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2.5.6 Video Data Output for the A503k
cameras output the video data in an 8 x 8 Bit data stream.
A503
k
The pixel clock is used to time data sampling and transmission. As shown in Figures
11, the camera samples and transmits data on each rising edge of the pixel clock.
The image has a maximum size of 1280 x 1024 pixels that are transmitted with a Pixel Clock
frequency of 67.58 MHz over the three Channel Link transmitter/receiver pairs X, Y and Z. With
each clock cycle, eight pixels at a depth of 8 Bits are transmitted in parallel. Therefore one line
takes a maximum of 160 clock cycles to become transmitted. For more details about sensor
timing, refer to the Micron MV13 data sheet (www.micron.com).
Due to the internal sensor design, the starting columns of areas of interest (AOIs; see section 3.11)
are restricted to values of multiples of 10 + 1. AOI widths, expressed in columns, are restricted to
multiples of 40. For details, read the register description of the AOI Starting Column and the AOI
Width register. The image is transmitted line by line from top left to bottom right. Frame Valid
(FVAL) and Line Valid (LVAL) mark the beginning and duration of frame and line.
The line valid bit indicates that a valid line is being transmitted. Pixel data is valid when the line
valid bit is high.
The sensor outputs 10 Bits, but two bits output from each ADC are dropped and only 8 bits of data
per pixel is transmitted. The digital shift function selects the bits to be dropped (see section 3.10).
The data sequence outlined below, along with Figures
is happening at the inputs to the Channel Link transmitters in the camera.
Note that the timing used for sampling the data at the Channel Link receivers in the
frame grabber varies from device to device. On some receivers, data must be sam-
pled on the rising edge of the pixel clock (receive clock), and on others, it must be
sampled on the falling edge. Also, some devices are available which allow you to
select either rising edge or falling edge sampling. For specific timing information, see
the data sheet for the receiver that you are using .
Video Data Sequence for the A503k
When the camera is not transmitting valid data, the frame valid and line valid bits sent on each
cycle of the pixel clock will be low. The camera can acquire a frame and, at the same time, send
the previous frame. It can also first acquire a frame and then send it. When Frame valid becomes
high, the camera starts to send valid data:
• On the pixel clock cycle where frame data transmission begins, the frame valid bit will
become high. One pixel clock later, the line valid bit will become high (if AOI Starting Column
= 0).
• On the pixel clock cycle where data transmission for line one begins, the line valid bit will
become high. Eight data streams are transmitted in parallel during this clock cycle. The first
pixel is the first pixel in the first data stream D_0. The second pixel is the first pixel in the
data stream D_1, and so on. The eighth pixel is the first pixel in the data stream D_7. The
data for each pixel will be at eight bit depth.
• On the next cycle of the pixel clock, the line valid bit will be high. The ninth pixel is the second
pixel in the D_0 data stream. The tenth pixel is the second pixel in the D_1 data stream, and
so on. The sixteenth pixel is is the second pixel in the D_7 data stream. The data for each
pixel will be at eight bit depth.
• On the next cycle of the pixel clock, the line valid bit will be high. The seventeenth pixel is the
third pixel in the D_0 data stream. The eighteenth pixel is the third pixel in the D_1 data
Basler A500
k
PRELIMINARY
Camera Interface
2-10
2-10
and 2-11, describe what
and
2-
2-25
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