Datasheet SAA7187WP-00, SAA7187WP-01 Datasheet (Philips)

DATA SH EET

Preliminary specification
File under Integrated Circuits, IC22

1995 Sep 21

INTEGRATED CIRCUITS

SAA7187

Digital video encoder (DENC2-SQ)

1995 Sep 21 2

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

FEATURES

• CMOS 5 V device

• Digital PAL/NTSC encoder

• System pixel frequency selectable for 12.27 MHz (60 Hz

fields) or 14.75 MHz (50 Hz fields)

• 24-bit wide YUV input port or

• 16-bit wide YUV input port or

• Input data format Cb, Y, Cr, etc. (CCIR 656)

• I2C-bus control port

• MPU parallel control port

• Encoder can be master or slave

• Programmable horizontal and vertical input

synchronization phase

• Programmable horizontal sync output phase

• OSD overlay with Look-Up Tables (LUTs) 8 × 3 bytes

• Line 21 Closed Caption encoder

• Cross-colour reduction

• DACs operating at twice oversampling with 10-bit

resolution

• Controlled rise/fall times of output syncs and blanking

• Down-mode of DACs

• CVBS and S-Video output simultaneously

• PLCC68 package.

GENERAL DESCRIPTION

The SAA7187 encodes digital YUV video data to an
NTSC, PAL CVBS or S-Video signal.

The circuit accepts differently formatted YUV data with 640
or 768 active pixels per line. It includes a sync/clock
generator and on-chip Digital-to-Analog Converters
(DACs).

The circuit is compatible to the DIG-TV2 chip family
(Square Pixel).

QUICK REFERENCE DATA

ORDERING INFORMATION

SYMBOL PARAMETER MIN. TYP. MAX. UNIT

V

DDA

analog supply voltage 4.75 5.0 5.25 V

V

DDD

digital supply voltage 4.5 5.0 5.5 V

I

DDA

analog supply current − 50 55 mA

I

DDD

digital supply current − 175 210 mA

V

i

input signal voltage levels TTL compatible

V

o(p-p)

analog output signal voltages Y, C and CVBS without load
(peak-to-peak value)

− 2 − V

R

L

load resistance 80 −−Ω
ILE LF integral linearity error −−±2 LSB
DLE LF differential linearity error −−±1 LSB
T

amb

operating ambient temperature 0 − +70 °C

TYPE NUMBER

PACKAGE

NAME DESCRIPTION VERSION

SAA7187 PLCC68 plastic leaded chip carrier; 68 leads SOT188-2

1995 Sep 21 3

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

BLOCK DIAGRAM

handbook, full pagewidth

CONTROL

INTERFACE

DATA

MANAGER

ENCODER

internal control bus

clock timing signals

OUTPUT

INTERFACE

SYNC

CLK

A

V

DDD1



to V

DDD4

48,50,

54,56

D

5547

53
51

49

52
46

43

RTCI

V

refH

V

DDA4

V

DDA1

88

SAA7187

8

8

8

8
8

8

6168

SEL_MPU

CS/SA

1,8,19
28,35,

62

VP3

(0 to 7)

VP2

(0 to 7)

VP1

(7 to 0)

V

SSD1

V

SSD6

63 to 66

2 to 5

59 60 58 57 41 40 38 39 36 6 7

31

KEY

OSD0

to OSD2

32 to 34

20 to 27

9 to 16

18

29

RCM1
RCM2

30

17,37,42,67

to

RW/SCL

A0/SDA

DTACK

RESET

XTALI

XTALO

LLC

CREF

CDIR

RCV1

RCV2 n.c.

CVBS
Y

to

I

I

CHROMA

V

SSA

V

refL

MBG253

Fig.1 Block diagram.

1995 Sep 21 4

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

PINNING

SYMBOL PIN DESCRIPTION

V

SSD1

1 digital ground 1

VP3(4) 2

Upper 4 bits of the Video Port VP3. If pin 68 (SEL_MPU) is HIGH, this is the data bus of the
parallel MPU interface. If it is LOW, there can be multiplexed UV lines (422) or the U signal
(444) of the Video input.

VP3(5) 3
VP3(6) 4
VP3(7) 5
RCV1 6 Raster Control 1 for Video port. Depending on the synchronization mode, this pin

receives/provides a VS/FS/FSEQ signal.

RCV2 7 Raster Control 2 for Video port. Depending on the synchronization mode, this pin

receives/provides an HS/HREF/CBL signal.

V

SSD2

8 digital ground 2

VP2(0) 9

Video Port VP2. In 444 input mode, this is input for the V-signal.

VP2(1) 10
VP2(2) 11
VP2(3) 12
VP2(4) 13
VP2(5) 14
VP2(6) 15
VP2(7) 16
V

DDD1

17 digital supply voltage 1
n.c. 18 reserved, do not connect
V

SSD3

19 digital ground 3
VP1(7) 20

Video Port VP1. This is an input for CCIR 656 compatible, multiplexed video data, or during
other input modes, this is the Y-signal.

VP1(6) 21
VP1(5) 22
VP1(4) 23
VP1(3) 24
VP1(2) 25
VP1(1) 26
VP1(0) 27
V

SSD4

28 digital ground 4
RCM1 29 Raster Control Master 1. This pin provides a VS/FS/FSEQ signal.
RCM2 30 Raster Control Master 2. This pin provides a programmable HS pulse.
KEY 31 Key signal for OSD. It is active HIGH.
OSD0 32

On-Screen Display data. This is the index for the internal OSD look-up table.OSD1 33
OSD2 34
V

SSD5

35 digital ground 5

CDIR 36 Clock direction. If the CDIR input is HIGH, the circuit receives a clock signal, otherwise LLC

and CREF are generated by the internal crystal oscillator.
V

DDD2

37 digital supply voltage 2

1995 Sep 21 5

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

LLC 38 Line-Locked Clock. This is the 24.54 MHz or 29.5 MHz master clock for the encoder. The

direction is set by the CDIR pin.
CREF 39 Clock Reference signal. This is the clock qualifier for DIG-TV2 compatible signals.
XTALO 40 Crystal oscillator output (to crystal).
XT ALI 41 Crystal oscillator input (from crystal). If the oscillator is not used, this pin should be connected

to ground.
V

DDD3

42 digital supply voltage 3

RTCI 43 Real Time Control Input. If the clock is provided by an SAA7191B, RTCI should be connected

to the RTCO pin of the decoder to improve the signal quality.
AP 44 Test pin. Connected to digital ground for normal operation.
SP 45 Test pin. Connected to digital ground for normal operation.
V

refL

46 Lower reference voltage input for the DACs.

V

refH

47 Upper reference voltage input for the DACs.

V

DDA1

48 Analog supply voltage 1 for the DACs and output amplifiers.
CHROMA 49 Analog output of the chrominance signal.
V

DDA2

50 Analog supply voltage 2 for the DACs and output amplifiers.
Y 51 Analog output of the luminance signal.
V

SSA

52 Analog ground for the DACs and output amplifiers.
CVBS 53 Analog output of the CVBS signal.
V

DDA3

54 Analog supply voltage 3 for the DACs and output amplifiers.
I

I

55 Current input for the output amplifiers, connect via a 15 kΩ resistor to V

DDA

.

V

DDA4

56 Analog supply voltage 4 for the DACs and output amplifiers.
RESET 57 Reset input, active LOW. After reset is applied, all outputs are in 3-state input mode.

The I2C-bus receiver waits for the START condition.

DTACK 58 Data acknowledge output of the parallel MPU interface, active LOW, otherwise high

impedance.

R

W/SCL 59 If pin 68 (SEL_MPU) is HIGH, this is the read/write signal of the parallel MPU interface,

otherwise it is the I2C-bus serial clock input.

