Allied International Digital Camera GX3300 User Manual

GX3300 / GX3300C  
Technical Manual  
700060A  
April 7, 2010  
Allied Vision Technologies Canada  
Inc.  
101-3750 North Fraser Way  
Burnaby, BC  
V5J 5E9 / Canada  
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Legal notice  
For customers in the U.S.A.  
(FCC Compliance Information)  
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15  
of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the  
equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio  
frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful  
interference to radio communications. However there is no guarantee that interferences will not occur in a particular  
installation. Operation of this equipment in a residential environment is likely to cause harmful interference.  
You are cautioned that any changes or modifications not expressly approved in this manual could void your authority  
to operate this equipment. The shielded interface cable recommended in this manual must be used with this  
equipment in order to comply with the limits for a computing device pursuant to Subpart B of Part 15 of FCC Rules.  
For customers in Canada  
This digital apparatus complies with the Class A limits for radio noise emissions set out in the Radio Interference  
Regulations.  
Pour utilisateurs au Canada  
Cet appareil numérique est conforme aux normes classe A pour bruits radioélectriques, spécifiées dans le Règlement  
sur le brouillage radioélectrique.  
Life support applications  
These products are not designed for use in life support appliances, devices, or systems where malfunction of these  
products can reasonably be expected to result in personal injury. Allied Vision Technologies customers using or  
selling these products for use in such applications do so at their own risk and agree to fully indemnify Allied Vision  
Technologies for any damages resulting from such improper use or sale.  
Trademarks  
Unless stated otherwise, all trademarks appearing in this document are the property of Allied Vision Technologies  
and are fully protected by law.  
Warranty  
The information provided by Allied Vision Technologies is supplied without any guarantees or warranty whatsoever,  
be it specific or implicit. Also excluded are all implicit warranties concerning the negotiability, the suitability for specific  
applications or the non-breaking of laws and patents. Even if we assume that the information supplied to us is  
accurate, errors and inaccuracy may still occur.  
Copyright  
All text, pictures and graphics are protected by copyright and other laws protecting intellectual property. It is not  
permitted to copy or modify them for trade use or transfer, nor may they be used on web sites.  
Allied Vision Technologies Canada Inc. 1/2010  
All rights reserved.  
GX3300 Technical Manual  
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Contacting Allied Vision Technologies  
Technical information:  
Support:  
Allied Vision Technologies GmbH (Headquarters)  
Taschenweg 2a  
07646 Stadtroda, Germany  
Tel.: +49.36428.677-0  
Fax.: +49.36428.677-28  
Allied Vision Technologies Canada Inc.  
101-3750 North Fraser Way  
Burnaby, BC, V5J 5E9, Canada  
Tel: +1 604-875-8855  
Fax: +1 604-875-8856  
Allied Vision Technologies Inc.  
38 Washington Street  
Newburyport, MA 01950, USA  
Toll Free number +1-877-USA-1394  
Tel.: +1 978-225-2030  
Fax: +1 978-225-2029  
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Introduction  
The GX3300 series of cameras are sensitive, 17 frames per second, 8 megapixel,  
Gigabit Ethernet cameras based on the Kodak KAI-08050 CCD sensor. These cameras  
support the use of 1 or 2 gigabit Ethernet ports in a LAG configuration for higher  
bandwidth requirements.  
Precautions  
READ INSTALLATION GUIDE CAREFULLY.  
This document contains specific information which is necessary for the correct operation  
and treatment of this product.  
DO NOT OPEN THE CAMERA. WARRANTY IS VOID IF CAMERA IS OPENED.  
This camera contains sensitive components which can be damaged if handled  
incorrectly.  
KEEP SHIPPING MATERIAL.  
Poor packaging of this product can cause damage during shipping.  
VERIFY ALL EXTERNAL CONNECTIONS.  
Verify all external connections in terms of voltage levels, power requirements, voltage  
polarity, and signal integrity prior to powering this device.  
CLEANING.  
This product can be damaged by some volatile cleaning agents. Avoid cleaning the  
image sensor unless absolutely necessary. Please see instructions on sensor cleaning  
in this document.  
DO NOT EXCEED ENVIRONMENTAL SPECIFICATIONS.  
