STV6410A Просмотр технического описания (PDF) - STMicroelectronics
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STV6410A Datasheet PDF : 22 Pages
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STV6410A
APPLICATION NOTE
1 - Audio Part
1.a - Inputs
The audio inputs are designed to follow sources up
to (at least) 2VRMS (that is around 6VPP) with an
expected DC level of VCC/2 (4V typ.). That’s why
the device is providing this DC polarization. That
means that in most of the cases the inputs are AC
coupled via chemical capacitors. The recom-
mended values are 1µF, 2.2µF or 4.7µF (internal
polar. is made via a 50kΩ resistor). I want to point
out that the internal polarization is filtered by an
external capacitor (on Pin called ‘VREF’). This ca-
pacitor contribute to good performance of the de-
vice. Its value should be 47µF or more (coupled
with an 47nF HF cap. for internal video references).
Figure 14 : Audio Inputs
L/R Audio
220W 4.7m F
Audio In
12kW
STV6410A
NB: In some particular cases (loopback from out-
puts to inputs) the AC coupling capacitor can be
removed... but some small offsets in the audio
chain can cause some noise while switching from
one input to another.
1.b - Outputs
Audio output buffers are able to provide more than
2.1VRMS (around 6VPP) on a typical load of 10kΩ
(in fact a 2kΩ load is acceptable). The DC level is
once more VCC/2 for best dynamic performance.
Usually some AC coupling capacitors are used at
the outputs. To drive some typical 10kΩ loads, it is
normal to use capacitors with value 5 to 10 times
the value of the input capacitors. That gives a value
between 4.7µF and 47µF. Moreover it can be a
good idea to insert resistors (220Ω or 470Ω) in the
audio outputs. That will provide a protection for
output stages. No external drivers or buffers are
needed in typical use of the device.
Figure 15 : Audio Outputs
Audio Out
4.7m F 470W
L/R Audio
STV6410A
2 - Video Part
2.a - Inputs
Video inputs need to be AC coupled. But only some
small capacitor values are requested thanks to the
internal clamps provided by these devices. Usually
some 100nF HF capacitors (47nF to 220nF) are
enough to provide good performances on Y,
CVBS,RGB and C inputs.
Chrominance inputs : - average clamp - that means
that the DC is measured as the average value of the
input signal and set to an internal reference (close
to 3V). The dynamic allowed is more than 1.5V.
RGB, Y, CVBS inputs : - bottom sync top clamp -
that means that the DC level is measured at the
lowest value of the input signal and set to an
internal reference (close to 2V). The dynamic al-
lowed is more than 1.5V.
Figure 16 : Video Inputs
Y/C/CVBS/RGB
220W 100nF
Video In
75W
STV6410A
2.b - Outputs
On these devices the video outputs are NOT ABLE
to drive 150Ω. That means that external buffers (one
simple NPN-Transistor per output) are needed. To
reduce the external components, the output DC
level have been chosen to allow a direct drive of the
base of the output follower (NPN). The emitters of
the NPNs will be polarized to ground via 1kΩ resis-
tors (more or less) and will drive the outputs through
some 75Ω resistors. Do not forget to bufferize your
favourite UHF modulator video input...
Chrominance outputs have a DC of 2.3V (it is an
average value) and Luminance type output have a
DC of 1.3V (it is a bottom value).
Figure 17 : Video (and Fast Blanking) Outputs
Video Out
(4.7kW )
STV6410A
75W
1kW
Video
20/22
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