A0/SDA 60 If pin 68 (SEL_MPU) is HIGH, this is the address signal of the parallel MPU interface,

otherwise it is the I

2

C-bus serial data input/output.

CS/SA 61 If pin 68 (SEL_MPU) is HIGH, this is the chip select signal of the parallel MPU interface,

otherwise it is the I2C-bus slave address select pin. LOW: slave address = 88H, HIGH = 8CH.

V

SSD6

62 digital ground 6
VP3(0) 63

Lower 4 bits of the Video Port VP3. If pin 68 (SEL_MPU) is HIGH, this is the data bus of the
parallel MPU interface. If it is LOW, there can be multiplexed UV lines (422) of the U-signal
(444) of the Video input.

VP3(1) 64
VP3(2) 65
VP3(3) 66
V

DDD4

67 digital supply voltage 4
SEL_MPU 68 Select MPU interface input. If it is HIGH, the parallel MPU interface is active, otherwise the

I

2

C-bus interface will be used.

SYMBOL PIN DESCRIPTION

1995 Sep 21 6

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Fig.2 Pin configuration.

handbook, full pagewidth

MBG252

SAA7187

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

60

59

58

57

56

55

54

53

52

51

50

49

48

47

46

45

44

43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27

61
62
63
64
65
66
67
68

1
2
3
4
5
6
7
8
9



VP2(1)

VP2(2)

VP2(3)

VP2(4)

VP2(5)

VP2(6)

VP2(7)

VP1(7)

VP1(6)

VP1(5)

VP1(4)

VP1(3)

VP1(2)

VP1(1)

n.c.

V

DDD1

V

SSD3

AP

SP

CHROMA

Y

CVBS

RESET

V

refL

V

refH

V

DDA1

V

DDA2

V

DDA3

V

DDA4

I

I

V

SSA

VP1(0)

KEY

OSD0

OSD1

OSD2

CDIR

CREF

XTALO

XTALI

RTCI

LLC

RCM1

RCM2

V

SSD4

V

SSD5

V

DDD2

V

DDD3

CS/SA

VP3(0)
VP3(1)
VP3(2)

VP3(3)

VP3(4)

VP3(5)
VP3(6)
VP3(7)

VP2(0)

RCV1

RCV2

SEL_MPU

V

SSD6

V

DDD4

V

SSD1

V

SSD2

DTACK

RW/SCL

A0/SDA

1995 Sep 21 7

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

FUNCTIONAL DESCRIPTION

The digital video encoder (DENC2-SQ) encodes digital
luminance and chrominance into analog CVBS and
simultaneously S-Video (Y/C) signals. NTSC-M and PAL
B/G standards also sub-standards are supported.

The basic encoder function consists of subcarrier
generation and colour modulation also insertion of
synchronization signals. Luminance and chrominance
signals are filtered in accordance with the standard
requirements RS-170-A and CCIR 624.

For ease of analog post filtering the signals are twice
oversampled with respect to pixel clock before
digital-to-analog conversion.

For total filter transfer characteristics see Figs 3 to 6 for
60 Hz field rate, and Figs 7 to 10 for 50 Hz field rate. The
DACs are realized with full 10-bit resolution. The encoder
provides three 8-bit wide data ports, that serve different
applications.

The VP1 port accepts 8 lines multiplexed Cb-Y-Cr data
(CCIR 656 mode), or Y data only (444 mode).

The VP2 port accepts Cr data in 444 input mode.
The VP3 port accepts Cb data (444 input mode) or

multiplexed Cb/Cr data (422 input mode). If not used for
video input data, it can alternatively also handle the data of
an 8-bit wide microprocessor interface.

Minimum suppression of output chrominance alias
components approximately 1 MHz due to high frequency
444 input is better than 12 dB.

The 8-bit multiplexed Cb-Y-Cr formats are CCIR 656
(D1 format) compatible, but the SAV, EAV, etc. codes are
not decoded.

A crystal-stable master clock (LLC) of 24.54 or 29.5 MHz,
which is twice the line-locked pixel clock, needs to be
supplied externally. Optionally, a crystal oscillator
input/output pair of pins and an on-chip clock driver is
provided. Additionally, a DMSD2 compatible clock
interface, using CREF (input or output) and RTC (see

“data sheet SAA7191B”

) is available.

The DENC2-SQ synthesizes all necessary internal
signals, colour subcarrier frequency, and synchronization
signals, from that clock. DENC2-SQ can be timing master
or slave.

The IC also contains Closed Caption and Extended Data
Services Encoding (Line 21); it also supports OSD via
KEY and three-bit overlay techniques by a 24 × 8 LUT.

The IC can be programmed via I

2

C-bus or 8-bit MPU
interface, but only one interface configuration can be
active at a time; if 422 or 444 input format is being used,
only the I2C-bus interface can be selected.

A number of possibilities are provided for setting of
different video parameters such as:

Black and blanking level control
Colour subcarrier frequency
Variable burst amplitude etc.

During reset (RESET = LOW) and after reset is released,
all digital I/O stages are set to input mode. A reset forces
the control interfaces to abort any running bus transfer and
to set register 3AH to contents 00H, register 61H to
contents 15H, and register 6CH to contents 00H. All other
control registers are not influenced by a reset.

Data manager

In the data manager, the demultiplexing scheme is chosen
in accordance with the input format.

Depending on hardware conditions (signals on pins KEY,
OSD2 to OSD0), and software programming either data
from the VP ports or from the OSD port are selected to be
encoded to CVBS and Y/C signals.

Optionally, the OSD colour look-up tables located in this
block, can be read out in a pre-defined sequence (8 steps
per active video line), achieving e.g. a colour bar test
pattern generator without need for an external data
source. The colour bar function is only under software
control.

Encoder

V

IDEO PATH

The encoder generates out of Y, U and V baseband
signals luminance and colour subcarrier output signals,
suitable for use as CVBS or separate Y/C signals.

Luminance is modified in gain and in offset (latter
programmable in a certain range to enable different black
level set-ups). After having been inserted a fixed
synchronization level, in accordance with standard
composite synchronization schemes, a variable blanking
level, programmable also in a certain range, is inserted.

Transients of both synchronization pulses and start/stop of
blanking are reduced compared to overall luminance
bandwidth.

1995 Sep 21 8

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

In order to enable easy analog post filtering, luminance is
interpolated from square pixel data rate to twice that rate
(24.54 or 29.5 MHz respectively), providing luminance in
10-bit resolution. For transfer characteristic of the
luminance interpolation filter see Figs 5 and 6 for 60 Hz
field rate and Figs 9 and 10 for 50 Hz field rate.

Chrominance is modified in gain (programmable
separately for U and V), standard dependent burst is
inserted, before baseband colour signals are interpolated
correctly to 24.54 or 29.5 MHz data rate. One of the
interpolation stages can be bypassed, thus providing a
higher colour bandwidth, which can be made use of for Y/C
output. For transfer characteristics of the chrominance
interpolation filter see Figs 3 and 4 for 60 Hz field rate and
Figs 7 and 8 for 50 Hz field rate.

The amplitude of inserted burst is programmable in a
certain range, suitable for standard signals and for special
effects. Behind the succeeding quadrature modulator,
colour in 10-bit resolution is provided on subcarrier.

The numeric ratio between Y and C outputs is in
accordance with set standards.

C

LOSED CAPTION ENCODER

Using this circuit, data in accordance with the specification
of Closed Caption or Extended Data Service, delivered by
the control interface, can be encoded (Line 21). Two
dedicated pairs of bytes (two bytes per field), each pair
preceded by run-in clocks and framing code, are possible.

The actual line number where data is to be encoded in, can
be modified in a certain range.

Data clock frequency is in accordance with definition for
NTSC-M standard 32 times horizontal line frequency.

