SAA7185 Datasheet, PDF(7/36 Page) NXP Semiconductors

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SAA7185 Datasheet, PDF (7/36 Pages) NXP Semiconductors – Digital Video Encoder DENC2

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Philips Semiconductors

Digital Video Encoder (DENC2)

Preliminary speciï¬cation

SAA7185

FUNCTIONAL DESCRIPTION

The digital MPEG-compatible Video Encoder (DENC2)

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, 4,

5 and 6. The DACs are realized with full 10-bit resolution.

The encoder provides three 8-bit wide data ports, that

serve different applications.

The MPEG Port (MP) and the Video Port (VP) accept

8 lines multiplexed Cb-Y-Cr data.

The Video Port (VP) is also able to handle DIG-TV2 family

compatible 16-bit YUV signals. In this event, the Data Port

(DP) is used for the U/V components.

The Data Port can handle the data of an 8-bit wide

microprocessor interface, alternatively.

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 27 MHz, which is

twice the CCIR line-locked pixel clock of 13.5 MHz, 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 âdata

sheet SAA7151Bâ ) is available.

The DENC2 synthesizes all necessary internal signals,

colour subcarrier frequency, and synchronization signals,

from that clock. DENC2 is always timing master for the

MPEG Port (MP), but it can additionally be configured as

master or slave for the Video Port (VP).

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 Ã 8 LUT.

The IC can be programmed via I2C-bus or 8-bit MPU

interface, but only one interface configuration can be

active at a time; if the 16-bit Video Port mode (VP and DP)

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

black 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 13H, Register 61H to

contents 0X010101b, and Register 6CH to contents 00H.

All other control registers are not influenced by a reset.

Data manager

In the Data manager, real time arbitration on the data

stream to be encoded is performed.

Depending on hardware conditions (signals on pins

SEL_ED, KEY, OSD2 to OSD0, MP7 to to MP0,

VP7 to VP0 and DP7 to DP0) and different software

programming either data from the MP port, from the

VP port, 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

VIDEO 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.

In order to enable easy analog post filtering, luminance is

interpolated from 13.5 MHz data rate to 27 MHz data rate,

providing luminance in 10-bit resolution. This filter is also

used to define smoothed transients for synchronization

pulses and blanking period. For transfer characteristic of

the luminance interpolation filter see Figs 5 and 6.

1996 Jul 08

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