xp141-241-341-5.0E.pdf - 第215页
XP Proper Data List V1.40 14/11/2002 Item XP141 XP241 XP341 Description Reboot __UseMicroTray = 0 0 0 Use micro-tray 0: Do not use 1: Use User can edit __SetDetectCensorSW = 0 0 0 0: The machine does not have tape retain…
XP Proper Data List V1.40
14/11/2002
Item
XP141
XP241
XP341
Description
Reboot
__targetOfst_Y
=
0
0
0
Absolute encoder offset value (mm) It is necessary to turn on the power again.
Calibrated data l
__targetOfst_Z
=
0
0
0
Absolute encoder offset value (mm) It is necessary to turn on the power again.
Calibrated data l
__targetOfst_Q
=
0
0
0
Absolute encoder offset value (mm) It is necessary to turn on the power again.
Calibrated data l
__targetOfst_R
=
0
0
0
Absolute encoder offset value (mm) It is necessary to turn on the power again.
Calibrated data l
__targetOfst_T
=
0
0
0
Absolute encoder offset value (mm) It is necessary to turn on the power again.
Calibrated data l
__targetOfst_U
=
0
0
0
Absolute encoder offset value (mm) It is necessary to turn on the power again.
Calibrated data l
__targetOfst_F
=
0
0
0
Absolute encoder offset value (mm) It is necessary to turn on the power again.
Calibrated data l
__targetOfst_G
=
0
0
0
Absolute encoder offset value (mm) It is necessary to turn on the power again.
Calibrated data l
__TestOption
=
1
0
0
Re-try to acquire the image when strobe does not flash [0:invalid 1:valid]
User can edit
X_StbTime
=
20
0
0
XP141 X-axis stable time during placement (msec)
User cannot edit
Y_StbTime
=
20
0
0
XP141 Y-axis stable time during placement (msec)
User cannot edit
R_StbTime
=
0
0
0
XP141 R-axis stable time during placement (msec)
User cannot edit
Q_StbTime
=
0
0
0
Not used at present
User cannot edit
_________OPERATION_2_________
=
0
0
0
__DoNozzleCleaning
=
1
0
0
Nozzle cleaning function 0: Do not use 1: Use
User can edit
__PolarityConvert
=
1
1
1
Polarity converter flag 0: use 1: not use
User can edit
l
__DChangeTriger = 0 0 0
Trigger for slot/stage. 0 or 2: Recovery up 1: Parts out (when the parts out PB is pressed in the error display) 3:
Refer to the Part data (not used)
User can edit
__NotSimpleOptimize
=
1
0
0
0: Use simple optimize 1: Not use simple optimize
User can edit
__NozzleSurfaceCheck
=
0
0
0
Nozzle surface check 0: not used 1: used
User can edit
__UseVisionHeightOffset
=
0
0
0
Vision processing height compensation 0: not used 1: used
User can edit
__RearSideShtSpd
=
0
70
70
Shutter speed of rear Side light [µs]
Calibrated data
__RearFrontShtSpd
=
0
70
70
Shutter speed of rear Front light [µs]
Calibrated data
_PlacingModeSwitch = 0 0 0
Switches the arrival accuracy area during placement. 0: Does not distinguish arrival accuracy according to vision
type.
User can edit
__JogInterlockOFF
=
0
0
0
JOG key interlock 0: Use 1: Do not use
User cannot edit
__PickPosAutoMeasure = 0 0 0
Pickup position measurement 0: Disable this function 1: Carry out the measurement using the command key
operation in the "Pickup position measurement" display. 2: Carry out using the command key operation in the
"Pickup position measurement" and carry out automatically during auto mode.
User can edit
__UseMachineNozzleOnly = 0 0 0
If the setting is changed to "1", the following changes will be seen.
- At the auto production preparation ready process, unconditionally select the nozzles set on the machine for production ready
process.
- At the data check (in the editor), use nozzles in the machine and carry out the data check. It does not use the nozzles set in the
User can edit
__ErrStopBeforeFid = 0 0 0
0: Stop fiducial mark reading when the error occurred at pre-pickup parts vision processing
1: Do not stop
User can edit
__MarkEditWndAutoOpen = 1 1 1
Automatically the mark editor comes up on the display when the Fiducial mark reading error occurred during production.
