Ordering number : ENA0222
Monolithic Linear IC
LA71584M
Overview
For VHS VCR
Video Audio Signal Processor
(Y/C/A/HA 1chip)
The LA71584M is a signal processing IC for VHS VCRs. In addition to conventional video signal processing, it also
features normal audio processing, as well as recording/playback FM-EQ functions on-chip. Together with the CCD chip, it
is configured as a single package consisting of two chips.
This device eliminates the various adjustments that are usually performed by trimming inside the chip: by incorporating
automatic adjustments for the comb filter as well, it is completely adjustment-free. This has made it possible to reduce
significantly the number of externally attached components, simplify the design around the signal processing, and cut
production costs.
Specifications
Maximum Ratings
at Ta = 25°C
Parameter
Maximum supply voltage
Allowable power dissipation
Operating temperature
Storage temperature
Symbol
VCC
Pd max
Topg
Tstg
Conditions
Pins 40, 16, 58, 87, 55, 75
Ta≤65°C *
Ratings
7.0
1400
-10 to +65
-40 to +150
Unit
V
mW
°C
°C
* Mounted on a board 70× 70×1.6
3
mm phenol resin laminates.
Recommended Operating Conditions
at Ta = 25°C
Parameter
Recommended supply voltage
Allowable operating voltage range
Symbol
VCC
VCC opg
Conditions
Pins 40, 16, 58, 87, 55, 75
Pins40, 16, 58, 87, 55, 75
Ratings
5.0
4.8 to 5.3
Unit
V
V
■
Any and all SANYO Semiconductor products described or contained herein do not have specifications
■
SANYO Semiconductor assumes no responsibility for equipment failures that result from using products
that can handle applications that require extremely high levels of reliability, such as life-support systems,
aircraft’s control systems, or other applications whose failure can be reasonably expected to result in
serious physical and/or material damage. Consult with your SANYO Semiconductor representative
nearest you before using any SANYO Semiconductor products described or contained herein in such
applications.
at values that exceed, even momentarily, rated values (such as maximum ratings, operating condition
ranges, or other parameters) listed in products specifications of any and all SANYO Semiconductor
products described or contained herein.
D1306 MS PC B8-5874, B8-5790 No.A0222-1/48
LA71584M
Electrical Characteristics
at Ta = 25°C, VCC = 5.0V
REC Mode Y
Parameter
Current dissipation
(REC)
EE Output level 1
(SW 1)
EE Output level 2
(SW 2)
EE Output level 3
(SW 3)
AGC characteristics 1
AGC characteristics 2
AGC characteristics 3
AGC characteristics 4
Sync separator output
level
Sync separator output
pulse width
Sync separator
threshold level
Sync tip level
Pedestal level
White level
Quasi-V insertion level
∆VDR
T38A
T29
LVOR
T38A
T29
THSYR
T38A
T28
PWSYR
T38A
T28
AGC1
AGC2
AGC3
AGC4
VSYR
T38A
T38A
T38A
T38A
T38A
T29
T29
T29
T29
T28
VEE2
T34A
T29
VEE2
T36A
T29
VEE1
T38A
T29
Symbol
ICCR
In
Out
Conditions
Measure the sum of currents flowing into pins 40, 16,
58, 87, 75.
With VIN a 1Vp-p video signal (PAL), measure the
output level on T29.
With VIN a 1Vp-p video signal (NTSC), measure the
output level on T29.
With VIN a 1Vp-p video signal (NTSC), measure the
output level on T29.
With VIN a 2.0Vp-p video signal, measure the ratio of
the output level on T29 and VEE1.
With VIN a 0.5Vp-p video signal, measure the ratio of
the output level on T29 and VEE1.
With VIN a 700mVp-p luminance, 600mVp-p sync,
measure the sync level on T29.
With VIN a 700mVp-p luminance, 150mVp-p sync,
measure the sync level on T29.
With VIN a 1.0Vp-p video signal, measure the output
pulse wave height on T28.
With VIN a 1.0Vp-p video signal, measure the output
pulse width on T28.
Gradually reduce the input level, and measure the
input level at the point that the output pulse width is
1µs or more wider than PWSYR.
With VIN a 1.0Vp-p video signal, measure the sync tip
and pedestal and white level on T29 video output,
and take these as LSYN LPED LWHT, respectively.