Data LOW at the output of the DACs corresponds to 0 IRE,
data HIGH at the output of the DACs corresponds to
approximately 50 IRE.

It is also possible to encode Closed Caption Data for 50 Hz
field frequencies at 32 times horizontal line frequency.

Output interface

In the output interface encoded Y and C signals are
converted from digital-to-analog in 10-bit resolution both Y
and C signals are combined to a 10-bit CVBS signal, also;
in front of the summation point, the luminance signal can
optionally be fed through a further filter stage, suppressing
components in the range of subcarrier frequency. Thus, a
type of cross colour reduction is provided, which is useful
in a standard TV set with CVBS input.

Slopes of synchronization pulses are not affected with any
cross colour reduction active.

Three different filter characteristics or bypass are
available, see Fig.5 for 60 Hz field rate and Fig.9 for 50 Hz
field rate.

The CVBS output occurs with the same processing delay
as the Y and C outputs. Absolute amplitudes at the input
of the DAC for CVBS is reduced by15⁄16 with respect to Y
and C DACs to make maximum use of conversion ranges.

Outputs of all DACs can be set together via software
control to minimum output voltage for either purpose.

Synchronization

The synchronization of the DENC2-SQ is able to operate
in two modes; slave mode and master mode.

In the slave mode, the circuit accepts synchronization
pulses at the bidirectional RCV1 port. The timing and
trigger behaviour related to the video signal on VP ports
can be influenced by programming the polarity and on-chip
delay of RCV1. Active slope of RCV1 defines the vertical
phase and optionally the odd/even and colour frame phase
to be initialized, it can be also used to set the horizontal
phase.

If the horizontal phase is not be influenced by RCV1, a
horizontal pulse needs to be supplied at the RCV2 pin.
Timing and trigger behaviour can also be influenced for
RCV2.

1995 Sep 21 9

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

If there are missing pulses at RCV1 and/or RCV2, the time
base of DENC2-SQ runs free, thus an arbitrary number of
synchronization slopes may miss, but no additional pulses
(such with wrong phase) must occur.

If the vertical and horizontal phase is derived from RCV1,
RCV2 can be used for horizontal or composite blanking
input or output.

In the master mode, the time base of the circuit
continuously runs free. On the RCV1 port, the IC can
output:

• A Vertical Sync signal (VS) with 3 or 2.5 lines duration,
or

• An ODD/EVEN signal which is LOW in odd fields, or

• A field sequence signal (FSEQ) which is HIGH in the first

of 4 respectively 8 fields.

On the RCV2 port, the IC can provide a horizontal pulse
with programmable start and stop phase; this pulse can be
inhibited in the vertical blanking period to build up e.g. a
composite blanking signal.

The phase of the pulses output on RCV1 or RCV2 are
referenced to the VP ports, polarity of both signals is
selectable.

On the RCM1 port the same signals as on RCV1 (as
output) are available; on RCM2 the IC provides a
horizontal pulse with programmable start and stop phase.

The length of a field also start and end of its active part can
be programmed. The active part of a field always starts at
the beginning of a line.

Control interface

DENC2-SQ contains two control interfaces: an I

2

C-bus
slave transceiver and 8-bit parallel microprocessor
interface. The interfaces cannot be used simultaneously.

The I2C-bus interface is a standard slave transceiver,
supporting 7-bit slave addresses and 100 kbits/s
guaranteed transfer rate. It uses 8-bit subaddressing with
an auto-increment function. All registers are write only,
except one readable status byte.

Two I

2

C-bus slave addresses can be selected

(pin SEL_MPU must be LOW):

88H: LOW at pin 61
8CH: HIGH at pin 61.

The parallel interface is defined by:

D7 to D0 data bus
CS active-LOW chip select signal
RW read/not write signal, LOW for a write cycle
DTACK 680xx style data acknowledge (handshake),

active-LOW
A0 register select, LOW selects address, HIGH selects

data.

The parallel interface uses two registers, one
auto-incremental containing the current address of a
control register (equals subaddress with I2C-bus control),
one containing actual data. The currently addressed
register is mapped to the corresponding control register.

The status byte can be read optionally via a read access
to the address register, no other read access is provided.

Input levels and formats

DENC2-SQ expects digital YUV data with levels (digital
codes) in accordance with CCIR 601.

Deviating amplitudes of the colour difference signals can
be compensated by independent gain control setting,
while gain for luminance is set to predefined values,
distinguishable for 7.5 IRE set-up or without set-up.

Reference levels are measured with a colour bar,
100% white, 100% amplitude and 100% saturation.

When the IC is operating with input data in accordance
with CCIR 656, programming can be carried out
alternatively via the parallel interface using VP3 port for
data transfer.

For other input modes, the I

2

C-bus interface has to be

used for programming.

1995 Sep 21 10

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Table 1 CCIR signal component levels

Table 2 8-bit multiplexed format (similar to CCIR 656)

Table 3 16-bit multiplexed format (DTV2 format)

Table 4 24-bit direct 444 format

SIGNAL IRE DIGITAL LEVEL CODE

Y

016

straight binary50 126

100 235

Cb

bottom peak 16

straight binarycolourless 128

top peak 240

Cr

bottom peak 16

straight binarycolourless 128

top peak 240

TIME

FORMAT

01234567

Sample Cb

0

Y

0

Cr

0

Y

1

Cb

2

Y

2

Cr

2

Y

3

Luminance pixel number 0 1 2 3
Colour pixel number 0 2

TIME

FORMAT

01234567

Sample Y line Y

0

Y

1

Y

2

Y

3

Sample UV line Cb

0

Cr

0

Cb

2

Cr

2

Luminance pixel number 0 1 2 3
Colour pixel number 0 2

TIME

FORMAT

01234567

Sample Y line Y

0

Y

1

Y

2

Y

3

Sample U line Cb

0

Cb

1

Cb

2

Cb

3

Sample V line Cr

0

Cr

1

Cr

2

Cr

3

Luminance pixel number 0 1 2 3
Colour pixel number 0 1 2 3

1995 Sep 21 11

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Bit allocation map

Table 5 Slave receiver (slave address 88H or 8CH)

