1996 Jan 09

Philips Semiconductors

Product specification

Video control combination circuit

TDA3504

FEATURES

Capacitive coupling of the colour difference and
luminance input signals with black level clamping in the
input stages

Linear saturation control acting on the colour difference
signals

Y) and RGB matrix

Linear transmission of inserted signals

Equal black levels for inserted and matrixed signals

3 identical channels for the RGB signals

Linear contrast and brightness controls, operating on
both the inserted and matrixed RGB signals

Clamping, horizontal and vertical blanking of the three
input signals controlled by a 3-level sandcastle pulse

Emitter-follower outputs for driving the RGB output
stages.

GENERAL DESCRIPTION

The TDA3504 is an integrated circuit which performs video
control functions in a PAL/SECAM decoder for negative
colour difference signals

Y) and

Y).

The required input signals are luminance and colour
difference and a 3-level sandcastle pulse for control
purposes. Linear RGB signals can be inserted from an
external source. RGB output signals are available for
driving the video output stages.

QUICK REFERENCE DATA

All voltages referenced to pin 18 (ground).

ORDERING INFORMATION

SYMBOL

PARAMETER

MIN.

TYP.

MAX.

UNIT

supply voltage (pin 2)

12.0

supply current (pin 2)

11(p-p)

video blanking sync (VBS) input signal
(peak-to-peak value)

0.45

15(p-p)

Y) colour difference input signal

(peak-to-peak value)

1.33

14(p-p)

Y) colour difference input signal

(peak-to-peak value)

1.05

10, 9, 8(b-w)

inserted RGB signals (black-to-white value)

1.0

3-level sandcastle pulse

level 1

2.5

level 2

4.5

level 3

8.0

control voltage brightness

1.0

3.0

control voltage contrast

2.0

4.2

control voltage saturation

2.0

4.2

amb

operating ambient temperature

+70

TYPE

NUMBER

PACKAGE

NAME

DESCRIPTION

VERSION

TDA3504

DIP20

plastic dual in-line package; 20 leads (300 mil)

SOT146-1

1996

Jan

Philips Semiconductors

Product specification

ideo control combination circuit

TDA3504

BLOCK DIAGRAM

MSA516 - 1

3 x SIGNAL SWITCH

MATRIX

(R Y)

SATURATION

CONTROL

MATRIX

(G Y)

(B Y)

SATURATION

CONTROL

CLAMPING

2.9 V

4.4 V

Y AMPLIFIER

clamping pulse

VBS

signal

(0.45 V p p)

(B Y)

(1.33 V p-p)

(R Y)

(1.05 V p-p)

4.5 V

DRIVER FOR

SIGNAL

SWITCHES

saturation

control voltage

(2 to 4.2 V)

(

12 V)

input for signal

switching voltage

CONTRAST

CONTROL

PEAK DRIVE

LIMITING

CONTRAST

CONTROL

CONTRAST

CONTROL

signal insertion (1 V)

BRIGHTNESS

CONTROL

BRIGHTNESS

CONTROL

BRIGHTNESS

CONTROL

green

red

blue

BLANKING

OUTPUT

STAGE

red

5 V B/W

OUTPUT

STAGE

green

5 V B/W

OUTPUT

STAGE

blue

5 V B/W

n.c.

SANDCASTLE

DETECTOR

H + V

clamping pulse

contrast control

voltage (2 to 4.2 V)

brightness

control

voltage

(1 to 3 V)

8 V

4.5 V

2.5 V

0 V

sandcastle

pulse

TDA3504

Fig.1 Block diagram.

1996 Jan 09

Philips Semiconductors

Product specification

Video control combination circuit

TDA3504

PINNING

SYMBOL

PIN

DESCRIPTION

blue output

supply voltage (+12 V)

blue storage capacitor for brightness

green storage capacitor for brightness

red storage capacitor for brightness

SAND

sandcastle pulse input

FSW

fast switch for RGB input

blue input (external signal)

green input (external signal)

red input (external signal)

luminance input

SAT

saturation control input

n.c.

not connected

colour difference input

CON

contrast control input

BRI

brightness control input

GND

ground (0 V)

red output

green output

Fig.2 Pin configuration.

TDA3504

SAND

FSW

SAT

n.c.

(R Y)

(B Y)

CON

BRI

GND

MSA513

LIMITING VALUES

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

SYMBOL

PARAMETER

MIN.

MAX.

