Video – Sony DVP S9000ES User Manual

7

DVD Technical Notes

Video

One potential way to cut corners in 525P output is to adopt

relatively inexpensive frame memory. However, simple frame

memory systems can expose the signal to motion blur on two out

of every five frames. This becomes clear when we review the 3-

2 pulldown process. In simple frame memory reverse conversion,

the player combines the present field with the previous one — no

matter what cinema frame it came from. If the previous field

came from the same cinema frame, all is well and a good 525P

picture results. But if the previous field came from the previous

cinema frame — an event that occurs regularly on two out of

every five frames — then images that were captured 1/30 second

apart will be artificially combined on the television screen. The

result will be a blur of any moving objects in the video picture.

Such motion artifacts would be completely unacceptable in the

design program of the DVP-S9000ES. That’s why the player

undergoes the full 3-2 reverse conversion process.

Many televisions capable of 525P have internal line doubling or

scaling circuitry capable of converting conventional 525i inputs

into 525P display. Sony’s own such circuits include the Digital

Reality Creation

TM

(DRC

TM

) and DRC Multi-Function (DRC-

MF) systems. With seemingly similar capabilities in both the

DVD player and the television, it’s only natural to ask which is

preferable. In most cases the 525P output of the DVD player

will provide superior results. There are two reasons.

First, only the DVD player can perform the transformation on the

DVD’s digital signal in the digital domain. The alternative is to

convert the signal to analog, transfer this analog signal to the

television, reconvert the signal back to digital and perform 525P

conversion. This exposes the signal to the losses and distortions

of an additional analog-to-digital and digital-to-analog

conversion. So the DVD player has a natural advantage.

Second, when designed properly, DVD player will observe the

correct 3-2 inverse conversion, respecting the integrity of the

original film frames. The overwhelming majority of outboard

devices are not sophisticated enough to detect and maintain this

integrity. Here again, a well-designed DVD player surpasses

most outboard devices.

Sony’s progressive scanning outputs represent a new benchmark

in home video perfor-

mance. But Sony’s design

goals for the DVP-

S9000ES required even

more. Sony built a new

MPEG Image Processor to

undertake three crucial

functions:

1. Motion Adaptive Field Noise Reduction.

2. Block Noise Reduction.

3. Clear Frame Still Image Performance.

Data compressed formats such as DVD are susceptible to noise.

In the video signal, noise appears as tiny flecks or specks of

unwanted color. Typically, the circuits that reduce noise also

suppress fine picture detail. Viewers are asked to sacrifice the

ultimate in resolution for the ultimate in low noise picture clarity.

Many designs attempt to overcome this limitation by comparing

the pictures from several video fields at once. Pixels that

correlate from one field to the next are considered accurate.

Pixels that vary are

considered noisy. This

method performs

beautifully as long as

the images are still.

But because different

fields can capture the

image at different

times, the noise

reduction system can

easily misinterpret

movement as noise.

When this happens, the

noise reduction circuit

can create ghost

images, unwanted

motion artifacts that

may be more annoying than the original noise. In the past, Sony

has overcome this by exempting areas of screen movement from

noise reduction. Of course, this allows some video noise to

reach the television — another compromise.

Achieving 525P: DVD Player vs. Television

Fig. 4: Allowing the television to transform the signal to 525P (top) exposes the signal to

the losses entailed in additional D/A and A/D conversions. Performing the conversion in

the DVP-S9000ES (bottom) simplifies the signal path for an image with lower noise and

lower distortion.

High Performance MPEG Image Processor

Motion Adaptive Field Noise Reproduction

High-quality Progressive Output from Film

Photo 1: Sony’s MPEG Image Processor LSI

performs three important functions to optimize

image quality.

Fig. 5: Conventional digital noise reduction

assumes that any difference between two fields is

video noise. This effectively reduces the

background noise, but can create new problems.

In this example, the movement of the car is

interpreted as noise, resulting in an unwanted ghost

image — a motion artifact behind the car.