REGISTER FUNCTION

SUB

ADDRESS

DATA BYTE

D7 D6 D5 D4 D3 D2 D1 D0

Null 00 00000000

01 to 38 ↓

Null 39 00000000

Input port control 3A CBENB 0 0 0 VY2C VUV2C FMT1 FMT0

OSD LUT Y0 42 OSDY07 OSDY06 OSDY05 OSDY04 OSDY03 OSDY02 OSDY01 OSDY00

OSD LUT U0 43 OSDU07 OSDU06 OSDU05 OSDU04 OSDU03 OSDU02 OSDU01 OSDU00

OSD LUT V0 44 OSDV07 OSDV06 OSDV05 OSDV04 OSDV03 OSDV02 OSDV01 OSDV00

45 to 56 ↓

OSD LUT Y7 57 OSDY77 OSDY76 OSDY75 OSDY74 OSDY73 OSDY72 OSDY71 OSDY70

OSD LUT U7 58 OSDU77 OSDU76 OSDU75 OSDU74 OSDU73 OSDU72 OSDU71 OSDU70

OSD LUT V7 59 OSDV77 OSDV76 OSDV75 OSDV74 OSDV73 OSDV72 OSDV71 OSDV70

Chrominance phase 5A CHPS7 CHPS6 CHPS5 CHPS4 CHPS3 CHPS2 CHPS1 CHPS0

Gain U 5B GAINU7 GAINU6 GAINU5 GAINU4 GAINU3 GAINU2 GAINU1 GAINU0

Gain V 5C GAINV7 GAINV6 GAINV5 GAINV4 GAINV3 GAINV2 GAINV1 GAINV0

Gain U MSB, black level 5D GAINU8 0 BLCKL5 BLCKL4 BLCKL3 BLCKL2 BLCKL1 BLCKL0

Gain V MSB, blanking level 5E GAINV8 0 BLNNL5 BLNNL4 BLNNL3 BLNNL2 BLNNL1 BLNNL0

Null 5F 00000000

Cross-colour select 60 CCRS1 CCRS0 000000

Standard control 61 0 DOWN INPI1 YGS RTCE SCBW PAL FISE

Burst amplitude 62 SQP BSTA6 BSTA5 BSTA4 BSTA3 BSTA2 BSTA1 BSTA0

Subcarrier 0 63 FSC07 FSC06 FSC05 FSC04 FSC03 FSC02 FSC01 FSC00

Subcarrier 1 64 FSC15 FSC14 FSC13 FSC12 FSC11 FSC10 FSC09 FSC08

Subcarrier 2 65 FSC23 FSC22 FSC21 FSC20 FSC19 FSC18 FSC17 FSC16

Subcarrier 3 66 FSC31 FSC30 FSC29 FSC28 FSC27 FSC26 FSC25 FSC24

Line 21 odd 0 67 L21O07 L21O06 L21O05 L21O04 L21O03 L21O02 L21O01 L21O00

Line 21 odd 1 68 L21O17 L21O16 L21O15 L21O14 L21O13 L21O12 L21O11 L21O10

Line 21 even 0 69 L21E07 L21E06 L21E05 L21E04 L21E03 L21E02 L21E01 L21E00

Line 21 even 1 6A L21E17 L21E16 L21E15 L21E14 L21E13 L21E12 L21E11 L21E10

CC line 6B 0 0 0 SCCLN4 SCCLN3 SCCLN2 SCCLN1 SCCLN0

1995 Sep 21 12

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

RCV port control 6C SRCV11 SRCV10 TRCV2 ORCV1 PRCV1 CBLF ORCV2 PRCV2

RCM, CC mode 6D 0000SRCM11 SRCM10 CCEN1 CCEN0

Horizontal trigger 6E HTRIG7 HTRIG6 HTRIG5 HTRIG4 HTRIG3 HTRIG2 HTRIG1 HTRIG0

Horizontal trigger 6F 00000HTRIG10 HTRIG09 HTRIG08

f

sc

reset mode, Vertical trigger 70 PHRES1 PHRES0 SBLBN VTRIG4 VTRIG3 VTRIG2 VTRIG1 VTRIG0

Begin master request 71 BMRQ7 BMRQ6 BMRQ5 BMRQ4 BMRQ3 BMRQ2 BMRQ1 BMRQ0

End master request 72 EMRQ7 EMRQ6 EMRQ5 EMRQ4 EMRQ3 EMRQ2 EMRQ1 EMRQ0

MSBs master request 73 0 EMRQ10 EMRQ09 EMRQ08 0 BMRQ10 BMRQ09 BMRQ08

Null 74 00000000

Null 75 00000000

Null 76 00000000

Begin RCV2 output 77 BRCV7 BRCV6 BRCV5 BRCV4 BRCV3 BRCV2 BRCV1 BRCV0

End RCV2 output 78 ERCV7 ERCV6 ERCV5 ERCV4 ERCV3 ERCV2 ERCV1 ERCV0

MSBs RCV2 output 79 0 ERCV10 ERCV09 ERCV08 0 BRCV10 BRCV09 BRCV08

Field length 7A FLEN7 FLEN6 FLEN5 FLEN4 FLEN3 FLEN2 FLEN1 FLEN0

First active line 7B FAL7 FAL6 FAL5 FAL4 FAL3 FAL2 FAL1 FAL0

Last active line 7C LAL7 LAL6 LAL5 LAL4 LAL3 LAL2 LAL1 LAL0

MSBs field control 7D 0 0 LAL8 FAL8 0 0 FLEN9 FLEN8

REGISTER FUNCTION

SUB

ADDRESS

DATA BYTE

D7 D6 D5 D4 D3 D2 D1 D0

1995 Sep 21 13

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

I2C-bus format
Table 6 I

2

C-bus address; see Table 7

Table 7 Explanation of Table 6

Notes

1. X is the read/write control bit; X = logic 0 is order to write; X = logic 1 is order to read, no subaddressing with read.

2. If more than 1 byte DATA is transmitted, then auto-increment of the subaddress is performed.

Slave receiver
Table 8 Subaddress 3A

Table 9 Logic levels and function of FMT

S SLAVE ADDRESS ACK SUBADDRESS ACK DATA 0 ACK -------- DATA n ACK P

PART DESCRIPTION

S START condition
Slave address 1000100X or 1000110X (note 1)
ACK acknowledge, generated by the slave
Subaddress (note 2) subaddress byte
DATA data byte

-------- continued data bytes and ACKs
P STOP condition

DATA BYTE LOGIC LEVEL DESCRIPTION

FMT see Table 9 Select input data format.
VUV2C 0 Cb/Cr data input to VP ports is two’s complement. Default after reset.

1 Cb/Cr data input to VP ports is straight binary.

VY2C 0 Y data input to VP1 port is two’s complement. Default after reset.

1 Y data input to VP1 port is straight binary.

CBENB 0 Data from input ports is encoded. Default after reset.

1 Colour bar with programmable colours (entries of OSD_LUTs) is encoded.

The LUTs are read in upward order from index 0 to index 7.

DATA BYTE

FUNCTION

FMT1 FMT0

0 0 Input data YUV 444, 24 lines, Y on VP1, Cr on VP2, Cb on VP3. Default after reset.
0 1 Input data YUV 422, 16 lines, Y on VP1, multiplexed CbCr on VP3.
1 0 Input data YUV 422, 8 lines, multiplexed in accordance with CCIR 656 on VP1.
1 1 Input data YUV 422, 8 lines, multiplexed in accordance with CCIR 656 on VP1.

1995 Sep 21 14

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Table 10 Subaddress 42 to 59

Notes

1. Contents of OSD Look-up tables. All 8 entries are 8-bits. Data representation is in accordance with CCIR 601

(Y, Cb, Cr), but two’s complement, e.g. for a

100

⁄

100

(upper number) or

100

⁄75(lower number) colour bar.

2. For normal colour bar with CBENB = logic 1.

Table 11 Subaddress 5A

Table 12 Subaddress 5B and 5D

Notes

1. GAINU = −2.17 × nominal to +2.16 × nominal.

2. GAINU = −2.05 × nominal to +2.04 × nominal.

COLOUR

DATA BYTE (note 1)

INDEX (note 2)

OSDY OSDU OSDV

White

107 (6BH) 0 (00H) 0 (00H)

0

107 (6BH) 0 (00H) 0 (00H)

Yellow

82 (52H) 144 (90H) 18 (12H)

1

34 (22hH 172 (ACH) 14 (0EH)

Cyan

42 (2AH) 38 (26H) 144 (90H)

2

03 (03H) 29 (1DH) 172 (ACH)

Green

17 (11H) 182 (B6H) 162 (A2H)

3

240 (F0H) 200 (C8H) 185 (B9H)

Magenta

234 (EAH) 74 (4AH) 94 (5EH)

4

212 (D4H) 56 (38H) 71 (47H)

Red

209 (D1H) 218 (DAH) 112 (70H)

5

193 (C1H) 227 (E3H) 84 (54H)

Blue

169 (A9H) 112 (70H) 238 (EEH)

6

163 (A3H) 84 (54H) 242 (F2H)

Black

144 (90H) 0 (00H) 0 (00H)

7

144 (90H) 0 (00H) 0 (00H)

DATA BYTE DESCRIPTION

CHPS Phase of encoded colour subcarrier (including burst) relative to horizontal sync. Can be adjusted in

steps of 360 or 256 degrees.

