Sony LCSSA, DVP-NS999ES, DVP-S7000, DVP-S7700, DVP-S9000ES Technical Details

ES Series DVD-Video/CD/SA-CD Players

Technical Background

Version 3.0; June 2, 2003

Introduction

In 2002, the Sony DVP-NS999ES DVD player established an entirely new
Reference Standard for the category. It introduced new advancements in video
D/A conversion, new benchmarks in the coordination of audio and video signals
and new refinements in the purity and integrity of the digital video signal. Now
Sony extends these technological breakthroughs to two additional ES
components: the DVP-CX777ES Disc Explorer® 400-disc changer and the DVP­NC555ES 5-disc changer.

It's no accident that these remarkable components come from Sony. And
it's no coincidence that they're part of Sony ES, the Elevated Standard in audio
and video. After all, Sony co-invented the technology that DVD is based upon—
the Compact Disc. We developed the error-correction and coding technology
inside every DVD disc and player. And we're involved in every link of the DVD
chain, from movie and music production to DVD authoring, mastering and
replication. No wonder Sony has consistently created top DVD players.

• DVP-S7000 (1997). Sony's first DVD player was quickly hailed by magazine

reviewers as the "Reference Standard." It became the centerpiece in the A/V
systems used to review DVD titles, televisions and other DVD players.

• DVP-S7700 (1998). A long list of audio, video and construction refinements

enabled enthusiasts to achieve even higher performance.

• DVP-S9000ES (2000). Sony's first DVD player with progressive scan 480P

output, this was also the first with Super Audio CD playback and the first to
wear the badge of Sony ES.

• DVP-NS900V (2001). Sony reinvented progressive scan DVD with pixel-by-

pixel I/P conversion and Sony extended Super Audio CD entertainment with
multi-channel playback.

• DVP-NS999ES (2002). Sony deployed Precision Cinema Progressive™

circuitry, along with a 14-bit/108 MHz video D/A converter, Speaker Time
Alignment and Audio-Video Alignment.

Sony's latest DVD-Video players bring this exalted technology to an even
broader range of potential customers.

Video Performance......................... Page 3

Audio Performance......................... Page 20

Construction Quality........................ Page 29

Convenience.............................. Page 37

At a Glance............................... Page 42

Appendix A: Progressive, Interlace and DVD....... Page 44

Appendix B: The Super Audio CD Format......... Page 50

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 2

Video Performance

Precision Cinema Progressive™ circuitry (all models)

The purpose of today's high-end home theater systems is to recreate the
look and sound of the movie theater. This includes the vivid detail and seamless
coherence of the film frame. A crucial technology for achieving this goal is DVD­Video playback with progressive scanning, "480P" output. This works with the
many of today's "HD capable" and "HD monitor" televisions, which offer 480P
inputs. For example, Sony markets this capability as the Hi-Scan 1080i™
chassis. In this context, 480P outputs have been promoted as a must-have
feature in high-end DVD players. However, there continue to be important
differences in how DVD players generate the 480P signal. The DVP-NS999ES
was the first to incorporate Sony's Precision Cinema Progressive system, a
comprehensive approach that incorporates two significant circuits to deliver a
picture that comes closer than ever to the original movie theater experience.

• Pixel-by-Pixel Active interlace-to-progressive (I/P) conversion

• Vertical Edge Compensation

Pixel-by-Pixel Active I/P Conversion (all models)

Interlace-to-Progressive (I/P) conversion is a potentially tricky process.
Simplistic solutions like "frame memory" can end up creating motion artifacts that
mar the final result. These appear as zipper-like patterns on the left and right
edges of moving objects. (See Appendix A for the full story.) Players with "3-2
reverse conversion" overcome this limitation, maintaining the integrity of the
original film frames.

But extracting the full potential of the DVD-Video format requires even
more. Different types of DVD material require different types of conversion. An
I/P conversion strategy optimized for material originally shot on film will not get
the best results for material originally shot on video, and vice versa.

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The mathematical algorithms of Sony's Pixel-by-Pixel Active I/P
conversion have been committed to silicon in this Large Scale
Integrated circuit (LSI), the Sony CXD9698R.

Sony solves the problem with Pixel-by-Pixel Active I/P conversion that
includes built-in motion detection. This enables us to generate the ideal
progressive scanning output for each type of DVD source.

• Film originated material. For footage originally shot on 24-frames per

second film or film-like 24-frame progressive video, the Sony system
automatically and flawlessly detects the 3-2 cadence and performs full 3-2
reverse conversion. Mismatched film frames are never "force-fit" into a single
video frame. The system adds no motion blurring. You'll enjoy twice the
vertical resolution of conventional interlace video, for an experience that's less
like watching television and more like watching film.

• Film originated material on a DVD-R/RW or DVD+R/RW. DVD recorders

complicate the I/P conversion processes, because these recorders capture
everything as interlaced video. That means movies, even if they were
originally shot on film, are recorded as 30 frames per second interlaced, not
24 frames per second progressive. There are no First Field Repeat Flags
(FFRFs), leaving many DVD players unable to guess at the original frame
structure. In this case, conventional 3-2 reverse conversion will not work, but
Sony's Pixel-by-Pixel Active I/P conversion will. Thanks to built-in motion
detection, the Sony system does not depend on FFRFs. So you get accurate
reproduction on DVD-R/RW and DVD+R/RW discs.

• Film material intercut with interlaced video material. Sony's Pixel-by-

Pixel Active I/P conversion applies appropriate processing for film elements
and video elements, even when they alternate in rapid-fire sequence, as they
might during the "making of" documentary on a movie DVD. The Sony

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system instantly recognizes the characteristics and film and video and
automatically applies the correct processing for each.

• Film and interlaced video-originated material in the same scene. The

Sony system performs beautifully even when film and video appear on-screen
at the same time, for example, when video-originated subtitles are
superimposed over a film-originated scene. Because the Sony system
analyzes each individual pixel, it can switch processing modes anywhere—
even in the middle of a field! In contrast, conventional systems need to wait
until the end of the field before switching between film and video modes.

• Interlaced video originated material. Shooting on conventional, interlaced

video means capturing a new field of 240 interlaced scanning lines every 1/60
second. When subjects are moving, there can be significant differences from
each field to the next. It's a far cry from film origination, where the subjects
move each 1/24 second. Combining two video-originated fields of 240
interlaced scanning lines into one frame of 480 progressive scanning lines is
no simple task. For this reason, Sony's Pixel-by-Pixel Active I/P conversion
applies special processing for video originated material.

An on-screen display enables you to adjust the threshold of film and
video detection for each individual disc. Sony ES Series DVD-video
players can even store your setting for use the next time you play that
title!

In addition, the DVD-Video players of Sony ES enable you to adjust the
threshold of film and video detection. So you can optimize the I/P conversion for
the specific DVD you're watching. You get I/P conversion that's not only
amazingly smooth, but also exquisitely tuned to the individual needs of each
DVD. When you're done watching, the players can store the setting in memory.
So each time you play that title, you'll automatically get just the right conversion!

