HS50_advance_level 1_20200522_221201 (1) - 第267页
\ Datensatz 7. BE-Kamera \ No other component cameras at the HS5X mounted. So no other Fine calibration offset to determine. \ KameraID \ 0# \ KameraTyp \ # \ Level \ 0# \ Anzahl der Saetze \ 0# \ 01. Datensatz \ \ ID-Na…
\ X-Offset in microns \ 3,
Fine calibration offset X of gantry 2 -is determined for the 12 nozzle head - with
Standard component camera- for Transport 1
\ Y-Offset in microns \ -4,
Fine calibration offset Y of gantry 2 -is determined for the 12 nozzle head - with
Standard component camera- for Transport 1
\ Winkel-Offset in 1/100 Grad \ 0!
\ 2. Transport \
\ X-Offset in microns \ -18,
Fine calibration offset X of gantry 2 -is determined for the 12 nozzle head - with
Standard component camera- for Transport 2
\ Y-Offset in microns \ 23,
Fine calibration offset Y of gantry 2 -is determined for the 12 nozzle head - with
Standard component camera- for Transport 2
\ Winkel-Offset in 1/100 Grad \ 0>
\ 02. Datensatz \
\ ID-Name \ "SEGMENT_01";
Printout shortend because of Layout
\ 13. Datensatz \
\ ID-Name \ "SEGMENT_12";
\ 1. Transport \
\ X-Offset in microns \ 0,
\ Y-Offset in microns \ 0,
\ Winkel-Offset in 1/100 Grad \ 0!
\ 2. Transport \
\ X-Offset in microns \ 0,
\ Y-Offset in microns \ 0,
\ Winkel-Offset in 1/100 Grad \ 0]
\ Datensatz 5. BE-Kamera \
No other component cameras at the HS5X mounted. So no other Fine calibration
offset to determine.
\ KameraID \ 0#
\ KameraTyp \ #
\ Level \ 0#
\ Anzahl der Saetze \ 0#
\ 01. Datensatz \
\ ID-Name \ ;
\ 1. Transport \
\ X-Offset in microns \ 0,
\ Y-Offset in microns \ 0,
\ Winkel-Offset in 1/100 Grad \ 0!
\ 2. Transport \
\ X-Offset in microns \ 0,
\ Y-Offset in microns \ 0,
\ Winkel-Offset in 1/100 Grad \ 0>
\ 02. Datensatz \
\ ID-Name \ ;
\ 1. Transport \
Printout shortend because of Layout
\ Datensatz 6. BE-Kamera \
No other component cameras at the HS5X mounted. So no other Fine calibration
offset to determine.
\ KameraID \ 0#
\ KameraTyp \ #
\ Level \ 0#
\ Anzahl der Saetze \ 0#
\ 01. Datensatz \
\ ID-Name \ ;
\ 1. Transport \
\ X-Offset in microns \ 0,
\ Y-Offset in microns \ 0,
\ Winkel-Offset in 1/100 Grad \ 0!
\ 2. Transport \
\ X-Offset in microns \ 0,
\ Y-Offset in microns \ 0,
\ Winkel-Offset in 1/100 Grad \ 0>
\ 02. Datensatz \
Printout shortend because of Layout
Edition 1.0 3 FK_OFF_MA_e.xls FK_OFF.MA SD EA1 S GC Training
\ Datensatz 7. BE-Kamera \
No other component cameras at the HS5X mounted. So no other Fine calibration
offset to determine.
\ KameraID \ 0#
\ KameraTyp \ #
\ Level \ 0#
\ Anzahl der Saetze \ 0#
\ 01. Datensatz \
\ ID-Name \ ;
\ 1. Transport \
\ X-Offset in microns \ 0,
\ Y-Offset in microns \ 0,
\ Winkel-Offset in 1/100 Grad \ 0!
\ 2. Transport \
\ X-Offset in microns \ 0,
\ Y-Offset in microns \ 0,
\ Winkel-Offset in 1/100 Grad \ 0>
\ 02. Datensatz \
Printout shortend because of Layout
\ Datensatz 8. BE-Kamera \
No other component cameras at the HS5X mounted (e.g. DCA camera). So no
other Fine calibration offset to determine.
\ KameraID \ 0#
\ KameraTyp \ #
\ Level \ 0#
\ Anzahl der Saetze \ 0#
\ 01. Datensatz \
\ ID-Name \ ;
\ 1. Transport \
\ X-Offset in microns \ 0,
\ Y-Offset in microns \ 0,
\ Winkel-Offset in 1/100 Grad \ 0!
\ 2. Transport \
\ X-Offset in microns \ 0,
\ Y-Offset in microns \ 0,
\ Winkel-Offset in 1/100 Grad \ 0>
\ 02. Datensatz \
Printout shortend because of Layout
\ 13. Datensatz \
\ ID-Name \ ;
\ 1. Transport \
\ X-Offset in microns \ 0,
\ Y-Offset in microns \ 0,
\ Winkel-Offset in 1/100 Grad \ 0!
