Single standard VIF-PLL with QSS-IF TDA9808 FM-PLL demodulat
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Philips Semiconductors Product specification
Single standard VIF-PLL with QSS-IF
TDA9808
FM-PLL demodulator
supply voltage supply voltage TDA9808 (DIP20) only)
Applicable (Intermediate Frequencies) 38.9 MHz, 45.75 58.75
Gain controlled wide band Video (VIF)-amplifier (AC-coupled)
True synchronous demodulation with active carrier regeneration (very linear demodulation, good intermodulation figures, reduced harmonics, excellent pulse response)
Robustness over-modulation better than 105% Phase Locked Loop (PLL)-bandwidth control negative modulated standards
Automatic Gain Control (AGC) detector gain control, operating peak sync detector
Tuner with adjustable TakeOver Point (TOP)
Automatic Frequency Control (AFC) detector without extra reference circuit
AC-coupled limiter amplifier sound intercarrier signal
Alignment-free FM-PLL demodulator with high linearity
Sound (SIF) input single reference Quasi Split Sound (QSS) mode (PLL controlled); detector gain controlled amplifier; single reference mixer high performance
Electrostatic Discharge (ESD) protection pins.
ORDERING INFORMATION
GENERAL DESCRIPTION
TDA9808 integrated circuit single standard (negative modulated) vision signal processing demodulation, with single reference QSS-IF sets.
TYPE NUMBER PACKAGE
NAME DESCRIPTION VERSION
TDA9808 DIP20 plastic dual in-line package; leads (300 mil) SOT146-1
TDA9808T S020 plastic small outline package; leads; body width SOT163-1
1999
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Philips Semiconductors
Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
QUICK REFERENCE DATA
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
supply voltage TDA9808 (DIP20) only
supply current
input signal voltage sensitivity (RMS value) video output
Vo(video)(p-p) video output signal voltage (peak-to-peak value) 1.35
video bandwidth load
S/NW(video) weighted signal-to-noise ratio video
intermodulation attenuation 'blue' 0.92
intermodulation attenuation 'blue' 2.76
suppression harmonics video signal
sound input signal voltage sensitivity (RMS value) intercarrier output
Vo(rms) audio output signal voltage (RMS value) standard; modulation
total harmonic distortion modulation 0.15
S/Nw(audio) weighted signal-to-noise ratio modulation;
1999
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Philips Semiconductors
Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
BLOCK DIAGRAM
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Philips Semiconductors Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
PINNING
SYMBOL DESCRIPTION
VIF1 differential input signal voltage
VIF2 differential input signal voltage
tuner takeover point adjust
TpLL loop filter
CsAGC capacitor
VoAF audio output
Cdec decoupling capacitor
n.c. connected
Vo(vid) composite video output voltage
single reference output voltage
SYMBOL DESCRIPTION
sound intercarrier input voltage
TAGC tuner output
output
VC01 VC01 resonance circuit
VC02 VC02 resonance circuit
ground
CvAGC capacitor
supply voltage
SIF1 differential input signal voltage
SIF2 differential input signal voltage
VIF1 s|F2
VIF2 SIF1
TADJ |~3~
TpllGl CVAGC
CSAGC
TDA9808 VC02
CDEC VC01
n.c.
vo(vid) TAGC
MHA734
Fig.2 configuration DIP20.
1999
VIF1 SIF2
viVIF2[H SIF1
TADJ |~3~
tpll[T CVAGC
CSAGC "Tel
TDA9808 VC02
CDEC vcoi
n.c.
vo(vid) TAGC
H|Vi
MHA735
Fig.3 configuration S020.
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Philips Semiconductors Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
FUNCTIONAL DESCRIPTION
integrated circuit comprises functional blocks shown Fig.
Vision amplifier detector
Tuner
Frequency Phase Locked Loop (FPLL) detector
Voltage Controlled Oscillator (VCO), Travelling Wave Divider (TWD)
Video demodulator amplifier
amplifier
Single reference mixer
FM-PLL demodulator
Audio Frequency (AF) signal processing
Internal voltage stabilizer.
Vision amplifier detector
vision amplifier consists three AC-coupled differential amplifier stages. Each differential stage comprises feedback network controlled emitter degeneration.
detector generates required gain control voltage constant video output charging/discharging capacitor. Therefore, negative video modulation synchronisation level video signal detected.
