PANASONIC AN5337K

ICs for TV
AN5337K
NTSC Video Signal Processor IC
■ Overview
Unit : mm
47.7±0.3
■ Features
• Video : Wide bandwidth filter, adjustable preshoot and
1.0±0.25
overshoot, adjustable aperture control, ABL input
0.5±0.1
1.778
The AN5337K is suitable for processing of video, chroma, RGB, synchronization, and deflection signals of
NTSC system. It incorporates an I2C bus controller.
• Chroma : ACC filter, color difference output
• RGB : Color difference input, RGB output
• Synchronization : Synchronous BLK input/output,
(0.7)
adjustable AFC1 time-constant, adjustable horizontal
center
• Deflection : Generation of parabola waves and sawtooth waves, distortion correction
3.85±0.3
(3.3)
+ 0.2
13.7±0
0.05
0.25 –
(15.24)
3 to 15˚
52-Pin Shrunk DIL-Plastic Package (SDIP052-P-0600A)
ICs for TV
AN5337K
■ Block Diagram
Color Track
ABL
C in
37
36
34
35
Contrast
Control
Contrast
(7+1)
Y Clamp
5V
ACC
Amp. 1
ACC
Amp. 2
Bias 2
DEMOD
Pre over
Y delay
line
Apacon
delay
175ns
Apacon
delay
125ns
Apacon
delay
Y delay line 50ns
(1)
Sharpness
Apacon
delay
50ns
33
ACC
Det.
Y Clamp
32 CW out
VCO
sharpness
(7)
Apacon delay
(1)
Color
Track
Phase
Shift
APC
31
APC Filter
30
Color track ON/OFF
(1)
Bluming level
IRE
Voltage
38
Killer Filter
Killer
Imp.trs
3.58 VCO
Bright
29 B–Y out
Voltage
Bright
Pedesta1
APL Det.
39
Bright
(8)
Bright
Control
Bright
min.Det.
White
max.Det.
APL Det.
DC tra
(1)
IRE Gain
gCont
White max.Det.
Service SW
Black Slice
(1)
(31SW)
41
Black min.Det.
42
Y in
43
γ Gain γ Level
(4)
(4)
30/60
Cont Gain
Under 60
Cont
Black Gain
Black
60 IRE (4)
APL
Det.
EW Contrast2 (3+SW)
EW Contrast1
(3+SW)
Corner
Control
TINT
(7)
Color/Black
Compensation
Change (1)
40
ACL
TINT
(1)
Clamp
(1)
Brt. Cont
Clamp
(2)
DEMAXIS
(1)
Demodulate Shift
(5)
Color
Demodulate Gain (7+1)
(6)
TINT
(2)
DEMAXIS
(2)
G –Y
MATRIX
RGB
MATRIX
(2)
Color
Control
Sync.in
45
46
H Sync.
Sep.
H.V. Sync.
Sep.
Neck
Lock Det.
47
Lock Det.
AFC FBP in S.C.P in 48
S.C.P out
On Screen
R
Cut off R
(8+2)
23 G in
Drive
G
On Screen
G
Service SW
(1)
Mute
(1)
22 B in
AFC 2
On Screen
B
FBPin
50
V Pulse
51
Cut off
B
Cut off
B Clamp
Drive 2
(7+SW)
Cut off
R Count
down
VCO
Cut off G
(8)
Drive
(B)
BLK PLS
(1)
AFC 1
Cut off
G
Cut off
(G Clamp)
I2C/DAC
BG P2
49
Power
ON/OFF
25 B–Y in
Cut off
R
Cut off
(R Clamp)
Drive 1
(7+SW)
Vertical Place
(6)
V Count down
Shut/Hold
Down
Cut off B
(8 + 2)
S.C.P
On Screen
AFC Gain
(2)
On Screen Drive
(Pulse)
BLK
BLK
21 Ys in
SCP change
(1)
AFC 1
GND
26 R–Y in
24 R in
V Amp.
Palabolic
Correction
44
V/C/RGB
Drive
Drive
R
EW Amp.
Sync.in
27
WHITE
White character Slice (4)
White character Compensation (4)
Parabola
Vertical Linearity (6)
Vertical Amplitude (7)
Vertical S character (6)
Vertical EHT (4)
EW Parabola (6)
Horizontal – EHT (4)
RGB
MATRIX
(3)
G–Y Ratio
SW
V/I Converter
Ramp
28 R–Y out
RGB
MATRIX
(1)
Color
Control
20 EHT in
52
1
Sync.DEF
GND
2
3
4
5
6
7
8
H out
6.3V
SDA
9
10
11
12
SCL
IIC GND
2fH VCO
AFC 2
X–RAY
X–RAY–REF
AGC
RAMP
13
14
15
16
17
18
19
Corner
V out
Parabola
VCC 9V
R out
G out
B out
ICs for TV
AN5337K
■ Pin Descriptions
Pin No.
Pin name
Pin No.
