SAMSUNG S1D2140B03-D0B0

R/G/B VIDEO AMPLIFIER WITH OSD INTERFACE FOR MONITORS
R/G/B VIDEO AMPLIFIER
S1D2140B03
24-DIP-300
The S1D2140B03 is a very high frequency video amplifier system with OSD
interface intended to be used in Monitor with high resolution up to 1024 ×
768. It contains 3 matched R/G/B video Amplifiers with Blank signal and
provides a flexible interfacing to DC controlled adjustment system.
FUNCTIONS
• R/G/B Video Amplifier
• OSD Interface
• Contrast/OSD Contrast/SUB Contrast Control
• Blank/Clamp Gate
ORDERING INFORMATION
• Video Clamp
FEATURES
Device
Package
Operating Temperature
S1D2140B03-D0B0
24-DIP-300
-20 °C — +70°C
• 3-Channel R/G/B Video Amplifier, 110MHz Bandwidth
• TTL OSD Input, 50MHz Bandwidth
• DC Contrast Control range: -38dB
• DC SUB Contrast Control range: -11dB
• Capable of 7.5VPP Output Swing Range
• Video/OSD high speed Switch
0
S1D2140B03
R/G/B VIDEO AMPLIFIER WITH OSD INTERFACE FOR MONITORS
BLOCK DIAGRAM
ONE (RED)
OF THREE CHANNELS
1
GOSD
2
BOSD
3
VI/OSD_SW
4
5
VCC1
6
GIN
7
SWITH
CONTROL
_
A2
+
gm1
VIDEO
OSD
SWITCH
+
GND1
8
BIN
9
CONST
10
VIDEO
SUB_CONTRAST
CONTROL
OSD
CONTRAST
+
VIDEO
SUB_CONTRAST
_
A3
+
24
RDRIVE
23
GDRIVE
22
BDRIVE
21
GND2
20
RCLP
19
ROUT
18
VCC2
17
GCLP
16
GOUT
15
BCLP
14
BOUT
13
BLK
-A5
VIDEO
CONTRAST
_
RIN
_
A1
+
_
ROSD
-A4
1.5V
gm2
+
OSD_ CONST
CLP
1
11
12
CONTRAST
CONTROL
OSD
CONTRAST
CONTROL
CLAMP
GATE
BLANK
GATE
R/G/B VIDEO AMPLIFIER WITH OSD INTERFACE FOR MONITORS
S1D2140B03
PIN CONFIGURATIONS
Table 1. Pin Configurations
Pin No
Symbol
I/O
Configurations
1
ROSD
I
Red OSD Input
2
GOSD
I
Green OSD Input
3
BOSD
I
Blue OSD Input
4
VI/OSD_SW
I
Video or OSD Switch
5
RIN
I
Red Video Input
6
VCC1
-
VCC (normal)
7
GIN
I
Green Video Input
8
GND
-
Ground
9
BIN
I
Blue Video Input
10
CONST
I
Contrast Control
11
OSD_CONST
I
OSD Contrast Control
12
CLP
I
Clamp Gate Signal Input
13
BLK
I
Blank Gate Signal Input
14
BOUT
O
Blue Video Output
15
BCLP
-
Blue Clamp Cap
16
GOUT
O
Green Video Output
17
GCLP
-
Green Clamp Cap
18
Vcc2
-
VCC (output part)
19
ROUT
O
Red Video Output
20
RCLP
-
Red Clamp Cap
21
GND
-
Ground
22
BDRIVE
I
Blue Gain Control
23
GDRIVE
I
Green Gain Control
24
RDRIVE
I
Red Gain Control
2
S1D2140B03
R/G/B VIDEO AMPLIFIER WITH OSD INTERFACE FOR MONITORS
PIN DESCRIPTION
Table 2. Pin Description
Pin No
Pin Name
Schematic
Description
VCC
1
2
3
Red OSD Input
(ROSD)
Green OSD Input
(GOSD)
Blue OSD Input
(BOSD)
OSD input signals are in TTL level and
will be connected to ground when
switching video input
1.4V
PIN 1
VCC
4
5.6V
Video/OSD
Switch
(VI/OSD_SW)
Videl/OSD switch signal is TTL level
OSD Input = “High”
Video Input = “Low”
PIN 4
VCC
5
7
9
3
Red Video Input
(RIN)
Green Video Input
(GIN)
Blue Video Input
(BIN)
MAX Input Video Signal is 0.7Vpp
PIN 5
6
VCC1
-
Supply Voltage (except drive stage)
8
GND
-
Ground
R/G/B VIDEO AMPLIFIER WITH OSD INTERFACE FOR MONITORS
S1D2140B03
Table 2. Pin Description (Continued)
Pin No
Pin Name
10
Video Contrast
(CONST )
OSD Contrast
(OSD_CONST)
Blue Drive
(BDRIVE)
Green Drive
(GDRIVE)
Red Drive
(RDRIVE)
11
22
23
24
12
13
Schematic
150uA
Description
Video and OSD maximum contrast control range (0V — 4V) is -38dB.
