
DV_ADJ_START_CL_K_M_3
Color print developing bias correction start position data 3 (more than 60 [s] less than 240 [s] middle
speed)
speed)
1
Q
DV_ADJ_START_CL_K_M_4
Color print developing bias correction start position data 4 (more than 240 [s] middle speed)
1
R
DV_ADJ_START_BK_H_1
Black and white print developing bias correction start position data 1 (less than 10 [s] high speed)
4
S
DV_ADJ_START_BK_H_2
Black and white print developing bias correction start position data 2 (more than 10 [s] less than 60
[s] high speed)
[s] high speed)
3
T
DV_ADJ_START_BK_H_3
Black and white print developing bias correction start position data 3 (more than 60 [s] less than 240
[s] high speed)
[s] high speed)
1
U
DV_ADJ_START_BK_H_4
Black and white print developing bias correction start position data 4 (more than 240 [s] high speed)
1
MX-7000N SIMULATION 7 – 60
44-43
Purpose
(Do not use in the market.)
Function (Purpose) Used to check installation of the developing
unit and the current state.
Section
Operation/Procedure
C
A
DV_ADJ_CL_C_L_DATA_1
Developing bias correction data 1 (low speed)
2
B
DV_ADJ_CL_C_L_DATA_2
Developing bias correction data 2 (low speed)
3
C
DV_ADJ_CL_C_L_DATA_3
Developing bias correction data 3 (low speed)
4
D
DV_ADJ_CL_C_M_DATA_1
Developing bias correction data 1 (middle speed)
2
E
DV_ADJ_CL_C_M_DATA_2
Developing bias correction data 2 (middle speed)
3
F
DV_ADJ_CL_C_M_DATA_3
Developing bias correction data 3 (middle speed)
4
G
DV_ADJ_START_CL_C_L_1
Developing bias correction start position data 1 (less than 10 [s] low speed)
4
H
DV_ADJ_START_CL_C_L_2
Developing bias correction start position data 2 (more than 10 [s] less than 60 [s] low speed)
3
I
DV_ADJ_START_CL_C_L_3
Developing bias correction start position data 3 (more than 60 [s] less than 240 [s] low speed)
1
J
DV_ADJ_START_CL_C_L_4
Developing bias correction start position data 4 (more than 240 [s] low speed)
1
K
DV_ADJ_START_CL_C_M_1
Developing bias correction start position data (less than 10 [s] middle speed)
4
L
DV_ADJ_START_CL_C_M_2
Developing bias correction start position data (more than 10 [s] less than 60 [s] middle speed)
3
M
DV_ADJ_START_CL_C_M_3
Developing bias correction start position data (more than 60 [s] less than 240 [s] middle speed)
1
N
DV_ADJ_START_CL_C_M_4
Developing bias correction start position data (more than 240 [s] middle speed)
1
M
A
DV_ADJ_CL_M_L_DATA_1
Developing bias correction data 1 (low speed)
2
B
DV_ADJ_CL_M_L_DATA_2
Developing bias correction data 2 (low speed)
3
C
DV_ADJ_CL_M_L_DATA_3
Developing bias correction data 3 (low speed)
4
D
DV_ADJ_CL_M_M_DATA_1
Developing bias correction data 1 (middle speed)
2
E
DV_ADJ_CL_M_M_DATA_2
Developing bias correction data 2 (middle speed)
3
F
DV_ADJ_CL_M_M_DATA_3
Developing bias correction data 3 (middle speed)
4
G
DV_ADJ_START_CL_M_L_1
Developing bias correction start position data 1 (less than 10 [s] low speed)
4
H
DV_ADJ_START_CL_M_L_2