Pin name
1
Sync. Def GND
27
V/C/RGB GND
2
503kHz VCO
28
R –Y output
3
AFC2 filter
29
B –Y output
4
High voltage det. input (X–ray)
30
3.58MHz VCO
5
High voltage det. ref. voltage
31
Chroma APC filter
6
Horizontal drive pulse output
32
VCO output
7
Horizontal power supply (HVCC)
33
Killer filter
8
I2C SDA input
34
Color track filter
2
9
I C GND
35
ABL input
10
I2C SCL input
36
Chroma input
11
Reference ramp waveform AGC
37
5V power supply (VCC2)
12
Reference ramp waveform generation
38
Blooming level input
13
Corner slice level
39
Filter for APL detection
14
Ver. deflection saw-tooth output
40
Filter for white detection
15
EW output
41
Black det. filter/color control
16
9V power supply (VCC1)
42
ACL input
17
R output
43
Y signal input
18
G output
44
V sync. sep filter
19
B output
45
H sync. input
20
EHT voltage detection
46
V sync. input
21
Ys input
47
Lock det. filter
22
On-screen B input
48
Sand castle pulse input/FBP input for AFC
23
On-screen G input
49
Sand castle pulse output
24
On-screen R input
50
Flyback pulse (FBP) input for BLK
25
B –Y input
51
V pulse output
26
R –Y input
52
AFC1 filter
■ Absolute Maximum Ratings
Parameter
Supply voltage
Supply current
Symbol
Rating
VCC1
9.6
VCC2
5.6
ICC1 (I16)
113
ICC2 (I37)
89
I7
26
Unit
V
mA
Power dissipation Note 2)
PD
1481
Operating ambient temperature Note 1)
Topr
–20 to + 70
˚C
Storage temperature Note1)
Tstg
–55 to +150
˚C
Note 1)
Note 2)
mW
Ta= 25˚C except operating ambient temperature and storage temperature.
Allowable power dissipation of the package at Ta=70˚C.
■ Recommended Operating Range (Ta= 25˚C)
Parameter
Operating supply voltage range
Operating supply current range
Symbol
VCC1
V16–1, 9, 27
VCC2
V37–1, 9, 27
I7
Range
8.5V to 9.0V to 9.5V
4.5V to 5.0V to 5.5V
15mA to 20mA to 25mA
ICs for TV
AN5337K
■ Electrical Characteristics (Ta= 25±2˚C)
Parameter
Symbol
Condition
min
typ
max
Unit
DC Characteristics
Circuit current
I16
Circuit current
I37
Synchronous input terminal voltage
V45–1
Synchronous input terminal voltage
V46–1
Video input terminal voltage
V43–27
ABL input terminal voltage
V35–27
ACL input terminal voltage
V42–27
Blooming level terminal voltage
V38–27
Chroma input terminal voltage
V36–27
B –Y output terminal voltage
V29–27
R –Y output terminal voltage
V28–27
VCC1 : 9V, VCC2 : 5V
Pin7 with 380Ω 12V
VCC1 : 9V, VCC2 : 5V
Pin7 with 380Ω 12V
VCC1 : 9V, VCC2 : 5V
Pin7 with 380Ω 12V
VCC1 : 9V, VCC2 : 5V
Pin7 with 380Ω 12V
VCC1 : 9V, VCC2 : 5V
Pin7 with 380Ω 12V
VCC1 : 9V, VCC2 : 5V
Pin7 with 380Ω 12V
VCC1 : 9V, VCC2 : 5V
Pin7 with 380Ω 12V
VCC1 : 9V, VCC2 : 5V
Pin7 with 380Ω 12V
VCC1 : 9V, VCC2 : 5V
Pin7 with 380Ω 12V
VCC1 : 9V, VCC2 : 5V
Pin7 with 380Ω 12V
VCC1 : 9V, VCC2 : 5V
Pin7 with 380Ω 12V
74
90
106
mA
59
71
83
mA
0.8
1.3
1.8
V
0.8
1.3
1.8
V
2.7
3.2
3.7
V
2.5
3.0
3.5
V
2.5
3.0
3.5
V
2.2
2.7
3.2
V
1.5
2.0
2.5
V
2.3
2.8
3.3
V
2.3
2.8
3.3
V
5.9
6.3
6.7
V
30
Ω
15.45
15.75
16.05
kHz
0
100
200
Hz
34.4
37.5
40.6
%
5.2
V
2.9
3.4
V
Horizontal Signal Processing
Horizontal stabilized supply voltage
HVCC
Constant voltage operation resistor
RHVCC
Horizontal free-run oscillation frequency (1)
fHO variation to rising power supply
Horizontal output pulse duty
Horizontal output starting voltage
Horizontal output level
Horizontal pull-in range
fHO–1
∆fHO
VCC3
VCC1 : 9V, VCC2 : 5V
Pin7 with 380Ω 12V
I7 · 15 to 25mA
fHO frequency difference when
other supply OFF→ON
τHO
VfH (S)
f=10k to 20kHz when horizontal
oscillation output is more than 1VP–P
VfH
fPH
2.4
fHO=15.73kHz
±400
Hz
H center variable range (1)
TDH
Phase lead at 1A[10]→ [00]
1.8
2.5
3.2
µs
H center variable range (2)
TDH
Phase lead at 1A[10]→ [1F]
– 3.0
– 2.3
–1.6
µs
5.1
5.8
6.5
V
– 0.1
0
0.5
V
V
Lock detector output voltage (1)
V47–M
Synchronized
Lock detector output voltage (2)
V47–L
Not synchronized
Lock detector output voltage (3)
V47–T
Shut down
7.6
8.3
9.0
2.65
2.8
2.95
V
Sandcastle pulse output
1.8
2.5
3.2
µs
VBGP
VCC : typ.