Three I/P conversion modes for

interlaced video origination (all models)

Many of today's DVDs feature concert videos, documentaries, current
events, sports, nature footage and other subjects originally captured on
conventional, interlaced video. Video based I/P conversion creates new pixels
from existing information. For example, to enable progressive scan output of an
odd video field, the player must create the pixels that compose all the even

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scanning lines. Unfortunately, this can result in motion blur. Horizontal lines in
the scene can flicker on and off. Other areas can suffer from an unnatural
shimmer. For this reason, any high-end progressive scanning system must solve
the problem of motion artifacts for footage shot on video.

Scanning

lines

EVEN

Past 3

EVEN

ODD

Past 2

Past 1

EVEN

current

ODD

future

Time sequence

I/P conversion of interlaced video originated material. The red pixel, on
an even scanning line needs to be created for the current, odd field. If
not done properly, this can result in zipper-like edges on moving objects,
line flicker and unnatural shimmering.

Sony's Pixel-by-Pixel Active I/P conversion overcomes these problems
with built-in motion detection and three distinct video conversion algorithms: one
for still objects, a second for moving objects and a third, just for slow-moving
objects. As with film origination, the algorithms are applied separately for each
individual pixel. So all three can be applied to different parts of any given scene!

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Still

Processing

Still Part Moving

The typical video frame includes pixels from on-screen objects that can
are still, moving and moving slowly. Sony Pixel-by-Pixel Active I/P
conversion applies separate processing for each.

Moving

Processing

Scanning

lines

Past 3

EVEN

ODD

Past 2

Time sequence

Past 1

EVEN

current

EVEN

future

ODD

Still pixels are simply created from the corresponding pixel in the
previous field.

Pixels for still objects are the easiest to handle. When objects are not
moving, the player can simply use the corresponding pixel from the previous field.
Because there is no motion, these pixels will match perfectly with the current field,
creating a seamless progressive scan output.

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Scanning

lines

Past 3

EVEN

EVEN

current

ODD

Past 2

Past 1

future

EVEN

ODD

Time sequence

Moving pixels are created by composing adjacent pixels in the same
field. This minimizes motion blur.

Pixels for moving objects are created by composing pixels from scanning
lines immediately above and below within the same field. Because all
information comes from the same 1/60-second slice of time, this suppresses
motion artifacts. While this process does not result in the full improvement in
vertical resolution, the human eye is less sensitive to detail in moving objects.

Many conventional I/P conversion algorithms have these two modes: still
and motion. What's more, the two modes can even coexist in a single frame,
sometimes on a pixel-by-pixel basis. However, when objects are moving slowly,
the compromise in resolution can be noticeable. And when slow-moving objects
come to a complete stop (or still objects go into slow movement), the sudden
shift in resolution can be noticeable—and annoying.

Scanning

lines

Sony employs a third mode, specifically for slow-moving pixels. These
are created by a sophisticated hybrid algorithm, based on seven
adjacent pixels.

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ODD

Past 3

EVEN

Past 2

ODD

Time sequence

EVEN

Past 1

current

EVEN

future

Sony's Pixel-by-Pixel I/P conversion overcomes this problem by employing
a third mode conversion mode, specifically for slow motion. Slow-moving pixels
are composed via a sophisticated hybrid algorithm from seven pixels on adjacent
lines and fields, to reduce motion artifacts and annoying resolution shifts to a
minimum. This mode delivers superlative resolution on objects that are moving
slowly, stopping and starting. So the overall effect is a stunning improvement in
image detail, clarity and solidity.

Because the motion detection system operates pixel-by-pixel, the ES
Series players can employ all three algorithms simultaneously, to optimize every
area of the video scene. Still backgrounds are impressively sharp and detailed,
while moving objects in the same scene are free from motion artifacts. And slow­moving objects don't shift in resolution. You'll see more consistent, more
satisfying, more seamless 480P output with a wider variety of discs. The visibility
of scanning lines is all but eliminated. Connect a 480P-compatible television,
monitor or projector and prepare to be amazed. You'll approach the full glory of
high definition picture quality—from today's standard DVDs.

Just as you can adjust the threshold of film/video detection, you can
optimize the still/motion detection for the specific requirements of the DVD you're
watching. As before, the player can memorize your Still/Motion threshold for
favorite discs. So each time you play a title, you'll automatically get just the right
conversion!

You can adjust the Still/Motion detection threshold with this on-screen
display. As before, you can store your setting for favorite discs in
memory.

Vertical Edge Compensation (all models)

As we've seen, Sony's Pixel-by-Pixel Active I/P conversion of video
sources suppresses the zipper-like effect that can occur when moving areas of
two interlaced fields are combined in the same progressive frame. It's a major
step forward in picture quality. But there is a second, less obvious artifact that
can occur in part of the video image part of the time. Most people would not
notice the artifact without being told when and where to watch for it. But Sony's
program for the ES Series required us to address even subtle distortions.

The problem is jaggedness in the edges that separate areas of the scene,
especially when the edges are straight lines, when they're diagonal and when

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there's a big difference in contrast between the areas they separate. Rooflines,
car hoods, venetian blinds and other lines in the scene can appear with
unwanted stair steps not in the original program. Sony's Vertical Edge
Compensation controls this artifact.

Pixels on the line above

Pixel being created

Pixels on the line below

Sony's Vertical Edge Compensation uses a broad range of pixels on the
lines immediately above and below to calculate a pixel on moving edges.
This controls the jaggedness that can sometimes distort edges in the
video picture.

Vertical Edge Compensation uses the built-in motion detection to judge
motion at the pixel level and to detect edges. When the circuit detects an edge, it
refers to other edges within the field. The circuit then assembles data from a
broad range of pixels on the lines immediately above and below to calculate the
new pixel. This smoothes out the stair steps and results in consistent, natural­looking lines throughout the picture. It's just one more way that Sony raises the
standard in DVD-Video picture quality.

14-bit D/A Converter (DVP-NS99ES)

12-bit D/A Converter (DVP-NC555ES, CX777ES)

The binary word length used in video digital-to-analog (D/A) conversion
helps determine the gray scale performance of the picture. This can be seen, for
example, in the play of light across the face of an actress, as the light of a candle
falls off into shadow. Longer word lengths contribute to smoother, more realistic
transitions from dark to light.

Starting with the DVP-S7000, Sony led the way with 10-bit video digital-to­analog conversion. The DVP-NS900V raised the performance to 12-bit
conversion, producing four times the grayscale levels—performance now also
achieved by the DVP-NC555ES and CX777ES. The DVP-NS999ES
incorporates the Analog Devices ADV7304A, a 14-bit video D/A converter. This
produces yet again four times the grayscale levels—a total of 16 times as many
as earlier, 10-bit designs.

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The 14-bit video D/A converter also includes the video encoder and
processing for Macrovision™ Copy Protection.

Sony applies the extended binary word length both to DVD's luminance
(Y) black-and-white channel and to DVD's two color difference channels (PB and
PR). So you get more accurate rendition of colors from the deepest black to the
brightest highlights.

