Microscan Vision HAWK Configuration And Quick Start Manual page 2

Step 9 — Set Camera Parameters
1. Click on the Camera box to the left of the image area.
2. In the camera parameters below the image area, select the desired type of Trigger, Trigger Polarity,
Photometry (Exposure and Gain), Focus, and Lighting.
Step 10 — Add Tools to the Job
1. Click on the Decode Tool or drag it onto the image area.
2. Use the anchor points at the corners of the region of interest to form a box around the Data Matrix
symbol. Leave plenty of space on each side of the symbol.
3. Now add a second Decode Tool and do the same for the 1D symbol below the Data Matrix symbol.
4. Finally, add an OCR Tool and drag the region of interest around the area of the image where "123456"
is printed.
Step 11 — Try Out the Job
Once you have configured the tools as desired, use the arrow icons in the Job area to try the job you have
just created.
Note: Most jobs will inspect multiple captured images. If only one image is being inspected, the effect of the
arrow icons will not be evident.
Copyright ©2015 Microscan Systems, Inc.
Step 12 — Run the Job
When all job parameters are set, click on the Run step at the top of the interface. The software will download the
vision job just created to the camera and will begin the inspection. Inspection results and the list of active tools
are shown at the right of the image view. That information can also be moved below the image area by
clicking the orientation buttons above the inspection results area.
Test Jobs
Note: For descriptions of more advanced functionality, such as setting Inspection Outputs or using the
Locate Tool and Decode Tool's Dynamic Locate functionality to track multiple tools from image to image,
see the help documentation in AutoVISION software.
Decode Tool, OCR Tool, Match Strings Tool,
String Format Tool
LOT 123456
DATE 05/2012
VISION
SIMPLIFIED
Measure Tool,
Count Tool
Try Out Job
Once
Try Out Job
in Loop
Count:
Count the circles on the dice shown
at right.
Measure:
Measure the distance between
the jaws of the caliper gauges at left.
Power Requirements and Pin Assignments
Standard, CCD, SXGA: 5-28VDC, 200mV p-p max ripple, 170mA at 24VDC (typ.), 15.5 watts (max.)
Standard, CMOS, SXGA: 5-28VDC, 200mV p-p max ripple, 135mA at 24VDC (typ.), 13 watts (max.)
C-Mount, CCD, SXGA: 5-28VDC, 200mV p-p max ripple, 130mA at 24VDC (typ.), 7 watts (max.)
C-Mount, CMOS, WVGA: 5-28VDC, 200mV p-p max ripple, 105mA at 24VDC (typ.), 4 watts (max.)
C-Mount, CMOS, WUXGA: 5-28VDC, 200mV p-p max ripple, 140mA at 24VDC (typ.), 5.7 watts (max.)
Output 2
Default
Connector A
Input 1
on the back of
TX (+)
Power
the camera is
Output 1
a serial M12
RX (–)
12-pin plug.
Host
TxD
Output 3 Important: Tie
pins 9 and 7 to
RX (+)
Trigger
Ground if you
are using a
Ground
flying lead
Host RxD
Input Common TX (–)
cable and not
Output Common
using the serial
port.
A (Serial) M12 12-pin Plug B (Ethernet) M12 8-pin Socket
QX-1 Interface Device
Connector T on the QX-1 Interface Device is the trigger connector.
Connectors 1 and 3 are 12-pin plugs, and Connector 2 is a 12-pin socket. All three connectors can be
assigned to bus power and data as required by the application.
The two switches at the center of the device allow the user to route signals as needed.
P
T
QX-1 Communications -
QX-1 Interface Device
I/O - Power - Trigger
Trigger
Ground +10-28V
Trigger/New Master /
Input 1 Common
QX-1 Trigger Connector
4-pin Socket
Vision HAWK Accessories
AutoVISION to Visionscape Upgrade
Adapter Plate Kit
Right Angle Mirror Kit
Window Replacement
12° Lens Kit
15° Lens Kit
30° Lens Kit
45° Lens Kit
L-Bracket Kit
Infrared (IR) Filter
Glass Window Kit
L-Bracket Kit, QX Series
Demo Kit, Vision HAWK
Microscan Tools Drive
Note: Additional accessories are available in the Microscan Product Pricing Catalog. See the Vision
Hawk Smart Camera Guide for Vision Hawk C-Mount accessories.
Vision HAWK Part Numbers
Vision HAWK part numbers follow the format GMV-6800-CLSYG:
Comm = 1 for Ethernet;
Lens = 0 for C-Mount, 2 for 30°, 3 for 45°, 4 for 12°, 5 for 15°;
Sensor = 0 for CCD (SXGA), 1 for CMOS (WVGA), 2 for CCD (SXGA) Color, 3 for CMOS (WUXGA);
Y (Software) = 0 for AV, 2 for AV + VS, 4 for AV + Ver/OCV, 6 for AV + VS + Ver/OCV
G = RoHS-Compliant
Terminated
Terminated
Connector
B on the
back of the
camera is
Terminated
an Ethernet
M12 8-pin
Terminated socket.
This simple diagram (shown on the
base of the QX-1) illustrates how
power, communications, I/O, and
trigger signal can be routed through
the QX-1 device depending on the
needs of the application. The
switches greatly increase signal
routing flexibility.
98-000217-01
98-000143-01
98-000144-01
98-000146-01
98-000147-04
98-000147-01
98-000147-02
98-000147-03
98-000148-01
98-000205-01
98-000206-01
98-000148-01
98-000215-01
37-000010-01