Datasheet STV2110A Datasheet (SGS Thomson Microelectronics)

STV2110A

PAL-SECAM LUMA-CHROMA& DEFLECTIONPROCESSOR

PRELIMINARY DATA

■

RGB ANDFAST BLANKING INPUTS

■

AUTOMATIC CUT-OFF CONTROL

■

DC-CONTROLLED BRIGHTNESS, CON­TRAST ANDSATURATION

■

CERAMIC 500kHz VCO FOR LINE DEFLEC­TION

■

CHROMA STANDARD AUTOMATIC IDENTIFI­CATION

■

BIDIRECTIONAL I/O FOR CHROMA STAND­ARD

■

PHASE-LOCKED REFERENCE OSCILLATOR
USING ASTANDARD 4.43MHz

■

OSD CAPABILITYON OUTPUTS

■

VIDEO IDENTIFICATIONGENERATOR

DESCRIPTION

The STV2110Ais aPAL-SECAM chromadecoder,
videoand H/V deflectionprocessorfor CTV.

UsedwiththeTDA8222,this ICpermits acomplete
lowcost solutionwith external output stages.

It ispin compatiblewith STV2102PALonly proces­sor.

SHRINK 42

(Plastic Package)

ORDER CODE : STV2110A

PINCONNECTIONS

GREEN CUT-OFF CAPACITOR

SUPPLYVOLTAGE

HORIZONTAL Vcc

GREENOUTPUT

BLUE OUTPUT

BLUE CUT-OFF CAPACITOR

LUMINANCE SIGNAL INPUT

SCANNING LOOPFILTER

SCANNING XTAL

COMPOSITEVIDEO SIGNAL

LINE FLYBACK INPUT

VERTICAL OUTPUT

HORIZONTAL OUTPUT

CONTRAST CONTROL

SECAMCHROMA INPUT

GROUND GND

DELAY CHROMA INPUT

CHROMA STANDARD I/O

Vcc

BLKBLANKING INPUT

COG

ROUTRED OUTPUT

HVcc

GOUT

BOUT

COB

YIN
SLPF
SXTL

CVBS

LFB
VOUT
HOUT

CTR

SECIN
PALINPAL CHROMA INPUT

DLI

PS

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21

ICAT CATHODECURRENT

42

SUPPLY VOLTAGE INPUT

Vcc

41

BLUE INPUT

BIN

40

GIN GREEN INPUT

39

RED CUT-OFF CAPACITOR

COR

38

RIN REDINPUT

37

BRIGHTNESS CONTROL

BRIG

36

FAST BLANKING INPUT

FBL

35
34
33
32
31
30
29
28
27
26
25
24
23
22

CHROMA LOOP FILTER

CLPF

CHROMA XTAL

CXTL

PAL KILLER CAPACITOR

CKP

F425

4.25MHzFILTER

ACC ACC CONTROLCAPACITOR

RED DEEMPHASIS CAPACITOR

CDR

4.40MHz FILTER

F440

SATURATION CONTROL

SAT
CDB

BLUEDEEMPHASISCAPACITOR

F432 4.32MHz FILTER

GROUND

GND

CKS

SECAM KILLER CAPACITOR
CHROMA OUTPUT

DLO

2110A-01.EPS

September 1993

This is advance information on anew product now in developmentor undergoingevaluation. Detailsare subject to change without notice.

1/15

STV2110A

BLOCK DIAGRAM

ROUT
4

GOUT

6

BOUT

7

COR

COG

3388

COB

ICAT

42

BLK

2

VOUT

14

HOUT

15

BRIG

RIN GIN BIN CTR

Line

Output

Counter

SECAM

Output

Shift

Phase

Phase

Comp. 2

Generator

Burst Gate

Permutator

Blank.

Comp.

Decoder

Blanking

Blk. RGB

36

Brightness

40

Contrast

+ Clamp

37 39

35 16

RGB

Cut-off

Meas.

Leak. Current

Meas.

Tube Temp

RGB

Switch

Separator

Frame Sync.

PAL

Flip-Flop

SECAM

Demod.

Frame

Line

Flip-Flop

Ident.

SECAM

VCO

Divider

Phase

Comp. 1

Sep.

Sync.

Mute

Control

Standard

SAT

11

10

12

13

29 28

26

31 21

SXTLSLPFCVBS

F440 LFB

CDR

F432

PS CDBF425

2/15

SAT FBL

HVccVcc Vcc

Matrix

2741

Black

Insertion

5

Y Input

Contrast

1

YIN 9

Saturation

Black

Reference

Clamp

PAL

XVCO

33

CXTL

Demod.

