TEMIC TDA4474

TDA4474
TELEFUNKEN Semiconductors
Multistandard Video-IF and Quasi Parallel Sound Processing
Description
The TDA4474 is an integrated bipolar circuit for full
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.
Four IF inputs (2 x VIF plus 2 x SIF) and the common
pinning with TDA4471 gives flexibility to design a
universal IF module for various applications.
Features
5V supply voltage; low power consumption
Alignment–free quasi parallel sound (QPS) mixer
Active carrier generation by FPLL principle
(frequency–phase–locked–loop)
synchronous demodulation
for
true
Very linear video demodulation, good pulse
response and excellent intermodulation figures
VCO circuit is operating on picture carrier
frequency, the VCO frequency is switchable for
the L’ mode
Alignment–free AFC without external reference
circuit, polarity of the AFC curve is switchable
VIF–AGC for negative modulated signals
(peak sync detection) and for positive modulation
(peak white/black level detector)
Tuner AGC with adjustable take over point
Rev. A1: 17.08.1995
for FM/NICAM sound IF signals
Intercarrier output signal is gain controlled
(necessary for digital sound processing)
Complete alignment–free AM demodulator with
gain controlled AF output
Separate SIF–AGC with average detection
Parallel operation of the AM demodulator and
QPS mixer (for NICAM–L stereo sound)
Four IF inputs (2 x VIFin and 2 x SIFin)
Package and relevant pinning is compatible with
the TDA4471; simplifies the design of an
universal IF module
Package:
30 pin shrink–dual–inline–plastic (SDIP30)
Preliminary Information
1 (17)
TDA4474
TELEFUNKEN Semiconductors
Loop
filter
Offset
comp.
(optional)
Ï
Ï
VCO
ÏÏ
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Ï
ÏÏ
ÏÏ ÏÏ Ï ÏÏ
28
20
0°
90°
FPLL
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ÏÏ
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Ï
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Ï ÏÏ
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23
22
VCO
+
phase shift
L’ switch
and VIF input switch
16
Control
VIF 2
AFC
VIF amp
6
Video
Video det.
8
15
AGC
(VIF)
17
Standard
Standard
switch
CBL
13
Tuner
12
Take over
point
29
SIF 2
30
AFC
14
7
CAGC
AFC
switch
24
11
VIF 1
ÏÏ
Ï
ÏÏ
ÏÏ
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ÏÏ
Ï
ÏÏ Ï
ÏÏ
Ï
ÏÏ
ÏÏ
ÏÏ
ÏÏ
21
10
25
Tuner
AGC
Supply
FM det.
VS
19
CRef
26
Intercarrier
(FM / NICAM)
SIF amp
SIF input switch 3
1
SIF 1
2
5
ÏÏ
ÏÏ
ÏÏ
27
AGC
(SIF)
AM det.