4.0
4.3
4.6
V
Sandcastle pulse output level (HBLK)
VHBLK
VCC : typ.
2.7
3
3.3
V
Sandcastle pulse output level (VBLK)
VVBLK
VCC : typ.
1.2
1.5
1.8
V
Shut-down operation voltage
VHth
Vref (= Pin5) = 6.2V
Burst gate pulse width
TBGP
Sandcastle pulse output level (BGP)
Vertical Signal Processing
Vertical output pulse width
τVO
360
380
400
µs
Vertical output level
V51H
1.3
1.8
2.3
V
fVO
58.8
60
61.2
Hz
τVBLK
1.09
1.12
1.15
ms
Vertical output free-run frequency
Vertical blanking pulse width
ICs for TV
AN5337K
■ Electrical Characteristics (cont.) (Ta= 25±2˚C)
Parameter
Symbol
Condition
min
typ
max
Unit
Y Signal Processing
Video voltage gain
Video voltage gain relative ratio
Video voltage gain relative ratio DL
AYG
Cont : max. Sharp : min.
17
20
23
dB
AY
Ratio between channels
Drive : typ.
– 2.5
0
2.5
dB
Y delay line ON/OFF
–1.5
0
1.5
dB
AYGd1
Sharpness 1
AG (SH)1
f=4MHz, aper. con. SW : 00
11.5
14.5
17.5
dB
Sharpness 2
AG (SH)2
f=3MHz, aper. con. SW : 02
11.5
14.5
17.5
dB
Contrast control range max.
AG (CON)
Sharp : min. Cont : typ.
3.5
6
8.5
dB
Contrast control min. value
yG (CON)min.
30
200
mV
Brightness variable range
VBR
Contrast : min.
No input, Bright : min.→max.
APL10→ 90%
DC transmission range : – direction
APL10 → 90%
DC transmission range : + direction
3.0
3.7
4.4
V
90
96
102
%
96
103
110
%
DC restoration rate 1
TDC1
DC restoration rate 2
TDC2
Y signal delay time 1
τDL1
Y delay line : ON
260
325
390
ns
Y signal delay time 2
τDL2
Y delay line : OFF
160
205
250
ns
–6
–3
+1
dB
–5
–2
+2
dB
8
11
14
dB/V
2.7
3.4
4.1
V/V
– 0.1
0
0.1
V
1.6
1.95
2.3
V
– 0.12
0
0.12
V
0.08
0.18
0.28
V
0.5
0.85
1.2
V
3.2
3.9
4.6
V
2.0
2.4
2.8
V
–1
0
+1
dB
–4
–1.5
+1
dB
– 48
– 43
– 38
dB
+2
+4
dB
1.04
1.34
1.64
VP–P
0.82
1.07
1.32
VP–P
0.48
0.56
0.64
times
Y frequency characteristics 1
∆y1 (Y)
Y frequency characteristics 2
∆y2 (Y)
ACL characteristics
∆yACL
10MHz attenuation range
DL for f=3MHz : ON
10MHz attenuation range
DL for f=3MHz : OFF
Pin42 3V→3.5V
ABL characteristics
∆YABL
Pin35 2.7→3.5V
Black extention range
∆YBL1
Black extention gain
∆YBL2
Input : full black, Pin41 : 5V→
CR filter
Input : full black, Pin41 : 3V
Black gain : min.→max.
Black extention start point
∆YBL3
Pin41 ; 5V, adjust Y output to 2.7VP–P by contrast,
after that connect Pin45 to CR filter.
Black extention range
∆YBL4
g correction range min. to max.
Yγ
Blooming level variation range
∆YBLM
Pedestal level (standard)
YG
Black level : min.
Adjust output 0.8VP–P by contrast.
After that make black level be maximum.
White γ gains : max.
White γ level : min. to max.
Blooming
DCPin38 : 0.5V→4.5V
Cut-off : 80
Chroma Signal Processing
ACC characteristics 1
ACC1
ACC characteristics 2
ACC2
Killer tolerance
ek
Killer tolerance hysteresis
ek
Demodulation output amplitude B–Y
eOB
Demodulation output amplitude R–Y
eOR
Demodulation output ratio
R/B
Color bar signal
(burst 300mVP–P)
Color bar signal
(burst 18mVP–P)
Color bar burst
0dB=150mVP–P
Color bar signal burst
0dB=150mVP–P
Color bar signal
(burst 150mVP–P)
Color bar signal
(burst 150mVP–P)
Rainbow signal R–Y/B–Y
output ratio
ICs for TV
AN5337K
■ Electrical Characteristics (cont.) (Ta= 25±2˚C)
Parameter
Demodulation angle B–Y
Symbol
Condition
∠B
min
typ
max
–5
0
83
88
Unit
5
degree
Demodulation angle R–Y
∠R
93
degree
Color residue
ekiller
Killer filter terminal grounded
by 20kΩ
50
mVP–P
Demodulation output residual carrier
ecar
No signal input
50
mVP–P
APC pull-in range Low
fpull
Burst frequency variation
500
600
APC pull-in range High
fpull
Burst frequency variation
–500
– 600
600
800
1100
mVP–P
Hz
Hz
Hz
CW output amplitude
ecw
Free-run frequency
fco
Shift from 3.579545MHz
–200
0
200
θt
Pin25 356mVP–P
Pin26 200mVP–P DAC value
where R.B outputs are coincident
[2F]
[3A]
[4A]
RGB Signal Processing
Tint center
Tint variable range max. *
Tint variable range min. *
R–Y demodulation axis variable range *
B–Y ratio variable range (1) *
B–Y ratio variable range (2) *
G–Y/R–Y ratio (1) *
∆θ1
Tint : typ.→max.