0: Do not display automatically 1: Display automatically
User can edit
__OperationPanelDisp
=
0
0
0
Switch the operation panel display (only valid during auto operation) 0: Invalid 1: Valid
User can edit
_Special_MultiFiducial_Read
Not Used
_________VISION_________
=
0
0
0
__FiducialMarkImperfect
=
0
0
0
Read imperfect circle shape fiducial mark 0: Read 1: Do not read imperfect circle fiducial mark
User can edit
l
__VT20MPointOfLeadOff
=
0
0
0
Valid or invalid the Measure point of lead setting 0: Valid 1: Invalid
User can edit
__VT10AutoBPOff
=
0
0
0
Valid or invalid the Auto binary process at Vision Type 10 0: Valid 1: Invalid
User cannot edit
l
_FiducialMeasureFailRatio = 0 0 0
and
compile after changing this proper data.
User can edit
_BoardSkipMarkBrightnessLevel = 0 0 0
The threshold brightness value during board skip mark reading. *Input range is from 1 to 255. If a value outside the
range
User can edit
_________MACHINE_TYPE_2_________
=
0
0
0
__MachineParameter1
=
0
0
0
0: Standard setting 1:User special setting
User cannot edit
l
__StageModeSW
=
0
0
0
Stage mode (AA mode) 0:Invalid 1:Valid
User cannot edit
l
__RemoverType
=
0
1
0
Remover type for tray rejection 0: Old type 1: New type (Not used at present)
User cannot edit
__FiducialLampType
=
0
1
1
1: Machine with new infrared light mark camera 0: Other
User cannot edit
l
__TrayRetractCheck
=
0
1
0
Tray load check 0: Invalid 1: Invalid
User cannot edit
__TrayUnitType
=
0
1
0
0: Tray has not been modified yet 1: Tray has been modified
User cannot edit
l
2/10
XP Proper Data List V1.40
14/11/2002
Item
XP141
XP241
XP341
Description
Reboot
__UseMicroTray
=
0
0
0
Use micro-tray 0: Do not use 1: Use
User can edit
__SetDetectCensorSW = 0 0 0
0: The machine does not have tape retainer raised detection sensor 1: tape retainer raised check double sensors
are installed
User cannot edit
l
_EjectPanelUncondition = 0 0 0
During the panel unloading process if the board request signal from the next machine turns off when the panel is
passing the Main or Out pass through check sensor, 0 = stop with error, 1 = continue the panel unloading process.
User can edit
_________CYCLE_STEAL________
0
0
0
__CycleStealStartTime
=
5
5
5
The cycle steal check interval (minutes). Set to 0 to bypass the cycle steal.
User can edit
__CycleStealTerm
=
10
10
10
The cycle steal threshold. If the heat expansion is more than this value then the cycle steal is carried out. [um]
User can edit
_________AUTO_SETUP________
=
0
0
0
__ASSMCNum
=
0
0
0
Auto changeover flag. Enter numbers of M/Cs for together changeover for each group (1~3).
User can edit
l
__MCComPort
=
10000
10000
10000
Auto changeover flag. Port No. for the G-lead machine & other machines connection.(100000~99999)
User can edit
l
__PCComPort
=
10000
10000
10000
Auto changeover flag. Port No. for G-lead machine & IJ process connection (100000 ~ 99999) Specify only G-lead m/c
User can edit
l
__ASSFeederChk
=
0
0
0
Auto changeover flag. Feeder setup check 0:used. 1:Check only changed slot. 2: Check all slots.
User can edit
l
__ASSFeederChkAllSet
=
0
0
0
Auto changeover flag. Display [All OK] during feeder set up check 0: not display 1: display
User can edit
l
__ASSetupInfoDisp
=
0
0
0
Auto changeover flag. Display "Setup Information" dialog during changeover 0: not display 1: display
User can edit
l
_________DEBUG_FLAG________
=
0
0
0
__DebugFlag1
=
0
0
0
Debug flag
User cannot edit
__DebugFlag2
=
0
0
0
Debug flag
User cannot edit
__DebugFlag3
=
0
0
0
Debug flag
User cannot edit
__DebugFlag4
=
0
0
0
Debug flag
User cannot edit
__DebugFlag5
=
0
0
0
Debug flag
User cannot edit
__DebugFlag6
=
0
0
0
Debug flag
User cannot edit
__DebugFlag7
=
0
0
0
Debug flag
User cannot edit
__DebugFlag8
=
0
0
0
Debug flag
User cannot edit
__DebugFlag9
=
0
0
0
Debug flag
User cannot edit
__DebugFlag10
=
0
0
0
Debug flag
User cannot edit
__DebugBP = 0 0 0
Debug proper data for the threshold measurement: Switching the panel display at the threshold measurement.