CAGC
AF (AM)
4,9,18
94 7901
Figure 1. Block diagram
2 (17)
Preliminary Information
Rev. A1: 17.08.1995
TDA4474
TELEFUNKEN Semiconductors
Pin Description
Vi,SIF1 1
30 Vi,SIF2
Vi,SIF1 2
29 Vi,SIF2
VSW
3
28 Rcomp
GND
4
27 Vo,AM
CAGC
5
26 Vo,FM
Vi,VIF1
6
25 VS
Vi,VIF1
7
24 VAFC
CAGC
8
23
GND
9
22 VVCO
VVCO
Vi,VIF2 10
21
VSW
Vi,VIF2 11
20
LF
Rtop 12
19
CRef
Itun 13
18
GND
Vo,vid 14
17
CBL
16
VSW(L’)
VSW(stand.) 15
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Pin
1, 2
3
4
5
6, 7
8
9
10, 11
12
13
14
15
16
17
18
19
20
21
22, 23
24
25
26
27
28
29, 30
Symbol
Vi,SIF1
VSW
GND
CAGC
Vi,VIF1
CAGC
GND
Vi,VIF2
Rtop
Itun
Vo,vid
VSW
VSW
CBL
GND
CRef
LF
VSW
VVCO
VAFC
VS
Vo,FM
Vo,AM
Rcomp
Vi,SIF2
Function
SIF1 input (symmetrical)
SIF input selector switch
Ground
SIF–AGC (time constant)
VIF1 input (symmetrical)
VIF–AGC (time constant)
Ground
VIF2 input (symmetrical)
Take over point, tuner AGC
Tuner AGC output current
Video output
Standard switch
L’–/VIF input selector switch
Capacitor – black level detector
Ground
Internal reference voltage
Loop filter
AFC switch
VCO circuit
AFC output
Supply voltage
Intercarrier output
AF output – AM sound
Offset compensation
SIF2 input (symmetrical)
94 8680
Figure 2. Pin description
Rev. A1: 17.08.1995
Preliminary Information
3 (17)
TDA4474
TELEFUNKEN Semiconductors
Circuit Description
Vision IF Amplifier
The video IF signal (VIF) is fed through a external SAW
filter to one of the two VIF inputs (Pins 6–7 or 10–11). The
selection of VIF inputs is controlled by Pin 16 in combination with the standard switch. With a minimal
external expense it is possible to switch between two different SAW filters. Both VIF inputs features excellent
cross–talk attenuation and an input impedance which is
independent from the switching condition. The VIF
amplifier consists of three AC–coupled amplifier stages.
Each differential amplifier is gain controlled by the
automatic gain control (VIF–AGC). Output signal of the
VIF amplifier is applied to the FPLL carrier generation
and the video demodulator.
Tuner– and VIF–AGC
At Pin 8 the VIF–AGC charges/discharges the AGC
capacitor to generate a control voltage for setting gain of
VIF amplifier and tuner in order to keep the video output
signal at a constant level. Therefore in case of 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 very large time
constant is needed, an additional black level detector
(Pin 17) controls the discharge current in the event of
decreasing VIF input signal. The AGC voltage is
transferred to an internal control signal and fed to the
tuner AGC to generate the tuner AGC current at Pin 13
(open collector output).
Take over point of the tuner AGC can be adjusted at
Pin 12 by a potentiometer or an external DC voltage
(from interface circuit or microprocessor).
FPLL, VCO and AFC
The FPLL circuit (frequency phase locked loop) consists
of a frequency and phase detector to generate 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 24. With the AFC
switch (pin 21) 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 24. At centre
frequency the AFC output current is equal to zero.
Furthermore, at Pin 16, the VCO centre frequency can be
4 (17)
switched for setting to the required L’ value This function
is active when ”L mode” is selected by the standard
switch.
The optional potentiometer at Pin 28 allows an offset
compensation of the VCO phase for improved sound
quality (fine adjustment). Without a potentiometer (open
circuit at Pin 28) this offset compensation is not active.
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 (–3dB). 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 6dB
gain offers easy adaption of the sound trap. For nominal
video IF modulation the video output signal at Pin 14 is
2 V (peak to peak value).
Sound IF Amplifier and SIF–AGC
The SIF amplifier is nearly identical with the 3–stage VIF
amplifier. 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. Each differential amplifier is controlled by the
automatic gain control for the sound IF path (SIF–AGC).
Output signal of the SIF amplifier is applied to the mixer
for FM/NICAM signals and the demodulator for AM
sound signals.
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.
AM Demodulator
The alignment–free AM demodulator is realized by a
synchronous detector. The modulated SIF signal from the
Preliminary Information
Rev. A1: 17.08.1995
TDA4474
TELEFUNKEN Semiconductors
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 27) 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 26.
L’ Switch and VIF Input Selection
For positive modulated signals (L/L’ standard) Pin 16
works as L’ switch. With a control voltage the VCO
frequency can be switched for setting to the required
L’ value (L’ standard). Also a fine adjustment of the
L’-VCO centre frequency is possible by a potentiometer.
The L’ switch is only active for positive modulated video
IF signals (standard switch in L mode). In this mode the
video IF input 2 (VIF2) is forced by the standard switch.