90deg

Phase

Detector

34

CLPF

Killer

Burst

30

ACC

Detector

32

CKP

DL

ACC

18

PALIN

Matrix

17

SECIN

23

CKS

2024

DLI

22 25

19

GND

GND DLO

2110A-02.EPS

STV2110A

FUNCTIONAL DESCRIPTION

DEFLECTION

SynchronizationSeparator

The synchronization separator is based on the
bottom of synchronizationpulses alignment to an
internal reference voltage. An external capacitor
permitstoalignsynchro.pulses,twoexternalresis­torsdetermines the detectionthreshold of synchro
pulses. The frame synchronization pulses are
locked to a 32µs referencesignal to perfect inter­lacing.

HorizontalScanning

Thehorizontalscanningfrequencyisobtainedfrom
a 500kHzVCO. The circuit uses twophase-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 firstPLL hastwo times constants: a longtime
constant during the picture to have a good noise
immunity, a shorttime constantat thebeginningof
the frame to recapture faster the phasein 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 videosignal comesfrom a VCR tape with high
phaseerror.

The horizontal output signal is 28µs width. On
starting up, horizontal pulses are enabled at

= 6.8V. On shutting down, horizontal pulses

V

CC

areinhibited for V

CC

= 6.2V.

VerticalScanning

The windows for the frame sync detection are
generatedby a count down system.The selection
of thewindows is determined by the IC status :

- video identificationoff - window : 248/314

- video identificationon - window : 248/352
When a sync pulse is detected inside the window

a 10.5 lines long pulse is providedto V

OUT

pin.

The count down system provides also the needed
signals for the time constant switch, the line PLL
inhibitionand service signals to therest of the IC.

CHROMA

ACC Amplifier,DL Matrix, PermutatorandDe­modulator

The correct chroma subcarrier input, issued from
bandpassor bellfilter,is internallyselectedwiththe
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 controledby the ACC voltage.
The dynamicrange is overthan 30dB.
The chrominance output signal is fed to the delay

line.

- PALmode :
the adding and substracting direct and delayed
signalsare performed bythe DLmatrix 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
referencesignal.

- SECAMmode :
thepermutatorseparatesthetwo(B-Y)and(R-Y)
subcarriers.These signals are demodulatedby
two FM demodulators with two external L, C
centered on f

O(blue)

= 4.25MHz and f

O(red)

4.406MHz.

4.43MHz Phase Locked Loop

The oscillating frequency of the 4.43MHz crystal
oscillatoris 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 referencesignal. Aflip-flopdriven by line
pulses permits to generate the alternate ± 90 de­gree signal.

ACC Controland Color Killer

PALmode :
the directburstsignal isdemodulatedwiththe± 90
degree reference signal. The demodulationresult
is used by ACCcontrol and killer function.

SECAM mode:
ACC control is done by a X

2

demodulator. For
identificationthe burst signals of the red and blue
lines are demodulated by the external LC con­nected on Pin 31, it is centeredat 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 de­modulationresult is always negative,the killer ca­pacitorvoltage reachestheflip-flopinhibition level,
so the alternace sequence is reversed and the
capacitor ischarged again.

In case of no video signal, both killer capacitors
voltage are maintained about V

/2, below the

CC

color off threshold.
In PAL or SECAM, the ACC control voltage is

obtainedby thepeakdetectionof thedemodulated
burst.

=

3/15

STV2110A

AutomaticStandard Identification

Thecircuitis alternatelyforcedineachmodeduring
two fields (PAL mode, SECAM mode disabled or
SECAMmode, PALmode disabled).

If PALsignalisidentified,thealternatePAL/SECAM
sequencyis lockedin PALmode.

To have a SECAM identification, the circuit must
memorizesa first SECAM identification, than test
the PALmode andconfirma second SECAM iden­tification. The SECAMidentification will take from
four to six fields.

OutputPin21,namedPS,ishighlevelinPALmode
and lowlevel in SECAMmode.

Forced standard : Pin 21 can be used for the
purpose:

- Pin 21 to HVCC : PALmode

- Pin 21 to ground : SECAMmode
VIDEO

InputStage

The luminance input is controlled by the contrast
controlstage which range is 20dB.

The luminance and color difference signals are
added inthe videomatrixcircuit to obtainthe color
signals.

The colorsignals are sentto an RGBswitch which
will driveto the outputseither internalRGBsignals
or external RGB signals.

