|
|
Número de pieza | AN3986FHP | |
Descripción | Stereo Audio Signal Processor ICs for 8-mm Camcorder | |
Fabricantes | Panasonic Semiconductor | |
Logotipo | ||
Hay una vista previa y un enlace de descarga de AN3986FHP (archivo pdf) en la parte inferior de esta página. Total 14 Páginas | ||
No Preview Available ! ICs for Video Camera
AN3986FBP, AN3986FHP
Stereo Audio Signal Processor ICs for 8-mm Camcorder
s Overview
The AN3986FBP and the AN3986FHP are stereo audio
signal processor ICs for 8-mm camcorder. It incorporates
all the functions needed for stereo-audio signal process-
ing in 8mm camcorder.
s Features
• Built-in headphone amplifiers
• Built-in matrix signal processing
AN3986FBP
63
64
Unit : mm
43
42
AN3986FHP
Unit : mm
84
1
22
21
1
0.5
0.2
0.1
18.0±0.2
(0.6)
21.2±0.2
84-Pin QFH Package (QFH084-P-1818)
12.0±0.2
(0.5)
(min0.25)
14.00.2
80-Pin QFH Package (QFH080-P-1212)
s Absolute Maximum Ratings
AN3986FBP
Parameter
Supply voltage
Power dissipation Note 2)
Operating ambient temperature Note 1)
Storage temperature Note 1)
Symbol
VCC
PD
Topr
Tstg
Rating
VCC1= 6 / VCC2= 9.5
474
– 20 to + 70
– 55 to + 125
Unit
V
mW
˚C
˚C
AN3986FHP
Parameter
Symbol
Rating
Supply voltage
Power dissipation Note 2)
Operating ambient temperature Note 1)
Storage temperature Note 1)
VCC
PD
Topr
Tstg
VCC1=6 / VCC2=9.5
392
–20 to + 70
–55 to + 125
Note 1) Ta=25˚C except operating ambient temperature and storage temperature unless otherwise specified.
Note 2) Allowable power dissipation of the package at Ta=70˚C.
Unit
V
mW
˚C
˚C
1
1 page ICs for Video Camera
AN3986FBP, AN3986FHP
s Electrical Characteristics (cont.) (VCC1= 4.75V, VCC2= 8.2V, Ta= 25±2˚C) (AN3986FHP)
Parameter
Symbol
Condition
min typ max
Decode reference output distortion
factor Lch, Rch
Decode linearity Lch, Rch
Decode output noise Lch, Rch
Crosstalk Lch, Rch, at playback
Maximum output level Lch, Rch,
at playback
Line mute attenuation quantity Lch, Rch
Encode channel crosstalk Lch, Rch
E–E system monitor output channel
balance
THOLPL
THOLPR
VOXPL
VOXPR
VNLPL
VNLPR
CERL
CERR
VOLML
VOLMR
VMLML
VMLMR
SERL
SERR
BAL
VORLL, input VORLR
Vin= –11.6/ – 41.6dBs
f= 400Hz
No input A curve filter
VIN= – 20dBs, 1kHz
A curve filter
VIN= –10dBs, 1kHz
THD 5th
VIN= – 20dBs, 1kHz
A curve filter
VIN= –14dBs, 1kHz
A curve filter
VOALR/VOALL
– 63
– 0.55
0.12 0.3
– 60 – 57
– 87 – 79
– 79
0.4 1.0
– 92 – 87
– 50 – 47
0 + 0.55
Encode output channel balance
BRE
VORLR/VORLL
–2 0 +2
Decode output channel balance
VCO free-run frequency Lch
VCO free-run frequency Rch
BLP VOLPR/VOLPL
FOL R= 8.2kΩ
FOR R= 6.8kΩ
–3 0 + 3
1.35 1.50 1.65
1.55 1.70 1.85
VCO output amplitude voltage Lch
V79 when f= 1.5MHz
456 500 548
VCO output amplitude voltage Rch
V62 when f= 1.7MHz
410 450 493
VCO 2nd harmonics output Lch
V79–2
fundamental wave as 0dB
– 50 –35
VCO 2nd harmonics output Rch
V62–2
fundamental wave as 0dB
– 50 –35
VCO reference frequency deviation Lch