DATA BYTE DESCRIPTION CONDITIONS REMARKS

GAINU variable gain for Cb signal;

input representation
accordance with CCIR 601

white-to-black = 92.5 IRE

(1)

GAINU = 0 output subcarrier of U contribution = 0
GAINU = 118 (76H) output subcarrier of U contribution = nominal

white-to-black = 100 IRE

(2)

GAINU = 0 output subcarrier of U contribution = 0
GAINU = 125 (7DH) output subcarrier of U contribution = nominal

1995 Sep 21 15

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Table 13 Subaddress 5C and 5E

Notes

1. GAINV = −1.55 × nominal to +1.55 × nominal.

2. GAINV = −1.46 × nominal to +1.46 × nominal.

Table 14 Subaddress 5D

Notes

1. Output black level/IRE = BLCKL × 25/63 + 24; recommended value: BLCKL = 60 (3CH) normal.

2. Output black level/IRE = BLCKL × 26/63 + 24; recommended value: BLCKL = 45 (2DH) normal.

Table 15 Subaddress 5E

Notes

1. Output black level/IRE = BLNNL × 25/63 + 17; recommended value: BLNNL = 58 (3AH) normal.

2. Output black level/IRE = BLNNL × 26/63 + 17; recommended value: BLNNL = 63 (3FH) normal.

DATA BYTE DESCRIPTION CONDITIONS REMARKS

GAINV variable gain for Cr signal;

input representation
accordance with CCIR 601

white-to-black = 92.5 IRE

(1)

GAINV = 0 output subcarrier of V contribution = 0
GAINV = 165 (A5H) output subcarrier of V contribution = nominal

white-to-black = 100 IRE

(2)

GAINV = 0 output subcarrier of V contribution = 0
GAINV = 175 (AFH) output subcarrier of V contribution = nominal

DATA BYTE DESCRIPTION CONDITIONS REMARKS

BLCKL variable black level; input

representation accordance
with CCIR 601

white-to-sync = 140 IRE

(1)

BLCKL = 0 output black level = 24 IRE
BLCKL = 63 (3FH) output black level = 49 IRE

white-to-sync = 143 IRE

(2)

BLCKL = 0 output black level = 24 IRE
BLCKL = 63 (3FH) output black level = 50 IRE

DATA BYTE DESCRIPTION CONDITIONS REMARKS

BLNNL variable blanking level white-to-sync = 140 IRE

(1)

BLNNL = 0 output blanking level = 17 IRE
BLNNL = 63 (3FH) output blanking level = 42 IRE

white-to-sync = 143 IRE

(2)

BLNNL = 0 output blanking level = 17 IRE
BLNNL = 63 (3FH) output blanking level = 43 IRE

1995 Sep 21 16

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Table 16 Subaddress 60 (CCRS; select cross colour reduction filter in luminance)

Table 17 Subaddress 61

DATA BYTE

FUNCTION

CCRS1 CCRS0

0 0 no cross colour reduction (for transfer characteristic of luminance see Figs 5 and 9)
0 1 cross colour reduction #1 active (for transfer characteristic see Figs 5 and 9)
1 0 cross colour reduction #2 active (for transfer characteristic see Figs 5 and 9)
1 1 cross colour reduction #3 active (for transfer characteristic see Figs 5 and 9)

DATA BYTE LOGIC LEVEL DESCRIPTION

FISE 0 944 total pixel clocks per line

1 780 total pixel clocks per line; default after reset

PAL 0 NTSC encoding (non-alternating V component); default after reset

1 PAL encoding (alternating V component)

SCBW 0 enlarged bandwidth for chrominance encoding (for overall transfer characteristic of

chrominance in baseband representation see Figs 3, 4, 7 and 8)

1 standard bandwidth for chrominance encoding (for overall transfer characteristic of

chrominance in baseband representation see Figs 3, 4, 7 and 8); default after reset

RTCE 0 no real time control of generated subcarrier frequency; default after reset

1 real time control of generated subcarrier frequency through SAA7191B

(timing see Fig.13)

YGS 0 luminance gain for white-to-black 100 IRE

1 luminance gain for white-to-black 92.5 IRE including 7.5 IRE set-up of black;

default after reset

INPI 0 PAL switch phase is nominal; default after reset

1 PAL switch phase is inverted compared to nominal

DOWN 0 DACs in normal operational mode; default after reset

1 DACs forced to lowest output voltage

1995 Sep 21 17

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Table 18 Subaddress 62

Notes

1. Recommended value: BSTA = 102 (66H).

2. Recommended value: BSTA = 72 (48H).

3. Recommended value: BSTA = 106 (6AH).

4. Recommended value: BSTA = 75 (4BH).

Table 19 Subaddress 63 to 66 (four bytes to program subcarrier frequency)

Note

1. Examples:

a) NTSC-M: f

sc

= 227.5, f

LLC

= 1560 → FSC = 626349397 (25555555H).

b) PAL-B/G: fsc= 283.7516, f

LLC

= 1888 → FSC = 645499916 (26798C0CH).

DATA BYTE DESCRIPTION CONDITIONS REMARKS

BSTA amplitude of colour burst;

input representation
accordance with
CCIR 601

white-to-black = 92.5 IRE;
burst = 40 IRE; NTSC encoding

BSTA = 0 to 1.25 × nominal

(1)

white-to-black = 92.5 IRE;
burst = 40 IRE; PALencoding

BSTA = 0 to 1.76 × nominal

(2)

white-to-black = 100 IRE;
burst = 43 IRE; NTSC encoding

BSTA = 0 to 1.20 × nominal

(3)

white-to-black = 100 IRE;
burst = 43 IRE; PALencoding

BSTA = 0 to 1.67 × nominal

(4)

SQP subcarrier real time logic 0 not supported in current version,

do not use

logic 1 control from SAA7191B digital

colour decoder

DATA BYTE DESCRIPTION CONDITIONS REMARKS

FSC0 to FSC3 f

sc

= subcarrier frequency
(in multiples of line
frequency);
f

LLC

= clock frequency (in

multiples of line frequency)

see note 1

FSC3 = most significant byte
FSC0 = least significant byte

FSC round

f

sc

f

LLC

----------

2

32

×







=

1995 Sep 21 18

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Table 20 Subaddress 67 to 6A

Note

1. LSBs of the respective bytes are encoded immediately after run-in and framing code, the MSBs of the respective
bytes have to carry the parity bit, in accordance with the definition of line 21 encoding format.

Table 21 Subaddress 6B

Note

1. Line = (SCCLN + 4) for M systems; line = (SCCLN + 1) for other systems.

Table 22 Subaddress 6C

DATA BYTE

(1)

DESCRIPTION

L21O0 first byte of captioning data, odd field
L21O1 second byte of captioning data, odd field
L21E0 first byte of extended data, even field
L21E1 second byte of extended data, even field

DATA BYTE DESCRIPTION

SCCLN selects the actual line, where closed caption or extended data are encoded; see note 1

DATA BYTE LOGIC LEVEL DESCRIPTION

PRCV2 0 polarity of RCV2 as output is active HIGH, rising edge is taken when input,

respectively; default after reset

1 polarity of RCV2 as output is active LOW, falling edge is taken when input,

respectively

ORCV2 0 pin RCV2 is switched to input; default after reset

1 pin RCV2 is switched to output

CBLF 0 if ORCV2 = HIGH, pin RCV2 provides an HREF signal (Horizontal Reference Pulse

that is HIGH during active portion of line, also during vertical blanking Interval);
default after reset

1 if ORCV2 = LOW, signal input to RCV2 is used for horizontal synchronization only

(if TRCV2 = 1); default after reset
if ORCV2 = LOW, signal input to RCV2 is used for horizontal synchronization

