SANYO LV7109E

Ordering number : ENA1992
Bi-CMOS IC
LV7109E
AC Switch
Europe SCART Standard
Overview
The LV7109E is a rationalized IC of AC switch LV7108 complying with the Europe SCART standard.
Features and functions
• Video/Audio Canal-SW
• 6dB-VideoAmp
• 6MHz/12MHz/27MHz-LowPassFilter
• 9ch VideoDriver (AV1/AV2/Line/RGB/Component)
• V-Sync. Detection
• 3ch Stereo Audio Input
• 2ch Stereo Audio Output
Specifications
Absolute Maximum Ratings at Ta = 25°C
Parameter
Symbol
Conditions
Ratings
Unit
Maximum supply voltage 1
VCC1 max
6.0
V
Maximum supply voltage 2
VCC2 max
13.0
V
Recommended supply voltage 1
VCC1
5.0
V
Recommended supply voltage 2
VCC2
12.0
V
Operating supply range 1
VCC1 opg
4.5 to 5.3
V
Operating supply range 2
VCC2 opg
11.1 to 12.5
V
Allowable power dissipation
Pd max
Operating temperature
Topr
-20 to +75
°C
Storage temperature
Tstg
-40 to +150
°C
* With specified substrate
1070
mW
* With specified substrate : 76.1mm × 114.3mm × 1.6mm, glass epoxy.
Any and all SANYO Semiconductor Co.,Ltd. products described or contained herein are, with regard to
"standard application", intended for the use as general electronics equipment. The products mentioned herein
shall not be intended for use for any "special application" (medical equipment whose purpose is to sustain life,
aerospace instrument, nuclear control device, burning appliances, transportation machine, traffic signal system,
safety equipment etc.) that shall require extremely high level of reliability and can directly threaten human lives
in case of failure or malfunction of the product or may cause harm to human bodies, nor shall they grant any
guarantee thereof. If you should intend to use our products for new introduction or other application different
from current conditions on the usage of automotive device, communication device, office equipment, industrial
equipment etc. , please consult with us about usage condition (temperature, operation time etc.) prior to the
intended use. If there is no consultation or inquiry before the intended use, our customer shall be solely
responsible for the use.
Specifications of any and all SANYO Semiconductor Co.,Ltd. products described or contained herein stipulate
the performance, characteristics, and functions of the described products in the independent state, and are not
guarantees of the performance, characteristics, and functions of the described products as mounted in the
customer's products or equipment. To verify symptoms and states that cannot be evaluated in an independent
device, the customer should always evaluate and test devices mounted in the customer ' s products or
equipment.
N1611 SY PC 20110207-S00003 No.A1992-1/24
LV7109E
Electrical Characteristics at Ta = 25°C, VCCV = 5.0V, VCCA = 12V
Parameter
Symbol
Input
Output
point
point
Ratings
Test condition
Unit
min
typ
max
Current dissipation 1 (5V)
ICC1
Non-signal
69.7
82.0
94.3
mA
Current dissipation 2
ICC2
Non-signal
11.1
13.0
15.0
mA
ICC3
Non-signal
7.7
9.0
10.4
mA
VDCC
AV1, AV2-OUT (Sync tip)
0.5
0.7
0.9
V
(ALL5V)
Current dissipation 3
(12V)
Video Canal SW part
Output voltage 1
Voltage gain
VGC
Frequency characteristics 1
VFC1
VIN = 1Vp-p, f = 100kHz, AV1, AV2-OUT
38
Frequency characteristics 2
VFC2
5.5
6.0
6.5
dB
-1.0
0.0
+1.0
dB
-1.5
0.0
+1.5
dB
VIN = Video : 1Vp-p
-1
0
+1
%
VIN = Video : 1Vp-p
-1.5
VIN = 1Vp-p, f = 10MHz/100kHz
17
12
(P17, P19: Through)
VIN = 1Vp-p, f = 6MHz/100kHz
40
(P38, P40: 6MHz-LPF)
DG Differential gain
DGC
19
DP Differential phase
DPC
38
Cross talk between channel
CTC
Picture S/N
VSNC
Maximum output level 1
VOMAXC1
14
40
Selected input = GND
0
+1.5
°C
-60
-50
dB
-70
-65
Non-selected input = 1Vp-p, f = 4.43MHz
VIN = Video (50%White)
17
12
Output level (Trough output) whose
19
14
linearity exceeds 1%
dB
2.8
3.0
Vp-p
2.6
2.7
Vp-p
VIN = Linearity (lamp) signal
Output level at linearity 1%
Maximum output level 2
VOMAXC2
38
12
Output level (ENC output) whose linearity
40
14
exceeds 1%
VIN = Linearity (lamp) signal
Output level at linearity 1%
Video INPUT SW part
Output voltage 1
VDCI1
17, 19, 21
35
Composite (Sync-Tip)
0.8
1.0
1.2
V
Output voltage 2
VDCI2
17, 19, 21
35
Y (Sync-Tip)
0.8
1.0
1.2
V
Output voltage 3
VDCI3
3
33
Chroma (Center)
1.8
2.1
2.4
V
Voltage gain 1
VGI1
17, 19, 21
33
VIN = 1Vp-p, f = 100kHz, load = 10kΩ
-0.5
0.0
+0.5
dB
3
35
Frequency characteristics
VFI
17, 19, 21
33
VIN = 1Vp-p, f = 10MHz/100kHz
-1.0
0.0
+1.0
dB
3
35
DG Differential Gain
DGSW
17, 19, 21
35
VIN = Video :1Vp-p
-1
0
+1
%
DP Differential Phase
DPSW
17, 19, 21
35
VIN = Video :1Vp-p
-1.5
0
+1.5
°C
Cross talk between channel
CTAD
17, 19, 21
33
Selected input = GND
-60
-50
dB
3
35
Non-selected input = 1Vp-p, f = 4.43MHz
-66
-60
Picture S/N
VSNC
17, 19, 21
35
VIN = Video (50%White)
Maximum output level
VOMAXSW
17, 19, 21
35
Output level (ENC output) whose linearity
dB
1.8
2.0
Vp-p
RGB (Pedestal)
0.6
0.8
1.0
V
0.5
0.7
0.9
V
V
exceeds 1%
VIN = Linearity (lamp) signal
Output level at linearity 1%
Video Driver part
Output voltage 1
Output voltage 2
Output voltage 3
VDCD1
VDCD2
VDCD3
Output voltage 4
VDCD4
Voltage gain 1
VGD1
64, 46
6
1, 44
8
3, 42
10
40
16
CVBS (Sync tip)
27
Y (Sync tip)
3
10
C, Pr, Pb (Center)
1.7
2.0
2.3
46
23
42
25
40
27
Y (Sync tip)
0.8
1.0
1.2
V
64, 46
6, 23
For VIN = 1Vp-p and f = 100kHz Line
5.5
6.0
6.5
dB
1, 44
8, 27
output only: 2 drives, Other outputs: 1drive
3, 42
10, 25
40, 38
12, 14, 16
Continued on next page.