40
65
∆θ2
Tint : typ.→min.
–37
–50
16
28
39
degree
0
0.25
times
1.5
1.75
times
∆θDem
Demodulation axis : min.→max.
AB–Y min.
Demodulation ratio : typ.→min.
AB–Y min.
Demodulation ratio : typ.→max.
1.25
degree
degree
eG/eR2
G–Y ratio change-over : 02
0.23
0.3
0.37
times
G–Y/R–Y ratio (2) *
G–Y/B–Y ratio (1) *
eG/eR1
G–Y ratio change-over : 01
0.37
0.47
0.57
times
eG/eB2
G–Y ratio change-over : 02
0.12
0.2
0.28
times
G–Y/B–Y ratio (2) *
eG/eB1
G–Y ratio change-over : 01
0.18
0.27
0.36
times
RGB output blanking voltage
EBLK
Bright : typ. cut-off
Cont : typ.
Color : typ.→max.
Cont : typ.
Color : typ.→max.
Cont : typ.
Color : typ.→min.
Drive SW : 00→04
Drive : min.→max.
Cut off SW
Cut off : min.→max.
0.7
1.1
1.5
V
3.4
5.0
6.6
dB
25
50
mV
3.5
6
8.5
dB
4
6
8
dB
1.6
2.1
2.6
V
Cut-off min. to max.
Color control range max. *
Color control min. value *
AB–Ycl
max.
AB–Ycl
min.
Color difference contrast variable range *
AB (CON)
Drive control range
AR (DR)
Cut-off R · B control range
V (CO)
Cut-off G control range
V (CO)G
On-screen voltage gain
AyG
On-screen contrast range
On-screen contrast min. value
On-screen frequency characteristics
AyG (ON)
AyG (ON)min.
∆e
0.6
1.1
1.6
V
Ys=1V Contrast ; max.
8
10
12
dB
Ys=1V typ.→max.
0
1.5
3.5
dB
0.5V input
0.1
0.3
0.5
VP–P
Attenuation quantity at f=10MHz
to f=3MHz
–6
–3
+1
dB
Deflection Signal Processing
Standard vertical output amplitude
Vout
2.2
2.6
3.0
VP–P
Standard EW output amplitude
VEW
1.8
2.2
2.6
VP–P
(0.2)
(1.0)
VP–P
(5.5)
Hz/˚C
(1.2)
Hz/mV
(0.83)
mA
Horizontal Signal Processing
Separable sync. signal
fHO ambient temperature dependency
Horizontal oscillation frequency control sensitivity
AFC1 reference current (1)
VIN
∆fHO
Ta
Input : full black sync. level
Ta= –20 to + 70˚C
bH
I30 (1)
0D [30]
Note) The characteristics value in parentheses is not a guaranteed value, but reference one on design.
* The state in which R, B amplitudes and G amplitude are made coincident, is come out by means of drive I, II adjustments where
Y signal is inserted to Pin17.
ICs for TV
AN5337K
■ Electrical Characteristics (cont.) (Ta= 25±2˚C)
Parameter
Symbol
Condition
min
typ
max
Unit
AFC1 reference current (2)
I30 (2)
0D [20]
(1.33)
mA
AFC1 reference current (3)
I30 (3)
0D [10]
(1.83)
mA
AFC1 reference current (4)
I30 (4)
0D [00]
(2.33)
mA
F.B.P slice level (blanking)
VFBP–1
(0.7)
V
F.B.P slice level (AFCI)
VFBP–2
(2.5)
V
F.B.P delay time range
TH–FBP
(19)
µs
(0.3)
µs
∆V49 (Ta)
(1.8)
mV/deg
∆V48 (Ta)
(0)
mV/deg
∆V50 (Ta)
(–1.8)
mV/deg
(1)
mV/deg
Zener temperature characteristics +1.8mV/deg
(0)
mV/deg
VCC2 5V±0.5V
(1)
V/V
VCC2 5V±0.5V
(0.74)
V/V
VCC2 5V±0.5V
(0.44)
V/V
(3.87)
ms
(0.2)
ms
B.G.P start position
Sandcastle pulse output temperature characteristics
Sandcastle pulse input threshold level
temperature characteristics
FBP input threshold level temperature
characteristics HBLK
FBP input threshold level temperature
characteristics AFCI
H center : typ.
Hout rise to FBP center
Horizontal sync. rear edge to
Burst gate pulse front edge
X– ray inner reference temperature characteristics
Sandcastle pulse output supply voltage
dependency BGP
Sandcastle pulse output supply voltage
dependency HBLK
Sandcastle pulse output supply voltage
dependency VBLK
Vertical Signal Processing
Vertical BLK phase (WIDE)
Vertical BLK phase (NORMAL)
PVBLK (W)
PVBLK
Neck break operation Pin49 voltage
V49
Vertical BLK pulse width (WIDE)
TVBLK (W)
Period from VBLK rise up to
vertical sync. fall down
Period from VBLK rise up to
vertical sync. fall down
Pin5 : 1.5V
V
(1.5)
(5.05)
ms
(40)
dB
(0.4)
dB/V
(0.18)
V/V
Y Signal Processing
Y output amplitude VCC dependency
AyG (CON)
min.
