SANYO LA7138M

Ordering number : ENA0220
LA7138M
Monolithic Linear IC
For the DVD Player
Analog Video Signal I/F Driver
Overview
The LA7138M is a video output interface IC for DVD players. It is an ideal DVD player driver IC that generates analog
video signals such as composite/S and component/RGB signals. Incorporating Y/C-MIX, the LA7138M can dispense with
the composite output that would otherwise have to be provided by a DA converter.
Feature
• Video S/N ratio: -80dB.
• f characteristics: 10MHz flat.
• Y/C time difference: 2ns maximum.
• Signal dynamic range: 170 IRE.
• Supports all types of video signals including the composite/S, component, and base-band (RGB) signals; the internal input
configuration is selected under microcontroller control (input capacitors to be used in common).
• Provides two channels of 75Ω driver outputs each of which can be muted on and off independently under microcontroller
control.
• Internally generates clamp pulses that are necessary when receiving the component input signals.
• The amplifier gain is selectable from 8.5dB and 6dB.
• The on-chip regulator circuit provides stable DC voltages that are immune to VCC fluctuations.
Function
• Clamp.
• Amplifier.
• 75Ω driver.
• Y/C-MIX.
• DC voltage output for S1 and S2.
Specifications
Maximum Ratings at Ta = 25°C
Parameter
Maximum supply voltage
Allowable power dissipation
*:
Symbol
Conditions
Ratings
VCC max
Pdmax
Ta≤75°C, Mounted on a board*
Unit
15.0
V
525
mW
Operating temperature
Topr
-20 to +75
°C
Storage temperature
Tstg
-40 to +150
°C
3
As mounted to the glass epoxy made board of a size 114.3×76.1×1.6mm
Any and all SANYO Semiconductor products described or contained herein do not have specifications
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.
SANYO Semiconductor assumes no responsibility for equipment failures that result from using products
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.
92706 / 41006 MS OT B8-5979, B8-5467 No.A0220-1/13
LA7138M
Recommended Operating Conditions at Ta = 25°C
Parameter
Symbol
Recommended supply voltage A
VCC A
Operating supply voltage range A
VCCop A
Recommended supply voltage B
VCC B
Operating supply voltage range B
VCCop B
Input pin voltage application range
VIN
Conditions
Ratings
Unit
*
12.0
V
9.0 to 13.0
V
8.0
V
*
VCCop A, B+0.3≤13V
7.5 to 8.5
V
-0.3 to VCCop A, B+0.3
V
*:A different operation circuit is recommended for recommended supply voltages A and B. An external operation circuit with a PNP transistor for voltage drop is
recommended for the recommended supply voltage A.
Electrical Characteristics at Ta = 25°C, VCCA = 9.0 to 13.0V,VCCB = 7.5 to 8.5V
Parameter
Current drain (1)
Symbol
Input
Test
signal
point
ICC1
9pin
Ratings
Conditions
min
Current drain of VIDEO system.
typ
Unit
max
29.6
37.0
44.4
mA
(A) Pin 10 (Y signal) input when the composite/S is selected.
AMP-GAIN (Low)
GYM
Sig.1
T13/15
GAIN when 996mVp-p, 100kHz is entered.
5.05
5.27
5.48
dB
AMP-GAIN (High)
GYH
Sig.1
T13/15
GAIN when 761mVp-p, 100kHz is entered.
7.38
7.6
7.81
dB
Clamp voltage
C10H
Sig.1
T10
Potential of sink chip of T10 when 761mVp-p is
3.85
4.20
4.55
V
5.27
5.48
dB
entered.
(B) Pin 6 (chroma signal) input when the composite/S is selected.
AMP-GAIN (Low)
GCM
Sig.2
T17/19
GAIN when 711mVp-p, 3.58MHz is entered.
5.05
AMP-GAIN (High)
GCH
Sig.2
T17/19
GAIN when 544mVp-p, 3.58MHz is entered.
7.38
7.6
7.81
dB
Chroma input
D6H
Sig.2
T6
4.4
4.75
5.1
V
Offset voltage of T6 when 544 mVp-p is entered.
DC voltage
(C) Pin 3 (composite signal) input when the composite is selected.
AMP-GAIN (Low)
GSM1
Sig.3
T21/23
GAIN when 996mVp-p, 100kHz is entered.