No.A1992-2/24
LV7109E
Continued from preceding page.
Parameter
Frequency characteristics 1
Symbol
VFD1
Input
Output
point
point
46, 44, 42
6, 8, 10
40, 38
23, 27, 25
Ratings
Test condition
Unit
min
VIN = 1Vp-p, f = 6MHz/100kHz when
6MHzLPF is selected
-1.5
typ
max
0.0
+1.5
dB
-35
-25
dB
0.0
+1.5
dB
-40
-30
dB
0.0
+1.5
dB
-40
-30
dB
0.0
+1.5
dB
-40
-30
dB
20
35
ns
14
25
ns
10
18
ns
10
18
ns
dB
12, 14 16
Frequency characteristics 2
Frequency characteristics 3
Frequency characteristics 4
Frequency characteristics 5
Frequency characteristics 6
Frequency characteristics 7
VFD2
VFD3
VFD4
VFD5
VFD6
VFD7
46
6
f = 27MHz/100kHz when 6MHzLPF is
44
8
selected
42
10
46
23
f = 12MHz/100kHz when 12MHzLPF is
44
27
selected
42
25
46
23
f = 54MHz/100kHz when 12MHzLPF is
44
27
selected
42
25
46
23
f = 13.5MHz/100kHz when 13.5MHzLPF
42
25
is selected
46
23
f = 74MHz/100kHz when 13.5MHzLPF is
42
25
selected
44
27
f = 25MHz/100kHz when 27MHzLPF is
-1.5
-1.5
-1.5
selected
Frequency characteristics 8
VFD8
44
27
f = 74MHz/100kHz when 27MHzLPF is
selected
Group delay 1
VGDD1
46, 44, 42
6, 8, 10
40, 38
23, 27, 25
f = 6MHz/100kHz when 6MHzLPF is
selected
12, 14 16
Group delay 2
Group delay 3
Group delay 4
VGDD2
VGDD3
VGDD4
46
23
f = 12MHz/100kHz when 12MHzLPF is
44
27
selected
42
25
46
23
f = 27MHz/100kHz when 13.5MHzLPF is
42
25
selected
44
27
f = 27MHz/100kHz when 27MHzLPF is
selected
Mute attenuation
VMUD
ALL
VIN = 1Vp-p, f=4.43MHz
-60
-50
DG Differential gain
DG1
ALL
VIN = Video : 1Vp-p
-1
0
+1
%
DP Differential phase
DP1
ALL
VIN = Video : 1Vp-p
-1.5
0
+1.5
°C
Cross talk between channel
CTD
ALL
VIN = 1Vp-p, f=4.43MHz
Driver output terminated with 75Ω
-60
-50
dB
Picture S/N
VSND
ALL
VIN = Video (50%White)
-70
-65
Maximum output level 1
VOMAXD1
Maximum output level 2
VOMAXD2
64, 46
6
Output level (RGB) whose linearity
1, 44
8
exceeds 1%
3, 42
10
VIN = Linearity (lamp) signal
Output level at linearity 1%
16
Output level (brightness, CVBS) whose
27
linearity exceeds 1%
40
dB
2.5
2.7
Vp-p
2.6
2.8
Vp-p
2.0
2.5
Vp-p
VIN = Linearity (lamp) signal
Output level at linearity 1%
Maximum output level 3
VOMAXD3
46
23
Output level (color difference) whose
42
25
linearity exceeds 1%
VIN = sin 10kHz
Output level at linearity 1%
Sync-SEP part
V.SYNC output
VVSH
17, 19, 21
34
4.3
4.7
5.0
V
VVSL
17, 19, 21
34
0.0
0.3
0.6
V
TDVS
17, 19, 21
34
Note 2)
7
15
25
μs
TWVS
17, 19, 21
34
VIN = PAL Video : 1Vp-p
Note 2)
125
155
185
μs
High voltage
V.SYNC output
Low voltage
V.SYNC output
delay time
V.SYNC output
pulse width
Note 2) When pin 10 is open
Continued on next page.
No.A1992-3/24
LV7109E
Continued from preceding page.
Parameter
Symbol
Input
Output
point
point
Ratings
Test condition
Unit
min
typ
max
Audio canal switches part
Maximum output level
AV1, AV2-OUT (L, R)
VOMAXC
2.2
2.5
Vrms
-1.5
0.0
+1.5
dB
0.003
0.01
%
-100
-80
dBV
-90
-75
dB
Output level at f = 1kHz, THD = 1%
BW = 400 to 30kHz
Channel balance
CVSW
Total harmonic distortion
THDAC
Output noise voltage
VNAC
Mute attenuation
VMUAC
Input impedance
ZIN
Cross talk between channel
CTSW
VIN = 2Vrms, f = 1kHz
Lch Gain-Rch Gain
R-Ch.
R-Ch.
49, 50, 51
58, 61
Rg = 0Ω, BW = JIS-A
L-Ch.
L-Ch.
54, 55, 56
59, 62
VIN = 2Vrms, f = 1kHz, BW = JIS-A
20log (VOUT/VIN)
80
VIN = 2Vrms, f = 1kHz
and selctors
Output off set voltage
VIN = 2Vrms, f = 1kHz,
BW = 400 to 30kHz
100
120
kΩ
-110
-80
dB
0
+20
mV
Rg = 0Ω, BW = JIS-A
VOFSET
Off set voltage at the time of
-20
changeover SW.
External control part
I2C-BUS High level input
VIH
voltage
I2C-BUS Low level input
VIL
voltage
FSS output H voltage
36
2.5
VCC5
V
GND
0.8
V
37
36
37
VHFSS
7
Serial control select FSS OUT H,
10.6
11.1
11.6
V
5.5
6.3
7.0
V
0.0
0.1
0.5
V
1.0
ms
load = 10kΩ
external output resistor 470 recommended
FSS output M voltage
VMFSS
7
Serial control select FSS OUT M,
load = 10kΩ
external output resistor 470 recommended
FSS output L voltage
VLFSS
7
Serial control select FSS OUT,
load = 10kΩ
FSS risinge time
TFSSLH
7
FB output H voltage
VHFB
18
Serial control select FB OUT H,
3.0
4.0
5.0
V
0.0
0.2
0.4
V
0.0
0.5
V
1.0
3.0
V
load = 150Ω
FB output L voltage
VLFB
18
Serial control select FB OUT L,
load = 150Ω
FB external control L range
VLFBIN
20
18
Pin 20 input voltage range at
which the pin 18 output becomes “L”.