∆yG (VCC)
Y output DC voltage VCC dependency
∆YG (VCC)
Contrast variable range
Contrast : 00 to 7F
mV
Y noise level
VYNL
(7)
Delay line dynamic range
VDLmax
(0.7)
V
(50)
Y output amplitude ambient temperature dependency R
∆yR (Ta)
–20 to +70˚C
(–6)
%
Y output amplitude ambient temperature dependency G
∆yG (Ta)
–20 to +70˚C
(–8)
%
Y output amplitude ambient temperature dependency B
∆yB (Ta)
–20 to +70˚C
APL 50→100% detection
voltage ratio
(–6)
%
APL detection voltage
AAPL
(1)
(2)
(4)
times
Chroma Signal Processing
Demodulation output amplitude VCC dependency
VCO VCC dependency
e0 –V
∆fCO –V
Demodulation output ambient temperature dependency R–Y
∆eR–Y (Ta)
Burst compression tolerance
for color bar chroma
–20 to +70˚C
Demodulation output ambient temperature dependency B–Y
∆eB–Y (Ta)
–20 to +70˚C
Burst-chroma ratio tolerance
∆e0 (bst)
Note) The characteristics value in parentheses is not a guaranteed value, but reference one on design.
(0)
dB/V
(220)
Hz/V
(– 40)
%
(–3)
%
(–3)
%
ICs for TV
AN5337K
■ Electrical Characteristics (cont.) (Ta= 25±2˚C)
Parameter
Symbol
Condition
min
typ
max
Unit
RGB Signal Processing
Y→RGB crosstalk
eCT1
Crosshatch
(– 45)
dB
RGB→Y crosstalk
eCT2
Crosshatch
(– 40)
dB
Color difference input dynamic range
Internal external pedestal difference voltage
OSD input dynamic range
AVmax.
∆E (YS)
∆eG (VCC)
OSD output amplitude VCC dependency
∆eg (VCC)
RGB color difference amplitude temperature dependency
∆eG (Ta)
OSD output amplitude temperature dependency
∆eg (Ta)
∆ecolor
White character slice level range
VW
White character correction range
∆VW
C/Y ratio
VC/Y
Pedestal variation at OSD contrast
R–Y/B–Y ratio
Color track OFF/ON *
variation (1) Blue
Color track OFF/ON *
variation (2) Red
Color track OFF/ON *
variation (3) Yellow
Deflection Signal Processing
(–100)
AVmax.
RGB output amplitude VCC dependency
Color control range (External)
(2.2)
∆E (cont)
eR/eB
∆eBB
∆eBR
VCC1 8.5 to 9.5V
VCC2 4.5 to 5.5V
VCC1 8.5 to 9.5V
VCC2 4.5 to 5.5V
–20 to +70˚C
–20 to +70˚C
øE : [40]
Control ratio to DAC
Blooming DC2.5V
Color difference no input
Blooming DC2.5V
Color difference no input
Y : 0.36VB –W
C : Color bar standard
Color : typ.
Contrast : typ.
G–Y/Y zero peak ratio at
G output
YsL, YsH (BLK period low)
output DC difference
Contrast : 1E – max.
Pin25 ; 356mVP–P
Pin26 ; 200mVP–P
B –Y1.39V, R–Y1.1V,
After tint and color adjustment
Color track ON
Variation quantity at øE : 03→04
∆eRY
(0)
V
(100)
mV
(1.5)
V
(0.4)
V/V
(0)
V/V
(20)
%
(6)
%
(28)
%
(0.6)
(0.8)
(1.0)
V
(0.6)
(0.8)
(1.0)
V
(0.23)
(0.36)
(0.56)
times
(–200)
(0)
(200)
mV
(1.0)
times
(–160)
(0)
(160)
mV
(–240)
(– 40)
(–160)
mV
(–350)
(–200)
(–16)
mV
(–15)
(±22)
(±30)
%
(±8)
(±12)
(±19)
%
Vertical amplitude variation ratio
∆Vamp
Vertical linearity variation width
∆Vlin
Vertical amplitude
typ.→max., min.
Vertical linearity :
typ.→max., min.
Vertical S-correction amplitude variation ratio
(–33)
(–19)
(–5)
%
∆Vsc
Vertical S correction : max.→min.
Vertical position variation width
∆Vshift
(0.6)
(0.8)
(–1.0)
V
Vertical EHT correction amplitude variation ratio
∆VEHT
Vertical position : min.→max.
Pin62= 0V, Vertical EHT :
typ.→max., min.
(±7)
(±11)
(±15)
%
EW parabola amplitude :
min.→max.
Horizontal amplitude min.→max.
(2.8)
(4.1)
(5.4)
VP–P
(3.4)
(4.6)
(5.8)
V
(1.5)
(1.9)
(2.3)
V
EW parabola variation width
∆V
parabola
Horizontal amplitude variation width
∆VH–WIDTH
Horizontal amplitude MIN DC value
VH–WIDTH
∆VTrapz
Trapezoidal distortion correction : typ.→max., min.