\ 2. Transport \
\ X-Offset in microns \ 0,
\ Y-Offset in microns \ 0,
\ Winkel-Offset in 1/100 Grad \ 0
}
end of file
Edition 1.0 4 FK_OFF_MA_e.xls FK_OFF.MA SD EA1 S GC Training
\ ## File converted by makonv at Wed Nov 21 13:37:20 2001 \
{
This file is the camera bloc of the REAL.MA untill SW-version 501
\ Kamera-Individuumdaten \
Only the calibration values are in here. The standard settings of the
cameras in the DataBase system
\ Datei \ "KAMDAT.MA"|
this file is changed with calibration of the machine in SITEST
\ Version \ "31.503.011119_E"|
\ Maschinentyp \ "HS50"|
\ Kamerabeschreibung 1. Kamera \
(counted like gantry arrangement on S-machines. Left gantry of the working
area first)
\ Sensorsystem_Individuum_Nr \ 4005,
Standard-PCB-camera gantry
4
\ Auswerte_Nr \ 1,
connection to Vision controller (MVS-System) for working area 1
\ Kanal-Nummer \ 2,
Input coding >channel< at Visionsystem
\ *** Nachschwingzeit *** \ 50,
waiting time (in msec. until oscillating of the gantry stopped) before start to
read out the CCD Sensor of PCB-camera
\ ** Korrekturfaktor_A_X ** \ -14,
to calculate the pixel size by matirix math. calibrated with SITEST
\ ** Korrekturfaktor_B_X ** \ 11596,
to calculate the pixel size by matirix math. calibrated with SITEST
\ ** Korrekturfaktor_C_X ** \ 0,
by standard 0
\ ** Korrekturfaktor_A_Y ** \ -13,
to calculate the pixel size by matirix math. calibrated with SITEST
\ ** Korrekturfaktor_B_Y ** \ -11598,
to calculate the pixel size by matirix math. calibrated with SITEST
\ ** Korrekturfaktor_C_Y ** \ 0,
by standard 0
\ ** Kamera_Offset_X ** \ 352,
PCB-camera -comp.-camera-offset calibrated with Segment 1 at Segment
Offset bottom
\ ** Kamera_Offset_Y ** \ -100837,
PCB-camera -comp.-camera-offset calibrated with Segment 1 at Segment
Offset bottom
\ ** Kamera_Offset_Z ** \ 0,
The camera do not have an Angle Offset, here always 0. (each camera
have an mounting angle)
\ ** Kamera_Offset_Winkel ** \ 7,
PCB camera mounting angle on the gantry. calibrated with SITEST
\ XU_Pixel \ 11596,
Pixel size in X direction in nm. calibrated with SITEST
\ YU_Pixel \ 11598]
Pixel size in Y direction in nm. calibrated with SITEST
\ Kamerabeschreibung 2. Kamera \
(counted like gantry arrangement on S-machines. Right gantry of the
working area second)
\ Sensorsystem_Individuum_Nr \ 1005,
Standard-PCB-camera gantry 1
\ Auswerte_Nr \ 1,
connection to Vision controller (MVS-System) for working area 1
\ Kanal-Nummer \ 1,
Input coding >channel< at Visionsystem
\ *** Nachschwingzeit *** \ 50,
waiting time (in msec. until oscillating of the gantry stopped) before start to
read out the CCD Sensor of PCB-camera
\ ** Korrekturfaktor_A_X ** \ 61,
to calculate the pixel size by matirix math. calibrated with SITEST
\ ** Korrekturfaktor_B_X ** \ 11595,
to calculate the pixel size by matirix math. calibrated with SITEST
\ ** Korrekturfaktor_C_X ** \ 0,
by standard 0
\ ** Korrekturfaktor_A_Y ** \ 68,
to calculate the pixel size by matirix math. calibrated with SITEST
\ ** Korrekturfaktor_B_Y ** \ -11587,
to calculate the pixel size by matirix math. calibrated with SITEST
\ ** Korrekturfaktor_C_Y ** \ 0,
by standard 0
\ ** Kamera_Offset_X ** \ 619,
PCB-camera -comp.-camera-offset calibrated with Segment 1 at Segment
Offset bottom
\ ** Kamera_Offset_Y ** \ -100794,
PCB-camera -comp.-camera-offset calibrated with Segment 1 at Segment
Offset bottom
\ ** Kamera_Offset_Z ** \ 0,
The camera do not have an Angle Offset, here always 0.(each camera
have an mounting angle)
\ ** Kamera_Offset_Winkel ** \ -32,
PCB camera mounting angle on the gantry. calibrated with SITEST
\ XU_Pixel \ 11595,
Pixel size in X direction in nm. calibrated with SITEST
\ YU_Pixel \ 11588]
Pixel size in Y direction in nm. calibrated with SITEST
\ Kamerabeschreibung 3. Kamera \
\ Sensorsystem_Individuum_Nr \ 4012,
Standard-comp.-camera gantry
4
\ Auswerte_Nr \ 1,
connection to Vision controller (MVS-System) for working area 1
\ Kanal-Nummer \ 4,
Input coding >channel< at Visionsystem. Same connector than ch.2
\ *** Nachschwingzeit *** \ 0,
waiting time only valid for PCB-camera
\ ** Korrekturfaktor_A_X ** \ -108,
to calculate the pixel size by matirix math. calibrated with SITEST
\ ** Korrekturfaktor_B_X ** \ -49495,
to calculate the pixel size by matirix math. calibrated with SITEST
\ ** Korrekturfaktor_C_X ** \ 0,
by standard 0
\ ** Korrekturfaktor_A_Y ** \ 92,
to calculate the pixel size by matirix math. calibrated with SITEST
\ ** Korrekturfaktor_B_Y ** \ -49434,
to calculate the pixel size by matirix math. calibrated with SITEST
\ ** Korrekturfaktor_C_Y ** \ 0,
by standard 0
\ ** Kamera_Offset_X ** \ 0,
PCB-camera -comp.-camera-offset reference is comp.camera so here is
always 0
\ ** Kamera_Offset_Y ** \ 0,
PCB-camera -comp.-camera-offset reference is comp.camera so here is
always 0
Edition 1.0 1 KAMDAT_MA_e.xls KAMDAT.MA SD EA1 S GC Training