Philips SAA7283GP, SAA7283ZP Datasheet

INTEGRATED CIRCUITS

DATA SH EET

SAA7283

Terrestrial Digital Sound Decoder
(TDSD3)

Preliminary specification
File under Integrated Circuits, IC02

1996 Oct 24

Philips Semiconductors Preliminary specification

Terrestrial Digital Sound Decoder
(TDSD3)

FEATURES

• Single-chip solution including FM and vision filters,
analog demodulator and audio switching

• Dual standard with automatic selection between PAL
system I and BGH including French NICAM L system)

• Single low-radiation crystal oscillator for improved EMC

• Stereo bitstream audio DACs

• Programmable attenuator for matching levels of NICAM

and FM audio sources at the output of the device

• Full EBU NICAM 728 specification demodulation and
decoding

• Digital Audio Interface conforming with EBU/IEC 958

• Automatic mute function which switches from NICAM to

FM sound when NICAM fails

• Compatible with either single-ended or differential
DQPSK input signals

2

• Microcomputer controlled via I
specification).

APPLICATIONS

• Television receivers

• Video cassette recorders.

GENERAL DESCRIPTION

The SAA7283 is a NICAM receiver solution, developing
the well established high quality Terrestrial Digital Sound
decoder family from Philips Semiconductors.

This innovative IC with analog front-end, offers more
impressive features and flexibility with minimum external
circuitry.

C-bus (up to 400 kHz

SAA7283

The SAA7283 takes, as input, a second IF (intercarrier)
Terrestrial TV PAL signal, and performs all the Differential
Quadrature Phase Shift Keying (DQPSK) demodulation,
digital decoding and digital-to-analog conversion
necessary to produce a complete NICAM receiver on a
single integrated circuit.

The demodulator function includes integrated baseband
filters for pulse shaping and unwanted signal rejection,
automatic gain control, a low jitter integrated VCO, digital
monostable for precise data sampling points and a
multi-standard controller to enable automatic locking to
either a PAL system I or PAL system BGH input signal
(including French NICAM L system).

The decoder function performs the descrambling,
de-interleaving and reformatting operations required to
recover the original data words.

The data words are processed through a stereo digital
filter, digital de-emphasis network, second order noise
shaper and 256 times oversampling Bitstream audio DAC.
The SAA7283 then provides a switching output buffer for
selecting between FM, NICAM and daisy-chain inputs, and
a programmable level attenuation matrix for matching
levels of the FM and NICAM audio sources at the output of
the device. An additional feature is the inclusion of a Digital
Audio Interface (DAI) output IEC 958, which may be
disabled if required.

ORDERING INFORMATION

TYPE

NUMBER

SAA7283ZP SDIP52 plastic shrink dual in-line package; 52 leads (600 mil) SOT247-1
SAA7283GP QFP64 plastic quad flat package; 64 leads (lead length 1.95 mm);

1996 Oct 24 2

NAME DESCRIPTION VERSION

body 14 × 20 × 2.8 mm

PACKAGE

SOT319-2

Philips Semiconductors Preliminary specification

Terrestrial Digital Sound Decoder (TDSD3) SAA7283

QUICK REFERENCE DATA

SYMBOL PARAMETER MIN. TYP. MAX. UNIT

V

DD

I

DD

f

clk

T

amb

supply voltage 4.5 5.0 5.5 V
supply current − 205 − mA
clock frequency − 8.192 − MHz
operating ambient temperature −20 +25 +70 °C

1996 Oct 24 3

Philips Semiconductors Preliminary specification

Terrestrial Digital Sound Decoder (TDSD3) SAA7283

BLOCK DIAGRAM

handbook, full pagewidth

V

DDF1

V

SSF1

COFF
CEYE

V

DDF2

V

SSF2

REMO

REMVE

I

REF

V

ROF

V

RCF

CLKLPF

DATAOUT

DATAIN

XTAL

OSC

V

SSX

SDA

SCL

ADSEL

DQPSK MIXREF

25
23

30
31

38
39

17
16

36
35

37
41

46
45

42
43

44
54

53
55

QUADRATURE MIXERS, BASEBAND FILTERS

CARRIER LOOP

PHASE DETECTOR

AND DATA SLICERS

RECOVERY

CRYSTAL

OSCILLATOR

29 28

AGC GAIN STAGE

COSINE

BITRATE

CLOCK

2

I C

AND

SINE

AGC

CONTROLLER

CARRIER LOOP

QUADRATURE

VCO

NICAM 728 DECODER

AND

DEVICE CONTROLLER

22

SOFF

21

SEYE

34

PKDET

27

VCONT

24

VCLK

47

PCLK

50

RESET

56

PORT2

57

MUTE

14

PORM

15

PORA

DOBM

V

SSDAC

(1) Represents controller bus.