The possibility to select VIF1 input is given by
connecting VIF2 input (Pin 10 or 11) via 10 k resistor to
ground.
If negative modulation (B/G mode) is selected pin 16 operates as an input selection switch for the two VIF inputs.
Standard Switch
To have equal polarity of the video output signal the
polarity can be switched in the demodulation stage in
accordance with the TV standard. Additional a standard
dependent DC level shift in the video amplifier delievers
the same sync level. Parallel the correct VIF–AGC is
selected for positive or negative modulated VIF signals.
In case of negative modulation (e.g. B/G standard) the
AM output signal is switched off. If the standard for
positive modulation (L standard) is selected the AM
demodulator and QPS mixer is active. This condition
allows a parallel operation of the AM sound signal and the
NICAM–L stereo sound.
AFC Switch
The AFC output signal at Pin 24 can be controlled by a
switching voltage at Pin 21. It is possible to select an AFC
output signal with rising– or falling AFC curve and to
switch off the AFC.
Internal Voltage Stabilizer
The internal bandgap reference ensures constant
performance independant of supply voltage and
temperature.
Absolute maximum values
Reference point pin 4 (9, 18), unless otherwise specified
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Parameters
Supply voltage
Pin 25
Supply current
Pin 25
Power dissipation, Vs = + 9 V
Output currents
Pin 14, 26, 27
External voltages
Pins 1, 2, 5–8, 10–12,
14, 16, 19, 20, 26–30
Pins 17, 22, 23
Pin 13
Pins 3, 15, 21, 24
Junction temperature
Storage temperature
Electrostatic handling *)
all pins
Symbol
Vs
Is
P
Iout
Vext
Value
9.0
85
765
5
+ 4.5
Unit
V
mA
mW
mA
V
Tjunc
Tstor
VESD
+ 3.5
+ 13.5
Vs
+125
–25 to +125
300
V
V
V
°C
°C
V
*) Equivalent to discharging a 200 pF capacitor through a 0 resistor
Operating Range
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Parameters
Supply voltage range
Ambient temperature
Rev. A1: 17.08.1995
Pin 25
Symbol
Vs
Tamb
Preliminary Information
Value
4.5 to 9.0
0 to +85
Unit
V
°C
5 (17)
TDA4474
TELEFUNKEN Semiconductors
Thermal Resistance
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Parameters
Thermal resistance:
junction–ambient when soldered to PCB
Symbol
Rthja
Value
55
Unit
K/W
Electrical Characteristics
Vs = +5V, Tamb = +25°C; reference point pin 4 (9, 18), unless otherwise specified
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Parameters
Test Conditions / Pins
Symbol
DC–supply:
Pin 25
Supply voltage
Supply current:
VIF–inputs:
Input sensitivity, RMS
value
Input impedance
Input capacitance
VIF–AGC:
IF gain control range
AGC capacitor at Pin 8
Black level capacitor at
Pin 17
Tuner–AGC:
Available tuner–AGC
current
Allowable output voltage
IF slip – tuner AGC
Vs
Is
Pins 6–7, 10–11
vin
IF input signal for
minimum
take over point
IF input signal for
maximum
take over point
Variation of the take over
point
by temperature
FPLL and VCO:
Max. oscillator frequency
Vision carrier capture range
Oscillator drift
(free runing)
as function of temperature
6 (17)
for FPLL locked
see note 1
see note 1
Min.
Typ.
Max.