Measure the T29 DC voltage with 4.3V applied to
T27,and take this to be LVDR, and compute the
difference with LSYN measured above.
∆WHR
= LSYN-LVDR
Quasi-H insertion level
∆HDR
T38A
T29
Measure the T29 DC voltage with 3.6V applied to
T27, and take this to be LHDR, and compute the
difference with LPED measured above.
∆HDR
= LPED-LHDR
White insertion level
∆WHR
T38A
T29
Measure the T29 DC voltage with 1.5V applied to
T26. and take this to be LWHR, and compute the
difference with LWHT measured above.
∆WHR
= LWHT-LWHR
Edge insertion level
∆EGR
T38A
T29
Measure the T29 DC voltage with 0.8V applied to
T26.and take this to be LEGR, and compute the
difference with LPED measured above.
∆EGR
= LPED-LEGR
REC YNR operation
RYNR
T38A
T21
VIN=White 50%+CW (31.6mVp-p)
32.5fH.
Serial
*
2
4
6
-0.6
-0.1
0.4
dB
01: MIN
10: TYP
11: MAX
Y LPF frequency
characteristics (1)
Y LPF frequency
characteristics (2)
Y LPF frequency
characteristics (3)
Y LPF frequency
characteristics (4)
YLPF4
T38A
T21
YLPF3
T38A
T21
YLPF2
T38A
T21
YLPF1
T38A
T21
With VIN a standard multi-burst signal (1Vp-p),
measure the 1MHz response to a 500kHz signal on
T21.
With VIN a standard multi-burst signal (1Vp-p),
measure the 2MHz response to a 500kHz signal on
T21.
With VIN a standard multi-burst signal (1Vp-p),
measure the 3MHz response to a 500kHz signal on
T21.
With VIN a standard multi-burst signal (1Vp-p)
measure the 4.43MHz response to a 500kHz signal
on T21.
Continued on next page.
-25
dB
-4
-2
-0.5
dB
-1.3
-0.3
0.7
dB
dB
Measure the ratio of 32fH component and 00: OFF
-300
mV
150
mV
-270
mV
0
mV
-20
-15
dB
4.4
4.7
5.0
µs
4.0
4.2
4.4
Vp-p
330
380
430
mVp-p
-1.2
550
-0.2
650
0.0
750
dB
mVp-p
0
0.6
1.2
dB
2.00
2.10
2.20
Vp-p
2.00
2.10
2.20
Vp-p
2.00
2.10
2.20
Vp-p
Ratings
min
175
typ
190
max
205
Unit
mA
No.A0222-2/48
LA71584M
Continued from preceding page.
Parameter
Y LPF frequency
characteristics (5)
FM modulator output
level
VFM
T12
Symbol
YLPF5
In
T38A
Out
T21
Conditions
With VIN a standard multi-burst signal (1Vp-p),
measure the 3.58MHz response to a 500kHz signal
on T21.
Measure the T12 output level with no input. Serial
00
01
10
11
Carrier frequency
(PAL/MESECAM/
SECAM)
Carrier frequency
(NTSC)
REC-FM output
second distortion
Deviation 1
(PAL/MESECAM/
SECAM)
Deviation 2 (NTSC)
White peak Frequency
FM modulator linearity
DEV2
FWP
LMOD
T38A
T38A
T20
T12
T12
T12
With VIN a 100% white 1Vp-p signal, measure the
deviation on T12.
With VIN a 100% white 1Vp-p signal, measure the
White peak frequency on T12.
Let f2.85 be the output frequency when 2.85VDC is
applied to T20.
LMOD =
1/2 fH carrier shift
Emphasis gain
Detail enhancer
Characteristics (1)
CS
GEMP
GENH1
T20A
T20A
T12
T18
T18
f2.85-(f3.1+f2.6)/2
f3.1-f2.6
×100
6.5
-0.75
1.0
8.2
-0.25
1.5
9.5
0.25
2.0
kHz
dB
dB
-2
0
2
%
4.77
4.87
4.97
MHz
0.95
1.00
1.05
MHz
DEV1
T38A
T12
With VIN a 100% white 1Vp-p signal, measure the
deviation on T12.
0.95
1.00
1.05
MHz
HMOD
T12
Measure the second distortion with the above state.
-40
-35
dB
FFM2
T12
Measure the output frequency on T12 with no input.
3.37
3.47
3.57
MHz
FFM1
T12
Measure the output frequency on T12 with no input.
