Video – Sony DVP S9000ES User Manual

5

DVD Technical Notes

Video

Of course, the choice of film or video ultimately depends on

individual production budgets and artistic intent. And important

variations occur. A growing number of theatrical releases are

shot on video. And Sony’s latest HDCAM

®

high definition video

equipment can capture images at 24 frames per second

progressive scan – 24P.

We’ve seen that much of television broadcasting starts out as

movie film at 24 frames per second. This means not only

has it been converted from film to video, it’s been converted

from 24P to 60i. A machine called a telecine performs both

conversions. Simple arithmetic says that 60

÷

24 = 2.5. This

means that each film frame must convert to an average of

2.5 video fields. A process called 3-2 pulldown performs

this conversion. The first film frame is converted to three

video fields. The next film frame is converted to two video

fields. The next film frame is converted to three video

fields, and so on. We get a pattern of 3-2-3-2-3-2 etc, from

which 3-2 pulldown gets its name. This pattern averages out

to 2.5 video fields for every film frame. The telecine

converts a film frame to three video fields by repeating the

first field. For example, the first video field may consist of

odd scanning lines, the second field consists of even

scanning lines and the third field consists of the same odd

scanning lines as the first.

In order to fit a feature-length film onto a CD-sized disc, the

DVD format employs MPEG-2 digital compression. And

one important trick of this compression is to make an

important distinction between footage originally shot on

video and footage originally shot on film. As you would

expect, DVD stores video footage in its native 60i form.

But you might be surprised to learn that most DVDs shot

on film store the images at film’s native rate of 24 frames

per second!

Like material shot on video, the typical DVD shot on film is

encoded from 60i videotape. But in the DVD authoring

process, logic circuits in the majority of high-quality MPEG

encoders detect the telltale pattern of 3-2-3-2 in the incoming

video fields, the so-called 3-2 cadence. Since repeated fields

would waste precious disc space, the DVD eliminates them and

replaces them with First Field Repeat Flags (FFRFs) to tell

the player which fields to repeat. The remaining fields are

reassembled back into their original frames and encoded onto

the DVD in progressive scan at 525/24P. This system is 20%

more space-efficient than 60i. It’s an important advantage

because it enables DVDs to hold films that are 20% longer. Or

DVDs can encode each frame with a 20% more bits, for even

better picture quality.

The 24P encoding of film-originated DVDs means that 3-2

pulldown must be performed in the DVD player before the

picture can be displayed on a conventional television. The

exact pattern of 3-2 pulldown can have a subtle effect on the

rendering of motion. So it’s important that the DVD reproduce

the 3-2 pulldown cadence of the original master videotape.

That’s where the FFRFs come in. They identify each field to be

repeated as part of a “3.”

The 525/24P encoding of film-originated material has a special

property. In conventional 525/60i video, each “B” field repre-

sents a slice of time 1/60th second after the corresponding “A”

field. To the extent that objects in the frame are moving, the two

fields won’t match and aren’t well-suited for direct output in

progressive scan.

In contrast, 525/24P film-originated DVD is inherently progres-

sive and is perfectly suited to progressive scan display. Ironically,

today’s MPEG decoder chips automatically convert the 525/24P

progressive DVD into 525/60i interlaced video. There’s no way

to “tap into” the chips and extract the progressive signal.

Additional processing is required to convert the 525/60i interlaced

signal into a 525/60P progressive signal for output to a compa-

tible television. The required process is called 3-2 reverse

conversion. Because the process operates on a digital signal in

the digital domain, it can result in a super high-quality video

source that promises to be the ideal complement to high-end, big-

screen televisions with 525P inputs.

Unfortunately, not every DVD player with 525P outputs fully

delivers on the promise. Concerns such as flicker, motion

artifacts and 3-2 cadence glitches can visibly degrade the

viewing experience. As later sections will show, the Sony DVP-

S9000ES represents a thorough engineering solution — one that

realizes the full potential of progressive scanning.

Progressive scan 525P outputs have been promoted as a

must-have feature in high-end DVD players. But not all

progressive-scan outputs are created equal. Sony, a leader

in progressive scanning equipment for broadcasting and movie

production, understands the limitations of conventional

designs. And Sony engineers were determined to overcome

those limitations. The result is Sony’s exclusive Precision

Cinema Detection — the key to even higher performance in

525P reproduction.

Sony’s Fast and Pure Cinema Detection.

A thorough solution to the engineering challenges of

525P output, Sony’s Fast and Pure Cinema Detection

incorporates four significant advances:

Film-to-Video Transfer and 3-2 Pulldown

Film and Video on DVD

3-2 Reverse Conversion

Realizing the Potential of 525P