(if TRCV2 = 1) also as an internal blanking signal

PRCV1 0 polarity of RCV1 as output is active HIGH, rising edge is taken when input,

respectively; default after reset

1 polarity of RCV1 as output is active LOW, falling edge is taken when input,

respectively

ORCV1 0 pin RCV1 is switched to input; default after reset

1 pin RCV1 is switched to output

TRCV2 0 horizontal synchronization is taken from RCV1 port; default after reset

1 horizontal synchronization is taken from RCV2 port

SRCV1 − defines signal type on pin RCV1; see Table 23

1995 Sep 21 19

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Table 23 Logic levels and function of SRCV1

Table 24 Subaddress 6D

Table 25 Logic levels and function of CCEN

Table 26 Logic levels and function of SRCM

Table 27 Subaddress 6E to 6F

DATA BYTE

AS OUTPUT AS INPUT FUNCTION

SRCV11 SRCV10

0 0 VS VS Vertical Sync each field; default after reset
0 1 FS FS Frame Sync (odd/even)
1 0 FSEQ FSEQ Field Sequence, vertical sync every fourth field

(FISE = 1) or eighth field (FISE = 0)

11 −−not applicable

DATA BYTE DESCRIPTION

CCEN enables individual line 21 encoding; see Table 25
SRCM defines signal type on pin RCM1; see Table 26

DATA BYTE

FUNCTION

CCEN1 CCEN0

0 0 line 21 encoding off
0 1 enables encoding in field 1 (odd)
1 0 enables encoding in field 2 (even)
1 1 enables encoding in both fields

DATA BYTE

AS OUTPUT FUNCTION

SRCM1 SRCM0

0 0 VS Vertical Sync each field
0 1 FS Frame Sync (odd/even)
1 0 FSEQ Field Sequence, vertical sync every fourth field (FISE = 1) or

eighth field (FISE = 0)

11 −not applicable

DATA BYTE DESCRIPTION

HTRIG sets the Horizontal Trigger phase related to signal on RCV1 or RCV2 input

values above 1559 (FISE = 1) or 1887 (FISE = 0) are not allowed
increasing HTRIG decreases delays of all internally generated timing signals
reference mark: analog output horizontal sync (leading slope) coincides with active edge of RCV

used for triggering at HTRIG = 031H (033H)

1995 Sep 21 20

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Table 28 Subaddress 70

Note

1. If cross-colour reduction is programmed, it is active between FAL and LAL in both events.

Table 29 Logic levels and function of PHRES

Table 30 Subaddress 71 to 73

Table 31 Subaddress 77 to 79

DATA BYTE LOGIC LEVEL DESCRIPTION

VTRIG − sets the Vertical Trigger phase related to signal on RCV1 input

increasing VTRIG decreases delays of all internally generated timing signals,
measured in half lines

variation range of VTRIG=0to31(1FH)

SBLBN 0 vertical blanking is defined by programming of FAL and LAL

1 vertical blanking is forced automatically at least during field synchronization and

equalization pulses; note 1

PHRES − selects the phase reset mode of the colour subcarrier generator; see Table29

DATA BYTE

FUNCTION

PHRES1 PHRES0

0 0 no reset
0 1 reset every two lines
1 0 reset every eight fields
1 1 reset every four fields

DATA BYTE DESCRIPTION

BMRQ beginning of master request signal (RCM2)

values above 1559 (FISE = 1) or 1887 (FISE = 0) are not allowed
first active pixel at analog outputs (corresponding input pixel coinciding with RCM2) at

BMRQ = 0E1H (130H)

EMRQ end of master request signal (RCM2)

values above 1559 (FISE = 1) or 1887 (FISE = 0) are not allowed
last active pixel at analog outputs (corresponding input pixel coinciding with RCM2) at

EMRQ = 5E9H (72AH)

DATA BYTE DESCRIPTION

BRCV beginning of output signal on RCV2 pin

values above 1559 (FISE = 1) or 1887 (FISE = 0) are not allowed
first active pixel at analog outputs (corresponding input pixel coinciding with RCV2) at

BRCV = 0E1H (130H)

ERCV end of output signal on RCV2 pin

values above 1559 (FISE = 1) or 1887 (FISE = 0) are not allowed
last active pixel at analog outputs (corresponding input pixel coinciding with RCV2) at

ERCV = 5E9H (72AH)

1995 Sep 21 21

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Table 32 Subaddress 7A to 7D

S

UBADDRESSES

In subaddresses 5B, 5C, 5D, 5E and 62 all IRE values are rounded up.

Slave transmitter
Table 33 Slave transmitter (slave address 89H or 8DH)

Table 34 No subaddress

DATA BYTE DESCRIPTION

FLEN Length of a Field = FLEN + 1, measured in half lines

valid range is limited to 524 to 1022 (FISE = 1) respectively 624 to 1022 (FISE = 0),
FLEN should be even

FAL First Active Line, measured in lines

FAL = 0 coincides with the first field synchronization pulse

LAL Last Active Line, measured in lines

LAL = 0 coincides with the first field synchronization pulse

REGISTER
FUNCTION

SUBADDRESS

DATA BYTE

D7 D6 D5 D4 D3 D2 D1 D0

Status byte − VER2 VER1 VER0 CCRDO CCRDE FSQ2 FSQ1 FSQ0

DATA BYTE DESCRIPTION

VER Version identification of the device. It will be changed with all versions of the IC that have different

programming models. Current Version is 000 binary.

CCRDE Closed caption bytes of the even field have been encoded.

The bit is reset after information has been written to the subaddresses 69 and 6A. It is set immediately
after the data have been encoded.

CCRDO Closed caption bytes of the odd field have been encoded.

The bit is reset after information has been written to the subaddresses 67 and 68. It is set immediately
after the data have been encoded.

FSQ State of the internal field sequence counter.

Bit 0 (FSQ0) gives the odd/even information; odd = LOW, even = HIGH.

1995 Sep 21 22

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Fig.3 Chrominance transfer characteristic 1 (60 Hz).

(1) SCBW = 1; 444 input.
(2) SCBW = 0; 444 input.

handbook, full pagewidth

6 8 10 12 14

6

0

024

MBG257

−6

−12

−18

−30

−24

−36

−42

−54

−48

f (MHz)

G

v

(dB)

(1) (2)

Fig.4 Chrominance transfer characteristic 2 (60 Hz).

(1) SCBW = 1.
(2) SCBW = 0.
(3) SCBW = 1; 444 input.
(4) SCBW = 0; 444 input.

handbook, halfpage

0 0.4 0.8 1.6

2

0

−4

−6

−2

MBG255

1.2

f (MHz)

G

v

(dB)

(1)
(3)

(2)
(4)

1995 Sep 21 23

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Fig.5 Luminance transfer characteristic 1 (60 Hz).

(1) CCRS1 = 0; CCRS0 = 0.
(2) CCRS1 = 0; CCRS0 = 1.
(3) CCRS1 = 1; CCRS0 = 0.
(4) CCRS1 = 1; CCRS0 = 1.

handbook, full pagewidth

6 8 10 12 14

6

0

024

MBG258

−6

−12

−18

−30

−24

−36

−42

−54

−48

f (MHz)

G

v

(dB)

(1)

(2)

(3)

(4)

Fig.6 Luminance transfer characteristic 2 (60 Hz).

CCRS1 = 0; CCRS0 = 0.

handbook, halfpage

02 6

1

0

−1

−2

−3

−4

−5

MBG256

4

f (MHz)

G

v

(dB)

1995 Sep 21 24

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Fig.7 Chrominance transfer characteristic 1 (50 Hz).

