Philips TDA8315T-N3 Datasheet

DATA SH EET

Preliminary specification
File under Integrated Circuits, IC02

September 1994

INTEGRATED CIRCUITS

Philips Semiconductors

TDA8315T

Integrated NTSC decoder
and sync processor

September 1994 2

Philips Semiconductors Preliminary specification

Integrated NTSC decoder
and sync processor

TDA8315T

FEATURES

• CVBS or Y/C input

• Integrated chrominance trap and bandpass filters

(automatically calibrated)

• Integrated luminance delay line

• Alignment-free NTSC colour decoder

• Horizontal PLL with an alignment-free horizontal

oscillator

• Vertical count-down circuit

• Low dissipation (320 mW)

• Small amount of peripheral components compared with

competition ICs.

GENERAL DESCRIPTION

The TDA8315T is an alignment-free NTSC decoder/sync
processor. The device can be used for normal television
applications and for Picture-in-Picture (PIP) applications.

The input signal can be either CVBS or Y/C and at the
outputs the following signals are available:

Luminance signal
Colour difference signals (U and V)
Horizontal and vertical synchronization pulses
Back porch clamping pulse (burst-key pulse).

The supply voltage for the IC is 8 V. It is available in a
24-pin SO package.

QUICK REFERENCE DATA

ORDERING INFORMATION

SYMBOL PARAMETER MIN. TYP. MAX. UNIT

V

P

supply voltage (pins 11 and 12) 7.2 8.0 8.8 V

I

P

supply current − 40 − mA

Input voltages

V

13(p-p)

CVBS/Y input voltage (peak-to-peak value) − 1 − V

V

15(p-p)

chrominance input voltage (peak-to-peak value) − 0.3 − V

Output signals

V

O(b-w)

luminance output voltage (blank-to-white value) − 1.65 − V

V

21(p-p)

−U output voltage (peak-to-peak value) − 1.5 − V

V

20(p-p)

−V output voltage (peak-to-peak value) − 1.5 − V

V

2

horizontal sync pulse − 4 − V

V

7

vertical sync pulse − 4 − V

V

10

back porch clamping pulse − 4 − V

Control voltages

V

control

control voltages for Saturation and Hue 0 − 5V

TYPE NUMBER

PACKAGE

NAME DESCRIPTION VERSION

TDA8315T SO24 plastic small outline package; 24 leads; body width 7.5 mm SOT137-1

September 1994 3

Philips Semiconductors Preliminary specification

Integrated NTSC decoder

and sync processor

TDA8315T

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BLOCK DIAGRAM

Fig.1 Block diagram.

handbook, full pagewidth

MBE015

CHROMINANCE

BANDPASS

CHROMINANCE

TRAP

CVBS/Y

SWITCH

13
15

COINCIDENCE

DETECTOR

SYNC

SEPARATOR

PHASE

DETECTOR

VERTICAL

SYNC

SEPARATOR

OSCILLATOR

PLUS

CONTROL

H/V DIVIDER

FILTER

TUNING

NTSC

DECODER

14 22 24 18 17

MATRIX

U/V-SIGNALS

SATURATION

CONTROL

816

20

21

LUMINANCE
DELAY LINE

AMPLIFIER

19

7

2

PULSE

SHAPER

10

reference

4

PH1LF

9

DEC

DIG

11

V

P1

12
3

GND1

23

V

P2

GND2

5

DEC

BG

CVBS
CHROMA

CVBS/Y
switch

DEC

FT

PLL XTAL

HUE

SSC DEM

SW

SAT

V

U

Y

VOUT

CLAMP

HOUT

TDA8315T

September 1994 4

Philips Semiconductors Preliminary specification

Integrated NTSC decoder
and sync processor

TDA8315T

PINNING

Note

1. In the application the test pins must be connected to
ground.

SYMBOL PIN DESCRIPTION

TEST1

(1)

1 test pin 1
HOUT 2 horizontal output pulse
GND1 3 ground 1 (0 V)
PH1LF 4 phase 1 loop filter
DEC

BG

5 bandgap decoupling
TEST2

(1)

6 test pin 2
VOUT 7 vertical output pulse
DEM

SW

8 demodulation angle switch
DEC

DIG

9 decoupling digital supply
CLAMP 10 back porch clamping pulse
V

P1

11 supply voltage 1 (+8 V)

V

P2

12 supply voltage 2 (+8 V)
CVBS/Y 13 CVBS/Y input
DEC

FT

14 decoupling filter tuning
CHROMA 15 chrominance and switch input
SAT 16 saturation control input
SCS 17 sub-carrier signal output
HUE 18 hue control input
Y 19 Y output

−V20−V output

−U21−U output

PLL 22 PLL colour filter
GND2 23 ground 2 (0 V)
XTAL 24 3.58 MHz crystal connection

Fig.2 Pin configuration.

handbook, halfpage

1
2
3
4
5
6
7
8

9
10
11
12

24
23
22
21
20
19
18
17
16
15
14
13

XTAL
GND2
PLL

U
V

Y
HUE
SCS
SAT

P2

CHROMA

V

DIG

DEC

SW

DEM

DEC

BG

VOUT

TEST2

PH1LF

GND1

HOUT

TEST1

P1

CLAMP

V

CVBS/Y

DEC

FT

MBE016

TDA8315T

September 1994 5

Philips Semiconductors Preliminary specification

Integrated NTSC decoder
and sync processor

TDA8315T

FUNCTIONAL DESCRIPTION
CVBS or Y/C input

The TDA8315T has a video input which can be switched
to CVBS (with internal chrominance bandpass and trap
filters) and to Y/C (without chrominance bandpass and
trap filters). The switching between CVBS and Y/C is
achieved by the DC level of the CHROMA input (pin 15).

Integrated video filters

The circuit contains a chrominance bandpass and trap
circuit. The filters are realised by gyrator circuits that are
automatically tuned by comparing the tuning frequency
with the crystal frequency of the decoder. The
chrominance trap can be switched off by the DC level of
the CHROMA input.

The luminance delay line is also realised by gyrator
circuits.

Colour decoder

The colour decoder contains an alignment-free crystal
oscillator, a colour killer circuit and colour difference
demodulators. The gain of the two colour difference signal
demodulators is identical and the phase angle of the
reference carrier signals is 90°. This phase shift is
achieved internally. It is possible to switch the demodulator
angle to 110° by an internal matrix circuit. The switching is
obtained externally via pin 8.

Synchronization circuit

The sync separator is preceded by a voltage controlled
amplifier which adjusts the sync pulse amplitude to a fixed
level. The sync pulses are then fed to the slicing stage
(separator) which operates at 50% of the amplitude.

The separated sync pulses are fed to the first phase
detector and to the coincidence detector. The coincidence
detector is used to detect whether the line oscillator is
synchronized. The PLL has a very high static steepness,
this ensures that the phase of the picture is independent of
the line frequency. The line oscillator operates at twice the
line frequency.

The oscillator network is internal. Because of the spread of
internal components an automatic adjustment circuit has
been added to the IC.
The circuit compares the oscillator frequency with that of
the crystal oscillator in the colour decoder. This results in
a free-running frequency which deviates less than 2% from
the typical value.

The horizontal output pulse is derived from the horizontal
oscillator via a pulse shaper. The pulse width of the output
pulse is 5.4 µs, the front edge of this pulse coincides with
the front edge of the sync pulse at the input.

The vertical output pulse is generated by a count-down
circuit. The pulse width is approximately 380 µs. Both the
horizontal and vertical pulses will always be available at
the outputs even when no input signal is available.