108 MHz D/A converter (DVP-NS999ES)

216 MHz D/A converter (DVP-NC555ES, CX777ES)

In DVD-Video playback, the ultimate in picture detail comes into direct
conflict with the ultimate in picture clarity. Detail is a function of the video
"bandwidth" or "frequency response." The highest resolution details occupy the
highest video frequencies. Clarity is a function of video "noise." In the worst
case, noise appears as "snow" or flecks and specks of unwanted color. In more
subtle examples, noise appears as a texture or graininess not present in the
original picture. Sony ES Series players achieve a remarkable combination of
superb fine picture detail and excellent clarity, thanks to 108 MHz and 216 MHz
oversampling in the D/A converter.

To understand how oversampling can have such a powerful effect on
picture quality, it helps to understand the concepts of digital sampling and
aliasing noise.

Digital recording systems work by "sampling" the original source at a
specific rate, or "frequency." The frequency of sampling is determined by the
Nyquist Theorem, which dates back to 1928. Harry Nyquist calculated that the
sampling frequency needed to be at least twice the highest frequency in the
signal you need to record. For Compact Disc, which records audio frequencies
up to 20,000 cycles per second (20 kHz), we need 44,100 samples per second
(44.1 kHz). Because the video signal is much more complex, the frequencies are
far higher. To capture the exceptional fine picture detail of DVD, the black-and­white or "luminance" channel records frequencies out to 6,750,000 Hz (6.75

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MHz). This means that DVD samples the video luminance channel at
13,500,000 Hz (13.5 MHz), as part of the DVD-Video format specification.

CD Audio
DVD-Video

Digital recording systems sample the analog input signal at a specific
rate or frequency at least twice the highest frequency of the channel.
For DVD-Video, the sampling frequency is 13,500,000 times per second
(13.5 MHz).

Channel Bandwidth Sampling Frequency

20,000 Hz 44,100 Hz

6,750,000 Hz 13,500,000 Hz

Nyquist sampling only works properly if the analog output is carefully
filtered of the aliasing noise that the digital process incurs. Fortunately, the
aliasing noise is consistently higher in frequency than the highest video
frequencies we want to recover. The noise appears in clusters at each multiple
of the sampling frequency, plus and minus the video bandwidth. Unfortunately,
the noise is very close to the video frequencies. The player must use a very
steep analog filter, which must be carefully constructed to pass all the video
frequencies and block all the aliasing noise. Normally, even slight errors in the
analog filter could cut the highest video frequencies—degrading picture detail—
or allow some aliasing noise to pass through—degrading picture clarity.

While these requirements are difficult for interlace scanning, progressive
scanning sets even more stringent requirements. Because progressive scanning
outputs twice as many horizontal lines per second, progressive playback
effectively doubles channel bandwidth to 13.5 MHz and doubles sampling
frequency to 27 MHz. Players need a minimum of 27 MHz sampling in order to
output a progressive signal.

DVD-Video Interlaced

Luminance Channel (Y)
Bandwidth

Luminance Channel (Y)
Sampling Frequency

6.75 MHz 13.5 MHz

Playback
DVD-Video Progressive

13.5 MHz, effective 27 MHz, effective

Playback

Progressive scanning effectively doubles both the video bandwidth and
the sampling frequency. While only the luminance (Y) channel is shown
here, this doubling also occurs for the two color difference channels (P

).

and P

R

B

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 12

27 MHz Sampling, Progressive Scan

Signal Loss

Analog Filter

Video
Signal

Noise Noise Noise Noise Noise Noise Noise Noise

27 54 81 108 135 162 189 216

Noise included with signal

For progressive scanning, running the D/A converter at the minimum
frequency of 27 MHz makes it extremely challenging to design the
analog low-pass filter. The filter (red curve) must be steep to avoid
cutting into the video signal (blue) or including some of the noise (pink).

Frequency in MHz

The solution to this problem is to run the A/D converter at a higher
frequency than 27 MHz. This process shifts the aliasing noise up in frequency,
opening up substantial room between the video signal and the noise. With more
room, we can relax the design of the analog filter, which can be far milder in
slope, and far more effective at optimizing both the picture detail and the picture
clarity.

108 MHz Sampling, Progressive Scan (DVP-NS999ES)

Full detail of signal retained

Video
Signal

27 54 81 108 135 162 189 216

Noise well separated from signal

Oversampling at the 108 MHz frequency of the DVP-NS999ES makes a
huge difference. Now the noise is far removed from the video signal. A
gently sloping analog filter can effectively control noise while delivering
all the video detail to your television.

Analog Filter

Noise Noise

Frequency in MHz

Oversampling has been used successfully in CD players for decades.
And while the video equivalent is harder to achieve, the effect is the same. The
D/A converter of the DVP-NS999ES shifts the sampling frequency from the
standard 13.5 MHz to 108 MHz. For progressive scan playback, that's 4x
oversampling. For interlaced playback, it's a whopping 8x oversampling.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 13

216 MHz Sampling, Progressive Scan (DVP-NC555ES, CX777ES)

Full detail of signal retained

Video
Signal

27 54 81 108 135 162 189 216

Oversampling at the 216 MHz frequency of the DVP-NC555ES and
DVP-CX777ES is even more dramatic

Analog Filter

Noise

Noise well separated from signal

Frequency in MHz

The DVP-NC555ES and DVP-CX777ES go further still, all the way to an
amazing 216 MHz oversampling. This corresponds to 8x oversampling for
progressive scan, 16x for interlaced playback. It's the most powerful
oversampling that Sony has ever built into a DVD player. You get superb clarity
with the effective suppression of video noise, while enjoying the full video
bandwidth for breathtaking picture detail.

Noise Shaped Video™ circuitry (all models)

While 108 MHz and 216 MHz oversampling deals with noise outside the
video frequency range, another circuit reduces noise within the frequency range.
That's important because the perceived transparency and depth of the video
image depends on controlling noise. Sony's D/A converter uses Noise Shaped
Video circuitry to shift noise from inside the visible frequency range to outside.
Even though the overall noise level remains the same, the perceived noise is
dramatically reduced. What's more, once shifted, the out-of-band noise is further
suppressed by the analog filter. The result is reproduction without flecks or
specks of unwanted color. You'll see a video picture that's vibrant, deep,
transparent and clean.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 14

Noise Shaped Video and the higher 108 MHz and 216 MHz sampling
frequencies work together to cut video noise for improved transparency
and clarity.

Super Sub Alias Filter™ circuitry (all models)

The benefit of the 108 MHz and 216 MHz sampling rates is delivered by
the Super Sub Alias Filter circuits. In comparison to most previous designs,
these filters are now far more effective for two powerful reasons. First, the
sampling rates are higher ever. Second, while some previous designs deployed
Super Sub Alias Filter circuitry on the black-and-white (luminance) channel only,
all ES Series DVD players use these filters on all three video channels:
luminance (Y), blue color difference (P
results in a consistently clean, clear, vibrantly detailed color picture.