Automatic Cut-off Control

The black levelsof the RGB outputsare controlled
with thecut-off loops duringthree lineperiodsafter
the frame retrace. The cut-off measurements are
sequentiallyachievedduringthese threelines.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-offcurrent fromthe totalcurrentmeasurement.

Warm-up Detector

At the start-up, the cut-off loops are switch off, a
white levelis insertedon theluminancesignal until
a cathode current is detected. Then the cut-off
loops are released.

RGB Inputs

To avoid the black level of the inserted signal
differing from the black level of the normal video
signal, the externalRGB are clampedto theblack
level of the luminance signal. Therefore, an AC
couplingis required for the RGB inputs.

The RGB inputs are controlled by a 12dB range
contrast controlstage.

ABSOLUTEMAXIMUMRATINGS

Symbol Parameter Value Unit

HV

V

H

T

T

Horizontal Supply Voltage (Pin 5) 12 V

cc

Video & Chroma Supply Voltage (Pins 1-41) HVCC+ 0.5 V

cc

Horizontal Output (Pin 15) 12 V

OUT

Storage Temperature -55, +150

stg

Operating Temperature 0, +70

oper

THERMALDATA

Symbol Parameter Value Unit

R

th (j-a)

Junction-ambient Thermal Resistance Max. 60

DC AND ACELECTRICALCHARACTERISTICS

(HV

CC=VCC

Symbol Parameter Test Conditions Min. Typ. Max. Unit

HV

cc

V

cc

I

cch

I

ccv&c

P

D

=9V,T

Scanning Supply Voltage (Pin 5) 8.1 9 9.9 V
Video & Chroma Supply Voltage (Pins 1-41) 8.1 9 9.9 V
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

=25oC unlessotherwise specified)

amb

o

C/W

o

C

o

C

2110A-01.TBL

2110A-02.TBL

2110A-03.TBL

4/15

STV2110A

DC AND AC ELECTRICALCHARACTERISTICS (continued)

(HV

CC=VCC

=9V,T

Symbol Parameter Test Conditions Min. Typ. Max. Unit

LUMINANCE INPUT (Pin 9)

V
V

BW9

DC9

I

G

InputVoltage 350 490 mV
DC Level No input signal 2.6 V
InputCurrent •During burst period

g

Luma Gain 7.4

9

BW467 Bandwidth (Y to R, G, B outputs) -3dB 6 MHz

CONTRAST CONTROL (Pin 16)

V

V

16 (Max.)

G

I

Contrast Control Voltage 2 to 4 V

16

Allowed Control Voltage 5 V
ContrastControl Range 20 dB

16

InputCurrent 10 µA

16

BRIGHTNESS CONTROL (Pin 36)

V

V

36 (Max.)

I

Brightness Control Voltage 1.8 to 4.3 V

36

Allowed Control Voltage 5 V
InputCurrent 10 µA

36

SATURATION CONTROL INPUT (Pin27)

V

V

27 (Max.)

G

V

I

27M

Saturation Control Voltage 2 to 4 V

27

Allowed Control Voltage 5 V
Saturation Control Range -50 dB

27

Mute Level 0.5 V
InputCurrent 10 µA

27

RGB OUTPUTS (Pins 4-6-7)

V

BW 4-6-7

I

4-6-7

VM

V

blank4-6-7

V

CO min.

V

CO max.

Output Signal Amplitude
(black to white)

Individual Output Sinking Current 2 mA
Maximum Peak White Level 7.8 V

4-6-7

Blanking Level 0.5 V
Minimum Level of Inserted Cut-offLines 2.5 V
Maximum Level of Inserted Cut-off Lines 4.5 V
Relative Variation in Black Level with Various

CONT. SAT. BRIG between the 3channels

∆V

Black Level Thermal Drift 0.5 mV/oC

temp

Tracking between Luminance and Chrominance
Signals over 10dB Contrast Control

RGB INPUTS (Pins 37-39-40)

V

BW37-39-40

V

clamp

37-39-40

I

37-39-40

I

i37-39-40

BW

37-39-40

G

CTR

G

37-39-40

InputAmplitude (B to W) 0.7 2 V
Clamp Level Contrast max 1.8 V

ControlCurrent ±150 µA
Leakage Current 1 µA
Bandwidth -3dB 8 MHz
RGB Contrast Control Range 14 dB
RGB Gain 3.7