V79–3
fundamental wave as 0dB
– 50 – 40
VCO reference frequency deviation Rch
VCO reference frequency deviation Lch
VCO reference frequency deviation Rch
Maximum frequency deviation 1 Lch
Maximum frequency deviation 2 Lch
Maximum frequency deviation 1 Rch
Maximum frequency deviation 2 Rch
Boost start time Lch, Rch,
at recording
Boost level Lch, Rch
Boost width Lch, Rch
Reference FM modulation distortion
factor Lch, Rch
FM demodulation output Lch
V62–3
FDOL
FDOR
FDLMX1
FDLMX2
FDRMX1
FDRMX2
TBSL
TBSR
VBSL
VBSR
TBEL
TBER
THDL
THDR
VDEL1
fundamental wave as 0dB
∆V= ±195.2mV
(–15dBs equivalent)
∆V= ±195.2mV
(–15dBs equivalent)
input ∆V= – 617mV
(–5dBs equivalent)
input ∆V= + 617mV
(–5dBs equivalent)
input ∆V= – 617mV
(–5dBs equivalent)
input ∆V= + 617mV
(–5dBs equivalent)
time from PG input
level difference due to gain-up
time of gain-up
Vin= –15dBs, f=1kHz
THD 5th after demodulation
DEV= ± 60kHz
fm= 400Hz
90
45
96
–128
48
– 64
– 50
120
60
110
–110
55
– 55
6
1.1 1.3
–18 –15
– 40
150
75
128
– 96
64
– 48
200
9
1.5
0.3
–12
FM demodulation output Rch
FM demodulation output distortion ratio
Lch
FM demodulation output distortion ratio
Rch
VDER1
THDEL1
THDER1
DEV= ± 30kHz
fm= 400Hz
DEV= ± 60kHz
fm=1kHz
DEV= ± 30kHz
fm=1kHz
–18 –15 –12
0.3
0.3
Dropout detection ON level
DODON
Vin= 30mVP–P as 0dB
f=1.5MHz
–11 –14 –18
Unit
%
dB
dBs
dBs
%
dBs
dBs
dB
dB
dB
MHz
kHz
mVP–P
mVP–P
dB
dB
dB
dB
kHz
kHz
kHz
kHz
kHz
kHz
µs
dB
ms
%
dBs
dBs
%
%
dB
5
5 Page ICs for Video Camera
AN3986FBP, AN3986FHP
s Pin Descriptions (cont.) (VCC or GND pins are not shown)
Pin No. Waveform · Voltage
Equivalent circuit
Pin No. Waveform · Voltage
14
13
·
50 DC 2.38V
CCA IN
48
20kΩ
14
(50)
VREF
19
MUTE SW
18
Equivalent circuit
50kΩ
19
100kΩ
15
14
·
49
2.38 VDC,
47 Buffer OUT
16
15
46 DC 2.38V
50µA
15
(49)
10kΩ
16
5.6kΩ
20
19
·
45
43
·
46
44
22
21
·
24
23
·
26
25
·
38
DC 2.38V
36
·
40
38
·
42
40
20
(45) 50kΩ
(46)
22
50kΩ
(24)
(26)
(38)
(40)
(42)
–
+
17
16
45 DC 2.38V
4.04kΩ
17
11.91kΩ
23
R/P SW
22
50kΩ
23
2.5V
50µA
18 25
25
18
17 24
Note) The indicated values are typical ones, and may depend on operating conditions or individual IC.
VCC1= 4.75V, and VCC2= 8.2V
A number without a square denotes a pin No. of the AN3986FBP, while a number with a square denotes a pin No. of the
AN3986FHP.
11
11 Page |
Páginas | Total 14 Páginas | |
PDF Descargar | [ Datasheet AN3986FHP.PDF ] |
Número de pieza | Descripción | Fabricantes |
AN3986FHP | Stereo Audio Signal Processor ICs for 8-mm Camcorder | Panasonic Semiconductor |
Número de pieza | Descripción | Fabricantes |
SLA6805M | High Voltage 3 phase Motor Driver IC. |
Sanken |
SDC1742 | 12- and 14-Bit Hybrid Synchro / Resolver-to-Digital Converters. |
Analog Devices |
DataSheet.es es una pagina web que funciona como un repositorio de manuales o hoja de datos de muchos de los productos más populares, |
DataSheet.es | 2020 | Privacy Policy | Contacto | Buscar |