) and red color difference (PR). This

B

The typical filter leaves traces of the clusters of aliasing noise, which
look like lumps in the top diagram. Super Sub Sampling Alias Filter
circuits on the Y, P
effectively.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 15

and PR channels control this aliasing noise more

B

"Below Black" reproduction (all models)

The DVD format dictates specific quantization for specific brightness
levels. For example, full black corresponds to a quantization of 16 while full
white corresponds to 235. However, direct-view CRTs, plasma panels, CRT
projectors and LCD projectors each have specific needs. For example, LCD
projectors are subject to "black float" and can benefit from a calibration "below
black." CRT direct view televisions tend to loose dark detail when viewed in
brightly-lit rooms.

Historically, gamma adjustment has matched the grayscale of a video
camera to the general transfer characteristics of CRTs. Sony's Graphical
Gamma Adjustment matches the grayscale performance of ES Series DVD
players to the specific transfer characteristics of your display. Used with a
commercially available calibration disc, the Graphical Gamma Adjustment can
achieve ideal reproduction.

The system enables you to make adjustments to gamma much like a
graphic equalizer adjusts audio frequency response. As with an audio equalizer,
aggressive adjustment can yield unnatural results. The controls are best used to
make gamma curves that are smooth and subtle. Sony's control offers eight
points of correction, each with 8-bit precision. And you can always return the
gamma controls to the industry-standard "flat" state at the touch of a button.

Graphical Gamma adjustment is like an eight-band graphic equalizer for
grayscale and black level.

Video Equalizer (all models)

Sony's Video Equalizer enables you to fine-tune the picture quality of each
disc you watch. You can adjust Picture, Brightness, Color, Hue and Chroma
Delay in addition to Graphical Gamma Adjustment. And once you've optimized
the picture for a particular disc, Sony ES Series DVD players can commit your

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settings to memory. The DVP-NS999ES has memory for 300 discs. As a 400­disc changer, the DVP-CX777ES has memory for all 400 discs. And the DVP­NS555ES has memory for 30 discs.

Separate analog video circuit board with

separate power supply (DVP-NS999ES)

The digital and control circuits of any DVD player generate high-frequency
radiation that can affect other circuits in the chassis. This noise can potentially
impair low level analog signals. To prevent any cross-interference, Sony
carefully separates the digital circuits from the analog circuits, mounting them on
separate circuit boards. This maintains the purity of the analog signal for
consistently clean video images.

To maintain the purity of the signal, Sony places the analog video
circuitry on a separate board, driven by its own power supply.

Because digital noise can corrupt the DC voltage, the power supply is
another potential path of interference. That's why Sony was the first brand of
DVD players to give the analog circuit block its own series power supply. This
ensures power that's both abundant and clean.

Sony also uses video filters designed specifically for both interlaced and
progressive signals in all three channels (Y, PB and PR). All told, there are nine
channels of video filtering: interlaced component Y/P

, progressive

B/PR

component Y/PB/PR and Y/PB/PR channels filtered prior to composite or S-Video
encoding. Sony engineered each filter to match the specific operation bandwidth
and sampling frequencies of the signal. This achieves phase linearity while it
holds noise and distortion to a minimum.

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High speed video buffer amplifiers (DVP-NS999ES)

While Sony can control the video signal inside the DVP-NS999ES, there's
one aspect we can't control: the cables that convey the signal to your television.
In particular, the long cable runs found in many home theater installations can be
highly capacitive. This tends to degrade the video signal, softening the picture
and limiting the video bandwidth. To counter this possibility, Sony incorporates
high-speed video buffer amplifiers. High slew-rate op amps handle large loads
with very low overshoot. You get a powerful driving force for the video signals,
even over long cable runs. As a result, the video signal delivered to the
television has extremely low levels of noise, differential gain and differential
phase.

Block diagram of the DVP-NS999ES video circuit. You can see the
separate digital circuit board (left) and analog circuit board (right). At
center, you can see the nine channels of low-pass filtering. On the right
are the video buffer op amps.

Output Capacitor-Less (OCL) coupling (DVP-NS999ES)

In typical audio and video design, an output capacitor prevents the
accidental passing of DC offset voltage from one piece of equipment to the next.
However, the mere presence of the output capacitor can affect the video
frequency response and literally tinge the television picture with unwanted
shading. And these effects can't be corrected by your television's picture
controls. Sony's answer is a rigorous design that controls DC offset voltages

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 18

from the start. You get reliable operation without performance-robbing output
capacitors.

Carefully selected parts (DVP-NS999ES)

More than a labor of technology, the DVP-NS999ES represents the
enthusiasm that Sony engineers share with high-end videophiles. That's why the
player incorporates a variety of carefully selected resistors, inductors,
semiconductors and capacitors. Each plays a specific role in maximizing video
performance.

 Low Distortion Film Capacitors. While electrolytic capacitors are suited to

power supply filtering, film capacitors are especially proficient for sound and
picture. Many of these low-distortion capacitors contribute to the outstanding
performance of the DVP-NS999ES.

 Oversized output resistors. Output resistors determine the impedance of

the analog output circuits. Most designers avoid large resistors. But Sony
incorporates large resistors of uncommonly tight tolerances. This contributes
to the high slew rates required for wideband video.

 Output Signal Relay. To simplify connections to your television, the DVP-

NS999ES uses a common set of component video terminals for both
progressive and interlaced output. Naturally, this requires output switching.
While conventional designs use semiconductor switches, Sony employs a
high-quality mechanical relay. It's a more expensive design that delivers
more positive connections, lower resistance and lower noise across the
switch. Progressive and interlaced output can be selected via on-screen
menus or via a switch on the rear panel.

Wide pitch output jacks (DVP-NS999ES, NC555ES)

Sony engineers even anticipated the high-grade output cables that
videophiles are likely to use. On the DVP-NS999ES and NC555ES, Sony
deliberately spaced the Y/P
the better to accommodate heavy-gauge cables and plugs!

The spacing or "pitch" between the component video output jacks is
wider than usual, to accommodate heavy-gauge cables and plugs.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 19

output jacks further apart than common practice,

B/PR

Audio Performance

In addition to DVD-Video and Compact Discs, all of these models also
bring home sumptuous high-resolution audio, playing back both stereo and multi­channel Super Audio CDs. You'll hear the inner detail of choral ensembles. The
reverberation trailing from a guitar chord. And the acoustic space surrounding
the instruments. With Super Audio CD, you hear every nuance of sound
reproduced with incredible ease and clarity. (For the full story on Super Audio
CD and its innovative Direct Stream Digital™ encoding process, please see
Appendix B.)

Multi-channel Super Audio CD playback (all models)

Sony ES Series DVD-Video players take full advantage of the latest
generation of multi-channel Super Audio CD music. Multi-channel Super Audio
CD gives producers the ability to capture the precise ambience and reverberation
that give any concert hall, jazz club or recording studio its characteristic "sound."
Multi-channel Super Audio CD doesn't just bring the performer to your room; it
puts you into the performer's space. The result can be overwhelming. By
combining this fully dimensional soundstage with the uncanny clarity of DSD
technology, Sony ES Series DVD players offer music reproduction that's nothing
short of brilliant.

