STMICROELECTRONICS STV2110A

STV2110A
PAL-SECAM LUMA-CHROMA & DEFLECTION PROCESSOR
PRELIMINARY DATA
■
■
■
■
■
■
■
■
■
RGB AND FAST BLANKING INPUTS
AUTOMATIC CUT-OFF CONTROL
DC-CONTROLLED
BRIGHTNESS,
CONTRAST AND SATURATION
CERAMIC 500kHz VCO FOR LINE DEFLECTION
CHROMA STANDARD AUTOMATIC IDENTIFICATION
BIDIRECTIONAL I/O FOR CHROMA STANDARD
PHASE-LOCKED REFERENCE OSCILLATOR
USING A STANDARD 4.43MHz
OSD CAPABILITY ON OUTPUTS
VIDEO IDENTIFICATION GENERATOR
Used with the TDA8222, this IC permits a complete
low cost solution with external output stages.
It is pin compatible with STV2102 PAL only processor.
SHRINK 42
(Plastic Package)
DESCRIPTION
ORDER CODE : STV2110A
The STV2110A is a PAL-SECAM chroma decoder,
video and H/V deflection processor for CTV.
42
ICAT
CATHODECURRENT
41
Vcc
SUPPLY VOLTAGE INPUT
40
BIN
BLUE INPUT
39
GIN
GREEN INPUT
38
COR
RED CUT-OFF CAPACITOR
37
RIN
RED INPUT
7
36
BRIG
BRIGHTNESS CONTROL
COB
8
35
FBL
FAST BLANKING INPUT
YIN
9
34
CLPF CHROMA LOOP FILTER
SLPF
10
33
CXTL CHROMA XTAL
SXTL
11
32
CKP
PAL KILLER CAPACITOR
COMPOSITE VIDEO SIGNAL CVBS
12
31
F425
4.25MHz FILTER
LINE FLYBACK INPUT
LFB
13
30
ACC
ACC CONTROL CAPACITOR
VERTICAL OUTPUT
VOUT
14
29
CDR
RED DEEMPHASIS CAPACITOR
HORIZONTAL OUTPUT
HOUT
15
28
F440
4.40MHz FILTER
CONTRAST CONTROL
CTR
16
27
SAT
SATURATION CONTROL
SECAM CHROMA INPUT SECIN
17
26
CDB
BLUE DEEMPHASIS CAPACITOR
PAL CHROMA INPUT PALIN
18
25
F432
4.32MHz FILTER
SUPPLY VOLTAGE
Vcc
BLANKING INPUT
BLK
GREEN CUT-OFF CAPACITOR
COG
RED OUTPUT
ROUT
HORIZONTAL Vcc
HVcc
GREEN OUTPUT
GOUT
BLUE OUTPUT
BOUT
BLUE CUT-OFF CAPACITOR
LUMINANCE SIGNAL INPUT
SCANNING LOOP FILTER
SCANNING XTAL
1
2
3
4
5
6
GROUND
GND
19
24
GND
GROUND
DELAY CHROMA INPUT
DLI
20
23
CKS
SECAM KILLER CAPACITOR
CHROMA STANDARD I/O
PS
21
22
DLO
CHROMA OUTPUT
September 1993
This is advance information on a new product now in development or undergoing evaluation. Details are subject to change without no tice.
2110A-01.EPS
PIN CONNECTIONS
1/15
2/15
2110A-02.EPS
SECIN 17
PALIN 18
19
GND GND
20
DLI
22
DLO
DL
Matrix
ACC
Killer
Burst
Detector
ACC 30
CKP 32
90deg
Phase
Detector
CLPF 34
24
CKS
23
35
SECAM
Ident.
SECAM
Demod.
37
RIN
Sync.
Sep.
26
25
F432
CDR
29
SAT
28
F440
13
LFB
12
CVBS
10
SLPF
Phase
Comp. 1
Divider
Phase
Shift
Phase
Comp. 2
Burst Gate
Generator
Mute
Frame
Output
Decoder
Line
Counter
Frame Sync.
