TA1276AN
2002-03-29
1
TOSHIBA BIPOLAR LINEAR INTEGRATED CIRCUIT SILICON MONOLITHIC
TA1276AN
PAL / NTSC VIDEO CHROMA AND DEFLECTION IC FOR CTV
(NORMAL SCAN / DOUBLE SCAN MODE)
TA1276AN provides Video, Chroma and Deflection (Sync, when
double scan mode) circuit for a PAL / NTSC Color TV, and
suitable for a high picture quality, large screen size, wide and / or
double scanning TV. These functions are integrated in a 56pin
dual-in-line shrink-type plastic package.
TA1276AN provides a high-performance video processor in which
a YUV double scanning signal can be applied in Video, PAL /
NTSC auto-detection circuit in Chroma and 50 / 60Hz
auto-detection circuit in Sync. PAL demodulation circuit includes
Baseband signal processing system. And this demodulation
circuit does not required any adjustment.
TA1276AN includes I
2
C bus interface, so you can adjust various
functions and controls via the bus.
Weight: 5.55g (Typ.)
TENTATIVE
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2002-03-29
2
FEATURES
l Video / Chroma section
Y delay line
Chroma trap
IQ demodulation for NTSC, UV demodulation for PAL
l BEP (Back End Processor) section
Enable to process a YUV signal independently
Double scanning signal processing capability
(Y processing section)
Black Stretcher (Controlled by I
2
C bus)
DC Restoration Circuit (Controlled by I
2
C bus)
Highbright-color Circuit
D.L. Aperture Sharpness Circuit+Super Real Transcend Circuit (LTI)
Correction (Enable to control Binary line, Gain / Start point)
Y noise reduction circuit
Velocity Scan Modulation output (The first order differential output and phase / amplitude adjustment)
(Color difference section)
Color Detail Enhancer
Selectable relative phase and amplitude
Flesh-color restoration
Color circuit
Baseband tint color
(Text section)
RGB primary color output
On Screen Display interface
Linear RGB interface
Fast Blanking
Drive control
AKB (only black level) or Cut-off Bus control
l Deflection section
High Performance Sync. Separation Circuit
Adjustment free H and V oscillation circuit by Countdown system
Horizontal and Vertical position adjustment
Sync separation, HD output
Horizontal and Vertical pulse output in normal mode.
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2002-03-29
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BLOCK DIAGRAM
TA1276AN
2002-03-29
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TERMINAL FUNCTIONS
PIN
No.
PIN NAME
FUNCTION
INTERFACE CIRCUIT
INPUT /
OUTPUT
SIGNAL
1 f
sc
output
Outputs oscillation waveform of
VCXO.
When 3.58NTSC killer-off this pin
voltage sets 3.2V.
When B / W or other systems
killer-off, this pin voltage sets 1.4V.
DC
3.58NTSC
:3.2V
B / W or Others
system
:1.4V
AC
0.6V
p-p
2 SCP
output
Outputs SCP (Sand Castle Pulse).
The output signal consists of clamp
pulse, horizontal blanking pulse, and
vertical blanking.
The minimum load resistance is 3k.
3
SECAM
control
The input / output pin that is used to
control the SECAM demodulation IC.
When current stronger than 250A
flows from this pin, that is recognized
as SECAM.
When
PAL / NTSC
4.0V
When SECAM
0.75V
4 Y1
output
Outputs the Y signal that routed the
f
sc
TRAP (TRAP can be turned on or
off with Bus.) and the Y delay line
circuit.
5
U / Q output
Outputs B-Y (U) or I signal.
It includes LPF that can remove
carrier.
DC
2.5V
Rainbow
color bar
: 360mV
p-p
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2002-03-29
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PIN
No.
PIN NAME
FUNCTION
INTERFACE CIRCUIT
INPUT /
OUTPUT
SIGNAL
6
V / I output
Outputs R-Y (V) or Q signal.It
includes LPF that can remove carrier.
The chroma signal that routed ACC
and TOF circuits (before demo input)
can be monitored by pulling up this
pin at 10k.
DC
2.5V
Rainbow
color bar
: 360mV
p-p
7
1H DL
control
Outputs the result of whether the
signal is PAL, SECAM or NTSC.
Connect the output to the 1H DL IC.
In the case of discrimination between
white or black, the voltage just before
that is retained.
The voltage immediately after
turning-on is not fixed.
8.4V: PAL
4.3V: SECAM
0V: NTSC
8
9
10
4.43MHz
X'tal
M PAL X'tal
3.58MHz
X'tal
Connect X'tal. In the case of series
capacity, the oscillation frequency (f
0
)
can be changed. In the case of
parallel capacity, the changeable
range of frequency can be changed.
DC
4.0V
90mV
p-p
11 APC
filter
Connect APC filter demodulating the
chroma. The oscillation frequency of
VCXO varies depending on the
voltage at this pin.
DC
12 V
CC1
(5V)
The V
CC
of the chroma and I
2
C Bus
blocks.
Connect 5V (Typ.)
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2002-03-29
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PIN
No.
PIN NAME
FUNCTION
INTERFACE CIRCUIT
INPUT /
OUTPUT
SIGNAL
13
Chroma
input
The pin through which the chroma is
input. Input the chroma signal that
was subjected to Y / C separation.
14 Chroma
GND
The GND pin of the chroma
processing block.
15 Y1 / SYNC
input
The pin through which the composite
video signal or Y signal is input. Input
via clamp capacitor.
16 V-Sep.
Connect the filter separating the
vertical synchronization.
DC6.4V
17 HD
output
(1) When BUS HD-OUT = 0
Output the HD pulse (pulse
duration : 1s) together with
AFC. This pin also serves as the
external input pin that accepts
BPP (black peak detection
stopping pulse) signal.
(2) When BUS HD-OUT = 1
When AKB mode is ON, the
pulse which covers AKB
reference period is output.
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2002-03-29
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PIN
No.
PIN NAME
FUNCTION
INTERFACE CIRCUIT
INPUT /
OUTPUT
SIGNAL
18
SYNC.
output
Output the synchronizing signal
that was separated in the
synchronous separation circuit.
This pin is of the open collector
system. Connect the pull-up
resistor.
19 DEF GND
The GND pin of DEF block.
20 AFC
filter
Connect the filter for horizontal
AFC.
The frequency of the horizontal
output varies depending on the
voltage at this pin.
DC
21 32fH
VCO
Connect the ceramic oscillator for
horizontal oscillation.
The oscillator to be used is
CSBLA503KECZF30, made by
Murata electronics.
22 DEF V
CC
(9V)
The V
CC
of DEF block.
Connect 9V (Typ.) to this pin.
23
Horizontal
output
(Mode SW)
Produces the horizontal output.
Connecting the DEF V
CC
to this
pin can swich Double Scan mode.
In this case, the horizontal output is
not produced.
HIGH: 3.2V
LOW: 0.2V
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2002-03-29
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PIN
No.
PIN NAME
FUNCTION
INTERFACE CIRCUIT
INPUT /
OUTPUT
SIGNAL
24
Curve
correction
(Ext. CP /
BPP input)
(1) Used to correct distortion of
picture in the case of
high-tension fluctuation. Input
the AC component of
high-tension fluctuation.
To disactivate the distortion
correction feature, connect a
capacitor of 0.01F between
this pin and GND.
(2) Double scan mode
This pin is to input external CP
(Clamping Pulse) and BPP
(Black Peak detection stopping
Pulse).
(1)
DC 4.5V
(2)
25 FBP
input
The pin through which FBP is input
to generate pulses for horizontal
AFC2, Y smoothing, and horizontal
blanking.
When double SCAM mode, input H
blanking pulse (5V or over).
26 Digital GND The GND pin of I
2
L block.
27 SDA
The SDA pin of I
2
C bus.
28 SCL
The SCL pin of I
2
C bus.
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2002-03-29
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PIN
No.
PIN NAME
FUNCTION
INTERFACE CIRCUIT
INPUT /
OUTPUT
SIGNAL
29
30
B S / H
G S / H
These pins are to be connected
with a capacitor for sampling and
holding a bais voltage in the AKB
operation, of for clamping to set DC
voltage of RGB outputs in the
no-AKB mode.
DC
31 VP
output
Outputs the vertical pulse.
This pin also serves as the external
blanking input.
When current stronger than
350 A flows, blanking takes place
due to the internal blanking and OR
logic circuit.
32 YS2
Switches between the internal RGB
signal and analog RGB (pin 33, 34,
35) signal.
When this switch is on, the VSM
output is muted.
33
34
35
Analog B
input
Analog G
input
Analog R
input
The pin through which the analog
RGB is input. Input the RGB signal
via clamp capacitor.
36 YS1
Switches between the internal RGB
signal and OSD / analog RGB (pin
37, 38, 39). When this switch is on,
the VSM output is muted.
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2002-03-29
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PIN
No.
PIN NAME
FUNCTION
INTERFACE CIRCUIT
INPUT /
OUTPUT
SIGNAL
37
38
39
Analog OSD
B input
Analog OSD
G input
Analog OSD
R input
The pin through which the OSD
signal or analog RGB is input.
(1) When inputting an OSD signal,
input the ODS signal with a
voltage of 0~5V (4.1V or
more).
(2) When inputting an analog
RGB, input the RGB signal via
clamp capacitor.
ACL works on this input signal
only when the entire screen is
YS1-HI (the entire screen :
OSD).
40 V
CC2
(9V)
The V
CC
pin of the text block.
Connect 9V (Typ.).
41
42
43
B output
G output
R output
Outputs RGB.
44 TEXT GND The GND pin of TEXT block.
45 ABCL
input
Used to control the external
uni-color, brightness, and dynamic
ABL.
Use this pin when using ABL or
ACL.
The sensitivity and starting point of
the ABL and dynamic ABL can be
set by using bus.
ABCL OFF :
6V or more
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2002-03-29
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PIN
No.
PIN NAME
FUNCTION
INTERFACE CIRCUIT
INPUT /
OUTPUT
SIGNAL
46 V
CC3
(9V)
The V
CC
pin of picture quality and
color difference blocks.
Connect 9V (Typ.).
47 YM
input
The half-tone switch for internal
RGB signal.
When the voltage at this pin is set to
7.0V or more, the RGB output
voltage.
48 VSM
output
Outputs the Y-signal that routed
HPF after it had been subjected to
DC restoration.
The output is muted with the
switches of pins 32 and 36.
DC
3.5V
49 APL
detection
Connect the filter correcting DC
restoration ratio.
Opening this pin can monitor the
Y-signal that was subjected to black
stretching.
DC
50 Black peak
hold
Connect the filter controlling the
black stretching gain of the black
stretching circuit.
The black stretching gain varies
depending on the voltage at this pin.
DC
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2002-03-29
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PIN
No.
PIN NAME
FUNCTION
INTERFACE CIRCUIT
INPUT /
OUTPUT
SIGNAL
51
52
V / I input
U / Q input
The pin through which R-Y (V) / I
and B-Y (U) / Q signals are input.
Input via clamp capacitor.
When Burst :
Chroma
= 1 : 1
360mV
p-p
DC : 5.0V
53 Y2
input
The pin through which B-Y (V) / I
and R-Y (U) / Q signals are input.
Input via clamp capacitor.
54 Color
limiter
Color the filter detecting the color
limit.
DC
55 R S / H
The same as pin 29 and 30.
The same as pin 29 and 30.
DC
56 SENSE
input
This pin is to sense IK voltage
feed-back from a CRT Drive circuit.
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2002-03-29
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BUS CONTROL MAP
WRITE MODE
SLAVE ADDRESS : 88H (10001000)
PRESET
SUB
ADDRESS
D7
MSB
D
6
D
5
D
4
D
3
D
2
D
1
D0
LSB
MSB LSB
00 P-MUTE
UNI-COLOR
1000 0000
01 BRIGHTNESS
1000
0000
02 COLOR
Y-MUTE
1000
0000
03 TINT
YM-SW
1000
0000
04 SHARPNESS
YNR
1000
0000
05 RGB
BRIGHTNESS
WPS
L
1000
0000
06
HI BRT
RGB CONTRAST
1000
0000
07 SUB
COLOR COLOR
CLT
1000
0000
08 SUB
CONTRAST Y- CURVE
FLESH
1000
0000
09
G (R) DRIVE
DR-SW
1000
0000
0A B
DRIVE
CDE
1000
0000
0B HORIZONTAL
POSITION
HV-SepL
V-OFF
H-BLK
1000
0000
0C
R CUT OFF
1000
0000
0D G
CUT
OFF
1000
0000
0E B
CUT
OFF
1000
0000
0F
R-Y PHASE
R / B GAIN
G / B GAIN
G-Y PHASE
0000
0000
10
COLOR SYSTEM
P / N-ID
BB SW
OSD-SL
OS-ACL
TX-ACL
0000
0000
11
VSM PHASE
VSM GAIN
APACON PEAK f
0
VSM-PB
0000
0000
12
DC RESTORATION POINT
DC RESTORATION RATE
DC REST. LIMIT
0000
0000
13
BLACK STRETCH POINT
APL VS BSP
Y- PNT
VSM-H.PB FREQ
0000
0000
14 SHR-TRACKING
TEST
RGB-
B.L.C. B.S.G. B.D.L. BS-ARE 0000 0000
15
DYNAMIC ABL POINT
DYNAMIC ABL GAIN
AKB MODE
0000
0000
16
ABL POINT
ABL GAIN
RGB OUT MODE
0000
0000
17
HD-OUT
V-BLK
VERTICAL FREQUENCY
VERTICAL POSITION
0000
0000
18 Y-DL
C-TRAP
TOF
f
0
TOF-Q
0000
0000
READ MODE
SLAVE ADDRESS : 89H (10001001)
D
7
D
6
D
5
D
4
D
3
D
2
D
1
D
0
0 PORSET
COLOR
SYSTEM
X'tal
V-FREQ
V-STD
H-LOCK
1 N-DET
RGBOUT
Y
1
-IN IQ-IN Y
2
-IN H-OUT
VP-OUT
IK-IN
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2002-03-29
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BUS CONTROL FEATURE
WRITE MODE
ITEM EXPLAIN
PRESET
P-MUTE
Picture mute SW ; (0) : OFF, (1) : ON
ON
UNI-COLOR Uni-color
adjustment
;
-18dB~0dB Center
BRIGHTNESS
Brightness adjustment (including sub adjustment) ; -40IRE~+40IRE Center
COLOR Color
adjustment
;
-20dB (Color mute)~+4dB
0dB
Y-MUTE
Y mute SW ; (0) : ON, (1) : OFF
ON
TINT Hue
adjustment
;
-32~+32 0
TM-SW
Half-tone SW (YUV input) ; (0) : OFF, (1) : ON
OFF
SHARPNESS Sharpness
adjustment
;
-20dB~+14dB +8dB
YNR
Y Noise Reduction SW ; (0) : OFF, (1) : ON
OFF
RGB BRIGHTNESS
RGB Brightness Adjustment ; -20IRE~+20IRE 0IRE
WPS L
White Peak Suppression Level ; (0) : 130IRE, (1) : 110IRE
130IRE
HI BRT
High-bright color ; (0) : OFF, (1) : ON
OFF
RGB CONTRAST
RGB Contrast ; -18dB~0dB
-18dB
SUB COLOR
Sub-color ; -4dB~0dB~+3dB 0dB
COLOR
Color correction point ;
(00) : OFF, (01) : 0.2V
p-p
, (10) : 0.4V
p-p
, (11) : 0.6V
p-p
OFF
CLT
Color Limiter Level ; (0) : 1.8V
p-p
, (11) : 2.2V
p-p
1.8V
p-p
SUB CONTRAST
Sub-contrast adjustment ; -3dB~+3dB 0dB
Y- CURVE
Y- curve switching ;
(00) : OFF, (01) : -2.5dB, (10) : -5.6dB, (11) : -7dB
OFF
FLESH
Flesh color ; (0) : OFF, (1) : ON
OFF
G (R) / B DRIVE
R (G) / B drive gain adjustment ; -5dB~0dB~+3dB 0dB
(40h)
DG-SW
Drive gain base axis switching ; (0) : G, (1) : R
G
CDE
Color Detail Enhancer ;
(0) : ON (Foced OFF when sharpness go through), (1) : OFF
ON
HORIZONTAL POSITION
Horizontal position adjustment ; -3s~+3s 0s
HV-SepL
Sync separation level ; (from SYNC TIP) (0) : 35%, (1) : 40%
35%
V-OFF
Vertical output SW ; (0) : ON, (1) : OFF
ON
H-BLK
Horizontal blanking SW ; (0) : ON, (1) : OFF
ON
R / G / B CUTOFF
R / G / B cut-off adjustment ;
When AKB-OFF : RGB output2V~2.5V~3V
When AKB-ON
: SENS input
1V
p-p
~1.5V
p-p
~2V
p-p
(5IRE)
Center
(80h)
R-Y PHASE
R-Y relative phase switching ;
(00) : 90, (01) : 92, (10) : 94, (11) : 112
90
R / B GAIN
R / B relative amplitude switching ;
(00) : 0.56, (01) : 0.68, (10) : 0.79, (11) : 0.86
0.56
G / B GAIN
G / B relative amplitude switching ;
(00) : 0.3, (01) : 0.34, (10) : 0.4, (11) : 0.45
0.3
G-Y PHASE
G-Y relative phase switching ;
(00) : 236, (01) : 240, (10) : 244, (11) : 253
236
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ITEM EXPLAIN
PRESET
COLOR SYSTEM
Color system ;
System
X'tal Color
Color
TINI
difference
difference
control
mute
input
(000) :
NTSC
3.58
Forced OFF
I / Q
Enable
(001) :
NTSC
3.58
Forced OFF
U / V
Enable
(010) :
NTSC
4.43
Forced OFF
U / V
Enable
(011) :
PAL
4.43 (N)
Forced OFF
U / V
Enable
(100) :
PAL
M
Forced OFF
U / V
Enable
(101) : SECAM
4.43
Forced OFF
U / V
Enable
(110) :
MULTI
3.58 / 4.43
Forced OFF
U / V
Enable
(111) : Trinorma 3.58 / M / N
Forced OFF
U / V
Enable
NTSC
(000)
P / N ID
PAL / NTSC ident sensitivity switching ;
(0) : LOW (When digital comb filter used), (1) : Normal
LOW
BB SW
Blue Back SW ; (0) : OFF, (1) : ON
OFF
OSD-SL
OSD peak suppressing level switching ;(0) : 96IRE, (1) : 76IRE
96IRE
OS-ACL
OSD ACL SW ; (0) : ON, (1) : OFF
ON
TX-ACL
RGB ACL SW ; (0) : Gain 1 / 2, (1) : Normal
Gain1 / 2
VSM PHASE
VSM output phase switching ;
(00) : -40ns, (01) : -20ns, (10) : 0ns, (11) +20ns
-40ns
VSM GAIN
VSM output gain switching ;
(00) : 0dB, (01) : -6dB, (10) : -9dB, (11) : OFF
0dB
APACON PEAK f
0
Apacon peak frequency switching ;
(000) : Through (Apacon off), (001) : 4.0MHz,
(010) : 3.3MHz, (011) : 2.5MHz,
(100) : Through (Apacon off), (101) : 13MHz,
(110) : 10MHz, (111) : 8MHz
(000)
Through
VSM PB
VSM output horizontal parabolic modulation SW ;
(0) : Parabolic modulation OFF,
(1) : ON (Nearby sharpness -3dB)
Parabolic
modulation
OFF
DC RESTORATION POINT
DC restoration start point ; (000) : 0% ~ (111) : 42%
0%
DC RESTORATION RATE
DC restoration rate ; (000) : 100%~(111) : 130%
100%
DC REST. LIMIT
DC restoration limit point ; (APL)
(00) : 100%, (01) : 87%, (10) : 73%, (11) : 60%
100%
BLACK STRETCH POINT (BSP) Black stretcher start point ; When APL 0%
(000) : 22IRE~(111) : 56IRE
22IRE
APL VS BSP (AVS)
APL level vs. black stretcher start point ;
(00) : 0dB~(11) : 1.5dB, BSP+APLBSPAVS
0dB
Y- PNT
Y- point switching ; (0) : 100IRE, (1) : 95IRE
100IRE
VSM-H. PB FREQ
VSM output horizontal parabolic frequency ;
(00) : 15.7kHz, (01) : 24.8kHz, (10) : 31.5kHz, (11) : 33.75kHz
SHR-TRACKING
Sharpness tracking ; (00) : HIGH, (11) : LOW
HIGH
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ITEM EXPLAIN
PRESET
TEST
Test mode ; (0) : NORMAL
(1) : Test mode (For factory test)
Switched by sub-address 17H
<during gate-pulse> D
2
(0) : during V-BLK, (1) : NORMAL
Y / RGB smoothing OFF, Monitor of DAC at HD output
NORMAL
RGB- RGB- SW ; (0) : OFF, (1) : ON
OFF
B.L.C.