DSD decoder LSI (all models)

The Super Audio CD’s 1-bit signal is processed and decoded by Sony's
CXD2753 DSD decoder LSI. This integrated circuit makes intelligent decisions
regarding the incoming data to form the 1-bit audio signal. The LSI first reads the
Watermark—a feature protecting Super Audio Compact Discs from piracy—and
then decodes the incoming data. The LSI uses internal memory to take data
that's output intermittently from the disc, rearrange it and order it into continuous
1-bit audio streams. This LSI also reads sub code data such as the Table of
Contents, track number, track time, and text data.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 20

Multi-channel DSD decoding is handled by a Sony Large-Scale
Integrated circuit (LSI), the CXD2753R. It's another of many exclusive
Sony LSIs in the ES Series DVD players.

Multi-Channel Management (all models)

Home theater speaker configurations vary considerably. Some
enthusiasts have built upon audiophile-grade stereo systems. These systems
may have large, full range Left and Right speakers that produce bass so deep
that any subwoofer would be extraneous. In this case, the Left and Right
speakers may well be considerably larger than the Center and Surround
speakers. Other systems may have five matching satellite speakers, plus a
subwoofer. Some systems may have no Center channel speaker, while others
have no Surround speakers. The DSD decoder LSI provides multi-channel
management to achieve optimal multi-channel reproduction with all these
speaker configurations.

Speaker Time Alignment (all models)

For optimum playback, the mastering engineers who create CDs need to
anticipate the speaker configuration over which the music will be reproduced. In
stereo, that configuration is simple: two identical speakers ideally set an equal
distance from the listener. In a multi-channel sound, the ideal is slightly more
complex. Multi-channel Super Audio CD is designed to conform to an
international standard, called ITU-R. This envisions that the listener sits in the
exact center of a circle of five identical speakers, with each speaker occupying a
specified position in the circle. (For the Low Frequency Effects or LFE channel,
the subwoofer can be flexibly placed outside the circle.)

The ITU-R circle makes a great reference for studio engineers. But few
home environments can accommodate exactly this setup. Even if you did have
five identical speakers all the way around, the rectangular shape of most rooms

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 21

would make it difficult to place all five speakers at equal distance from the
listening position.

°

°

Mastering for Super Audio CD multi-channel sound assumes that
speakers will be placed according to the international ITU-R standard
(left). Unfortunately, most practical listening rooms don't match this
standard exactly. Speaker Time Alignment applies a delay to selected
speakers to "move" them into proper position (right). In this example,
time delay pushes back the apparent position of the SL and SR
speakers to match the L, C and R speakers.

To resolve the problem, Sony developed a 1-bit Digital Signal Processor
LSI, the CXD9722. This LSI enables you to apply a carefully timed delay to each
individual speaker. Sony provides this delay in 150-microsecond increments.
Because most people can't make the mental leap from microseconds to speaker
distance, Sony calibrates the delay as distance, in 5-cm (2-inch) increments.
Each 150 microseconds of delay "moves" a speaker back 5 cm (2 inches). In
this way, Speaker Time Alignment adjusts the "virtual position" of each speaker,
enabling you to synchronize the arrival time of sound for all five speakers. You
can even change the perceived distance of the subwoofer in relation to the other
speakers. With Speaker Time Alignment, you'll experience multi-channel sound
as it was meant to be heard. You'll get the effect of perfect speaker placement,
even if your actual placement is far less than perfect!

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 22

Sony's powerful CXD9722 handles both Speaker Time Alignment and
A/V alignment.

Incidentally, this adjustment is not duplicated on most A/V receivers.
Some receivers can adjust for speaker distance on the multi-channel signals that
are decoded in the receiver itself. But most receivers offer no such adjustment
for the 5.1-channel analog inputs you'd be using to enjoy multi-channel Super
Audio CD.

A/V Alignment (all models)

Today's advanced televisions and video projectors often incorporate
sophisticated video signal processing to optimize the image quality. Often, these
circuits require buffer memories that result in a slight delay of the video signal.
Unfortunately, this can result in a mismatch, where the television picture lags
behind the sound from the speakers by some fraction of a second. As you can
imagine, the effect can be unnatural and annoying.

That's why Sony built a second major function into the CXD9722 Digital
Signal Processor. This integrated circuit enables you to correct time
misalignments between the audio and video signals by up to 120 milliseconds, in
10 millisecond increments. This brings your television and your home theater
speakers back into alignment. This A/V alignment is performed uniformly on
stereo, 5.1 channel and even digital audio outputs.

Separate speaker settings (all models)

These DVD players also provide speaker size and location settings for
Super Audio CD playback that are separate from the settings you make for DVD­Video and other formats.

How the CXD 9722 works (all models)

As the diagram below shows, the CXD9722 receives input signals from
either the DVD/CD Data input terminal or the Super Audio CD Data input terminal,

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 23

both on the left. One of the input terminals is selected, and the signal enters and
is sent to a 16 Megabit S-DRAM memory. The signal plays out of memory at a
fixed time delay that is determined by the user. Both data writing points and data
reading points are controlled within the IC using read and write pointers in the
control section. All told, there are nine individual blocks in this IC (Front Left,
Front Right, Center, Surround Left, Surround Right, Subwoofer, Stereo Left,
Stereo Right and Digital Out). Because the nine blocks can be controlled
independently, you can create virtual speaker positions ideal for both Super
Audio CD and DVD playback. In addition, since all nine blocks can be controlled
simultaneously, all signals can be given the same delay to achieve A/V alignment
with the television.

Schematic of the CXD9722 signal processing IC.

High performance audio D/A converters

with DSD inputs (all models)

To elicit the full sound quality from Compact Disc, DVD-Video sound
tracks and especially from Super Audio CD, these DVD players incorporate
powerful audio D/A conversion technology. The D/A converters can handle DSD
inputs for Super Audio CD playback as well as high quality DVD-Video signals up
to 192 kHz sampling rate with 24-bit word length. This assures compatibility with
the widest range of source material.

The DVP-NS999ES offers even more, with separate Sony D/A converters
for multi-channel and stereo programming. Both of these D/A converters include
on-board Variable Coefficient digital filters for extremely accurate rendition of the
soundfield on DVD-Video and CD. In addition, on-board DSD filters reduce high­frequency noise in Super Audio CD playback. Finally, both D/A converter ICs
employ multi-level delta-sigma D/A conversion, which assures both excellent
linearity and remarkably low noise.

Balanced outputs on the DVP-NS999ES D/A converters enable balanced
transmission of audio signals to the post Low Pass Filter on the audio circuit

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 24

board. This suppresses noise caused by fluctuations in the power supply and
other externally-induced voltages.

On the DVP-NS999ES, the Sony CXD9675R (left) is a high
performance audio D/A converter for 5.1-channel output. A separate
D/A converter, the Sony CXD9674TN (right) serves two-channel stereo
sources.