Tuner
capacitor voltage converted internal control signal, tuner generate tuner output current TAGC (open-collector output). tuner takeover point adjusted TADJ. This allows match tuner filter order achieve optimum input level.
Frequency Phase Locked Loop (FPLL) detector
VIF-amplifier output signal into frequency detector into phase detector limiting amplifier. During acquisition frequency detector produces current proportional frequency difference between input signal. After frequency lock-in phase detector produces current proportional phase difference between input signal. current either frequency detector phase detector converted voltage loop filter, which controls frequency.
VCO, Travelling Wave Divider (TWD)
operates with resonance circuit (with parallel) double Picture Carrier (PC) frequency. controlled integrated variable capacitors. control voltage required tune from free-running frequency double frequency generated frequency-phase detector FPLL loop filter first variable capacitor. This control voltage amplified additionally converted into current which represents output signal. centre frequency output current equal zero.
oscillator signal divided-by-two with which generates differential output signals with degree phase difference independent frequency.
Video demodulator amplifier
video demodulator realized multiplier which designed distortion large bandwidth. vision input signal multiplied with phase' signal travelling wave divider output.
demodulator output signal video amplifier integrated low-pass filter attenuation carrier harmonics. video amplifier realized operational amplifier with internal feedback high bandwidth. low-pass filter integrated achieve attenuation carrier harmonics. video output signal V0(Vid) (p-p) nominal vision modulation. Noise clipping provided.
amplifier
sound amplifier consists AC-coupled differential amplifier stages. Each differential stage comprises controlled feedback network provided emitter degeneration.
detector related input signal (average level carrier) controls amplifier provide constant signal single reference mixer.
1999
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Philips Semiconductors Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
Single reference mixer
single reference mixer realized multiplier. amplifier output signal single reference mixer converted intercarrier frequency regenerated picture carrier (VCO). mixer output signal high-pass filter attenuation video signal components output With this system high performance hi-fi stereo sound processing achieved.
FM-PLL demodulator
FM-PLL demodulator consists limiter FM-PLL. limiter provides amplification limitation sound intercarrier signal. result high sensitivity suppression. amplifier consists stages which internally AC-coupled order minimize offset.
Furthermore output signal muted connecting resistor between limiter input ground.
FM-PLL consists integrated relaxation oscillator, integrated loop filter phase detector. oscillator locked intercarrier signal, output from limiter. result locking, oscillator frequency tracks with modulation input signal oscillator control voltage superimposed voltage. FM-PLL operates demodulator.
signal processing
amplifier consists parts:
pre-amplifier sound operational amplifier with internal feedback, high gain high common mode rejection. voltage from demodulator, principle small output signal, amplified approximately low-pass characteristic amplifier reduces harmonics intercarrier signal sound output terminal additional control circuit implemented keep level constant, independent process spread.
output amplifier provides required output level rail-to-rail output stage. This amplifier makes input selector switching mute state, controlled mute switching voltage.
Internal voltage stabilizer
bandgap circuit internally generates voltage approximately 1.25 independent supply voltage temperature. voltage regulator circuit, connected this voltage, produces constant voltage which used internal reference voltage.
1999
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Philips Semiconductors
Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
LIMITING VALUES
accordance with Absolute Maximum Rating System (IEC 134).
SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT
supply voltage note
Tj(max) TDA9808 (DIP20)
Tj(max) TDA9808T (S020)
voltage pins
ts(max) maximum short-circuit time ground
tuner output voltage 13.2
Tstg storage temperature
Tamb operating ambient temperature
electrostatic handling voltage note -300 +300
Notes
Tamb
Machine model class |uH).
THERMAL CHARACTERISTICS
SYMBOL PARAMETER CONDITIONS VALUE UNIT
Rth(j-a) thermal resistance from junction ambient TDA9808 (DIP20) TDA9808T (S020) free
1999
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Philips Semiconductors Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
CHARACTERISTICS SUPPLY, TDA9808; DIP20 only)
Tamb Table input frequencies carrier ratios; input level Vj(viF)(rms) (pins (sync-level); Vj(siF)(rms) (pins (sound carrier); input from broadband transformer video modulation DSB; residual carrier: 10%; video signal accordance with "NTC-7 Composite"; measurements taken Fig.13; unless otherwise specified.
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
Supply (pin
supply voltage note
supply current
True synchronous video demodulator; note
Vi(VIF)(rms) input signal voltage sensitivity (RMS value) still locked; maximum gain; note
Composite video amplifier (pin sound carrier off)
Vo(video)(p-p) video output signal voltage (peak-to-peak value) Fig.8 1.27 1.45 1.63
S/NW(video) weighted signal-to-noise ratio Fig.6 note
PSRR power supply ripple rejection Fig.
Tuner (pin
slip automatic gain control tuner gain current from
circuit (pin 13); Fig. note
control steepness Ai-|3/Af note
38.9 0.35 0.55 0.75 A/kHz
45.75 0.35 0.55 0.75 A/kHz
58.75 0.35 0.55 0.75 A/kHz
if/AT frequency variation temperature Iafc note
FM-PLL sound demodulator output (pin note
V0(AF)(6)(rms) output signal voltage (RMS value) (50% deviation); Fig.
S/Nw(audio) weighted signal-to-noise ratio "CCIR 468-4"; Fig.
mute attenuation
jump voltage output terminal FM-PLL lock mode
1999
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Philips Semiconductors
Product specification
Single standard VIF-PLL with QSS-IF FM-PLL demodulator
TDA9808
Notes characteristics
Values video sound parameters decreased
Loop bandwidth (natural frequency kHz; damping factor calculated with sync level within gain control range). Resonance circuit VCO: Cext: Table Cjnt (loop voltage approximately
VjjviF) signal nominal video signal.
ratio black white amplitude black level noise voltage (RMS value, weighted accordance with "CCIR 567"at source impedance
match output signal different tuning systems current source output provided (Fig.10).
Depending ratio AC/C0 resonant circuit note Cjn-( CeXf).
Temperature coefficient external LC-circuit equal zero.
Input level second from external generator with source impedance. AC-coupled with capacitor, fmod kHz, (50% deviation) audio reference. VIF/SIF input signal permitted. connected positive supply voltage. measurements taken |Lis standard) de-emphasis.
1999
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Philips Semiconductors Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
CHARACTERISTICS SUPPLY)
Tamb Table input frequencies carrier ratios; input level Vj(viF)(rms) (pins (sync-level); Vj(siF)(rms) (pins (sound carrier); input from broadband transformer video modulation DSB; residual carrier: 10%; video signal accordance with "NTC-7 Composite"; measurements taken Fig.13; unless otherwise specified.
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
Supply (pin
supply voltage note
supply current
Vision amplifier (pins
Vi(VIF)(rms) input signal voltage sensitivity (RMS value) video output
Vi(imax)(rms) maximum input signal voltage (RMS value) video output
AVo(in1) internal amplitude difference between picture sound carrier within range; standard;
GlFcr gain control range Fig.4
Ri(diff) differential input resistance note
Ci(diff) differential input capacitance note
V|(1,2) input voltage note
True synchronous video demodulator; note
fvCO(max) maximum oscillator frequency carrier regeneration 2fpc
Afosc/AT oscillator drift function temperature oscillator free-running; Iafc note x10"6
Afosc/AVp oscillator shift function supply voltage oscillator free-running; note 10"6
VvcO(rms) oscillator voltage swing pins (RMS value)
fcr(pc) picture carrier capture range
tacq acquisition time kHz; note
Vi(|F)(rms) input signal voltage sensitivity locked (RMS value; pins maximum gain; note
1999
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Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
Composite video amplifier (pin sound carrier off)
Vo(video)(p-p) output signal voltage (peak-to-peak value) Fig.8 1.35
ratio between video (black-to-white) sync level
VSync(9) sync voltage level
Vclu(9) upper video clipping voltage level 3.45
VC|| lower video clipping voltage level 1.25
RO(9) output resistance note
l|nt(9) internal bias current emitter-follower
'o(sink)(9)(max) maximum output sink current
'o(source) (9)(max) maximum output source current
deviation CVBS output signal voltage gain control
gain control
AV0(bi) black level tilt gain variation; note
Gdlff differential gain "NTC-7 Composite"
<Pdlff differential phase "NTC-7 Composite"
video bandwidth load
video bandwidth load
S/NW(vldeo) weighted signal-to-noise ratio video Fig.6 note
(Vide0) unweighted signal-to-noise ratio video Fig.6 note
intermodulation attenuation 'blue' 'yellow' 0.92 MHz; Fig.7 note
intermodulation attenuation 'blue' 'yellow' 2.76 MHz; Fig.7 note
VvC(rms) residual vision carrier (RMS value) fundamental wave harmonies
suppression video signal harmonics note
spurious elements note
PSRR power supply ripple rejection video signal; grey level; Fig.11
1999
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Philips Semiconductors Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
VIF-AGC detector (pin
charging current
discharging current note
tresp response increasing step note 0.05 ms/dB
response ms/dB
decreasing step
Tuner (pin
Vi(rms) input signal voltage minimum starting point tuner takeover (RMS value) input pins Rtop
input signal voltage input pins
maximum starting point Rtop
tuner takeover (RMS value)
tuner takeover point accuracy Rtop
V0(12) permissible output voltage from external source; note 13.2
Vsat(12) saturation voltage
AVTOP(12)/AT variation takeover point temperature 0.03 0.07 dB/K
Il2(sink) sink current Fig.4
tuner gain
reduction;
13.2
maximum tuner gain
reduction
slip automatic gain control tuner gain current from
circuit (pin 13); Fig. note
control steepness AI-13/Af note
38.9 0.35 0.55 0.75 HA/kHz
45.75 0.35 0.55 0.75 HA/kHz
58.75 0.35 0.55 0.75 HA/kHz
Af|F/AT frequency variation temperature Iafc note x10"6
V0(13) output voltage upper limit Fig.10
output voltage lower limit Fig.10
lo(source)(13) output source current
lo(sink)(13) output sink current
Ali3(p-p) residual video modulation
current (peak-to-peak value)
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Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
Sound amplifier (pins
Vi(SIF)(rms) input signal voltage sensitivity (RMS value) intercarrier output
Vi(imax)(rms) maximum input signal voltage (RMS value) intercarrier output
Gcr(SIF) gain control range Fig.5
Ri(diff) differential input resistance note
Ci(diff) differential input capacitance note
V|(19,20) input voltage
crosstalk attenuation between input between pins pins note
detector (pin
charging current
ldch(5) discharging current
Single reference intercarrier mixer (pin
Vo(rms) intercarrier output level (RMS value) SCi; sound carrier
Vo(peak) intercarrier output level (peak value)
intercarrier bandwidth upper limit
VsC(rms) residual sound carrier (RMS value) fundamental wave harmonics
VvC(rms) residual vision carrier (RMS value) fundamental wave harmonics
Ro(10) output resistance note
Vo(io) output voltage
Iint(10) internal bias current emitter-follower
'sink(max)(10) maximum output sink current
'source(max)(10) maximum output source current
1999
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Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
Limiter amplifier (pin 11); note
Vi(FM)(rms) input signal voltage lock-in (RMS value)
Vi(FM)(rms) input signal voltage (RMS value)
allowed input signal voltage (RMS value) NN)weighted
suppression de-emphasis; kHz; refer (50% deviation)
Ri(11) input resistance note
V|(11) input voltage
FM-PLL demodulator
catching range upper limit
lower limit
holding range upper limit
lower limit
tacq acquisition time
operation standard; notes
V0(AF)(6)(rms) output signal voltage (RMS value) (50% deviation); Fig.13 note
Vo(AF)(6)(cl) output clipping signal voltage level 1.5%
AfAF frequency deviation 1.5%; note
AV0/AT temperature drift output signal voltage 3x10-3 7x10-3 dB/K
voltage decoupling capacitor voltage dependent frequency; note
RO(6) output resistance note
Vo(6) output voltage
'sink(max)(6) maximum output sink current
'source(max) maximum output source current
audio frequency bandwidth without de-emphasis capacitor
1999
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Philips Semiconductors Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
total harmonic distortion (50% deviation) 0.15
S/Nw(audio) weighted signal-to-noise ratio audio FM-PLL only; with de-emphasis; (50% deviation); "CCIR 468-4"
VsC(rms) residual sound carrier (RMS value) fundamental wave harmonics
mute attenuation signal
jump voltage output terminal switching output mute state vice versa FM-PLL lock mode
PSRR power supply ripple rejection Figs
Single reference performance operation standard); notes Table
S/NW(audio) weighted signal-to-noise ratio audio black picture
white picture
colour
Notes characteristics
Values video sound parameters decreased
This parameter tested during production only given application information designing television receiver.
Loop bandwidth (natural frequency kHz; damping factor calculated with sync level within gain control range). Resonance circuit VCO: Cext Table Cjn1 (loop voltage approximately
Temperature coefficient external LC-circuit equal zero.
Vj(iF)(rms) (VCO frequency offset related picture carrier frequency); white picture video modulation.
VjjviF) signal nominal video signal.
leakage current capacitor should exceed standard. Larger currents will increase tilt.
ratio black-to-white amplitude black level noise voltage (RMS value, weighted accordance with "CCIR 567".
intermodulation figures defined:
3.58 MHz")
r;-, value 0.92 referenced black/white signal;
0.92 0.92 MHzJ
3.58 MHz")
a2.76 value 2.76 referenced colour carrier.
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Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
Measurements taken with filter M3951 (sound carrier suppression: dB); loop bandwidth kHz:
Modulation VSB; sound carrier off; fVideo MHz.
Sound carrier filter M9352; fvideo MHz.
Response speed valid input level range
match output signal different tuning systems current source output provided. test circuit given Fig. AFC-steepness changed resistors
Depending ratio AC/C0 resonant circuit note Cin1 Cext).
Source impedance: parallel (SAW filter); 38.9 MHz.
Input level second from external generator with source impedance, AC-coupled with capacitor, fmod (50% deviation) audio reference. VIF/SIF input signal permitted. Pins have connected positive supply voltage minimum gain. measurements taken jj,s de-emphasis (modulator pre-emphasis activated). demodulator steepness AVd(af)/afaf positive.
Second input level RMS.
Measured de-emphasis circuitry with doviation (fmod typical output signal using output signal attenuated (250 RMS).
handling frequency deviation more than output signal reduced using order avoid clipping (THD 1.5%). deviation attenuation recommended with
leakage current decoupling capacitor |a.F) should exceed
measurements used vision modulator meet following specifications:
Incidental phase modulation black-to-white jump less than degrees.
performance, measured with television demodulator AMF2 (audio output, weighted ratio) better than (deviation kHz) sine wave black-to-white video modulation.
Picture-to-sound carrier ratio; PC/SC-i (transmitter).
PC/SC-i ratio calculated addition transmitter PC/SCi ratio filter PC/S^ ratio.
This PC/SCi ratio necessary achieve S/Nw(audio) values noted. different PC/SCi ratio will change these values.
Measurements taken with filter M3951 vision (suppressed sound carrier, minimum M9352 sound (suppressed picture carrier). Input level Vj(siF)(rms) (50% deviation). Measurements accordance with "CCIR 468-4".
Table Input frequencies carrier ratios
SYMBOL DESCRIPTION STANDARD STANDARD UNIT
picture/I carrier 38.9 45.75/58.75
fsci sound carrier 33.4 41.25/54.25
fsC2 33.158
picture-to-sound carrier
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Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
MHA737
huneri Rtop kil. ltuner; Rtop kil. Gain. ltuner; RTOp
Fig.4 Typical (pins tuner characteristic.
MHA738
vi(SIF)(rms) (mV) (dB|W)
0.01
Fig.5 Typical (pins characteristic.
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Product specification
Single standard VIF-PLL with QSS-IF FM-PLL demodulator
TDA9808
(VIF)(rms)(dB) (VIF)(rms)(mV)
Fig.6 Typical signal-to-noise ratio function input voltage.
-13.2
BLUE
-13.2
YELLOW
sound carrier, with respect sync level. chrominance carrier, with respect sync level. picture carrier, with respect sync level.
Fig.7 Input signal conditions.
2.85
standard
zero carrier level
white level
black level
sync level
Fig.8 Typical video signal levels output (sound carrier off).
(dB)
Signal.
rejection.
Noise.
Input voltage (dB|j.V)
Fig.9 Typical audio level, noise rejection (50% deviation).
1999
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Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
TDA9808
VAFC
(source current)
(sink current)
45.35 45.75
(MA)
(MHz)
TDA9808
45.35 45.75
Fig.10 Measurement conditions typical characteristic.
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Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
TDA9808
(fripple
Fig.11 Ripple rejection condition.
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Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
Depends TOP.
Fig.12 Front level diagram.
1999
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Philips Semiconductors
Product specification
Single standard VIF-PLL with QSS-IF FM-PLL demodulator
TDA9808
INTERNAL CIRCUITRY
Table Equivalent circuits voltages
SYMBOL
VOLTAGE
EQUIVALENT CIRCUIT (WITHOUT PROTECTION CIRCUIT)
[_iA
()3.4V
MHA752
(TOP)
Qi.9V
MHA753
TpLL
1999
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Philips Semiconductors
Product specification
Single standard VIF-PLL with QSS-IF FM-PLL demodulator
TDA9808
1999
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Philips Semiconductors Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
SYMBOL VOLTAGE EQUIVALENT CIRCUIT (WITHOUT PROTECTION CIRCUIT)
Vo(vid) sync level:
14.7 MHA759
2.65 -j-SVj 2.65 Q35(iA Q600HA MHA760
TAGC 13.2
'afc
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Product specification
Single standard VIF-PLL with QSS-IF FM-PLL demodulator
TDA9808
SYMBOL
VOLTAGE
EQUIVALENT CIRCUIT (WITHOUT PROTECTION CIRCUIT)
VC01
VC02
-II-
CvAGC
|j.A
[J.A
1999
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Philips Semiconductors Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
TEST APPLICATION INFORMATION
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Philips Semiconductors Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
|a-iH
HI-K
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Philips Semiconductors
Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
Table Oscillator circuit different standards
PARAMETER EUROPE JAPAN
frequency 38.9 45.75 58.75
frequency 77.8 91.5 117.5
Oscillator circuit
<1>! j(2>
MHA766 CVco 8.5pF. MHA766 CVco 8.5pF. MHA766 CVco 8.5pF.
e.g. Toko coil 369SNS-2010Z 5KMC V369SCS-2370Z MC139 NE545SNAS1 00108
Philips ceramic capacitor 2222 51828 inside coil SMD; size 0805
1999
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Product specification
Single standard VIF-PLL with QSS-IF FM-PLL demodulator
TDA9808
PACKAGE OUTLINES
DIP20: plastic dual in-line package; leads (300 mil)
SOT146-1
r^i'r^ r-r-L
Index
(e1) -MH-
1_i_i_i_i_I_i_i_i_i_I
scale
DIMENSIONS (inch dimensions derived from original dimensions)
UNIT max. min. max. D<1> E(1> Z<1> max.
0.51 1.73 1.30 0.53 0.38 0.36 0.23 26.92 26.54 6.40 6.22 2.54 7.62 3.60 3.05 8.25 7.80 10.0 0.254
Inches 0.17 0.020 0.13 0.068 0.051 0.021 0.015 0.014 0.009 1.060 1.045 0.25 0.24 0.10 0.30 0.14 0.12 0.32 0.31 0.39 0.33 0.01 0.078
Note
Plastic metal protrusions 0.25 maximum side Included.
OUTLINE VERSION REFERENCES EUROPEAN PROJECTION ISSUE DATE
JEDEC EIAJ
SOT146-1 SC603 -EE30 92-11-17 95-05-24
1999
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Philips Semiconductors
Product specification
Single standard VIF-PLL with QSS-IF FM-PLL demodulator
TDA9808
S020: plastic small outline package; leads; body width
SOT163-1
-he-
index
L-I-0-I
(a3)
1_i_i_i_i_i_i_i_
scale
_i_i
DIMENSIONS (inch dimensions derived from original dimensions)
unit max. d<1> e(1) z(1>
2.65 0.30 0.10 2.45 2.25 0.25 0.49 0.36 0.32 0.23 13.0 12.6 1.27 10.65 10.00 0.25 0.25
inches 0.10 0.012 0.096 0.01 0.019 0.013 0.51 0.30 0.050 0.419 0.055 0.043 0.043 0.01 0.01 0.004 0.035
0.004 0.089 0.014 0.009 0.49 0.29 0.394 0.016 0.039 0.016
Note
Plastic metal protrusions 0.15 maximum side Included.
OUTLINE VERSION REFERENCES EUROPEAN PROJECTION ISSUE DATE
JEDEC EIAJ
sot163-1 075e04 ms-013ac 97-05-22
1999
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Philips Semiconductors Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
SOLDERING Introduction
This text gives very brief insight complex technology. more in-depth account soldering found "Data Handbook IC26; Integrated Circuit Packages" (document order number 9398 90011).
There soldering method that ideal packages. Wave soldering often preferred when through-hole surface mount components mixed printed-circuit board. However, wave soldering always suitable surface mount ICs, printed-circuit boards with high population densities. these situations reflow soldering often used.
