ROHM BA7181FS

Video ICs
2-channel PRE / REC amplifier with
auto-tracking interface
BA7181FS
The BA7181FS is a PRE / REC amplifier developed for use in video cassette recorders. It has been designed for use
in two-head decks and features built-in FB damping, two preamplifiers, a chroma output amplifier, an FM output
amplifier (with AGC), an envelope detector, a constant-current BTL-drive REC amplifier (with AGC)and built-in channel and REC / PB switches on a single monolithic IC.
Applications
•VCRs
•1)Features
The playback amplifier has a total gain of 57dB
4) The recording amplifier uses constant-current BLT
drive that handles load variations (i.e. head impedance)well, and gives stable recording characteristics. A single circuit is provided for two-head VCR
use.
5) Built-in recording level AGC means adjustment of
FM recording current is not necessary.
6) Head switches for two-channel PRE / REC system
provided.
7) Operates off a single 5V power supply, with low
power dissipation.
(Typ.), and has a low-noise preamplifier. Designed
for VHS-band operation with low external parts
count. The IC has two circuits for two-head VCR
applications.
2) Two playback output systems (through output and
AGC output). The AGC output level is 300mVP-P(Typ.);
suitable for FM brightness signal output.
3) Auto-tracking interface is provided for automated
tracking adjustment. The detector characteristic is
linear, and the sensitivity can be adjusted using
external components.
•Absolute maximum ratings (Ta = 25°C)
Parameter
Symbol
Limits
Unit
VCC
7.0
V
Pd
937.5∗
mW
Applied voltage
Power dissipation
Operating temperature
Topr
– 20 ~ + 65
°C
Storage temperature
Tstg
– 55 ~ + 150
°C
∗ When mounted on a 90mm
× 50mm, t = 1.6mm glass epoxy board.
Reduced by 7.5mW for each increase in Ta of 1°C over 25°C.
•Recommended operating (Ta = 25°C)
Parameter
Symbol
Min.
Typ.
Max.
Unit
Conditions
Playback / recording (voltage range)
VCC
4.5
5.0
5.5
V
11pin
䊊Not designed for radiation resistance.
1
Video ICs
BA7181FS
•Block diagram
20
19
18
17
PB AGC FILTER
16
AT ENVE PEAKING
15
H SYNC IN
AGC
PB AGC OUT
HPF
REC LEVEL ADJ
3
REC DCFB
2
DET FILTER
1
DFF IN
GND 2
–
DET
PRE
RF
5
GND 1
4
PRE IN 1
(REC - OUT 1)
PRE
6
PRE IN 2
(REC - OUT 2)
–
14
ENVE
13
AT ENVE OUT
MUTE
12
REC IN
VCC
11
PEAK
REC
AGC
10
DET
9
AT ENVE FB
+
REC AGC FILTER
LOGIC
8
PB / EE / REC CTRL
•Electrical characteristics (unless otherwise noted, Ta = 25°C, V
CC =
Parameter
PB RF OUT
VCC
7
REC + OUT
5.0V and f = 4.0MHz)
Conditions
Symbol Min. Typ. Max. Unit
Measurement
circuit
〈Playback system〉 (Fig. 1 measurement circuit, pin 8: “H” )
Quiescent current
—
18
45
mA No signal
Fig.1
Voltage gain CH-1
GVP1
54
57
60
dB
Pin 4 input = 0.3mVP-P, pin 1: L,
pin 14 output measurement
Voltage gain CH-2
GVP2
54
57
60
dB
Pin 6 input = 0.3mVP-P, pin 1: H,
pin 14 output measurement
Fig.1
Voltage gain differential ∆GVP
—
0
1
dB
∆GVP= | GVP1—GVP2 |
Fig.1
Frequency characteristic
∆GVf
–7
– 3
0
dB
Difference in pin 14 output level for f = 8.0 / 1.0MHz,
VIN = 0.3mVP-P
Fig.1
2nd harmonic distortion∗
Fig.1
2HDP
— – 45
—
dBc VIN = 0.3mVP-P, 8.0MHz spurious
Fig.1
3rd harmonic distortion∗ 3HDP
— – 45
—
dBc VIN = 0.3mVP-P, 12.0MHz spurious
Fig.1
Maximum output level
VOMP
1.0
—
VP-P When pin 14 output 2nd harmonic distortion is –30dBc
Fig.1
Crosstalk
CTP
— – 38 – 32
dBc Difference in pin 14 output level for pin 1: H / L
Fig.1
∗ Design reference values.