See environmental specifications limits in the Specifications section of this document.  
Warranty  
AVT Canada Inc. provides a 2 year warranty which covers the replacement and repair  
of all parts which are found to be defective in the normal use of this product. AVT  
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Canada Inc. will not warranty parts which have been damaged through the obvious  
misuse of this product.  
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Specifications  
Sensor Type  
Kodak KAI-08050  
Sensor Shutter Type  
Image Resolution  
Pixel Size  
Progressive Interline  
3296 x 2472 pixels  
5.5µm x 5.5µm  
Optical Format  
Lens Mount  
Color Sensor Filter Pattern†  
Full Resolution Frame Rate  
I/O  
4/3 inch  
F-mount with adjustable back focus  
Bayer  
17 fps  
2 isolated inputs, 4 isolated outputs, RS-232 TX/RX,  
video auto-iris, motorized iris, focus, and zoom  
Less than 6.1W using a single Gige port  
Less than 7.2 W using 2 Gige ports  
14 Bits  
Power Requirements  
Digitization  
Trigger latency*  
1.5µs  
Trigger Jitter*  
±0.5µs  
Operating Temperature  
Operating Humidity  
Size and Weight  
0 to 50 Celsius***  
20 to 80% non-condensing  
See mechanical diagrams  
IEEE 802.3 1000BASE-T, 100BASE-TX  
GigE Vision Standard 1.0  
Conforms to CE, FCC, RoHS  
Hardware Interface Standard  
Software Interface Standard  
Regulatory  
Applies to GX3300C only.  
††  
*
Power consumption will increase with reduced ROI imaging, vertical binning, and color formats.  
See Notes on Triggering in the Addendum.  
***DUE TO THE SMALL PACKAGING AND HIGH SPEED OF THE GX CAMERAS, SPECIAL  
CARE IS REQUIRED TO MAINTAIN A REASONABLE OPERATING TEMPERATURE. IF THE  
CAMERA IS TO BE OPERATED IN A WARM ENVIRONMENT, IT IS SUGGESTED THAT THE  
CAMERA BE MOUNTED ON A HEAT SINK SUCH AS A METAL BRACKET AND THAT THERE  
IS SUFFICIENT AIR FLOW.  
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Supported Features  
Imaging Modes  
Fixed Rate Control  
External Trigger Delay  
External Trigger Event  
Exposure Time  
Gain  
free-running, external trigger, fixed rate, software trigger  
0.001 fps to maximum frame rate  
0 to 60 seconds in 1 microsecond increments  
rising edge, falling edge, any edge, level high, level low  
10 microseconds to 60 seconds in 1 microsecond increments  
0 to 34dB  
Region of Interest (ROI) independent x and y control with 1 pixel resolution***  
Horizontal Binning  
Vertical Binning  
Pixel Formats  
1 to 8 pixels  
1 to 8 rows***  
Mono8, Mono16*, Bayer8, Bayer16, Rgb24,  
Yuv444, Bgr24, Rgba32, Bgra32, Bayer12Packed  
trigger ready, trigger input, exposing, readout, imaging,  
strobe, GPO  
Sync Out Modes  
*On monochrome versions only.  
***VERTICAL BINNING AND VERTICAL ROI INCREASES THE POWER CONSUMPTION AND  
OPERATING TEMPERATURE OF THE CAMERA.  
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Mechanical  
GX F-MOUNT  
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Connections  
GX CONNECTION DIAGRAM  
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GIGABIT ETHERNET PORTS  
These ports conform to the IEEE 802.3 1000BASE-T standard for Gigabit Ethernet over  
copper. It is recommended that CAT5E or CAT6 compatible cabling and connectors be  
used for best performance. Cable lengths up to 100m are supported. For higher  
bandwidth requirements, both ports can be used in a link aggregation group (LAG)  
configuration.  