Block level automatic correction (Priority over black stretcher) ;
MAX 7.5IRE (0) : OFF, (1) : ON
OFF
B.S.G.
Black stretcher gain SW ; (0) ON, (1) : OFF
ON
B.D.L.
Black detection SW ; (0) : 3IRE, (1) : 0IRE
3IRE
BS-ARE
Black area reinforcement SW ;
For wide TV (When using time axis compression IC)
(0) : ON, (1) : OFF
ON
DYNAMIC ABL POINT
Dynamic ABL detection voltage ; (000) : MIN~(111) : MAX
MIN
DYNAMIC ABL GAIN
Dynamic ABL sensitivity ; (000) : MIN~(111) : MAX
MIN
AKB MODE
AKB MODE ; Only black level
(00) : AKB OFF+S / H LOW, (01) : AKB OFF+Cutoff BUS
(10) : AKB ON+I-DET NORMAL, (11) : AKB ON+I-DET3
(00)
AKB OFF+
S / H LOW
ABL POINT
ABL detect voltage ; (000) : MIN~(111) : MAX
MIN
ABL GAIN
ABL GAIN ; (000) : MIN~(111) : MAX
MIN
RGB OUT MODE
RGB output mode SW ;
(00) : NORMAL, (01) : Only R, (10) : Only G, (11) : Only B
NORMAL
HD-OUT
HD output SW ; (0) : HD output, (1) : AKB period pulse
HD output
V-BLK
Vertical Blanking SW ; (0) : ON, (1) : OFF
ON
VERTICAL FREQUENCY
Vertical Frequency ;
(000) : AUTO (50, 60Hz),
(001) : AUTO (50, 60Hz / V MASK OFF),
(010) : 60Hz,
(011) : 60Hz (V MASK OFF),
(100) : Forced 262.5H,
(101) : Forced 263H,
(110) : Forced 312.5H,
(111) : Forced 313H,
When (100), (101), (110), (111) : AFC Free-run
(000)
AUTO
VERTICAL POSITION
Vertical position ; (000) : 0H~(111) : 7H (1H STEP)
0H
Y-DL
Y-DL SW ; (0) OFF, (1) : ON (+80ns)
OFF
C-TRAP
Chroma Trap SW ; (0) : OFF, (1) : ON
OFF
TOF-f
0
Selectable TOF Peak Frequency ;
(000) : 0.8f
sc
+TOF OFF~(111) : 1.5f
sc
TOF OFF
TOF-Q
Selectable TOF Q ; (000) : 0.6~(111) : 1.2
0.6
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DELAY TIME FROM Y
1
INPUT (PIN 15) TO Y
1
OUTPUT (PIN 4)
COLOR TRAP
Y-DL
DELAY
TIME
B / W
OFF
ON
295ns
375ns
OFF
OFF
OFF
ON
ON
295ns (4.43)
295ns (3.58 / M / N)
375ns (4.43)
375ns (3.58 / M / N)
PAL / NTSC
ON
OFF
OFF
ON
ON
295ns (4.43)
310ns (3.58 / M / N)
375ns (4.43)
390ns (3.58 / M / N)
SECAM
OFF
ON
495ns
575ns
READ MODE
CHARACTERISTIC EXPLAIN
PORSET
Power On Reset ; (0) : RESISTER PRESET, (1) : NORMAL
COLOR SYSTEM
Color system ; Receiving system (Judgement of ID ON / OFF)
(00) : B / W, (01) : SECAM, (10) : PAL, (11) : NTSC
X'tal
X'tal Mode ; (00) : , (01) : 4.43 (N), (10) : M, (11) : 3.58
V-FREQ
Vertical frequency ; (0) : 50Hz, (1) : 60Hz
V-STD
Vertical Standard ident ; (0) NON-STANDARD, (1) : STANDARD
H-LOCK
Horizontal Lock ident ; (0) : LOCK, (1) : UN-LOCK
N-DET
Noise ident result ; (0) : FEW, (1) : MANY
RGBOUT, Y
1
-IN, IQ-IN, Y
2
-IN,
H-OUT, VP-OUT
Self-ident result ; (0) : NG, (1) : OK
IK IN
IK input ident result ; (0) : NG, (1) : OK
TA1276AN
2002-03-29
18
I
2
C BUS TRANSMISSION / RECEIVING
SLAVE ADDRESS : 88H
A
6
A
5
A
4
A
3
A
2
A
1
A
0
W
/
R
1 0 0 0 1 0 0 0
/
1
Start / stop condition
Bit transmission
Confirmation response
TA1276AN
2002-03-29
19
DATA TRANSMIT FORMAT 1
DATA TRANSMIT FORMAT 2
DATA RECEIVE FORMAT
At the moment of the first acknowledge, the master transmitter becomes a master receiver and the slave
receiver becomes a slave transmitter. This acknowledge is still generated by the slave.
The STOP condition is generated by the master.
OPTIONAL DATA TRANSMIT FORMAT : AUTOMATIC INCREMENT MODE
In this transmission method, data is set on automatically incremented sub-address from the specified
sub-address.
Purchase of TOSHIBA I
2
C components conveys a license under the Phillips I
2
C Patent Rights to use these
components in an I
2
C system, provided that the system conforms to the I
2
C standard Specification as defined by
Phillips.
TA1276AN
2002-03-29
20
O Pin 23 H-out (Mode SW)
You can select the Double Scan Mode (External CP (Clamping Pulse) input Mode), by connecting Pin 23 to DEF
V
CC
. (The threshold of Pin 23 : 8.7V = DEF V
CC
-0.3V)
When Double Scan Mode, function of Pin 24 and 25 are changed.
l Normal Scan (Internal CP) Mode : Pin 23
H-out
The function of Pin 24 is curve correction input, that of Pin 25 is FBP (Flay Back Pulse) input.
The input signals of Y2, U / I and V / I inputs (Pin 53, 52 and 51), Analog OSD inputs (Pin 39, 38 and 37),
Analog RGB inputs (Pin 35, 34 and 33) are clamped of the internal CP based on the Y1 / Sync input (Pin 15).
l Double Scan (External CP input) Mode : Pin 23
H-out
The function of Pin 24 is EXT / BPP (Note) input, that of Pin 25 is H / V BLK (blanking) input.
The input signals of Y2, U / I and V / I inputs (Pin 53, 52 and 51), Analog OSD inputs (Pin 39, 38 and 37),
Analog RGB inputs (Pin 35, 34 and 33) are clamped of the external CP based on Pin 24.
In case of Double Scan Mode, bus "V-BLK" should be set (1) ; OFF.
TERMINAL FUNCTIONS
MODE
PIN No.
NORMAL SCAN MODE
(INTERNAL CP)
DOUBLE SCAN MODE
(EXTERNAL CP INPUT)
Pin 23
H-out
DEF V
CC
(9V)
Pin 24
Curve correction signal input
EXT CP / BPP input
Pin 25
FBP input (for AFC-2 detection, H BKL)
H / V BLK input (for RGB H / V BLK, AKB)
Pin 53, 52, 51
Pin 39, 38, 37
Pin 35, 34, 33
Clamping by internal CP
(based on Pin 15)
Clamping by external CP
(based on Pin 24)
Pin 15
Normal scan ; Y / Sync signal input
Pin 17
Normal scan ; HD pulse output (based on Pin 15)
Pin 31
Normal scan ; VP output (based on Pin 15)
Note: BPP : Black Peak detection stopping Pulse
MAXIMUM RATINGS
(Ta = 25C)
CHARACTERISTIC SYMBOL
RATING
UNIT
Supply Voltage
V
CCmax
12 V
Input Terminal Voltage
e
inmax
9
V
p-p
Power Dissipation
P
D
(Note 1)
1920
mW
Power Dissipation Reduction Rate
1 / ja 15.4
mW
/
C
Operating Temperature
T
opr
-20~65 C
Storage Temperature
T
stg
-55~150 C
Note 1: Refer to the figure below.
Fig. Power dissipation reduction against higher temperature
TA1276AN
2002-03-29
21
RECOMMENDED CONDITION IN USE
CHARACTERISTIC DESCRIPTION
MIN
TYP.
MAX
UNIT
Pin 5
4.3
5.0
5.3
Supply Voltage
Pin 22, Pin 40, Pin 46
8.7
9.0
9.3
V
Y
1
/ Sync, Y
2
Input Signal Level
White : 100%, including,
synchronization
(Synchronization : minus)
0.9 1.0 1.1 V
p-p
When TOF OFF (Burst level)
200
300
400
Chroma Input Signal Level
When TOF ON (Burst level)
100
200
300
mV
p-p
I / Q, U / V Input Level
B : C = 1 : 1
300 mV
p-p
When OSD input (DC coupling)
4.2
5.0 V
OSD / Analog RGB Input Level
When analog RGB input (AC coupling)
0.4
0.5
0.6
Analog RGB Input Level
0.4
0.5
0.6
V
p-p
FBP Width
11
12
13
s
FBP Input Current
1.5
RGB Output Current
1.0 2.0
H. Output Current
3.0 10.0
Pin 18 Input Current
0.5 1.0
mA
ELECTRICAL CHARACTERISTICS
(V
CC1
= 5V, V
CC2
/ V
CC3
/ DEF V
CC
= 9V, Ta = 25C, unless otherwise specified)
SUPPLY CURRENT
PIN NAME
SYMBOL
TEST
CIR-
CUIT
MIN
TYP.
MAX
UNIT
V
CC1
I
CC1
34.0
40.5
50.0
V
CC2
I
CC2
33.0
40.0
49.0
V
CC3
I
CC3
32.0
39.5
48.0
DEF V
CC
I
CC4
9.5 12.8
18.0
mA
TA1276AN
2002-03-29
22
TERMINAL VOLTAGE
PIN No.
PIN NAME
SYMBOL
TEST
CIR-
CUIT
MIN TYP. MAX
UNIT
3 SECAM
CONT.
V
3
3.7 4.0 4.3
4 Y
1
OUTPUT V
4
1.7 2.0 2.3
5
U / Q OUTPUT
V
5
2.2 2.5 2.8
6
V / I OUTPUT
V
6
2.2 2.5 2.8
8 4.43MHz
X'tal
V
8
3.7 4.0 4.3
9 M
PAL
X'tal
V
9
3.7 4.0 4.3
10 3.58MHz
X'tal
V
10
3.7 4.0 4.3
13 CHROMA
INPUT
V
13
2.2 2.5 2.8
15 Y
1
INPUT
V
15
2.7 3.0 3.3
16 V
SEP.
V
16
5.7 6.1 6.5
17 SYNC.
IN
V
17
2.60 2.85 3.10
21 32f
H
VCO
V
21
5.4 5.7 6.0
24 CURVE
CORRECTION
V
24
4.3 4.5 4.7
32 Ys2
V
32
0 0.1 0.3
33
ANALOG B INPUT
V
33
3.5 3.8 4.1
34 ANALOG
G
INPUT
V
34
3.5 3.8 4.1
35 ANALOG
R
INPUT
V
35
3.5 3.8 4.1
36 Ys1
V
36
0 0.1 0.3
37
OSD / ANALOG B INPUT
V
37
3.3 3.6 3.9
38
OSD / ANALOG G INPUT
V
38
3.3 3.6 3.9
39
OSD / ANALOG R INPUT
V
39
3.3 3.6 3.9
45 ABCL
INPUT
V
45
5.85 6.10 6.35
48 VM
OUTPUT
V
48
3.2 3.5 3.8
49 APL
DET
V
49
4.8 5.0 5.2
50 BLACK
PEAK
HOLD
V
50
4.2 4.4 4.6
51
V / I INPUT
V
51
4.8 5.0 5.2
52
U / Q INPUT
V
52
4.8 5.0 5.2
53 Y
2
INPUT
V
53
6.1 6.3 6.5
54 COLOR
LIMITER
V
54
6.6 6.9 7.2
V
TA1276AN
2002-03-29
23
AC CHARACTERISTIC
VIDEO SECTION
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
Y
2
Input Dynamic Range
DR
53
0.7 1.0 1.5 V
p-p
V
B
-5 0 5
Black Level Shift
V
B3
(Note V
1
)
35 42 49
mV
Black Stretching Amplifier Maximum
Gain
G
BS
(Note V
2
)
1.30 1.40 1.50
times
P
BST1
17 22 27
Black Stretching Start Point (1)
P
BST2
(Note V
3
)
51 56 61
P
BS1
0 4
Black Stretching Start Point (2)
P
BS2
(Note V
4
)
14 20 26
IRE
V
001
30 50 70
V
010
90
110
130
D.ABL Detection Voltage
V
100
(Note V
5
)
220 240 260
mV
S
DAMIN
0 0.04
D.ABL Sensitivity
S
DAMAX
(Note V
6
)
0.280 0.295 0.310
V / V
Black Level Correction
B
LC
(Note
V
7
)
6.5 7.0 7.5
P
0
95
100
105
Y Correction Point
P
100
2 5 8
IRE
G
01
-3.5
-2.5
-1.5
G
10
-5.8
-4.8
-3.8
Y Correction Gain
G
11
-7.5
-6.5
-5.5
dB
Black Peak Detection Level
V
BP
(Note
V
8
)
-15 0 15 mV
ADT100
0.9 1.0 1.1
DC Restoration Gain
ADT130
(Note V
9
)
1.25 1.35 1.45
times
V
DT0
-3 0 3
DC Restoration Start Point
V
DT48
(Note V
10
)
42 47 51
P
DTL60
59 63 67
P
DTL73
71 75 79
P
DTL87
83 87 91
DC Restoration Limit Point
P
DTL100
(Note V
11
)
95 99 103
%
F
APL01
3.3 4.2 5.1
F
APL10
2.6 3.3 4.0
F
APL11
2.0 2.5 3.0
F
APH01
11.2 14.5 17.4
F
APH10
9.5
11.9
14.3
Sharpness Peak Frequency
F
APH11
6.5 8.1 9.7
MHz
TA1276AN
2002-03-29
24
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
G
MAXL
11 14 17
G
MINL
-11
-8
-5
G
MAXH
11 14 17
Sharpness Control Range
G
MINH
(Note V
12
)
-9
-6
-3
G
CENL
7
10
13
Sharpness Control Center Gain
G
CENH
7 10 13
G
YL
-11
-8
-5
YNR Characteristic
G
YH
(Note V
13
)
-9
-6
-4
dB
T
SL1
100 120 140
T
SRTL
40 60 80
T
SH1
160 180 200
SRT Response to 2T Pulse Input
T
SRTH
(Note V
14
)
20 30 45
ns
F
VL
When
normal
mode
7
9
11
VSM Peak Frequency
F
VH
When
double
scan
mode
12.5 16 19.5
MHz
G
VL00
11 13 15
G
VL01
-7.5
-6
-4.5
G
VL10
-11
-9
-8
G
VL11
-
-35
-29
G
VH00
11 13 15
G
VH01
-7.5
-6
-5
G
VH10
-11
-9
-7
VSM Gain
G
VH11
(Note V
15
)
-
-32
-26
G
VRL
-4
-3
-2
G
VLL
-4
-3
-2
G
VRH
-4
-3
-2
VSM Parabolic Modulating Gain
G
VLH
(Note V
16
)
-4
-3
-2
dB
Threshold Voltage of VSM Muting
V
SR36
Pin 32, Pin 36
0.65
0.75
0.85
V
T
VML1
0
50
100
T
VML2
0
50
100
T
VML3
0
50
100
T
VML4
0
50
100
T
VMH1
0
50
100
T
VMH2
0
50
100
T
VMH3
0
50
100
Response Time for VSM High Speed
Muting
T
VMH4
(Note V
17
)
0 50 100
T
Y2RD
When
through
26 36 46
T
Y2RL
When
normal
mode
200 220 240
Between Y2 Input and R Output Delay
Time
T
Y2RH
When
double
scan
mode
85 100 115
ns
TA1276AN
2002-03-29
25
CHROMA SECTION
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
F
600
0.300 0.355 0.410
F
300
0.300 0.355 0.410
F
30
0.290 0.343 0.400
F
10
0.090 0.113 0.135
V
p-p
ACC Characteristic
A
(Note C
1
)
0.90 0.97 1.05
times
es+
2.0 3.0 4.0
Sub Color Control Characteristic
es-
-6.0
-4.3
-2.0
dB
3
0.70 1.20 1.70
4
0.70 1.20 1.70
APC Frequency Control Sensitivity
M
(Note C
2
)
0.70 1.20 1.70
Hz /
mV
f3
PH
250
500
2000
f3
HH
250
500
2000
f3
PL
-2000 -500
-250
f3
HL
-2000 -500
-250
f4
PH
250
500
2000
f4
HH
250
500
2000
f4
PL
-2000 -500
-250
f4
HL
-2000 -500
-250
fM
PH
250
500
2000
fM
HH
250
500
2000
fM
PL
-2000 -500
-250
APC Pull-In / Hold Range
fM
HL
(Note C
3
)
-2000 -500
-250
Hz
f
03
f
0
= 3.579545MHz
-200 0 200
f
04
f
0
= 4.433619MHz
-200 0 200
3.58MHz / 4.43MHz Free Run
Frequency
f
0M
f
0
= 3.575611MHz
-200 0 200
Hz
f
3c
When
3.58NTSC
0.54 0.78 0.96
f
4c
When
4.43PAL
0.52 0.72 0.90
f
sc
Output Amplitude
f
Mc
When
M-PAL
0.54 0.78 0.96
V
p-p
V
1a
When
3.58NTSC
2.80 3.20 3.50
f
sc
output DC Level
V
1b
Except
for
3.58NTSC
1.15 1.55 1.75
V
Q Axis
v
BN
290 355 415
IQ Color Difference Signal
Output Level
I Axis
v
RN
When B : C = 1 : 1 signal
290 355 415
mV
p-p
IQ Signal Demodulation Ratio
v
RN
/ v
BN
R-Y
/
B-Y
0.94 1.00 1.15
Q Axis
BN
29.0 33.0 37.0
IQ Demodulation Angle
I Axis
RN
118.0 123.0 126.0
IQ Demodulation Angle
Relative
BRN
I-Q
87.0 90.0 93.0
B-Y v
BP
290 355 415
UV Color Difference Signal
Output Level
R-Y v
RP
When B : C = 1 : 1 signal
290 355 415
mV
p-p
UV Signal Demodulation Ratio
v
RP
/ v
BP
R-Y
/
B-Y
0.94 1.00 1.10
B-Y
BP
-5.0 0.0 3.0
UV Demodulation Angle
R-Y
RP
85.0 90.0 93.0
UV Demodulation Angle
Relative
BRP
87.0 90.0 93.0
TA1276AN
2002-03-29
26
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
v
BNe
1.90 4.00
v
RNe
1.90 4.00
v
BPe
1.90 4.00
Residual Carrier Level
v
RPe
f
sc
level
1.90 4.00
v
BHNe
1.90 4.00
v
RHNe
1.90 4.00
v
BHPe
1.90 4.00
Residual Higher Harmonics Level
v
RHPe
f
sc
2 level
1.90 4.00
mV
p-p
V
BN
B-Y
output
1.80 2.15 2.50
3.58NTSC
V
RN
R-Y
output
1.90 2.24 2.60
V
BP
B-Y
output
1.80 2.15 2.50
Color Difference Output
DC Voltage
4.43NTSC
V
RP
R-Y
output
1.90 2.25 2.60
PAL V
DLP
8.00
8.30
8.60
NTSC V
DLS
4.00
4.30
4.60
1HDL Output DC Level
SECAM V
DLN
Output from pin
0.01 0.50 0.20
CP SCH
7.50
7.80
8.10
HD SCM
3.95
4.20
4.45
Sand Castle Pulse Height
VD SCL
2.25 2.50 2.75
SEN
3.70
4.00
4.30
SEP
3.70
4.00
4.30
SECAM Output DC Level
SES
(Note C
4
)
0.40 0.70 1.00
V
vN
CL
3.80
5.83
7.87
vN
CH
2.52
3.88
5.24
vN
BL