5.05
5.27
5.48
dB
AMP-GAIN (High)
GSH1
Sig.3
T21/23
GAIN when 761mVp-p, 100kHz is entered.
7.38
7.6
7.81
dB
C3H
Sig.3
T3
4.0
4.35
4.7
V
4.92
5.27
5.61
dB
7.25
7.6
7.94
dB
-3
0
3
%
GAIN ratio between GYH of (A) and GSH1 of (C).
-3
0
3
%
GAIN ratio between GCH of (B) and GSH1 of (C).
-3
0
3
%
GAIN ratio between GYH of (A) and GSH2 of (D)
-4.5
0
4.5
%
GAIN ratio between GCH of (B) and GSH2 of (D).
-4.5
0
4.5
%
Clamp voltage
Potential of sink chip of T3 when 761mVp-p is
entered.
(D) Pins 6, 10 (S signal) input when the S is selected.
To select “S”, insert a 5.1kΩ resistor in series with pin 2, (See the block diagram.)
AMP-GAIN (Low)
GSM2
Sig.1
T21/23
Sig.2
AMP-GAIN (High)
GSH2
Sig.1
GAIN when 996mVp-p, 100kHz or 711mVp-p,
3.58MHz is entered.
T21/23
Sig.2
GAIN when 761mVp-p, 100kHz or 544mVp-p,
3.58MHz is entered.
(E) GAIN ratio of signals when the composite is selected.
Y/chroma
∆YC
-AMP-GAIN ratio
Y/composite-AMP-
∆YS1
GAIN ratio
Chroma/composite
∆CS1
-AMP-GAIN ratio
Sig.1
T13/15T GAIN ratio between GYH of (A) and GCH of (B).
Sig.2
17/19
Sig.1
T13/15
Sig.3
T21/23
Sig.2
T17/19
Sig.3
T21/23
(F) GAIN ratio of signals when the S signal is selected.
Y/S-AMP-GAIN ratio
Chroma/S-AMP-
∆YS2
∆CS2
GAIN ratio
Sig.1
T13/15
Sig.2
T21/23
Sig.1
T17/19
Sig.2
T21/23
(G) Pin 10 (Y signal) input when the component is selected.
AMP-GAIN (Low)
GYM
Sig.1
T13/15
GAIN when 996mVp-p, 100 kHz is entered.
5.05
5.27
5.48
dB
AMP-GAIN (High)
GYH
Sig.1
T13/15
GAIN when 761mVp-p, 100 kHz is entered.
7.38
7.6
7.81
dB
Y input clamp voltage
C10H
Sig.1
T10
Potential of sink chip of T10 when 761mVp-p is
3.85
4.20
4.55
V
entered.
Continued on next page.
No.A0220-2/16
LA7138M
Continued from preceding page.
Parameter
Symbol
Input
Test
signal
point
Ratings
Conditions
min
typ
Unit
max
(H) Pin 6 (B-Y or R-Y signal) when the component is selected.
AMP-GAIN (Low)
GNM
Sig.4
T17/19
GAIN when 996mVp-p, 100 kHz is entered.
5.05
AMP-GAIN (High)
GNH
Sig.4
T17/19
GAIN when 761mVp-p, 100 kHz is entered.
Input pedestal clamp
P6H
Sig.4
T6
voltage
AMP-GAIN (Low)
5.27
5.48
dB
7.38
7.6
7.81
dB
4.4
4.75
5.1
V
5.05
5.27
5.48
dB
7.38
7.6
7.81
dB
4.4
4.75
5.1
V
GAIN ratio between GYH of (E) and GNH of (F)
-3
0
3
%
GAIN ratio between GYH of (E) and GNH of (G)
-3
0
3
%
GAIN ratio between GNH of (F) and that of (G)
-3
0
3
%
Potential of pedestal of T6 when 761mVp-p is
entered.
GNM
Sig.4
T21/23
GAIN when 996mVp-p, 100 kHz is entered.
(I) Pin 3 (B-Y or R- Y signal) input when the component is selected.
AMP-GAIN (High)
GNH
Sig.4
T21/23
Input pedestal clamp
P3H
Sig.4
T3
voltage
GAIN when 761mVp-p, 100 kHz is selected.
Potential of pedestal of T3 when 761mVp-p is
entered.
(J) GAIN ratio of signals when the component is selected.