Unit
4.5
5.0
75
9.0
85
V
mA
80
120
µV
Rin
Cin
1.2
2
k
pF
65
2.2
100
dB
µF
nF
Pins 8, 17
video output: 2 V
Gv
CAGC
CBL
60
Pins 12, 13 see note 3
Itun
1
current Itun:
10% to 90%
Rtop = 10 k
(Vtop= 2.5 V)
Vout
GIF
2
4
mA
8
13.5
10
V
dB
4
mV
0.3
vin
Rtop = 0
(Vtop = 0.8 V)
vin
Tamb = 55°C
VIF–AGC: Gv = 46 dB
vin
Pins 20, 22, 23, 28
for carrier generation
fvco
fvco = 38.9 MHz
fcap
Cvco = 6.8 pF
see note 3
f/T
Tamb = 55°C,
Cvco = 6.8 pF,
fvco = 38.9 MHz
40
mV
2
70
1.5
Preliminary Information
3
dB
MHz
MHz
2
–0.3
%
Rev. A1: 17.08.1995
TDA4474
TELEFUNKEN Semiconductors
Electrical Characteristics
Vs = +5V, Tamb = +25°C; reference point pin 4 (9, 16), unless otherwise specified
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Parameters
Video output:
Output current – source
– sink
Output resistance
Video output signal
Difference of the video signals
Sync level
Zero carrier level for neg.
modolation
(Ultra white level)
Zero carrier level for pos.
modulation
(Ultra black level)
Supply voltage influence
on the ultra black– and ultra white level
Video bandwidth (–3dB)
Video frequency response
over the AGC range
Differential gain error
Differential phase error
Intermodulation 1.07MHz
Video signal to noise ratio
Residual vision carrier
fundamental wave 38.9
MHz and
second harmonic 77.8 MHz
Lower limiting level
Upper limiting level
Ripple rejection
Rev. A1: 17.08.1995
Test Conditions / Pins
Pin14
Symbol
Min.
Typ.
Iout
2
Max.
Unit
5
3
100
2.2
10
mA
mA
see note 1
peak to peak value
between B/G and L
Rout
vo,vid
vo,vid
V8 = 3 V
Vsync
VDC
1.2
3.4
V
V
V8 = 3 V
VDC
1.15
V
V/V
1
%/V
8
MHz
dB
RL 1 k, CL 50 pF
B
B
1.8
6
2.0
DG
DP
see note 4
weighted, CCIR–567
below sync level
above ultra white level
Pin 25, 14
see note 1
IM
S/N
vres1
Vlim1
Vlim2
RR
2.0
52
56
2
2
60
60
2
400
600
35
Preliminary Information
5
5
10
V
%
%
deg
dB
dB
mV
mV
mV
dB
7 (17)
TDA4474
TELEFUNKEN Semiconductors
Electrical Characteristics
Vs = +5V, Tamb = +25°C; reference point pin 4 (9 ,16), unless otherwise specified
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Parameters
Test Conditions / Pins
Symbol
Standard switch:
Pin 15
Control voltage for mode 1: see note 5
Vsw1
neg. modulated video–IF
signals
and FM/NICAM sound
Control voltage for mode 2:
Vsw2
pos. modulated video–IF
signals
and AM / L–NICAM sound
Switching current
Isw
AFC output:
Pin 24
Control slope
I/f
Frequency drift by temper- related to the picture carrier
ature
frequency
Output voltage
upper
VAFC
limit
lower limit
Output current
IAFC
AFC switch: (pin 21)
Control voltage:
AFC
Vsw
”off”
see note 6
AFC curve rising
AFC curve falling
Switching current
Isw
L’ and VIF input selector switch:
Pin 16 see note 7
Control voltage:
VIF
standard switch in mode 1
Vsw1
input 2 active
(negative modulation)
VIF input 1 active
Control voltage:
L’–
standard switch in mode 2
Vsw2
VCO frequency
(positive modulation)
L –VCO frequency
Switching current
Vsw = 0
Isw
8 (17)
Min.
Typ.
Max.