FB external control H range
VHFBIN
20
18
Pin 20 input voltage range at
which the pin 18 output becomes “H”.
External control output H
VEXTH
26
2kΩ load for data 1
4.0
4.5
5.0
V
VEXTL
26
2kΩ load for data 0
0.0
0.3
1.0
V
2.3
2.5
2.7
V
8.7
9.0
9.3
V
4.3
4.5
4.7
V
voltage
External control output L
voltage
Internal reference regulator
REG2.5V
VREG25
2
31
REG9.0V
VREG90
52
57
VRE4.5
VREG45
48
No.A1992-4/24
LV7109E
Package Dimensions
unit : mm (typ)
3159A
33
32
64
17
14.0
49
1
17.2
48
0.8
17.2
14.0
16
0.35
0.8
0.15
0.1
3.0max
(2.7)
(1.0)
SANYO : QIP64E(14X14)
AudioPower Supply Block Diagram
A-DAC_R_IN
49
VCC12V_A
29
REG9V_AR
52
R-ch
Input Bias
100kΩ
100kΩ
R-ch Circuit
Power Supply
4.5V-Ref.
Buffer
Switch
Buf.
Mute
AV2_R_OUT
58
Switch
Buf.
Mute
AV1_R_OUT
61
Switch
Buf.
Mute
AV2_L_OUT
59
Switch
Buf.
Mute
AV1_L_OUT
62
Buf.
R-ch
Output Ref.
VCC5V_ALL
28
AV1_R_IN
51
100kΩ
9V-Reg.
Buf.
REF4.5V
48
AV2_R_IN
50
Power Mute
Buf.
REG9V_AL
57
L-ch
Output Ref.
9V-Reg.
L-ch Circuit
Power Supply
Buffer
100kΩ
Buf.
L-ch
Input Bias
100kΩ
100kΩ
54
A-DAC_L_IN
55
AV2_L_IN
56
AV1_L_IN
No.A1992-5/24
LV7109E
Video Power Supply Block Diagram
The thick line indicates the circuit operative in the power save mode.
Applied power to VCC5_All, VCC5V_SW and VCC_LOGIC only in the power save mode.
VCC5V_VD
VCC5V_RGB
9
24
Input
Bias/Clamp
Low Pass
Filter
6dB.
Switch
DR.
RGB/
Component
GND_VD
22
GND_RGB
11
VCC5V_VL
VCC5V_VC
4
13
Input
Bias/Clamp
Low Pass
Filter
6dB.
Switch
DR.
Line Output
Input
Bias/Clamp
Low Pass
Filter
6dB.
Switch
DR.
Canal
AV1/AV2
GND_VC
GND_VL
15
5
VCC5V_ALL
28
Input
Bias/Clamp
0dB
Switch
ADC Output
VCC5V_SW
43
V-Sync.
Detector
34
V-Sync.Output
GND_SW
41
VCC12V_A
29
FB
Control
Canal
FB
FB Output
FSS
Control
Canal
FSS
FSS Output
7
18
VCC5V_LOGIC
30
36
Serial
37
EXT-CTL
Serial Control
26
GND_LOGIC
39
No.A1992-6/24
1kΩ
11
0.1μF
15
0.1μF
7
75Ω
8
680Ω
7
11
75Ω
8
6dB
0.1μF
FSS OUT
6dB
6
9
15
75Ω
10
6dB
12M/13.5M
5
11
19
75Ω
12
6dB
VCC5V_VC
4
6M
13
19
Mute
Mute
AV1_V
a
a: 0V
b: 4V
GND_VL
17
Clamp
75Ω
18
Drv
1000μF
19
20
21
22
23
24
25
26
PY_OUT(Component)
PR_OUT(Component)
75Ω
75Ω
75Ω
16
16
AV2_V/Y_IN
20
AV2_FB_IN
AV1_V_IN
20
AV1_FB_OUT
0.1μF
75Ω
0.1μF
0.1μF
AV3_V_IN
PB_OUT(Component)
GND_VD
+
330μF
VCC5V_VD
+
330μF
EXT_CTL1
+
75Ω
VCC5V_ALL
28
27
VCC12V_A
29
1000μF
VCC5V_LOGIC
0.01μF
30
31
REG2.5V_ALL
32
Sync._Sep._Filter
33pF
Clamp
75Ω
16
+
6dB
6dB
Clamp
SV13a
SV11a
EXTCTL1
6dB
REG
SV12a
cd
ae
bcdf
ae
bcdf
Serial
V_OUT(Line)
15
AV2_V/Y
75Ω
14
6dB
3
f
bcde
a
SV14
LPF
f
Mute b c d e
AV3_V
b
2
REG
Mute
6dB
1
f
bcde
a
Serial
Mute
Clamp
6M
SV16
Clamp/
Bias
f
c
Mute b d e
a
64
Mute
0.1μF
12M/13.5M
a
c
bed
SV1
Mute
7
Mute
a
b
c
def
SV2
Mute
SV11b
a
SV12b
AV1_V
SV13b
AV2_V/Y
GND_AL
SA1L
SV6
SV4
Mute
Mute
Clamp
Buf
+ 62
10μF
AV2_B
AV2_G
AV2_R/C
ENC_R
ENC_G
ENC_B
SV3
SV7
V-Sync.
Sep.
V-Sync.
Sep.