0: Do not display during threshold measurement
1: Display the result of the measured threshold value in green at threshold measurement
2: Display the measuring range in green at threshold measurement
3: Display the result of the measured threshold value and the measuring range in green at threshold measurement
User cannot edit
__DebugDLL
=
0
0
0
*2 Display "Dynamic Logical Level" in green (LL level is figured up automatically) [T1.12c]
User cannot edit
__DebugBML
=
0
0
0
*3 Display "BlackMaskLevel" in yellow. [T1.12c]
User cannot edit
__CStructCheck
=
0
0
0
Overwrite protection (Illegal overwrite) of software configuration ("1" to ON)
User cannot edit
l
__NotPartLevel
=
0
0
0
Setting for fiducial mark vision process 0: Level 1: differential calculus
User cannot edit
l
_____CONV_DELAY_TIMER______
=
0
0
0
__InArrvOnDelayTimer
=
10
10
10
Delay timer setting for IN arrival check sensor ON [msec]
User can edit
__MainDecOnDelayTimer
=
10
10
10
Delay timer setting for MAIN deceleration sensor ON [msec]
User can edit
__MainArrvOnDelayTimer
=
10
10
10
Delay timer setting for MAIN arrival check sensor ON [msec]
User can edit
__MainPassOnDelayTimer
=
10
10
10
Delay timer setting for MAIN pass through check sensor ON [msec]
User can edit
__OutPassOnDelayTimer
=
10
10
10
Delay timer setting for OUT pass through check sensor ON [msec]
User can edit
_________TOUCH_PANEL_______
=
0
0
0
__TouchPanelType
=
1
1
1
[0:Touch panel is NOT used 1:Used]
User cannot edit
__TPDblClickSpeed
=
350
350
350
Mouse double click speed (msec)
User cannot edit
__TPDblClickDistance
=
30
30
30
Double click area
User cannot edit
_________SERVO_LIMIT_______
=
0
0
0
X_PlusLimit
=
835
835
835
X-axis servo stroke (mm)
Calibrated data l
X_MinusLimit
=
0
0
0
X-axis servo stroke (mm)
Calibrated data l
Y_PlusLimit
=
813
1174
834
Y-axis servo stroke (mm)
Calibrated data l
Y_MinusLimit
=
0
0
0
Y-axis servo stroke (mm)
Calibrated data l
Z_PlusLimit
=
14.5
55
55
Z-axis servo stroke (mm)
Calibrated data l
Z_MinusLimit
=
0
0
0
Z-axis servo stroke (mm)
Calibrated data l
F_PlusLimit
=
4.5
0
0
F-axis servo stroke (mm)
Calibrated data l
F_MinusLimit
=
-10.8
0
0
F-axis servo stroke (mm)
Calibrated data l
3/10
XP Proper Data List V1.40
14/11/2002
Item
XP141
XP241
XP341
Description
Reboot
G_PlusLimit
=
4.5
0
0
G-axis servo stroke (mm)
Calibrated data l
G_MinusLimit
=
-10.8
0
0
G-axis servo stroke (mm)
Calibrated data l
T_PlusLimit
=
0
520
0
T-axis servo stroke (mm)
Calibrated data l
T_MinusLimit
=
0
0
0
T-axis servo stroke (mm)
Calibrated data l
U_PlusLimit
=
0
532
0
U-axis servo stroke (mm)
Calibrated data l
U_MinusLimit
=
0
0
0
U-axis servo stroke (mm)
Calibrated data l
_______JOG_BASE_SPEED______
=
0
0
0
X_jogBaseSpeed
=
10000
10000
10000
Base inching speed (logical pulse/sec)
User cannot edit
Y_jogBaseSpeed
=
10000
10000
10000
Base inching speed (logical pulse/sec)
User cannot edit
Z_jogBaseSpeed
=
10000
10000
10000
Base inching speed (logical pulse/sec)