Sub contrast gain (RGB Drive) control
range (0V — 4V) is -11dB
50uA
PIN 10
Clamp Gate Input
(CLP)
Blank Gate Input
(BLK)
Video Amp actives when clamp gate and
blank gate signal is in low TTL level
220uA
Vref 2.1V
PIN 12
VCC
19
16
14
15
17
20
Red Video
Output
(ROUT)
Green Video
Output
(GOUT)
Blue Video
Output
(BOUT)
Blue Clamp Cap
(BCLP)
Green Clamp Cap
(GCLP)
Red Clamp Cap
(RCLP)
Video signal output
PIN 19
Brightness controlling actives by
changing and discharging of the external
cap. (0.1µF)
PIN 15
4
S1D2140B03
R/G/B VIDEO AMPLIFIER WITH OSD INTERFACE FOR MONITORS
Table 2. Pin Description (Continued)
Pin No
Pin Name
Schematic
Description
18
VCC2
-
Supply voltage for drive part
21
GND
-
Ground
THERMAL & ESD CHARACTERISTICS
Table 3. Thermal & ESD Parameter
Value
No
5
Item
Symbol
Unit
Min
Typ
Max
1
Thermal Resistance
(Junction-ambient)
θja
-
61
-
°C/W
2
Junction Temperature
Tj
-
150
-
°C
3
Human Body Mode
(C = 100p, R = 1.5k)
HBM
2
-
-
KV
4
Machine Model
(C = 200p, R = 0)
MM
300
-
-
V
5
Charge Device Model
CDM
800
-
-
V
R/G/B VIDEO AMPLIFIER WITH OSD INTERFACE FOR MONITORS
S1D2140B03
ABSOLUTE MAXIMUM RATINGS (TA = 25 °C) (1)
Table 4. Absolute Maximum Ratings
No
Item
Symbol
Value
Unit
Min
Typ
Max
1
Maximum Supply Voltage
Vccmax
-
-
13.5
V
2
Operating Temperature (2)
Topr
-20
-
70
°C
3
Storage Tempperture
Tstg
-65
-
150
°C
4
Operating Supply Voltage
Vccop
11.4
12.0
12.6
V (3)
5
Maximum Supply Current
ICCmax
120
mA
6
Power Dissipation
2.0
W
PD
-
-
ELECTRICAL CHARACTERISTICS
DC Electrical Characteristics
TA = 25 °C, VCC1 = VCC2 = 12V: V10 = 4V: V 11 = 4V; V13 = 4V; Vdrive = 4V; V4 = 0V; V12 = 0V
unless otherwise stated
Table 5. DC Electrical Characteristics
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Supply Current
Icc
(4)
65
85
97
mA
Video Input Resistance
RIN
Any Amplifier
10
100
-
kΩ
Clamp Gate Low Input Voltage
V12L
Clamp Comparators On
0.8
1.5
3.0
V
Clamp Gate High Input Voltage
V12h
Clamp Comparators Off
0.8
1.5
2.0
V
Clamp Gate Low Input Current
I12IL
V12 = 0V
-5.0
-2.0
-
µA
Clamp Gate High Input Current
I12h
V12 = 12V
-
0.01
1.0
µA
Blank Gate Low Input Voltage
V13L
Blank Gate On
0.8
1.5
-
V
Blank Gate High Input Voltage
V13h
Blank Gate Off
-
1.5
2.0
V
Blank Gate Low Input Current
I13L
V13 = 0V
-5.0
-2.0
-
µA
Blank Gate High Input Current
I13h
V13 = 12V
-
0.01
1.0
µA
Video Input bias Voltage
Vbias
1.6
1.9
2.2
V
Output Clamp Cap Charge Current
Iclamp+
Clamp Comparators On
0.45
0.75
1.05
mA
Output Clamp Cap Discharge Current
I clamp-
Clamp Comparators Off
-1.05
-0.75
-0.45
mA
6
S1D2140B03
R/G/B VIDEO AMPLIFIER WITH OSD INTERFACE FOR MONITORS
Table 5. DC Electrical Characteristics (Continued)
Parameter
Symbol
Video Output High Voltage
VOH
Video Black Level Output Voltage
VOBL
Video ∆Black Level Output Voltage
∆VOBL
Video Output Blanked Voltage
Contrast/Drive Control Input Current
Cut-Off Control Input Current
Spot Killer Voltage
VOB
Iosd, Idirve,
Icon
Conditions
Min
Typ
Max
Unit
6.2
7.5
9.0
V
1.2
1.5
1.8
V
-0.3
-