Separate analog audio circuit board

(DVP-NS999ES, NC555ES)

The digital audio, digital video, analog video and servo control circuits
inside a DVD player are potential sources of radiated noise. Low-level signals in
the analog audio circuits are particularly susceptible to this noise. That's why the
DVP-NS999ES and NC555ES isolate the analog audio circuits on their own
board. It's one more measure to help maintain the purity of both DVD-Video
sound tracks, and Super Audio CD music.

In addition, the DVP-NS999ES uses six separate, identical audio circuits
to handle the 5.1 channels. This ensures uniform frequency response and gain
characteristics at the output. Sony's careful design not only maintains the sonic
purity of multi-channel Super Audio CD signals, but also preserves the crucial
left/right and front/rear symmetry of 5.1 DVD-Video surround signals.

On the DVP-NC555ES, a separate printed circuit board for analog audio
employs six separate, identical circuits to handle the 5.1 channels of
output.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 25

Audio Shield Plate (DVP-NS999ES)

The DVP-NS999ES prevents even minute interference between the
analog video and analog audio circuit boards. The boards are separated by a
substantial shield plate that includes a copper sheet to block radiation.

This substantial, copper-lined shield plate protects the analog audio
board from even subtle distortions caused by the analog video board.

Wideband digital outputs (DVP-NS999ES)

To deliver a high quality digital signal, the DVP-NS999ES employs a wide­bandwidth optical module. It can achieve transmission speeds over 13 Megabits
per second. This offers plenty of headroom for the 4.6 Megabits per second
required by 96 kHz/24-bit outputs. The coaxial output delivers comparable
quality thanks to a high-performance pulse transformer. Both digital outputs
assure superb dynamics while holding noise and distortion to the bare minimum.

Audiophile-grade components (DVP-NS999ES)

Two capacitors with identical circuit values can have quite different sound
quality. For this reason, Sony engineers have taken the time to choose top­quality audiophile-grade components throughout the DVP-NS999ES. The op
amps, resistors, capacitors and more have been individually selected and
matched for their sound quality. For example, carbon resistors with non­magnetic leads have been chosen for their higher handling capacity. We chose
film capacitors for their superior audio characteristics. We even considered the
power plug. Sony engineers chose a grounded, 3-pin plug for superior
mechanical and electrical characteristics.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 26

Sony's choice of a grounded AC input assures a more stable electrical
and mechanical connection.

Gold-plated output jacks (all models)

To maximize electrical conductivity and minimize the effects of oxidation
over time, the audio, composite video, S-Video and component video output
jacks are plated with gold. Noise at the contact points is held to a bare minimum.

You might not notice that the output jacks are plated with gold. But they
protect the audio and video signal quality from oxidation which can
degrade the output signal over time. And that can make a noticeable
difference.

R-Core power transformer (all models)

The video and control circuits can introduce imperfections to the power
supply voltage, which can trigger audio distortions. To protect the audio circuitry,
these DVD players use a separate power supply, just for audio. In addition,
power supply regulation on the audio circuit board itself helps establish stable
operation for the audio D/A converters.

Transformer cores and windings can vibrate and degrade the sound,
radiating 60 Hz hum into nearby audio circuits. That's why Sony chose an R­Core design. The R stands for round. Not only is the core round, it has a
cylindrical cross section, enabling the transformer windings to be wrapped

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 27

without the voids or gaps that permit vibration. This results in far less radiation,
far less hum.

All ES Series DVD players use an R-Core transformer. The transformer
pictured here powers the audio circuits of the DVP-NS999ES. The
round core with cylindrical cross section enables far more consistent
transformer windings—for far less radiated hum.

Video Off and Display Off modes (all models)

One potential concern with so many types of circuitry in one chassis is
mutual interference. Sony minimizes the possibility of radiated interference with
power-off configurations that shut down potential sources of noise:

 Video Off. Shuts down the video circuitry to eliminate its effect on the audio

circuitry.

 Display Off. Disables the display for a further reduction in noise.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 28

Construction Quality

Anti-resonant chassis design (all models)

Vibration is the enemy of CD, DVD and Super Audio CD players for two
powerful reasons. First, vibration in the disc or optical pickup triggers unwanted
operation in the tracking servos. This can radiate spurious noise throughout the
chassis. And this radiation occurs in exactly the wrong place—near the sensitive
low-level optical pickup preamplifier. To make matters worse, vibration can also
cause subtle distortions in the audio circuitry. Vibration can have tiny
"microphonic" effects on capacitor values and point-to-point wiring. While these
distortions are not always apparent to the casual listener, Sony's design program
required performance without compromise. For all these reasons, every ES
Series DVD player incorporates anti-resonant design.

The DVP-NC555ES uses a high-strength frame, with a broad plate to
separate the chassis into two sections. The disc carousel and drive
occupies the bottom while the electronics occupy the top.

For example, the DVP-NC555ES is built upon a thick, high-strength frame
to reduce unwanted resonance and vibration. Because the top and sides of the
case are particularly prone to vibration, the case of the DVP-CX777ES
incorporates extensive anti-resonant damping material. This helps suppress
vibration for cleaner, more natural sound. The DVP-NS999ES goes further still
with Sony's Frame and Beam (FB) chassis.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 29

A generous application of anti-resonant damping materials to the top
and sides of the DVP-CX777ES case.

Frame and Beam chassis (DVP-NS999ES)

Sony's Frame and Beam (FB) chassis uses a thick, high-strength frame
which gains additional rigidity from two metal beams that cross the top of the
chassis. Extensive internal cross bracing adds even more strength. As a result,
the Frame and Beam chassis suppresses vibration.

The Frame and Beam (FB) construction of the DVP-NS999ES is
supremely strong to suppress resonance.

Off center insulator feet (DVP-NS999ES, NC555ES)

To prevent shelf-borne vibration from entering the chassis, Sony's
insulator feet locate the screw hole off center. By varying the radius from screw

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 30

to perimeter, this tends to vary the resonant frequency within the foot—diffusing
one potential path for vibration. To further deaden vibration, the feet of the DVP­NS999ES use non-rebound rubber on the bottom.

Locating the insulator feet screw holes off center means a constantly
varying radius from the hole to the edge. This diffuses shelf-borne
resonance.

Advanced FX Mechanism (DVP-NS999ES)

Not only the chassis but also the disc drive mechanism itself is designed
to minimize resonance. Sony's Advanced FX Mechanism includes four important
advancements:

 The Fixed Base Unit improves tracking stability and reduces transport

vibration at the source.

 The Hermetic Shutter controls air-borne vibration.

 Sony's BMC mechanical deck helps prevent resonance from affecting disc

playback.

 The Precision Drive™ 2 system helps provide accurate, uninterrupted

playback even with warped, scratched or dirty discs.

Fixed Base Unit Mechanism (DVP-NS999ES)

On a conventional CD or DVD drive, the spindle, drive motor and optical
pickup are mounted on a pivoting base unit. The pivot is necessary because the
base unit needs to drop out of the way when the disc drawer is opening and
closing. And it needs to swing back up into playing position once a disc has
been loaded. Unfortunately, this pivoting mechanism is an open invitation to
vibration and resonance.