User cannot edit
Q_jogBaseSpeed
=
50000
50000
50000
Base inching speed (logical pulse/sec)
User cannot edit
R_jogBaseSpeed
=
50000
50000
50000
Base inching speed (logical pulse/sec)
User cannot edit
F_jogBaseSpeed
=
10000
10000
10000
Base inching speed (logical pulse/sec)
User cannot edit
G_jogBaseSpeed
=
10000
10000
10000
Base inching speed (logical pulse/sec)
User cannot edit
T_jogBaseSpeed
=
10000
10000
10000
Base inching speed (logical pulse/sec)
User cannot edit
U_jogBaseSpeed
=
10000
10000
10000
Base inching speed (logical pulse/sec)
User cannot edit
______SERVO_PARAMETER______
=
0
0
0
x_MaxV
=
16000000
16000000
16000000
X-axis Max. speed
User cannot edit
x_MaxA
=
240000000
230000000
230000000
X-axis Max acceleration
User cannot edit
x_ptpGain
=
100
100
100
X-axis Gain value during traveling
User cannot edit
x_stGain
=
500
250
250
X-axis Gain value during positioning
User cannot edit
x_afterGain
=
60
100
60
X-axis Gain value during stopping
User cannot edit
x_P_CON_Start
=
6
6
6
X-axis P_CON start time (ms)
User cannot edit
x_integralGain
=
60
100
100
X-axis Integral gain
User cannot edit
x_AxisValid
=
1
1
1
X-axis 1:Valid this axis 0:Ignore this axis
User cannot edit
x_spare2
=
1
1
1
X-axis 1:Valid this axis 0:Ignore this axis
User cannot edit
x_CurveNo
=
1
1
1
X-axis Cam curve No.(1:sinusoidal transformation, 3:NC2etc)
User cannot edit
y_MaxV
=
25000000
25000000
25000000
Y-axis Max. speed
User cannot edit
y_MaxA
=
372000000
448000000
448000000
Y-axis Max acceleration
User cannot edit
y_ptpGain =
Steel pulley
110
Aluminium pulley
100
150 150 Y-axis Gain value during traveling
User cannot edit
y_stGain =
Iron pulley
650
Aluminum pulley
1000
500 500 Y-axis Gain value during positioning
User cannot edit
y_afterGain
=
60
120
150
Y-axis Gain value during stopping
User cannot edit
y_P_CON_Start
=
6
6
6
Y-axis P_CON start time (ms).
User cannot edit
y_integralGain
=
60
120
150
Y-axis Integral gain
User cannot edit
y_AxisValid
=
1
1
1
Y-axis 1:Valid this axis 0:Ignore this axis
User cannot edit
y_spare2
=
1
1
1
Y-axis 1:Valid this axis 0:Ignore this axis
User cannot edit
y_CurveNo
=
1
1
1
Y-axis Cam curve No.(1:sinusoidal transformation, 3:NC2etc)
User cannot edit
z_MaxV
=
7040000
10000000
10000000
Z-axis Max. speed
User cannot edit
z_MaxA
=
1500000000
830000000
830000000
Z-axis Max acceleration
User cannot edit
z_ptpGain
=
T1.16b ~ =160
~ T1.13 =200
200 200 Z-axis Gain value during traveling
User cannot edit
z_stGain
=
T1.16b ~ =3000
~ T1.13 =4000
1000 1000 Z-axis Gain value during positioning
User cannot edit
z_afterGain
=
150
150
150
Z-axis Gain value during stopping
User cannot edit
z_P_CON_Start
=
6
6
6
Z-axis P_CON start time (ms)
User cannot edit
z_integralGain
=
150
150
150
Z-axis Integral gain
User cannot edit
z_AxisValid
=
1
1
1
Z-axis 1: Valid this axis 0: Ignore this axis
User cannot edit
z_spare2
=
1
1
1
Z-axis 1:Valid this axis 0: Ignore this axis
User cannot edit
4/10