GENERAL PURPOSE IO PORT  
PIN FUNCTION  
1
POWER GROUND  
EXTERNAL POWER  
SYNC OUT 4  
SYNC IN 1  
2
3
4
5
SYNC OUT 3  
SYNC OUT 1  
USER GROUND  
RS-232 RXD  
RS-232 TXD  
6
7
8
9
10  
11  
12  
USER VCC  
SYNC IN 2  
SYNC OUT 2  
GENERAL PURPOSE IO PORT AS SEEN FROM  
BACK OF CAMERA  
The General Purpose I/O port uses a Hirose HR10A-10R-12PB connector on the  
camera side. The mating cable connector is Hirose HR10A-10P-12S. This connector  
can be purchased from AVT Canada Inc. or from http://www.digikey.com. An open-  
ended cable assembly can also be ordered from AVT Canada Inc. (Part number 02-  
6033A).  
See Addendum for more detail.  
POWER GROUND  
This is the main ground of the camera circuitry and will be the return path for the  
external power source. This connection must be provided to operate the camera. The  
conductor used for this connection must be adequate for the current consumption of the  
camera. For best performance the connection for POWER GROUND should be  
physically close to the EXTERNAL POWER connection.  
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EXTERNAL POWER  
This connection provides the main power for the camera. The camera operates from a  
DC voltage between 5V to 24V. The current capacity of the power supply can be  
estimated by dividing the cameras power requirement by the external power voltage. It  
is also recommended to factor this by about 50% as follows:  
Power supply current capacity = (power specification / external voltage) x 1.5  
The conductor used for this connection must be adequate for the current consumption  
of the camera. For best performance the connection for EXTERNAL POWER should be  
physically close to the POWER GROUND connection.  
SYNC INPUTS (1 and 2)  
The input signals allow the camera to be synchronized to some external event. These  
signals are optically isolated and require the signal common (USER GROUND). The  
camera can be programmed to trigger on the rising or falling edge of these signals. The  
camera can also be programmed to capture an image at some programmable delay  
time after the trigger event. These signals can be driven from 5V to 24V with a current  
load of 5mA.  
VDD+3.3  
180R  
1/10W  
5V TO 24V  
IF = 5mA  
VCC  
S
D
1
PIN 4. SYNC IN 1  
7
6
G
MMBF4393LT1G  
2
3
TO CAMERA  
LOGIC  
180R  
1/10W  
5V TO 24V  
IF = 5mA  
S
D
4
PIN 11. SYNC IN 2  
PIN 7. USER GND  
GND  
HCPL-063L  
G
MMBF4393LT1G  
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SYNC OUTPUTS (1 to 4)  
These signals are optically isolated and require the user to provide a high voltage level  
(USER VCC) and signal common (USER GROUND). USER VCC can be from 5V to  
24V. ICC is a function of USER VCC and load resistor R. An example of the functional  
circuit is indicated in the following diagram.  
CAMERA  
CIRCUIT  
USERTRIGGER  
CIRCUIT  
5V TO 24V  
VCC-USER  
PIN 10. USER VCC  
IF = 5mA  
16  
15  
3.3V CAMERA  
LOGIC SIGNAL  
1
2
442R  
100K  
SYNC OUT  
V LOAD  
TLP281-4GB  
R
GND-USER  
CAMERA  
LOGIC SIGNAL  
SYNCOUT  
SIGNAL  
T3  
T4  
T1  
T2  
Various USER VCC values and load values for the above circuit are indicated in the  
following table:  
USER USER  
VCC ICC  
R
LOAD  
V LOAD R POWER  
DISSIPATION  
T1  
T2  
T3  
T4  
5V 8mA 500  
4.1V  
32mW  
1.5µs 6.5µs 2µs 14µs  
1.5µs 5µs 17µs 40µs  
5V 4.8mA 1KΩ  
4.8V  
23mW  
12V 9.2mA 1.2K11.2V  
12V 4.9mA 2.4K11.8V  
24V 9.5mA 2.4K23.2V  
24V 5mA 4.8K23.8V  
101mW 1.5µs 11.2µs 2µs 20µs  
58mW  
1.5µs 8.5µs 17µs 55µs  
217mW 1.5µs 22µs 2µs 37µs  
120mW 1.5µs 12µs 17µs 105µs  
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These signals only function as outputs and can be configured as follows:  
Exposing  
Corresponds to when camera is  
integrating light.  
Trigger Ready  
Trigger Input  
Indicates when the camera will  
accept a trigger signal.  
A relay of the trigger input signal  
used to daisy chainthe trigger  
signal for multiple cameras.  