Separator
RGB
Cut-off
Blanking
Blk. RGB
Flip-Flop
SECAM
Flip-Flop
PAL
Leak. Current
Meas.
Tube Temp
Meas.
36
BRIG
RGB
Switch
16
CTR
Brightness
40
BIN
Contrast
+ Clamp
39
GIN
PS CDB
21
Standard
Control
Permutator
FBL
31
F425
Saturation
Black
Reference
Clamp
PAL
Demod.
Matrix
Black
Insertion
27
5
Y Input
Contrast
SAT
HVcc
XVCO
41
CXTL 33
YIN 9
1
Vcc Vcc
11
SXTL
VCO
Line
Output
Blank.
Comp.
15 HOUT
14 VOUT
2 BLK
42 ICAT
8 COB
3 COG
38 COR
7 BOUT
6 GOUT
4 ROUT
STV2110A
BLOCK DIAGRAM
STV2110A
FUNCTIONAL DESCRIPTION
DEFLECTION
Synchronization Separator
The synchronization separator is based on the
bottom of synchronization pulses alignment to an
internal reference voltage. An external capacitor
permits to align synchro. pulses, two external resistors determines the detection threshold of synchro
pulses. The frame synchronization pulses are
locked to a 32µs reference signal to perfect interlacing.
Horizontal Scanning
The horizontal scanning frequency is obtained from
a 500kHz VCO. The circuit uses two phase-locked
loops (PLL). The first one controls the frequency;
the second one, fully integrated, controls the relative phase of the synchronization and the line flyback signals.
The first PLL has two times constants : a long time
constant during the picture to have a good noise
immunity, a short time constant at the beginning of
the frame to recapture faster the phase in case of
VCR video signal. More over, the PLL is in short
time constant three lines before frame pulses occured, it permits to ensure good interlacing when
the video signal comes from a VCR tape with high
phase error.
The horizontal output signal is 28µs width. On
starting up, horizontal pulses are enabled at
VCC = 6.8V. On shutting down, horizontal pulses
are inhibited for VCC = 6.2V.
Vertical Scanning
The windows for the frame sync detection are
generated by a count down system. The selection
of the windows is determined by the IC status :
- video identification off - window : 248/314
- video identification on - window : 248/352
When a sync pulse is detected inside the window
a 10.5 lines long pulse is provided to VOUT pin.
The count down system provides also the needed
signals for the time constant switch, the line PLL
inhibition and service signals to the rest of the IC.
CHROMA
ACC Amplifier, DL Matrix, Permutator and Demodulator
The correct chroma subcarrier input, issued from
bandpassor bell filter, is internally selected with the
standard. The ACC amplifier envolves three
stages : the first one select the correct input, the
second one the -6dB in picture (PAL mode), the
third one is controled by the ACC voltage.
The dynamic range is over than 30dB.
The chrominance output signal is fed to the delay
line.
- PAL mode :
the adding and substracting direct and delayed
signals are performed by the DL matrix function.
Two synchronous demodulators multiplies
the (B-Y) signal with the 0 degree phase
4.43MHz reference signal and the (R-Y) signal
with the alternate ± 90 deg. 4.43MHz phase
reference signal.
- SECAM mode :
the permutator separatesthe two (B-Y) and (R-Y)
subcarriers. These signals are demodulated by
two FM demodulators with two external L, C
centered on fO(blue) = 4.25MHz and fO(red) =
4.406MHz.
4.43MHz Phase Locked Loop
The oscillating frequency of the 4.43MHz crystal
oscillator is controlled by the output voltage of the
loop filter. The phase detector will lock the 90 degree reference signal to the direct burst signal.
A 90 degree phase shifter permits to recover the
0 degree reference signal. A flip-flop driven by line
pulses permits to generate the alternate ± 90 degree signal.