0.3
V
Blank Gate On
-
50
500
mV
Vcontrast = Vdrive: 0V to 4V
-
25
0.25
2
1
µA
-
1.0
2.0
µA
8.0
10.4
11.2
V
Min
Typ
Max
Unit
15.5
17.5
19.5
dB
V15,17,20 = 9V
Between Any Two Amplifiers
I21
Vspot
VCC Adjusted to Activate
AC Electrical Characteristics
TA = 25 °C, VCC1 = V CC2 = 12V; V4 = 0V. Manually adjust Video Output pins 14, 16
and 19 to 4V DC for the AC test (12) unless otherwise stated (14)
Table 6. AC Electrical Characteristics
Parameter
Video Amplifier Gain
Symbol
AV max
Conditions
V10 = Vdrive = 4V,
Vin = 560mVpp
Contrast Attenuation 1
∆Avc1
V10 = 2V
-8
-6
-4
dB
Contrast Attenuation 2
∆Avc2
V10 = 0.25V
-
-38
-30
dB
Drive Attenuation1
∆Avd1
Vdrive = 2V
-6
-4
-2
dB
Drive Attenuation 2
∆Avd2
Vdrive = 0.25V
-13
-10
-7
dB
Absolute Gain Match
∆Av match
V10 = 4V, Vdrive = 4V (6)
-1
-
1
dB
Gain Change between Amplifiers
∆Av track
V10 = 4V to 2V ( 6, 7)
-1
-
1
dB
Video Amplifier Distortion
THD
VO = 1VPP, f = 19kHz
-
1
5
%
Video Amp Bandwidth (8,9)
f (-3dB)
V10 = 4V, Vdrive = 4V,
90
110
-
MHz
Video Output Rise Time (8)
tr (Video)
VO = 4VPP
-
3.2
3.8
ns
Video Output Fall Time (8)
tf (Video)
VO = 4VPP
-
3.5
5
ns
Video Amplifier 10kHz Isolation
Viso_10K
V10 = 4V (10)
-
-65
-45
dB
Video Amplifier 10MHz Isolation
Viso_10M
V10 = 4V (8, 10)
-
-50
-35
dB
Blank Output Rise Time (8)
tr (Blank)
Blank Output = 1VPP
-
6
15
ns
7
R/G/B VIDEO AMPLIFIER WITH OSD INTERFACE FOR MONITORS
S1D2140B03
Table 6. AC Electrical Characteristics (Continued)
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Blank Output Fall Time (8)
tf (Blank)
Blank Output = 1VPP
-
10
30
ns
End of Blanking Propagation Delay
tr - prop
(Blank)
Blank Output = 1VPP
-
23
50
ns
Start of Blanking Propagation Delay
tf - prop
(Blank)
Blank Output = 1VPP
-
20
45
ns
Min
Typ
Max
Unit
OSD Electrical Characteristics
TA = 25 °C; VCC1 = V CC2 = 12V; V10 = 4V; V11 = 4V; V13 = 4V;
Vdrive = 4V; V4 = 4V; V12 = 0V unless otherwise stated
Table 7. OSD Electrical Characteristics
Parameter
Symbol
Conditions
OSD Input Low Input Voltage
VOSDL
0.4
1.3
-
V
OSD Input High Input Voltage
VOSDh
-
1.3
2.0
V
OSD Select Low Input Voltage
V4L
Video Inputs are Selected
0.8
1.6
-
V
OSD Select High Input Voltage
V4h
OSD Inputs are Selected
-
1.6
2.0
V
OSD Select Low Input Current
I4L
V4 = 0V
-15
-5
-
µA
OSD Select High Input Current
I4h
V4 = 12V
-
0.01
0.2
µA
-0.3
-
0.3
v
OSD ∆Output Black Level
OSD Output Voltage
∆VBLV - OSD
VOSD
V11 = 4V, Vdrive = 2V
2.75
3.95
5.15
VPP
∆VOSD_ATT
V11 = 2V, Vdrive = 2V
30
50
70
%
∆VOSD
V11 = 4V, Vdrive = 2V
0
5
10
%
Video to OSD Switch Time (8)
tr (OSD S)
V1 = V2 = V 3 = V4 (13)
-
4
10
ns
OSD to Video Switch Time (8)
tf (OSD S)
V1 = V2 = V 3 = V4 (13)
-
11
20
ns
Video to OSD Propagation Delay
tr - prop
(OSD S)
V1 = V2 = V 3 = V10 =
V11 = 4V
-
11
15
ns
OSD to Video Propagation Delay
tf - prop
(OSD S)
V1 = V2 = V 3 = V10 =
V11 = 4V
-
12
25
ns
OSD Output VPP Attenuation
Output Match between Channels
8
S1D2140B03
R/G/B VIDEO AMPLIFIER WITH OSD INTERFACE FOR MONITORS
NOTES:
1.