33
34
35
AV3_V
AV2_B_IN
3
SA1R
SA2L
ENC_C
ENC_Y+C
ENC_Y
63
Buf
+ 61
1kΩ 10μF
AV1_L_OUT
1
10μF
Buf
6M
GND_AR
1kΩ
60
+ 59
12M/27M
AV1_R_OUT
3
1kΩ 10μF
AV2_L_OUT
c
SA2R
abde
Buf
SV5
+
36
Serial
Control
37
c
+ 58
SA2L
SA1L
6M
Bias
38
abde
1
a
b,c
b,d,e
Mute
a
b,c
d,e
Mute
+
39
Mute
Mute
10μF
REG
Bias
Bias
Bias
SA2R
SA1R
6M
Clamp
40
c
d
+ 57
56
55
54
a
b,c
b,d,e
Mute
a
b,c
d,e
Mute
41
0.1μF
b
REG9V_AL
1μF
1μF
1μF
53
REG
Bias
Bias
Bias
Clamp/
Bias
42
0.1μF
Mute
AV2_R_OUT
6
AV1_L_IN
51
50
49
+ 52
10μF
GND_REG
AV2_L_IN
6
1μF
1μF
REG9V_AR
A-DAC_L_IN
2
AV1_R_IN
2
1μF
ENC_B_IN
Clamp
ENC_G_IN
AV2_R_IN
GND_REF
43
ENC_R_IN
Clamp/
Bias
44
VCC5V_SW
45
GND_V_SW
REF
46
0.1μF
ENC_Y_IN
A-DAC_R_IN
47
0.1μF
GND_LOGIC
48
22μF
0.1μF
180kΩ
+
REF4.5V
ENC_C_IN
a
b
c
d
Mute
SCL_IN
cd
Mute
SDA_IN
b
a
Mute
0dB
Mute
Y/V_ADC
ENC_Y
ENC_PY
ENC_PR
ENC_PB
LPF
V-Sync._OUT
LPF
0dB
LPF
C_ADC
LPF
0.1μF
Audio_Mute_Filter
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
AV1_V_IN
AV1_FB_OUT
AV2_V/Y_IN
AV2_FB_IN
AV3_V_IN
GND_VD
PB_OUT (Component)
VCC5V_VD
PR_OUT (Component)
EXT_CTL1
PY_OUT (Component)
VCC5V_ALL
VCC12V_A
VCC5V_LOGIC
REG2.5V_ALL
Sync_Sep._Filter
AV2_G_IN
REG2.5V
AV2_R/C_IN
GND_VC
VCC5V_VC
AV1_B_OUT
AV1_FSS_OUT
AV1_G_OUT
VCC5V_RGB
AV1_R/C_OUT
GND_RGB
AV2_V_OUT
VCC5V_VL
AV1_V/Y_OUT
GND_VL
V_OUT (Line)
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
A-DAC_R_IN
AV2_R_IN
AV1_R_IN
REG9V_AR
GND_REG
A-DAC_L_IN
AV2_L_IN
AV1_L_IN
REG9V_AL
AV2_R_OUT
AV2_L_OUT
GND_AR
AV1_R_OUT
AV1_L_OUT
GND_AL
AV2_B_IN
C_ADC
V-Sync._OUT
Y/V_ADC
SDA_IN
SCL_IN
ENC_C_IN
GND_LOGIC
ENC_Y_IN
GND_V_SW
ENC_R_IN
VCC5V_SW
ENC_G_IN
GND_REF
ENC_B_IN
Audio_Mute_Filter
REF4.5V
Marks of switches are assigned alphabetically from LSB.
ex.) assign 3bit register
a=000, b=001, c=010, d=011, e=100, f=101
Pin List
Bold parts are for Always Power ON
X SCART PIN
X LV7109 PIN (always Power ON)
X LV7109 PIN (for Power Save)
LV7109E
Block Diagram
a
AV1_V\Y_OUT
VCC5V_VL
VCC5V_VL
AV2_V_OUT
VCC5V_RGB
AV1_R/C_OUT
AV1_G_OUT
AV1_FSS_OUT
AV1_B_OUT
GND_VC
AV2_R/C_IN
REG2.5V
AV2_G_IN
No.A1992-7/24
75Ω
10μF
+
T65
T60A
T60
0.22μF
T61A
T61
0.22μF
T74A
T74
4.7μF
+
10kΩ
0.1μF
T5
T71A
T71
4.7μF
+
10kΩ
T72A
T72
4.7μF
+
10kΩ
T73A
T73
4.7μF
+
10kΩ
100kΩ
1kΩ
100kΩ
1kΩ
100kΩ
1kΩ
T64A
T64
0.22μF
75Ω
VCC5V_VC
GND_VC
AV2_R/C_IN
REG 2.5V
AV2_G_IN
75Ω
AV1_B_OUT
0.1μF
150Ω
T27
7
AV1_FSS_OUT
6
10Ω
T17
8
AV1_G_OUT
0.01μF
T12
150Ω
9
VCC5V_RGB
5
T9
150Ω
10
AV1_R/C_OUT
4
11
GND_RGB
3
T28
150Ω
12
13
AV2_V_OUT
0.1μF
T1
VCC5V_VL
2
T26
150Ω
14
AV1_V_OUT
T100
33
VCC_ALL5V 28
VCC12V_A 29
VCC_LOGIC 30
REG2.5V_ALL 31
32
SYNC_SEP_LPF
15
T23
1000μF
150Ω
+
16
AV1_V_IN
17
AV1_FB_OUT 18
AV2_V/Y_IN 19
AV2_FB_IN 20
AV3_V_IN 21
GND_VD 22
B-Y_OUT(component) 23
VCC5V_VD 24
R-Y_OUT(component) 25
EXT_CTL1 26
V_OUT(Line)
T3
LV7109E
T81
10kΩ
Y_OUT(component) 27
GND_VL
1
AV2_B_IN
64
63 GND_AL
62 AV1_L_OUT
61 AV1_R_OUT
60 GND_AR
59 AV2_L_OUT
58 AV2_R_OUT
57 REG9V_AL
56 AV1_L_IN
55 AV2_L_IN
54 A-DAC_L_IN
53 GND_REG
52 REG9V_AR
Audio_Mute_Filte
10μF
+
ENC_B/B-Y_IN
51 AV1_R_IN
GND_REF
T57
ENC_G/Y_IN
T52A
T52
0.22μF
VCC5V_VSW
100kΩ
50 AV2_R_IN
ENC_R/R-Y_IN
1kΩ
T53A
T53
0.22μF
GND_VSW
100kΩ
1kΩ
REF4.5V
49
A-DAC_R_IN
34
T82
35
T83
36
37
T91
10kΩ
38
10kΩ
39
3mA
40
T93
0.1μF
ENC_Y_IN
41
180kΩ 75Ω
GND_LOGIC
42
0.1μF
ENC_C_IN
43
T95
75Ω
SCL_IN
44
0.1μF
SDA_IN
45
T97
75Ω
Y/V_ADC
46
0.1μF
V-Sync_OUT
47
T99
75Ω
C_ADC
100kΩ
T56
T56A
0.22μF
T16
0.1μF
SERIAL CLOCK
1kΩ
48
+
75Ω
0.1μF
SERIAL DATA
T49
22μF
10kΩ
T33
T34
T31
T32
T37
T11
0.01μF
0.1μF
0.1μF
0.1μF
75Ω
150Ω
75Ω
75Ω
75Ω
330μF 150Ω
+
330μF 150Ω
+
2kΩ
1000μF 150Ω
+
+
T13
T7
0.01μF
47μF
T14
T2
T10
12V
+
0.01μF
+
47μF
5V
+
LV7109E
Test Circuit
No.A1992-8/24
LV7109E
LV7109E Serial Control Table
ADDRESS
SV1
Group 1
0000 0001
VIDEO
CANAL-SW
VIDEO
* indicates initial.