ACC Control and Color Killer
PAL mode :
the direct burst signal is demodulated with the ± 90
degree reference signal. The demodulation result
is used by ACC control and killer function.
SECAM mode :
ACC control is done by a X2 demodulator. For
identification the burst signals of the red and blue
lines are demodulated by the external LC connected on Pin 31, it is centered at 4.32MHz. This
give positive and negative signals which are inverted by the signal coming out of the SECAM
flip-flop.
In both standard, if the demodulation result is always positive, the killer capacitor is charged and
the standard is identified (color ON). When demodulation result is always negative, the killer capacitor voltage reaches the flip-flop inhibition level,
so the alternace sequence is reversed and the
capacitor is charged again.
In case of no video signal, both killer capacitors
voltage are maintained about VCC/2, below the
color off threshold.
In PAL or SECAM, the ACC control voltage is
obtained by the peak detection of the demodulated
burst.
3/15
STV2110A
Automatic Standard Identification
The circuit is alternatelyforced in eachmode during
two fields (PAL mode, SECAM mode disabled or
SECAM mode, PAL mode disabled).
If PALsignal is identified, the alternate PAL/SECAM
sequency is locked in PAL mode.
To have a SECAM identification, the circuit must
memorizes a first SECAM identification, than test
the PAL mode and confirm a second SECAM identification. The SECAM identification will take from
four to six fields.
Output Pin 21, named PS, is high level in PAL mode
and low level in SECAM mode.
Forced standard : Pin 21 can be used for the
purpose :
- Pin 21 to HVCC : PAL mode
- Pin 21 to ground : SECAM mode
The color signals are sent to an RGB switch which
will drive to the outputs either internal RGB signals
or external RGB signals.
VIDEO
RGB Inputs
To avoid the black level of the inserted signal
differing from the black level of the normal video
signal, the external RGB are clamped to the black
level of the luminance signal. Therefore, an AC
coupling is required for the RGB inputs.
The RGB inputs are controlled by a 12dB range
contrast control stage.
Input Stage
The luminance input is controlled by the contrast
control stage which range is 20dB.
The luminance and color difference signals are
added in the video matrix circuit to obtain the color
signals.
Automatic Cut-off Control
The black levels of the RGB outputs are controlled
with the cut-off loops during three line periods after
the frame retrace. The cut-off measurements are
sequentially achieved during these three lines. The
leakage current measurement is achieved during
the frame retrace and memorized on an internal
capacitor, thus the circuit is able to extract the
cut-off current from the total current measurement.
Warm-up Detector
At the start-up, the cut-off loops are switch off, a
white level is inserted on the luminance signal until
a cathode current is detected. Then the cut-off
loops are released.
ABSOLUTE MAXIMUM RATINGS
HV cc
Vcc
H OUT
Parameter
Value
Horizontal Supply Voltage (Pin 5)
Video & Chroma Supply Voltage (Pins 1-41)
12
V
HV CC + 0.5
V
Horizontal Output (Pin 15)
Tstg
Storage Temperature
Toper
Operating Temperature
Unit
12
V
-55, +150
o
C
0, +70
o
C
2110A-01.TBL
Symbol
Symbol
R th (j-a)
Parameter
Value
Junction-ambient Thermal Resistance
Max.
Unit
o
60
C/W
2110A-02.TBL
THERMAL DATA
Symbol
HV cc
Parameter
Test Conditions
Scanning Supply Voltage (Pin 5)
Min.
Typ.
Max.
Unit
8.1
9
9.9
V
Vcc
Video & Chroma Supply Voltage (Pins 1-41)
9
9.9
V
Icch
Scanning Supply Current (pin 5)
No load
25
35
mA
Video & Chroma Supply Current (Pins 1-41)
No load
45
55
mA
Total Power Dissipation
No load
630
890
mW
Iccv&c
PD
4/15
8.1
2110A-03.TBL
DC AND AC ELECTRICAL CHARACTERISTICS
(HVCC = VCC = 9V, Tamb = 25oC unless otherwise specified)
STV2110A
DC AND AC ELECTRICAL CHARACTERISTICS (continued)
(HVCC = VCC = 9V, Tamb = 25oC unless otherwise specified)
Symbol
Parameter
Test Conditions
Min.