UNIT

supply voltage (pin 2)

13.2

sandcastle voltage (pin 6)

fast switch voltage (pin 7)

0.5

+3.0

12, 16, 17

control input voltage (pins 12, 16 and 17)

0.5V

voltage on pins 1, 3, 4, 5, 8 to 11, 14, 15, 19 and 20

no external DC voltage

1, 19, 20 (av)

average output current (pins 1, 19 and 20)

1, 19, 20(max)

maximum output current (pins 1, 19 and 20)

16 (av)

average output current (pin 16)

input current (pin 17)

tot

total power dissipation

1.7

amb

operating ambient temperature

+70

stg

storage temperature

+150

1996 Jan 09

Philips Semiconductors

Product specification

Video control combination circuit

TDA3504

CHARACTERISTICS

= 12 V; V

8, 9, 10(p-p)

= 1 V; V

11(p-p)

= 0.45 V; V

14(p-p)

= 1.05 V; V

15(p-p)

= 1.33 V; T

amb

= 25

C; measured in

Figs 3 and 4; nominal settings of brightness (V

= 2 V), contrast (V

= 3.6 V) and saturation (V

= 3.1 V); all voltages

referenced to ground (pin 18); unless otherwise specified.

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

Supply

supply voltage (pin 2)

10.8

12.0

13.2

supply current (pin 2)

note 1

125

Colour difference inputs (pins 14 and 15)

14(p-p)

Y) input signal (pin 14)

(peak-to-peak value)

for saturated colour bar with
75% of maximum amplitude

1.05

1.48

15(p-p)

Y) input signal (pin 15)

(peak-to-peak value)

for saturated colour bar with
75% of maximum amplitude

1.33

1.88

14, 15

input current between clamping
pulses

0.2

14, 15

input resistance

1.0

14, 15

internal DC voltage due to clamping

note 2

3.8

4.2

4.8

Saturation control (pin 12)

control voltages

(2)

maximum saturation

4.0

4.2

4.4

nominal saturation
6 dB below maximum

2.9

3.1

3.3

26 dB saturation referenced

to maximum

1.9

2.1

2.3

SAT

minimum saturation

= 1.8 V

input current

Y) matrix (see note 3)

Luminance input (pin 11)

11(p-p)

VBS input signal
(peak-to-peak value)

note 4

450

630

input current between clamping
pulses

0.4

input resistance

1.0

input DC voltage due to clamping

note 2

2.5

2.9

3.3

linearity

nominal settings

0.85

RGB channels

IGNAL SWITCHING INPUT

(

normal state voltage; no insertion

0.4

voltage level for insertion on

0.9

3.0

input capacitance

input current

= 0 to 3 V

100

+430

1996 Jan 09

Philips Semiconductors

Product specification

Video control combination circuit

TDA3504

IGNAL INSERTION

: RI (

10); GI (

9); BI (

8, 9, 10(b-w)

external RGB input signals
(black-to-white value)

1.0

1.4

8, 9, 10

input current between clamping
pulses

0.5

8, 9, 10

internal DC voltage due to clamping

notes 2 and 5

4.0

4.5

5.0

Contrast control (pin 16)

control voltages

(2)

maximum contrast

4.0

4.2

4.4

nominal contrast
3 dB below maximum

3.4

3.6

3.8

10 dB below maximum

2.6

2.8

3.0

CON

minimum contrast

referenced to maximum;
V

= 2 V

RGB

diff

difference between RGB channels

contrast

10 dB below

maximum

0.6

Peak drive limiting

threshold voltage

note 2

8.5

8.8

9.1

input current at contrast control
input

1, 19, 20

internal signal limiting

referenced to nominal
output amplitude; note 6

110

Brightness control (pin 17)

control voltages

(2)

brightness control range

1.0

3.0

nominal brightness

2.0

input current

no beam current limiting;
V

= 1 to 3 V

blk(b-w)

shift of black level in the control
range referenced to the luminance
signal (black-to-white value)

= 1 V

tracking

RGB outputs (emitter follower; pins 19, 20 and 1)

19, 20, 1

output voltage

black-to-white positive

4.0

5.0

6.5

19, 20, 1

difference in black level between
RGB channels due to variation of
contrast control

19, 20, 1

internal current source

2.0

3.0

4.0

Gain data (at nominal brightness, contrast, saturation and white point settings)

v19, 20, 1-11

voltage gain with respect to
luminance input (pin 11)

19, 20, 1-11

frequency response of luminance
path

f = 0 to 5 MHz

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

1996 Jan 09

Philips Semiconductors

Product specification

Video control combination circuit

TDA3504

Notes

1. Maximum value 110 mA after warm-up.

2. Values are proportional to the supply voltage.

3. Matrixed according to equation V

0.51V

0.19V

4. Clipping due to internal signal limitation may occur when the Y input is greater than nominal and maximum contrast

and minimum brightness.

