vpx3224d ETC-unknow, vpx3224d Datasheet - Page 25
vpx3224d
Manufacturer Part Number
vpx3224d
Description
Video Pixel Decoders
Manufacturer
ETC-unknow
Datasheet
1.VPX3224D.pdf
(92 pages)
Micronas
PRELIMINARY DATA SHEET
2.8.4. VACT
The ‘video active’ signal is a qualifier for valid video sam-
ples. Since scaled video data is stored internally, there
are no invalid pixel within the VACT interval. VACT has
a defined position relative to HREF depending on the
window settings (see section 2.10.). The maximal win-
dow length depends on the minimal line length of the in-
put signal. It is recommended to choose window sizes of
less than 800 pixels. Sizes up to 864 are possible, but for
non-standard input lines, VACT is forced inactive 4
PIXCLK cycles before the next trailing edge of HREF.
During the VBI-window, VACT can be enabled or sup-
pressed with FP-RAM 0x138. Within this window, the
VPX can deliver either sliced text data with a constant
length of 64 samples or 1140 raw input samples. For ap-
plications that request a uniform window size over the
whole field, a mode with a free programmable VACT is
Table 2–8: Delay of valid output data relative to the trailing edge of HREF (single clock mode)
Table 2–9: Delay of valid output data relative to the trailing edge of HREF (half clock mode)
DATA
(Port A or B)
VACT
HREF
PIXCLK
LLC
Fig. 2–29: Relationship between HREF and VACT signals (single clock mode)
Mode
Video data
Raw VBI data
Sliced VBI data
Mode
Video data
Raw VBI data
Sliced VBI data
Data Delay
(HBeg+HLen)*(720/NPix)–Hlen
HBeg*(720/NPix)
150
726
Data Delay
(HBeg+HLen)*(720/NPix)–2*Hlen for NPix < 360
HBeg*(720/NPix)
not possible!
662
64 cycles
data delay
D
1
for NPix < 720
for NPix
for NPix
supported [FP-RAM 0x140, vactmode]. The start and
end position for the VACT signal relative to the trailing
edge of HREF can be programmed within a range of 0
to 864 [FP-RAM 0x151, 0x152]. In this case, VACT no
longer marks valid samples only.
The position of the valid data depends on the window
definitions. It is calculated from the internal processor.
The calculated delay of VACT relative to the trailing edge
of HREF can be read via FP-RAM 0x10f (window 1) or
0x11f (window 2). Tables 2–8 and 2–9 show the formulas
for the position of valid data samples relative to the trail-
ing edge of HREF.
Fig. 2–29 illustrates the temporal relationship between
the VACT and the HREF signals as a function of the
number of pixels per output line and the horizontal di-
mensions of the window. The duration of the inactive pe-
riod of the HREF is fixed to 64 clock cycles.
720
360
VPX 3225D, VPX 3224D
D
n–1
Data End
DataDelay + HLen
720
790
Data End
DataDelay + 2*HLen
not possible!
790
D
n
data end
25
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