(±48)
(±72)
(±96)
%
Corner correction variation ratio 1
∆Vcorner
EW corner–1 : min.→max.
(– 40)
(–28)
(–16)
%
Corner correction variation ratio 2
∆Vcorner
EW corner–2 : min.→max.
(–38)
(–26)
(–14)
%
Trapezoidal distortion correction variation ratio
Note) The characteristics value in parentheses is not a guaranteed value, but reference one on design.
* The state in which R, B amplitudes and G amplitude are made coincident, is come out by means of drive I, II adjustments where Y
signal is inserted to Pin17.
ICs for TV
AN5337K
■ Electrical Characteristics (cont.) (Ta= 25±2˚C)
Parameter
Symbol
Condition
Horizontal EHT correction variable range
∆VH–EHT
Pin20 =1V
Horizontal EHT : min.→max.
Horizontal EHT correction MIN DC value
VH–EHT
EW output VCC variation
∆VEW (VCC)
min
typ
(1.4)
(2.2)
(3.0)
V
(1.8)
(2.8)
(3.8)
V
VCC1 8.5 to 9.5V
VCC2 4.5 to 5.5V
max
(0)
Unit
%
EW amp. drive current
IEW – dr
(1.4)
mA
Ramp wave form (NORMAL)
∆Vramp
0D [00]
(2.5)
VP–P
Ramp wave form (WIDE)
∆Vramp (w)
0D [40]
(2.5)
VP–P
AGC input output current
I11
(±140)
µA
Ramp input output current (1)
I12
(4.4)
mA
Ramp input output current (2)
I12
(–90)
µA
(1.2)
V
(150)
mVP–P
Lateral line voltage ramp terminal voltage
V12–SW
Service SW : ON
Pin12 sweep
Pin11 : 1.5V, Pin49 : 2.5V
Vpulse : ON
Pin11 : 1.5V, Pin12 : 2.5V
Vpulse : OFF
0D [80]
Input Signal
ec in
Color bar chroma
330mVP–P, burst level
Y input tolerant level
y in
Sync. to white 100%
(0.5)
(0.7)
VP–P
H Sync. input tolerant level
υH in
Sync. to white 100%
(0.5)
(1.0)
(2.0)
VP–P
V Sync. input tolerant level
υV in
Sync. to white 100%
(0.5)
(1.0)
(2.0)
VP–P
Chroma input tolerant level
(90)
Sandcastle pulse external input BGP
VBGP in
VCC : typ.
(4.0)
(4.3)
(4.6)
VP–P
Sandcastle pulse external input HBLK
VHBLK in
VCC : typ.
(2.7)
(3.0)
(3.3)
VP–P
Sandcastle pulse external input VBLK
VVBLK in
VCC : typ.
(1.2)
(1.6)
(1.8)
VP–P
VFBP in
VCC : typ.
(3.5)
V
(0.4)
(0.7)
(1.2)
V
FBP input (Pin48, 50)
Ys input threshold voltage
V21
On-screen input R
e24
(0.71)
(1.0)
VP–P
On-screen input G
e23
(0.71)
(1.0)
VP–P
On-screen input B
e22
(0.71)
(1.0)
VP–P
I2C bus SDA input level H
V8
VCC2 (= 5V)
(4.0)
VCC2
V
I2C bus SDA input level L
V8
VCC2 (= 5V)
(0)
(0.7)
V
I C bus SCL input level H
V10
VCC2 (= 5V)
(4.0)
VCC2
V
I2C bus SCL input level L
V10
VCC2 (= 5V)
(0)
(0.7)
V
ACL terminal voltage range
V42
VCC : typ.
(2.7)
(4.5)
V
2
VCC : typ.
Note) The characteristics value in parentheses is not a guaranteed value, but reference one on design.
ICs for TV
AN5337K
■ Pin Descriptions
Pin No.
Pin name
1
GND
Waveform
Description
Equivalent circuit
GND for sync. and DEF
VCC 6.3V
503kHZ
2
503kHz
VCO
0.2VP–P
1.6V
Horizontal oscillation
Pin. Connected to an
external 503kHz oscillator element.
DC=1.6V
12kΩ
300Ω
2
0.18mA
10kΩ
VCC 6.3V
1kΩ
1.1V to 3.9V
3
AFC2 filter
Phase adjuster of phase
detection filter for
image position adjustment
Hi : Phase advance
Lo : Phase delay
500Ω
3
1kΩ
VCC 6.3V
3kΩ
4
High voltage
det. input
(X–ray)
DC
Shut down input pin
Threshold voltage : 2.8
V
4
1kΩ
VCC= 6.3V
5
High voltage
det. ref.
voltage
DC
Reference (comparison)
voltage for shut down
DC= 6.2V
5
11kΩ
9.1kΩ
ICs for TV
AN5337K
■ Pin Descriptions (cont.)
Pin No.
Pin name
Waveform
Equivalent circuit
Description
VCC 6.3V
63.5µs
6
Horizontal
drive pulse
output
200Ω
2.9V
0V
Output pin for horizontal drive pulse
HI : 2.9V
LO : 0V
10kΩ
6
24µs
Power supply voltage
for horizontal system.