3.77
270
300
330
360
3.87
3.97
MHz
mVp-p
Ratings
min
typ
max
-25
Unit
dB
The output frequency change
With VIN a 500mVp-p 10kHz sine wave, measure the
ratio of the levels on T20A and T18.
With VIN a 158mVp-p 2MHz sine wave,
measure the ratio of the levels on T20A
and T18, and take the difference with
GEMP.
Serial
000: MIN
100: TYP
111:
MAX
Serial
000: MIN
100: TYP
111:
MAX
Serial
000: MIN
100: TYP
111:
MAX
Serial
01: MAX
10: TYP
11: MIN
Serial
01: MAX
10: TYP
11: MIN
Serial
01: MAX
10: TYP
11: MIN
Detail enhancer
Characteristics (2)
GENH2
T20A
T18
With VIN a 50mVp-p 2MHz sine wave,
measure the ratio of the levels on T20A
and T18, and take the difference with
GEMP.
3.0
4.0
5.0
dB
Detail enhancer
Characteristics (3)
GENH3
T20A
T18
With VIN a 15.8mVp-p 2MHz sine wave,
measure the ratio of the levels on T20A
and T18, and take the difference with
GEMP.
4.3
5.8
7.3
dB
Nonlinear emphasis
Characteristics (1)
GNLEMP1
T20A
T18
With VIN a 500mVp-p 2MHz sine wave,
measure the ratio of the levels on T20A
and T18, and take the difference with
GEMP. (Y-TEST)
0.5
dB
Nonlinear emphasis
Characteristics (2)
GNLEMP2
T20A
T18
With VIN a 158mVp-p 2MHz sine wave,
measure the ratio of the levels on T20A
and T18, and take the difference with
GEMP. (Y-TEST)
4
dB
Nonlinear emphasis
Characteristics (3)
GNLEMP3
T20A
T18
With VIN a 50mVp-p 2MHz sine wave,
measure the ratio of the levels on T20A
and T18, and take the difference with
GEMP. (Y-TEST)
6
dB
Continued on next page.
No.A0222-3/48
LA71584M
Continued from preceding page.
Parameter
Main linear emphasis
Characteristics (1)
Main linear emphasis
Characteristics (2)
White clipping level
LWC
T38A
T18
GME2
T20A
T18
Symbol
GME1
In
T20A
Out
T18
Conditions
With VIN a 50mVp-p 500kHz sine wave, measure the
ratio of the levels on T20A and T18, and take the
difference with GEMP. (Y-TEST)
With VIN a 50mVp-p 2MHz sine wave, measure the
ratio of the levels on T20A and T18, and take the
difference with GEMP. (Y-TEST)
With VIN a 1.0Vp-p 100% white video
signal, measure the white clipping level
on T18. (Y-TEST)
Dark clipping level
LDC
T38A
T18
With VIN a 1.0Vp-p 100% white video
T18. (Y-TEST)
SECAM-V-OUT output
level
VSECV2R
T38A
T27
Serial
0
1
Serial
-52
-57.5
1.0
Vp-p
1
185
195
%
%
13.1
13.6
14.1
dB
Ratings
min
typ
11.0
max
Unit
dB
signal, measure the dark clipping level on 0
With VIN a 1.0Vp-p video signal, measure the output
level on T27.
PB Mode Y
Parameter
Current dissipation
(PB)
Dropout compensation
Period
TDOC
T74
T20A
T29
Symbol
ICCP
In
Out
Conditions
measure the sum of currents flowing into pins 40, 16,
58, 87, 75.
T74:
4MHz 300mVp-p sine wave
10.5
12.5
14.5
H
T20A: 0.5Vp-p video signal
The time between the instant the T74A input set to
and the point T29 output is restored.
DOC characteristics
GDOC
T74
T20A
PB Y level
Over all Y level
FM demodulator
linearity
V-YOUT
R/P-OUT
LDEM
T74
T74
T74
T29
T29
T21
LDEM =
T29
T74:
4MHz 300mVp-p sine wave
-1.5
0
1.5
dB
T20A: 0.5Vp-p video signal
The I/0 response 5H after the T74A input is set to 0.
DEV = 1.0MHz PB Y level when input FM signal.