8 7 6 5 4 3 2 1 Symbol
Input
0 0 0
a
P19
AV2_V/Y_IN
0 0 1
b
-
ENC_Y+C_MIX
0 1 0
C
P40
ENC_Y
0 1 1
d
-
MUTE
1 0 0
e
-
MUTE
1 0 1
f
-
MUTE
1 1 X
-
-
PROHIBIT
0 0 0
a
P17
AV1_V_IN
0 0 1
b
-
MUTE
0 1 0
c
-
ENC_Y+C_MIX
0 1 1
d
MUTE
1 0 0
e
MUTE
Output
*
P10: AV1_R/C_OUT
*
P12: AV2_V_OUT
SV2
1 0 1 and after
-
PROHIBIT
0 0
a
P17
AV1_V_IN
0 1
b
P19
AV2_V/Y_IN
1 0
c
-
N/A
1 1
d
-
N/A
a
P21
AV3_V_IN
0 1
b
-
N/A
1 0
C
1 1
d
-
SV5/6 MIX
0 0 0
a
-
MUTE
0 0 1
b
-
MUTE
MUTE
0 1 0
c
P19
AV2_V/Y_IN
AV2_R/C_IN
0 1 1
d
-
MUTE
MUTE
1 0 0
e
-
MUTE
MUTE
and
1 0 1 after
-
-
PROHIBIT
PROHIBIT
0 0
a
SV5
Y
0 1
b
SV4
Composit Video
1 0
c
-
MUTE
1 1
d
-
MUTE
*
SV3
ADDRESS
SV4
8 7 6 5 4 3 2 1 Symbol
0 0
Input
Output
SV4
Group 2
0000 0010
SV7
VIDEO
INPUT-SW
*
MUTE
Y+C MIX
SV7
P33: C_ADC
*
SV3
ADDRESS
Remarks
According to SV3 control
SV2
SV16
Note 1)
Remarks
P35: Y/V_ADC
0
-
-
THROUGH
1
-
-
CLAMP input
*
*
8 7 6 5 4 3 2 1 Symbol
12/27MHz
LPF SW
Input
Output
Remarks
0
-
x = 12MHz
1
-
x = 27MHz
0
-
According to G3D3-5 control
1
-
Switch of SV11b-13b set to “f”
*
RGB output
SV11a
SV12a
SV13a
0 0 0
a
-
MUTE
P40
ENC_Y_IN
-
MUTE
0 0 1
b
0 1 0
c
P42
ENC_R_IN
P44
ENC_G_IN
P46
ENC_B_IN
P42
ENC_R_IN
P44
ENC_G_IN
P46
ENC_B_IN
0 1 1
d
P42
ENC_R_IN
P44
ENC_G_IN
P46
ENC_B_IN
1 0 0
e
-
MUTE
-
MUTE
-
MUTE
1 0 1
f
P42
ENC_R_IN
P44
ENC_G_IN
P46
ENC_B_IN
f: AV2_RGB (EXTERNAL)
*
a: ENC_Y
*
b: Component (× MLPF)
P25: PR_OUT
P27: PY_OUT
P23: PB_OUT
c: Component (× MLPF)
d: Component (× MLPF)
e: mute
f: Component (× MLPF)
Group 3
0000 0011
1 1 X
-
-
PROHIBIT
-
PROHIBIT
-
PROHIBIT
0 0 0
a
P42
ENC_R_IN
P44
ENC_G_IN
P46
ENC_B_IN
a: ENC_RGB (6MLPF)
VIDEO
OTHER-1
0 0 1
b
-
MUTE
-
MUTE
-
MUTE
b: mute
0 1 0
c
P38
ENC_C_IN
-
MUTE
-
MUTE
0 1 1
d
-
MUTE
-
MUTE
-
MUTE
1 0 0
e
-
MUTE
-
MUTE
-
MUTE
1 0 1
f
P3
AV2_R/C_IN
P1
AV2_G_IN
P64
AV2_B_IN
-
PROHIBIT
-
PROHIBIT
SV11b
SV12b
SV13b
* effective at
G3D2 = “0”
-
-
PROHIBIT
0
1 1 X
a
-
ENC_Y+C
1
b
-
MUTE
0
a
-
-
-
-
1
-
-
SV14
P10: AV1_R/C_OUT
P8: AV1_G_OUT
P6: AV1_B_OUT
*
c: ENC_C
d: mute
e: mute
f: AV2_RGB (EXTERNAL)
P16: V_OUT (Line)
*
N/A
SV16
Note 1)
b
-
-
0
-
-
THROUGH
1
-
-
BIAS input
*
*
Note 1) G2D8/G3D8 = “11” is prohibited. Follow the AV2 (16) FB_IN (Pin32) control in case of THROUGH.
AV2_16pin SV16
H a : Clamp input (RGB)
L b : Bias input (Y+C)
No.A1992-9/24
LV7109E
* indicates initial.
ADDRESS
8 7 6 5 4 3 2 1 Symbol
Input
0
a
-
N/A
-
N/A
1
b
-
N/A
-
N/A
0
a
-
N/A
-
N/A
1
b
-
N/A
-
N/A
0 0
a
-
0V
0 1
b
-
5V
1 0
c
P20
THROUGH
1 1
d
P20
THROUGH
Output
Remarks
*
N/A
*
N/A
Group 4
0000 0100
VIDEO
&
AUDIO
OTHER-1
FB
AV1 (16)
Note 2)
P18: AV1_FB_OUT
0 0
-
-
LOW (0.5V)
0 1
-
-
MID (6.0V)
1 0
-
-
HIGH (11.0V)
1 1
-
-
HIGH (11.0V)
0
-
-
-
1
-
-
-
0
-
-
THROUGH
1
-
-
MUTE
FSS
AV1 (8)
*
*
P7: AV1_FSS_OUT
*
N/A
A-MUTE
P58,59,61,62 output MUTE *
Note 2) Same polarity as the AV2 (16) FB_IN (Pin20) control in case of THROUGH.