(1) SCBW = 1; 444 input.
(2) SCBW = 0; 444 input.

handbook, full pagewidth

6 8 10 12 14

6

0

024

MBG261

−6

−12

−18

−30

−24

−36

−42

−54

−48

f (MHz)

G

v

(dB)

(1) (2)

Fig.8 Chrominance transfer characteristic 2 (50 Hz).

(1) SCBW = 1.
(2) SCBW = 0.
(3) SCBW = 1; 444 input.
(4) SCBW = 0; 444 input.

handbook, halfpage

0 0.4 0.8 1.6

2

0

−4

−6

−2

MBG262

1.2

f (MHz)

G

v

(dB)

(1)
(3)

(2)
(4)

1995 Sep 21 25

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Fig.9 Luminance transfer characteristic 1 (50 Hz).

(1) CCRS1 = 0; CCRS0 = 0.
(2) CCRS1 = 0; CCRS0 = 1.
(3) CCRS1 = 1; CCRS0 = 0.
(4) CCRS1 = 1; CCRS0 = 1.

handbook, full pagewidth

6 8 10 12 14

6

0

024

MBG263

−6

−12

−18

−30

−24

−36

−42

−54

−48

f (MHz)

G

v

(dB)

(1)

(2)

(3) (4)

Fig.10 Luminance transfer characteristic 2 (50 Hz).

CCRS1 = 0; CCRS0 = 0.

handbook, halfpage

02 6

1

0

−1

−2

−3

−4

−5

MBG264

4

f (MHz)

G

v

(dB)

1995 Sep 21 26

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

CHARACTERISTICS

V

DDD

= 4.5 to 5.5 V; T

amb

= 0 to 70 °C; unless otherwise specified.

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

Supply

V

DDD

digital supply voltage 4.5 5.5 V

V

DDA

analog supply voltage 4.75 5.25 V

I

DDD

digital supply current note 1 − 210 mA

I

DDA

analog supply current note 1 − 55 mA

Inputs

V

IL

LOW level input voltage
(except SDA, SCL, AP, SP and XTALI)

−0.5 +0.8 V

V

IH

HIGH level input voltage
(except SDA, SCL, AP, SP and XTALI)

2.0 V

DDD

+ 0.5 V

HIGH level input voltage (LLC) 2.4 V

DDD

+ 0.5 V

I

LI

input leakage current − 1 µA

C

i

input capacitance clocks operating − 10 pF

data available − 8pF
I/Os at high impedance − 8pF

Outputs

V

OL

LOW level output voltage
(except SDA and XTALO)

note 2 0 0.6 V

V

OH

HIGH level output voltage
(except SDA, DTACK and XTALO)

note 2 2.4 V

DDD

+ 0.5 V

HIGH level output voltage (LLC) note 2 2.6 V

DDD

+ 0.5 V

I

2

C-bus; SDA and SCL

V

IL

LOW level input voltage −0.5 +1.5 V

V

IH

HIGH level input voltage 3.0 V

DDD

+ 0.5 V

I

I

input current VI= LOW or HIGH −±10 µA

V

OL

LOW level output voltage (SDA) IOL=3mA − 0.4 V

I

O

output current during acknowledge 3 − mA

Clock timing (LLC)

T

LLC

cycle time note 3 31 44 ns

δ duty factor t

HIGH/TLLC

note 4 40 60 %

t

r

rise time note 3 − 5ns

t

f

fall time note 3 − 6ns

1995 Sep 21 27

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Input timing

t

SU;CREF

input data set-up time (CREF) 6 − ns

t

HD;CREF

input data hold time (CREF) 3 − ns

t

SU

input data set-up time (any other except
SEL_MPU, CDIR, RW/SCL, A0/SDA,
CS/SA, RESET, AP and SP)

6 − ns

t

HD

input data hold time (any other except
SEL_MPU, CDIR, RW/SCL, A0/SDA,
CS/SA, RESET, AP and SP)

3 − ns

Crystal oscillator

f

n

nominal frequency
(usually 24.545454 or 29.5 MHz)

3rd harmonic − 30 MHz

∆f/f

n

permissible deviation of nominal frequency note 5 −50 +50 10

−6

CRYSTAL SPECIFICATION
T

amb

operating ambient temperature 0 70 °C

C

L

load capacitance 8 − pF

R

S

series resonance resistance − 80 Ω

C

1

motional capacitance (typical) 1.5 −20% 1.5 +20% fF

C

0

parallel capacitance (typical) 3.5 −20% 3.5 +20% pF

MPU interface timing

t

AS

address set-up time note 6 9 − ns

t

AH

address hold time 0 − ns

t

RWS

read/write set-up time note 6 9 − ns

t

RWH

read/write hold time 0 − ns

t

DD

data valid from CS (read) notes 7, 8 and 9; n = 9 − 440 ns

t

DF

data bus floating from CS (read) notes 7 and 8; n = 5 − 275 ns

t

DS

data bus set-up time (write) note 6 9 − ns

t

DH

data bus hold time (write) note 6 9 − ns

t

ACS

acknowledge delay from CS notes 7 and 8; n = 11 − 520 ns

t

CSD

CS HIGH from acknowledge 0 − ns

t

DAT

DTACK floating from CS HIGH notes 7 and 8; n = 7 − 360 ns

Data and reference signal output timing

C

L

output load capacitance 7.5 40 pF

t

OH

output hold time 4 − ns

t

OD

output delay time CREF in output mode − 25 ns

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

1995 Sep 21 28

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Notes

1. At maximum supply voltage with highly active input signals.

2. The levels have to be measured with load circuits of 1.2 kΩ to 3.0 V (standard TTL load) and C

L

= 25 pF.

3. The data is for both input and output direction.

4. With LLC in input mode. In output mode, with a crystal connected to XTALO/XTALI duty factor is typically 50%.

5. If an internal oscillator is used, crystal deviation of nominal frequency (fn) is directly proportional to the deviation of
subcarrier frequency and line/field frequency.

6. The value is calculated via equation

7. The value depends on the clock frequency. The numbers given are calculated with f

LLC

= 24.54 MHz.

8. The values given are calculated via equation

9. The falling edge of DTACK will always occur1 × LLC after data is valid.

10. For full digital range, without load, V

DDA

= 5.0 V. The typical voltage swing is 2.0 V, the typical minimum output

voltage (digital zero at DAC) is 0.2 V.

CHROMA, Y and CVBS outputs

V

o(p-p)

output signal voltage (peak-to-peak value) note 10 1.9 2.1 V

R

I

internal serial resistance 18 35 Ω

R

L

output load resistance 80 −Ω
B output signal bandwidth of DACs −3dB 10 − MHz
ILE LF integral linearity error of DACs −±2 LSB
DLE LF differential linearity error of DACs −±1 LSB

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

ttSUtHD+=

t

dmaxtOD

nt

LLCtLLCtSU

++×+=

1995 Sep 21 29

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Fig.11 Clock data timing.

handbook, full pagewidth

MBE742

LLC clock output

0.6 V

1.5 V

2.6 V

2.0 V

0.8 V

2.4 V

0.6 V

input data

output data

not valid

valid

valid

not valid

valid

valid

LLC clock input

0.8 V

1.5 V

2.4 V

t

HIGH

t

HD; DAT

T

LLC

t

HIGH

T

LLC

t

d

t

HD; DAT

t

HD; DAT

t

SU; DAT

t

f

t

f

t

r

t

r

Fig.12 Digital TV timing.

The data demultiplexing phase is coupled to the internal horizontal phase.
The CREF signal applies only for the 16 lines digital TV format, because these signals are only valid in 12.27 or 14.75 MHz.
The phase of the RCV2 signal is programmed to 0E1H (130H for 50 Hz) in this example in output mode (BRCV2).

handbook, full pagewidth

LLC

CREF

VP1(n) Y(0)

Cb(0)

Y(1)

Cr(0)

Y(2)

Cb(2)

Y(3)

Cr(2)

Y(4)

Cb(4)VP3(n)

RCV2

MBG259

1995 Sep 21 30

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Fig.13 RTCI timing.