Typ.
Max.
Unit
350
LUMINANCE INPUT (Pin 9)
VBW9
Input Voltage
VDC9
DC Level
No input signal
Input Current
• During burst period
• Out of burst period
Ig
G9
BW467
Luma Gain
Bandwidth (Y to R, G, B outputs)
490
mVPP
2.6
V
±150
1
µA
µA
7.4
-3dB
6
MHz
2 to 4
V
CONTRAST CONTROL (Pin 16)
V16
Contrast Control Voltage
V16 (Max.)
Allowed Control Voltage
G16
Contrast Control Range
I16
Input Current
5
20
V
dB
10
µA
BRIGHTNESS CONTROL (Pin 36)
V36
V36 (Max.)
I36
Brightness Control Voltage
1.8 to 4.3
V
Allowed Control Voltage
5
V
Input Current
10
µA
SATURATION CONTROL INPUT (Pin 27)
V27
Saturation Control Voltage
2 to 4
V
V27 (Max.)
Allowed Control Voltage
G27
Saturation Control Range
V27M
Mute Level
0.5
V
Input Current
10
µA
I27
5
-50
V
dB
RGB OUTPUTS (Pins 4-6-7)
VBW 4-6-7
I4-6-7
Output Signal Amplitude
(black to white)
• 0.35V B to W @ Pin 9
• Contrast @ 4V
• Sat. & Brig. @ 3V
Individual Output Sinking Current
2.6
V
2
mA
Maximum Peak White Level
7.8
V
Blanking Level
0.5
V
VCO min.
Minimum Level of Inserted Cut-off Lines
2.5
V
VCO max.
Maximum Level of Inserted Cut-off Lines
4.5
VM4-6-7
Vblank 4-6-7
Relative Variation in Black Level with Various
CONT. SAT. BRIG between the 3 channels
∆Vtemp
V
20
Black Level Thermal Drift
o
0.5
Tracking between Luminance and Chrominance
Signals over 10dB Contrast Control
mV
mV/ C
2
dB
2
V
RGB INPUTS (Pins 37-39-40)
Vclamp
37-39-40
Clamp Level
I37-39-40
Control Current
Ii37-39-40
Leakage Current
BW 37-39-40 Bandwidth
GCTR
G37-39-40
0.7
Contrast max
1.8
V
±150
µA
1
-3dB
µA
8
MHz
RGB Contrast Control Range
14
dB
RGB Gain
3.7
5/15
2110A-04.TBL
VBW37-39-40 Input Amplitude (B to W)
STV2110A
DC AND AC ELECTRICAL CHARACTERISTICS (continued)
(HVCC = VCC = 9V, Tamb = 25oC unless otherwise specified)
Symbol
Parameter
Test Conditions
Min.
Typ.
Max.