Unit
2.0
Vs
V
0
0.8
V
100
0.7
0.25
A
0.6
Vs–0.4
A/kHz
%
V
0.4
V
mA
0.8
2.5
Vs
V
V
V
0.2
0
1.5
3.5
100
A
0
3.4
3.0
4.5
V
V
0
3.4
3.0
4.5
V
V
700
A
Preliminary Information
Rev. A1: 17.08.1995
TDA4474
TELEFUNKEN Semiconductors
Electrical Characteristics
Vs = +5V, Tamb = +25°C; reference point pin 4 (9, 18), unless otherwise specified
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Parameters
SIF inputs:
Input sensitivity, RMS
value
Input impedance
Input capacitance
SIF – AGC:
IF gain control range
AGC capacitor
Intercarrier output:
DC output voltage
Output resistance
Sound IF output voltage,
RMS value
Weighted signal to noise ratio:
(CCIR 468)
Black screen: Channel 1/2
Grid pattern: Channel 1/2
Grey screen 50%:
Channel 1/2
Ripple rejection,
Rev. A1: 17.08.1995
Test Conditions / Pins
Symbol
Pins 1–2, 29–30
output signal: –3dB
vin
see note 1
see note 1
Min.
Rin
Cin
Typ.
Max.
Unit
80
120
V
1.2
2
k
pF
65
10
dB
F
2
150
300
V
mV
60/58
54/52
dB
dB
60/57
dB
dB
Pin 5
Gv
CAGC
Pin 26 see note 8
VDC
see note 1
Rout
vin = 10 mV
vout
5.5 MHz output voltage
Ref .signal:
vin =10 mV;
FM dev. = 27 kHz
fmod = 1 kHz;
tested with the double FM
demod. U2860B;
B/G mod. VIF signal
S/N
S/N
Pins 25, 26 see note 1
S/N
RR
60
35
Preliminary Information
9 (17)
TDA4474
TELEFUNKEN Semiconductors
Electrical Characteristics
Vs = +5V, Tamb = +25°C; reference point 4 (9 ,16), unless otherwise specified
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Notes:
Parameters
AF output – AM:
DC output voltage
Output resistance
AF output voltage, RMS
value
Total harmonic distortion
Signal to noise ratio
Ripple rejection
SIF input selector switch:
Control voltage:
SIF input 1 active
SIF input 2 active
Switching current
Test Conditions / Pins
Symbol
Pin 27 see note 9
VDC
see note 1
Rout
m = 54 %
voAF
m = 54 %
fmod = 1kHz, 12.5kHz
Reference: m = 54%,
fmod = 1 kHz,
22 kHz low pass filter
Pins 25, 27
see note 1
Pin 3
see note 10
Min.
Typ.
Max.
2.2
150
500
THD
1
S/N
65
RR
28
VSW
2.0
V
mV
2
%
dB
dB
0
ISW
Unit
Vs
V
0.8
V
A
100
1.
This parameter is given as an application information and not tested during production.
2.
Adjustment of turn over point (delayed tuner AGC) with external resistor Rtop or external voltage Vtop.
3.
The oscillator drift is related to picture carrier frequency, at external temperature–compensated LC
circuit
4.
(1.07) = 20 log (4.43 MHz component/1.07 MHz component);
(1.07) value related to black–white signal
input signal conditions: picture carrier
0 dB
colour carrier
–6 dB
sound carrier
–24 dB
5.
Without external control voltage at pin 15 (open circuit) the IC automatically operates in mode :
negative modulated video IF and FM/NICAM sound signals
Voltage at Pin 15
(standard switch)
Selected standard
(mode)
6.
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ÁÁÁÁÁÁÁÁÁ
0 – 0.8 V
2.0V – Vs
(or Pin 15 open)
mode 1 (B/G standard)
VIF: neg. modulation
SIF: FM/ NICAM
mode 2 (L standard)
VIF: pos. modulation
SIF: AM + NICAM
Without control voltage at Pin 21 (open circuit) the falling AFC curve is automatically selected
Voltage at Pin 21
(AFC switch)
AFC function
10 (17)
0 – 0.8 V
1.5 – 2.5 V
AFC switched OFF
AFC curve rising
Preliminary Information
3.5 V – Vs
(or pin 21 open)
AFC curve falling
Rev. A1: 17.08.1995
TDA4474
TELEFUNKEN Semiconductors
7.
Without control voltage at Pin 16 (open circuit) the L’ switch is not active.