3.73
5.74
7.75
NTSC Ident Sensitivity
vN
BH
(Note C
5
)
2.44 3.75 5.06
vP
CL
4.80
6.83
8.87
vP
CH
3.52
4.88
6.24
vP
BL
4.73
6.74
8.75
PAL Ident Sensitivity
vP
BH
(Note C
6
)
3.44 4.75 6.06
mV
p-p
GF
H3
20.7
22.7
24.7
GF
C3
20.2
22.2
24.2
GF
L3
18.2
20.2
22.2
GF
H4
19.1
21.1
23.1
GF
C4
19.4
21.4
23.4
TOF Characteristic
GF
L4
(Note C
7
)
18.8 20.8 22.8
Through GYs
-1.21 0.00 1.06
Normal GYd
-1.21 0.00 1.06
Y
1
In~Y
1
Out AC Gain
Double
S
GYt
20
og
l
(output level / input
level)
-1.21 0.00 1.06
Y
1
In~Y
1
Out Frequency Bandwidth
Gf
Y1
-4.0
-1.0 0.0
3.58 GT
C3
-25
-20
Trap Filter Gain
4.43 GT
C4
-25
-20
dB
3.58NTSC VD3 1.30
1.60
Y
1
Input Dynamic Range
4.43PAL VD4
1.30 1.60
Vp-p
TA1276AN
2002-03-29
27
TEXT SECTION
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
G
R
2.95 3.30 3.70
G
G
2.95 3.30 3.70
AC Gain
G
B
(Note T
1
)
2.95 3.30 3.70
times
G
G / R
0.94 1.00 1.06
AC Gain Axial Difference
G
B / R
0.94 1.00 1.06
R G
fR
25
30
G G
fG
25
30
Output Bandwidth
B G
fB
at -3dB point
25 30
MHz
v
u
MAX
0.59 0.66 0.74
v
u
CNT
0.34 0.39 0.44
v
u
MIN
0.09 0.11 0.13
V
p-p
Uni-Color Control Characteristic
v
u
(Note T
2
)
14 15 16 dB
VbrMAX
4.1 4.4 4.7
VbrCNT
3.25 3.55 3.85
Brightness Control Characteristic
VbrMIN
(Note T
3
)
2.4 2.7 3.0
V
Brightness Control Sensitivity
Gbr
(Note
T
4
)
5.7 6.6 7.5 mV
Vwps1
2.75 2.95 3.15
White Peak Slice Level
Vwps2
(Note T
5
)
2.30 2.50 2.70
V
p-p
Black Peak Slice Level
V
BPS
(Note
T
6
)
2.10 2.26 2.42
V
R N
41
-58
-49
G N
42
-58
-49
Signal-to -Noise Ratio of
RGB Output
B N
43
-58
-49
dB
G
HT1
0.45 0.50 0.55
Half-Tone Gain
G
HT2
(Note T
7
)
0.45 0.50 0.55
times
Half-Tone ON Voltage
V
HT
Pin
47
0.65 0.85 1.05
R VVR
0.3 0.8 1.3
G VVG
0.3 0.8 1.3
V-BLK Pulse Output Level
B VVB
0.3 0.8 1.3
R VHR
0.3 0.8 1.3
G VHG
0.3 0.8 1.3
H-BLK Pulse Output Level
B VHB
0.3 0.8 1.3
V
t
dON
0.1 0.3
Blanking Pulse Delay Time
t
dOFF
(Note T
8
)
0.15 0.3
s
V
SU+
2.0 2.5 3.0
Sub-Contrast Control Range
V
SU-
-3.8
-3.3
-2.8
dB
V
#41
2.25 2.50 2.75
V
#42
2.25 2.50 2.75
RGB Output Voltage
V
#43
(Note T
9
)
2.25 2.50 2.75
V
RGB Output Voltage Triaxial
Difference
V
out
0 150
mV
CUT+
0.45 0.50 0.55
Cut-Off Voltage Control Range
CUT-
(Note T
10
)
0.45 0.50 0.55
V
TA1276AN
2002-03-29
28
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
DRG+
2.35 2.85 3.35
DRG-
-5.75 -5.00 -4.25
DRB+
2.35 2.85 3.35
DRB-
-5.75 -5.00 -4.25
DRR+
2.35 2.85 3.35
Drive Adjustment Control Range
DRR-
(Note T
11
)
-5.75 -5.00 -4.25
dB
MURD
2.1
2.26
2.42
Output Voltage of Muting
MUGD
(Note T
12
)
2.1 2.26 2.42
BB
R
2.1
2.26
2.42
BB
G
2.1
2.26
2.42
V
Output Voltage of Blue Back
BB
B
(Note T
13
)
1.15 1.30 1.45
V
p-p
ACL1
-5
-3
-1
ACL Characteristic
ACL2
(Note T
14
)
-14.5
-13
-11.5
dB
ABL
P1
0.12 0.17 0.22
ABL
P2
0.04 0.09 0.14
ABL
P3
-0.05 0.00 0.05
ABL
P4
-0.15 -0.10 -0.05
ABL
P5
-0.24 -0.19 -0.14
ABL
P6
-0.34 -0.29 -0.24
ABL
P7
-0.43 -0.38 -0.33
ABL Point
ABL
P8
(Note T
15
)
-0.50 -0.45 -0.40
ABL
G1
-0.04 0.00 0.00
ABL
G2
-0.09 -0.04 0.00
ABL
G3
-0.24 -0.19 -0.14
ABL
G4
-0.40 -0.35 -0.30
ABL
G5
-0.56 -0.51 -0.46
ABL
G6
-0.73 -0.68 -0.63
ABL
G7
-0.90 -0.85 -0.80
ABL Gain
ABL
G8
(Note T
16
)
-0.10 -0.92 -0.87
V
V43
R
2.25
2.5
2.75
V42
R
0.3 0.8 1.3
V41
R
0.3 0.8 1.3
V43
G
0.3 0.8 1.3
V42
G
2.25
2.5
2.75
V41
G
0.3 0.8 1.3
V43
B
0.3 0.8 1.3
V42
B
0.3 0.8 1.3
RGB Output Mode
V41
B
(Note T
17
)
2.25 2.5 2.75
V
ACBR
1
ACBG
2
ACBB
3
H
V
ACBR
0.1
0.125
0.15
V
ACBG
0.1
0.125
0.15
ACB Pulse Phase / Amplitude
V
ACBB
(Note T
18
)
0.1 0.125 0.15
V
p-p
TA1276AN
2002-03-29
29
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
IKR
1.45 1.65 1.85
IKG
1.45 1.65 1.85
IK Input Level
IKB
Pin 56 input level
1.45 1.65 1.85
V
1R
40 50 60
2R
60 70 80
IRE
1R
0.75 1.50 2.25
2R
-0.75 0.00 0.75
3R
-4.05 -3.30 -2.55
dB
1G
40 50 60
2G
60 70 80
IRE
1G
0.75 1.50 2.25
2G
-0.75 0.00 0.75
3G
-4.05 -3.30 -2.55
dB
1B
40 50 60
2B
60 70 80
IRE
1B
0.75 1.50 2.25
2B
-0.75 0.00 0.75
RGB Correction Characteristic
3B
(Note T
19
)
-4.05 -3.30 -2.55
dB
G
TXR
4.0 4.5 5.0
G
TXG
4.0 4.5 5.0
Analog RGB Gain
G
TXB
(Note T
20
)
4.0 4.5 5.0
times
G
TXG / R
0.94 1.00 1.06
Analog RGB Gain Triaxial Difference
G
TXB / R
0.94 1.00 1.06
R Gf
TXR
25
30
G Gf
TXG
25
30
Analog RGB Bandwidth
B Gf
TXB
at -3dB point
25 30
dB
R DR35
0.6 1.0 1.5
G DR34
0.6 1.0 1.5
Analog RGB Input Dynamic
Range
B DR33
0.6 1.0 1.5
VTXWPSR
2.30 2.55 2.80
VTXWPSG
2.30 2.55 2.80
Analog RGB White Peak Slice Level
VTXWPSB
(Note T
21
)
2.30 2.55 2.80
V
p-p
V
BPSR
2.10 2.26 2.42
V
BPSG
2.10 2.26 2.42
Analog RGB Black Peak Limiter Level
V
BPSB
(Note T
22
)
2.10 2.26 2.42
V
TA1276AN
2002-03-29
30
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
vuTXR
MAX
0.8 0.9 1.0
vuTXG
MAX
0.8 0.9 1.0
vuTXB
MAX
0.8 0.9 1.0
vuTXR
CNT
0.45 0.52 0.59
vuTXG
CNT
0.45 0.52 0.59
vuTXB
CNT
0.45 0.52 0.59
vuTXR
MIN
0.10 0.12 0.14
vuTXG
MIN
0.10 0.12 0.14
vuTXB
MIN
0.10 0.12 0.14
V
p-p
vuTXR
15.5 17.0 18.5
vuTXG
15.5 17.0 18.5
RGB Contrast Control Characteristic
vuTXB
(Note T
23
)
15.5 17.0 18.5
dB
Vbr
TXMAX
3.3 3.5 3.7
Vbr
TXCNT
2.85 3.05 3.25
Analog RGB Brightness Control
Characteristic
Vbr
TXMIN
(Note T
24
)
2.45 2.65 2.85
V
Analog RGB Brightness Control
Sensitivity
GbrTX
(Note
T
25
)
6.0 6.8 7.6 mV
Analog RGB Mode ON Voltage
VTXON
Pin
32
0.65 0.85 1.05
V
TXACL1
-2
-1
-0.05
TXACL2
-6.5
-4.5
-2.5
TXACL3
-6.5
-4.5
-2.5
Text ACL Characteristic
TXACL4
(Note T
26
)
-16.5 -15.0 -13.5
dB
GOSD
R
4.1 4.8 5.4
GOSD
G
4.1 4.8 5.4
Analog OSD Gain
GOSD
B
(Note T
27
)
4.1 4.8 5.4
times
GOSD
G / R
G / R
0.94
1.00
1.06
Analog OSD Gain Triaxial Difference
GOSD
B / R
B
/
R
0.94 1.00 1.06
GfOSD
R
25
30
GfOSD
G
25
30
Analog OSD Band Width
GfOSD
B
at -3dB point
25 30
dB
V
OSD1R
1.80 2.00 2.20
V
OSD1G
1.80 2.00 2.20
V
OSD1B
1.80 2.00 2.20
V
OSD2R
1.45 1.65 1.85
V
OSD2G
1.45 1.65 1.85
Analog OSD White Peak Slice Level
V
OSD2B
(Note T
28
)
1.45 1.65 1.85
V
p-p
TA1276AN
2002-03-29
31
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
V
OSD3R
2.10 2.26 2.42
V
OSD3G
2.10 2.26 2.42
Analog OSD Black Peak Limiter Level
V
OSD3B
(Note T
29
)
2.10 2.26 2.42
V
OSDDCR
2.3 2.5 2.7
V
OSDDCG
2.3 2.5 2.7
Analog OSD Output DC Voltage
V
OSDDCB
(Note T
30
)
2.3 2.5 2.7
Analog OSD Mode ON Voltage
V
OSDON
Pin
36
2.05 2.30 2.55
V
OSDACL1
0
OSDACL2
0
OSDACL3
-6.5
-4.5
-2.5
OSD ACL Characteristic
OSDACL4
(Note T
31
)
-16.5
-15
-13.5
Crosstalk of RGB Inputs
GCT
-50
-45
dB
COLOR DIFFERENCE SECTION
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
vuCY
MAX
1.5
1.8
2.13
vuCY
CNT
0.85
1.0
1.2
vuCY
MIN
0.24
0.29
0.355
V
p-p
Color Difference Signal Contrast
Control Characteristic
vuCY
(Note A
1
)
14.0 15.5 17.0
dB
vuCY
MAX
1.18
1.4
1.68
vuCY
CNT
0.73 0.86 1.04
vuCY
MIN
0.076 0.090 0.108
V
p-p
vuCY+
3 4 5
Color Control Characteristic
vuCY-
(Note A
2
)
-20
-18
-16
dB
00
R
90
88 90 92
01
R
93
90 92 94
10
R
96
92 94 96
R - Y Relative Phase
11
112
109 111 113
00 vR
56 / vB
0.55 0.58 0.61
01 vR
68 / vB
0.67
0.7
0.73
10 vR
76 / vB
0.78 0.81 0.84
R - Y Relative Amplitude
11 vR
84 / vB
0.85 0.88 0.91
times
00
G
236
234 237 240
01
G
240
238 241 244
10
G
244
242 245 248
G - Y Relative Phase
11
G
253
251 254 257
00 vG
30 / vB
0.275 0.300 0.325
01 vG
325 / vB
0.300 0.325 0.350
10 vG
35 / vB
0.325 0.350 0.375
G - Y Relative Amplitude
11 Gv
375 / vB
0.350 0.375 0.400
R GHT
RY
0.47 0.50 0.53
G GHT
GY
0.47 0.50 0.53
Color Difference Half-Tone
Gain
B GHT
BY
(Note A
3
)
0.47 0.50 0.53
times
TA1276AN
2002-03-29
32
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
V1
0.09 0.23 0.37
V2
0.23 0.37 0.51
V3
0.38 0.52 0.66
V
p-p
Color Characteristic
(Note A
4
)
0.65 0.75 0.85
CLT0
1.45 1.65 1.85
Color Limiter Characteristic
CLT1
(Note A
5
)
1.8 2.0 2.2
V
p-p
High Bright Color Gain
HBC1
(Note
A
6
)
0.02 0.04 0.06
times
TR
MAX
R
29 33 37
Max
TB
MAX
B
29 33 37
TR
MIN
R
-37
-33
-29
Base Band Tint Control
Characteristic
Min
TB
MIN
B
-37
-33
-29
Flesh Color Characteristic
Fa33
(Note
A
7
)
0.38 0.48 0.58
DR
R-Y
0.9 1.2 1.5
Color Difference Signal Input Dynamic
Range
DR
B-Y
0.9 1.2 1.5
V
p-p
GCD0
15.0 18.0 21.0
Color Detail Emphasis Characteristic
GCD1
(Note A
8
)
-15.0 0.0
V
p-p
IU
31 33 35
Phase Shift at IQUV Conversion
QV
31 33 35
TA1276AN
2002-03-29
33
DEF SECTION
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
32f
H
VCO Oscillation Start Voltage
V
VCO
3.1 3.4 3.7
Horizontal Output Start Voltage
VH
ON23
DEF V
CC
Voltage
4.7 5.0 5.3
V
Horizontal Output Duty Cycle
T
23
Pin
23
38.5 40.5 42.5
%
f
H050
Vertical freq. ; Auto
15475 15625 15775
Horizontal Output Free-Run
Frequency
f
H060
Vertical freq. ; 60Hz
15585 15734 15885
f
HMIN
14700 15000 15300
Variable Range of Horizontal Output
Frequency
f
HMAX
Variable pin 20 voltage
16500 16700 16900
Hz
Horizontal Output Frequency Control
Sensitivity
H
(Note
D
1
)
180 230 280
Hz /
0.1V
High Level
V
H23
2.7 3.0 3.3
Horizontal Output
Voltage
Low Level
V
L23
Pin 23
0.15 0.30
V
SPH1
11.1 11.3 11.5
SPH2
0.35 0.45 0.55
Horizontal Output Phase
SPH3
(Note D
2
)
0.11 0.21 0.31
Curve Correction Characteristic
H
24
(Note
D
3
)
2.3 2.5 2.7
Variable Range of Horizontal Picture
Position
H
SFT
(Note
D
4
)
5.7 6.2 6.7
Clamp Pulse Start Phase
CP
S
2.8 2.9 3.1
Clamp Pulse Width
CP
W
(Note D
5
)
1.0 1.2 1.4
V
Threshold of External Clamp Pulse
Input
CP
V30
Pin
24
3.3 3.6 3.9
Threshold of External Clamp Mode
Switching
CPM
V23
Pin
23
8.5 8.7 8.9
V
BPv17
Pin 17, at normal scan
0.9
1.1
1.3
Threshold of External Black Peak
Hold Stopping Pulse
BPv24
Pin 24, at doble scan
0.9
1.1
1.3
SPC Gate Pulse Start Phase
GP
S
1.9 2.1 2.3
SPC Gate Pulse Width
GP
W
(Note D
6
)
1.9 2.1 2.3
SPC Horizontal Blanking Pulse Start
Phase
HP
S
4.6 4.8 5.0
HP
W50
9.9
10.4
10.9
SPC Horizontal Blanking Pulse Pulse
Width
HP
W60
(Note D
7
)
10.5 11.0 11.5
s
TA1276AN
2002-03-29
34
CHARACTERISTIC SYMBOL
TEST
CIR-
CUIT
TEST CONDITION
MIN
TYP.
MAX
UNIT
HD Output Start Phase
HD
S
0.7 0.9 1.1
HD Output Pulse Width
HD
W
0.7 0.9 1.1
s
HD Output Voltage
VH
D
(Note D
8
)
4.5 4.8 5.1
Threshold of AFC-2 Detection
V
HBLK1
Pin
25,
at
normal scan
3.2 3.5 3.8
Threshold of Horizontal Timing
V
HBLK2
Pin
25,
at
doble scan
3.2 3.5 3.8
Threshold of Blanking Pulse
V
HBLK3
Pin
25,
H / V blanking
0.8 1.1 1.4
V
Vertical Blanking Pulse Start Phase
VP
50S1
46 48 50 s
Vertical Blanking Pulse Stop Phase
VP
50S2
(Note D
9
)
23 H
Vertical Blanking Pulse Start Phase
VP
60S1
46 48 50 s
Vertical Blanking Pulse Stop Phase
VP
60S2
(Note D
10
)
21 H
External Blanking Threshold Current
ABLK
Pin 31 input current
150
300
400
A
Vertical Output Start Voltage
V
ON
DEF
V
CC
voltage
4.7 5.0 5.3 V
f
V050
Vertical freq. ; Auto
40
45
50
Vertical Output
Free-Run Frequency
f
V060
Vertical freq. ; 60Hz
48
53
58
Hz
V
VH
4.7 5.0 5.3
Vertical Output Voltage
V
VL
Pin 31
0.0 0.3
V
f
PL1
224.5
Vertical Pull-In Range (1)
f
PH1
353
f
PL2
224.5
Vertical Pull-In Range (2)
f
PH2
297
Vertical Pull-In Range (3)
f
50P
288.5
Vertical Pull-In Range (4)
f
60P
(Note D
11
)
288
H
VR
50S1
44 46 48
VG
50S1
44 46 48
RGB Vertical Blanking Pulse Start
Phase (1)
VB
50S1
44 46 48
s
VR
50S2
19
VG
50S2
19
RGB Vertical Blanking Pulse Stop
Phase (1)
VB
50S2
(Note D
12
)
19
H
VR
60S1
44 46 48
VG
60S1
44 46 48
RGB Vertical Blanking Pulse Start
Phase (2)
VB
60S1
44 46 48
s
VR
60S2
17
VG
60S2
17
RGB Vertical Blanking Pulse Stop
Phase (2)
VB
60S2
(Note D
13
)
17
H
T
A
1276AN
200
2-
03-
2
9
35
TE
S
T
CONDITIONS
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
i
deo
B
l
ock
V
i
deo bl
o
c
k
c
o
m
m
on
t
e
s
t
c
ondi
t
i
o
n
s
1) S
W
13
: A,
S
W
18
: O
N
, S
W
20
: O
N
, S
W
23
: O
N
, S
W
33
: A,
S
W
34
: A,
S
W
35
: A,
S
W
37
: A,
S
W
38
: A,
S
W
39
: A,
S
W
46
:
ON,
S
W
51
: B,
S
W
52
: B
2)
For t
e
s
t
i
n
g
,
s
ee t
h
e
pi
c
t
ure
s
harpnes
s A
C
c
hara
c
t
e
ri
s
t
i
c
s
t
e
st
i
ng
c
i
rcui
t
di
agra
m
.
A
f
t
e
r usi
ng t
h
e
pres
et
val
ues
t
o
t
r
ansm
i
t
t
he B
U
S
c
o
n
t
rol
dat
a
,
s
e
t
A
C
B
operat
i
on s
w
i
t
c
h
i
ng t
o
A
C
B
o
f
f
(01).
3)
E
n
s
u
re
t
he
c
o
m
p
o
s
i
t
e
si
gnal
i
s
al
w
a
ys
i
nput
t
o
pi
n 15 (
Y
1
/ s
y
n
c
i
n
p
u
t).
V
1
B
l
ack
De
t
e
ct
Level
S
h
i
f
t
C
OFF
C
C
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2)
Connec
t
pi
n
53
t
o
an ex
t
e
rnal
power s
uppl
y (P
S
)
and ob
s
e
rve pi
n 50
.
3)
Turn t
he
Y
m
u
t
e
o
f
f
(1),
t
u
rn t
h
e
bl
ac
k st
ret
c
h gai
n
of
f
(1),
and
s
e
t
t
h
e bl
ack
de
t
e
ct
l
e
vel
t
o
0
I
RE
(1).
4)
I
n
c
r
eas
e
t
h
e
P
S
vol
t
age
f
r
o
m
5V
a
nd
m
eas
ure
t
he DC d
i
f
f
eren
t
i
al
V
B
of
pi
n
49 w
here t
he pi
c
t
ure peri
o
d
(hi
gh peri
od)
of
pi
n 50
goes l
o
w
.
5)
S
e
t
t
he bl
a
c
k
det
e
c
t
l
e
vel
t
o
3
I
RE
(
0
).
6)
A
s
i
n
4),
m
e
a
s
ure
t
he DC di
f
f
erent
i
a
l
V
B
3 of
pi
n 49
.