Unit
FAST BLANKING INPUT (Pin 35)
VTH1-35
First Threshold (switching)
0.7
VTH2-35
Second Threshold (blanking)
2.1
V
Tswitch
Switching Delay
50
ns
Tblank
Blanking Delay
100
ns
V
CATHODE CURRENT INPUT (Pin 42)
VREF42
Leakage Current Reference Voltage
1.75
V
∆VREF42
CO Reference refered to Leakage Current
Reference
250
mV
I42
Vsb42
Output Current
µA
150
Start-beam Current Detection Reference
Voltage
2.4
V
± 100
µA
AUTOMATIC CUT-OFF (Pin 3-8-38)
Cut-off Capacitor Clamping Current
PAL CHROMINANCE INPUT (Pin 18)
V18
Vburst-18
GACC
R18
VDC-18
Input Level
0.3
Minimum Burst Signal Amplitude within the
ACC Control Range
30
mVPP
Change of burst over whole
ACC Control Range < 1dB
30
dB
8
kΩ
No input signal
3.5
V
ACC Control Range
Input Impedance
DC Level
1.0
VPP
SECAM CHROMINANCE INPUT (Pin 17)
V17
Vburst-17
R17
VDC-17
Input Level
0.3
Minimum Burst Signal Amplitude within the
ACC Control Range
30
mVPP
Input Impedance
20
kΩ
No input signal
3.5
V
250
DC Level
1.0
VPP
ACC CAPACITOR (Pin 30)
I30
Charging Current
During burst gate period
Ii30
Leakage Current
Out of burst gate period
µA
1
µA
PLL LOOP FILTER (Pin 34)
I34
Control Current
400
µA
±700
Hz
2
Vpp
CHROMAXTAL (Pin 33)
CR33
Catching Range
SUBCARRIER OUTPUT (Pin 22)
Vburst-22
Output Burst Amplitude (PAL mode)
Within ACC Control Range
VOFF-32
Color off Threshold
5.0
V
VON-32
Color on Threshold
5.4
V
VINH-32
PAL Flip-flop Inhibition Level
3.2
V
Control Current
250
µA
Voltage with Nominal Input Signal
6.0
V
I32
Vnom-32
6/15
2110A-05.TBL
PAL KILLER CAPACITOR (Pin 32)
STV2110A
DC AND AC ELECTRICAL CHARACTERISTICS (continued)
(HVCC = VCC = 9V, Tamb = 25oC unless otherwise specified)
Symbol
Parameter
Test Conditions
Min.
Typ.
Max.
Unit
SECAM KILLER CAPACITOR (Pin 23)
VOFF-23
Color off Threshold
5.6
V
VON-23
Color on Threshold
6
V
VINH-23
SECAM Flip-flop Inhibition Level
3.2
V
Control Current
250
µA
Voltage with Nominal input Signal
7.3
V
I23
Vnom-23
DELAYED CHANNEL INPUT (Pin 20)
VDC-20
R20
DC Level
No input Signal
2.2
V
Input Impedance
PAL standard
SECAM standard
8
20
kΩ
kΩ
No input signal
2.3
V
20
kΩ
4.25MHz AND 4.40MHz FILTER (Pins 28-31)
VDC-28-31
R28-31
DC Level
Input Impedance
RED AND BLUE DEEMPHASIS CAPACITORS (Pins 26-29)
VDC-26-29
R26-29
DC Level
No input signal
Input Impedance
6.4
V
6
kΩ
4.32MHz FILTER (Pin 25)
VDC-25
R25
DC Level
No input signal
Input Impedance
3.5
V
40
kΩ
FORCING/STANDARD IDENTIFICATION (Pin 21)
Max.Current on PS Output
PAL
SECAM
+5
-5
mA
mA
DC Output Voltage
PAL
SECAM
7.5
1.5
V
V
DC input Voltage
PAL
SECAM
HV CC
0.0
V
V
COMPOSITE VIDEO BASE BAND SIGNAL (Pin 12)
VREF-12
Clamp Voltage
I12 = - 1µA
1.6
1.85
2.1
V
V12
Video Input Signal (sync to white)
1
VPP
I12
Sync Threshold
12
µA
15.625
kHz
±700
Hz
SCANNING XTAL (Pin 11)
F 11
CR11
Frequency after Divider
Frequency Control Range after Divider
PLL LOOP FILTER (Pin 10)
Iiow-10
Output Current
Long time constant
0.15
mA
Ihigh-10
Output Current
Short time constant
0.40
mA
VTH-13
Threshold
V13
Allowed Voltage Range
I13
Input Current
0.6
- 0.4
V13 < 0.6V
V
HVCC
V
5
µA
7/15
2110A-06.TBL
DELAYED LINE FLYBACK INPUT (Pin 13)
STV2110A
DC AND AC ELECTRICAL CHARACTERISTICS (continued)
(HVCC = VCC = 9V, Tamb = 25oC unless otherwise specified)
Symbol
Parameter
Test Conditions
Min.