Standard switch, Pin 15
L’/VIF input switch, Pin 16
Ext. voltage at VIF input 2
Pin 10 or 11
Modulation
Standard
Active VIF input
*) condition not useful
Mode 1: neg. modulation (B/G)
2.0 V – Vs
3.4 V – 4.5 V
0 – 3.1 V
(or Pin 16 open)
Mode 2: pos. modulation (L)
0 – 0.8 V
3.4 V – 4.5 V
(or Pin 16 open)
0 – 3.1 V
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ÁÁÁÁ
open
1V
open
1V
open
1V
open
1V
neg.
B/G,...
VIF1
neg.
B/G,...
VIF1
neg.
B/G,...
VIF2
*)
*)
*)
neg.
L
VIF2
neg.
L
VIF1
neg.
L’
VIF2
neg.
L’
VIF1
8.
Picture carrier PC = 38.9 MHz; sound carrier SC1 = 33.4 MHz, SC2 = 33.16 MHz;
PC/SC1 =13 dB; PC/SC2 = 20 dB; PC unmodulated (equivalent to sync peak level)
9.
Sound carrier SC = 32.4 MHz, modulated with fmod = 1 kHz, m = 54 %; vin = 10 mV
10.
Without control voltage at Pin 3 (open circuit) the SIF input 1 is automatically selected
AF
(AM)
SIF 2
Intercarrier
(FM/NICAM)
AFC
AFC
switch
+VS
Loop
comp.
Loop
filter
LVCO
6.8 pF
10 kW
150 W
CRef
CVCO
470 nF
30
29
28
L’ and
VIF input
switch
Black
level
27
26
25
24
23
22
2.2 mF
470 nF
21
20
19
18
10
11
12
13
17
16
14
15
94 9293
TDA4474
1
2
3
4
6
5
7
8
SIF 1
10 kW
2.2 mF
10 mF
SIF
Input switch
9
Standard switch
(neg/pos)
AGC (VIF)
AGC (SIF)
VIF 1
VIF 2
Tuner
delay
Tuner
AGC
Video
*) External L/C circuit (VCO: 38.9 MHz) with TOKO coil 7KN (9 turns, 0.12mm)
Figure 3.
Rev. A1: 17.08.1995
Test circuit
Preliminary Information
11 (17)
12 (17)
from
SAW driver
from
SAW driver
SAW: VIF
4
3
2
1
SIF input switch
10 nF
27
28
29
30
10 k W
6
25
10 mF
AGC (SIF)
5
26
24
10 nF
23
6.8 pF
7
9
+12 V
CVCO
*)
LVCO
22
2.2mF
AGC (VIF)
8
TDA4474
10 nF
22 mF
470 nF
10
21
11
20
Loop
filter
150 W
AFC switch
12
19
13
18
Preliminary Information
Tuner
10 k W
2.2 mF
CRef
Video
14
10 k W
Standard
switch
S4
15
16
100 nF
17
CBL
L’ / VIF input
switch
95 9833
SAW: VIF
SAW: FM
SAW: AM
Offset
comp.
51 k W
AFC
51 k W
+5 V
Intercarrier
AF(AM) (FM/NICAM)
TDA4474
TELEFUNKEN Semiconductors
Figure 4. Basic application circuit
Rev. A1: 17.08.1995
TDA4474
TELEFUNKEN Semiconductors
Internal Pin Configuration
6
1, 29
7
2, 30
2 kW
2 kW
2 kW
2 kW
2.3 V
3V
20 kW
4.2 V
95 9831
95 9830
Figure 5.
Sound IF inputs (Pins 1–2, 29–30)
Figure 8.
Video IF input 1 (Pins 6–7)
94 8525
3.5 V
60 kW
10 kW
3
8
94 8522
Figure 6.
Input selector switch (Pin 3)
Figure 9.
VIF–AGC time constant (Pin 8)
10
5
2V
11
2 kW
2 kW
10 kW
10 kW
2.3 V
94 8523
Figure 7.
4.2 V
SIF–AGC time constant (Pin 5)
95 9834
Figure 10.