Y/composite-AMP-
∆Y1
GAIN ratio (1)
Y/composite-AMP-
∆Y2
GAIN ratio (2)
Component-AMP-
∆N
GAIN ratio
Sig.1
T13/15
Sig.4
T17/19
Sig.1
T13/15
Sig.4
T21/23
Sig.4
T17/19
Sig.4
T21/23
(K) Pin 10 (RGB signal) input when the base band is selected.
AMP-GAIN (Low)
GBM
Sig.1
T13/15
GAIN when 996mVp-p, 100 kHz is entered.
5.05
5.27
5.48
dB
AMP-GAIN (High)
GBH
Sig.1
T13/15
GAIN when 761mVp-p, 100 kHz is entered.
7.38
7.6
7.81
dB
Input clamp voltage
C10H
Sig.1
T10
Potential of sink chip of T10 when 761mVp-p is
3.85
4.20
4.55
V
5.27
5.48
dB
entered.
(L) Pin 6 (RGB signal) Input when the base band is entered.
AMP-GAIN (Low)
GBM
Sig.1
T13/15
GAIN when 996mVp-p, 100 kHz is entered.
5.05
AMP-GAIN (High)
GBH
Sig.1
T13/15
GAIN when 761mVp-p, 100 kHz is entered.
7.38
7.6
7.81
dB
Input clamp voltage
C6H
Sig.1
T10
4.0
4.35
4.7
V
Potential of sink chip of T10 when 761mVp-p is
entered.
(M) Pin 3 (RGB signal) Input when the base band is entered.
AMP-GAIN (Low)
GBM
Sig.1
T13/15
GAIN when 996mVp-p, 100 kHz is entered.
5.05
5.27
5.48
dB
AMP-GAIN (High)
GBH
Sig.1
T13/15
GAIN when 761mVp-p, 100 kHz is entered.
7.38
7.6
7.81
dB
Input clamp voltage
C3H
Sig.1
T10
4.0
4.35
4.7
V
GAIN ratio between GBH of (I) and that of (J)
-3
0
3
%
GAIN ratio between GBH of (I) and that of (K)
-3
0
3
%
GAIN ratio between GBH of (J) and that of (K)
-3
0
3
%
Potential of sink chip of T10 when 761mVp-p is
entered.
(N) GAIN ratio of signals when the base band is selected.
Base bank –AMP-
∆B1
GAIN ratio (1)
Base band –AMP-
∆B2
GAIN ratio (2)
Base band –AMP-
∆B3
GAIN ratio
Sig.1
T13/15
Sig.1
T17/19
Sig.1
T13/15
Sig.1
T21/23
Sig.1
T17/19
Sig.1
T21/23
(O) f characteristics of GAIN (common to all modes and input signals, however, except for Y/C-MIX).
LPF 6MHz
FY6
Sig.1
T13/15
Difference between GAIN and GYH
when 761mVp-p, 6MHz is entered.
-0.5
0
+0.5
dB
FY10
Sig.1
T13/15
Difference between GAIN and GYH
when 761mVp-p, 10MHz is entered.
-0.5
0
+0.5
dB
attenuation
LPF 10MHz
attenuation
(P) DC voltage for output mute (common to all modes).
Pin 13 voltage
V13
T13
3.7
4.05
4.4
V
Pin 15 voltage
V15
T15
3.7
4.05
4.4
V
Pin 17 voltage
V17
T17
3.9
4.25
4.6
V
Pin 19 voltage
V19
T19
3.9
4.25
4.6
V
Pin 21 voltage
V21
T21
3.9
4.25
4.6
V
Pin 23 voltage
V23
T23
3.9
4.25
4.6
V
Continued on next page.
No.A0220-3/16
LA7138M
Continued from preceding page.