R/P-Y level, PB-Y level
VDEM4-(VDEM3+VDEM5)/2
VDEM5-VDEM3
×100
2.00
1.93
-3.5
2.10
2.10
0
2.20
2.27
+3.5
Vp-p
Vp-p
%
Ratings
min
185
typ
200
max
215
Unit
mA
*VDEM4 = DC: T21 (Input 4MHz, 300mVp-p)
Carrier leakage
PB YNR characteristics
CL
PYNR
T74
T20A
T21
T29
Measure the ratio of the 4MHz component on T21
and SDEM.
Measure the ratio of the 32fH
component and 32.5fH.
Serial
00 (OFF)
01 (STD)
10 (MID)
11 (STG)
DOC level
DOC stop level
Nonlinear de-emphasis
characteristics (1)
LDOC
LDOS
GNLDE1
T74
T74
T20A
T29
T29
T29
Measure the level of D.O.C when 300mVp-p is set to
0dB with VIN = 4MHz.
Measure the level when D.O.C stops when the VIN =
4MHz signal is entered.
With VIN a 50% white video +2MHz
158mVp-p sine wave, measure the I/O
response.
(Y-TEST)
Nonlinear de-emphasis
characteristics (2)
GNLDE2
T20A
T29
f = 2MHz, 50mVp-p
(Y-TEST)
Serial
01: MAX
10: TYP
11: MIN
Serial
01: MAX
10: TYP
11: MIN
Continued on next page.
-6.0
-4.5
-3.0
dB
-3.5
-2.5
-1.5
dB
100
mVp-p
0
-3.2
-8.2
-11.8
-16
dB
dB
-35
dB
No.A0222-4/48
LA71584M
Continued from preceding page.
Parameter
Double
noisecanceller
characteristics (1)
Double
noisecanceller
characteristics (2)
Double
noisecanceller
characteristics (3)
PIC-CTL
Hard MAX
PIC-CTL
Soft MAX
Sync separator output
level
Sync separator output
pulse width
Sync tip level
Pedestal level
white level
Quasi-V insertion
level
∆VDP
T20A
T29
LVOR
T20A
T229
PWSYP
T20A
T28
VSYP
T20A
T28
With VIN a 0.5Vp-p video signal, measure the output
pulse wave height on T28.
With VIN a 0.5Vp-p video signal, measure the output
pules width on T28.
With VIN a 100% white 0.5 Vp-p signal, measure the
sync tip and pedestal and white levels on T29 video
output, and take these as LSYN LPED LWHT,
respectively.
Measure the T29 DC voltage with 4.3V applied to
T27, and take this to be LVDP, and compute the
difference with LSYN measured above.
∆VDP
= LSYN-LVDP
Quasi-H insertion level
∆HDP
T20A
T29
Measure the T29 DC voltage with 3.6V
applied to T27, and take this to be LHDP,
and compute the difference with LPED
measured above.
∆HDP
= LPED-LHDP
White insertion level
∆WHP
T20A
T29
Measure the T29 DC voltage with 1.5V
applied to T26,and take this to be LWHP,
and compute the difference with LWHT
measured
∆WHP
= LWHT-LWHP
Edge insertion level
∆EGP
T20A
T29
Measure the T29 DC voltage with 0.8V
applied to T26,and take this to be LEGP,
and compute the difference with LPED
measured
∆WHP
= LPED-LEGP
Regulator
VREG
T39
Measure the T39 DC level.
3.9
4.1
4.3
V
-300
mV
150
mV
-270
mV
0
mV
4.35
4.65
4.95
µs
4.0
4.2
4.4
Vp-p
GPSF
T20A
T29
f = 2.5MHz, 158mVp-p
-8.8
-6.8
-4.8
dB
GPH1
T20A
T29
f = 2.5MHz, 158mVp-p
GWNC3
T20A
T29
f = 1.4MHz, 15.8mVp-p
GWNC2
T20A
T29
f = 1.4MHz, 50mVp- p
Symbol
GWNC1
In
T20A
Out
T29
Conditions
f = 1.4MHz, 158mVp-p
Serial
000: MIN
100: TYP
111: MAX
Serial
000: MIN
100: TYP
111: MAX
Serial
000: MIN
100: TYP
111: MAX
6.0
7.0
8.0
dB
-15
-13
-11
dB
-12
-10
-8
dB
Ratings
min
-3.5
typ
-2.5
max
-1.5
Unit
dB
No.A0222-5/48
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