2
Iq (P)
1.5
Video ICs
Parameter
BA7181FS
Symbol Min.
Typ. Max. Unit
Conditions
Measurement
circuit
〈Playback system〉 (Fig. 1 measurement circuit, pin 8: “H” )
∆VODC
—
0
Input conversion noise∗
VNIN
—
0.25
AGC output level
VAGC
250
300
Output DC offset
Pin 14 output DC offset for pin 1: H / L
Fig.1
Rg = 10Ω, input conversion of pin 14 output noise
Fig.1
350 mVP-P
VIN = 0.3mVP-P, pin 18 output measurement
Fig.1
Fig.1
Fig.1
150 mVP-P
—
µVrms
AGC control sensitivity
∆VAGC
—
0.3
2.0
dB
Pin 18 output difference for VIN = 0.15
~ 0.6mVP-P
AGC amp frequency
characteristic∗
∆G VAF
—
0.5
—
dB
Pin 18 output level difference for
f = 8.0 / 1.0MHz, VIN = 0.3mVP-P
PB switch ON resistance∗
RON7
—
4
—
Ω
Pin 7 impedance
Fig.1
PRE CH 2 threshold voltage VTH1H
3.5
—
VCC
V
Pin 1 DC voltage for channel 2 operation
Fig.1
PRE CH 1 threshold voltage VTH1L
0
—
1.2
V
Pin 1 DC voltage for channel 1 operation
Fig.1
ENVE residual voltage
—
0.7
1.0
V
Pin 13 output measurement with no signal
Fig.1
3.4
V
Pin 13 output measurement when pin 14
output = 400mVP-P
Fig.1
Fig.1
ENVE output level
VENV1
VENV2
2.4
2.9
ENVE saturation voltage
VENV3
4.0
4.5
—
V
Pin 13 output measurement for large signal
PB mode holding voltage
VTH10H
3.8
—
VCC
V
Pin 8 DC voltage for PB mode
Fig.1
EE mode holding voltage
VTH10M
2.2
—
2.8
V
Pin 8 DC voltage for REC MUTE mode
Fig.1
REC mode holding voltage
VTH10L
0
—
1.2
V
Pin 8 DC voltage for REC mode
Fig.1
Note: dBc: dB below carrier (used to express relative level from carrier reference for convenience sake).
∗ Design reference values.
(unless otherwise noted, Ta = 25°C, VCC = 5.0V, f = 4.0MHz and IOAR = 30mAP-P)
Parameter
Symbol Min.
Typ. Max.
Unit
Conditions
Measurement
circuit
〈Recording system〉 (Pin 8 in Fig. 2 measurement circuit “L” )
Supply current
Iq(R)
—
72
110
mAP-P
No signal
Fig.2
Recording AGC level
IOAR
27
30
33
mA
Pin 12 input = 125mVP-P, pin 7 output measurement
Fig.2
Fig.2
AGC control sensitivity
∆IOAR
—
0.3
1.5
dB
Pin 7 output level difference for pin 12
input = 62.5mVP-P and 250mVP-P
REC Amp frequency
characteristic∗
∆IOAF
—
– 1.5
—
dB
Pin 7 output level difference for f = 8.0 / 1.0MHz,
pin 12 input = 125mVP-P
Fig.2
2nd harmonic distortion∗
3rd harmonic distortion∗
2HDR
—
– 45
—
dBc
Pin 12 input = 125mVP-P, 8MHz spurious
Fig.2
3HDR
—
– 50
—
dBc
Pin 12 input = 125mVP-P, 12.0MHz spurious
Fig.2
Cross modulation distortion∗
CMDR
—
– 50
—
dBc
4.0MHz ± 630kHz spurious
Fig.2
Maximum output level
IOMR
40
50
—
mAP-P
When pin 7 output 2nd harmonic distortion is – 30dB
Fig.2
Recording current load
characteristic∗
∆IORL
—
– 0.35
—
dB
Pin 7 output level difference for load L: 8.2 ~ 12µH
Fig.2
dBc
Pin 7 output level difference for pin 8: M / H
Fig.2
Mute attenuation ratio
MUR
—
– 45
– 38
AGC mode holding voltage
VTH15H
2.7
—
VCC
V
Pin 15 DC voltage to maintain recording AGC operation
Fig.2
AGC mode holding voltage
VTH15L
0
—
1.2
V
Pin 15 DC voltage to maintain recording AGC stopped
Fig.2
∗ Design reference values.
