Philips SAA5254P Datasheet

INTEGRATED CIRCUITS

DATA SH EET

SAA5254

Integrated VIP and teletext decoder
(IVT1.1X)

Preliminary specification
Supersedes data of July 1993
File under Integrated Circuits, IC02

1996 Nov 07

Philips Semiconductors Preliminary specification

Integrated VIP and teletext decoder
(IVT1.1X)

FEATURES

• Complete teletext decoder including page memory and
FASTEXT links in a 40-pin DIP package

• Automatic processing of extension packet 26 for widest
possible language decoding. All our standard language
options can be available, and language option is
readable via I2C-bus

• 100% hardware compatible with the SAA5244A; plug-in
replacement and extra market

• 100% hardware compatible with the SAA5244A, except
if the special OSD symbols were used with the
SAA5244A, except ROM identification number

• The device is pin-aligned with the other members of the
new Philips teletext decoder family, i.e. SAA5280 and
the SAA5249, making one hardware solution for the full
range

• Low software overhead for the control microprocessor

• Single page acquisition system

• RGB interface to standard colour decoder ICs, push-pull

output drive

• Separate text and video signal quality detectors.

SAA5254

DESCRIPTION

The Integrated VIP and Teletext decoder (IVT1.1X) is
designed to decode 625-line based World System Teletext
transmissions. This single-chip teletext decoder hardware
is based on the SAA5244A with which it is completely
compatible.

Like the SAA5244A the device contains all the hardware
necessary to decode the teletext, but the SAA5254 also
contains extra hardware to process the extension packet
26 characters automatically, extending the markets to
which the TV chassis can be shipped and opening the
possibility of many more language options.

ORDERING INFORMATION

TYPE

NUMBER

NAME DESCRIPTION VERSION

SAA5254P DIP40

plastic dual in-line package; 40 leads (600 mil)

PACKAGE

SOT129-1

QUICK REFERENCE DATA

SYMBOL PARAMETER MIN. TYP. MAX. UNIT

V

DD

I

DD

V

sync

V

video

f

XTAL

T

amb

supply voltage 4.5 5.0 5.5 V
supply current − 90 120 mA
sync voltage amplitude 0.1 0.3 0.6 V
video voltage amplitude 0.7 1.0 1.4 V
crystal frequency − 27 − MHz
operating ambient temperature −20 − +70 °C

1996 Nov 07 2

Philips Semiconductors Preliminary specification

Integrated VIP and teletext decoder
(IVT1.1X)

BLOCK DIAGRAM

Y BLAN RGBREF RGB

23 19 21 18 15 to 17 22

DISPLAY

DATA

SLICER

AND

CLOCK

REGENERATOR

ODD/EVENCOR

TELETEXT

ACQUISITION

AND

DECODING

HAMMING
CHECKER

AND

PACKET 26

PROCESSING

ENGINE

PAGE

MEMORY

SAA5254

V

SS1

REF

OSCOUT

OSCIN

5

6

2
3

DCVBS

2

I

C-BUS

INTERFACE

ANALOG

TO

DIGITAL

CONVERTER

CRYSTAL

OSCILLATOR

4 7 9 8 11 13 12

OSCGND BLACK IREF CVBS POL STTV/LFB

TIMING

CHAIN

INPUT

CLAMP

AND SYNC

SEPARATOR

SAA5254

DISPLAY

CLOCK
PHASE

LOCKED

LOOP

VCR/FFB

25
24

10
14

20

SDA
SCL

1

V

DD1

V

DD2

V

SS2

V

SS3

MLB207

Fig.1 Block diagram; SOT129 (DIP40).

1996 Nov 07 3

Philips Semiconductors Preliminary specification

Integrated VIP and teletext decoder

SAA5254

(IVT1.1X)

PINNING

SYMBOL PIN DESCRIPTION

V

DD1

OSCOUT 2 27 MHz crystal oscillator output
OSCIN 3 27 MHz crystal oscillator input
OSCGND 4 0 V crystal oscillator ground
V

SS1

REF+ 6 Positive reference voltage for the ADC. This pin should be connected to +5 V.
BLACK 7 Video black level storage pin, connected to ground via a 100 nF capacitor.
CVBS 8 Composite video input pin. A positive-going 1 V (peak-to-peak) input is required,