V
2
Bla
c
k Str
e
tch
A
m
p
M
a
x
i
m
u
m
Gain
A
A
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2)
S
e
t
S
W
50
t
o
A
(
m
ax
i
m
u
m
gai
n) a
nd i
nput
a
500k
Hz
s
i
ne w
a
ve t
o
T
P
53.
3)
Us
e pi
n 53
t
o
adj
ust
t
he
s
i
gnal
a
m
pl
i
t
ude
t
o
0.
1
V
p-p.
4)
Turn t
he
Y
m
u
t
e
o
f
f
(1),
t
u
rn t
h
e
bl
ac
k st
ret
c
h gai
n
of
f
(1),
and
m
e
a
s
ure t
he a
m
pl
i
t
ude
V
A
of
pi
n 49
.
5)
Turn
t
he
bl
a
c
k
s
t
ret
c
h
gai
n
on
(0) and m
eas
ure t
he
a
m
p
l
i
t
ude
V
B
o
f
pi
n
49.
6) Cal
c
ul
at
e
t
he
G
BS
u
s
i
ng t
he f
o
l
l
o
w
i
ng
f
o
r
m
ul
a
.
G
BS
=
V
B
V
A
T
A
1276AN
200
2-
03-
2
9
36
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/ D
E
F
V
CC
=
9V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
3
Bla
c
k Str
e
tch
S
t
a
r
t Po
in
t
(
1
)
C
O
F
F
A
C
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2) S
e
t
S
W
50
t
o
A
(
m
ax
i
m
u
m
gai
n),
t
u
rn t
he
Y
m
u
t
e
o
f
f
(1),
and
t
u
rn t
h
e
bl
ac
k
s
t
ret
c
h gai
n
of
f
.
3)
Connec
t
pi
n
53
t
o
an ex
t
e
rnal
power s
uppl
y (P
S
)
,
i
n
c
r
ea
s
e
t
he vol
t
ag
e f
r
o
m
V
53
,
and p
l
ot
t
he re
s
u
l
t
i
n
g
c
hange i
n
vol
t
age S
1
of
pi
n 49
.
4)
Ne
x
t
,
t
u
rn
t
he bl
a
c
k
s
t
ret
c
h ga
i
n
o
n
(0),
s
e
t
t
he bl
a
c
k
s
t
ret
c
h poi
n
t
1
t
o
t
he
m
i
ni
m
u
m
(000),
i
n
c
r
ea
s
e
t
he P
S
vol
t
age
fr
o
m
V
53
as
i
n
3),
and pl
ot
t
h
e
resul
t
i
ng
c
hange i
n
vol
t
age
S
2
of
p
i
n
49.
5)
S
e
t
t
he bl
a
c
k
s
t
ret
c
h poi
n
t
1
t
o
t
h
e
m
a
x
i
m
u
m
(111),
i
n
c
r
eas
e
t
h
e
P
S
vol
t
age f
r
o
m
V
53
as i
n
3)
,
and pl
o
t
t
he
c
hange i
n
vol
t
age S
3
of
pi
n 49
.
6)
Us
e t
h
e
di
agra
m
bel
ow
t
o
c
a
l
c
ul
a
t
e t
he i
n
t
e
rs
e
c
t
i
on
s
V
BST1
and V
BS
T2
of
S
1
, S
2
,
and
S
3
.
Us
e
t
he
f
o
l
l
o
w
i
ng f
o
rm
ul
a
s
t
o
c
a
l
c
ul
a
t
e P
BST1
and
P
BS
T2
.
P
BST1
[(
IR
E)
]
=
(
(
V
BST1
[V
]
-
V
49
[
V
]
1
.
4
[
V
]
)
100 [
(
I
R
E
)
]
P
BST2
[(
IR
E)
]
=
(
(
V
BST2
[V
]
-
V
49
[
V
]
1
.
4
[
V
]
)
100 [
(
I
R
E
)
]
T
A
1276AN
200
2-
03-
2
9
37
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
I
T
CH
I
N
G M
O
DE
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
4
Bla
c
k Str
e
tch
S
t
a
r
t Po
in
t
(
2
)
C
O
N
A
A
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2)
Turn t
he bl
a
c
k
s
t
ret
c
h gai
n
of
f
(1),
t
u
rn t
he
Y
m
u
t
e
of
f
(1),
and
t
u
rn
t
h
e vi
deo
m
u
t
e
of
f
(0).
I
nput
t
he TG7
l
i
neari
t
y
t
o
TP
53
,
u
s
e pi
n 53
t
o
adj
u
s
t
t
he a
m
pl
i
t
ude a
s
i
n
t
he di
agra
m
,
s
e
t
uni
c
o
l
o
r
t
o
t
he
c
ent
er
(1000000),
and
m
eas
ure
t
he re
s
u
l
t
i
ng a
m
pl
i
t
ude (V
43
) of
pi
n 43 (R
O
U
T).
3)
Turn t
he bl
a
c
k
s
t
ret
c
h gai
n
on (0),
c
onnect
pi
n
49 t
o
an ex
t
e
rnal
power s
uppl
y (P
S
)
,
and
m
e
a
s
ure pi
n 4
3
(R OUT).
4)
W
h
en t
he
bl
a
c
k
s
t
ret
c
h s
t
ar
t
poi
n
t
2
dat
a
are
a
t
t
he m
i
ni
m
u
m
(000),
cal
c
ul
at
e
as
i
n
t
he
di
agra
m
t
h
e
bl
ack
s
t
ret
c
h
st
art
poi
nt
di
f
f
e
rent
i
a
l
V
000
f
o
r w
hen P
i
s
V
49
(A
P
L
0
%
) and
f
o
r w
hen P
i
s
V
49
+1.
0
[
V
]
(A
P
L
100%
)
.
5)
Ne
x
t
,
w
hen t
he bl
ack st
ret
c
h
s
t
art
poi
nt
2 da
t
a
are
m
a
x
i
m
u
m
(111),
cal
c
ul
at
e
di
f
f
erent
i
a
l
V
111
i
n
t
he
sam
e
w
a
y.
6)
Cal
c
ul
at
e
t
he
f
o
l
l
o
w
i
ng f
o
r
m
ul
a
s
.
P
BS1
= (
V
000
/
V
43
)100
P
BS2
= (
V
111
/
V
43
)100
T
A
1276AN
200
2-
03-
2
9
38
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
I
T
CH
I
N
G M
O
DE
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
5
D.
A
B
L
Det
e
c
t
V
o
l
t
age
C
OFF
A
C
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2)
Turn t
he
Y
m
u
t
e
o
f
f
(1),
s
e
t
t
h
e
A
B
L
s
e
n
s
i
t
i
v
i
t
y t
o
t
h
e
m
i
ni
m
u
m
(000),
s
e
t
t
h
e
D.
A
B
L
s
e
n
s
i
t
i
v
i
t
y
t
o
t
h
e
m
a
x
i
m
u
m
(111),
and t
u
rn t
h
e
bl
ack
st
ret
c
h
gai
n o
f
f
(1).
3)
Connec
t
pi
n
45
t
o
an ex
t
e
rnal
power s
uppl
y (P
S
)
and de
c
r
eas
e
t
he v
o
l
t
age f
r
o
m
6.
5
V
.
4)
Repeat
3) w
hen t
he D.
A
B
L de
t
e
ct
vol
t
age bus dat
a are 000
,
001,
01
0,
and 100 re
s
pect
i
vel
y
.
M
eas
ure
P
S
vol
t
ages
V
000
, V
001
, V
010
,
and V
100
w
hen t
he pi
ct
ure peri
od of
pi
n 49
c
hange
s
t
o
l
o
w
.
(E
nl
arge
t
he range be
f
o
re
m
eas
uri
n
g
.
)
5)
Ne
x
t
,
c
a
l
c
ul
a
t
e t
he
V
001
,
V
010
,
and
V
100
vol
t
age di
f
f
e
rent
i
a
l
s
f
r
o
m
V
000
and V
001
, V
010
,
and V
100
.
V
***
=
V
000
-
V
001
(V
01
0
, V
100
)
T
A
1276AN
200
2-
03-
2
9
39
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
I
T
CH
I
N
G M
O
DE
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
6
D.
A
B
L
S
e
n
s
i
t
i
v
i
t
y
C
ON
A
C
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2)
Turn t
he
Y
m
u
t
e
o
f
f
(1),
t
u
rn t
h
e
bl
ac
k st
ret
c
h gai
n
of
f
(1),
and
c
onne
c
t
pi
n 45
t
o
an
ex
t
e
rnal
pow
e
r
s
uppl
y.
3)
W
i
t
h
t
he D.
A
B
L
det
e
c
t
vol
t
age at
t
he
m
i
ni
m
u
m
(000),
pl
ot
t
h
e
vol
t
ag
e c
haract
e
ri
st
i
c
s of
pi
n 49
i
n
rel
a
t
i
on t
o
t
he vol
t
age
of
pi
n 45
w
hen D.
A
B
L
s
e
n
s
i
t
i
v
i
t
y i
s
at
t
he
m
i
ni
m
u
m
(000) and
t
he
m
a
x
i
m
u
m
(111).
4)
From
t
h
e
di
agra
m
,
c
a
l
c
ul
a
t
e
t
he
S
DA
M
I
N
and S
DAM
A
X
gradi
ent
s
.
S
DAM
I
N
, S
DA
M
A
X
=
Y /
X
V
7
B
l
ack
Level
Co
m
pens
a
t
i
on
OFF
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2)
Turn t
he
Y
m
u
t
e
o
f
f
(1),
t
u
rn t
h
e
bl
ac
k st
ret
c
h gai
n
of
f
(1),
and
obs
er
ve pi
n 49.
3)
Turn t
he bl
a
c
k
l
e
vel
c
o
m
pen
s
a
t
i
on on (1),
m
eas
ure
V
1
[
m
V
]
,
and
c
a
l
c
ul
at
e
t
h
e
f
o
l
l
o
w
i
ng f
o
r
m
ul
a
.
B
LC
= (
V
1
/
1.
410
3
)100 (I
RE
)
T
A
1276AN
200
2-
03-
2
9
40
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
I
T
CH
I
N
G M
O
DE
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
8
B
l
ack
P
e
a
k
Det
e
c
t
Level
C
ON
C
C
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2)
M
eas
ure t
he DC vol
t
age
V
49
of
pi
n 49.
3)
Connec
t
pi
n
53
t
o
an ex
t
e
rnal
power s
uppl
y (P
S
)
.
4)
Turn t
he
Y
m
u
t
e
o
f
f
(1),
t
he bl
a
c
k
s
t
ret
c
h gai
n
of
f
(1),
and
s
e
t
t
he bl
a
c
k det
e
c
t
l
e
vel
s
h
i
f
t
t
o
0I
R
E
(1).
5)
I
n
c
r
eas
e
t
h
e
P
S
f
r
o
m
0
V
and
m
e
a
s
ure t
h
e
vol
t
age
V
BP
o
f
pi
n
49 w
here t
he DC l
e
vel
of
t
he pi
c
t
ure
peri
od of
pi
n
50
sh
if
ts
fr
o
m
h
i
g
h
to
lo
w
.
6) Cal
c
ul
at
e
V
BP
f
r
o
m
t
he f
o
l
l
o
w
i
ng
f
o
r
m
ul
a.
V
BP
=
V
BP
-
V
49
T
A
1276AN
200
2-
03-
2
9
41
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
I
T
CH
I
N
G M
O
DE
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
9
DC Transm
i
ss
i
on Ra
t
e
Com
pen
s
a
t
i
on
Gai
n
C ON
B
C
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2)
Turn t
he
Y
m
u
t
e
o
f
f
(1),
t
u
rn t
h
e
vi
deo
m
u
t
e
of
f
(0),
and
c
onne
c
t
pi
n
53 t
o
an
ex
t
e
rnal
power s
uppl
y (P
S
)
.
3)
M
eas
ure t
he a
m
pl
i
t
ude
V
43
of
pi
n
43,
s
e
t
t
he
P
S
t
o
V
53
+0.
7
V
,
and a
d
j
u
s
t
V
43
to
0
.
7
V
p-p
us
i
ng uni
c
o
l
o
r
.
4)
W
i
t
h
t
he
DC t
r
ansm
i
ss
i
on
ra
t
e
c
o
m
pen
s
a
t
i
on
gai
n
a
t
t
he m
i
ni
m
u
m
(
000),
m
e
a
s
ure
V
1
and
V
2
a
s
i
n
t
he di
agra
m
bel
ow
.
5)
Ne
x
t
,
w
i
t
h
t
h
e
DC t
r
an
sm
i
s
s
i
on rat
e
c
o
m
pen
s
a
t
i
on gai
n a
t
t
he
m
a
x
i
m
u
m
(111),
m
eas
ure
V
3
and
V
4
.
6)
Cal
c
ul
at
e
A
D
T100 and
A
D
T130
f
r
om
t
h
e
f
o
l
l
o
w
i
ng f
o
r
m
u
l
a.
A
D
T100 = (
V
2
[V
]
-
V
1
[V
]
)
0
.
1
[V
]
A
D
T130 = (
V
4
[V
]
-
V
3
[V
]
)
0
.
1
[V
]
T
A
1276AN
200
2-
03-
2
9
42
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
I
T
CH
I
N
G M
O
DE
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
10
DC Transm
i
ss
i
on
Com
pen
s
a
t
i
on
S
t
art
P
o
i
n
t
C ON
B
C
1)
Repeat
st
eps 1) and 2) o
f
V
21
.
2)
M
eas
ure t
he a
m
pl
i
t
ude
V
43
of
pi
n
43,
s
e
t
t
he
P
S
t
o
V
53
+0.
7
V
,
and a
d
j
u
s
t
V
43
t
o
around 1.
0V
p-p
us
i
n
g
uni
c
o
l
o
r.
3)
W
i
t
h
t
he
DC t
r
ansm
i
ss
i
on c
o
m
pen
s
a
t
i
on
rat
e
a
t
t
he m
i
ni
m
u
m
(000),
i
n
c
r
eas
e P
S
f
r
o
m
V
53
and
pl
o
t
t
he rel
a
t
i
ons
hi
p
bet
w
een t
he vol
t
ages
o
f
pi
n
s
49
a
nd 43.
4)
Ne
x
t
,
w
i
t
h
t
h
e
DC t
r
an
sm
i
s
s
i
on
c
o
m
pen
s
a
t
i
on rat
e
a
t
t
he
m
a
x
i
m
u
m
(111),
i
n
c
r
ea
s
e
P
S
f
r
o
m
V
53
and pl
ot
t
h
e
rel
a
t
i
ons
hi
p
bet
w
een t
he vol
t
age
s
of
pi
n
s
49 and
43.
5)
W
i
t
h
t
he
DC t
r
ansm
i
ss
i
on c
o
m
pen
s
a
t
i
on
rat
e
a
t
t
he m
a
x
i
m
u
m
(111),
i
n
c
r
eas
e
t
he P
S
f
r
o
m
V
53
w
hen t
h
e DC
t
r
ansm
i
ss
i
on
c
o
m
pen
s
a
t
i
on
st
art
poi
nt
reac
he
s
t
he
m
a
x
i
m
u
m
(111) and pl
ot
t
he rel
a
t
i
ons
hi
p
bet
w
een t
h
e vol
t
ages of
pi
ns
49
and 43.
6) Cal
c
ul
at
e
V
DT
0
and
V
DT
4
2
fr
o
m
th
e
fo
llo
w
i
n
g
fo
r
m
u
l
a
.
V
DT
0
= ((V
SP0
-
V
49
)
/ 1
[
V
] )
1
0
0
[
%
]
V
DT
4
2
= ((V
SP4
2
-
V
49
) /
1
[
V
]
)100 [
%
]
T
A
1276AN
200
2-
03-
2
9
43
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
I
T
CH
I
N
G M
O
DE
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
11
DC Transm
i
ss
i
on
Com
pen
s
a
t
i
on
Li
m
i
t
P
o
i
n
t
C ON
B
C
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2)
Turn t
he
Y
m
u
t
e
o
f
f
(1),
t
u
rn t
h
e
vi
deo
m
u
t
e
of
f
(0),
and
w
i
t
h
t
he uni
col
o
r s
e
t
at
m
a
x
i
m
u
m
(1111111),
connec
t
pi
n
49
t
o
an ex
t
e
rnal
po
w
e
r s
uppl
y (P
S
)
.
3)
S
e
t
t
he
DC t
r
ansm
i
ss
i
o
n
c
o
m
pensat
i
on
rat
e
t
o
t
he m
a
x
i
m
u
m
(111).
4)
I
n
c
r
eas
e
t
h
e
P
S
f
r
o
m
5
V
,
obs
erve
pi
n 43,
and
pl
ot
t
he DC
t
r
ansm
i
s
s
i
on c
o
m
pen
s
a
t
i
on
rat
e
.
5)
Repeat
4) above but
c
hange
t
he D
C
t
r
ansm
i
ss
i
o
n
c
o
m
pens
a
t
i
on l
i
m
i
t
poi
nt
da
t
a
.
Cal
c
ul
a
t
e
P
D
T
L60
, P
D
T
L73
, P
D
T
L87
,
and P
D
T
L100
f
r
om
t
h
e
m
e
a
s
ured d
a
t
a
and
t
he f
o
l
l
ow
i
ng f
o
r
m
ul
as.
P
D
T
L60
= ((V
L60
-
V
49
) /
1.
0)100 [
%
]
P
D
T
L73
= ((V
L73
-
V
49
) /
1.
0)100 [
%
]
P
D
T
L87
= ((V
L87
-
V
49
) /
1.
0)100 [
%
]
P
D
T
L100
= ((V
L10
0
-
V
49
) /
1.
0)100 [
%
]
T
A
1276AN
200
2-
03-
2
9
44
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
I
T
CH
I
N
G M
O
DE
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
12
P
i
ct
ure S
harpnes
s
Cont
rol
Range
C OF
F
B
A
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2)
I
nput
a
s
i
ne
w
a
ve t
o
TP
53
.
3)
S
e
t
t
he a
m
pl
i
t
ude
of
p
i
n 53
t
o
20
m
V
p-p
.
4)
S
e
t
t
he
uni
c
o
l
o
r t
o
t
he m
a
x
i
m
u
m
(
1111111),
s
e
t
S
H
R t
r
ack
i
ng
t
o
S
R
T-gai
n
l
o
w
(11),
and
s
e
t
t
he
apert
u
re
c
o
m
pen
s
a
t
o
r pea
k
f
r
equen
c
y
t
o
4.
2M
(001).
5)
Turn
t
he Y
m
u
t
e
o
f
f
(1),
t
he
vi
deo m
u
t
e
o
f
f
(0),
c
onnect
T
P
43
and TP
41b,
and
ob
s
e
rve
TP
41e.
6)
S
e
t
t
he
pi
c
t
ure
s
harpness
t
o
t
he m
a
x
i
m
u
m
(1111111).
W
hen t
he f
r
equenc
i
e
s
are
100k
Hz
and
F
A
P
L01
,
m
e
a
s
ure t
he
V
100
and V
L
a
m
pl
i
t
udes res
p
e
c
t
i
v
e
l
y
and c
a
l
c
ul
a
t
e G
MA
X
L
by t
he f
o
r
m
u
l
a
s
how
n bel
ow
.
7)
Ne
x
t
,
s
e
t
t
he
pi
c
t
ure
s
harpness
t
o
t
he m
i
n
i
m
u
m
(0000000).
A
s
i
n
6),
w
hen
t
he
f
r
equenc
i
e
s
are
100k
Hz and
2.
4M
Hz,
m
e
a
s
ure t
he
V
100
and V
L
a
m
pl
i
t
u
des
res
p
e
c
t
i
vel
y
and c
a
l
c
ul
a
t
e G
MIN
L
by t
he f
o
r
m
ul
a
s
how
n bel
ow
.
8)
S
e
t
t
he
apert
u
re c
o
m
pen
s
a
t
o
r
pea
k
f
r
equenc
y
t
o
7.
7M
(111)
and t
he pi
c
t
ure s
harpness
t
o
t
he m
a
x
i
m
u
m
(1111111).
W
h
en
t
he
f
r
equenc
i
e
s are 100
k
H
z and F
APH1
1
,
m
eas
ure t
he V
100
and V
H
a
m
pl
i
t
ude
s
re
s
pect
i
vel
y
and
c
a
l
c
ul
at
e
G
MA
X
H
by t
he f
o
r
m
ul
a
s
how
n bel
ow
.
9)
Ne
x
t
,
s
e
t
t
he
pi
c
t
ure
s
harpness
t
o
t
he m
i
n
i
m
u
m
(0000000).
W
hen t
h
e
f
r
equenc
i
e
s
are
100
k
H
z
and
4M
Hz,
m
eas
ure
t
he V
100
and V
H
a
m
pl
i
t
udes res
p
e
c
t
i
vel
y
and
c
a
l
c
ul
at
e
G
MI
N
H
by t
he f
o
l
l
o
w
i
ng f
o
r
m
ul
a
.