V

DDD

V

SSD

FML

EXTL

V

DDA

V

SSA

V

ROA

V

RCA

SAA7283GP

59

49
48

8

12
13

61
62
7
63

DAI

NOISE SHAPER

(LEFT CHANNEL)

BITSTREAM DAC
(LEFT CHANNEL)

OUTPUT

SWITCHES

AND

BUFFER

(LEFT CHANNEL)

11 4

OPL

DIGITAL FILTER, GAIN,

J17 DE-EMPHASIS

NOISE SHAPER

(RIGHT CHANNEL)

BITSTREAM DAC

(RIGHT CHANNEL)

(1)

OUTPUT

SWITCHES

AND

BUFFER

(RIGHT CHANNEL)

OPR

MGB464

3

FMR

2

EXTR

Fig.1 Block diagram (QFP64).

1996 Oct 24 4

Philips Semiconductors Preliminary specification

Terrestrial Digital Sound Decoder (TDSD3) SAA7283

PINNING

SYMBOL

SDIP52 QFP64

(1)

DESCRIPTION

MUTE 1 57 active LOW mute input; function defined by MUTEDEF (control bit in the

I2C-bus register)

PIN

2

DOBM 2 59 digital audio interface output that can be 3-stated via I
V
V
V

DDA
SSA
RCA

3 61 analog supply voltage for the audio channels
4 62 analog ground connection for the audio channels
5 63 internal audio reference voltage buffer (high-impedance node)

C-bus

EXTR 6 2 external analog input to the right audio channel
FMR 7 3 FM sound input to the right audio channel
OPR 8 4 analog output from the right audio channel
n.c. 9 and 10 9 and 10 not connected; left open-circuit in application
V

ROA

V

SSDAC

11 7 internal audio reference voltage buffer output

12 8 quiet ground connection to DACs
n.c. 13 and 14 − not connected; left open-circuit in application
OPL 15 11 analog output from the left audio channel
FML 16 12 FM sound input to the left audio channel
EXTL 17 13 external analog input to the left audio channel
PORM 18 14 active LOW power-on reset mute input; mute cleared by setting silence bit

HIGH in I2C-bus (internal pull-up)
PORA 19 15 power-on reset audio select input (internal pull-up)
REMVE 20 16 carrier loop-filter connection
REMO 21 17 carrier loop-filter output
SEYE 22 21 sine channel eye pattern output for monitoring
SOFF 23 22 sine channel offset compensator capacitor output
V

SSF1

24 23 demodulator ground connection 1
VCLK 25 24 carrier loop VCO clock output for monitoring
V

DDF1

26 25 demodulator supply voltage 1
VCONT 27 27 carrier loop VCO control voltage input
MIXREF 28 28 mixer voltage reference or input when using differential DQPSK signal
DQPSK 29 29 DQPSK input signal
COFF 30 30 cosine channel offset compensator capacitor output
CEYE 31 31 cosine channel eye pattern output for monitoring
PKDET 32 34 AGC peak detector storage capacitor output
V
I

REF

V
V
V

ROF

RCF
DDF2
SSF2

33 35 internal demodulator reference voltage buffered output

34 36 internal demodulator reference current output

35 37 internal demodulator reference voltage unbuffered output

36 38 demodulator supply voltage 2

37 39 demodulator ground connection 2
n.c. 38 40 not connected; left open-circuit in application
CLKLPF 39 41 clock loop-phase comparator output

1996 Oct 24 5

Philips Semiconductors Preliminary specification

Terrestrial Digital Sound Decoder (TDSD3) SAA7283

SYMBOL

SDIP52 QFP64

(1)

DESCRIPTION

XTAL 40 42 8.192 MHz crystal oscillator input
OSC 41 43 8.192 MHz crystal oscillator output

PIN

V

SSX

42 44 crystal oscillator ground connection
DATAIN 43 45 serial data input at 728 kbits/s to decoder
V

SSD

44 48 digital ground connection
PCLK 45 47 728 kHz output clock to DQPSK demodulator
V

DDD

46 49 digital supply voltage
RESET 47 50 active LOW power-on reset input
DATAOUT 48 46 serial data output at 728 kbits/s from DQPSK demodulator

2

SCL 49 53 serial clock input for I
SDA 50 54 serial data input/output for I
ADSEL 51 55 input that defines I
PORT2 52 56 output that is directly controlled from Port 2 bit in I

C-bus

2

C-bus

2

C-bus address bit 0 (internal pull-up)

2

C-bus

Note

1. Pins 1, 5, 6, 18, 19, 20, 26, 32, 33, 51, 52, 58, 60 and 64 are not connected; left open-circuit in application.

1996 Oct 24 6

Philips Semiconductors Preliminary specification

Terrestrial Digital Sound Decoder (TDSD3) SAA7283

handbook, halfpage

V

SSDAC

REMVE

1

MUTE

2

V

3

DDA

V

4

SSA

V

5

RCA

6

EXTR

7

FMR

8

OPR

n.c.