IREF 9 Reference current input pin, connected to ground via a 27 kΩ resistor.
V

DD2

POL 11 STTV/LFB/FFB polarity selection pin
STTV/LFB 12 Sync to TV output pin/line flyback input pin. Function controlled by an internal register bit

VCR/FFB 13 PLL time constant switch/field flyback input pin. Function controlled by an internal register

V

SS2

R 15 Dot rate character output of the RED colour information.
G 16 Dot rate character output of the GREEN colour information.
B 17 Dot rate character output of the BLUE colour information.
RGBREF 18 DC input voltage to define the output high level on the RGB pins.
BLAN 19 Dot rate fast blanking output.
V

SS3

COR 21 Programmable active LOW output to provide contrast reduction of the TV picture for mixed

EVEN 22 25 Hz output synchronized with the CVBS inputs field sync pulses to produce a

ODD/

Y 23 Dot rate character output of teletext foreground colour information; open drain output.
SCL 24 Serial clock input for the I
SDA 25 Serial input/output data port for the I

i.c. 26 to 40 Internally connected. Must be left open-circuit in application.

1 +5 V supply 1

5 0 V ground 1

connected via a 100 nF capacitor.

10 +5 V supply 2

(scan sync mode).

bit (scan sync mode).

14 0 V ground 2

20 0 V ground 3

text and picture displays or when viewing newsflash/subtitle pages; open drain output.

non-interlaced display by adjustment of the vertical deflection currents.

power-down of the device.

2

C-bus. It can still be driven during power-down of the device.

2

C-bus; open drain output. It can still be driven during

1996 Nov 07 4

Philips Semiconductors Preliminary specification

Integrated VIP and teletext decoder
(IVT1.1X)

V

DD1

OSCOUT

OSCIN

OSCGND

V

SS1

REF

BLACK

CVBS

IREF

V

DD2
POL

STTV/LFB

VCR/FFB

V

SS2

R
G

1
2
3
4
5
6
7
8
9

10

SAA5254

11
12
13

15
16

40
39
38
37
36
35
34

i.c.

33
32
31
30
29
28
2714
26
25

SDA

SAA5254

24

SCL

23

Y
ODD/EVEN

22

COR

21

RGBREF

BLAN

V

SS3

17

B

18
19
20

MLB208

Fig.2 Pin configuration; SOT129 (DIP40).

1996 Nov 07 5

Philips Semiconductors Preliminary specification

Integrated VIP and teletext decoder

SAA5254

(IVT1.1X)

QUALITY AND RELIABILITY

This device will meet Philips Semiconductors General Quality Specification for Business group

Circuits SNW-FQ-611-Part E”

. The principal requirements are shown in Tables 1 to 4.

Group A
Table 1 Acceptance tests per lot

TEST CONDITIONS REQUIREMENTS

Mechanical cumulative target < 100 ppm
Electrical cumulative target < 100 ppm

Group B
Table 2 Processability tests (by package family)

TEST CONDITIONS REQUIREMENTS

Solderability < 7% LTPD
Mechanical < 15% LTPD
Solder heat resistance < 15% LTPD

“Consumer Integrated

(1)

(1)

Group C
Table 3 Reliability tests (by process family)

TEST CONDITIONS REQUIREMENTS

Operational life 168 hours at Tj= 150 °C < 1500 FPM; equivalent to

< 100 FITS at Tj=70°C

Humidity life temperature, humidity, bias

< 2000 FPM
(1000 hours, 85 °C, 85% RH or
equivalent test)

Temperature cycling performance T

stg(min)

to T

stg(max)

< 2000 FPM

Table 4 Reliability tests (by device type)

TEST CONDITIONS REQUIREMENTS

ESD and latch-up ESD Human body model

< 15% LTPD
2000 V, 100 pF, 1.5 kΩ

ESD Machine model

< 15% LTPD
200 V, 100 pF, 1.5 kΩ

latch-up 100 mA, 1.5 × V

DD

< 15% LTPD
(absolute maximum)

Notes to Tables 1 to 4

1. ppm = fraction of defective devices, in parts per million.
LTPD = Lot Tolerance Percent Defective.
FPM = fraction of devices failing at test condition, in Failures Per Million.
FITS = Failures In Time Standard.

(1)

(1)

1996 Nov 07 6

Philips Semiconductors Preliminary specification

Integrated VIP and teletext decoder

SAA5254

(IVT1.1X)

LIMITING VALUES

In accordance with the Absolute Maximum Rating System (IEC 134).