G
****
[
d
B
]
= 20Log (
V
L (H
)
V
100
)
V
13
Y
N
R
Charac
t
e
ri
s
t
i
c
s
1)
Repeat
st
eps 1) t
o
5) of
V
12
.
2)
W
i
t
h
Y
N
R on (1) and
t
he pi
c
t
ure
sharpnes
s
a
t
m
i
ni
m
u
m
(0000000),
m
e
a
s
ure
t
he T
P
41e a
m
pl
i
t
ude
s
V
100
and V
L
w
hen t
he i
nput
s
i
gnal
f
r
equenc
i
e
s
are 100k
Hz and 2.
4M
Hz res
p
e
c
t
i
v
e
l
y
.
3)
Ne
x
t
,
s
e
t
t
he apert
u
re
c
o
m
pen
s
a
t
o
r peak
f
r
equenc
y t
o
7.
7M
(111).
W
hen t
he i
npu
t
s
i
gnal
f
r
equenc
i
e
s
ar
e 100k
Hz and
4M
Hz,
m
e
a
s
ure t
h
e
V
100
and V
H
am
p
l
i
t
ude
s
re
s
pec
t
i
vel
y
and c
a
l
c
ul
at
e
G
YL
and G
YH
by t
he f
o
l
l
ow
i
ng f
o
r
m
ul
a.
G
YL
(
H
)
[
d
B
]
= 20Log
(V
L (H
)
V
10
0
)
T
A
1276AN
200
2-
03-
2
9
45
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
I
T
CH
I
N
G M
O
DE
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
14
2T P
u
l
s
e Re
s
pons
e
S
R
T
Cont
rol
C
O
N
B
A
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2)
I
nput
a
2T
pul
s
e
(
S
TD) s
i
gnal
t
o
T
P
53,
t
u
rn
t
h
e
Y
m
u
t
e
of
f
(1),
t
u
rn t
he
vi
deo m
u
t
e
of
f
(0),
s
e
t
uni
c
o
l
o
r t
o
m
a
x
i
m
u
m
(1111111),
and s
e
t
S
H
R
t
r
ack
i
ng
t
o
S
R
T-gai
n
l
o
w
(11).
3)
S
e
t
t
he s
harpness
c
ont
rol
t
o
t
he cent
er
(1000000),
s
e
t
t
he
apert
u
re c
o
m
pen
s
a
t
o
r
pea
k
f
r
equen
c
y
t
o
4.
2M
(001),
c
onnect
T
P
43 and
TP
41b,
and ob
s
e
rve TP
41e
.
4) M
eas
ure
T
SL
1
as
i
n
t
h
e
di
agra
m
b
e
l
o
w
.
5)
S
e
t
S
HR t
r
ack
i
ng t
o
S
R
T-gai
n
hi
g
h
(00)
and m
e
a
s
ure
T
SL
2
.
6)
Ne
x
t
,
s
e
t
t
he apert
u
re
c
o
m
pen
s
a
t
o
r peak
f
r
equenc
y t
o
7.
7M
(111) an
d
m
eas
ure
T
SH1
and T
SH2
a
s
abo
ve.
7)
Cal
c
ul
at
e
t
he
f
o
l
l
o
w
i
ng f
o
r
m
ul
a
.
T
SRTL
= T
SL
1
-
T
S
L2
T
SRTH
=
T
SH1
-
T
SH2
T
A
1276AN
200
2-
03-
2
9
46
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
I
T
CH
I
N
G M
O
DE
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
15
V
S
M
Gain
C
ON
B
A
1)
S
e
t
t
he
B
U
S
c
o
n
t
rol
dat
a
t
o
t
he pr
es
et
val
u
e
.
2) I
nput
t
he
f
r
equen
c
y
F
VL
s
i
ne w
a
ve t
o
TP
53.
3)
Turn t
he
Y
m
u
t
e
o
f
f
(1),
t
u
rn t
h
e
vi
deo
m
u
t
e
of
f
(0),
s
e
t
t
h
e
apert
u
re
c
o
m
pen
s
a
t
o
r pea
k
f
r
equen
c
y
t
o
4.
2M
(001),
and
s
e
t
t
he a
m
pl
i
t
ude of
pi
n 53
t
o
0
.
1V
p-p
.
4)
M
eas
ure t
he T
P
48 a
m
p
l
i
t
ude
s
V
L00
, V
L01
, V
L10
,
and
V
L11
i
n
t
he
f
o
l
l
o
w
i
ng c
a
s
e
s.
V
S
M
gai
n
0dB
(00)
V
L (H
) 0
0
-
6dB
(01)
V
L (H
)
01
-
9dB
(10)
V
L (H
)
10
OFF
(
11)
V
L (H
) 1
1
5)
I
nput
t
he s
i
ne
w
a
ve
of
f
r
equenc
y
F
VH
t
o
TP
53,
s
e
t
t
he
apert
u
re c
o
m
p
ens
at
or
pea
k
f
r
equenc
y
t
o
7.
7M
(1
11),
and
m
e
a
s
ure
t
he T
P
48 a
m
p
l
i
t
ude
s
V
H0
0
, V
H0
1
, V
H1
0
,
and
V
H1
1
as
abov
e.
6)
Cal
c
ul
at
e
t
he
f
o
l
l
o
w
i
ng f
o
r
m
ul
a
s
.
G
VL
(
H
)
00
= 20Log (V
L (H
)
00
/
0.
1) [
d
B
]
G
VL
(
H
)
01
= 20Log (V
L (H
)
01
/
0.
1) [
d
B
]
-
20Log (V
L (H
) 0
0
/
0.
1)
[
d
B
]
G
VL
(
H
)
10
= 20Log (V
L (H
)
10
/
0.
1) [
d
B
]
-
20Log (V
L (H
) 0
0
/
0.
1)
[
d
B
]
G
VL
(
H
)
11
= 20Log (V
L (H
)
00
/ 0
.
1
)
[d
B
]
T
A
1276AN
200
2-
03-
2
9
47
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
I
T
CH
I
N
G M
O
DE
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
16
V
S
M
Hori
zont
al
P
a
rabol
a
M
odul
at
i
on Gai
n
C
O
N
B
A
1)
Repeat
st
eps 1) t
o
3) of
V
15
.
2)
Turn on t
h
e
V
S
M
out
put
hori
z
ont
al
parabol
a
m
odul
at
i
on (1) and
s
e
t
t
he V
S
M
gai
n
t
o
0dB
(00).
3)
A
s
i
n
t
he di
agra
m
,
m
eas
ure
t
he pi
c
t
ure peri
od a
m
pl
i
t
udes V
C
L,
V
R
L
,
and
V
LL of
T
P
48.
4)
Ne
x
t
,
i
nput
t
h
e
s
i
ne
w
a
ve of
f
r
equ
enc
y F
VH
t
o
T
P
53,
s
e
t
t
he
apert
u
r
e
c
o
m
pen
s
a
t
o
r
peak
f
r
equenc
y t
o
7.
7M
(111),
s
e
t
t
he V
S
M
hori
z
ont
al
parabol
a
f
r
equenc
y t
o
31.
5k (10),
and
m
e
a
s
ure t
he pi
ct
ure peri
od a
m
pl
i
t
ude
s
V
C
H,
V
R
H,
and V
L
H
of
T
P
48 a
s
above.
5) Cal
c
ul
at
e
G
VRL
, G
VL
L
, G
VRH
,
and
G
VL
H
fr
o
m
th
e
fo
llo
w
i
n
g
fo
r
m
u
l
a
s
.
G
VRL
(
H
)
= 20Log (V
RL (H)
/
V
C
L (H))
G
V
LL (H
)
= 20Log (V
LL (H) /
V
C
L
(H))
6)
I
n
3) and 4)
above,
t
u
rn
t
he
V
S
M
o
u
t
put
hori
z
ont
al
parabol
a
m
odul
a
t
i
on of
f
(0) and
c
heck
t
hat
no
parabol
a
m
odul
at
i
on
i
s
generat
ed
on t
h
e
pi
ct
ure peri
od
s
i
gnal
.
(V
P
O
FL,
V
P
OFH)
T
A
1276AN
200
2-
03-
2
9
48
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
I
T
CH
I
N
G M
O
DE
NOT
E
P
A
RA
M
E
T
E
R
SW
15
SW
49
SW
50
SW
53
T
E
ST
CONDIT
I
O
NS
V
17
V
S
M
Hi
gh-S
peed M
u
t
e
Res
pons
e Ti
m
e
C
O
N
B
A
1)
Repeat
st
eps 1) t
o
3) of
V
15
,
t
hen obs
erve
pi
n
48.
2)
I
nput
a
pul
s
e
l
i
k
e
t
hat
s
how
n bel
ow
t
o
pi
n 32 and
m
eas
ure
t
he re
s
p
ons
e t
i
m
e
T
VM
L
1
(2) at
t
hat
i
nput
.
3)
S
i
m
i
l
a
rl
y,
i
npu
t
t
he pul
s
e
t
o
pi
n 36
and
m
eas
ure
t
he re
s
pons
e
t
i
m
e
T
VM
L
3
(4) at
t
hat
i
npu
t
.
4)
I
nput
t
he s
i
ne
w
a
ve
of
f
r
equenc
y
F
VH
t
o
TP
53,
s
e
t
t
he
apert
u
re c
o
m
p
ens
at
or
pea
k
f
r
equenc
y
t
o
7.
7M
(1
11),
and
m
e
a
s
ure t
he
res
pon
s
e
t
i
m
e
T
VM
H
1
(2) as
i
n
2) above.
5)
S
i
m
i
l
a
rl
y,
i
npu
t
t
he pul
s
e
t
o
pi
n 36
and
m
eas
ure
t
he re
s
pons
e
t
i
m
e
T
VM
H
3
(4) at
t
he i
npu
t
.
T
A
1276AN
200
2-
03-
2
9
49
T
E
ST
CONDIT
I
O
NS (UNLE
S
S
O
T
HE
R
W
IS
E S
T
A
T
E
D
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
SU
BAD
D
R
ES
S S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
07
10 17 18
S
W
5
SW
6
SW
13
SW
15
T
E
ST
CONDIT
I
O
NS
C
h
r
o
m
a
Bl
o
ck
Chrom
a
b
l
ock
c
o
m
m
on t
e
st
c
ondi
t
i
ons
SW
13
: B,
S
W
15
: C, S
W
18
: O
N
,
S
W
20
:
O
N
, S
W
23
:
O
N
, S
W
24
:
O
N
,
S
W
25
: O
N
,
SW
33
: A,
S
W
34
: A,
S
W
35
: A,
S
W
37
: A
,
S
W
38
: A,
S
W
39
: A,
S
W
46
:
O
N
C
1
A
C
C
Charac
t
e
ri
s
t
i
c
s
80
00 00 00
OP
E
N
OP
E
N
B
A
1)
I
nput
3
.
58-NTS
C
rai
nbow
s
i
gnal
(C-4 s
i
gnal
) bur
s
t
/
c
h
ro
m
a
s
i
gnal
s
w
i
t
h
t
he s
a
m
e
burs
t
/
c
h
ro
m
a
a
m
pl
i
t
ude t
o
t
he
c
h
rom
a
i
nput
pi
n (T
P
13).
2)
M
eas
ure t
he out
pu
t
a
m
p
l
i
t
ude
s
F
10
, F
30
, F
300
,
and F
600
of
t
he UQ
out
put
pi
n
5
w
hen t
he c
h
ro
m
a
i
npu
t
a
m
p
l
i
t
ude
l
e
vel
s
are
s
e
t
t
o
10
,
30,
300,
and 6
00m
V
p-p
.
3)
Cal
c
ul
at
e
A
= F
30
/ F
300
.
C
2
A
P
C
Frequenc
y
Cont
rol
Se
n
s
i
t
iv
ity
A
1) Connec
t
S
W
13
to
A.
2)
S
w
i
t
c
h
t
he
c
o
l
o
r
s
y
s
t
e
m
m
ode (10) t
o
3
.
58 NT
S
C
(00),
4
.
43
P
A
L
(60),
and M
-
P
A
L
(80)
and m
eas
ure t
he f
o
l
l
o
w
i
ng
f
o
r
eac
h
o
f
t
hos
e
c
a
s
e
s.
3)
Connec
t
ex
t
e
rnal
vol
t
age
s
ourc
e
(
V
11
) t
o
A
P
C
f
i
l
t
er pi
n 11
.
4)
V
a
ry t
he vol
t
age
of
t
he ex
t
e
rnal
vol
t
age
s
ourc
e
(
V
11
) and obs
erve t
h
e f
s
c out
put
pi
n 1 u
s
i
ng a
f
r
equenc
y
c
ount
er.
5)
M
eas
ure t
he f
r
ee-run
s
ens
i
t
i
v
i
t
y
fo
r
th
e
V
11
+
V
11
(100
m
V
)
near t
h
e f
c
.
(3.
5
NT
S
C
=
3
,
4
.
3 ;
P
A
L =
4
;
M
-
PAL
=
M
)
C
3
A
P
C
P
u
l
l
-
I
n
and Hol
d
Range
1)
I
nput
3
.
579545M
Hz,
4.
433619M
H
z
,
and 3.
575611M
Hz c
ont
i
nuou
s
w
a
ves
(200m
V
p-p
t
o
t
he
c
h
ro
m
a
i
nput
pi
n
(TP
13).
2)
S
w
i
t
c
h
t
he
c
o
l
o
r
s
y
s
t
e
m
m
ode (10) t
o
3
.
58 NT
S
C
(00),
4
.
43
P
A
L
(60),
and M
-
P
A
L
(80),
and
m
e
a
s
ure t
h
e
f
o
l
l
o
w
i
ng f
o
r eac
h o
f
t
hos
e
c
a
s
e
s.
3)
V
a
ry t
he i
npu
t
s
i
gnal
f
r
equenc
y i
n
10Hz-s
t
eps
w
i
t
h
i
n
a
range of
3
k
H
z.
4)
Cl
am
p
B
/
W
c
o
l
o
r m
ode
(f
*
P
*).
W
h
i
l
e
hol
di
ng c
o
l
o
r
B
/
W
m
ode
(
f
*H*),
m
e
a
s
ure t
he
devi
a
t
i
on
s
f
r
o
m
t
h
e
f
r
equenc
y
a
t
ea
c
h
c
ont
i
nuou
s
w
a
ve
i
nput
.
T
A
1276AN
200
2-
03-
2
9
50
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
SU
BAD
D
R
ES
S S
W
ITC
H
IN
G
M
O
D
E
NOT
E
P
A
RA
M
E
T
E
R
07 10
17
18
S
W
5
SW
6
SW
13
SW
15
T
E
ST
CONDIT
I
O
NS
C
4
S
E
C
A
M
Out
put
DC Level
Change
80 C
0
00
or
30
or
60
0
0
O
PEN
O
P
EN
A
A
1) Connec
t
S
W
13
to
A.
2)
M
eas
ure t
he out
pu
t
DC l
e
vel
of
t
h
e S
E
C
A
M
c
o
n
t
rol
pi
n
3 w
hen t
he
col
o
r s
yst
e
m
m
ode
(10) i
s
s
w
i
t
c
hed
t
o
3.
58
NTS
C
(00),
4.
43
P
A
L (30),
and
S
E
CA
M
(60).
(3.
58 NTS
C
m
ode:
S
E
N)
(4.
43
P
A
L m
ode
:
S
E
P
)
(S
E
C
A
M
m
ode:
S
E
S
)
C
5
NTS
C
I
den
t
S
ens
i
t
i
v
i
t
y
C
0
or
D
0
00
B
1)
I
nput
a
3.
58-NTS
C
rai
nbow
(C-4 s
i
gnal
) burs
t
/
c
h
ro
m
a
s
i
gnal
w
i
t
h
t
h
e s
a
m
e
burst
/
c
h
ro
m
a
a
m
p
l
i
t
ude
s
t
o
t
he c
h
ro
m
a
i
nput
pi
n
(TP
13)
.
2)
Obs
e
rve t
he
B
U
S
RE
A
D
m
ode
(5t
h
and 6t
h b
i
t
s
o
f
t
he 1st
byt
e
)
.
3)
S
w
i
t
c
h
t
he I
nden
t
s
ens
i
t
i
v
i
t
y
(s
et
t
h
e s
ubaddress
(10) dat
a
l
o
w
(C
0
) and hi
gh
(D
0
))
and
perf
o
rm
t
he f
o
l
l
o
w
i
ng m
eas
ure
m
ent
s
.
4)
I
n
c
r
eas
e
t
h
e
i
nput
s
i
gnal
a
m
pl
i
t
ud
e f
r
o
m
0 and
m
eas
ure
t
he i
npu
t
s
i
gnal
am
p
l
i
t
ude
a
t
t
he s
w
i
t
c
h
t
o
3
.
58
NT
S
C
m
ode
.
(LO
W
(C
0
) : vN
CL
,
Hi
gh (D
0
) : vN
CH
)
5)
Low
e
r
t
he i
nput
si
gnal
a
m
pl
i
t
ude
f
r
om
100
m
V
p-p
and m
eas
ure t
he
i
n
put
si
gnal
am
p
l
i
t
ude a
t
t
he devi
a
t
i
on
f
r
o
m
3.
5
8
NTS
C
m
ode.
(LO
W
(C
0
) : vN
BL
,
Hi
gh (D
0
) : vN
BH
)
T
A
1276AN
200
2-
03-
2
9
51
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
SU
BAD
D
R
ES
S S
W
ITC
H
IN
G
M
O
D
E
NOT
E
P
A
RA
M
E
T
E
R
07 10
17
18
S
W
5
SW
6
SW
13
SW
15
T
E
ST
CONDIT
I
O
NS
C
6
P
A
L
I
dent
S
e
n
s
i
t
i
v
i
t
y
80
C
0
or
D
0
0
0
0
0
O
PEN
O
P
EN
B
A
1)
I
nput
a
4.
43-P
A
L rai
nbow
(C-4 s
i
g
nal
) burs
t
/
c
h
ro
m
a
si
gnal
w
i
t
h
t
h
e
s
a
m
e
bur
s
t
/
c
h
ro
m
a
a
m
pl
i
t
ude
t
o
t
he c
h
ro
m
a
i
nput
pi
n
(T
P
13).
2)
Obs
e
rve t
he
B
U
S
RE
A
D
m
ode
(5t
h
and 6t
h b
i
t
s
o
f
t
he 1st
byt
e
)
.
3)
S
w
i
t
c
h
t
he I
nden
t
s
ens
i
t
i
v
i
t
y
(s
et
t
h
e s
ubaddress
(10) dat
a
l
o
w
(C
0
) and hi
gh
(D
0
))
and
perf
o
rm
t
he f
o
l
l
o
w
i
ng m
eas
ure
m
ent
s
.
4)
I
n
c
r
eas
e
t
h
e
i
nput
s
i
gnal
a
m
pl
i
t
ud
e f
r
o
m
0 and
m
eas
ure
t
he i
npu
t
s
i
gnal
am
p
l
i
t
ude
a
t
t
he s
w
i
t
c
h
t
o
4
.
43
P
A
L
m
ode.
(LO
W
(C
0
) : vP
CL
, H
i
g
h
(
D
0
) :
vP
CH
)
5)
Low
e
r
t
he i
nput
si
gnal
a
m
pl
i
t
ude
f
r
om
100
m
V
p-p
and m
eas
ure t
he
i
n
put
si
gnal
am
p
l
i
t
ude a
t
t
he devi
a
t
i
on
f
r
o
m
4.
4
3
P
A
L
m
ode
.
(LO
W
(C
0
) : vP
BL
,
Hi
gh (D
0
) :
v
P
BH
)
C
7
TOF
Charact
e
ri
st
i
c
s
00
or
60
38
1)
I
nput
t
he s
i
gnal
C-1 t
o
t
he c
h
ro
m
a
i
nput
pi
n.
(S
i
gnal
a
m
p
l
i
t
ude
= 50
m
V
p-p
).
2)
W
h
en
t
he
s
ubaddres
s (10) dat
a
are f
0
= 3
.
58M
Hz (00) and f
0
= 4
.
43
M
H
z (60),
and s
ubaddress
(18) dat
a
are (38),
c
onnec
t
1.
5
k
bet
w
een t
he
V
I
out
put
pi
n
6
and t
he 5
V
-V
CC
and ob
s
e
rve t
he
V
I
out
put
pi
n 6
.
3)
M
eas
ure t
he out
pu
t
a
m
p
l
i
t
ude w
hen f
0
= 3
.
58M
Hz and c
a
l
c
ul
at
e
t
h
e
gai
n i
n
dec
i
bel
s f
r
o
m
t
he i
nput
(GF
C3
).
4)
M
eas
ure t
he out
pu
t
a
m
p
l
i
t
ude w
hen f
0
= 3
.