Parameter
Symbol
Input
Test
signal
point
Ratings
Conditions
min
typ
Unit
max
* Output DC voltage characteristics at Ta = 25°C, VCCA = 9.0 to 13.0V
Output DC for 4: 3
V43
T16
Output DC for
VLB
T16
Letter -Box
For 4:3 mode control (no load)
For the Letter-Box mode control
0
0.01
0.35
V
2.05
2.2
2.35
V
4.4
4.7
5.0
V
0
0.01
0.35
V
1.90
2.15
2.40
V
4.15
4.60
5.00
V
(Load current 500µA to flow out)
Output DC for
VSQ
T16
squeeze
For squeeze mode control
(Load current 500µA to flow out)
* Output DC voltage characteristics at Ta = 25°C, VCC B = 7.5 to 8.5V
Output DC for 4: 3
V43
T16
Output DC for
VLB
T16
Letter-Box
For 4:3 mode control (no load)
For the Letter-Box mode control
(Load current 500µA to flow out)
Output DC for
VSQ
squeeze
T16
For squeeze mode control
(Load current 500µA to flow out)
Note) Each of AMP-GAIN and AMP-GAIN ratios is the value when the output pin part shown in the test circuit diagram is inserted.
Sig.1
Sig.2
Sig.3
Sig.4
No.A0220-4/16
LA7138M
Design Guarantee Items at Ta = 25°C
Parameter
Symbol
Ratings
Conditions
min
typ
Unit
max
Except for Y/C-MIX (VCCA = 9.0 to 13.0V, VCCB = 7.5 to 8.5V)
Channel crosstalk
CT
The signal which becomes 1Vp-p at f = 4MHz and with the output in
-65
-60
dB
-80
-78
dB
0.5
2
%
0
1
dB
-65
-60
dB
-74
-72
dB
4
5.5
%
0.5
1.5
dB
C connection is entered in other channels. Measure the magnitude
of monitor channel output pins at 4MHz and specify the ratings as a
ratio relative to the magnitude of output pin of other channels at
4MHz.
Video S/N ratio
SN
Enter the Y signal with 100% white and apply 3.3V to pin 11.
Measure S/N of the output signal.
* Refer to Note 1.
Differential gain
DG
Enter the 1Vp-p standard stair step signal (color) to obtain pin 11 =
OPEN. Measure the differential gain of the output signal, with the
output pin part shown in the measuring circuit diagram inserted.
Differential phase
DP
Enter the 1Vp-p standard stair step signal (color) to obtain pin 11 =
-1
OPEN. Measure the differential phase of the output signal, with the
output pin part shown in the measuring circuit diagram inserted.
For Y/C-MIX (VCCB = 7.5 to 8.5V)
Channel crosstalk
CT
The signal which becomes 1Vp-p at f = 4MHz and with the output in
C connection is entered in other channels. Measure the magnitude
of monitor channel output pins at 4MHz and specify the ratings as a
ratio relative to the magnitude of output pin of other channels at
4MHz.
Video S/N ratio
SN
Enter the Y signal with 100% white and add pin 11 = 3.3V. Measure
S/N of the output signal.
* Refer to Note 1.
Differential gain
DG
Enter the 761mVp-p standard stair step signal (color) to obtain pin
11 = 3.3V. Measure the differential gain of the output signal, with the
output pin part shown in the measuring circuit diagram inserted.
Differential phase
DP
Enter the 761mVp-p standard stair step signal (color) to obtain pin
-1
11 = 3.3V. Measure the differential phase of the output signal, with
the output pin part shown in the measuring circuit diagram inserted.
* Note 1) Since the noise in IC is dependent on the stability of regulator, it is recommended to connect a 470µF capacitor when the S/N ratio of –80dB is to be
secured for controls other than Y/C-MIX. To secure the S/N ratio of -74dB for Y/C-MIX, set the supply voltage to 8V (VCCB) and apply 8V also to this
pin. (See the test circuit B.)
Package Dimensions
unit : mm
3112B
12.5
13
0.63
5.4
7.6
24
1
12
1.0
0.15
0.35
(1.5)
0.1
1.7max
(0.75)
SANYO : MFP24S(300mil)
No.A0220-5/16
LA7138M
Block Diagram
No.A0220-6/16
LA7138M
Test Circuit
No.A0220-7/16
LA7138M
Input/Output form Diagram
Pin
No.
1
Pin name
MUTE
I/O
I
Pin
Input/
Function
Output
voltage
impedance
1.7V
21kΩ
Equivalent circuit
Mute control pin for video signal outputs
(Pins 13, 15, 17, 19 and 21).
Control can be made with a microcontroller
operating on 3.3 to 5.0V power supply.
2
SIG.SW
I
1.7V
21kΩ
Pin to select the input form of pins 3 and 6
according to the type of input signal
(composite/s/component/ base band). Control
can be made with a microcontroller operating
on 3.3 to 5.0V power supply.