Absolute maximum rating indicates limit beyond which damage to the device may occur.
2.
Operating ratings indicate conditions for which the device is functional but do not guarantee specific performance limits.
For guaranteed specifications and test conditions, See the Electrical Characteristics. The guaranteed specifications
apply only for the test conditions listed. Some performance characteristics may degrade when the device is not
operated under the listed test conditions.
3.
VCC supply pins 6 and 18 must be externally wired together to prevent internal damage during VCC power on/off cycles.
4.
The supply current specified is the quiescent current for VCC1 and VCC2 with RL = ∞, The supply current for VCC2
(pin 18) also depends on the output load.
5.
Output voltage is dependent on load resistor. Test circuit uses RL = 390Ω.
6.
Measure gain difference between any two amplifiers Vin = 560mVPP.
7.
∆Av track is a measure of the ability of any two amplifiers to track each other and quantifies the matching of the three
attenuators. It is the difference in gain change between any two amplifiers with the contrast voltage (V10) at either 4V
or 2V measured relative to an Avmax condition V10 = 4V. For example, at AVmax the three amplifier` gains might be
17.1dB. 16.9dB, and 16.8dB and change to 11.2dB, 10.9dB and 10.7dB respectively for V10 = 2V. This yields the
measured typical + 0.1dB channel tracking.
8.
When measuring video amplifier bandwidth or pulse rise and fall times, a double sided full ground plane printed circuit
board without socket is recommended. Video amplifier 10MHz isolation test also requires this printed circuit board.
The reason for a double sided full ground plane PCB is that large measurement variations occur in single sided PCB.
9.
Adjust input frequency from 10MHz (Avmax reference level ) to the - 3dB frequency (f -3dB).
10. Measure output levels of the other two undriven amplifiers relative to the driven amplifier to determine channel separation.
Terminate the undriven amplifier inputs to simulate generator loading. Repeat test at fin = 10MHz for Iso_10MHz.
11. A minimum pulse width of 200 ns is guaranteed for a horizontal line of 15kHz.
This limit is guaranteed by design. If a lower line rate is used a longer clamp pulse may be required.
12. During the AC test the 4V DC level is the center voltage of the AC output signal .
For example. if the output is 4 VPP the signal will swing between 2V DC and 6V DC.
13. When V1 = V2 = V3 = 0V and the video input is 0.7V. then tr (OSD S) = 11ns and tf (OSD S) = 4ns The video Output
wave form will be inverted from the one shown in AC Test Circuit. Thus tr (OSD S) is actually a fall time and tf (OSD S)
is actually a rise time in this condition.
14. These parameters are not tested on each product which is controlled by an internal qualification procedure.
9
R/G/B VIDEO AMPLIFIER WITH OSD INTERFACE FOR MONITORS
S1D2140B03
APPLICATION CIRCUIT
12V
+
470uF
0.1uF
ROSD In
RDRV In
75
1
ROSD
RDRIVE
24
0.1uF
GOSD In
GDRV In
75
2
GOSD
GDRIVE
23
0.1uF
BOSD In
BDRV In
75
3
BOSD
BDRIVE
22
0.1uF
VI/OSD SW In
75
Red In
4
10uF
5
+
75
VI/OSD_SW
RIN
GND
RCLP
21
20
0.1uF
Red Out
6
+
100uF
Green In
0.1uF
10uF
ROUT
19
390
KA2143B
S1D2140B03
7
+
75
VCC1
GIN
VCC2
18
0.1uF
8
GND
GCLP
+
100uF
17
0.1uF
Blue In
10uF
+
75
Green Out
9
BIN
GOUT
16
390
CONST In
10
CONST
BCLP
15
0.1uF
0.1uF
OSD CONST In
Blue Out
11
OSD_CONST
BOUT
14
0.1uF
390
OSD CONST In
BLK In
100
12
CLP
BLK
13
100
0.1uF
10