Data19(+) | 29 | Blue/Green |
|
Data18(+) | 30 | Green/Purple |
|
Data17(+) | 31 | Gray/Purple |
|
Data16(+) | 32 | Gray/Green |
|
Data15(+) | 33 | Blue/White |
|
Data14(+) | 34 | Brown/Tan |
|
Data12(+) | 35 | Tan/Pink |
|
Data13(+) | 36 | Gray/Yellow |
|
Data11(+) | 37 | Brown/Purple |
|
Data10(+) | 38 | Brown/Gray |
|
Data9(+) | 39 | Tan/Green |
|
Data8(+) | 40 | Green/Pink |
|
Data7(+) | 41 | Pink/Yellow |
|
Data6(+) | 42 | Tan/Yellow |
|
Data5(+) | 43 | Gray/White |
|
Data4(+) | 44 | Green |
|
Data3(+) | 45 | Tan |
|
Data2(+) | 46 | Purple |
|
Data1(+) | 47 | Brown |
|
Data0(+) | 48 | Blue |
|
GROUND | 49 | Tan/Orange |
|
GROUND | 50 | Orange/Pink |
|
79 | Green/Blue | |
80 | Purple/Green | |
81 | Purple/Gray | |
82 | Green/Gray | |
83 | White/Blue | |
84 | Tan/Brown | |
85 | Pink/Tan | |
86 | Yellow/Gray | |
87 | Purple/Brown | |
88 | Gray/Brown | |
89 | Green/Tan | |
90 | Pink/Green | |
91 | Yellow/Pink | |
92 | Yellow/Tan | |
93 | White/Gray | |
94 | Yellow | |
95 | White | |
96 | Orange | |
97 | Gray | |
98 | Pink | |
99 | Orange/Tan | +12V_FUSED |
100 | Pink/Orange | +12V_FUSED |
a.Build from cable with compatible Camera connector
If you plan to build a cable using a compatible Camera connector then you will need a compatible mating cable plug for the PXD1000. The mating cable plug for the PXD100 is an AMP Amplimite .050 Series Cable Plug Connector, Series III (AMP PN:
b.How long can the Digital Cable be? Imagenation recommends that the cables for the digital camera to PXD1000 be 10 meters in length or less. If cables are any longer than 10 meters, unpredictable results may occur. There is not an easy answer to this question for cables longer than 10 meters. Cables up to 10 meters should work for all cameras. Beyond 10 meters, the answer begins to depend more on the camera and the speed of the data than on the frame grabber. In general, the higher the speed, the shorter the cable. A 40MHz camera, for example, would need a shorter cable than a 20 MHz camera.
The problem with a long cable is that the wire sets up a distributed capacitance. It can change the timing of the bits. If the timing of the bits changes then the frame grabber will miss data. A high quality camera will have a guard band on the bits to compensate for some small timing changes.
LVDS is designed to allow cables up to several hundred feet, however, much of that depends on the camera and the frequency.
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