3
Video ICs
BA7181FS
REC IN
AT ENVE OUT
PB RF OUT
H SYNC IN
PB AGC OUT
REC LEVEL ADJ
Measurement circuits
•(Playback
system)
20
19
18
17
16
+
0.01µ
390k
68p
22µ
3.9k
43k
0.1µ
VCC 5V
15
14
DET
13
12
11
ENVE
MUTE
VCC
REC
AGC
PEAK
HPF
RF
AGC
–
–
+
PRE
DET
PRE
6
7
8
10
0.1µ
9
AT ENVE GAIN
L: REC START
1k
EP “H”
PB / EE / REC CTRL
L: REC MUTE
10
10
PRE IN 2
PRE IN 1
DFF IN
1k
39k
10k
5
0.1µ
4
0.1µ
3
0.1µ
2
470pF
1
33k
LOGIC
Units: R [Ω]
C [F]
L [H]
Fig.1
4
LOGIC
6
7
33k
DET
PRE
8
9
10k
5
39k
AGC
0.1µ
–
14
L: REC START
4
15
PP / EE / REC CTRL
3
16
L: REC MUTE
PRE
0.1µ
2
17
10
18
0.1µ
19
8.2µ
8.2µ
1
0.1µ
470pF
20
REC OUT
DFF IN
0.1µ
0.01µ
390k
68p
22µ
3.9k
43k
REC IN
AT ENVE OUT
PB RF OUT
H SYNC IN
PB AGC OUT
REC LEVEL ADJ
Video ICs
BA7181FS
(Recording system)
VCC 5V
+
13
12
11
ENVE
MUTE
VCC
PEAK
REC
HPF
RF
AGC
–
+
DET
10
AT ENVE GAIN
EP “H”
Units: R [Ω]
C [F]
L [H]
Fig.2
5
Video ICs
BA7181FS
mode tables
•(1)Control
DFF IN (pin 1)
• Playback input selection (head switching)
Control pin
Function
DFF IN
Selected playback input
H
Channel2 (PRE IN2 7pin)
3.5 ~ V CC
L
Channel1 (PRE IN1 5pin)
0.0 ~ 1.2
Control voltage
VCTRL1 [V]
(2) H SYNC IN (pin 15)
• Controls recording AGC detector block operation.
Control pin
Function
H SYNC
AGC detector
Control voltage
VCTRL15 [V]
H
ON
2.7 ~ V CC
L
OFF
0.0 ~ 1.2
(3) PB / EE / REC CTRL (pin 8)
• Playback / recording mute / recording mode switching
Control pin
PB / EE / REC
Mode
Function
PRE AMP
PB
M
REC MUTE
OFF
OFF
L
REC
OFF
OFF
∗ Pin 8 is pulled up to VCC via a 33kΩ resistor.
6
ON
AT ENVE REC MUTE REC AMP
H
ON
OFF
Control voltage
VCTRL9 [V]
OFF
3.8 ~ V CC
ON
ON
2.2 ~ 2.8
OFF
ON
0.0 ~ 1.2
BA7181FS
PB RF OUT
H SYNC IN
PB AGC OUT
REC LEVEL ADJ
•Application example
AT ENVE OUT
Video ICs
REC Y IN
REC C IN
19
18
17
16
+
0.01µ
390k
22µ
0.1µ
3.9k
43k
20
68p
Vcc 5V
15
14
DET
13
12
11
ENVE
MUTE
VCC
REC
AGC
PEAK
HPF
RF
AGC
–
–
+
PRE
DET
PRE
6
7
8
10
0.1µ
9
39k
10k
5
0.1µ
4
0.1µ
3
0.1µ
2
470pF
1
33k
LOGIC
AT ENVE GAIN
L:REC START
PB / EE / REC CTRL
L:REC MUTE
HEAD B
HEAD A
DFF IN
EP “H”
Units: R [Ω]
C [F]
L [H]
Fig.3
7
Video ICs
BA7181FS
•External dimensions (Units: mm)
1
10
5.4 ± 0.2
11
0.8
0.36 ± 0.1
0.15 ± 0.1
1.8 ± 0.1
0.11
7.8 ± 0.3
8.7 ± 0.2
20
0.3Min.
0.15
SSOP-A20
8