(1) Sequence bit:

PAL = logic 0 then (R − Y) line normal; PAL = logic 1 then (R − Y) line inverted.
NTSC = logic 0 then no change.

(2) Reserved bits: 276 with 50 Hz systems; 188 with 60 Hz systems.

handbook, full pagewidth

128 13 0 22

RTCI

HPLL

increment

H/L transition

count start

4 bits

reserved

valid

sample

invalid

sample

not used in DENC2-SQ

0

sequence

bit (1)

3 bits

reserved

8/LLC

reserved (2)

MBG260

FSCPLL increment

1995 Sep 21 31

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

Fig.14 MPU interface timing (read cycle).

handbook, full pagewidth

A0

CSN

RWN

D(7 to 0)

DTACK

t

AS

t

AH

t

RWS

t

RWH

t

DAT

t

ACS

t

DF

t

CSD

t

DD

MBE740

Fig.15 MPU interface timing (write cycle).

handbook, full pagewidth

A0

CSN

RWN

D(7 to 0)

DTACK

t

AS

t

AH

t

RWS

t

RWH

t

DAT

t

ACS

t

DF

t

CSD

t

DS

MBE741

1995 Sep 21 32

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

APPLICATION INFORMATION

handbook, full pagewidth

(1)

(3)

49

(1)

51

(1)

53

52

V

SSA

0.62 V (p-p)

(2)

CHROMA

75 Ω

75

35 Ω 20 Ω

20 Ω

12 Ω

35 Ω

35 Ω

Ω

75 Ω

1.0 V (p-p)

(2)

Y

1.23 V (p-p)

(2)

CVBS

V

SSA

V

SSA

V

SSA

48

50

V

DDA2

V

DDA1

V

DDA3

DAC3

DAC2

DAC1

I

I

V

refH

545547

46

V

refL

1, 8, 19, 28,

35, 62

V

SSD1

to V

SSD6

0.1 µF

0.1 µF

15 kΩ

V

SSAVSSA

V

DDA1

56

+ 5 V analog

0.1 µF

V

SSA

0.1 µF

V

SSA

0.1 µF

V

SSA

67423717

10

pF

3rd

harmonic

X1

XTAL0

V

DDD3

V

DDD4

V

DDD2

V

DDD1

0.1 µF

V

SSD

0.1 µF

V

SSD

0.1 µF

V

SSD

0.1 µF

V

SSD

+ 5 V digital

40

XTAL1

41

10

pF

1

nF

V

SSD

10

µH

digital

inputs and

outputs

SAA7187

MBG254

Fig.16 Application environment of the DENC2-SQ.

(1) Typical value.

(2) For

100

⁄

100

colour bar.

(3) 24.545454 or 29.5 MHz.

1995 Sep 21 33

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

PACKAGE OUTLINE

REFERENCES

OUTLINE

VERSION

EUROPEAN

PROJECTION

ISSUE DATE

IEC JEDEC EIAJ

Note

1. Plastic or metal protrusions of 0.01 inches maximum per side are not included.

SOT188-2

4460

68

1

9

10 26

43

27

61

detail X

(A )

3

b

p

w M

A

1

A

A

4

L

p

b

1

β

k

1

k

X

y

e

E

B

D

H

E

H

v M

B

D

Z

D

A

Z

E

e

v M

A

pin 1 index

112E10 MO-047AC

0 5 10 mm

scale

92-11-17
95-03-11

PLCC68: plastic leaded chip carrier; 68 leads

SOT188-2

UNIT A

A

min. max. max. max. max.

1

A

4

b

p

E

(1)

(1) (1)

eH

E

Z

ywv β

mm

4.57

4.19

0.51

3.30

0.53

0.33

0.021

0.013

1.27

0.51

2.16
45

o

0.18 0.100.18

DIMENSIONS (millimetre dimensions are derived from the original inch dimensions)

D

(1)

24.33

24.13

H

D

25.27

25.02

E

Z

2.16

D

b

1

0.81

0.66

k

1.22

1.07

k

1

0.180

0.165

0.020

0.13

A

3

0.25

0.01

0.05

0.020

0.085

0.007 0.0040.007

L

p

1.44

1.02

0.057

0.040

0.958

0.950

24.33

24.13

0.958

0.950

0.995

0.985

25.27

25.02

0.995

0.985

e

E

e

D

23.62

22.61

0.930

0.890

23.62

22.61

0.930

0.890

0.085

0.032

0.026

0.048

0.042

E

e

inches

D

e

1995 Sep 21 34

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

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).

Reflow soldering

Reflow soldering techniques are suitable for all PLCC
packages.

The choice of heating method may be influenced by larger
PLCC packages (44 leads, or more). If infrared or vapour
phase heating is used and the large packages are not
absolutely dry (less than 0.1% moisture content by
weight), vaporization of the small amount of moisture in
them can cause cracking of the plastic body. For more
information, refer to the Drypack chapter in our

“Quality

Reference Handbook”

(order code 9398 510 63011).

Reflow soldering requires solder paste (a suspension of
fine solder particles, flux and binding agent) to be applied
to the printed-circuit board by screen printing, stencilling or
pressure-syringe dispensing before package placement.

Several techniques exist for reflowing; for example,
thermal conduction by heated belt. Dwell times vary
between 50 and 300 seconds depending on heating
method. Typical reflow temperatures range from
215 to 250 °C.

Preheating is necessary to dry the paste and evaporate
the binding agent. Preheating duration: 45 minutes at
45 °C.

Wave soldering

Wave soldering techniques can be used for all PLCC
packages if the following conditions are observed:

• A double-wave (a turbulent wave with high upward
pressure followed by a smooth laminar wave) soldering
technique should be used.

• The longitudinal axis of the package footprint must be
parallel to the solder flow.

• The package footprint must incorporate solder thieves at
the downstream corners.

During placement and before soldering, the package must
be fixed with a droplet of adhesive. The adhesive can be
applied by screen printing, pin transfer or syringe
dispensing. The package can be soldered after the
adhesive is cured.

Maximum permissible solder temperature is 260 °C, and
maximum duration of package immersion in solder is
10 seconds, if cooled to less than 150 °C within
6 seconds. Typical dwell time is 4 seconds at 250 °C.

A mildly-activated flux will eliminate the need for removal
of corrosive residues in most applications.

Repairing soldered joints

Fix the component by first soldering two diagonally­opposite end leads. Use only a low voltage soldering iron
(less than 24 V) applied to the flat part of the lead. Contact
time must be limited to 10 seconds at up to 300 °C. When
using a dedicated tool, all other leads can be soldered in
one operation within 2 to 5 seconds between
270 and 320 °C.

1995 Sep 21 35

Philips Semiconductors Preliminary specification

Digital video encoder (DENC2-SQ) SAA7187

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.

PURCHASE OF PHILIPS I

2

C COMPONENTS

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.

Purchase of Philips I

2

C components conveys a license under the Philips’ I2C patent to use the
components in the I2C system provided the system conforms to the I2C specification defined by
Philips. This specification can be ordered using the code 9398 393 40011.

Philips Semiconductors – a worldwide company

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P.O. Box 218, 5600 MD EINDHOVEN, The Netherlands,
Telex 35000 phtcnl, Fax. +31-40-724825 (from 10-10-1995: +31-40-2724825)

SCD43 © Philips Electronics N.V. 1995

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
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use. Publication thereof does not convey nor imply any license under patent- or
other industrial or intellectual property rights.

Printed in The Netherlands

483061/1500/01/pp36 Date of release: 1995 Sep 21
Document order number: 9397 750 00325