ADDRESS
8 7 6 5 4 3 2 1 Symbol
Input
0 0 0
a
P55
AV2_L_IN
P50
AV2_R_IN
0 0 1
b
P54
A-DAC_L_IN
P49
A-DAC_R_IN
0 1 0
c
P54
A-DAC_L_IN
P49
A-DAC_R_IN
0 1 1
d
-
MUTE
-
MUTE
Output
*
P62: AV1_L_OUT
P61: AV1_R_OUT
SA1L/R
Group 5
0000 0101
AUDIO
CANAL-SW
1 0 0
e
-
MUTE
-
MUTE
and after 1 0 1
f
-
PROHIBIT
-
PROHIBIT
0 0 0
a
P56
AV1_L_IN
P51
AV1_R_IN
0 0 1
b
-
MUTE
-
MUTE
0 1 0
c
P54
A-DAC_L_IN
P49
A-DAC_R_IN
0 1 1
d
-
MUTE
-
MUTE
1 0 0
e
-
MUTE
-
MUTE
1 0 1 and after
-
-
PROHIBIT
-
PROHIBIT
N/A
*
P59: AV2_L_OUT
P58: AV2_R_OUT
SA2L/R
0 0
a
-
N/A
-
0 1
b
-
N/A
-
N/A
1 0
c
-
N/A
-
N/A
1 1
d
-
N/A
-
N/A
Remarks
N/A
ADDRESS
8 7 6 5 4 3 2 1 Symbol
*
Input
0 0 0
a
-
N/A
-
N/A
0 0 1
b
-
N/A
-
N/A
0 1 0
c
-
N/A
-
N/A
0 1 1
d
-
N/A
-
N/A
1 0 0
e
-
N/A
-
N/A
1 0 1
-
-
PROHIBIT
-
PROHIBIT
0
a
-
N/A
1
b
-
N/A
0 0
a
-
N/A
0 1
b
-
N/A
1 0
c
-
N/A
Output
Remarks
*
N/A
and after
Group 6
0000 0110
N/A
*
N/A
*
N/A
-
-
PROHIBIT
0 0
1 1
a
-
N/A
0 1
b
-
N/A
1 0
c
-
N/A
1 1
-
-
PROHIBIT
*
N/A
ADDRESS
8 7 6 5 4 3 2 1 Symbol
Input
0 0 0 0 0 0
-
-
N/A
0 0 1 1 0 0
-
-
N/A
1 1 1 1 1 1
-
-
N/A
Other than above
-
-
PROHIBIT
Output
Remarks
N/A
Group 7
0000 0111
0
-
-
L
1
-
-
H
-
P42
ENC_R_IN
*
General purpose OUT1
EXT-CTL1
*
P26: EXT_CTL1
- Changeover of
VIDEO input 0
BIAS/CLAMP
1
-
-
-
-
-
-
ENC_B_IN
Input changeover
-
BIAS input
P44
CLAMP input
ENC_G_IN
P46
BIAS input
Component
-
CLAMP input
CLAMP input
CLAMP input
RGB
*
No.A1992-10/24
LV7109E
* indicates initial.
ADDRESS
8 7 6 5 4 3 2 1 Symbol
Input
0 0 0 0 0 0
-
-
N/A
0 0 1 1 0 0
-
-
N/A
1 1 1 1 1 1
-
-
N/A
Other than above
-
-
PROHIBIT
0
-
-
N/A
1
-
-
N/A
0
-
-
N/A
1
-
-
N/A
Output
Remarks
N/A
Group 8
0000 1000
N/A
*
*
N/A
*
N/A
Cautions for Use
1. Drive capacity of video driver
Line outputs can drive two systems through capacitive coupling.
Component outputs can drive one systems through capacitive coupling.
Scart output can drive one system only through DC coupling.
2. Audio Mute
This IC incorporates a mute transistor to reduce the POP noise of audio output when power is turned ON/OFF.
Mute control can be made by serial control.
3. Resistor to limit the Audio input
When the large signal is input in the input pin with power OFF, cross-talke between input and output occurs through the
protective diode and parasitic elements. Because of the structure of LSI, such cross-talke is difficult to avoid.
If cross-talk at a time of power OFF presents a problem, the cross-talk amount can be reduced by inserting the limiting
resistor in the input.
In this case, the input signal level changes depending on the resistance value. Determine the constant while taking both
the cross-talk amount and input level into account.
4. Pin treatment when external control is not to be used
When external control pins (Pins 26) are not used, pull-down to GND is recommended.
5. Audio 9V_REG pin external capacitance
Use the Audio 9V_REG pins (pins 52 and 57) external capacitance of 10μF or more and with the equivalent series
resistance component of 7Ω or less.
6. Power application and disconnection sequences
The recommended power application sequence to this IC is VCC_ALL5V (Pin28) → VCC5V (Pins 5, 9, 13, 24, 30 and
43), VCC12V (Pin29).
(No particular order is established between VCC5V and VCC12V.) It is recommended to reverse the above sequence
when power supply is turned OFF.
No.A1992-11/24
LV7109E
Serial Control Specification
1. Slave address
LSB
MSB
1
0
0
1
0
1
0
0
Slave receiver
One-way communication (this IC is dedicated to receive)
2. DATA TRANSFER MANUAL : [1] is High level. [0] is Low level.
I2C-BUS control system is adopted in SW LSI. SW LSI is controlled by SCL (Serial Clock) and SDA (Serial Data) At
first, please set up the START condition*1 by these two terminals (SCL and SDA). And next, please input the 8bits data,
which should be synchronized with SCL into SDA terminal. Still more, please give priority to high rank bit at data
transfer order (MSB→LSB). The 9th bit is called as ACK (Acknowledge), SW LSI sends [0] to the SDA terminal
during SCL [1] period. So, please open the port of microprocessor during this period. LV7107M adopt auto-increment,
so you input only first group-address and you can transfer data in order. As thus the Data transfer Stop condition*2 is
finished.
*1
SDA rise up during SCI is [1]
*2
SDA fall down during SCL is [1]
3. TRANSFER DATA FORMAT
The transfer data is composed by START condition, Slave address, Group address*4, data, and STOP condition.
After setting up the START condition, please transfer the Slave Address (regulated as “1001000” in SW LSI). Group
and next control data (Please see the Fig.1)
Slave Address is composed by 7bits, and this bit 8th bit*5 should be set as [0].
The both of Group address and control data are composed by 8bits, and the one control action is defined with
combination of these two data. And if you want to control 2 or more groups at the same mode, you can realize it by
sending some control data together.
The data makes meaning with all bits, so you cannot stop the sending until all data transfer is over.
But LV7107M adopt auto-increment, for example you can stop to transfer STOP condition after group 2 data.
If you want to stop transfer action, please transfer the STOP condition without fail.
*4
There are 8 control groups.
*5
This 8th bit called as R/W bit, and this bit shows the data transmission direction. [0] means send mode (accept
mode with SW LSI) and [1] means accept mode (send mode with SW LSI) fundamentally. But SW LSI is not
equipped with such a data out function, please keep this bit as [0].
Fig. 1 DATA STRUCTURE
START condition
Start condition
Slave address
R/W ACK Group address
Acknowledge
ACK
Control data
ACK .....
STOP condition
Stop condition
No.A1992-12/24
LV7109E
4. INITIALIZE AND OTHERS
SW LSI is initialized as the following mode for circuit protection. Please see “SERIAL CONTROL TABLE”.