=25oC unless otherwisespecified)

amb

•Out of burst period

•0.35V B to W @ Pin 9

•Contrast @ 4V

•Sat. & Brig. @ 3V

±150

1

2.6 V

20 mV

2dB

PP

µA
µA

2110A-04.TBL

5/15

STV2110A

DC AND AC ELECTRICAL CHARACTERISTICS (continued)

(HV

CC=VCC

=9V,T

Symbol Parameter Test Conditions Min. Typ. Max. Unit

FAST BLANKING INPUT (Pin 35)

V

TH1-35

V

TH2-35

T

T

switch

blank

First Threshold (switching) 0.7 V
Second Threshold (blanking) 2.1 V
Switching Delay 50 ns
Blanking Delay 100 ns

CATHODE CURRENT INPUT (Pin 42)

V

∆V

REF42

I

V

Leakage Current Reference Voltage 1.75 V
CO Reference refered to Leakage Current

REF42

Reference
Output Current 150 µA

42

Start-beam Current Detection Reference

sb42

Voltage

AUTOMATIC CUT-OFF (Pin3-8-38)

Cut-off Capacitor Clamping Current ± 100 µA

PAL CHROMINANCE INPUT (Pin 18)

V

V

burst-18

G

R

V

DC-18

Input Level 0.3 1.0 V

18

Minimum Burst Signal Amplitude within the
ACC Control Range

ACC Control Range Change of burst over whole

ACC

Input Impedance 8 kΩ

18

DC Level No input signal 3.5 V

SECAM CHROMINANCE INPUT (Pin 17)

V

V

burst-17

R

V

DC-17

Input Level 0.3 1.0 V

17

Minimum Burst Signal Amplitude within the
ACC Control Range

Input Impedance 20 kΩ

17

DC Level No input signal 3.5 V

ACC CAPACITOR (Pin 30)

I
I

Charging Current During burst gateperiod 250 µA

30

Leakage Current Out of burst gate period 1 µA

i30

PLL LOOP FILTER (Pin 34)

I

Control Current 400 µA

34

CHROMAXTAL (Pin 33)

CR

Catching Range ±700 Hz

33

SUBCARRIER OUTPUT (Pin 22)

V

burst-22

Output Burst Amplitude (PAL mode) Within ACC Control Range 2 Vpp

PAL KILLER CAPACITOR (Pin 32)

V

OFF-32

V

ON-32

V

INH-32

V

nom-32

I

Color off Threshold 5.0 V
Color on Threshold 5.4 V
PAL Flip-flop Inhibition Level 3.2 V
Control Current 250 µA

32

Voltage with Nominal Input Signal 6.0 V

=25oC unlessotherwise specified)

amb

250 mV

2.4 V

30 mV

30 dB

ACC Control Range < 1dB

30 mV

PP

PP

PP

PP

2110A-05.TBL

6/15

STV2110A

DC AND AC ELECTRICAL CHARACTERISTICS (continued)

(HV

CC=VCC

=9V,T

Symbol Parameter Test Conditions Min. Typ. Max. Unit

SECAM KILLER CAPACITOR (Pin 23)

V

OFF-23

V

ON-23

V

INH-23

V

nom-23

I

Coloroff Threshold 5.6 V
Coloron Threshold 6 V
SECAM Flip-flopInhibition Level 3.2 V
ControlCurrent 250 µA

23

Voltagewith Nominal input Signal 7.3 V

DELAYED CHANNEL INPUT (Pin 20)

V

DC-20

R

DC Level No input Signal 2.2 V
InputImpedance PAL standard

20

4.25MHz AND 4.40MHz FILTER (Pins 28-31)
V

DC-28-31

R

28-31

DC Level No input signal 2.3 V
InputImpedance 20 kΩ

RED AND BLUE DEEMPHASIS CAPACITORS (Pins 26-29)

V

DC-26-29

R

26-29

DC Level No input signal 6.4 V
InputImpedance 6 kΩ

4.32MHz FILTER (Pin 25)

V

DC-25

R

DC Level No input signal 3.5 V
InputImpedance 40 kΩ

25

FORCING/STANDARD IDENTIFICATION (Pin 21)

Max.Current on PS Output PAL

DC Output Voltage PAL

DC input Voltage PAL

COMPOSITE VIDEO BASE BAND SIGNAL (Pin12)

V

REF-12

V

I

Clamp Voltage I12=-1µA 1.6 1.85 2.1 V
VideoInput Signal (sync to white) 1 V

12

Sync Threshold 12 µA

12

SCANNING XTAL (Pin11)

F

CR

Frequency after Divider 15.625 kHz

11

Frequency Control Range after Divider ±700 Hz

11

PLL LOOP FILTER (Pin 10)