Add a 5.1kΩ resistor in series externally.
3
COMP.IN
I
4.5V
Clamp
form
Video signal input pin.
Enter the composite signal for input of the
composite/S signal. Enter the B-Y or R-Y
signal for input of the component signal.
For input of the base band, enter any of RGB
signals that have a sync signal.
(This pin is connected to GND when the S
signal is entered.)
4
SQ.SW
I
2.4V
9.0GΩ
Pin to enter the squeeze information. Control
can be made with a microcontroller that
operates on 3.3 to 5.0V power supply.
5
LB.SW
I
2.43V
8.1GΩ
Pin to enter the Letter-Box information.
Control can be made with a microcontroller that
operates on 3.3 to 5.0V power supply.
22
COMP.SW
I
2.4V
9.0GΩ
Y/C-MIX ON/OFF control pin. Be sure to set
this pin HIGH in cases other than composite/S
control of pin 2.
Control is possible with a microcontroller
operating on 3.3 to 5.0V power supply or
through selection of VCC/GND on the
substrate.
Continued on next page.
No.A0220-8/16
LA7138M
Continued from preceding page.
Pin
No.
6
Pin name
C.IN
I/O
I
Input/
Pin
Output
voltage impedance
4.8V
10kΩ
Function
Equivalent circuit
Video signal input pin.
Enter the chroma signal for input of composite/S
signal. Enter the B-Y or R-Y signal for input of
the component signal input.
For input of the base band signal, enter any of
RGB signals that have a sync signal.
8
REG
O
8V
1.5kΩ
Pin for the regulator that generates an 8V
supply voltage in IC.
To use the supply voltage of 12V, connect a
collector of the external PNP transistor (see the
test circuit A). Since the noise in IC is
dependent on the stability of regulator, it is
recommended to connect a 470µF capacitor
when the S/N ratio of –80dB is to be secured for
controls other than Y/C-MIX.
To secure the S/N ratio of –74dB for Y/C-MIX,
set the supply voltage to 8V (VCCB) and apply
8V also to this pin. (See the test circuit B.)
10
Y.IN
I
4.2V
Clamp form
Video signal input pin.
Enter the Y signal for input of composite/S and
component signal. For input of the base band
signal, enter any of RGB signals that have a
sync signal.
11
AMP.SW
I
2.4V
9.0GΩ
Control pin to select the AMP gain according to
the input signal amplitude.
Control is possible with a microcontroller that
operates on 3.3 to 5.0V power supply as well as
through selection of VCC/GND on a substrate.
12
PNP-B-IN
O
3.4V
4.0GΩ
Base input pin of the external PNP transistor for
the 8V regulator.
Connect to the transistor in case of the supply
voltage of 12V (see the test circuit A).
To use the supply voltage of 8V, keep this pin
open (see the test circuit B).
Continued on next page.
No.A0220-9/16
LA7138M
Continued from preceding page.
Pin
No.
Pin name
I/O
Input/
Pin
Output
voltage impedance
Function
13
Y.OUT1
O
2.7V
11.6Ω
15
Y.OUT2
O
2.7V
11.6Ω
75Ω. Mute possible with pin 1.
17
C.OUT1
O
3.9V
11.6Ω
Video signal output pin.
19
C.OUT2
O
3.9V
11.6Ω
Mute possible with pin 1.
21
COMP.OUT1
O
3.57V
11.6Ω
Video signal output pin.
23
COMP.OUT2
O
3.57V
11.6Ω
16
C-DC.OUT
O
4.7V
4.1Ω
Equivalent circuit
Video signal output pin.
Drives the video signal entered in pin 10 by
Drives the video signal entered in pin 6 by 75Ω.
Drives the video signal entered in pin 3 by 75Ω.
Mute possible with pin 1.
S1/S2 DC voltage output pin.
Outputs 0V for the 4: 3 mode, 2.2V for the
Letter-Box mode, and 5V for the squeeze
mode.
Connect with a 10kΩ resistor after capacitive
coupling of chroma signal output.
9
VCC1
P
12V
OR
VCC for a signal processing circuit.
To use the supply voltage of 12V, connect an
8.0V
emitter of external PNP transistor (see the test
circuit A). Insert a capacitor of around 47µF
between this VCC and pin 7.