Through-hole mount packages
Soldering dipping solder wave
maximum permissible temperature solder solder this temperature must contact with joints more than seconds. total contact time successive solder waves must exceed seconds.
device mounted seating plane, temperature plastic body must exceed specified maximum storage temperature (Tstg(max))- printed-circuit board been pre-heated, forced cooling necessary immediately after soldering keep temperature within permissible limit.
Manual soldering
Apply soldering iron less) lead(s) package, either below seating plane more than above temperature soldering iron less than remain contact seconds. temperature between contact seconds.
Surface mount packages
Reflow soldering
Reflow soldering requires solder paste suspension fine solder particles, flux binding agent) applied printed-circuit board screen printing, stencilling pressure-syringe dispensing before package placement.
Several methods exist reflowing; example, infrared/convection heating conveyor type oven. Throughput times (preheating, soldering cooling) vary between seconds depending heating method.
1999
Typical reflow peak temperatures range from top-surface temperature packages should preferable kept below
Wave soldering
Conventional single wave soldering recommended surface mount devices (SMDs) printed-circuit boards with high component density, solder bridging non-wetting present major problems.
overcome these problems double-wave soldering method specifically developed.
wave soldering used following conditions must observed optimal results:
double-wave soldering method comprising turbulent wave with high upward pressure followed smooth laminar wave.
packages with leads sides pitch (e):
larger than equal 1.27 footprint longitudinal axis preferred parallel transport direction printed-circuit board;
smaller than 1.27 footprint longitudinal axis must parallel transport direction printed-circuit board.
footprint must incorporate solder thieves downstream end.
packages with leads four sides, footprint must placed angle transport direction printed-circuit board. footprint must incorporate solder thieves downstream side corners.
During placement before soldering, package must fixed with droplet adhesive. adhesive applied screen printing, transfer syringe dispensing. package soldered after adhesive cured.
Typical dwell time seconds mildly-activated flux will eliminate need removal corrosive residues most applications.
Manual soldering
component first soldering diagonally-opposite leads. voltage less) soldering iron applied flat part lead. Contact time must limited seconds
When using dedicated tool, other leads soldered operation within seconds between
This Material Copyrighted Respective Manufacturer
Philips Semiconductors
Product specification
Single standard VIF-PLL with QSS-IF TDA9808
FM-PLL demodulator
Suitability packages wave, reflow dipping soldering methods
MOUNTING PACKAGE SOLDERING METHOD
WAVE REFLOW'1) DIPPING
Through-hole mount DBS, DIP, HDIP, SDIP, suitable'2' suitable
Surface mount BGA, SQFP suitable suitable
HLQFP, HSQFP, HSOP, HTSSOP, suitable'3) suitable
PLCC'4), suitable suitable
LQFP, QFP, TQFP recommended'4"5) suitable
SSOP, TSSOP, recommended'6) suitable
Notes
surface mount (SMD) packages moisture sensitive. Depending upon moisture content, maximum temperature (with respect time) body size package, there risk that internal external package cracks occur vaporization moisture them (the called popcorn effect). details, refer Drypack information "Data Handbook IC26; Integrated Circuit Packages; Section: Packing Methods".
SDIP packages, longitudinal axis must parallel transport direction printed-circuit board.
These packages suitable wave soldering solder joint between printed-circuit board heatsink bottom version) achieved, solder stick heatsink version).
wave soldering considered, then package must placed angle solder wave direction. package footprint must incorporate solder thieves downstream side corners.
Wave soldering only suitable LQFP, TQFP packages with pitch equal larger than definitely suitable packages with pitch equal smaller than 0.65
Wave soldering only suitable SSOP TSSOP packages with pitch equal larger than 0.65 definitely suitable packages with pitch equal smaller than
DEFINITIONS
Data sheet status
Objective specification This data sheet contains target goal specifications product development.
Preliminary specification This data sheet contains preliminary data; supplementary data published later. Product specification This data sheet contains final product specifications.
Limiting values
Limiting values given accordance with Absolute Maximum Rating System (IEC 134). Stress above more limiting values cause permanent damage device. These stress ratings only operation device these other conditions above those given Characteristics sections specification implied. Exposure limiting values extended periods affect device reliability.
Application information
Where application information given, advisory does form part specification.
LIFE SUPPORT APPLICATIONS
These products designed life support appliances, devices, systems where malfunction these products reasonably expected result personal injury. Philips customers using selling these products such applications their risk agree fully indemnify Philips damages resulting from such improper sale.
1999
This Material Copyrighted Respective Manufacturer
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