Readout  
Strobe  
Valid when camera is reading out  
data.  
Programmable pulse based on one  
of the above events.  
Imaging  
Valid when camera is exposing or  
reading out.  
GPO  
User programmable binary output.  
Any of the above signals can be set for active high or active low.  
RS-232 RXD and RS-232 TXD  
These signals are RS-232 compatible. These signals allow communication from the  
host system via the Ethernet port to a peripheral device connected to the camera.  
These signals are not optically isolated and reference power ground. If these signals  
are used in the system, care must be taken to prevent ground loop problems.  
USER GROUND  
This connection provides the user ground reference and return path for the isolated  
sync in and sync out signals. This connection is necessary if any of the isolated sync  
signals are to be used. It is also recommended that this ground connection be  
physically close to the used sync signals to prevent parasitic coupling. For example, a  
good cable design would connect the required signal on one conductor of a twisted pair  
and the isolated ground on the second conductor of the same twisted pair.  
USER VCC  
This connection provides the power supply for the isolated sync out signals. The  
voltage requirement is from 5V to 24V DC. The current requirement for this supply is a  
function of the optical isolator collector current and the number of sync outs used in the  
system. See the SYNC OUTPUT section for more detail. To prevent parasitic coupling this  
connection should be physically close to the used SYNC OUT signals and USER  
GROUND.  
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LENS CONTROL PORT  
PIN FUNCTION  
1
2
3
4
5
6
7
8
IRIS +  
IRIS -  
FOCUS +  
FOCUS -  
ZOOM +  
ZOOM -  
AUTO IRIS SIGNAL  
GROUND  
LENS CONTROL PORT AS SEEN FROM BACK OF  
CAMERA  
This connector provides the signals necessary to control the iris, focus, and zoom of  
most commercially available TV Zoom lenses. The camera can be configured to  
operate lenses with unipolar voltage requirements of 6V up to 12V or lenses which  
operate with bipolar voltages from ±6V up to ±12V. This voltage level can be controlled  
through software. The default voltage will be set to 6V. The current capacity for each  
axis is 50mA.  
CARE MUST BE TAKEN NOT TO EXCEED THE LENS MANUFACTURERS  
VOLTAGE SPECIFICATION.  
This connector also provides the signals necessary to operate a video auto iris type of  
lens.  
The lens control connector is a Hirose 3260-8S3. The mating cable connector is Hirose  
3240-8P-C(50). This connector can be purchased from AVT Canada Inc. or from  
See Addendum for more detail.  
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Cleaning the Sensor  
DO NOT CONTACT CLEAN SENSOR UNLESS ABSOLUTELY NECESSARY.  
Identifying Debris  
Debris on the image sensor or optical components will appear as a darkened area or  
smudge on the image that does not move as the camera is moved. Do not confuse this  
with a pixel defect which will appear as a distinct point.  
Locating Debris  
Before attempting to clean the image sensor, it is important to first determine that the  
problem is due to debris on the sensor window. To do this you should be viewing a  
uniform image, such as a piece of paper, with the camera. Debris will appear as a dark  
spot or dark region that does not move as the camera is moved. To determine that the  
debris is not on the camera lens, rotate the lens independent of the camera. If the spot  
moves as the lens moves, then the object is on the lens -not on the image sensor- and  
therefore cleaning is not required. If the camera has an IR filter, then rotate the IR filter.  
If the object moves then the particle is on the IR filter not the sensor. If this is the case  
remove the IR filter carefully using a small flat head screw driver. Clean both sides of  
the IR filter using the same techniques as explained below for the sensor window.  
DO NOT TOUCH ANY OPTICS WITH FINGERS. OIL FROM FINGERS CAN  
DAMAGE FRAGILE OPTICAL COATINGS.  
Cleaning with Air  
If it is determined that debris is on the sensor window, then remove the camera lens,  
and blow the sensor window directly with clean compressed air. If canned air is used,  
do not shake or tilt the can prior to blowing the sensor. View a live image with the  
camera after blowing. If the debris is still there, repeat this process. Repeat the  
process a number of times with increased intensity until it is determined that the  
particulate cannot be dislodged. If this is the case then proceed to the contact cleaning  
technique.  
