VPC 323xD, VPC 324xD
ADVANCE INFORMATION
2. Functional Description
2.1.3. Automatic Gain Control
2.1. Analog Video Front-End
A digitally working automatic gain control adjusts the
magnitude of the selected baseband by +6/–4.5 dB in
64 logarithmic steps to the optimal range of the ADC.
The gain of the video input stage including the ADC is
213 steps/V with the AGC set to 0 dB.
This block provides the analog interfaces to all video
inputs and mainly carries out analog-to-digital conver-
sion for the following digital video processing. A block
diagram is given in Fig. 2–1.
Most of the functional blocks in the front-end are digi-
tally controlled (clamping, AGC, and clock-DCO). The
control loops are closed by the Fast Processor (‘FP’)
embedded in the decoder.
2.1.4. Analog-to-Digital Converters
Two ADCs are provided to digitize the input signals.
Each converter runs with 20.25 MHz and has 8 bit res-
olution. An integrated bandgap circuit generates the
required reference voltages for the converters. The two
ADCs are of a 2-stage subranging type.
2.1.1. Input Selector
Up to five analog inputs can be connected. Four inputs
are for composite video or S-VHS luma signal. These
inputs are clamped to the sync back porch and are ampli-
fied by a variable gain amplifier. One input is for connec-
tion of S-VHS carrier-chrominance signal. This input is
internally biased and has a fixed gain amplifier. A second
S-VHS chroma signal can be connected video-input
VIN1.
2.1.5. Digitally Controlled Clock Oscillator
The clock generation is also a part of the analog front
end. The crystal oscillator is controlled digitally by the
control processor; the clock frequency can be adjusted
within ±150 ppm.
2.1.6. Analog Video Output
2.1.2. Clamping
The input signal of the Luma ADC is available at the
analog video output pin. The signal at this pin must be
buffered by a source follower. The output voltage is
2 V, thus the signal can be used to drive a 75 Ω line.
The magnitude is adjusted with an AGC in 8 steps
together with the main AGC.
The composite video input signals are AC coupled to
the IC. The clamping voltage is stored on the coupling
capacitors and is generated by digitally controlled cur-
rent sources. The clamping level is the back porch of
the video signal. S-VHS chroma is also AC coupled.
The input pin is internally biased to the center of the
ADC input range.
Analog Video
Output
AGC
+6/–4.5 dB
VIN4
CVBS/Y
digital CVBS or Luma
clamp
VIN3
ADC
ADC
CVBS/Y
VIN2
CVBS/Y
CVBS/Y/C
C
gain
VIN1
CIN
digital Chroma
system clocks
bias
DVCO
±150
ppm
reference
generation
frequency
20.25 MHz
Fig. 2–1: Analog front-end
8
Micronas
MICRONAS [ MICRONAS ]