Typ.
Max.
Unit
HV CC
V
5
µA
29
µs
DIRECT BLANKING INPUT (Pin 2)
VTH-2
Threshold
0.6
V2
Allowed Voltage Range
I2
Input Current
- 0.4
V
V2 < 0.6V
HORIZONTAL OUTPUT (Pin 15)
T 15
Output Pulse Width
26
Vlow-15
Output Voltage (open collector)
V5 start
V5 stop
∆t15
I15 = 10mA
28
1.5
V
HVCC Start Threshold
6.8
V
HVCC Stop Threshold
6.2
V
ϕ2 Phase Range
12
µs
Output Pulse Width
Frame Synchro. Window (search)
Vlow-14
Output Voltage (open collector)
Figure 1 :
Contrast Control Curve
Figure 2 :
RGB Output Signal
50%
50%
V16 (V)
0%
2V
3
4
5
2110A-03.EPS
100%
Figure 3 :
Difference between Black Level and
measuring Level at RGB Outputs as
a function of the Brightness Control
Input
∆V
1V
V36 (V)
-1V
8/15
3
4
5
2110A-05.RPS
0V
2
line
line
1
V
Saturation Control Curve
RGB Output Signal
100%
2
10.5
248 to 352
V 27 (V)
0%
2
3
4
5
2110A-04.EPS
T 14
Tsync1
2110A-07.TBL
VERTICAL OUTPUT (Pin 14)
STV2110A
Figure 4 : Pins 3-8-38-42 (COG, COB, COR, ICAT)
3-8-38
2110A-06.EPS
42
Figure 5 : Pins 37-39-40 (RIN, GIN, BIN)
Figure 6 : Pins 4-6-7 (ROUT, GOUT, BOUT)
4-6-7
2110A-07.EPS
2110A-08.EPS
37-39-40
Figure 7 : Pin 9 (YIN)
Figure 8 : Pin 10 (SLPF)
10
2110A-10.EPS
2110A-09.EPS
9
9/15
STV2110A
Figure 9 : Pin 11 (SXTL)
Figure 10 : Pin 12 (CVBS)
V REF
12
2110A-11.EPS
2110A-12.EPS
11
Figure 11 : Pins 2-13 (BLK, LFB)
Figure 12 : Pins 14 (VOUT)
14
Figure 13 : Pin 15 (HOUT)
2110A-14.EPS
2110A-13.EPS
2-13
Figure 14 : Pins 16-27 (CTR, SAT)
15
10/15
Mute
(Pin 27)
2110A-16.EPS
2110A-15.EPS
16-27
STV2110A
Figure 15 : Pin 20 (DLI)
20
V REF1
IPAL
2110A-17.EPS
V REF2
ISEC
Figure 16 : Pin 21 (PS)
Figure 17 : Pin 25 (F432)
V REF
25
2110A-18.EPS
2110A-19.EPS
21
11/15
STV2110A
Figure 18 : Pins 17-18 (SECIN, PALIN)
Figure 19 : Pins 28-31 (F440, F425)
V REF2
28
31
17
18
2110A-20.EPS
Figure 20 : Pins 26-29 (CDB, CDR)
2110A-21.EPS
V REF
V REF
Figure 21 : Pins 23-32 (CKS, CKP)
V REF
2110A-22.EPS
23-32
Figure 22 : Pin 22 (DLO)
2110A-23.EPS
26
29
Figure 23 : Pin 36 (BRIG)
12/15
2110A-25.EPS
22
2110A-24.EPS
36
STV2110A
Figure 24 : Pin 30 (ACC)
ISEC
2110A-26.EPS
IPAL
30
Figure 25 : Pin 33 (CXTL)
Figure 26 : Pin 34 (CLPF)
Base Current
Compensation
Phase
Comparator
33
2110A-28.EPS
2110A-27.EPS
34
Figure 27 : Pin 35 (FBL)
2110A-29.EPS
35
13/15
4.7nF
2110A-30.EPS
CVBS
CVBS
100nF
18kΩ
CVBS
330pF
2k Ω
120pF