Contact Cleaning  
Only use this method as a last resort. Use 99% laboratory quality isopropyl alcohol and  
clean cotton swabs. Dampen the swab in the alcohol and gently wipe the sensor in a  
single stroke. Do not reuse the same swab. Do not wipe the sensor if the sensor and  
swab are both dry. You must wipe the sensor quickly after immersion in the alcohol, or  
glue from the swab will contaminate the sensor window. Repeat this process until the  
debris is gone. If this process fails to remove the debris, then contact AVT Canada Inc.  
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Adjusting the F-mount  
THE F-MOUNT IS ADJUSTED AT THE FACTORY AND SHOULD NOT  
REQUIRE ADJUSTING.  
If for some reason, the F-mount requires adjustment, use the following method.  
Attach F-mount compatible lens  
Use an F-mount compatible lens that allows an infinity focus. Attach the lens to the  
camera using a counter-clockwise rotation of about a quarter turn. The lens should  
snap into place and the lens flange and camera flange should mate over the full  
circumference.  
Loosen F-MOUNT FRONT ASSEMBLY  
Use a 1.5mm hex wrench to loosen the 3 set screws which hold the F-mount front  
assembly to the camera body.  
Image to Infinity  
Set the lens to infinity and image a distant object. The distance required will depend on  
the lens used but typically 30 to 50 feet should suffice. Gently move the F-mount front  
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assembly until the image is in focus. Carefully tighten the 3 set screws. Recheck the  
focus.  
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Network Card Configuration  
Operating GigE Vision GX cameras using multiple network adaptors  
The GX series cameras offer two Gigabit Ethernet ports for image data transfer and control.  
Users can connect one or both ports on the GX to Ethernet adapter ports on a host computer.  
Connecting both ports will increase the available bandwidth to 240 MB/sec, allowing higher  
frame rates and resolutions than a single port connection.  
GX cameras can be operated in single port and dual port configurations. The dual port  
approach requires the host computer to configure a Link Aggregate Group (LAG). A LAG  
configuration combines multiple Ethernet ports into a single data channel.  
1. Install a dual port network card in the host computer. To achieve full camera  
performance, you should use a Gigabit Ethernet card that supports "Jumbo frames" of  
at least 9KB size.  
2. Once installed, open your Network Connections(Start -> Control Panel->Network  
Connections) and right-click on one of the two network connection corresponding to the  
card that was just installed.  
3. Select Propertiesfrom the contextual menu that  
appears when you right click the network  
connection icon. This will open the properties  
window.  
4. In the properties window, click the Configurebutton. Select the Advancedtab. In  
the Propertylist make the following changes:  
(a) select Jumbo Framesand change the value to 9014 bytes or higher.  
(b) select Receive Descriptorson the same list and change the value to 512  
(c) select "Performance Options" and set "Interrupt Moderate Rate" to "Extreme"  
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5. Click on OKto validate your change (the Propertieswindow will close). The  
Property list will be different between different types/brands of gigabit Ethernet interface  
cards. If "Jumbo Frames" does not appear in this list, then your card probably does not  
support it. If your card does not support Jumbo Frames, then your CPU usage will be  
higher.  
6. Re-open the "Properties" of the PRO/1000 GT adapter by right-clicking the Local Area  
Connection "Intel® PRO/1000 GT" network connection icon in the Network Connections  
window and select the "Advanced" tab at the top of the Properties dialog.  
7. In the "Windows Firewall" section, select "Settings". In the  
Settings dialog choose "Off" to turn off the Windows  
firewall. The camera will not work if the firewall is active. If  
you installed the AVT/Prosilica GigE filter driver, this step  
is not required.  
8. Perform Steps 1 8 for the other Ethernet adapter port that will be dedicated to the GX  
camera network.  
9. The next section will provide instructions for configuring the Link Aggregate Group  
(LAG) to combine the two ports dedicated to the GX network.  
Open your Network Connections(Start -> Control Panel->Network Connections) and  
right-click on one of the two network connection corresponding to the card that was just  
installed. Select Propertiesfrom the contextual menu that appears when you right  
click the network connection icon. This will open the properties window. In the  
properties window, click on Configurebutton in order to create a Link Aggregate  
Group (LAG) between the two ports.  