58M
Hz
500k
Hz and c
a
l
c
u
l
at
e t
h
e
gai
n
i
n
dec
i
bel
s f
r
o
m
t
he
i
nput
(+500k
Hz :
G
F
H3
,
-
500
k
H
z :
GF
L3
).
5)
M
eas
ure t
he out
pu
t
a
m
p
l
i
t
ude w
hen f
0
= 4
.
43M
Hz and c
a
l
c
ul
at
e
t
h
e
gai
n i
n
dec
i
bel
s f
r
o
m
t
he i
nput
(GF
C4
).
6)
M
eas
ure t
he out
pu
t
a
m
p
l
i
t
ude w
hen f
0
= 4
.
43M
Hz
500k
Hz and c
a
l
c
u
l
at
e t
h
e
gai
n
i
n
dec
i
bel
s f
r
o
m
t
he
i
nput
(+500k
Hz :
G
F
H4
,
-
500
k
H
z :
GF
L4
).
T
A
1276AN
200
2-
03-
2
9
52
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
T
e
x
t
B
l
o
c
k
Tex
t
bl
oc
k c
o
m
m
on
t
e
s
t
c
ondi
t
i
ons
SW
13
: A,
S
W
15
: C, S
W
18
: O
N
,
S
W
20
:
O
N
,
SW
23
:
O
N
, S
W
24
:
O
N
, S
W
25
:
O
N
T
1
AC
G
a
in
A A A
A A
A B B
A
1) I
nput
s
i
gnal
1
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 53.
2)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
s
41
,
42,
43 (
V
41,
V
42,
and
V
43).
3) G
R
=
V
43 /
0.
2
G
G
= V
4
2
/
0.
2
G
B
= V
41 /
0.
2
T
2
Uni
c
ol
or A
d
j
u
st
m
ent
Charac
t
e
ri
st
i
c
s
1) I
nput
s
i
gnal
1
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 53.
2)
S
e
t
t
he uni
c
o
l
o
r da
t
a
t
o
m
a
x
i
m
u
m
(7F),
c
e
n
t
er (40),
and
m
i
ni
m
u
m
(00)
and m
eas
ure t
he
pi
n
43
pi
c
t
ure
pe
ri
od
a
m
pl
i
t
udes
f
o
r
ea
c
h
c
a
s
e
.
(v
u
MA
X
,
v
u
CN
T
,
v
u
MI
N
)
3)
Cal
c
ul
at
e
t
he uni
c
o
l
o
r
m
a
x
i
m
u
m
a
nd
m
i
ni
m
u
m
a
m
pl
i
t
ude rat
i
o
s
u
s
i
n
g
di
gi
t
a
l
c
onvers
i
on.
(
v
u
)
T
3
B
r
i
ght
ness A
d
j
u
s
t
m
ent
Charac
t
e
ri
st
i
c
s
1)
I
nput
s
i
gnal
2 t
o
pi
n 53
and adj
u
s
t
t
he pi
c
t
ure peri
od a
m
pl
i
t
ude out
pu
t
of
pi
n 43 t
o
1V
p-p
.
2)
M
eas
ure t
he vol
t
age o
f
pi
n
43 w
hen t
he bri
ght
ne
ss
i
s
c
hanged
t
o
m
a
x
i
m
u
m
(FF),
c
e
n
t
er (80),
and
m
i
ni
m
u
m
(00).
(V
brM
A
X
,
V
b
rCNT,
V
b
rM
I
N
)
T
4
B
r
i
ght
ness
S
e
n
s
i
t
i
v
i
t
y
1)
Us
i
ng
t
he res
u
l
t
s
obt
ai
ned
f
r
o
m
T
3
,
c
a
l
c
u
l
at
e t
he
bri
ght
ne
ss
s
ens
i
t
i
v
i
t
y
f
r
o
m
t
he
f
o
l
l
o
w
i
ng
f
o
r
m
ul
a.
2)
Gbr = (V
brM
A
X
-
V
b
rM
I
N
) /
256
T
5
W
h
i
t
e
P
eak
S
l
i
c
e
Level
1)
Change t
he bus dat
a and
s
e
t
t
he
sub-c
ont
rast
t
o
m
a
x
i
m
u
m
.
2)
Connec
t
an
ex
t
e
rnal
power s
uppl
y t
o
pi
n
53 and
i
n
c
r
ea
s
e
t
h
e
vol
t
age
gradual
l
y
f
r
o
m
5
.
8V
.
3)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude vol
t
age of
pi
n 43 w
hen pi
n 43
s
pi
c
t
ure peri
o
d
i
s
c
l
i
pped (V
w
p
s
1
).
4)
Change t
he s
ubaddress (05) dat
a
t
o
(81) and repeat
st
eps 1) t
o
3)
above.
(V
w
p
s
2
)
T
A
1276AN
200
2-
03-
2
9
53
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
T
6
Bla
c
k
Pe
a
k
Sli
c
e
L
e
v
e
l
A A A
A A
A B B
C
1)
Repeat
st
ep 1) o
f
T
5
.
2)
Connec
t
an
ex
t
e
rnal
power s
uppl
y t
o
pi
n
53 and de
c
r
eas
e
t
he vol
t
ag
e
gradual
l
y
f
r
o
m
5
.
8V
.
3)
M
eas
ure t
he vol
t
age
s
of
pi
n
s
41,
4
2
,
and 43 w
hen t
hei
r pi
ct
ure peri
o
ds
are c
l
i
pped.
T
7
Hal
f
Tone Chara
c
t
e
ri
s
t
i
c
s
A
1) I
nput
s
i
gnal
1
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 53.
2)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
41 (V
41
A
).
3)
A
ppl
y 1.
5
V
f
r
o
m
an ex
t
e
rnal
pow
er
s
uppl
y
t
o
pi
n
47.
4)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
41 (V
41
B
).
5) G
HT
1
= V
4
1
B
/ V
4
1
A
6)
Hal
t
t
h
e
vol
t
age appl
i
e
d
t
o
pi
n 47,
s
e
t
t
he
s
ubaddress
(03) dat
a
t
o
(81),
and
m
eas
ure
t
he pi
c
t
ure
peri
od a
m
p
l
i
t
ude
of
p
i
n 41 (
V
41
C
).
7) G
HT
2
= V
4
1
C
/ V
4
1
A
T
8
BL
K
Pu
l
s
e
D
e
la
y
T
i
m
e
C
1) Cal
c
ul
at
e
t
dON
, t
dOF
F
f
r
o
m
t
h
e
si
g
nal
appl
i
ed
t
o
pi
n 25
(H.
B
L
K
i
nput
)
(A
bel
ow
) and t
he out
put
s
i
gnal
s
f
r
o
m
pi
ns 41,
42
,
and
43 (B
bel
ow
).
(A
) S
i
gnal
appl
i
ed
t
o
pi
n
25
T
9
RGB
Ou
t
put
V
o
l
t
age
1)
M
eas
ure t
he pi
c
t
ure peri
od vol
t
ag
es
f
o
r pi
ns 41,
42,
and 43.
(B
) Out
put
s
i
gnal
s f
r
o
m
pi
n
s
4
1
,
42,
43
T
A
1276AN
200
2-
03-
2
9
54
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
T
10
Cut
o
f
f
V
o
l
t
age
V
a
ri
abl
e
Range
A A A
A A
A B B
C
1)
S
e
t
t
he s
ubaddress
(17)
dat
a
t
o
(07).
2)
M
eas
ure t
he pi
c
t
ure peri
od vol
t
ag
e of
pi
n
43 w
hen t
he
c
u
t
o
f
f
(
s
ubad
dres
s
0C)
dat
a
are c
hanged
t
o
m
a
x
i
m
u
m
(FF)
,
c
ent
er
(80),
and m
i
n
i
m
u
m
(00),
and c
a
l
c
ul
at
e
t
he a
m
ount
of
c
hang
e of
m
a
x
i
m
u
m
and
m
i
ni
m
u
m
f
r
o
m
t
he
c
ent
er.
(CUT+,
CUT
-
).
3)
I
n
s
t
ep
s
1) and 2)
above,
m
a
k
e
t
h
e f
o
l
l
o
w
i
ng c
hanges and re
m
e
a
s
ur
e :
Change t
he s
ubaddress (0D) dat
a
and
m
eas
ure p
i
n 42,
Change t
he s
ubaddress (0E
)
dat
a
and
m
eas
ure p
i
n 41.
T
11
Dri
v
e A
d
j
u
st
m
ent
V
a
ri
abl
e
Range
A
1) I
nput
s
i
gnal
1
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 53.
2)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
42 w
hen t
he dri
v
e
(s
ubaddres
s
-
09)
dat
a
are c
hanged
t
o
m
a
x
i
m
u
m
(F
E
)
,
c
ent
er
(80),
an
d
m
i
ni
m
u
m
(00).
3)
Cal
c
ul
at
e
t
he
m
a
x
i
m
u
m
and
m
i
ni
m
u
m
a
m
pl
i
t
ude ra
t
i
os f
o
r
t
he dri
v
e
c
ent
er u
s
i
ng de
c
i
bel
c
onvers
i
on
.
(
D
RG+,
DRG
-
)
4)
I
n
s
t
ep
s
1)
t
o
3) above,
c
hange
t
h
e s
ubaddress
(0A
)
dat
a,
m
e
a
s
ure
pi
n
41,
and repeat
t
he
c
a
l
c
ul
at
i
o
n
s
.
(D
RB
+,
DR
B
-
)
5)
I
n
s
t
ep
s
1)
t
o
3) above,
s
e
t
dat
a
of
t
he L
S
B
of
s
ubaddress
(09)
t
o
1
,
m
e
a
s
ure pi
n
43,
and
repeat
t
he
c
a
l
c
ul
at
i
ons.
(DRR+,
DRR
-
)
T
12
Out
put
V
o
l
t
age
Duri
ng M
u
t
i
ng
C
1)
S
e
t
t
he s
ubaddress
(00)
dat
a
t
o
(F
F).
2)
M
eas
ure t
he pi
c
t
ure peri
od vol
t
ag
es
of
pi
n
s
43,
42,
and 41.
(M
URD,
MU
G
D
,
MU
B
D
)
T
13
Out
put
V
o
l
t
age
at
B
l
ue
B
a
c
k
1)
S
e
t
t
he s
ubaddress
(10)
dat
a
t
o
(08).
2)
M
eas
ure t
he pi
c
t
ure peri
od vol
t
ag
es
of
pi
n
s
43 and
42 and
t
he pi
c
t
ur
e
peri
od a
m
pl
i
t
ude
of
p
i
n 41.
(B
B
R
, BB
G
, BB
B
)
T
A
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55
T
E
ST
CONDIT
I
O
NS (UNLE
S
S
O
T
HE
R
W
IS
E S
T
A
T
E
D
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
O
NS
T
14
AC
L
C
h
a
r
a
c
te
r
i
st
ic
s
A
A
A A
A A
B B
A
1)
I
nput
s
i
gnal
1 (f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n
53.
2)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43 (v
ACL
1
).
3)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43 w
hen
-
0.
5V
DC
i
s
appl
i
ed t
o
p
i
n 45
f
r
o
m
an
ex
t
e
rnal
pow
e
r
s
uppl
y.
(v
ACL
2
)
4)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43 w
hen
-
1V
DC i
s
appl
i
ed
t
o
pi
n 45
f
r
o
m
an ex
t
e
rnal
pow
er s
uppl
y.
(v
ACL
3
)
5) A
C
L1
=
-
20
og (v
ACL
2
/ v
ACL
1
)
A
C
L2 =
-
20
og (v
ACL
3
/ v
ACL
1
)
T
15
ABL
Po
in
t
1)
M
eas
ure t
he DC vol
t
age
of
p
i
n 45.
(V
A
B
L1)
2)
S
e
t
t
he s
ubaddress
(16)
dat
a
t
o
(1C).
3)
A
ppl
yi
ng ex
t
e
rnal
vol
t
age t
o
p
i
n 45
,
l
o
w
e
r t
he pi
n vol
t
age f
r
o
m
6.
5
V
.
M
eas
ure t
he vol
t
age o
f
pi
n
45 w
hen t
he vol
t
age
of
pi
n 43
st
art
s
t
o
c
hange.
(
V
A
B
L2)
4)
Change t
he dat
a o
f
s
ubaddress
(1
6) t
o
(3C),
(5C),
(7C),
(9C),
(
B
C),
(DC),
and (FC),
and repeat
s
t
ep 3)
f
o
r ea
c
h
of
t
h
e
s
e da
t
a
.
(
V
A
B
L
3
,
V
A
B
L4,
V
A
B
L5,
V
A
B
L
6
,
V
A
B
L7,
V
A
B
L8,
V
A
B
L9)
5
)
ABL
P1
=
V
ABL
2
-
V
A
B
L1,
A
B
L
P5
=
V
ABL
6
-
V
A
B
L1
ABL
P2
=
V
ABL
3
-
V
A
B
L1,
A
B
L
P6
=
V
ABL
7
-
V
A
B
L1
ABL
P3
=
V
ABL
4
-
V
A
B
L1,
A
B
L
P7
=
V
ABL
8
-
V
A
B
L1
ABL
P4
=
V
ABL
5
-
V
A
B
L1,
A
B
L
P8
=
V
ABL
9
-
V
A
B
L1
T
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TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
T
16
ABL
G
a
in
A A A
A A
A B B
C
1)
A
ppl
y 6.
5
V
f
r
o
m
an ex
t
e
rnal
pow
er
s
uppl
y
t
o
pi
n
45.
2)
S
e
t
t
he
s
ubaddress
(16) dat
a
t
o
(00).
S
e
t
t
he bri
ght
ne
s
s
t
o
t
he
m
a
x
i
m
u
m
.
3)
M
eas
ure t
he vol
t
age o
f
pi
n
43.
(V
A
B
L10)
4)
A
ppl
y 4.
5
V
f
r
o
m
an ex
t
e
rnal
pow
er
s
uppl
y
t
o
pi
n
45.
5)
Change t
he dat
a o
f
s
ubaddress
(1
6) t
o
(00),
(04),
(08),
(0C),
(10),
(1
4),
(18),
and (1C),
and repeat
st
ep 3)
f
o
r eac
h
of
t
hes
e
dat
a
.
(V
A
B
L11,
V
A
B
L12,
V
A
B
L13,
V
A
B
L14,
V
A
B
L15,
V
A
B
L16
,
V
A
B
L17,
V
A
B
L18)
6) A
B
L
G1
=
VA
BL
1
1
-
V
A
B
L10,
A
B
L
G5
= V
A
B
L15
-
V
A
B
L10
ABL
G2
=
VA
BL
1
2
-
V
A
B
L10,
A
B
L
G6
= V
A
B
L16
-
V
A
B
L10
ABL
G3
=
VA
BL
1
3
-
V
A
B
L10,
A
B
L
G7
= V
A
B
L17
-
V
A
B
L10
ABL
G4
=
VA
BL
1
4
-
V
A
B
L10,
A
B
L
G8
= V
A
B
L18
-
V
A
B
L10
T
17
RGB
Ou
t
put
M
ode
1)
A
d
j
u
st
t
he bri
ght
ne
s
s
s
o
t
h
a
t
t
he pi
c
t
ure peri
od vol
t
age of
pi
n 43
i
s
s
e
t
t
o
2.
5V
.
2)
S
e
t
t
he s
ubaddress
(16)
dat
a
t
o
(01).
3)
M
eas
ure t
he pi
c
t
ure peri
od vol
t
ag
es
of
pi
n
s
43,
42,
and 41.
(V
43
R
, V4
2
R
, V4
1
R
)
4)
Change t
he s
ubaddress (16) dat
a
t
o
(02) and repeat
st
ep 3).
(V
43
G
, V4
2
G
, V
4
1
G
)
5)
Change t
he s
ubaddress (16) dat
a
t
o
(03) and repeat
st
ep 3).
(V
43
B
, V4
2
B
, V
4
1
B
)
T
A
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TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
T
18
AC
B In
se
r
t
io
n
Pu
lse
Ph
a
s
e
and A
m
pl
i
t
ude
A A A
A A
A B B
A
or
C
1) I
nput
s
i
gnal
1
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 53
and adj
us
t
t
h
e
dri
v
e adj
ust
m
en
t
da
t
a
s
o
t
h
a
t
t
he pi
c
t
ure peri
o
d
am
p
l
i
t
ude
s
o
f
pi
n
s
41 and
42 are e
qual
t
o
t
hat
of
p
i
n 43.
2) S
e
t
S
W
53
to
C
.
3)
M
eas
ure t
he vol
t
age
s
of
pi
n
s
29,
3
0
,
and 55.
Fro
m
an ex
t
e
rnal
pow
er
s
uppl
y,
appl
y t
he m
eas
ured
vol
t
ag
es
t
o
t
h
e
s
e
pi
n
s
.
4)
S
e
t
s
ubaddress
(15) dat
a
t
o
(D
2
).
5)
From
pi
n
s
43,
42,
and 41,
c
a
l
c
ul
a
t
e t
he pha
s
e
of
t
h
e
A
C
B
i
n
s
e
rt
i
o
n
p
u
l
s
e
i
n
acc
o
rdanc
e w
i
t
h
Fi
g.
1
bel
ow
.
(Not
e) A
f
t
e
r t
h
e
c
o
m
p
l
e
t
i
on
of
V
.
B
L
K
,
t
he vi
deo peri
od
f
o
l
l
o
w
i
ng t
he
f
a
l
l
i
ng edge
of
t
he F
B
P
i
nput
i
s
reg
a
rded as
1H and
t
he peri
o
d
s
a
t
eac
h
c
o
m
p
l
e
t
i
on of
H.
B
L
K
are c
o
u
n
t
ed as 2H,
3H,
4H
.
6)
M
eas
ure t
he A
C
B
i
n
s
e
rt
i
o
n
pul
s
e
am
p
l
i
t
ude (
t
he l
e
vel
f
r
o
m
t
he pi
ct
ure
peri
od a
m
pl
i
t
ude
at
no
i
nput
)
of
p
i
ns
43,
42,
and 41.
T
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TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
T
19
RGB
C
h
a
r
a
c
te
r
i
s
t
i
cs
A A A
A A
A B B
A
1)
I
nput
a
ra
m
p
w
a
vef
o
rm
t
o
pi
n 53 a
nd adj
us
t
t
h
e
i
nput
a
m
pl
i
t
ude
s
o
t
h
at
t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43 i
s
2.
3
V
p-p
.
2)
A
d
j
u
st
t
he dri
v
e adj
u
s
t
m
en
t
da
t
a
so t
hat
t
he p
i
ct
ure peri
od a
m
p
l
i
t
ude
s
o
f
pi
ns
41
and 42 are equal
t
o
t
hat
of
pi
n 43.
3)
S
e
t
t
he s
ubaddress
(14)
dat
a
t
o
(10).
4)
From
pi
n
s
43,
42,
and 41,
c
a
l
c
ul
a
t
e t
he RG
B
s
t
ar
t
poi
n
t
and i
t
s
gra
d
i
ent
(dec
i
bel
c
onvers
i
on) i
n
rel
a
t
i
on
t
o
t
he of
f
poi
nt
i
n
a
c
c
o
rdan
c
e
w
i
t
h
Fi
g
.
1.
T
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TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
T
20
A
nal
og
RGB
Gai
n
A
or
B
A
or
B
A
or
B
A A
A B B
A
1) I
nput
s
i
gnal
1
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 53
and adj
us
t
t
h
e
dri
v
e adj
ust
m
en
t
da
t
a
s
o
t
h
a
t
t
he pi
c
t
ure peri
o
d
am
p
l
i
t
ude
s
o
f
pi
n
s
41 and
42 are e
qual
t
o
t
hat
of
p
i
n 43.
2)
A
ppl
y 5V
f
r
o
m
an ex
t
e
rnal
pow
er s
uppl
y t
o
pi
n
32.
3) I
nput
s
i
gnal
1
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 35.
4)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43.
(
V
43
R
)
5)
A
s
i
n
s
t
ep
s
2)
and 3) above,
i
nput
t
o
pi
n 34
and
m
e
a
s
ure pi
n
42,
t
h
e
n
i
nput
t
o
pi
n 33
and
m
e
a
s
ure pi
n
41.
(V
42
G
, V
4
1
B
)
6) G
TX
R
= V
4
3
R
/
0
.
2
G
TX
G
= V
4
2
G
/
0.
2
G
TX
B
= V
4
1
B
/
0.
2
T
21
A
nal
og RGB
W
h
i
t
e P
e
a
k
S
l
i
c
e
Level
A A A
1)
Repeat
st
ep 1) o
f
T
20
.
2)
A
ppl
y 5V
f
r
o
m
an ex
t
e
rnal
pow
er s
uppl
y t
o
pi
n
32.
3)
S
e
t
t
he
RG
B
c
ont
ra
s
t
da
t
a
t
o
t
he m
a
x
i
m
u
m
(7F).