20
VCC2
P
8V
VCC for the 75Ω drive circuit.
Insert a capacitor of around 47µF between this
VCC and GND of the 75Ω drive circuit.
Pay due attention to the layout because the
output signal has a substantial amplitude.
7
GND1
P
0V
14
GND2
P
0V
GND for the signal processing circuit.
GND of the 75Ω drive circuit (pins 13 and 15).
Pay due attention on the layout because the
output signal has a substantial amplitude.
18
GND2B
P
0V
GND of the 75Ω drive circuit (pins 17 and 19).
Pay due attention to the layout because the
output signal has a substantial amplitude.
24
GND2A
P
0V
GND of the 75Ω drive circuit (pins 21 and 23).
Pay due attention on the layout because the
output signal has a substantial amplitude.
No.A0220-10/16
LA7138M
Control Pin Function Table
Pin No.
Pin condition
LOW
OPEN
HIGH
Pin voltage
0 to 0.6V
1.55 to 1.75V
2.7 to 5V
Pin 1
13,17,21
Mute of 75Ω driver
15,19,23
No mute
mute
mute
Pin 2
Pin voltage
0 to 0.6V
1.55 to 1.75V
2.7 to 5V
(Y point)
Signal input mode select
Composite/S
Base band
Component
Pin 11
Pin 22
Pin voltage
0 to 1V
AMP–GAIN select
6dB
2.7 to 8V (Note)
8.5dB
Pin voltage
0 to 1V
2.7 to 8V (Note)
Y/C-MIX Control
Y/C-MIX
Composite
Note: Do not apply to pins 11 and 22 a voltage higher than the REG & VCC2 voltages of pins 8 and 20.
* Do not use Y/C-MIX for cases other than composite/S.
* For composite, the chroma signal is entered with pin 6 in C connection, the composite signal is entered with pin 3 clamped, and the Y signal is entered with pin 9
clamped. However, for S, Pin 3 has no input.
For component, the B-Y/R-Y signal is entered with pins 3 and 6 clamped to pedestal and the Y signal is entered with pin 10 clamped.
For base band, the RGB signal is entered with pins 3, 6, and 10 clamped.
Do not use Pins 11 and 22 in the OPEN state.
Pin 4
Pin 5
Pin 16 output DC
0 to 1V
0 to 1V
LOW (0V) → 4:3Mode
0 to 1V
2.6 to 5V
MIDDLE (2.5V) → Letter-Box mode
2.6 to 5V
0 to 1V
HIGH (5V) → Squeeze mode
2.6 to 5V
2.6 to 5V
Not allowed
No.A0220-11/16
LA7138M
Switch conditions
Symbol
Control voltage (Unit: V)
Switch conditions
VDC1
VDC2
VDC4
VDC5
VDC11
VDC22
SW1
SW2
ICC1
0
0
3.3
0
3.3
3.3
ON
ON
ICC2
0
0
3.3
0
3.3
3.3
ON
ON
ON
(A) Pin 10 (Y signal) input when the composite/S is selected.
GYM
0/3.3
0
*
*
0
3.3
ON/OFF
GYH
0/3.3
0
*
*
3.3
3.3
ON/OFF
ON
C10H
0/3.3
0
*
*
3.3
3.3
ON/OFF
ON
*
0
3.3
ON/OFF
ON
(B) Pin 6 (chorma signal) input when the composite/S is selected.
GCM
0/3.3
0
*
GCH
0/3.3
0
*
*
3.3
3.3
ON/OFF
ON
C6H
0/3.3
0
*
*
3.3
3.3
ON/OFF
ON
(C) Pin 3 (composite signal) input when the composite is selected.
GSM1
0/3.3
0
*
*
0
3.3
ON/OFF
ON
GSH1
0/3.3
0
*
*
3.3
3.3
ON/OFF
ON
C3H
0/3.3
0
*
*
3.3
3.3
ON/OFF
ON
(D) GAIN ratio of signals when the composite/S is selected.
GSM2
0/3.3
0
*
*
0
0
ON/OFF
ON
GSH2
0/3.3
0
*
*
3.3
0
ON/OFF
ON
*
3.3
3.3
ON/OFF
ON
(E) GAIN ratio of signals when the composite is selected.