I

iow-10

I

high-10

Output Current Long time constant 0.15 mA
Output Current Short time constant 0.40 mA

DELAYED LINE FLYBACK INPUT (Pin 13)

V

TH-13

V

I

Threshold 0.6 V
Allowed Voltage Range - 0.4 HV

13

InputCurrent V13< 0.6V 5 µA

13

=25oC unless otherwisespecified)

amb

SECAM standard

SECAM

SECAM

SECAM

+5

-5

HV

8

20

7.5

1.5

0.0

CC

CC

kΩ
kΩ

mA
mA

V
V

V
V

PP

V

2110A-06.TBL

7/15

STV2110A

DC AND AC ELECTRICAL CHARACTERISTICS (continued)

(HV

CC=VCC

=9V,T

Symbol Parameter Test Conditions Min. Typ. Max. Unit

DIRECT BLANKING INPUT (Pin 2)

V

TH-2

V

Threshold 0.6 V
Allowed Voltage Range - 0.4 HV

2

InputCurrent V2< 0.6V 5 µA

I

2

HORIZONTAL OUTPUT (Pin 15)

V

V
V

∆t

T

low-15

5 start
5 stop

Output Pulse Width 26 28 29 µs

15

Output Voltage (open collector) I15= 10mA 1.5 V
HVCCStart Threshold 6.8 V
HVCCStop Threshold 6.2 V
ϕ2 Phase Range 12 µs

15

VERTICAL OUTPUT (Pin 14)

T

V

T

sync1

low-14

Output Pulse Width 10.5 line

14

Frame Synchro. Window (search) 248 to 352 line
Output Voltage (open collector) 1 V

=25oC unless otherwisespecified)

amb

CC

V

2110A-07.TBL

Figure1 : Contrast ControlCurve

RGB Output Signal

100%

50%

V

(V)

16

0%

2345

Figure3 : Differencebetween BlackLevel and

measuringLevel at RGB Outputs as
a functionof the BrightnessControl
Input

∆V

2V

1V

Figure2 : Saturation ControlCurve

RGB OutputSignal

100%

50%

0%

2110A-03.EPS

2345

V

(V)

27

2110A-04.EPS

0V

-1V

8/15

(V)

V

36

2345

2110A-05.RPS

Figure4 : Pins 3-8-38-42(COG, COB, COR, ICAT)

42

Figure5 : Pins 37-39-40(RIN, GIN, BIN)

STV2110A

3-8-38

2110A-06.EPS

Figure6 : Pins4-6-7 (ROUT, GOUT, BOUT)

37-39-40

Figure7 : Pin 9 (YIN)

9

2110A-07.EPS

Figure8 : Pin 10 (SLPF)

10

2110A-09.EPS

4-6-7

2110A-08.EPS

2110A-10.EPS

9/15

STV2110A

Figure9 : Pin 11(SXTL)

Figure11 : Pins 2-13 (BLK, LFB)

2-13

11

Figure10 : Pin 12(CVBS)

12

2110A-11.EPS

Figure12 : Pins 14 (VOUT)

14

V

REF

2110A-12.EPS

Figure13 : Pin 15 (HOUT)

15

2110A-13.EPS

Figure14 : Pins 16-27 (CTR,SAT)

16-27

Mute
(Pin 27)

2110A-15.EPS

2110A-14.EPS

2110A-16.EPS

10/15

Figure15 : Pin 20 (DLI)

20

V

REF1

V

STV2110A

REF2

Figure16 : Pin 21 (PS)

21

IPAL ISEC

Figure17 : Pin 25 (F432)

V

REF

2110A-18.EPS

2110A-17.EPS

25

2110A-19.EPS

11/15

STV2110A

Figure18 : Pins 17-18(SECIN, PALIN)

V

REF2

V

REF

Figure20 : Pins 26-29 (CDB,CDR)

17
18

Figure19 : Pins 28-31 (F440, F425)

V

REF

2110A-20.EPS

Figure21 : Pins 23-32 (CKS,CKP)

28
31

2110A-21.EPS

26
29

Figure22 : Pin 22 (DLO)

22

V

REF

23-32

2110A-22.EPS

2110A-23.EPS

Figure23 : Pin 36 (BRIG)

36

2110A-24.EPS

2110A-25.EPS

12/15

Figure24 : Pin 30 (ACC)

IPAL ISEC

Figure25 : Pin 33 (CXTL)

30

Figure26 : Pin 34(CLPF)