SYMBOL PARAMETER MIN. MAX. UNIT

V

DD

V

I

V

O

I

O

I

IOK

T

amb

CHARACTERISTICS

=5V±10%; T

V

DD

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
Supply

V

DD

I

DD(tot)

Inputs

supply voltage (all supplies) −0.3 +6.5 V
input voltage (any input) −0.3 VDD+ 0.5 V
output voltage (any output) −0.3 VDD+ 0.5 V
output current (each output) −10 +10 mA
DC input or output diode current −20 +20 mA
operating ambient temperature −20 +70 °C

= −20 to +70 °C, unless otherwise specified.

amb

supply voltage 4.5 5.0 5.5 V
total supply current − 90 120 mA

CVBS
V

sync

t

d(sync)

∆t

d(sync)

V

video(p-p)

PLL

catch

Z

source

C

i

IREF
R

GND

POL
V

IL

V

IH

I

LI

C

i

sync voltage amplitude 0.1 0.3 0.6 V
delay from CVBS to TCS output from

−150 0 +150 ns
STTV buffer (nominal video, average
of leading/trailing edge)

change in sync delay between all

0 − 25 ns
black and all white video input at
nominal levels

video input voltage amplitude

0.7 1.0 1.4 V

(peak-to-peak value)
display PLL catching range ±7 −−%
source impedance −−250 Ω
input capacitance −−10 pF

resistance to ground − 27 − kΩ

LOW level input voltage −0.3 − +0.8 V
HIGH level input voltage 2.0 − VDD+ 0.5 V
input leakage current VI=0toV

DD

−10 − +10 µA

input capacitance −−10 pF

1996 Nov 07 7

Philips Semiconductors Preliminary specification

Integrated VIP and teletext decoder

SAA5254

(IVT1.1X)

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

LBF
V

IL

V

IH

I

LI

I

I

t

d(LFB)

VCR/FFB
V

IL

V

IH

I

LI

I

I

RGBREF (note 2)
V

I

I

LI

I

DC

SCL
V

IL

V

IH

I

LI

f

SCL

t

i(r)

t

i(f)

C

i

Inputs/outputs

LOW level input voltage −0.3 − +0.8 V
HIGH level input voltage 2.0 − VDD+ 0.5 V
input leakage current VI=0toV

DD

−10 − +10 µA
input current note 1 −1 − +1 mA
delay between LFB front edge and

− 250 − ns
input video line sync

LOW level input voltage −0.3 − +0.8 V
HIGH level input voltage 2.0 − VDD+ 0.5 V
input leakage current VI=0toV

DD

−10 − +10 µA
input current note 1 −1 − +1 mA

input voltage −0.3 − VDD+ 0.5 V
input leakage current VI=0toV

DD

−10 − +10 µA
DC current −−10 mA

LOW level input voltage −0.3 − +1.5 V
HIGH level input voltage 3.0 − VDD+ 0.5 V
input leakage current VI=0toV

DD

−10 − +10 µA
clock frequency 0 − 100 kHz
input rise time 10% to 90% −−2µs
input fall time 90% to 10% −−2µs
input capacitance −−10 pF

C

RYSTAL OSCILLATOR (OSCIN; OSCOUT)

f

XTAL

G

v

G

m

C

i

C

FB

crystal frequency − 27 − MHz
small signal voltage gain 3.5 −−
mutual conductance f = 100 kHz 1.5 −− mA/V
input capacitance −−10 pF
feedback capacitance −−5pF

BLACK
C

I

black

LI

storage capacitor to ground − 100 − nF
input leakage current VI=0toV

1996 Nov 07 8

DD

−10 − +10 µA

Philips Semiconductors Preliminary specification

Integrated VIP and teletext decoder

SAA5254

(IVT1.1X)

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

SDA
V

IL

V

IH

I

LI

C

i

t

i(r)

t

i(f)

V

OL

t

o(f)

C

L

Outputs

STTV
G

STTV

V

TCS

V

DCshift

I

O

C

L

R, G AND B
V

OL

V

OH

 output impedance −−200 Ω

Z

o

C

L

I

DC

t

o(r)

t

o(f)

BLAN
V

OL

V

OH

V

O(max)

C

L

t

o(r)

t

o(f)

LOW level input voltage −0.3 − +1.5 V
HIGH level input voltage 3.0 − VDD+ 0.5 V
input leakage current VI=0toV