∆YC
0/3.3
0
*
∆YS1
0/3.3
0
*
*
3.3
3.3
ON/OFF
ON
∆CS1
0/3.3
0
*
*
3.3
3.3
ON/OFF
ON
(F) GAIN ratio of signals when the S is selected.
∆YS2
0/3.3
0
*
*
3.3
0
ON/OFF
ON
∆CS2
0/3.3
0
*
*
3.3
0
ON/OFF
ON
(G) Pin 10 (Y signal) input when the component is selected.
GYM
0/3.3
3.3
*
*
0
3.3
ON/OFF
ON
GYH
0/3.3
3.3
*
*
3.3
3.3
ON/OFF
ON
C10H
0/3.3
3.3
*
*
3.3
3.3
ON/OFF
ON
(H) Pin 6 (B-Y or R-Y signal) input when the component is selected.
GNM
0/3.3
3.3
*
*
0
3.3
ON/OFF
ON
GNH
0/3.3
3.3
*
*
3.3
3.3
ON/OFF
ON
P6H
0/3.3
3.3
*
*
3.3
3.3
ON/OFF
ON
(I) Pin 3 (B-Y or R-Y signal) input when the component is selected.
GNM
0/3.3
3.3
*
*
0
3.3
ON/OFF
ON
GNH
0/3.3
3.3
*
*
3.3
3.3
ON/OFF
ON
P3H
0/3.3
3.3
*
*
3.3
3.3
ON/OFF
ON
ON
(J) GAIN ratio of signals when the component is selected.
∆Y1
0/3.3
3.3
*
*
3.3
3.3
ON/OFF
∆Y2
0/3.3
3.3
*
*
3.3
3.3
ON/OFF
ON
∆N
0/3.3
3.3
*
*
3.3
3.3
ON/OFF
ON
(K) Pin 10 (RGB signal) input when the base band is selected.
GBM
0/3.3
*
*
*
0
3.3
ON/OFF
OFF
GBH
0/3.3
*
*
*
3.3
3.3
ON/OFF
OFF
C10H
0/3.3
*
*
*
3.3
3.3
ON/OFF
OFF
(L) Pin 6 (RGB signal) input when the base band is selected.
GBM
0/3.3
*
*
*
0
3.3
ON/OFF
OFF
GBH
0/3.3
*
*
*
3.3
3.3
ON/OFF
OFF
C6H
0/3.3
*
*
*
3.3
3.3
ON/OFF
OFF
(M) Pin 3 (RGB signal) input when the base band is selected.
GBM
0/3.3
*
*
*
0
3.3
ON/OFF
OFF
GBH
0/3.3
*
*
*
3.3
3.3
ON/OFF
OFF
C3H
0/3.3
*
*
*
3.3
3.3
ON/OFF
OFF
*: Any condition
Continued on next page.
No.A0220-12/16
LA7138M
Continued from preceding page.
Control voltage (Unit: V)
Symbol
VDC1
VDC2
Switch conditions
VDC4
VDC5
VDC11
VDC22
SW1
SW2
(N) GAIN ratio of signals when the base band is selected
∆B1
0/3.3
*
*
*
3.3
3.3
ON/OFF
OFF
∆B2
0/3.3
*
*
*
3.3
3.3
ON/OFF
OFF
∆B3
0/3.3
*
*
*
3.3
3.3
ON/OFF
OFF
(O) f characteristics of GAIN (common to all modes and input signals, however, except for Y/C-MIX)
FY6
0/3.3
0
*
*
3.3
3.3
ON/OFF
ON
FY10
0/3.3
0
*
*
3.3
3.3
ON/OFF
ON
(P) DC voltage for output mute (common to all modes)
V13
0
*
*
*
0/3.3
0/3.3
ON
*
V15
3.3
*
*
*
0/3.3
0/3.3
ON
*
V17
0
*
*
*
0/3.3
0/3.3
ON
*
3.3
*
*
*
0/3.3
0/3.3
ON
*
V21
0
*
*
*
0/3.3
0/3.3
ON
*
V23
3.3
*
*
*
O/3.3
0/3.3
ON
*
0
0
0/3.3
0/3.3
*
*
*
*
V19
(Q) Output DC voltage characteristics
V43
*
*
VLB
*
*
0
3.3
0/3.3
0/3.3
*
VSQ
*: Any condition
*
*
3.3
0
0/3.3
0/3.3
*
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PS No.A0220-13/13