4)
Connec
t
an
ex
t
e
rnal
power s
uppl
y t
o
pi
n
35,
i
n
c
r
ea
s
e
t
he vol
t
age
gradual
l
y
f
r
o
m
3
.
0V
,
and
m
eas
ure
t
he pi
c
t
ure peri
od a
m
pl
i
t
ude vol
t
ag
e
w
hen pi
n 43 i
s
c
l
i
pped
.
5)
A
s
i
n
s
t
ep
s
3)
and 4) above,
i
nput
t
o
pi
n 34
and
m
e
a
s
ure pi
n
42,
t
h
e
n
i
nput
t
o
pi
n 33
and
m
e
a
s
ure pi
n
41.
T
22
A
nal
og RGB
B
l
ack
P
eak
Li
m
i
t
e
r Level
1)
Repeat
st
ep 1) o
f
T
20
.
2)
A
ppl
y 5V
f
r
o
m
an ex
t
e
rnal
pow
er s
uppl
y t
o
pi
n
32.
3)
S
e
t
t
he
RG
B
c
ont
ra
s
t
da
t
a
t
o
t
he m
a
x
i
m
u
m
(7F).
4)
Connec
t
an
ex
t
e
rnal
power s
uppl
y t
o
pi
n
35,
dec
reas
e
t
h
e
vol
t
age
gradual
l
y
f
r
o
m
4
.
5V
,
and
m
eas
ure
t
he vol
t
age w
hen pi
n 43 i
s
c
l
i
pped.
5)
A
s
i
n
s
t
ep
s
3)
and 4) above,
i
nput
t
o
pi
n 34
and
m
e
a
s
ure pi
n
42,
t
h
e
n
i
nput
t
o
pi
n 33
and
m
e
a
s
ure pi
n
41.
T
A
1276AN
200
2-
03-
2
9
60
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
T
23
RGB
Cont
ra
s
t
A
d
j
u
s
t
m
ent
Charac
t
e
ri
st
i
c
s
A
or
B
A
or
B
A
or
B
A A
A B B
A
1)
Repeat
st
ep 1) o
f
T
20
.
2)
A
ppl
y 5V
f
r
o
m
an ex
t
e
rnal
pow
er s
uppl
y t
o
pi
n
32.
3) I
nput
s
i
gnal
1
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 35.
4)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43 w
hen t
he RGB
c
ont
r
a
s
t
dat
a c
hange
t
o
t
he
m
a
x
i
m
u
m
(7F),
t
he
c
ent
er (40),
and
t
he
m
i
ni
m
u
m
(00).
(vuT
X
R
MA
X
, v
u
T
X
R
CNT
, v
u
T
X
R
MI
N
)
5)
Cal
c
ul
at
e
t
he
m
a
x
i
m
u
m
and
m
i
ni
m
u
m
a
m
pl
i
t
ude ra
t
i
os usi
ng deci
bel
c
onvers
i
on.
(DRG+,
DRG
-
)
6)
A
s
i
n
s
t
ep
s
3)
,
4) and 5)
above,
i
n
put
t
o
pi
n 34
and
m
e
a
s
ure pi
n 42
,
t
hen
i
nput
t
o
pi
n 33
and
m
e
a
s
ure pi
n
41.
T
24
A
nal
og RGB
B
r
i
ght
ness A
d
j
u
s
t
m
ent
Charac
t
e
ri
st
i
c
s
A
or
B
A
or
B
A
or
B
1)
Repeat
st
ep 1) o
f
T
20
.
2)
I
nput
s
i
gnal
2 t
o
pi
ns 33,
34,
and 3
5
.
3)
A
ppl
y 5V
f
r
o
m
an ex
t
e
rnal
pow
er s
uppl
y t
o
pi
n
32.
4)
A
d
j
u
st
t
he s
i
gnal
2
a
m
pl
i
t
ude A
s
o
t
hat
t
he
pi
c
t
ure
peri
o
d
a
m
pl
i
t
ude
o
f
pi
n
43 i
s
0.
5
V
p-p
.
5)
M
eas
ure t
he pi
c
t
ure peri
od vol
t
ag
e of
pi
n
s
43
,
42
,
and 41
w
hen t
he
RGB
bri
ght
nes
s
c
hange t
o
t
he
m
a
x
i
m
u
m
(7F),
t
he
c
ent
er
(40),
and
t
he
m
i
ni
m
u
m
(00).
(V
brT
X
MA
X
, Vb
r
T
X
CNT
, Vb
r
T
X
MI
N
)
T
25
A
nal
og RGB
B
r
i
g
h
t
ness
Se
n
s
i
t
iv
ity
1)
Us
i
ng
t
he res
u
l
t
s
obt
ai
ned
f
r
o
m
T2
4,
c
a
l
c
ul
a
t
e
t
he RG
B
bri
ght
ne
s
s
s
ens
i
t
i
v
i
t
y
f
o
r pi
n
s
43
,
42,
and 41
.
2)
GbrT
X
= (V
brT
X
MA
X
-
Vb
r
T
X
MIN
) /
128
T
A
1276AN
200
2-
03-
2
9
61
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
T
26
Te
x
t
AC
L
C
h
a
r
a
c
te
r
i
sti
c
s
A A B
A A
A B B
A
1)
Repeat
st
ep 1) o
f
T
20
.
2)
A
ppl
y 5V
f
r
o
m
an ex
t
e
rnal
pow
er s
uppl
y t
o
pi
n
32.
3) I
nput
s
i
gnal
1
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 35.
4)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43.
(v
TX
AC
L1
)
5)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43 w
hen
-
0.
5V
DC
i
s
a
ppl
i
ed
t
o
pi
n 45
f
r
o
m
an ex
t
e
rnal
s
ourc
e
.
(v
TX
A
C
L
2
)
6)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43 w
hen
-
1V
DC i
s
appl
i
ed
t
o
pi
n 45
f
r
o
m
an ex
t
e
rnal
s
ourc
e
.
(v
TX
A
C
L
3
)
7) TX
A
C
L1
=
-
20
og (v
TX
AC
L
2
/ v
TX
AC
L1
)
TX
A
C
L2 =
-
20
og (v
TX
AC
L
3
/ v
TX
AC
L1
)
8)
S
e
t
t
he
s
ubaddress
(10) dat
a
t
o
(01) and repeat
t
h
e
c
a
l
c
ul
a
t
i
ons i
n
st
eps
5) and 6).
(TX
A
CL3,
TX
A
C
L4)
T
27
A
nal
og
O
S
D
Gai
n
A
A
or
B
A
or
B
A
or
B
1) I
nput
s
i
gnal
1
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 53
and adj
us
t
t
h
e
dri
v
e adj
ust
m
en
t
da
t
a
s
o
t
h
a
t
t
he pi
c
t
ure peri
o
d
am
p
l
i
t
ude
s
o
f
pi
n
s
41 and
42 are e
qual
t
o
t
hat
of
p
i
n 43.
2)
A
ppl
y 5V
f
r
o
m
an ex
t
e
rnal
pow
er s
uppl
y t
o
pi
n
36.
3) I
nput
s
i
gnal
1
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 39.
4)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43.
(
V
43
R
)
5)
A
s
i
n
s
t
ep
s
3)
and 4) above,
i
nput
t
o
pi
n 38
and
m
e
a
s
ure pi
n
42,
t
h
e
n
i
nput
t
o
pi
n 37
and
m
e
a
s
ure pi
n
41.
(V
42
G
, V
4
1
B
)
6) GOS
D
R
= V
4
3
R
/
0
.
2
GOS
D
G
=
V
4
2
G
/
0.
2
GOS
D
B
= V
4
1
B
/
0.
2
T
A
1276AN
200
2-
03-
2
9
62
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
T
28
A
nal
og O
S
D
W
h
i
t
e P
e
a
k
S
l
i
c
e
Level
A A A
A A
A B B
A
1)
Repeat
st
ep 1) o
f
T
27
.
2)
A
ppl
y 5V
f
r
o
m
an ex
t
e
rnal
pow
er s
uppl
y t
o
pi
n
36.
3)
A
ppl
y ex
t
e
rnal
vol
t
age t
o
p
i
n 39,
i
n
c
r
eas
e
t
he vol
t
age
gradual
l
y
f
r
o
m
0.
0V
,
and
m
e
a
s
ure
t
he pi
c
t
ure peri
od a
m
pl
i
t
ude vol
t
age w
hen pi
n 43
i
s
c
l
i
pped.
(V
OS
D1R
)
4)
A
s
i
n
s
t
ep
3) above,
i
npu
t
t
o
pi
n
38 and
m
e
a
s
ure pi
n 42
.
I
nput
t
o
pi
n
37
and m
eas
ure
p
i
n
41.
5)
S
e
t
t
he
s
ubaddress
(10) dat
a
t
o
(04) and repeat
t
h
e
m
e
a
s
ure
m
ent
s
i
n
s
t
ep
s
3) and
4).
(V
OS
D2R
, V
OS
D2G
, V
OS
D2B
)
T
29
A
nal
og O
S
D B
l
ack
P
eak
l
i
m
i
t
e
r Level
1)
Repeat
st
ep 1) o
f
T
27
.
2)
A
ppl
y 5V
f
r
o
m
an ex
t
e
rnal
pow
er s
uppl
y t
o
pi
n
36.
3)
A
ppl
y ex
t
e
rnal
vol
t
age t
o
p
i
n 39,
d
e
c
r
eas
e
t
he vol
t
age
gradual
l
y
f
r
o
m
4.
5V
,
and
m
e
a
s
ure
t
he vol
t
age w
hen pi
n 43 i
s
c
l
i
pped.
4)
A
s
i
n
s
t
ep
3) above,
i
npu
t
t
o
pi
n
38 and
m
e
a
s
ure pi
n 42
.
I
nput
t
o
pi
n
37
and m
eas
ure
p
i
n
41.
T
30
A
nal
og O
S
D Out
p
u
t
DC
V
o
l
t
age
1)
Repeat
st
ep 1) o
f
T
27
.
2)
A
ppl
y 5V
f
r
o
m
an ex
t
e
rnal
pow
er s
uppl
y t
o
pi
n
36.
3)
M
eas
ure t
he pi
c
t
ure peri
od vol
t
ag
es
of
pi
n
s
43,
42,
and 41.
(V
OSDDCR
, V
OSDDCG
, V
OSDDCB
)
T
A
1276AN
200
2-
03-
2
9
63
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
T
31
O
S
D
AC
L
C
h
a
r
a
c
te
r
i
st
ic
s
A A A
A A
B B B
A
1)
Repeat
st
ep 1) o
f
T
27
.
S
e
t
t
he s
ubaddress
(10)
dat
a
t
o
(02).
2)
A
ppl
y 5V
f
r
o
m
an ex
t
e
rnal
pow
er s
uppl
y t
o
pi
n
36.
3) I
nput
s
i
gnal
1
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 39.
4)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43.
(v
OSDACL
1
)
5)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43 w
hen
-
0.
5V
DC
i
s
a
ppl
i
ed
t
o
pi
n 45
f
r
o
m
an ex
t
e
rnal
s
ourc
e
.
(v
OSDACL
2
)
6)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43 w
hen
-
1V
DC i
s
appl
i
ed
t
o
pi
n 45
f
r
o
m
an ex
t
e
rnal
s
ourc
e
.
(v
OSDACL
3
)
7) OS
DA
CL1
=
-
20
og
(v
OSDACL
2
/ v
OSDACL
1
)
OS
DA
CL2 =
-
20
og
(v
OSDACL
3
/ v
OSDACL
1
)
8)
Change t
he s
ubaddress (10) dat
a
t
o
(00) and repeat
t
he
m
eas
ure
m
e
n
t
s
i
n
st
eps 1) t
o
7).
(
OS
D
A
CL3,
OS
D
A
CL4)
T
A
1276AN
200
2-
03-
2
9
64
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
Col
o
r
Di
f
f
erenc
e
B
l
ock
Col
o
r di
f
f
eren
c
e
bl
o
c
k c
o
m
m
o
n
t
e
s
t
c
ondi
t
i
ons
SW
13
: A,
S
W
15
: C, S
W
18
: O
N
,
S
W
20
:
O
N
,
SW
23
:
O
N
, S
W
24
:
O
N
, S
W
25
:
O
N
A
1
Col
o
r Di
f
f
erenc
e
Cont
rast
A
d
j
u
st
m
e
n
t
Charact
e
ri
st
i
c
s
A A A
A A
A
A
or
B
A
or
B
C
1)
Change t
he G and
B
dri
v
e dat
a
t
o
t
he val
ue res
u
l
t
i
ng
f
r
o
m
t
he adj
u
s
t
m
en
t
i
n
st
ep 1) o
f
T
20
.
2)
S
e
t
t
he
bri
ght
ne
ss
t
o
m
a
x
i
m
u
m
,
set
t
h
e
s
ubaddress
(0F)
dat
a t
o
(30
)
,
and s
e
t
t
h
e
s
ubaddress
(10) da
t
a
t
o
(20).
3) I
nput
s
i
gnal
3
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
23V
p-p
) t
o
pi
n
51.
4)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43 w
hen t
he uni
c
o
l
o
r da
t
a
c
hange t
o
t
he
m
a
x
i
m
u
m
(7F),
t
h
e
c
ent
er (40),
and t
h
e
m
i
ni
m
u
m
(00).
(vuCY
MA
X
, v
u
C
Y
CNT
, v
u
C
Y
MIN
)
5)
Cal
c
ul
at
e
t
he uni
c
o
l
o
r
m
a
x
i
m
u
m
a
nd
m
i
ni
m
u
m
a
m
pl
i
t
ude rat
i
o
s
u
s
i
n
g
dec
i
bel
c
onvers
i
on.
(
vuCY
)
6)
Repeat
st
eps 3),
4),
and 5) above,
i
nput
t
i
ng t
h
e
pi
c
t
ure peri
od a
m
pl
i
t
ude
0.
2V
p-p t
o
pi
n 52
and
m
e
a
s
uri
ng p
i
n 41.
A
2
C
o
lo
r
Ad
ju
s
t
m
e
n
t
Charac
t
e
ri
st
i
c
s
1)
M
eas
ure t
he vol
t
age o
f
pi
n
51.
S
e
t
t
he
bri
ght
ne
ss
t
o
m
a
x
i
m
u
m
,
set
t
h
e
s
ubaddress
(0F)
dat
a t
o
(30
)
,
and s
e
t
t
h
e
s
ubaddress
(10) da
t
a
t
o
(20).
2) I
nput
s
i
gnal
3
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
115V
p-p
) t
o
pi
n
51.
3)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
pi
n
43 w
hen t
he
c
o
l
o
r dat
a
are
c
hanged t
o
t
he
m
a
x
i
m
u
m
(7F),
t
h
e
c
ent
er
(40),
and
t
he
m
i
ni
m
u
m
(01
)
.
(vc
C
Y
MA
X
, v
c
C
Y
CNT
, v
c
C
Y
MI
N
)
4)
Cal
c
ul
at
e
t
he
c
o
l
o
r
m
a
x
i
m
u
m
and
m
i
ni
m
u
m
a
m
p
l
i
t
ude
rat
i
o
s
f
o
r
t
he
c
ent
er u
s
i
ng de
c
i
bel
c
onvers
i
on
.
(
vc
CY
+
,
vc
C
Y
-
)
5)
Repeat
st
eps 2) t
o
4) above,
i
npu
t
t
i
ng t
he pi
ct
ure peri
od a
m
pl
i
t
ude
0.
1V
p-p t
o
pi
n 52
and
m
e
a
s
uri
ng p
i
n 41.
T
A
1276AN
200
2-
03-
2
9
65
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
A
3
Col
o
r Di
f
f
erenc
e
Hal
f
Tone
Charac
t
e
ri
st
i
c
s
A A A
A A
A
A
or
B
A
or
B
C
1)
S
e
t
t
he s
ubaddress
(10)
dat
a
t
o
(20).
2) I
nput
s
i
gnal
3
(f
0
=
100k
Hz,
pi
ct
ur
e peri
od a
m
pl
i
t
ude =
0.
2V
p-p
) t
o
pi
n 51.
3)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
t
he w
a
vef
o
rm
ou
t
put
f
r
o
m
p
i
n
43.
(vHTA
RY
)
4)
A
ppl
y 1.
5
V
f
r
o
m
an ex
t
e
rnal
pow
er
s
uppl
y
t
o
pi
n
47.
5)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
t
he w
a
vef
o
rm
ou
t
put
f
r
o
m
p
i
n
43.
(vHTB
RY
)
6) GHT
RY
= v
H
TB
RY
/ v
H
TA
RY
7)
Repeat
st
eps 1) t
o
5) above w
i
t
h
p
i
n 42.
GHT
GY
= v
H
TB
GY
/ v
H
TA
GY
8)
Repeat
st
eps 1) t
o
5) above,
i
npu
t
t
i
ng s
i
gnal
t
o
pi
n 52
and
m
e
a
s
uri
n
g
pi
n
41.
GHT
BY
= v
H
TB
BY
/ v
H
T
A
BY
T
A
1276AN
200
2-
03-
2
9
66
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
A
4
Col
o
r
C
h
a
r
a
c
te
r
i
sti
cs
A A A
A A
A B B
C
1)
S
e
t
t
he s
ubaddress
(10)
dat
a
t
o
(20).
2)
I
nput
s
i
gnal
2 t
o
pi
n 51
.
3)
W
h
en t
he s
ubaddres
s
(07)
dat
a
are:
(80)
-
OFF
(82)
-
1ON
(84)
-
2ON
(86)
-
3ON
m
e
a
s
ure
t
he
c
hanges
i
n
t
h
e
a
m
pl
i
t
ude l
e
vel
of
t
he pi
n
43 out
pu
t
s
i
gn
al
at
an i
n
c
r
eas
e
t
h
e
a
m
pl
i
t
ude
A
of
s
i
g
nal
2 and pl
o
t
t
he
c
harac
t
e
ri
s
t
i
c
s
.
4) Cal
c
ul
at
e
t
he
ON gradi
en
t
, u
s
in
g
V
,
w
h
i
c
h repres
ent
s
t
he poi
nt
at
w
h
i
c
h t
he
c
harac
t
e
ri
s
t
i
c
s
be
c
o
m
e
ef
f
e
c
t
i
v
e,
and
t
he gradi
ent
of
t
h
e
l
i
near s
e
c
t
i
o
n
w
i
t
h
O
F
F
a
s
(1).
A
5
Col
o
r
Li
m
i
t
e
r
Charac
t
e
ri
s
t
i
c
s
A
1)
M
eas
ure t
he vol
t
age o
f
pi
n
51.
2)
S
e
t
t
he s
ubaddress
(10)
dat
a
t
o
(20).
3)
I
nput
s
i
gnal
2 (pi
c
t
u
re peri
od a
m
pl
i
t
ude = 0
.
4V
p-p
) t
o
pi
n 52
.
4)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
t
he pi
n 43
out
put
s
i
gnal
w
hen
t
he s
ubaddre
s
s (07) dat
a are (80)
and (81).
(CLT0,
CLT1)
T
A
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2-
03-
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9
67
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
A
6
H
i
g
h
-
Br
ig
h
t
n
e
s
s
C
o
lo
r
G
a
in
A A A
A A
A B A
C
1)
S
e
t
s
ubaddress
(10) dat
a
t
o
(20).
2)
I
nput
s
i
gnal
2 (pi
c
t
u
re peri
od a
m
pl
i
t
ude = 0
.
2V
p-p
) t
o
pi
n 52
.
3)
A
d
j
u
st
t
he c
o
l
o
r c
ont
rol
s
o
t
hat
t
h
e
pi
ct
ure
peri
od
a
m
p
l
i
t
ude
ou
t
put
f
r
om
pi
n 41 i
s
1
.
2V
p-p
.
4)
M
eas
ure t
he pi
c
t
ure peri
od a
m
pl
i
t
ude of
t
he pi
n 41
out
put
s
i
gnal
w
hen
t
he s
ubaddre
s
s (06) dat
a are (F
F).
(V
41
)
5
)
H
B
C
1
=
(
1
.2
-
V
41
) /
1
.
2
A
7
Fl
es
h
Col
o
r
Charac
t
e
ri
s
t
i
c
s
A
1)
I
nput
I
Q
de
m
odul
at
ed
f
l
e
s
h-bar s
i
g
nal
s
(15
-
s
t
ep rai
nbow
s
i
gnal
s
i
n
t
he
range
-
30
t
o
+240
) t
o
pi
n 52
(Q
s
i
gnal
) and p
i
n 51 (I
s
i
gnal
) a
s
0
.
2V
p-p
.
S
e
t
t
he
bri
ght
ne
ss
t
o
m
a
x
i
m
u
m
.
2)
S
e
t
s
ubaddress
(10) dat
a
t
o
(00).
3)
M
eas
ure t
he
s
i
gnal
s out
pu
t
f
r
o
m
pi
ns
41 and
43 and
s
w
i
t
c
h
t
o
s
ubaddres
s (10) dat
a
t
o
(06).
M
eas
ure t
h
e
out
put
si
gnal
s and
c
a
l
c
u
l
at
e
t
he vari
at
i
on
c
haract
e
ri
st
i
c
s of
t
he
c
o
l
o
r vect
or phas
e
.
4)
Dra
w
t
he vec
t
or
vari
at
i
on
c
haract
e
ri
s
t
i
c
s
c
u
rve s
how
i
ng t
he on
st
at
e
f
r
om
t
he of
f
s
t
a
t
e and
c
a
l
c
ul
at
e
t
he grad
i
ent
i
n
t
he vi
c
i
ni
t
y
of
t
he
I
ax
i
s
a
s
Fa33.
S
ubaddres
s (08)
Dat
a
(80) of
f
Dat
a
(81) on
T
A
1276AN
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03-
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9
68
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
N
O
TE PAR
A
M
E
TER
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
SW
51
SW
52
SW
53
T
E
ST
CONDIT
I
ONS
A8
C
o
lo
r
D
e
ta
il
E
m
p
h
a
si
s
A A A
A A
A A B
A
1)
Connec
t
S
G
t
o
Y
-
I
N
and
i
nput
a
4
M
Hz f
r
equenc
y s
i
ne w
a
ve at
20
m
V
p-p
.
2)
S
e
t
t
he s
ubaddress
(02)
dat
a
t
o
(01).
3)
S
e
t
t
he s
ubaddress
(10)
dat
a
t
o
(20).
4)
S
e
t
t
he s
ubaddress
(11)
dat
a
t
o
(02).
5)
Read t
he 4M
Hz a
m
pl
i
t
ude
out
put
t
o
pi
n 43.
(V
CDE0
)
6)
I
nput
s
i
gnal
2 (pi
c
t
u
re peri
od a
m
pl
i
t
ude = 0
.
3V
p-p
) t
o
pi
n 51
.
7)
S
e
t
t
he s
ubaddress
(02)
dat
a
t
o
(81).
8)
Read t
he 4M
Hz a
m
pl
i
t
ude
out
put
t
o
pi
n 43.
(V
CDE1
) (m
V
p-p
)
9)
S
e
t
t
he
s
ubaddress
(0A
)
dat
a
t
o
(8
1) and read t
he a
m
pl
i
t
ude
of
f
r
equ
enc
y
Fp out
put
t
o
pi
n 43.
(V
CDE2
) (m
V
p-p
)
10) GCD0
=
20
og
(|V
CDE1
-
V
CDE0
| /
20)
GCD1 = 20
og
(|V
CDE2
-
V
CDE0
| /
20)
T
A
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03-
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9
69
T
E
ST
CONDIT
I
O
NS (UNLE
S
S
O
T
HE
R
W
IS
E S
T
A
T
E
D
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
SW
I
T
C
H
I
N
G
M
O
D
E
NOT
E
P
A
RA
M
E
T
E
R
SW
16
SW
17
SW
18
SW
20
SW
23
SW
25
T
E
ST
CONDIT
I
O
NS
DE
F
B
l
ock
DE
F B
l
ock
c
o
m
m
on t
e
st
c
ondi
t
i
on
s
SW
13
: A,
S
W
33
: A,
S
W
34
: A,
S
W
35
: A,
S
W
37
: A,
S
W
38
: A,
SW
39
: A,
S
W
48
: O
N
, S
W
49
: O
N
, S
W
51
: B,
S
W
52
: B,
SW
56
:
ON
,
B
U
S
Da
t
a
=
pow
er on
res
e
t
D
1
H
o
r
i
z
o
n
t
a
l
Os
c
illa
tio
n
C
o
n
t
r
o
l
Se
n
s
i
t
iv
ity
D B
ON
OFF
A
ON
Cal
c
ul
at
e
t
he p
i
n 23 (H.
o
u
t
) f
r
eque
nc
y vari
at
i
on rat
e
w
hen t
he vol
t
ag
e on pi
n 20
i
s
vari
ed by
0
.
05V
w
i
t
h
a hori
z
ont
al
osc
i
l
l
a
t
i
on
f
r
equenc
y o
f
15.
734
k
H
z.
D
2
Hori
zont
al
S
y
nc P
h
a
s
e
C
ON
M
eas
ure t
he phas
e
di
f
f
erenc
e
S
PH
1
of
t
h
e
pi
n 23 (H
.
out
)
w
a
vef
o
rm
i
n
rel
a
t
i
on t
o
t
h
e
pi
n 17 (
HD.
out
) w
a
vef
o
rm
w
hen a
50Hz c
o
m
posi
t
e
vi
deo s
i
gnal
i
s
ap
pl
i
ed t
o
TP
15
.
M
eas
ure
t
he
phas
e di
f
f
erenc
e
S
PH2
of
t
h
e
pi
n 2
0
w
a
vef
o
rm
i
n
rel
a
t
i
on
t
o
t
he c
e
n
t
er of
t
h
e
i
nput
s
i
gnal
'
s
hori
z
ont
al
s
y
n
c
s
i
gnal
A
l
s
o
,
appl
y a 60Hz c
o
m
p
o
s
i
t
e vi
deo
s
i
g
nal
t
o
p
i
n 15 and
m
eas
ure
S
PH3
.
T
A
1276AN
200
2-
03-
2
9
70
TES
T
C
O
N
D
I
T
IO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
NOT
E
P
A
RA
M
E
T
E
R
SW
16
SW
17
SW
18
SW
20
SW
23
SW
25
T
E
ST
CONDIT
I
O
NS
D
3
Range of
Curve Correc
t
i
on
D
C
ON
ON
A
ON
V
a
ry t
he vol
t
age
by 1.
5
V
t
o
3.
5
V
,
appl
y a 50Hz c
o
m
p
o
s
i
t
e
vi
deo s
i
gnal
t
o
pi
n
T
P
15,
and
m
e
a
s
ure t
h
e
phas
e vari
at
i
on of
t
he pi
n 23
(H.
out
) w
a
vef
o
rm
.
D
4
Hori
zont
al
S
c
reen P
h
a
s
e
A
d
j
u
st
m
e
n
t
Range
Under t
he s
a
m
e
c
ondi
t
i
on
s
a
s
t
h
o
s
e
f
o
r D
3
,
m
e
a
s
ure pha
s
e
vari
at
i
o
n of
t
he pi
n
23 (H.
out
)
w
a
vef
o
rm
w
hen s
ubaddres
s
(0B
)
da
t
a
D
7
to
D
3
are vari
ed by (00000) t
o
(11111).
T
A
1276AN
200
2-
03-
2
9
71
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
SW
I
T
C
H
I
N
G
M
O
D
E
NOT
E
P
A
RA
M
E
T
E
R
SW
16
SW
17
SW
18
SW
20
SW
23
SW
25
SW
35
T
E
ST
CONDIT
I
O
NS
D
5
C
l
a
m
p P
u
l
s
e S
t
a
r
t
P
has
e
P
u
l
s
e
W
i
d
t
h o
f
C
l
am
p
Pu
lse
D C
ON
ON
A
ON
OP
E
N
A
ppl
y a 50Hz
c
o
m
p
o
s
i
t
e
vi
deo si
g
nal
t
o
TP
15
,
t
hen
m
e
a
s
ure t
h
e
phas
e di
f
f
erenc
e
CP
S
and t
h
e
pul
s
e
w
i
dt
h CP
W
of
t
he pi
n
35 (R
i
n
)
w
a
vef
o
rm
i
n
rel
a
t
i
on t
o
t
he
pi
n
17
(HD.
out
)
w
a
vef
o
rm
.
D
6
Gat
e
P
u
l
s
e
S
t
art
P
has
e
P
u
l
s
e
W
i
d
t
h o
f
G
a
t
e
Pu
lse
A
ppl
y a 50Hz
c
o
m
p
o
s
i
t
e
vi
deo si
g
nal
t
o
TP
15
,
t
hen
m
e
a
s
ure t
h
e
phas
e di
f
f
erenc
e
CP
S
and t
h
e
pul
s
e
w
i
dt
h CP
W
of
t
he pi
n
2 (
S
CP
)
w
a
vef
o
rm
i
n
rel
a
t
i
on t
o
t
h
e
pi
n 17 (
H
D.
out
) w
a
vef
o
rm
.
T
A
1276AN
200
2-
03-
2
9
72
T
E
ST
CONDIT
I
O
NS (UNLE
S
S
O
T
HE
R
W
IS
E S
T
A
T
E
D
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
SW
I
T
C
H
I
N
G
M
O
D
E
NOT
E
P
A
RA
M
E
T
E
R
SW
16
SW
17
SW
18
SW
20
SW
23
SW
25
T
E
ST
CONDIT
I
O
NS
D
7
Hori
zont
al
B
l
an
k
i
ng
P
u
l
s
e
Sta
r
t
Ph
a
s
e
P
u
l
s
e
W
i
dt
h
of
Hori
zont
al
B
l
ank
i
n
g
P
u
l
s
e
D C
ON
ON
A
ON
Under t
he s
a
m
e
c
ondi
t
i
on
s
as t
hos
e f
o
r D
6
,
m
eas
ure
t
he phase di
f
f
e
ren
c
e HP
S
and HP
W5
0
of
t
h
e
hori
z
ont
al
bl
ank
i
n
g
pul
s
e
.
A
l
s
o
m
e
a
s
ure
HP
W6
0
at
60Hz.
D
8
HD Out
put
S
t
art
P
has
e
HD Out
put
P
u
l
s
e
W
i
d
t
h
HD Out
put
A
m
p
l
i
t
ude
A
ppl
y a 50Hz
c
o
m
p
o
s
i
t
e
vi
deo si
g
nal
t
o
TP
15
,
t
hen
m
e
a
s
ure t
h
e
phas
e di
f
f
erenc
e
HP
S
and t
h
e
pul
s
e
w
i
dt
h HP
W
/
V
HD
o
f
t
he pi
n
17 (HD out
) w
a
vef
o
rm
i
n
rel
a
t
i
on t
o
t
he pi
n
20 (A
FC1 f
i
l
t
er)
wa
v
e
f
o
r
m
.
T
A
1276AN
200
2-
03-
2
9
73
T
E
ST
CONDIT
I
O
NS (UNLE
S
S
O
T
HE
R
W
IS
E S
T
A
T
E
D
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
S
W
ITC
H
IN
G
M
O
D
E
NOT
E
P
A
RA
M
E
T
E
R
SW
16
SW
17
SW
18
SW
20
SW
23
SW
25
T
E
ST
CONDIT
I
O
NS
D
9
V
e
rt
i
c
al
B
l
anki
ng
P
u
l
s
e
S
t
art
P
has
e (1)
V
e
rt
i
c
al
B
l
anki
ng
P
u
l
s
e
E
n
d
P
has
e (1)
D
C ON
ON
A
ON
A
ppl
y a 50Hz
c
o
m
p
o
s
i
t
e
vi
deo si
g
nal
t
o
TP
15
,
t
hen
m
e
a
s
ure
t
he phas
e
di
f
f
erenc
e
V
P
50S
1
and t
he pul
s
e
w
i
dt
h
V
P
50S
2
of
t
he pi
n 2
(S
CP
)
w
a
vef
o
rm
i
n
rel
a
t
i
on t
o
t
he pi
n
17 (s
yn
c
i
nput
)
w
a
v
e
fo
r
m
.
D
10
V
e
rt
i
c
al
B
l
anki
ng
P
u
l
s
e
S
t
art
P
has
e (2)
V
e
rt
i
c
al
B
l
anki
ng
P
u
l
s
e
E
n
d
P
has
e (2)
A
ppl
y t
h
e
s
a
m
e
c
ondi
t
i
on
s
a
s
t
hose f
o
r D
9
ex
c
ept
c
hange t
h
e
i
nput
si
gnal
t
o
a 60Hz c
o
m
posi
t
e vi
deo
s
i
gnal
and
m
e
a
s
ure t
he pha
s
e
di
f
f
erenc
e V
P
60S
and pul
s
e
w
i
dt
h V
P
60
W
.
V
e
rt
i
c
al
P
u
l
l
-
I
n
Range (1)
I
nput
a
50Hz c
o
m
p
o
s
i
t
e vi
deo
s
i
gn
al
t
o
p
i
n T
P
15,
vary t
he vert
i
c
al
f
r
equenc
y of
t
h
i
s
s
i
gnal
i
n
0.
5H-
s
t
e
p
s
,
and m
eas
ure t
he
vert
i
c
al
pu
l
l
-
i
n
ra
nge.
V
e
rt
i
c
al
P
u
l
l
-
I
n
Range (2)
Se
t D
5
to
D
3
of
s
ubaddres
s (17) t
o
(001),
vary t
he vert
i
c
al
f
r
equenc
y
of
a 60Hz
c
o
m
p
o
s
i
t
e
vi
deo
s
i
gnal
i
nput
t
o
pi
n TP
15 i
n
0.
5H-
s
t
e
p
s
,
a
nd m
eas
ure t
he
vert
i
c
al
pul
l
-
i
n
ran
ge.
V
e
rt
i
c
al
pul
l
-
I
n
range (3)
I
nput
a
50Hz c
o
m
p
o
s
i
t
e vi
deo
s
i
gn
al
t
o
p
i
n T
P
15,
vary t
he vert
i
c
al
f
r
equenc
y of
t
h
i
s
s
i
gnal
i
n
0.
5H-
s
t
e
p
s
,
and
m
eas
ure
t
he nu
m
ber
of
H
s
w
hen D
2
of
t
he 1st
byt
e
c
hanges
f
r
o
m
0
t
o
1
i
n
bu
s
read
m
ode.
A
l
s
o
c
heck
t
hat
D
1
of
t
he 1
s
t
byt
e
i
s
0
w
hen 1V
= 312.
5H,
w
hen D
1
i
s
1
i
n
bus
read
m
ode,
and 1V
<311
.
5
o
r
1V
>313.
5H.
D
11
V
e
rt
i
c
al
pul
l
-
I
n
range (4)
I
nput
a
60Hz c
o
m
p
o
s
i
t
e vi
deo
s
i
gn
al
t
o
p
i
n T
P
15,
vary t
he vert
i
c
al
f
r
equenc
y of
t
h
i
s
s
i
gnal
i
n
0.
5H-
s
t
e
p
s
,
and
m
eas
ure
t
he nu
m
ber
of
H
s
w
hen D
2
of
t
he 1st
byt
e
c
hanges
f
r
o
m
1
t
o
0
i
n
bu
s
read
m
ode w
hen.
Al
so
ch
e
c
k
th
a
t
D
1
o
f
t
he 1
s
t
by
t
e
i
s
0
w
hen 1V
= 262.
5H
,
D
1
i
s
1
i
n
bus
read
m
ode
,
and 1
V
<261.
5
or
1V
>263.
5H.
T
A
1276AN
200
2-
03-
2
9
74
TES
T
C
O
N
D
I
TIO
N
S
(
U
N
L
ES
S
O
T
H
E
R
W
I
S
E
ST
AT
ED
,
V
CC1
= 5
V
,
V
CC2
/ V
CC3
/
D
E
F V
CC
= 9
V
,
Ta
= 25
3
C)
SW
I
T
C
H
I
N
G
M
O
D
E
NOT
E
P
A
RA
M
E
T
E
R
SW
16
SW
17
SW
18
SW
20
SW
23
SW
25
SW
33
SW
34
SW
35
SW
37
SW
38
SW
39
#32
#36
#47
T
E
ST
CONDIT
I
O
NS
D
12
RGB
Ou
t
put
V
e
rt
i
c
al
B
l
anki
ng P
u
l
s
e
S
t
art
P
has
e (1)
RGB
Ou
t
put
V
e
rt
i
c
al
B
l
anki
ng P
u
l
s
e
E
n
d
P
has
e (1)
D C
ON
ON
A
ON
A
Gro-un
d
A
ppl
y a 50Hz
c
o
m
p
o
s
i
t
e
vi
deo si
g
nal
t
o
TP
15
,
t
hen
m
e
a
s
ure t
h
e
phas
e d
i
f
f
erence V
R
50S
1
and
t
he pul
s
e
w
i
dt
h V
R
50S
2
of
t
he
pi
n
43
(R.
out
)
w
a
vef
o
rm
i
n
rel
a
t
i
on t
o
t
h
e
pi
n 15 (
s
ync
i
nput
)
wa
v
e
f
o
r
m
.
S
i
m
i
l
a
rl
y,
m
eas
ure pi
n
s
42
and 41.
D
13
RGB
Ou
t
put
V
e
rt
i
c
al
B
l
anki
ng P
u
l
s
e
S
t
art
P
has
e (2)
RGB
Ou
t
put
V
e
rt
i
c
al
B
l
anki
ng P
u
l
s
e
E
n
d
P
has
e (2)
A
ppl
y t
h
e
s
a
m
e
c
ondi
t
i
on
s
a
s
t
hose f
o
r D
12
ex
c
ept
c
hange
t
he i
npu
t
s
i
gnal
t
o
a
60Hz
c
o
m
p
o
s
i
t
e
vi
deo si
gnal
and
m
eas
u
r
e t
he phas
e
di
f
f
erenc
e
V
P
60S
1
and pul
s
e
w
i
dt
h
VP
60S
2
.
TA1276AN
2002-03-29
75
CHROMA TEST SIGNALS
TEXT / COLOR DIFFERENCE TEST
SIGNALS
1)
Input signal C-1
1) Video
signal
2)
Input signal C-2
2)
Input signal 1
3)
Input signal C-3
3)
Input signal 2
4)
Input signal C-4
4)
Input signal 3
T
A
1276AN
200
2-
03-
2
9
76
VER
TI
C
A
L
O
U
TP
U
T
P
U
LSE WI
D
T
H
/ VE
R
T
I
C
A
L
O
U
TP
U
T
P
U
LSE
PH
A
SE V
A
RI
A
T
IO
N
/
VER
TI
C
A
L
O
U
TP
U
T
P
U
LSE P
H
A
S
E
R
A
NGE
T
A
1276AN
200
2-
03-
2
9
77
RGB V
E
R
TIC
A
L
BL
ANKING P
U
LS
E
S
T
A
R
T P
H
A
S
E
/ E
ND P
H
A
S
E
T
A
1276AN
200
2-
03-
2
9
78
TE
S
T
CIRCUIT
T
A
1276AN
200
2-
03-
2
9
79
A
P
PLIC
A
T
ION CIRCU
IT 1-
NORMA
L
SC
A
N
(
3
.
58NT
S
C)
T
A
1276AN
200
2-
03-
2
9
80
A
P
PLIC
A
T
ION CIRCU
IT 2-
NORMA
L
SC
A
N
(
4
.
43P
A
L
/
4.
43NT
S
C /
3.58NT
S
C)
T
A
1276AN
200
2-
03-
2
9
81
A
P
PLIC
A
T
ION CIRCU
IT 3-
NORMA
L
SC
A
N
(
4
.
43P
A
L
/
4.
43NT
S
C /
3.58NT
S
C /
SEC
A
M
)
T
A
1276AN
200
2-
03-
2
9
82
A
P
PLIC
A
T
ION CIRCU
IT 4-
NORMA
L
SC
A
N
(3
.5
8
N
T
S
C
/ M
-
P
A
L
/ N
-
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A
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T
A
1276AN
200
2-
03-
2
9
83
A
P
P
L
IC
A
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ION CIRCU
IT 5
-
DOUBLE
S
C
A
N
(
3
.
58NT
S
C)
TA1276AN
2002-03-29
84
AKB APPLICATION CIRCUIT
TA1276AN
2002-03-29
85
PACKAGE DIMENSIONS
Weight: 5.55g (Typ.)
TA1276AN
2002-03-29
86
TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor
devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical
stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of
safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of
such TOSHIBA products could cause loss of human life, bodily injury or damage to property.
In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as
set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and
conditions set forth in the "Handling Guide for Semiconductor Devices," or "TOSHIBA Semiconductor Reliability
Handbook" etc..
The TOSHIBA products listed in this document are intended for usage in general electronics applications
(computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances,
etc.). These TOSHIBA products are neither intended nor warranted for usage in equipment that requires
extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or
bodily injury ("Unintended Usage"). Unintended Usage include atomic energy control instruments, airplane or
spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments,
medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in this
document shall be made at the customer's own risk.
The products described in this document are subject to the foreign exchange and foreign trade laws.
The information contained herein is presented only as a guide for the applications of our products. No
responsibility is assumed by TOSHIBA CORPORATION for any infringements of intellectual property or other
rights of the third parties which may result from its use. No license is granted by implication or otherwise under
any intellectual property or other rights of TOSHIBA CORPORATION or others.
The information contained herein is subject to change without notice.
000707EBA
RESTRICTIONS ON PRODUCT USE
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