Developing bias correction start position data 2 (more than 10 [s] less than 60 [s] low speed)
3
I
DV_ADJ_START_CL_M_L_3
Developing bias correction start position data 3 (more than 60 [s] less than 240 [s] low speed)
1
J
DV_ADJ_START_CL_M_L_4
Developing bias correction start position data 4 (more than 240 [s] low speed)
1
K
DV_ADJ_START_CL_M_M_
1
1
Developing bias correction start position data 1 (less than 10 [s] middle speed)
4
L
DV_ADJ_START_CL_M_M_
2
2
Developing bias correction start position data 2 (more than 10 [s] less than 60 [s] middle speed)
3
M
DV_ADJ_START_CL_M_M_
3
3
Developing bias correction start position data 3 (more than 60 [s] less than 240 [s] middle speed)
1
N
DV_ADJ_START_CL_M_M_
4
4
Developing bias correction start position data 4 (more than 240 [s] middle speed)
1
Y
A
DV_ADJ_CL_Y_L_DATA_1
Developing bias correction data 1 (low speed)
2
B
DV_ADJ_CL_Y_L_DATA_2
Developing bias correction data 2 (low speed)
3
C
DV_ADJ_CL_Y_L_DATA_3
Developing bias correction data 3 (low speed)
4
D
DV_ADJ_CL_Y_M_DATA_1
Developing bias correction data 1 (middle speed)
2
E
DV_ADJ_CL_Y_M_DATA_2
Developing bias correction data 2 (middle speed)
3
F
DV_ADJ_CL_Y_M_DATA_3
Developing bias correction data 3 (middle speed)
4
G
DV_ADJ_START_CL_Y_L_1
Developing bias correction start position data 1 (less than 10 [s] low speed)
4
H
DV_ADJ_START_CL_Y_L_2
Developing bias correction start position data 2 (more than 10 [s] less than 60 [s] low speed)
3
I
DV_ADJ_START_CL_Y_L_3
Developing bias correction start position data 3 (more than 60 [s] less than 240 [s] low speed)
1
J
DV_ADJ_START_CL_Y_L_4
Developing bias correction start position data 4 (more than 240 [s] low speed)
1
K
DV_ADJ_START_CL_Y_M_1
Developing bias correction start position data 1 (less than 10 [s] middle speed)
4
L
DV_ADJ_START_CL_Y_M_2
Developing bias correction start position data 2 (more than 10 [s] less than 60 [s] middle speed)
3
M
DV_ADJ_START_CL_Y_M_3
Developing bias correction start position data 3 (more than 60 [s] less than 240 [s] middle speed)
1
N
DV_ADJ_START_CL_Y_M_4
Developing bias correction start position data 4 (more than 240 [s] middle speed)
1
Button
Item
Default
value
A : 2
;
DV_ADJ_CL_K_L_DATA_1
B : 3
;
DV_ADJ_CL_K_L_DATA_2
C : 4
;
DV_ADJ_CL_K_L_DATA_3
D : 2
;
DV_ADJ_CL_K_M_DATA_1
A:
SIMULATION NO.44-37
IMAGE DENSITY(DVB) ADJUSTMENT SETTING
2
0
5
OK
TEST
CLOSE
E : 3
;
DV_ADJ_CL_K_M_DATA_2
F : 4
;
DV_ADJ_CL_K_M_DATA_3
G : 2
;
DV_ADJ_BK_H_DATA_1
H : 3
;
DV_ADJ_BK_H_DATA_2
I : 4
;
DV_ADJ_BK_H_DATA_3
J : 4
;
DV_ADJ_START_CL_K_L_1
K : 3
;
DV_ADJ_START_CL_K_L_2
L : 1
;
DV_ADJ_START_CL_K_L_3
K
C
M
Y
A
DVCH KIND K
K color developing tank kind
B
DVCH KIND C
C color developing tank kind
C
DVCH KIND M
M color developing tank kind
D
DVCH KIND Y
Y color developing tank kind
E
DVCH_AD_K
K color developing tank AD value
F
DVCH_AD_C
C color developing tank AD value
G
DVCH_AD_M
M color developing tank AD value
H
DVCH_AD_Y
Y color developing tank AD value
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