Rev. A1: 17.08.1995
Video IF input 2 (Pin 10–11)
Preliminary Information
13 (17)
TDA4474
TELEFUNKEN Semiconductors
+ 3.5 V
3.5 V
17 kW
7 kW
12
900 W
15.5 kW
15
14 kW
23 kW
95 9819
7 kW
Figure 14.
Standard switch (Pin 15)
95 9832
3.5 V
Figure 11.
Tuner AGC – take over point (Pin 12)
5 kW
16
3.2 V
95 9817
500 W
13
95 9820
Figure 15.
Figure 12.
L’/VIF input switch (Pin 16)
Tuner AGC – output (Pin 13)
2.7 V
5 kW
14
17
2.6 mA
95 9821
95 9818
Figure 16.
Figure 13.
14 (17)
Black level capacitor (Pin 17)
Video output (Pin 14)
Preliminary Information
Rev. A1: 17.08.1995
TDA4474
TELEFUNKEN Semiconductors
19
24
3.5 V
95 9822
Figure 17.
95 9826
Internal reference voltage (Pin 19)
Figure 21.
20
AFC output (Pin 24)
100 W
26
1 mA
2.75 V
95 9823
Loop filter (Pin 20)
Figure 18.
95 9827
Figure 22.
3.5 V
Intercarrier output (Pin 26)
30 kW
21
27
100 W
10.5 kW
1.4 mA
95 9824
Figure 19.
AFC switch (Pin 21)
95 9828
Figure 23.
AF–AM output (Pin 27)
7 kW
7 kW
22
3.5 V
95 9829
10 kW
23
28
10 kW
95 9825
Figure 20.
VCO (Pin 22–23)
Figure 24.
Rev. A1: 17.08.1995
VCO offset compensation (Pin 28)
Preliminary Information
15 (17)
TDA4474
TELEFUNKEN Semiconductors
Dimensions in mm
Package: SDIP30
94 9183
16 (17)
Preliminary Information
Rev. A1: 17.08.1995
TELEFUNKEN Semiconductors
TDA4474
Ozone Depleting Substances Policy Statement
It is the policy of TEMIC TELEFUNKEN microelectronic GmbH to
1. Meet all present and future national and international statutory requirements.
2. Regularly and continuously improve the performance of our products, processes, distribution and operating systems
with respect to their impact on the health and safety of our employees and the public, as well as their impact on
the environment.
It is particular concern to control or eliminate releases of those substances into the atmosphere which are known as
ozone depleting substances ( ODSs).
The Montreal Protocol ( 1987) and its London Amendments ( 1990) intend to severely restrict the use of ODSs and
forbid their use within the next ten years. Various national and international initiatives are pressing for an earlier ban
on these substances.
TEMIC TELEFUNKEN microelectronic GmbH semiconductor division has been able to use its policy of
continuous improvements to eliminate the use of ODSs listed in the following documents.
1. Annex A, B and list of transitional substances of the Montreal Protocol and the London Amendments respectively
2 . Class I and II ozone depleting substances in the Clean Air Act Amendments of 1990 by the Environmental
Protection Agency ( EPA) in the USA
3. Council Decision 88/540/EEC and 91/690/EEC Annex A, B and C ( transitional substances ) respectively.
TEMIC can certify that our semiconductors are not manufactured with ozone depleting substances and do not contain
such substances.
We reserve the right to make changes to improve technical design and may do so without further notice.
Parameters can vary in different applications. All operating parameters must be validated for each customer
application by the customer. Should the buyer use TEMIC products for any unintended or unauthorized
application, the buyer shall indemnify TEMIC against all claims, costs, damages, and expenses, arising out of,
directly or indirectly, any claim of personal damage, injury or death associated with such unintended or
unauthorized use.
TEMIC TELEFUNKEN microelectronic GmbH, P.O.B. 3535, D-74025 Heilbronn, Germany
Telephone: 49 ( 0 ) 7131 67 2831, Fax number: 49 ( 0 ) 7131 67 2423
Rev. A1: 17.08.1995
Preliminary Information
17 (17)
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