Characteristics of the SDA and SCL 1/0 stages for SW LSI
Parameter
Symbol
Min
Max
Unit
LOW level input voltage
VIL
0
0.8
V
HIGH level input voltage
VIH
3.0
5.0
V
LOW level output current
IOL
3.0
mA
SCL clock frequency
fSCL
400
kHz
Set-up time for a repeated START condition
tSU : STA
0.6
μs
Hold time START condition. After this period, the first clock pulse is generated.
tHD : STA
0.6
μs
LOW period of the SCL clock
tLOW
1.3
Rise time of both SDA and SDL signals
tR
0
μs
0.3
μs
μs
HIGH period of the SCL clock
tHIGH
Fall time of both SDA and SDL signals
tF
0.6
0
0.3
μs
Data hold time:
tHD : DAT
0
0.9
μs
Data set-up time
tSU : DAT
100
ns
Set-up time for STOP condition
tSU : STO
0.6
μs
BUS fredd time between a STOP and START condition
tBUF
1.3
μs
Fig.2 Definition of timing.
tHIGH
tR
tF
SCL 37pin
tSU:STA
tHD:STA
tLOW
tHD:DAT
tSU:DAT
tSU:STO
tBUF
SDA 36pin
No.A1992-13/24
LV7109E
Pin Function
Pin No.
Pin name
P1
AV2_G_IN
DC voltage
Signal wave form
Input/Output form
Note
1.6Vdc
+Green
1kΩ
4kΩ
0.7Vp-p
4kΩ
300Ω
300Ω
1.6Vdc
1
P2
REG2.5V
2.5Vdc
DC
10pF
50Ω
50Ω
300Ω
2
6.8kΩ
22.8kΩ
13kΩ
18.5kΩ 18.5kΩ
30kΩ
P3
AV2_R/C_IN
910Ω
23kΩ
1.6Vdc
+Red
1kΩ
0.7Vp-p
4kΩ
1.6Vdc
4kΩ
2.1Vdc
+Chroma
20kΩ
300Ω
300Ω
0.7Vp-p
2.1Vdc
3
P4
GND_VC
P5
VCC5V_VC
P6
AV1_B_OUT
0.5V
+Blue
2kΩ
100Ω
10.7kΩ 1.25pF
200Ω
1.4Vp-p
3.3pF
0.5Vdc
6
10kΩ
1.25pF
Continued on next page.
No.A1992-14/24
LV7109E
Continued from preceding page.
Pin No.
Pin name
P7
AV1_FSS_OUT
DC voltage
Signal wave form
Low : 0.5V
Input/Output form
Note
DC
Mid : 6.0V
High : 11.1V
7
100kΩ
P8
AV1_G_OUT
0.5Vdc
+Green
2kΩ
100Ω
10.7kΩ 1.25pF
200Ω
1.4Vp-p
3.3pF
0.5Vdc
8
10kΩ
1.25pF
P9
VCC_RGB
P10
AV1_R/C_OUT
0.5Vdc
+Red
1.4Vp-p
2kΩ
100Ω
0.5Vdc
3.3pF
1.7Vdc
+Chroma
10.7kΩ 1.25pF
200Ω
10
10kΩ
1.4Vp-p
1.25pF
1.7Vdc
P11
GND_RGB
P12
AV2_V_OUT
0.5Vdc
+Video
2kΩ
100Ω
10.7kΩ 1.25pF
200Ω
2.0Vp-p
3.3pF
0.5Vdc
P13
12
10kΩ
1.25pF
VCC5V_VL
Continued on next page.
No.A1992-15/24
LV7109E
Continued from preceding page.
Pin No.
Pin name
P14
AV1_V/Y_OUT
DC voltage
Signal wave form
Input/Output form
Note
0.5Vdc
+Video
2.0Vp-p
2kΩ
100Ω
10.7kΩ 1.25pF
200Ω
0.5Vdc
14
3.3pF
0.5Vdc
+Y
10kΩ
1.25pF
2.0Vp-p
0.5Vdc
P15
P16
GND_VL
V_OUT
0.7Vdc
(Line_OUT)
+CVBS
2kΩ
100Ω
10.4kΩ 3pF
100Ω
2.0Vp-p
16
3pF
10kΩ
0.7Vdc
P17
AV1_V_IN
3pF
100kΩ
1.6Vdc
+CVBS
1kΩ
4kΩ
1.0Vp-p
4kΩ
300Ω
300Ω
1.6Vdc
17
P18
AV1_FB_OUT
Low : 0V
High : 4.0V
10Ω
Through :
0/4.0V
4.0Vp-p
1kΩ
18
1kΩ
100kΩ
0Vdc
1kΩ 1kΩ
Continued on next page.
No.A1992-16/24
LV7109E
Continued from preceding page.
Pin No.
Pin name
P19
AV2_V/Y_IN
DC voltage
Signal wave form
Input/Output form
Note
1.6Vdc
+CVBS
1kΩ
1.0Vp-p
4kΩ
1.6Vdc
4kΩ
1.6Vdc
300Ω
300Ω
+Y
1.0Vp-p
1.6Vdc
P20
AV1_FB_IN
19
Low : 0V
High : 2V
2Vdc
1kΩ
20
0Vdc
P21
AV3_V_IN
1.6Vdc
+CVBS
1kΩ
4kΩ
1.0Vp-p
4kΩ
300Ω
300Ω
1.6Vdc
21
P22
P23
GND_VD
PB_OUT
1.7V
(Component)
+Pb
2kΩ
1.4Vp-p
100Ω
1.7Vdc
3.3pF
10.7kΩ 1.25pF
200Ω
10kΩ
1.25pF
P24
23
100kΩ
VCC5V_VD
Continued on next page.
No.A1992-17/24
LV7109E
Continued from preceding page.
Pin No.
Pin name
P25
PR_OUT
1.7V
DC voltage
(Component)
+Pr
Signal wave form
Input/Output form
Note
2kΩ
1.4Vp-p
100Ω
1.7Vdc
3.3pF
10.7kΩ 1.25pF
200Ω
25
10kΩ
100kΩ
1.25pF
P26
EXT-CTL1
Low : 0V
(OUT)
High : 5V
26
P27
PY_OUT
(Component)
0.7Vdc
+Py
5kΩ
2.0Vp-p
27
0.7Vdc
P28
VCC5V_ALL
P29
VCC12V_A
P30
VCC5V_LOGIC
P31
REG2.5V_ALL
2.5Vdc
DC
10pF
50Ω
300Ω
50Ω
31
6.8kΩ
22.8kΩ
13kΩ
30kΩ
P32
SYNC_SEP
_FILTER
18.5kΩ 18.5kΩ
910Ω
23kΩ
2.2Vdc
+Y
32
500Ω
1.0Vp-p
40kΩ
500Ω
2.2Vdc
8pF
Continued on next page.
No.A1992-18/24
LV7109E
Continued from preceding page.
Pin No.