10.Select the Teamingtab (analogous to LAG), enable  
Team this adapter with other adapters and click on  
the New Teambutton.  
11.Specify a name for the Team (Link Aggregate Group).  
This should be something that will distinguish this  
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adapter from others in your system. Click Nextto continue.  
12.Select the two Ethernet ports to which the GX  
camera will be connected. These ports will  
form our LAG or TEAM. Click Nextto  
continue.  
13.Choose Static Link Aggregation. Click  
Nextto continue.  
14.The LAG group will now be configured. You may  
be asked to permit the AVT_Prosilica GigE Vision  
Filter Miniportinstallation on the new LAG adapter.  
Click Continue Anyway.  
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15.Once completed the properties of the TEAM (LAG) that has just been created will  
appear. A new Network Connections Icon corresponding to the LAG group is created.  
You have now completed the Link Aggregate Group configuration.  
16.Reboot the system and install GigE Sample Viewer.  
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GigE Sample Viewer and Filter Driver  
o Download GigE Sample Viewer from www.alliedvisiontec.com. This will install the  
Sample Viewer application program, drivers, and optionally the AVT/Prosilica Filter  
Driver. The Filter Driver will improve CPU performance and is recommended.  
o Plug in the GX camera Ethernet cable(s) and power. Verify that the Green LED is a  
solid green. Run Sample Viewer. It will take a few seconds for the camera to be  
recognized, especially if your camera is in DHCP mode. If the camera does not  
appear after one minute, see the Trouble Shooting section of this document.  
o In Sample Viewer, select the wrench icon to change camera settings. See the  
Camera Controls Addendum for description of each setting. Select the eye icon to  
stream images. If the camera is not imaging, see the Trouble Shooting section of  
this document.  
Figure 1. GigE Viewer application window.  
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Trouble Shooting  
Is the camera getting power?  
The Green LED is the camera power indicator. If unlit, check the power adaptor. If  
possible, swap with one that is known to work. If using a custom power adaptor, be sure  
the adaptor supports the voltage and power requirements of the camera . If the LED still  
does not light up, contact AVT Canada Inc. support.  
Is the camera powered, but not detected in SampleViewer?  
Damaged or poor quality Ethernet cabling can result in no cameras found, dropped  
packets, decreased bandwidth, and other problems. Use Cat5e or better cabling known  
to work.  
Configure your NIC as outlined in Gigabit Ethernet Setup For Windows. It should have  
an IP address of 169.254.x.x, Subnet Mask: 255.255.0.0. This is the AutoIP address  
range. If your NIC has no access to a DHCP server, the camera will still be auto  
assigned an IP address. There should be no gateway on your NIC.  
Connect a single camera directly to your NIC, no hub/switch, and run the prosilica IP  
Configuration  
utility  
(Start>Programs>Prosilica>GigEIPConfig  
or  
C:\Program  
Files\Prosilica\GigEViewer\ipconfig.exe). You may need to wait up to 30 sec for camera  
to appear.  
A camera in DHCP (AutoIP fallback) mode.  
Camera is listed: Your camera and NIC must be on the same subnet, e.g.: NIC:  
IP 169.254.23.2 Subnet Mask: 255.255.0.0, Camera IP: 169.254.43.3 Subnet Mask:  
255.255.0.0.  
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The following example is not on the same Subnet: NIC IP 169.250.23.2 Subnet Mask:  
255.255.255.0, CamIP 169.254.13.0 Subnet Mask: 255.255.0.0. This can happen if you  
use a non AutoIP range on your NIC and it doesnt have access to a DHCP server.  
Either change your NIC IP to be in the AutoIP range, or fix the camera IP address to be  
on the same subnet as your NIC.  
Camera is not listed, or flashing Camera Unavailable: There may be multiple  
NICs on your system set to the same subnet. The camera can not know which card to  
resolve to. Change the IP address of your NIC.  
If you are still having problems, type: ipconfig /all in a windows command prompt, and  
send a screenshot to [email protected].  
Ipconfig /all screenshot  
Is the camera listed in SampleViewer but can’t acquire images?  
Reset your camera settings to factory default: with ConfigFileIndex = Factory, click the  
ConfigFileLoad button.  