Sony engineers demanded more. For the DVP-S9000ES, they developed
the fixed base unit mechanism. Sony's DVP-NS999ES incorporates the second

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 31

generation of this ground-breaking design. In Sony's mechanism, the spindle,
motor and optical pickup base unit are rigidly bolted to a sub-chassis, to reduce
any possibility of resonance. When you load a disc into the DVP-NS999ES, the
disc not only moves laterally into the player, it also descends onto the spindle.
Thanks to Sony's design, the disc is always read in a silent, extremely stable
non-resonant environment. Vibration is minimized, along with the servo activity
that vibration can cause. The sensitive RF preamplifier is protected from servo
radiation.

Conventional DVD players use a pivoting base unit (top), prone to
vibration. The Sony DVP-NS999ES uses a rigidly fixed base unit
(bottom), minimizing vibration and its consequent distortion.

Front view of Sony's Fixed Base Unit mechanism. The loading tray not
only slides into the player, it also descends to the base unit, which is
fixed to a non-resonant base.

Hermetic shutter (DVP-NS999ES)

When it carries the disc down to the fixed base unit, the loading tray no
longer acts like a door to seal the front-panel loading slot. Sony engineers

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 32

addressed this by creating a hermetic shutter. It forms an airtight seal to protect
the disc and pickup from air-borne vibration. Even when the speakers in your
room are going full blast, the disc rotates in peace and quiet.

To seal off the mechanism from air-borne vibration, the inner shutter
descends into position during disc playback.

BMC Mechanical Deck (DVP-NS999ES)

The base unit is mounted on a sub-chassis called the mechanical deck.
On the DVP-NS999ES, this is a rigid, honeycomb structure of Sony's Bulk
Molding Compound (BMC). Long a fixture in Sony anti-resonant design, BMC is
carefully formulated for high strength and high internal loss. Like steel, it has the
rigidity required for its structural purpose. But unlike steel, BMC steadfastly
resists vibration and resonance. BMC consists of calcium carbonate (a principal
component of marble), glass fiber reinforcement and unsaturated polyester. The
material is subjected to thermosetting and is formed into the mechanical deck
floor, walls and ceiling. Even the disc loading tray is made of non-resonant BMC.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 33

Sony's Bulk Molding Compound (BMC) is remarkably anti-resonant.
And the honeycomb structure of Sony's mechanical deck floor is
extensively cross-braced, reducing resonance further still!

Precision Drive™ 2 system (all models)

The disc condition can have a major effect on proper readout. Ideally, the
disc should be flat, centered and free of dust, dirt and scratches. In the real
world, no disc is perfect. Slight imperfection in the location of the center hole
requires the player to follow a wobble in the track once per rotation. Tilt in the
disc surface requires similar, constant adjustment. There are also unavoidable
micron-level imperfections, including everyday scratches too small to be seen by
the naked eye. Compared to CD, DVD-Video and Super Audio CD use a smaller
pit size and shorter laser wavelength that place even greater urgency on
accurate tracking. Sony meets these challenges with the Precision Drive 2
system. Sony's system incorporates several advances.

 Dynamic Tilt Compensation enables the lens to tilt with each undulation of

the disc. It operates by applying highly responsive servo tilt to the pickup.
This results in excellent stability for superior readout of warped or eccentric
discs.

 Focus Bias Adjustment delivers accurate readout from scratched or dirty

discs.

 Sony's High-speed Stepping Motor provides fast, silent access to DVD

chapters and CD tracks.

 Responsive Servo DSP shortens the wait from the time you insert a disc

until playback begins.

In the real world, no optical disc is perfectly flat and centered. But with
Sony's Precision Drive 2 system, it certainly seems that way.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 34

Sony's Precision Drive 2 mechanism, including the optical block (upper
left) and disc spindle (lower right).

Responsive and accurate servo DSP (all models)

The Precision Drive 2 system of the DVP-NS999ES operates under the
control of a fast servo DSP, the Sony CXD9703. It operates at 50 million
instructions per second (50 MIPS), an astonishing speed for an ancillary
processor. You get instantaneous response to changes in operating conditions,
faster and smoother high-speed search and shortened time between disc
insertion and playback.

Sony's servo DSP has an astonishingly fast operation speed of 50
million instructions per second (MIPS).

Delta Sigma 1-bit D/A in the Servo DSP (all models)

Just as Delta Sigma modulation stands behind the high sampling rates of
the Super Audio CD format, Sony has applied Delta Sigma modulation to the
servo DSP. The Sony CDX9703 incorporates a 1-bit Delta Sigma Modulation
A/D converter to translate the analog input voltages into binary code. In order to
drive the focus and tracking actuators, the output of the servo DSP is converted

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 35

back to analog using delta sigma modulation at 25 MHz. The D/A converter
exhibits superb linearity, equivalent to 10-bit precision. So you get remarkably
accurate tracking on DVD, Super Audio CD and CD alike.

The Sony CXD9703 Servo DSP incorporates an on-board Delta Sigma
A/D and D/A converters for exceptional tracking accuracy.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 36

Convenience

Disc Explorer® system (DVP-CX777ES)

With 400 discs of entertainment at your beck and call, the DVP-CX777ES
promises that you'll never need to rummage through your shelves or fumble with
jewel boxes, searching for the movies and music you want. But delivering on this
promise required a fast, easy, electronic way to identify and access your discs.
That's exactly what the Disc Explorer system provides. Using your television
screen as a Graphic User Interface, the Disc Explorer system delivers easy, on­screen access to your discs alphabetically by title, by disc type, by genre and by
"folders" that you can organize and name. The player loads information
regarding your 400 discs into memory, so it's always available for instant access
and display.

 Sort by disc type. The player automatically recognizes disc type such as

DVD and CD. So you can scan discs by type.

 Sort by slot number. The DVP-CX777ES holds each disc in a sequentially

numbered slot. The changer makes it easy to sort and access discs by slot
number.

 Sort by title using CD, SA-CD, DVD Text and Disc Memo® function.

Many discs have text, including disc title, encoded on the signal layer. This
information is automatically memorized and displayed by the DVP-CX777ES.
In cases where discs do not already have titles, you can create titles using the
Disc Memo function. You can also use Disc Memo operation to store artist
name, date of purchase or other information about a disc. You can then
search discs alphabetically by title.

 Keyboard Input. Sony gives you two ways to enter text information for each

disc. Use the remote control keys to input any character or plug an industry­standard PC keyboard into the front panel connector and type!

 Jacket Pictures recorded onto DVDs appear automatically. If there is no

jacket picture, you can create one by freezing any scene on the DVD.

 Sort by folders. Sony enables you to organize the 400 discs into four sub-

groups. While the folders are initially labeled "A" through "D," you can assign
them personalized names, like DAD, KID or JAZ. Even when assigned to
these custom folders, discs still appear in the standard folders for "All, "DVD,"
and "CD."

