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Details, datasheet, quote on part number:TDA4470-M
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| Part: | TDA4470-M |
| Category: | Multimedia => Audio => Sound Generators |
| Description: | Multistandard Video-if And Quasi Parallel Sound Processing |
| Company: | Temic Semiconductors (acquired by ATMEL Corporation) |
| Datasheet: | Download TDA4470-M datasheet File size : 195 kB |
| Request For quote: | Find where to buy TDA4470-M
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Datasheet text preview:
TDA4470-M
Multistandard Video-IF and Quasi Parallel Sound Processing
Description
The TDA4470 is an integrated bipolar circuit for multistandard video/sound IF (VIF/SIF) signal processing in TV/VCR and multimedia applications. The circuit processes all TV video IF signals with negative modulation (e.g., B/G standard), positive modulation (e.g., L standard) and the AM, FM/NICAM sound IF signals.
Features
D 5 V supply voltage; low power consumption D Active carrier generation by FPLL principle
(frequency-phase-locked-loop) for true synchronous demodulation
D Intercarrier output signal is gain controlled (necessary
for digital sound processing)
D Complete alignment-free AM demodulator with gain
controlled AF output
D Very linear video demodulation, good pulse response
and excellent intermodulation figures
D Separate SIF-AGC with average detection D Two independent SIF inputs D Parallel operation of the AM demodulator and QPS
mixer (for NICAM-L stereo sound)
D VCO circuit operates at picture carrier frequency, the
VCO frequency is switchable for L'-mode
D Alignment-free AFC without external reference
circuit, polarity of the AFC curve is switchable
D VIF-AGC for negative modulated signals (peak sync.
detection) and for positive modulation (peak white/ black level detector)
D Package and relevant pinning is compatible with the
single standard version TDA4472, which simplifies the design of an universal IF module
D Tuner AGC with adjustable take over point D Alignment-free quasi parallel sound (QPS) mixer for
FM/NICAM sound IF signals Package: SDIP28, SO28
Ordering Information
Extended Type Number TDA4470-MSD TDA4470-MFLG3 Package SDIP28 SO28 Remarks Delivery in taped form
TELEFUNKEN Semiconductors Rev. A2, 15-Oct-96
1 (16)
Preliminary Information
TDA4470-M
Offset comp. (optional) Loop filter
VCO
26
18
20 VCO + phase shift
21
FPLL
0° 90°
Control 19
AFC VIF amp
VIF CAGC
7
8 15
CBL Tuner
11 10
Take over point SIF 2 SIF input switch
27 28
3
1 2
5 CAGC
AM det.
95 10851
Figure 1. Block diagram
2 (16)
Preliminary Information
TELEFUNKEN Semiconductors Rev. A2, 15-Oct-96
Ï Ï Ï
SIF 1
Ï Ï Ï Ï Ï Ï Ï Ï Ï Ï Ï Ï Ï Ï Ï Ï Ï Ï Ï
6
Video det. AGC (VIF) Standard
Tuner AGC FM det.
Supply
SIF amp
AGC (SIF)
Ï Ï Ï Ï ÏÏ Ï ÏÏ Ï ÏÏ Ï ÏÏ Ï Ï Ï Ï Ï ÏÏ Ï ÏÏ Ï
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Block Diagram
L' switch
14
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Ï
AFC switch AFC
22
12
Video
13
Standard switch
23
VS
17
CRef
24
Intercarrier (FM / NICAM)
Ï Ï
25
AF (AM)
4,9,16
TDA4470-M
Circuit Description
Vision IF Amplifier
The video IF signal (VIF) is fed through a SAW filter to the differential input (Pin 6-7) of the VIF amplifier. This amplifier consists of three AC-coupled amplifier stages. Each differential amplifier is gain controlled by the automatic gain control (VIF-AGC). The output signal of the VIF amplifier is applied to the FPLL carrier generation and the video demodulator. The oscillator signal passes a phase shifter and supplies the in-phase signal (0°) and the quadrature signal (90°)of the generated picture carrier.