9

n.c.

10

V

11

ROA

12

n.c.

13 40

n.c.

14

OPL

15

FML

16

EXTL

17
18

PORM
PORA

19
20

21

SAA7283ZP

52
51
50
49
48
47
46
45
44
43
42
41

39
38
37
36
35

34
33

32

PORT2
ADSELDOBM
SDA
SCL
DATAOUT
RESET

V

DDD

PCLK
V

SSD
DATAIN
V

SSX
OSC

XTAL

CLKLPF
n.c.
V

SSF2
V

DDF2
V

RCF
I

REF

V

ROF
PKDETREMO

22
23

V

24

SSF1

25

V

26

DDF1

Fig.2 Pin configuration for SOT247.

1996 Oct 24 7

MGB463

31

30
29
28
27

CEYESEYE
COFFSOFF
DQPSK
MIXREFVCLK
VCONT

Philips Semiconductors Preliminary specification

Terrestrial Digital Sound Decoder (TDSD3) SAA7283

handbook, full pagewidth

EXTR

V

V

SSDAC

EXTL
PORM
PORA

REMVE

REMO

n.c.

FMR
OPR

n.c.
n.c.

ROA

n.c.

n.c.
OPL
FML

n.c.

n.c.

SSA

RCA

n.c.

V

64

63
1
2
3
4
5
6
7
8
9

10
11
12
13
14
15
16
17
18
19

DDA

V

V

62

61

n.c.
60

DOBM
59

n.c.

58

MUTE

57

SAA7283GP

PORT2
56

ADSEL

55

SDA
54

SCL

53

n.c.

52

51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33

n.c.

RESET
V

DDD

V

SSD

PCLK
DATAOUT
DATAIN

V

SSX

OSC
XTAL
CLKLPF

n.c.
V

SSF2

V

DDF2

V

RCF

I

REF

V

ROF

PKDET

n.c.

20

21

n.c.

SEYE

22

SOFF

23

SSF1

V

24

VCLK

25

DDF1

V

Fig.3 Pin configuration for SOT319.

1996 Oct 24 8

26

n.c.

27

28

VCONT

29

DQPSK

MIXREF

30

COFF

31

CEYE

32

n.c.

MGB462

Philips Semiconductors Preliminary specification

Terrestrial Digital Sound Decoder (TDSD3) SAA7283

FUNCTIONAL DESCRIPTION
DQPSK demodulation

UADRATURE MIXERS, BASEBAND FILTERS AND AUTOMATIC

Q

GAIN CONTROL

(AGC)

The DQPSK signal is fed into two differential input mixers,
where it is mixed with quadrature phases generated by the
carrier-loop quadrature VCO. The quadrature signals
modulated onto the NICAM carrier are thus recovered.

The mixers can be driven by either a single-ended or
differential source. In single-ended mode, the device is
driven directly from the sound IF down-converter into the
DQPSK input pin, with the MIXREF pin decoupled.
In differential mode, the signal is applied between the
DQPSK and MIXREF pins.

The outputs from the mixers are then fed into a
pulse-shaping filter, and FM/vision filter stage which filters
out all interference components, including AM carrier for
French NICAM L system. The signal from the filtering
stages is then fed into the AGC, which ensures that the
phase comparator gain remains constant, irrespective of
the input signal level. This is important to maintain the
stability of Costas loop PLL.

CONTROLLER

AGC
The AGC controller monitors the I and Q channel signals

at the input to the carrier loop-phase comparator and
generates a reference voltage to set the AGC output level.

E

YE BUFFER

A differential to the single-ended converter provides the
baseband signal as an output at the pins CEYE and SEYE
for the I and Q channels respectively for eye-height
monitoring.

IT RATE CLOCK RECOVERY

B
The I and Q channels are processed using edge detectors

and monostables, which generate a signal with a coherent
component at the data symbol rate. The outputs from the
I and Q channel monostables are each compared with the
clock derived from PCLK (364 kHz nominal), the resultant
output is used to derive a 3-state control signal used to
control two current sources at the CLKLPF output.
This error signal is loop filtered and used to control the
master clock oscillator. The bit rate clock, PCLK, and
symbol clock are derived from the master clock.

NICAM 728 decoding

D

ECODING FUNCTIONS

The device performs all decoding functions in accordance
with the EBU NICAM 728 specification. After locking to the
frame alignment word, the data is de-scrambled by
application of the defined pseudo random binary
sequence, and the device synchronizes to the periodic
frame flag bit C0.