DD

−10 − +10 µA
input capacitance −−10 pF
input rise time 10% to 90% −−2µs
input fall time 90% to 10% −−2µs
LOW level output voltage IOL= 3 mA 0 − 0.5 V
output fall time 3 to 1 V −−200 ns
load capacitance −−400 pF

gain of STTV relative to video input 0.9 1.0 1.1
TCS voltage amplitude 0.2 0.3 0.45 V
DC voltage shift between TCS output

−−0.15 V
and nominal video output

output drive current −−3.0 mA
load capacitance −−100 pF

LOW level output voltage IOL= 2 mA 0 − 0.2 V
HIGH level output voltage IOH= −1.6 mA;

RGBREF ≤ VDD− 2V

RGBREF

−0.25 V

RGBREF RGBREF

+0.25 V

V

load capacitance −−50 pF
DC current −−−3.3 mA
output rise time 10% to 90% −−20 ns
output fall time 90% to 10% −−20 ns

LOW level output voltage IOL= 1.6 mA 0 − 0.4 V
HIGH level output voltage IOH= −0.2 mA;

1.1 −− V

VDD= 4.5 V

= 0 mA; VDD= 5.5 V −−2.8 V

I

OH

allowed output voltage at pin with external pull-up −−VDDV
load capacitance −−50 pF
output rise time 10% to 90% −−20 ns
output fall time 90% to 10% −−20 ns

1996 Nov 07 9

Philips Semiconductors Preliminary specification

Integrated VIP and teletext decoder

SAA5254

(IVT1.1X)

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

ODD/

EVEN

V

OL

V

OH

C

L

t

o(r)

t

o(f)

COR AND Y(OPEN DRAIN)
V

pu

V

OL

C

L

t

o(f)

I

LO

T

skew

LOW level output voltage IOL= 1.6 mA 0 − 0.4 V
HIGH level output voltage IOH= −1.6 mA VDD− 0.4 − V

DD

V
load capacitance −−120 pF
output rise time 0.6 to 2.2 V −−50 ns
output fall time 2.2 to 0.6 V −−50 ns

pull-up voltage at pin −−VDDV
LOW level output voltage IOL= 5 mA 0 − 1.0 V
load capacitance −−25 pF
output fall time load resistor of

−−50 ns

1.2 kΩ to VDD;
measured between

VDD− 0.5 and 1.5 V
output leakage current VI=0toV
skew delay between display outputs

DD

−10 − +10 µA

−−20 ns

R, G, B, COR, Y and BLAN

Timing

I2C-BUS (see Fig.3)

t

LOW

t

HIGH

t

SU;DAT

t

HD;DAT

t

SU;STO

clock LOW period 4 −− µs
clock HIGH period 4 −− µs
data set-up time 250 −− ns
data hold time 170 −− ns
set-up time from clock HIGH to

4 −− µs

STOP

t

BUF

t

HD;STA

t

SU;STA

START set-up time following a STOP 4 −− µs
START hold time 4 −− µs
START set-up time following clock

4 −− µs

LOW-to-HIGH transition

Notes

1. This current is the maximum allowed into the inputs when line and field flyback signals are connected to these inputs.
Series current limiting resistors must be used to limit the input currents to ±1 mA.

2. RGBREF is the positive supply for the RGB output pins and it must be able to source the IOH current from the
R, G and B pins. The leakage specification on RGBREF only applies when there is no current load on the RGB pins.

1996 Nov 07 10

Philips Semiconductors Preliminary specification

Integrated VIP and teletext decoder
(IVT1.1X)

handbook, full pagewidth

SDA

t

SCL

SDA

MBC764

t

BUF

t

HD;STA

LOW

t

r

t

SU;STA

t

HD;DAT

t

HIGH

SAA5254

t

f

t

SU;DAT

t

SU;STO

TIMING CHAIN

handbook, full pagewidth

LSP

(TCS)

R, G, B, Y

(1)

R, G, B, Y

(1)

0 4.66

0

0

Fig.3 I2C-bus timing.

40 µs

display period

16.67

(a)

lines 42 to 291 inclusive (and 355 to 604 inclusive interlaced)

display period

41

(b)

56.67 µs

64 µs

291

line numbers

MLA662 - 1

312

(1) Also BLAN in character and box blanking.

Fig.4 Display output timing (a) line rate (b) field rate.

1996 Nov 07 11