xp141-241-341-5.0E - 第232页
VME Rack Configuration 2 /2 VME Rack Configuration XP- 241E FH1001B OUT PORT (GREEN LED) IN PORT (RED LED) SELECT/DISPLAY FH1001B OUT PORT (GREEN LED) IN PORT (RED LED) SELECT/DISPLAY Run Reset 1 2 3 Mouse IEEE8023 VIDEO…
VME Rack Configuration
1/2
VME Rack Configuration
XP-141E
GSV-2B
CN 2
CN 1
CN 3 CN 3 CN 3 CN 3
FH1001B
OUT PORT (GREEN LED)
IN PORT (RED LED)
SELECT/DISPLAY
FH1001B
OUT PORT (GREEN LED)
IN PORT (RED LED)
SELECT/DISPLAY
GSV-2B
CN 2
CN 1
GSV-2B
CN 2
CN 1
GSV-2B
CN 2
CN 1
Run Reset
3
2
1
Mouse
IEEE8023
VIDEO IN
2
TRIG/STRB
4
3
1
CPU VISION
SERVO
SERVO SERVO SERVO
I/O
I/O
RGB
I/O
Debug
Data
Connector
MCS2
Image
Touch Screen
FH1138A0
(1PCB)
LCD 1
LCD 2
DC 12V
Ethernet
PC
Parts
Camera
Mark
Camera
Strobe Power
Unit
Light Source Side 1
Light Source Side 2
Main Terminal PCB
(M1PCB1)
Y
X
Z
Q
R
F
G
VME Rack Configuration
2/2
VME Rack Configuration
XP-241E
FH1001B
OUT PORT (GREEN LED)
IN PORT (RED LED)
SELECT/DISPLAY
FH1001B
OUT PORT (GREEN LED)
IN PORT (RED LED)
SELECT/DISPLAY
Run Reset
1
2
3
Mouse
IEEE8023
VIDEO IN
1
2
3
4
TRIG/STRB
RGB
I/O
GSV-2B
CN 2
CN 1
CN 3
GSV-2B
CN 2
CN 1
CN 3
GSV-2B
CN 2
CN 1
CN 3
FH1001B
OUT PORT (GREEN LED)
IN PORT (RED LED)
SELECT/DISPLAY
FH1001B
OUT PORT (GREEN LED)
IN PORT (RED LED)
SELECT/DISPLAY
CPU VISION
SERVO
SERVO
SERVO
I/O
I/OI/O I/O
Coplanarity
Camera
Mark
Camera
Parts
Camera 2
Parts
Camera 1
Strobe Power
Unit
Light Source Side 1
Light Source Side 2 A (Front Light)
Light Source Side 2 B (Side Light)
FH1138A0
(1PCB)
LCD1
LCD2
DC 12V
Touch Screen
Image
Y
X
Z
Q
U
T
EthernetPC
Main Terminal
PCB (M1PCB1)
Debug
Data
Connector
MCS2
FK-9F98-29 XP Series Training Text for Service Engineers
Edition 5.0 Supplementary Information
1/2
Basic Manual Optimizer for XP141E
Example: How to configure the nozzle set up for the following program, “Program X”.
1.
Component Sequence Nozzle Size ø Sequence
Quantity
1005 1 ~ 20 0.7mm 20
1608 21 ~ 50 1.0mm 30
2125 51 ~ 80 1.3mm 30
3216 81 ~120 1.3mm 40
2.
Nozzle Type Sequence Quantity per Nozzle Type
0.7 20
1.0 30
1.3 70
3. To calculate the optimum nozzle configuration the following formula should be used:
(Number of nozzle slots on the revolver) X Seq. Quantity per Nozzle Type_____
Total number of seq. in the program
4. The formula above should be used to calculate the optimum number of nozzles for
each nozzle type.
5. Starting with the 0.7mm nozzle type:
12 X 20 = 2
120
6. Then the 1.0mm nozzle type:
12 X 30 = 3
120
7. And finally the 1.3mm nozzle type:
12 X 70 = 7
120
8. Thus for “Program X” the optimum nozzle configuration would be as follows:
Nozzle Type Number of
Nozzles
0.7mm 2
1.0mm 3
1.3mm 7
9. These should be arranged on the revolver as illustrated overleaf: