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TA8804F
FM DEMODULATION IC FOR BROADCASTING SATELLITE RECEIVER
INTEGRATED CIRCUIT
TA8804F
TOSHIBA
TECHNICAL DATA SILICON MONOLITHIC
FM DEMODULATION IC FOR BROADCASTING SATELLITE RECEIVER
The TA8804F combines the necessary function on a single
monolithic integrated circuit to modulate FM signal of the
2nd IF of DBS,
FEATURES
0 SV Power Supply
a 2nd lF AGC Amp
. dB-Linear Signal Level Amp
. PLL FM Detector SSOP30-P.375
Wei ht : 0.63 (T .)
It Keyed AFT g g yp
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INTEGRATED CIRCUII
TOSHIBA
TECHNICAL DATA
TA8804F
BLOCK MAG RAM
5V 2m: IF mm is: AGC 5v
AFT F-iter
AFT Output AFT Output ngnat Lave!
Cenmr (0.9m) (Analog) Val-oat' OU‘SUT ' IST AGC 5:.ce Su
How Capamor AFT Fume: Adjuslmcn (Center 7 Ist AGC iAolunment
H") Control
_ 20 29 28 27 25 24 23 19 69 g 16
AFT Center ,'
Adjustment ,
Sample I " 1 ' 1 ,
and nerd L - i
r - ------ n r - -- - - - -1 u
' i,' : IF ,'
E i 3, Arno. 1 1
', :IHMQ ', M/ i-l
I l I I
I '- "a L. --------- .1 J ,'
1 5 ', AFT Furor I M
' , . l
' ' ' f
I. T,'t' , 1 Amp l,
I , AFT Pre Amp. PLL-FM Detector
L'-_ "M f" ----.------tme-.----.- ", De: P:e.Amp.
< : Mmer : l
', _ N. T' . _ AGE Der.
' ', 2009 ,' "e"''" I
vlaeo Amp l '
gm w,,wr-"l '' I
lamp , vco ,4 I
EC 1 "- c-,'----------
LL- ---_- ..________.'
2 4 6 7 B 10 1 I 12 1 4 l
u. 1 op Ls,) 9 , w (e) s
't T r f __4
E" ' 1h00tt Amph her
VCC 5V
C2 Lest! ArhustmenT 2nd AGC 2nd AGC
Krtyted if? Detect Output LOt0P Filter GND VCO Tont cm” Aawstmen: Filter
TA8804F - 2
1996 - gt - 22
TOSHIBA CttDtRF'tDre0x"ritDN
INTEGRATED ClliLUll
TOSHIBA
TECHNICAL DATA
TA8804F
TERMINAL FUNCTION
PIN NAME
FUNCTION
INTERFACE CIRCUIT
Keyed Pulse Input
1t clamps at the pulse peak
and generates the reference
level.
The input impedance is 3kn.
o if any keyed pulse input,
Keyed pulse : low level
sample state
Keyed pulse : high level
hold state
a If no keyed pulse input,
sample state at all time
Detect Output
It Outputs the detection
Output through a low-pass
filter of SOMHz cut off
frequency using an emitter
foitower.
Video Amplifier
Level Adjustment
lt controls the level
adjustment by varying the
emitter resistance of a
differential amplifier.
" the resistance between pins
4 and 5 is reduced the output
will be greater, however, since
the output dynamic range is
narrow the output level
should he used in the range
of lower than 0.7Vp.p.
Loop Filter
The output impedance is
m the application circuit,
af-.174MHz
t $30.81
AFT k-NSN-,, it)
vrdeo I um i;
TA8804F - 3
1996 - 4 - 22
TDSHIBA CORPORATION
INTEGRATED CIRCUIT
TOSHIBA
TECHNICAL DATA
TA8_804F
PIN NAME
FUNCTION
INTERFACE ClRCUiT
II is the GND of VCO circuit
blocks that are VCO (pins 9,
10, 12), loop filter (pins ii, 7),
video amplifier (pins 4, S) AFT
system (pins 1, 23, 24, 25, 26,
27, 28) and S/H (pins 29, 30).
VCO Coil
It is the VCO using variations
in internal impedance of
diode for control voltage from
mixer,
Use a U1 characteristic for the
capacitor of the externai tank
circuit to correct the internal
temperature drift.
1 m .4
Control J:
Voltage
VCO Temperature
Compensate Bias
The VCO bias is composed of
a synthesis of Bias in
proportion to VgE and VT of
transistor, and this terminal
generates a bias proportioned
to the VBE-
If the external resistance
reduced, the VCO sensitivity
will rise.
VCO Bas
2nd AGC
Adjustment
It changes the input level for
a AGC detector. lt adjusts by
adding the direct Current off-
set to pins 14 and 15, The
variation width of about 8d8
can be added.
Internal bias it 2.5V.
TA8804F - 4
1996 - a - 22
TOSHIBA componATIoN
INTEGRATED CIRCUIT
TOSHIBA
TECHNICAL DATA
TA8804F
PIN NAME
FUNCTION
INTERFACE CIRCUIT
2nd AGC Filter
It generates the AGC voltage
by filtering the 402.78MHZ
(479.5MH2) T signal by means
of an internal resistance and
an external condenser. If
applying the VCC to pin 15,
the AGC will be minimum
gain and the VCO oscillates at
free-running frequency.
£3; ct
1000 f
Ist AGC Slice
Adjustment
It sets the input tavel
Threshold for generating the
control signal to lower gain
from the K: to the 2nd
converter of front stage when
excessive input. Even if the
2nd AGC adjustment varies,
the Ist AGC adjustment point
hardly changes.
The internal bias is 2.5V,.
Ist AGC Filter
lt outputs by comparating
with the AGC and 1st AGC
slice level adjustment voltages-
This comparator is constructed
by the active load type high
gain amplifier and determines
its response by a capacitor
connected to this Terminal.
1st AGC Control
It Outputs the control voltage
using an emitter follower
(active low level). The internal
current sink has only 25pA.
TA8804F - 5
1996 -.. 4 - 22
TOSHIBA CORPORATlmN
INTEGRATED CIRCUIT
TOSHIBA TA8804F
TECHNICAL DATA
'tti' PIN NAME FUNCTION INTERFACE CIRCUIT
lt outputs the AGC voltage by
doing logarithm <-> linear
conversion. ln the TA8804F the
19 Signal Level Out level detection can be carried
out even after the lst AGC is
effective and input is reduced
using the lst AGC Output.
The IF amplifier constructed by
the 3-srep series connection of
variable gm type gain control, ',
of which the maximum gain is
47dB and minimum gain -
20 8dB. In order to prevent a it _ 1
22 2nd IF ln :Eealf of/adio frequency all Coy-d c: son -ti5
e Clrcwts are balance. , v'v" , I
connected, Therefore. the F _
1iif.TTti1l combmallon ' also irurstiri-d .
desirable for the IC Input. The 21 “‘1'
internal bias is 2.0V and input At
impedance Ikn,
lt outputs by integrating the
detection output by means of
AFT Output pin 27 and 28 filters, doing
(Analog) center adjustment and
multiplying about five times as
TA8804F - 6
1996 - 4 n 22
TOSHIBA CttDFu>CDrRgxttrDru
INTEGRATED LIKLUII
TOSHIBA
TECHNICAL DATA
TA8804F
PIN NAME
FUNCTION
INTERFACE CIRCUIT
AFT Output
(Digital)
It outputs by converting the
analog AFT output to binary
with a comparator. In the case
of center detection, the each
output will be high level. The
width of dead gone is
determined by the internal
threshold and VCO sensitivity,
that cannot be adjusted
externally.
AFT Center
Adj usrment
It moves the AFT center
frequency in the width of
10MHz and absorbs the center
gap caused by dispersion of
each AFT circuit.
AFT Filter
lt constructs a filter whose Cut
off frequency is less than 1H2
(capacitor : 0.7Hz at 0.1,uF)
with an internal 1.1MQ
resistance and external
condenser.
Hold Capacitor
Sample and hold by charge/
discharging the condenser
using the switching signal
regenerated by keyed pulse.
‘ 0‘ 1001;!)
TA8804F-7
1996 -4 - 22
TOSHIBA GDRPDRATICJN
INTEGRATED CIRCUIT
TOSHIBA
TECHNICAL DATA
TA8804F
MAXIMUM RATINGS (Ta =25°C)
CHARACTERISTIC SYMBOL RATING UNIT
Power Supply Voltage VCC MAX 6.0 V
Power Dissipation PD MAX 1000 mW
Operation Temperature Topr -20-75 "C
Storage Temperature Tm -55-150 'C
Lead Temperature - 260''C, 10s
Recommended assembly method : Recommended temperature profile of reflow soldering of far and
medium infrared rays
MO r -rvNe-----_-M'----
il)' 210 _------------- l -i--
E: Hior ' E i E i
'" aw i , I ', _
i" ,' : ( : ',
more than Ms w-tnm los “me (s)
wirn-n 30,
RECOMMENDED POWER SUPPLY VOLTAGE
'l? PIN NAME MIN. TYP, MAX. UNIT
1 l VCC 4.5 5.0 5.5 V
TA8804F - 8
1996 - 4 _ 22
TDSHIBA CORPORATION
INTEGRATED CIRCUH
TOSHIBA TA88
TECHNICAL DATA
ELECTRICAL CHARACTERISTICS
DC CHARACTERISTICS (Unless otherwise specified, Vcc=5.0V. Ta =25°C)
CHARACTERISTIC SYMBOL iii; TEST CONDITION MIN. TYP. MAX. UNIT
Supply Current ICC 1 -- 55 M 105 mA
Pin 1 VI - 2.0 2.5 30
Pin 2 v2 - 1.9 2.4 2.9
Pin 3 Vit - 1.9 2.4 2.9
Pin 4 v4 - 0.8 1.3 1.8
Pin 5 v5 - 0.8 1.3 1.8
Pin 6 V5 - 1,7 2.1 2.5
Pin 7 v7 - 1.7 2.1 2.5
Pin 9 V9 - 2.4 2.8 3.2
Pin10 v10 - 2.4 2.8 3.2
Pin12 V12 - 0.4 0.7 1.0
Terminal Pin 13 V13 1 - 2.3 2.5 2.7 V
Voltage Pin14 V14 - - 3.6 -
Pin15 v15 - 2 3.6 -
Pin 16 v15 - 2.1 2.5 2.9
Pin18 V18h P111 17 : 1kQ-GND - 1.0 1.3
V181 Pin17 f VCC 3.9 4.3 4.7
Pin 20 V20 - 1.5 2.0 2.5
Pin 22 V22 ' - 1.5 2.0 2.5
Pin 27 V27 -- - T3 2.8
Pin 28 V28 - - 2.3 2.8
Pin 29 V29 - 1.8 2.3 2.8
Pin 30 v30 - IN 2.3 2.3
Pin 2, 3 Acce table
Output CurreZt fit, l3 1 - .-1.o - 6.0 mA
girgic Output 113 1 - - 0.02 - 6.0 mA
TA8804F - 9
l 996 - 4 - 22
TOSHIBA CORPORATION
INTEGRATED CIRCUIT
T A 8 8 0 4 F
TOSHIBA
TECHNICAL DATA
AC CHARACTERISTICS
CHARACTERISTIC SYMBOL (212%ng TEST CONDITION MIN. TYP. MAX. UNIT
IF Input Frequency fin --- _ 350 400 550 MHz
IF Input Level Range Vin - -- -60 - --10 (509)
Ist AGC Shoulder dBmW
C 2 Note 1 - ~20 - 10
Level Range AG MAX ( ) (500)
Ist 55“. Control AAGC 2 (Note 2) 1.0 3.5 5.0 V/dB
Sensitivity
Signal Level Sensitivity AV/Av 2 (Note 3) 1O 35 60 mVldB
VCO Conversion Converting to output rate
Sensitivity 3 2 Pindl, 5 , open /(Noze 4) - 110 130 MHz/V
gif', Temperature AfTa 2 Ta = -10-65oc/(Note 5) - :10 2. 2.5 MHz
PLL Lock Range fL 2 (Note 6) t25 130 - MHz
PLL Capture Range fca 2 (Note 6) t25 130 - MHz
rt':tdulation Output Vout 2 af----10MHzp,v/(Nore 7) 0.15 0.26 0.40 Vp-p
Video Amplifier Pin 4, 5 : short, SKQI
Variable Width Voutg/ 5 2 (Note 8) 10 14 - dB
Demodulation Output
Amplitude Frequency l/out/il 2 f=0_2~4MHz/(Note 9) - - 10.5 dil
Characteristics 1
Demodulation Output
Amplitude Frequency VoutA2 2 f=4-9MH2/(blate 9) - - :2 dB
Characteristics 2
Group Delay _ ' _ - +1
Characteristics 1 rpd1 2 L02 4MH2/(Note 9) 0 ns
Group Delay - - Tree - +
Characteristics 2 rde 2 f-d 9MHz/(Note 9) t40 ns
AFT Sensitivity Af/AV 2 (Note 12) 2,4 3.2 4.0 MHz/V
Converting to input
S/H Sample Speed Afspl 2 frequency rate/(Note 10) 0.1 0.2 - MHz/pts
Keyed AFT Input VI 2 - 0.35 0.5 0.65 Up-p
Keyed AFT Input T1 2 (Note 11) 8.0 16.7 50 ms
Frequency
?gzewmh M Dead VDEAD 2 (Nate 13) 250 340 400 kHz
Digital AFT Voltage
N - . .
Low Level V20L 2 ( ote 13) O 3 O 5 V
DG DG app.lica.tion APL 90%/(Note 14) - 12.0 25.0 %
Circuit
TA8804F,- 10
T996-4-22
TOSHIBA CMDAptDptgktitDttu
INTEGRATED CIRCUIT
TOSHIBA TA8804F
TECHNICAL DATA
CHARACTERlSTIC SYMBOL J?lsi, TEST CONDITION MIN. TYP. MAX. UNIT
DP DP a'2p,licalion APL 90% /(Note 14) - 22.0 25.0 '
circuit
. ti 2.15MH2 b tl el/
lnter-Modulation 2 IMZ apcpilrszjhlon (Note IS) ea ev 40 45 -- dl?
. . ti 1.4 H b I
Inter-Modulation 3 1M3 "e, 2:31;“ (Noiré) eat eve” 40 50 - dB
Video Output S/N S/NgAT £92232“ C/N=oo 48 51 - dB
MEASUREMENT CONDITION
(Note 1)
(Note 2)
(Note 3)
(Note 4)
(Note S)
(Note 6)
1st AGC Snouider Level Range .' AGCMAX
F=402.78MH2 input level vin =0 to -40dBmW (500) to pin 20. Measure Vin that pin 18
voltage is lower than 4V by opening pin Iii and raising vm.
1st AGC Control Sensitivity '. AAGC
Input f=402.78MHz uin =O~ -400mW (soft) to pin 20. Caltulate Vin that pin 18 voltage is
4V/1V (as VIM: vin2), using the equation below,
AAGC= -3/(vin1-vin2) V/dB
Signal Level Sensitivity '. AV/AV
Measure each output voltage of pin 19 at Itin = -40, -60ciBmW (500)
AVIAV: (u-ao-u-ap/ao mV/dB
VCO Conversion Sensitivity ', j?
Input mainly f=402.78MH2 and sweep ISMHZ, vin = -30dBmW (son) to pin 20.
Calculate /r=10/(udetm5-Vdet-5) and multiply the gain portion (2.66) of video amplifier
when outputting a direct current voltage to pin 3 at 407.78MH2, 397.78MH2 as Vdet+5
and I/det-s each.
VCO Temperature Drift : nfra
Short pin 6 and 7, and connect pin 14 ta GND.
Measure the VCO frequency at ambient temperature Ta=25°C, - 10°C +65°C and calculate
how much changes from 25°C. (read out the VCO leakage output by spectrum analyzer.)
PLL Lock Range : fL, Capture Range , fca
Measure the range that synchronizes with VCO by putting pin 20 input frequency away
from the free-running frequency.
TA8304F - l l
1996 - a -r 22
TOSHIBA CORPORATION
INTEGRATED CIRCUH
TOSHIBA
T A 8 8 0 4 F
TECHNICAL DATA
(Note 7)
(Note 8)
(Note 9)
(Nate 10)
(Note 11)
Demodulation Output Level : Vout
Input pin 20 f=402.78MH2, fm=100kHz, df=10MHzp-p, Vin = _-3(hiBmW (500)
Open pin4 and 5 and measure the output level of pin 3.
Video Amplifier Variable Width : I/outs, VDU‘ES
Input pin 20 f--402,78MHz, fm=100kHz, Af: 10MHzp-p, Vin = -30dBmW (SOD)
Measure the variation of video Output by shorting between pin4 and S and connecting a
SK!) resistance,
Demodulation Output level Width. Group Delay Characteristics : VoutA, rpd
Input pin 20 f=402.78MHz, fm =100kHz, 60Hz to 4MH2 to 9Mriz, af--5MHzp-p, Vin = -
30dBmW (500)
Compare to the value at 100kH2 by opening pind and 5, and measuring the output level
and group delay of pin 3.
S/H Sample Speed : Afsp}
Input the signal 1 below for a modulation signal. Input The signal 2 below to pin 1.
Observe the differential voltage waveform between pin 29 and 30, and measure the
slew rate in the sampling period.
mgnal I l
uozs--tur- ' ‘10; -iru--u)ps
-C-id2'd2
slgnel 2 J l- [0.5Vp.p
20515 -i--i-- -cr-r- 20/5
Keyed Pulse Allowable Period ', T1
Input the signal below to pin l and open pin 27 and 28. Observe the pin 23 output and
change f so as to be 2.5V voltage.
Sognal 3 i I U ferp
._..,_-... 17ys 1~1ooms
Measure the frequency range in which a 2kHz sine wave does not Output to pin 23, by
changing the signal 3 period.
If the sample-halo circuit malfunctions, the 2KHz sine wave will be outputted from pin
TA3804F - 12
1996 - 4 - 22
TOSHIBA CORPORATION
INTEGRATED CIRCUIT
TOSHIBA
T A 8 8 0 4 F
TECHNICAL DATA
(Note 12)
(Note 13)
(Note 14)
(Note 15)
AFT Sensitivity : Af/szg
Input pin 20 f--40L78MH2r1MHz, Vin = -3thiihtnW (SOD)
Adjust f " that pin 23 Output will be 2.5V. By moving f up. and down, calculate each
frequency as m, 11 when pin 23 voltage varies 0.5V using the foliowing equation.
Af/AV23 = fri - fi. (MHZ /V)
AFT Digital Output Width of Blind Sector : fDEAD
Input pin 20 f=4tW78MHzt SMHz, Vin = - BOdBmW (500)
Measure the input frequency range in which both pin 24 and 25 become high level, by
sweeping f.
Dln24 Output waveform
n25 Out u: we Morm . I
p, p y msens-mq
-Tateil
--e'Pe------- Frequency swnep
DG, DP
Input pin 20 fra402.78MHzt5MHz, Vin = -30dBmw (SOD), df=17MHzp-p, Gray level
video signal (APL : lo-MW-Pre-emphasis-an
1M2, 1M3
Input pin 20 f=402.73MHzi'SMHz, Vin = -30dBmW (SOD), nf=17MHzp-p. Color
subcarrier (3.579MH2}, Sound subcarrier (5.7272MHZ) -
Observe the frequency component outputting to the screen output pin (pin 3) through
the video gate of a video noise meter by spectrum analyzer, and measure the level
difference between 3.579MHZ component and 2.15MH2, 1.43MH2 components.
TA8804F _ 13
1996 - 4 - 22
TOSHIBA CCtDtRpC2retgxtitDtru
INTEGRATED CIRCUIT
TA8804F
TOSHIBA
TECHNICAL DATA
TEST CIRCUIT 1
DC characteristics f3 I) ft:
l TA8804F
"vo''-'"''"?),,'..".,?.))?"'"-''"')
TEST CIRCUIT 2
AC characteristics
0.04m om: E
60; E29) d l 26 25 24 (Q
S00‘”)!
3: D U1!”
go—Jllal'
D TA8804F
(f 2 3 4 5 (f 7 j?
F J S, s, E
D a - m .-
TA8804F - 14
1996 -4 - 22
TOSHIBA CORPORATION
TDSH! BA CCC2r'2FMDAAtiCDN
TA8804F - 15
1996 - 4 - 22
APPLICATION CIRCUIT
{2‘nd IF : 402MHz)
arys'0
,'.'e,
TOSHIBA
MT AH AH
0u1pu1 Oulpui Oquut
Outp-JI
?{2 2’5 711 ?3
INTEGRATED CIRCUIT
TECHNICAL DATA
1’7100
Center
Adjustment
— J” 'L
-- - _-1
Pre. Am p. ‘ + W
strfrt
3rf LO o
vIdE—a Amp.
E :III'L o
Keyed Pulse In Demu 0u1
TAflBBflF — 15
TA8804F
iar Flee-aunmng
A frequent}!
adjunment
(If applylng me-
U0; to pm 15.
a) the VCO osullaIfl
al. flee-Iunmng
flequemy]
5"“ aannxopr
INTEGRATED CIRCUIT
TOSHIBA TA8804F
TECHNICAL DATA
OUTLINE DRAWING
SSOPBO-P-375 Unit l mm
{ETHHHHHHHBHHHHH J-"""""-,'""-""-''''";
Lil (r-i)
0.7TYP I
'iiii"
I 09210.2
Weight : 0.639 (Typ-)
TA8804F - 16*
1996 - 4 - 22
TOSHIBA CORPORATION
www.ic-phoenix.com
.