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Número de pieza TDA8752A
Descripción Triple high-speed Analog-to-Digital Converter ADC
Fabricantes NXP Semiconductors 
Logotipo NXP Semiconductors Logotipo



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INTEGRATED CIRCUITS
DATA SHEET
TDA8752A
Triple high-speed Analog-to-Digital
Converter (ADC)
Product specification
Supersedes data of 1998 Dec 14
File under Integrated Circuits, IC02
1999 Feb 24

1 page




TDA8752A pdf
Philips Semiconductors
Triple high-speed Analog-to-Digital
Converter (ADC)
Product specification
TDA8752A
handbook, full pagewidth
CLP
RAGC
CLKADC
RCLP
RIN
Vref
VP
150
k
CLAMP
CONTROL
DAC
8
3
k
45
k
DAC
MUX
5
REGISTER
FINE GAIN ADJUST
I2C-bus; 5 bits
(Fr)
AGC
ADC
VCCAR
REGISTER
I2C-bus; 8 bits
(Or)
D
DR
R
1
8
8
7
1
REGISTER
COARSE GAIN ADJUST
I2C-bus; 7 bits
(Cr)
ROR
8
OUTPUTS
R0 to R7
OE
RBOT
SERIAL
I2C-BUS
HSYNCI RGAINC
MGG364
1999 Feb 24
Fig.2 Red channel diagram.
5

5 Page





TDA8752A arduino
Philips Semiconductors
Triple high-speed Analog-to-Digital
Converter (ADC)
Product specification
TDA8752A
FUNCTIONAL DESCRIPTION
This triple high-speed 8-bit ADC is designed to convert
RGB signals, from a PC or work station, into data used by
a LCD driver (pixel clock up to 200 MHz, using 2 ICs).
IC analog video inputs
The video inputs are internally DC polarized. These inputs
are AC coupled externally.
Clamps
Three independent parallel clamping circuits are used to
clamp the video input signals on the black level and to
control the brightness level. The clamping code is
programmable between code 63.5 and +64 in steps of
12LSB. The programming of the clamp value is achieved
via an 8-bit DAC. Each clamp must be able to correct an
offset from ±0.1 V to ±10 mV within 300 ns, and correct the
total offset in 10 lines.
The clamps are controlled by an external TTL positive
going pulse (pin CLP). The drop of the video signal is
<1 LSB.
Normally, the circuit operates with a 0 code clamp,
corresponding to the 0 ADC code. This clamp code can be
changed from 63.5 to +64 as represented in Fig.7, in
steps of 12LSB. The digitized video signal is always
between code 0 and code 255 of the ADC.
The output of the multiplexer is either the normal video
signal or the 0.156 V reference signal (during HSYNC).
The corresponding ADC outputs are then compared to a
pre-set value loaded in a register. Depending on the result
of the comparison, the gain of the variable gain amplifiers
is adjusted (coarse gain control; see Figs 2 and 8).
The three 7-bit registers receive data via a serial interface
to enable the gain to be programmed.
The pre-set value loaded in the 7-bit register is chosen
between approximately 67 codes to ensure the full-scale
input range (see Fig.8). A contrast control can be achieved
using these registers. In this case care should be taken to
stay within the allowed code range (32 to 99).
A fine correction using three 5-bit DACs, also controlled via
the serial interface, is used to finely tune the gain of the
three channels (fine gain control; see Figs 2 and 9) and to
compensate the channel-to-channel gain mismatch.
With a full scale ADC input, the resolution of the fine
register corresponds to 12LSB peak-to-peak variation.
To use these gain controls correctly, it is recommended to
fix the coarse gain (to have a full-scale ADC input signal)
to within 4 LSB and then adjust it with the fine gain.
The gain is adjusted during HSYNC. During this time the
output signal is not related to the amplified input signal.
The outputs, when the coarse gain system is stable, are
related to the programmed coarse code (see Fig.8).
Variable gain amplifier
Three independent variable gain amplifiers are used to
provide, to each channel, a full-scale input range signal to
the 8-bit ADC. The gain adjustment range is designed so
that, for an input range varying from 0.4 to 1.2 V (p-p), the
output signal corresponds to the ADC full-scale input of
1 V (p-p).
To ensure that the gain does not vary over the whole
operating temperature range, an external reference of
2.5 V DC, (Vref with a 100 ppm/°C maximum variation)
supplied externally, is used to calibrate the gain at the
beginning of each video line before the clamp pulse using
the following principle.
A differential of 0.156 V (p-p) (116Vref) reference signal is
generated internally from the reference voltage (Vref).
During the synchronization part of the video line, the
multiplexer, controlled by the TTL synchronization signal
(HSYNCI, coming from HSYNC; see Fig.1) with a width
equal to one of the video synchronization signals
(e.g. signal coming from a synchronization separator), is
switched between the two amplifiers.
ADCs
The ADCs are 8-bit with a maximum clock frequency of
100 Msps. The ADCs input range is 1 V (p-p) full-scale.
One out of range bit exists per channel (ROR, GOR and
BOR). It will be at logic 1 when the signal is out of range
the full scale of the ADCs.
Pipeline delay in the ADCs is 1 clock cycle from sampling
to data output.
The ADCs reference ladders regulators are integrated.
ADC outputs
ADC outputs are straight binary. An output enable pin
(OE; active LOW) enables the output status between
active and high-impedance (OE = HIGH) to be switched;
it is recommended to load the outputs with a 10 pF
capacitive load. The timing must be checked very carefully
if the capacitive load is more than 10 pF.
1999 Feb 24
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