Video Demodulation and Amplifier
The video IF signal, which is applied from the gain controlled IF amplifier, is multiplied with the inphase component of the VCO signal. The video demodulator is designed for low distortion and large bandwidth. The demodulator output signal passes an integrated low pass filter for attenuation of the residual vision carrier and is fed to the video amplifier. The video amplifier is realized by an operational amplifier with internal feedback and 8 MHz bandwidth (3 dB). A standard dependent dc level shift in this stage delivers the same sync. level for positive and negative modulation. An additional noise clipping is provided. The video signal is fed to VIF-AGC and to the video output buffer. This amplifier with a 6 dB gain offers easy adaption of the sound trap. For nominal video IF modulation the video output signal at Pin 12 is 2 Vpp.
Tuner-and VIF-AGC
At Pin 8, the VIF-AGC charges/discharges the AGC capacitor to generate a control voltage for setting the gain of the VIF amplifier and tuner in order to keep the video output signal at a constant level. Therefore, in the case of all negative modulated signals (e.g., B/G standard) the sync. level of the demodulated video signal is the criterion for a fast charge/discharge of the AGC capacitor. For positive modulation (e.g., L standard) the peak white level of video signal controls the charge current. In order to reduce reaction time for positive modulation, where a large time constant is needed, an additional black level detector controls the discharge current in the event of decreasing VIF input signal. The control voltage (AGC voltage at Pin 8) is transferred to an internal control signal, and is fed to the tuner AGC to generate the tuner AGC current at Pin 11 (open collector output). The take over point of the tuner AGC can be adjusted at Pin 10 by a potentiometer or an external dc voltage (from interface circuit or microprocessor).
Sound IF Amplifier and SIF-AGC
The SIF amplifier is nearly identical with the 3-stage VIF amplifier. Only the first amplifier stage exists twice and is switchable by a control voltage at Pin 3. Therefore with a minimal external expense it is possible to switch between two different SAW filters. Both SIF inputs features excellent cross-talk attenuation and an input impedance which is independent from the switching condition. The SIF-AGC is related to the average level of AM- or FM-carrier and controls the SIF amplifier to provide a constant SIF signal to the AM demodulator and QPS mixer.
FPLL, VCO and AFC
The FPLL circuit (frequency phase locked loop) consists of a frequency and phase detector to generate the control voltage for the VCO tuning. In the locked mode, the VCO is controlled by the phase detector and in unlocked mode, the frequency detector is superimposed. The VCO operates with an external resonance circuit (L and C parallel) and is controlled by internal varicaps. The VCO control voltage is also converted to a current and represents the AFC output signal at Pin 22. At the AFC switch (Pin 19) three operating conditions of the AFC are possible: AFC curve "rising" or "falling" and AFC "off". A practicable VCO alignment of the external coil is the adjustment to zero AFC output current at Pin 22. At center frequency the AFC output current is equal to zero. Furthermore, at Pin 14, the VCO center frequency can be switched for setting to the required L' value (L' standard). The optional potentiometer at Pin 26 allows an offset compensation of the VCO phase for improved sound quality (fine adjustment). Without a potentiometer (open circuit at Pin 26), this offset compensation is not active.
AM Demodulator
The alignment-free AM demodulator is realized by a synchronous detector. The modulated SIF signal from the SIF amplifier output is multiplied in phase with the limited SIF signal (AM is removed). The AF signal of the demodulator output is fed to the output amplifier and to the SIF-AGC. For all TV standards with negative video modulation (e.g., B/G standard), the AF output signal (Pin 25) is switched off by the standard switch.
Quasi-Parallel-Sound (QPS) Mixer
The QPS mixer is realized by a multiplier. The SIF signal (FM or NICAM carrier) is converted to the intercarrier frequency by the regenerated picture carrier (quadrature signal) which is provided from the VCO. The intercarrier signal is fed via an output amplifier to Pin 24.
TELEFUNKEN Semiconductors Rev. A2, 15-Oct-96
3 (16)
Preliminary Information
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