TDA9206 Просмотр технического описания (PDF) - STMicroelectronics
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TDA9206 Datasheet PDF : 12 Pages
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TDA9206
FUNCTIONAL DESCRIPTION
Input Stage
The R, G and B signals must be fed to the three
inputs through coupling capacitors (100nF).
The maximum input peak-to-peak video amplitude
is 1V.
The input stage includes a clamping function. This
clamp is using the input serial capacitor as ”mem-
ory capacitor” and is gated by an internally gener-
ated ”Back-Porch-Clamping-Pulse (BPCP)”.
The synchronization edge of the BPCP is selected
according bit 0 of register R8.
When B0R8 is set to 1, the BPCP is synchronized
on the leading edge of the blanking pulse BLK
inputs on Pin 14 (see Figure 1).
Figure 1
BLK
HSYNC
BPCP
Internal pulse width is controlled by I2C
When B0R8 is clear to 0, the BPCP is synchronized
on the second edge of the horizontal pulse HSYNC
inputs on Pin 24. An automatic function allows to
use positive or negative horizontal pulse on Pin 24
(see Figure 2).
Figure 2
HSYNC
BPCP
Internal pulse width is controlled by I2C
In both case BPCP width is adjustable by I2C, B1
and B2 of register R8 (see R8 Table P8).
Contrast Adjustment (8 bits)
The contrast adjustment is made by controlling
simultaneously the gain of three internal variable
gain amplifiers through the I2C bus interface.
The contrast adjustment allows to cover a typical
range of 48dB.
Brightness Adjustment (8 bits)
As for the contrast adjustment, the brightness is
controlled by I2C.
The brightness function consists to add the same
DC offset to the three R, G, B signals after contrast
amplification.
This DC-Offset is present only outside the blanking
pulse (see Figure 3).
The DC output level during the blanking pulse, is
forced to ”INFRA-BLACK” level (VDC).
Drive Adjustment (3 x 8 bits)
In order to adjust the white balance , the TDA9206
offers the possibility to adjust separately the overall
gain of each complete video channel.
The gain of each channel is controlled by I2C (8bits
each).
The very large drive adjustment range (48dB) allows
different standard or custom color temperature.
It can also be used to adjust the output voltages at
the optimum amplitude to drive the C.R.T drivers,
keeping the whole contrast control for end-user only.
The drive adjustment is located after the CON-
TRAST, BRIGHTNESS and OSD switch blocks, so
that the white balance will remains correct when
BRT is adjusted, and will also be correct on OSD
portion of the signal.
OSD Inputs
The TDA9206 includes all the circuitry necessary
to mix OSD signals into the RGB main-picture. Four
pins are dedicated to this function as follow.
Three TTL RGB On Screen Display inputs
(Pin 2, 5 and 8). These three inputs are connected
to the three outputs of the corresponding ON-
SCREEN-DISPLAY processor (ex : STV942x).
One Fast Blanking Input (FBLK, Pin 13) which is
also connected to the FBLK output of the same
ON-SCREEN-DISPLAY processor.
When a high level is present on FBLK, the IC will
acts as follow :
- The three main picture RGB input signals are
internally switched to the internal input clamp
reference voltage.
- The three output signals are set to voltages
corresponding to the state (0 or 1) on the three
OSD inputs (see Figure 3).
Example :
If FBLK = 1 and OSD1, OSD2, OSD3) = 1, 0, 1
respectively.
Then OUT1, OUT2, OUT3 will be equal to VOSD,
VBRT, VOSD,
where : VBRT = VBLACK + BRT
VOSD = VBRT + OSD
BRT is the brightness DC level I2C adjustable.
OSD is the On-Screen Display signal value I2C
adjustable from 0V to 4.68VPP by step of 0.312V.
Semi-transparent function is controlled thanks to
Bit 6 of R8 register (see Table 1).
When semi-transparent mode is activated, video
signal is divided by 2 (CONT).
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