Pin name
P33
ADC_C_OUT
DC voltage
Signal wave form
Input/Output form
Note
2.1Vdc
+Chroma
500Ω
0.7Vp-p
33
2.1Vdc
P34
V_SYNC_OUT
Low : 0.3V
High : 4.7V
300Ω
4.7Vdc
34
300Ω
0.3Vdc
P35
ADC_V/Y_OUT
1.0Vdc
+CVBS
500Ω
1.0Vp-p
1.0Vdc
35
1.0Vdc
+Y
1.0Vp-p
1.0Vdc
P36
SDA_IN
2
I C DATA
ACK_OUT
30kΩ
500Ω
36
P37
SCL_IN
I2C CLOCK
30kΩ
500Ω
37
Continued on next page.
No.A1992-19/24
LV7109E
Continued from preceding page.
Pin No.
Pin name
P38
ENC_C_IN
DC voltage
Signal wave form
Input/Output form
Note
2.1Vdc
+Chroma
4kΩ
0.7Vp-p
4kΩ
2.1dc
20.3kΩ
300Ω
38
P39
GNG_LOGIC
P40
ENC_Y_IN
1.6Vdc
+Y
1kΩ
4kΩ
1.0Vp-p
4kΩ
300Ω
300Ω
1.6Vdc
40
P41
GND_VSW
P42
ENC_R/PR_IN
1.6Vdc
+Red
1kΩ
0.7Vp-p
4kΩ
1.6Vdc
4kΩ
2.1Vdc
+Pr
20kΩ
300Ω
300Ω
0.7Vp-p
2.1Vdc
42
P43
VCC5V_SW
P44
ENC_G/PY_IN
1.6Vdc
+Green
0.7Vp-p
1kΩ
4kΩ
1.6Vdc
4kΩ
1.6Vdc
300Ω
300Ω
+Py
1.0Vp-p
1.6Vdc
P45
44
GNG_REF
Continued on next page.
No.A1992-20/24
LV7109E
Continued from preceding page.
Pin No.
Pin name
P46
ENC_B/PB_IN
DC voltage
Signal wave form
Input/Output form
Note
1.6Vdc
+Blue
1kΩ
0.7Vp-p
4kΩ
1.6Vdc
4kΩ
2.1Vdc
+Pb
20kΩ
300Ω
300Ω
0.7Vp-p
2.1Vdc
46
P47
Audio_Mute_Filter
140kΩ
500Ω
47
60kΩ
P48
REF4.5V
4.5Vdc
DC
52
60kΩ
1kΩ
48
60kΩ
P49
A-DAC_R_IN
4.5Vdc
4.5V
+Right
5.6Vp-p-MAX
100kΩ
1kΩ
4.5Vdc
P50
AV2_R_IN
49
4.5Vdc
4.5V
+Right
5.6Vp-p-MAX
100kΩ
1kΩ
4.5Vdc
50
Continued on next page.
No.A1992-21/24
LV7109E
Continued from preceding page.
Pin No.
Pin name
P51
AV1_R_IN
DC voltage
Signal wave form
Input/Output form
4.5Vdc
Note
4.5V
+Right
5.6Vp-p-MAX
100kΩ
1kΩ
51
4.5Vdc
P52
REG9V_AR
9Vdc
DC
50Ω
100Ω
52
141kΩ
23kΩ
P53
GND_REG
P54
A-DAC_L_IN
4.5Vdc
4.5V
+Left
5.6Vp-p-MAX
100kΩ
1kΩ
4.5Vdc
P55
AV2_L_IN
54
4.5Vdc
4.5V
+Left
5.6Vp-p-MAX
100kΩ
1kΩ
4.5Vdc
P56
AV1_L_IN
55
4.5Vdc
4.5V
+Left
5.6Vp-p-MAX
100kΩ
1kΩ
4.5Vdc
56
Continued on next page.
No.A1992-22/24
LV7109E
Continued from preceding page.
Pin No.
Pin name
P57
REG9V_AL
DC voltage
Signal wave form
9Vdc
Input/Output form
Note
DC
50Ω
100Ω
57
141kΩ
23kΩ
P58
AV2_R_OUT
4.5Vdc
4.5V
+Right
5.6Vp-p-MAX
20kΩ
4.5Vdc
P59
AV2_L_OUT
700Ω
100Ω
58
4.5Vdc
4.5V
+Left
5.6Vp-p-MAX
20kΩ
4.5Vdc
P60
GND_AR
P61
AV1_R_OUT
700Ω
100Ω
59
4.5Vdc
4.5V
+Right
5.6Vp-p-MAX
20kΩ
4.5Vdc
P62
AV1_L_OUT
700Ω
100Ω
61
4.5Vdc
4.5V
+Left
5.6Vp-p-MAX
20kΩ
4.5Vdc
P63
700Ω
100Ω
62
GND_AL
Continued on next page.
No.A1992-23/24
LV7109E
Continued from preceding page.
Pin No.
Pin name
P64
AV2_B_IN
DC voltage
Signal wave form
Input/Output form
Note
1.6Vdc
+Blue
1kΩ
4kΩ
0.7Vp-p
4kΩ
300Ω
300Ω
1.6Vdc
64
SANYO Semiconductor Co.,Ltd. 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 Co.,Ltd.
products described or contained herein.
SANYO Semiconductor Co.,Ltd. strives to supply high-quality high-reliability products, however, any and all
semiconductor products fail or malfunction with some probability. It is possible that these probabilistic failures or
malfunction could give rise to accidents or events that could endanger human lives, trouble that could give rise
to smoke or fire, or accidents that could cause damage to other property. When designing equipment, adopt
safety measures so that these kinds of accidents or events cannot occur. Such measures include but are not
limited to protective circuits and error prevention circuits for safe design, redundant design, and structural
design.
In the event that any or all SANYO Semiconductor Co.,Ltd. products described or contained herein are
controlled under any of applicable local export control laws and regulations, such products may require the
export license from the authorities concerned in accordance with the above law.
No part of this publication may be reproduced or transmitted in any form or by any means, electronic or
mechanical, including photocopying and recording, or any information storage or retrieval system, or otherwise,
without the prior written consent of SANYO Semiconductor Co.,Ltd.
Any and all information described or contained herein are subject to change without notice due to
product/technology improvement, etc. When designing equipment, refer to the "Delivery Specification" for the
SANYO Semiconductor Co.,Ltd. product that you intend to use.
Upon using the technical information or products described herein, neither warranty nor license shall be granted
with regard to intellectual property rights or any other rights of SANYO Semiconductor Co.,Ltd. or any third
party. SANYO Semiconductor Co.,Ltd. shall not be liable for any claim or suits with regard to a third party's
intellctual property rights which has resulted from the use of the technical information and products mentioned
above.
This catalog provides information as of November, 2011. Specifications and information herein are subject
to change without notice.
PS No.A1992-24/24