1kΩ
VCC
1kΩ
330kΩ
270kΩ
10nF
10µH
10µH
100µF
100µF
17
18
23
32
30
34
33
9
GND
22
8.2µH
24
Vcc
1 41
10nF 390Ω
DLO
PS 21
SECIN
750Ω
10nF
CKS
CKP
ACC
CLPF
CXTL
YIN
22nF
22nF
PALIN
6.8nF
33nF
4.43MHz
10nF
47nF
1kΩ
DL
&
TRAP
9V
Vcc
9V
DL
10µH
10nF
RIN
75Ω
GIN
75Ω
BIN
75Ω 100nF 100nF 100nF
ICAT
47kΩ
CTR
1kΩ
100pF
1kΩ
28
26 29
F440
CDB
CDR
180pF
180pF
10nF
100pF
10µH
STV2110A
1kΩ
10nF
31
F425
10µH
150pF
10nF
10kΩ
2
BLK
10µH
25
13
LFB
F432
1.2kΩ
CVBS
SLPF
SXTL
HOUT
1.2kΩ
1kΩ
4.7nF
56pF
3.9kΩ
2Vpp
CVBS
1kΩ
390Ω
503kHz
100nF
MUTE
15kΩ
22kΩ
39kΩ
3.3nF
+V
RAMP GENERATOR
(TDA1771)
BOUT
GOUT
ROUT
47nF
H VCC
VOUT
SAT
100nF
H VCC
470Ω
470Ω
470Ω
SAT
5.6kΩ
12
10
11
15
14
7
6
4
27
15kΩ
22kΩ
39kΩ
Vcc
100nF
BRIG
BRIG
36
15kΩ
22kΩ
39kΩ
Vcc
100nF
1kΩ
22nF
22nF
22nF
CTR
COR COG COB ICAT
RIN
GIN
BIN
37
40
42
38
3
8
16
39
20
DLI
FBL
35
100Ω
19
2 x 1N4148
HVc c
GND
5
FBL
75 Ω
HVcc
680Ω
14/15
560kΩ
Vcc
1µ F
22kΩ
18kΩ
H VCC
LINE
YOKE
VERTICAL
DEFLECTION
STV2110A
APPLICATION DIAGRAM
STV2110A
PACKAGE MECHANICAL DATA
42 PINS - PLASTIC SHRINK DIP
e4
A
I
b1
L
a1
F
b2
e
b
E
Stand-off
e3
A
a1
b
b1
b2
b3
D
E
e
e3
e4
F
i
L
22
1
21
Min.
3.30
Millimeters
Typ.
0.51
0.35
0.20
0.75
0.75
15.57
Max.
Min.
0.130
0.020
0.014
0.008
0.030
0.030
0.59
0.36
1.42
39.12
17.35
1.778
35.56
15.24
Inches
Typ.
0.613
Max.
0.023
0.014
0.056
1.540
0.683
0.070
1.400
0.600
14.48
5.08
2.54
0.570
0.200
SDIP42.TBL
Dimensions
42
PMSDIP42.EPS
D
0.100
Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics assumes no responsibility
for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result
from its use. No licence is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics.
Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all
information previously supplied. SGS-THOMSON Microelectronics products are not authorized for use as critical components in life
support devices or systems without express written approval of SGS-THOMSON Microelectronics.
 1994 SGS-THOMSON Microelectronics - All Rights Reserved
Purchase of I2C Components of SGS-THOMSON Microelectronics, conveys a license under the Philips
I2C Patent. Rights to use these components in a I2C system, is granted provided that the system conforms to
the I2C Standard Specifications as defined by Philips.
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