While streaming, check your Stats:  
GX3300 Technical Manual  
Page 25  
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All stats 0 while streaming. Firewall likely blocking traffic  
All stats 0. Likely a firewall is blocking incoming traffic. Disable your firewall. Check your  
camera trigger settings. Many camera trigger modes require a software or hardware  
trigger event to capture frames.  
Packets are incoming, but all dropping. Be sure you have JumboFrames enabled on  
your NIC. Otherwise, decrease your PacketSize setting to 1500.  
All packets completing as normal, but black image. Check ExposureValue,  
ExposureMode, and be sure your scene is suitably lit.  
If you are still having problems acquiring images, please send your camera settings file  
(click on the disk icon in SampleViewer) to [email protected].  
Saving camera setting file  
GX3300 Technical Manual  
Page 26  
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Addendum  
GX3300 Technical Manual  
Page 27  
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VDD+3.3  
4.7K  
VDD+3.3  
VDD+3.3  
4.7K  
PIN 1. POWER GROUND  
PIN 2. EXTERNAL POWER  
PIN 3. SYNC OUT 4  
PIN 4. SYNC IN 1  
180R  
1/10W  
5V TO 24V  
IF = 5mA  
VCC  
1
9
VCC  
S
D
1
10  
8
PIN 5. SYNC OUT 3  
PIN 6. SYNC OUT 1  
PIN 7. USER GROUND  
PIN 8. RS-232 RXD  
PIN 9. RS-232 TXD  
PIN 10. USER VCC  
PIN 11. SYNC IN 2  
PIN 12. SYNC OUT 2  
2
6
4
1
3
7
6
CAMERA LOGIC SYNC IN 1  
CAMERA LOGIC SYNC IN 2  
3
7
G
MMBF4393LT1G  
2
3
11  
12  
4
6
5
180R  
1/10W  
5V TO 24V  
IF = 5mA  
S
D
4
GND  
HIROSE HR10A-10R-12PB  
GND  
NC7WZ14P6X  
HCPL-063L  
G
MMBF4393LT1G  
3.3V LOGIC  
442R  
16  
15  
1
2
CAMERA LOGIC SYNC OUT 1  
CAMERA LOGIC SYNC OUT 2  
CAMERA LOGIC SYNC OUT 3  
CAMERA LOGIC SYNC OUT 4  
IF = 5mA  
SYNC OUT 1  
SYNC OUT 2  
SYNC OUT 3  
SYNC OUT 4  
100K  
100K  
100K  
100K  
TLP281-4GB  
TLP281-4GB  
TLP281-4GB  
TLP281-4GB  
442R  
14  
13  
3
4
IF = 5mA  
442R  
12  
11  
5
6
IF = 5mA  
442R  
10  
9
7
8
IF = 5mA  
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CAMERA POWER  
CABLE SIDE  
POWER GROUND  
EXTERNAL POWER  
SYNC OUT 4  
SYNC IN 1  
SYNC OUT 3  
SYNC OUT 1  
USER GND  
1
2
3
4
5
6
7
9
1
10  
8
2
7
3
VDD+5  
8
9
10  
11  
12  
12  
11  
6
4
5V POWER  
CIRCUIT  
USER VCC  
SYNC IN 2  
SYNC OUT 2  
5
HIROSEHR10A-10P-12S  
NOTES:  
1. CAMERA POWER = 5V TO 24V  
2. CAMERA POWER DOES NOT NEED TO BE THE SAME AS USER VCC.  
3. CAMERA GND DOES NOT NEED TO CONNECT TO USER GND.  
4. USER VCC MUST HAVE CURRENT CAPACITY TO SUPPLY IC  
CURRENT FOR EACH SYNC OUT USED.  