5. When V

7-18

< 0.4 V during clamping time, the black levels of the inserted RGB signals are clamped on the black

levels of the internal RGB signals.

When V

7-18

> 0.9 V during clamping time, the black levels of the inserted RGB signals are clamped on an internal

DC voltage (correct clamping of the external RGB signals is possible only when they are synchronous with the
sandcastle pulse).

6. Internal signal limitation is allowed to start at 5.5 V after warm-up time.

7. The sandcastle pulse is compared with three internal thresholds (proportional to V

) and the given levels separate

the various pulses.

8. Blanked to ultra-black (

25%).

9. Pulse duration

3.5

v1-15

;

v19-14

voltage gain with respect to colour
difference inputs (pins 14 and 15)

1-15

;

19-14

frequency response of colour
difference paths

f = 0 to 2 MHz

v19-10

;

v20-9

; G

v1-8

voltage gain with respect to inserted
signals

19-10

;

20-9

;

1-8

frequency response of inserted
signal paths

f = 0 to 10 MHz

19, 20, 1

difference in transition times
between R, G and B channels

delay time between signal switching
and signal insertion

+25

19, 20, 1

difference in gain between normal
and signal insertion mode

Sandcastle pulse detector (pin 6)

the following amplitudes are
required for separating the various
pulses

horizontal and vertical
blanking; notes 7 and 8

2.1

2.5

2.9

horizontal; note 7

4.1

4.5

5.0

clamping; notes 7 and 9

7.6

8.0

12.0

no keying; note 7

1.0

input current

LOW

110

delay of leading edge of clamping
pulse

0.5

SYMBOL

PARAMETER

CONDITIONS

MIN.

TYP.

MAX.

UNIT

1996 Jan 09

Philips Semiconductors

Product specification

Video control combination circuit

TDA3504

SOLDERING

Introduction

There is no soldering method that is ideal for all IC
packages. Wave soldering is often preferred when
through-hole and surface mounted components are mixed
on one printed-circuit board. However, wave soldering is
not always suitable for surface mounted ICs, or for
printed-circuits with high population densities. In these
situations reflow soldering is often used.

This text gives a very brief insight to a complex technology.
A more in-depth account of soldering ICs can be found in
our

"IC Package Databook" (order code 9398 652 90011).

Soldering by dipping or by wave

The maximum permissible temperature of the solder is
260

C; solder at this temperature must not be in contact

with the joint for more than 5 seconds. The total contact
time of successive solder waves must not exceed
5 seconds.

The device may be mounted up to the seating plane, but
the temperature of the plastic body must not exceed the
specified maximum storage temperature (T

stg max

). If the

printed-circuit board has been pre-heated, forced cooling
may be necessary immediately after soldering to keep the
temperature within the permissible limit.

Repairing soldered joints

Apply a low voltage soldering iron (less than 24 V) to the
lead(s) of the package, below the seating plane or not
more than 2 mm above it. If the temperature of the
soldering iron bit is less than 300

C it may remain in

contact for up to 10 seconds. If the bit temperature is
between 300 and 400

C, contact may be up to 5 seconds.

DEFINITIONS

LIFE SUPPORT APPLICATIONS

These products are not designed for use in life support appliances, devices, or systems where malfunction of these
products can reasonably be expected to result in personal injury. Philips customers using or selling these products for
use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such
improper use or sale.

Data sheet status

Objective specification

This data sheet contains target or goal specifications for product development.

Preliminary specification

This data sheet contains preliminary data; supplementary data may be published later.

Product specification

This data sheet contains final product specifications.

Limiting values

Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or
more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation
of the device at these or at any other conditions above those given in the Characteristics sections of the specification
is not implied. Exposure to limiting values for extended periods may affect device reliability.

Application information

Where application information is given, it is advisory and does not form part of the specification.

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SCDS47

All rights are reserved. Reproduction in whole or in part is prohibited without the
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The information presented in this document does not form part of any quotation
or contract, is believed to be accurate and reliable and may be changed without
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other industrial or intellectual property rights.

Printed in The Netherlands

533061/1100/02/pp12

Date of release: 1996 Jan 09

Document order number:

9397 750 00556

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