The relevant control information and scale factor word is
extracted, and with the integrated RAM the data is
de-interleaved and the scale factor word is extracted, and
expanded to 14 bits. Parity checking on the eleventh bit of
each sample word is carried out to reveal any sound
sample errors, which if detected are flagged, with the last
good sample being held.

Automatic muting

Enable when AMDIS = LOW. The I

2

C-bus section has two
registers which define an upper and lower limit for the
automatic muting function. When the number of errors
within a 128 ms period exceeds the number stored in the
upper error limit register, then the automatic muting will
switch the device output to the FM input, (dependent on
the relevant control bits in the I2C-bus) and mute
(set to zero) the data input to the filter (in that order).
When the error count in a 128 ms period is less than the
value stored in the lower error limit register then the data
into the filter is uninterrupted, and the device output is
switched back to the DAC (dependent on the value of the
relevant control bits in the I2C-bus). During the muting
operation the open-drain pin MUTE is pulled LOW and the
AM bit in the status-byte is set HIGH. Figure 4 shows the
dependency of the automatic muting function on
error_count, RSSF, C4OV, output state and application
mode. The automatic muting function, if enabled, will
override user mute via the MUTE pin/bit.

When the transmission is DATA format or currently
undefined format (C3 = logic 1) the device will
automatically switch to the FM inputs regardless of
RSSF/C4OV states, and whether the automatic muting
function AMDIS is enabled or disabled.

1996 Oct 24 9

Philips Semiconductors Preliminary specification

Terrestrial Digital Sound Decoder (TDSD3) SAA7283

User mute

The error counter is an 8-bit counter which locks at
count 255. The counter is reset and its output sent to the
I2C-bus every 128 ms. This enables the user to interrogate
the number of errors occurring within a 128 ms period.
The user can then mute the device by pulling pin MUTE
LOW (this function is also provided by the MUTE bit in the
I2C-bus) or setting SILENCE bit LOW in I2C-bus to switch
input of audio switching buffers to analog ground.

Switching buffers

The analog switches select between the output of the
DACs, the FM input and an external input (EXT).
Switching is controlled by bits in the I

2

C-bus and internal
switching function. The external analog inputs should be
≤1.1 V (RMS) at the input pin, and the output buffers have
a voltage drive of 1 V (RMS).

NICAM/FM audio level matching

Differing audio headroom and alignment levels occur
between systems I and BGH, due to the differing systems
and broadcast standards. In order to match the NICAM
and FM audio output levels without requiring application
changes, the device will automatically switch in 4.6 dB
attenuation network in the NICAM path for system BGH
(this can be disabled by setting the NICLEV bit LOW in

2

C-bus). A programmable attenuation network in the FM

I
path only, controlled by bits in I2C-bus, provides additional
flexibility for user to match FM and NICAM audio levels
(see Table 9).

Power-on reset state

Two pins control the initial set-up of the device during
power-on reset.

PORA (Power-On Reset Audio)

When pulled LOW the device will be configured with a
12 dB gain in the oversampling filter and the

C4OV bit in
the I2C-bus will be set HIGH. This pin when HIGH will
configure the device with a 6 dB gain in the
oversampling filter and will set C4OV bit in the I2C-bus
LOW.

PORM (Power-On Reset Mute)

This pin when LOW will mute the output of the device at
power-on by setting the SILENCE bit in the I2C-bus
LOW. To put the device back into a normal mode of
operation the SILENCE bit in the I2C-bus must be set
HIGH.

1996 Oct 24 10

Philips Semiconductors Preliminary specification

Terrestrial Digital Sound Decoder (TDSD3) SAA7283

handbook, full pagewidth

ERROR_COUNT

ERROR_MAX

YES

RSSF = 1

EXT or FM INPUT

SWITCHED IN

NO

SOUND APPLICATION

DUAL MONO

NO

NO

YES

NO

MUTEB pin = HIGH

YES

MUTEB pin = LOW

DUAL MONO MODE

LEFT = RIGHT = M1

Output is

unchanged

AM bit = LOW

C4ov BIT = 0

YESYES

Output is

unchanged

AM bit = HIGH

SELECTED

YES

NO

(1)

(1)

NO

Output is

unchanged

AM bit = LOW

MUTEB pin = HIGH

When error_count is
less than error_min,
AM bit = LOW,
MUTEB pin = HIGH

Output is

unchanged

AM bit = LOW

MUTEB pin = HIGH

MGB465

Output is switched

to FM input

AM bit = HIGH

MUTEB pin = LOW

(1) Indicating that a mute may occur when user returns to NICAM source.

When error_count is less
than error_min, the output
is switched back to NICAM
and AM bit = LOW,
MUTEB pin = HIGH

Fig.4 Flow diagram showing SAA7283 automatic muting function.

1996 Oct 24 11