2
4
6
8
18  
16  
14  
12  
USER LOGIC SYNC IN 1  
USER LOGIC SYNC IN 2  
1A1  
1Y1  
1Y2  
1Y3  
1Y4  
1A2  
1A3  
1A4  
9
7
5
3
11  
13  
15  
17  
USER LOGIC SYNC OUT 1  
USER LOGIC SYNC OUT 2  
USER LOGIC SYNC OUT 3  
USER LOGIC SYNC OUT 4  
2Y1  
2Y2  
2Y3  
2Y4  
2A1  
2A2  
2A3  
2A4  
1
VDD+5  
1OE  
2OE  
VCC  
19  
20  
10  
1K  
1K  
1K  
1K  
GND  
0.1u  
10V  
SN74ABT244APWR  
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ZOOM+  
ZOOM-  
FOCUS+  
FOCUS-  
IRIS+  
IRIS+  
1
3
5
7
IRIS-  
2
4
6
8
FOCUS+  
ZOOM+  
FOCUS-  
ZOOM-  
COMMON  
TV ZOOM LENS  
BIPOLAR TYPE  
IRIS-  
COMMON  
HIROSE 3240-8P-C(50)  
IRIS  
1
3
5
7
COMMON  
COMMON  
COMMON  
COMMON  
2
4
6
8
ZOOM  
FOCUS  
IRIS  
FOCUS  
ZOOM  
TV ZOOM LENS  
UNIPOLAR TYPE  
COMMON  
HIROSE 3240-8P-C(50)  
NOTES:  
1. CURRENT CAPACITY PER AXIS = 50mA.  
2. VERIFY LENS VOLTAGE SETTING ON CAMERA DOES NOT EXCEED LENS VOLTAGE SPECIFICATION.  
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POWER GROUND  
12V POWER  
POWER GROUND  
12V_POWER  
1
2
3
9
1
4
5
10  
8
2
6
7
7
3
8
9
10  
11  
12  
12  
11  
6
4
5
HIROSE HR10A-10P-12S  
1
2
3
4
5
6
7
8
LENS POWER  
HIROSE 3240-8P-C(50)  
VIDEO  
AUTO-IRIS  
LENS  
1
2
3
4
1
2
3
4
VIDEO SIGNAL  
LENS GROUND  
JEITA CONNECTOR  
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Trigger Timing Diagram  
GX3300 Technical Manual  
Page 32  
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Notes on Triggering  
Definitions  
o User Trigger is the trigger signal applied by the user.  
o Logic Trigger is the trigger signal seen by the camera internal logic.  
o Tpd is the propagation delay between the User Trigger and the Logic Trigger.  
o Exposure is high when the camera image sensor is integrating light.  
o Readout is high when the camera image sensor is reading out data.  
o Trigger Latency is the time delay between the User Trigger and the start of  
Exposure.  
o Trigger Jitter is the error in the Trigger Latency time.  
o Trigger Ready indicates to the user that the camera will accept the next trigger.  
o Registered Exposure Time is the Exposure Time value currently stored in the  
camera memory.  
o Expose Start Delay is the delay time from the start of Exposure to valid Trigger  
Ready. It is the Registered Exposure Time subtracted from the Readout time and  
indicates when the next Exposure cycle can begin such that the Exposure will end  
after the current Readout.  
o Interline Time is the time between sensor row readout cycles.  
o Imaging is high when the camera image sensor is either exposing and/or reading out  
data.  
o Idle is high if the camera image sensor is not exposing and/or reading out data.  
Rules  
o The User Trigger pulse width should be at least three times the width of the Trigger  
Latency as indicated in the Specifications section of this document.  
o The end of Exposure will always trigger the next Readout.  
o The end of Exposure must always end after the current Readout.  
o The start of Exposure must always correspond with the Interline Time if Readout is  
true.  
o Expose Start Delay equals the Readout time minus the Registered Exposure Time.  
Triggering during the Idle State  
o For applications requiring the shortest possible Trigger Latency and the smallest  
possible Trigger Jitter the User Trigger signal should be applied when Imaging is  
false and Idle is true.  
o In this case, Trigger Latency and Trigger Jitter are as indicated in the Specifications  
section.  
GX3300 Technical Manual  
Page 33  
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Triggering during the Readout State  
o For applications requiring the fastest triggering cycle time whereby the camera  
image sensor is exposing and reading out simultaneously, then the User Trigger  
signal should be applied as soon as a valid Trigger Ready is detected.  
o In this case, Trigger Latency and Trigger Jitter can be up to 1 line time since  
Exposure must always begin on an Interline boundary.  
GX3300 Technical Manual  
Page 34  
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Camera Controls  
For the latest, up to date camera controls, see AVT Camera and Driver  
GX3300 Technical Manual  
Page 35  
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