7
HVCC
DC
7
V CC=6.3V generated
through an external
resistor
VCC 5V
100kΩ
VCC
5V
8
2
IC
SDA input
50Ω
ACK
8
2.5V
SDA signal input and
ACK signal output for
I2C
5V
0V
9
I2C
GND
Ground for I2C
VCC 5V
VCC
5V
2
10
IC
SCL input
5V
100kΩ
SCL signal input for I2C
50Ω
10
2.5V
0V
ICs for TV
AN5337K
■ Pin Descriptions (cont.)
Pin No.
Waveform
Pin name
Equivalent circuit
Description
0.47µF capacitor is
connected to Pin11.
11
Reference ramp
waveform
AGC pin
(Ramp –AGC)
VCC=5V
11
M
Connecting to an AGC
capacitor for making the
amplitude of saw-tooth
waveforms generated at
Pin12 constant
0 to 126µA
11
126µA
to 0µA
10kΩ
D.C2.1V
0.33µF capacitor is
connected to Pin12.
VCC=5V
9.45µA
12
12
M
12
Connecting to a reference saw-tooth waveform generation capacitor
Reference ramp
waveform
(Ramp –Gen)
D.C2.1V
9.45µA
2.5V
GND
2.5V
63µA
Pin%1
V pulse
63µA
VCC= 9V
120µA
13
13
Corner slice level correction
Corner slice
level
8kΩ
1.1V
VCC= 9V
14
Vertical
deflection
saw-tooth output
(V–Ramp)
2.1VP–P
GND
Pin51
V pulse
2.0V
(V
center)
Vertical deflection sawtooth output with various deflection-corrections
14
200Ω
X8
50Ω
2mA
ICs for TV
AN5337K
■ Pin Descriptions (cont.)
Pin No.
Waveform
Pin name
Equivalent circuit
Description
VCC= 9V
189µA
15
126µA
EWparabola
Pin cushion
distortion
correction
output
(EW– out)
Parabola wave for pin
cushion correction with
various deflection-corrections
H-rate saw-tooth
waveform
4.5V
15
VCC= 9V
20
EHT voltage
detection
The EHT correction occurs
linearly when the input is
between 4.0 to 2.0VDC.
Normally used at more than
4.0V
High voltage fluctuation
detection input for vertical and horizontal EHT
corrections
10kΩ
20
1kΩ
×2
×2
10kΩ
16
9V power supply
(VCC 9V)
9V power supply
9V
For maximum contrast with 1.0VP–P
R–Y and 0.5VP–P Y inputs
1kΩ
17
100Ω
R signal output
R output
17
10
kΩ
3.75VP–P
2.5V
1V
(Pedestal) (BLK)
500µA
1.7V
9V
For maximum contrast with 0.5VP–P
Y, 1.0VP–P R–Y, and 1.27VP–P B–Y
1kΩ
18
100Ω
G signal output
G output
18
10
kΩ
3.75VP–P
2.5V
1V
500µA
1.7V
ICs for TV
AN5337K
■ Pin Descriptions (cont.)
Pin No.
Waveform
Pin name
Equivalent circuit
Description
9V
For maximum contrast with 0.5VP–P
Y and 1.27VP–P B–Y
1kΩ
19
B output
100Ω
B signal output
19
10
kΩ
3.75VP–P
2.5V
1V
500µA
Pin20 is described next
to Pin15
1.7V
9V
21
At on-screen input, the
threshold level for switching between TV and onscreen is 0.7V typ.
YS input
6.5V
330Ω
21
1.5V
3.8V
9V
6.5V
On-screen data
22
22
On-screen
B input
0.7V (typ.)
On-screen B input
Reference 2V
typ. 3.3V
BGP
1.1mA
9V
6.5V
On-screen data
23
23
On-screen
G input
0.7V (typ.)
On-screen G input
Reference 2V
typ. 3.3V
BGP
1.1mA
ICs for TV
AN5337K
■ Pin Descriptions (cont.)
Pin No.
Waveform
Pin name
Equivalent circuit
Description
9V
6.5V
On-screen data
24
24
On-screen
R input
0.7V (typ.)
On-screen R input
Reference 2V
typ. 3.3V
BGP
1.1mA
9V
6.5V
25
25
Color difference
B–Y input
Color difference B–Y
input
Reference 3.3V
1.27VP–P
typ. 4.0V
BGP
1.1mA
(Differential reference 3.3V)
9V
6.5V
26
26
Color difference
R–Y input
Color difference R–Y
input
Reference 2V
1.0VP–P
BGP
1.1mA
27
GND for video, chroma
and RGB
V/C/RGB
GND
5V
1.0VP–P
28
Color difference
R–Y output
3V
Color difference R–Y
signal output
28
300µA
ICs for TV
AN5337K
■ Pin Descriptions (cont.)
Pin No.
Waveform
Pin name
Equivalent circuit
Description
5V
1.27VP–P
29
Color difference
B –Y output
Color difference B –Y
signal output
29
3V
300µA
5V
2kΩ
30
3.58MHz
oscillator
3.58-VCO oscillator
1mA
Oscillation waveform
1mA
30
300µA
75µA
Approx. 2.1V
5V
200Ω
31
31
APC filter
Chroma APC filter
2.6V
100kΩ
500Ω
2.6V
2kΩ
10kΩ
5V
50kΩ
32
3.58-VCO
oscillation output
3.58M CW
output
600mVP–P
90kΩ
100Ω
32
ICs for TV
AN5337K
■ Pin Descriptions (cont.)