Base Current
Compensation

STV2110A

2110A-26.EPS

Phase
Comparator

33

Figure27 : Pin 35 (FBL)

35

2110A-27.EPS

34

2110A-28.EPS

2110A-29.EPS

13/15

STV2110A

APPLICATION DIAGRAM

Vcc

Ω

39k

Vcc Vcc

FBL

SAT

HVcc

22kΩ

39kΩ

39kΩ

ICAT

RIN GIN BIN

F
100

9V

22nF

µ

100nF

100Ω

Ω

15k

22kΩ

BRIG

22kΩ

CTR

47kΩ

100nF100nF 100nF

75Ω

75Ω

75Ω

Ω

Vcc

9V

75

22nF

F

µ

100

MUTE

Ω

15k

Ω

BRIG

15k

100nF 100nF

16

CTR

Ω

1k

ICAT

38 3 8 36

COR COG COB

22nF

22nF

22nF

RIN GIN BIN

35 395

FBL

2 x 1N4148

HVcc

41

Vcc

13740 42

10nF

DL

1kΩ

SAT

27

9

YIN

CVBS

&

470Ω

33

CXTL

TRAP

V

ROUT

470Ω470Ω

4

4.43MHz

1kΩ

CC

GOUT

6

Ω

270k

Ω

18k

BOUT

7

34

CLPF

CC

V
H

ACC

33nF

30

Ω

330k

100nF 4.7nF

VERTICAL

DEFLECTION

(TDA1771)

RAMPGENERATOR

V

Ω

H

1.2k

VOUT

14

STV2110A

23

32

CKS

CKP

6.8nF

10nF

47nF

1kΩ

+V

CC

18

PALIN

CVBS

Ω

1.2k

SECIN

10nF

Ω

390

17

10µH

120pF

HOUT

15

1kΩ

47nF

SXTL

11

Ω

2k

LINE

503kHz

CVBS

YOKE

21
PS

10µH

330pF

CC

V
H

SLPF

10

3.3nF

Ω

3.9k

100nF

CVBS

12

22

DLO

Ω

18k

F

µ

1

Ω

56pF

560k

13

25

26

19 29 28 31 2

24 20

BLK

LFB

F432F425CDRCDB

F440

DLI

GND

GND

Ω

22k

CVBS

10nF

10nF

180pF 180pF

10nF

2Vpp

5.6kΩ

10nF

390Ω

10µH

10nF

4.7nF

10kΩ

150pF

Ω

1k

100pF

DL

1kΩ

10µH

Ω

1k

100pF

750Ω 8.2µH 10µH

10µH

Ω

1k

680Ω

2110A-30.EPS

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PACKAGE MECHANICAL DATA

42 PINS- PLASTICSHRINK DIP

STV2110A

e4
F

A

a1

I

L

b1

e

Stand-off

22

21

E

Dimensions

b2

b

e3

D

42

1

Millimeters Inches

Min. Typ. Max. Min. Typ. Max.

A 3.30 0.130

a1 0.51 0.020

b 0.35 0.59 0.014 0.023
b1 0.20 0.36 0.008 0.014
b2 0.75 1.42 0.030 0.056
b3 0.75 0.030

D 39.12 1.540
E 15.57 17.35 0.613 0.683

e 1.778 0.070
e3 35.56 1.400
e4 15.24 0.600

F 14.48 0.570

i 5.08 0.200

L 2.54 0.100

PMSDIP42.EPS

SDIP42.TBL

Information furnished is believed tobe accurate and reliable. However,SGS-THOMSON Microelectronics assumes no responsibility
for the consequences of use of suchinformation nor forany infringement of patents or other rights ofthird parties which may result
from its use. No licence is granted by implication orotherwise under anypatent or patent rights ofSGS-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 notauthorized for useas critical components in life
support devicesor systems without express written approval of SGS-THOMSON Microelectronics.

 1994 SGS-THOMSON Microelectronics - All Rights Reserved

Purchase of I

2

I

C Patent.Rights to use these components in a I2C system,is granted provided that the system conforms to

2

C Components of SGS-THOMSON Microelectronics, conveys a licenseunder the Philips

2

the I

C Standard Specificationsas defined by Philips.

SGS-THOMSON Microelectronics GROUP OF COMPANIES

Australia -Brazil - China - France - Germany - Hong Kong - Italy -Japan - Korea- Malaysia - Malta- Morocco

The Netherlands - Singapore - Spain - Sweden - Switzerland - Taiwan - Thailand - United Kingdom - U.S.A.

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