Pin No.
Pin name
33
Killer filter
Waveform
Description
Killer detection filter
2.9 to 4.5V
Equivalent circuit
33
Killer detection with
reference to 3.5V
5V
2kΩ
34
Color track filter
300mVP–P
50Ω
Phase shift filter
3.2V
34
100µA
5V
Color bar signal
36
Chroma input
20kΩ
36
150mVP–P
3kΩ
Chroma input
20kΩ
Burst reference 0dB=150mVP–P
37
5V power supply
2V
5V power supply
VCC
3V
35
ABL input
Adjustable in a 3±0.8V DC range
for brightness
35
Brightness control
10kΩ
3V
ICs for TV
AN5337K
■ Pin Descriptions (cont.)
Pin No.
Pin name
Waveform
Equivalent circuit
Description
VCC
2.7V
VCC
50µA
1kΩ
300Ω
38
38
Blooming level
input
2.7V DC when opened
Input for determination
of blooming level
Linked with the APL pin
900Ω 4.3kΩ
39
12kΩ
VCC
39
Filter for APL
detection
0 to 3V DC
Filter for APL detection
of image signals
0µA
to
600µA
50µA
39
2.4V
6.5V
VCC
200µA
40
40
Filter for white
detection
2 to 4V DC
Filter for detection of
white
max.
image
signals
0µA
to
800µA
6.5V
50µA
ICs for TV
AN5337K
■ Pin Descriptions (cont.)
Pin No.
Pin name
Waveform
Equivalent circuit
Description
6.5V
VCC
0µA
to
1000µA
300Ω
41
Filter for black
detection
1 2 to 4V DC for black detection
Color control
input
2 2 to 4V DC for color control
1 Filter for detection of
black max. image
signals
2 Input for color control
41
3V
6.6kΩ
300µA
6.5V
50µA
3V
VCC
7kΩ
42
ACL input
for Contrast
DC input voltage with an
adjustment range of 2.7 to 4.5V
3V
3.5kΩ
Contrast control
42
4V
VCC
Approx. 3.9V
43
Y signal input
0.5VP–P standard input
0.36V (pedestal to white)
Y signal input
43
300Ω
45µA
80µA
VCC 50V
1V
44
45
V Sync.Sep.
Sync.in (H)
4kΩ
16kΩ
53kΩ
4kΩ
Integral filter for vertical
synchronous signal
44
VCC 9V
Slice level is variable
with external resistor.
Input for sync. signal
separation
H slice level :
3.9µA × 2.2kΩ ×
58.5µs/5µs=100mV
50Ω
23.5kΩ
100pF
2V
45
200Ω 2kΩ
3.9µA
ICs for TV
AN5337K
■ Pin Descriptions (cont.)
Pin No.
Pin name
Waveform
Equivalent circuit
Description
VCC 9V
46
Slice level is variable
with external resistor.
Input for sync. signal
separation
Sync.in (V)
68kΩ
68pF
2V
46
6kΩ
V slice level :
2.6µA × 6kΩ ×
58.5µs/5µs=183mV
2.6µA
VCC 9V
90kΩ
200Ω
Synchronization : 6.2V
47
Lock Det. filter
Filter for synchronization detection of input
sync. and horizontal
oscillation frequency.
Also for shut down
detection
Asynchronization : 0V
Shut down : 8.3V
200Ω
47
10kΩ
100
µA
200Ω
Internal
BGP
48
Sand castle
pulse input/FBP
input for AFC
4.3V
Input of superimposed
burst gate pulse and
vertical/horizontal blanking
HBLK
VCC 5V
VBLK
External
3.0V
1.5V
• Threshold voltages
Burst gate pulse : 3.5V
Horizontal blanking pulse
: 2.2V
Vertical blanking pulse
: 1.0V
AFC : 2.5V
300Ω
48
50kΩ
VCC 5V
4.3V
49
Sand castle
pulse output
3.0V
1.5V
Output of superimposed
burst gate pulse which
superimposed V, H and
blanking pulse, to synchronize the AN5307K
with other ICs
49
25kΩ
• Threshold voltage
Same as above
VCC 5V
63.5µs
HBLK
Input of flyback pulse
100Ω
50
50
Flyback pulse
input
External
• Threshold voltage
Internal
Blanking : 0.7V
10 to 13µs
AFC2
ICs for TV
AN5337K
■ Pin Descriptions (cont.)
Waveform
Pin name
Pin No.
Equivalent circuit
Description
VCC 5V
1.8V
Vout.
51
0V
Output of vertical oscillation pulse
200Ω
51
6H
20kΩ
VCC 6.3V
Output of horizontal
AFC current
2.5V to 4.6V
AFC1 Filter
52
PD –Ta
3,000
2,800
Power Dissipation PD (W)
2,600
IC without heat sink
Rth–a=54˚C/W
PD=2315mW (25˚C)
2,400
2,315
2,200
2,000
1,800
1,600
1,400
1,200
1,000
800
600
400
200
0
0
25
50
75
100
125
Ambient Temperature Ta (˚C)
150
27kΩ
When RC network is
connected, the horizontal AFC operates.
Frequency adjustment
Hi : Frequency low
Lo : Frequency high
■ Reference
4.3V
52
0.2mA