 Sort by genre. You can also sort movies and music by types. So you can

immediately scroll through an on-screen list of all your Sci-Fi DVDs, for
example, or all your Country Music discs. All told, Sony provides ten movie
genres and six music genres, for easy sorting.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 37

DVD-R/RW DVD+R/RW playback (all models)

In the beginning, the only source of DVD entertainment was packaged
media. But that's rapidly changing with DVD burners like those in many Sony
VAIO® PCS, home DVD recorders like Sony's RDR-GX7 and DVD camcorders
like Sony's DCR-DVD100, DVD200 and DVD300. For this reason, the DVD
players of Sony ES are designed to take advantage of a broad range of disc­based entertainment that includes not only DVD-Video, but also DVD-R and
DVD-RW discs recorded in the DVD-Video and VR formats; DVD+R and
DVD+RW; CD, CD-R CD-RW, CD MP3 and Video CD; as well as Super Audio
CD stereo and multi-channel media.

RS-232C terminal for

custom installation (DVP-CX777ES)

With its superb quality and its capacity for any mix of 400 CDs, SA-CDs
and DVDs, the DVP-CX777ES is an irresistible candidate for custom installation.
Sony makes it even more attractive with a flexible RS-232C interface. This
enables custom installers to integrate the DVP-CX777ES with a wide range of
third-party control systems.

Massive aluminum front panel (all models)

All DVD players in the Sony ES Series have simple, powerful styling with a
massive, uncluttered aluminum front panel. On the DVP-NS999ES, the
fluorescent display window is made of high-hardness acrylic resin, especially
formulated to resist scratches.

The DVP-CX777ES features an elegant, uncluttered aluminum front
panel.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 38

Silver Cascade Design (DVP-NC555ES)

In addition to its remarkable technology, the DVP-NC555ES inaugurates a
new faceplate design exclusive to the Sony ES Series. The "cascade" design
sets the primary front panel controls at an angle, so that you can operate the
front panel without uncomfortable bending and stooping to identify each control.
The silver colored faceplate is made of brushed aluminum and fits in beautifully
with conventional audio/video components. But the design really comes into its
own when the DVP-NC555ES is combined with other silver cascade components,
such as the STR-DA9000ES, DA5000ES and DA3000ES receivers.

Silver cascade front panel of the STR-DA9000ES.

Here is a summary of the cosmetics in the 2003 ES Series.

SILVER CASCADE FRONT PANELS

• STR-DA9000ES A/V receiver

• STR-DA5000ES A/V receiver

• STR-DA3000ES A/V receiver

• SCD-XA9000ES SA-CD player

• DVP-NC555ES DVD changer

MATCHING SILVER FRONT PANELS

• STR-DA2000ES A/V receiver

• STR-DA1000ES A/V receiver

• DVP-NS999ES DVD player (Silver or Black)

• DVP-CX777ES DVD changer

• RCD-W2000ES CD recorder

• AVD-C700ES DVD receiver

• AVD-S500ES DVD receiver

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 39

Environmentally friendly (DVP-NS999ES)

To conserve energy, power consumption of the DVP-NS999ES is just 0.3
watts in the Standby mode, while operation automatically shuts down 30 minutes
after Stop. In addition, the printed circuit boards are produced without the use of
halogen. To conserve natural resources, the carton cushions use 100% recycled
polystyrene foam. And over half of the plastic parts used for the front panel
assembly are made of vegetable-based plastic material.

LCD remote control with EasyScroll key (DVP-NS999ES)

The DVP-NS999ES offers a huge number of DVD, CD and Super Audio
CD playback options. It's crucial to present those options in a format that's easy
to understand and easy to use. That's why Sony supplements on-screen menus
with a highly refined remote control, the RM-D150A.

 Liquid crystal display puts menu options in the palm of your hand.

Backlighting makes the display visible and legible, day or night.

 EasyScroll key lets you browse and select menu items using just your thumb.

Simply rock the key to scroll up or down, then press the key to make your
choice.

• Graphic user interface. Sony also organizes all the playback options for

maximum clarity and presents them on your television screen.

• A/V system operation also controls selected brands of infrared remote

televisions and A/V receivers.1

• Sleek, low-profile design fits comfortably in the hand.

For comprehensive control made easy, the LCD remote control puts
menu options in the palm of your hand.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 40

Additional features

 Responsive front-panel controls. Front-panel buttons respond to the

lightest finger contact.

 LED/fluorescent display dimmer. To reduce the possibility of audio noise

and to minimize visual distraction during movie playback, the front panel
fluorescent display and LEDs can be dimmed.

 Sound feedback. Beeps can confirm your selections for both front-panel and

remote control commands. If you prefer, the tones can be deactivated for
completely silent operation.

 Picture Memory. Similar to the customizable wallpaper on a PC, the players

can display different scenes in the Stop mode. These can include favorite
video scenes stored in memory, along with jacket pictures from CD Extra
discs.

 Bit Rate Display. Users can track the variable bit rate of MPEG-2

compression with on-screen displays of video and audio bit rates.

 Layer and Pickup Display. Sony ES players can show an on-screen

graphic representation of your current position on the disc, along with your
current layer for dual-layer discs.

 Parental Controls. You can password protect the viewing of DVDs,

restricting playback to PG versions (on compatible discs) or preventing
playback altogether.

 DVD, SA-CD and CD TEXT display. Sony players provide scrolling front

panel display for the text functions of compatible discs.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 41

At a Glance

System DVP-NS999ES DVP-CX777ES DVP-NC555ES

Number of Discs Single disc player 400-disc changer 5-disc changer
DVD-Video, DVD-R/RW (Video Format),
DVD-RW (VR Format), DVD+R/RW
CD Audio, CD-R/RW, CD MP3, Video CD Yes Yes Yes
Super Audio CD (stereo and multi-channel) Yes Yes Yes
DVD, CD and Super Audio CD Text display Yes Yes Yes
Precision Drive™ 2 Optical System Yes Yes Yes
Twin Laser Pick up Yes Yes Yes
Dynamic Tilt Compensation Yes Yes Yes
50 million instructions per second (MIPS)
servo DSP
Delta Sigma 1-bit D/A in servo DSP Yes Yes Yes

Video DVP-NS999ES DVP-CX777ES DVP-NC555ES

Precision Cinema Progressive™ output Yes Yes Yes
Pixel-by-Pixel Active I/P conversion Yes Yes Yes
Vertical Edge Compensation Yes Yes Yes
Video D/A converter word length 14-bit 12-bit 12-bit
Video D/A converter frequency 108 MHz 216 MHz 216 MHz
Noise Shaped Video circuitry Yes Yes Yes
Super Sub Alias Filter circuitry Yes Yes Yes
Video equalizer with Graphical Gamma
Adjustment
Separate analog video circuit board with
separate power supply
High Speed video buffer amplifiers Yes - ­Output Capacitor-Less coupling Yes - ­Carefully selected parts Yes - ­Wide pitch component output jacks Yes - Yes

Audio DVP-NS999ES DVP-CX777ES DVP-NC555ES

Super Audio CD stereo and multi-channel
playback
Built-in Dolby Digital® and DTS® 5.1­channel decoding
96 kHz, 24-bit audio D/A converter Yes Yes Yes
Bass redirection for Super Audio CD, Dolby
Digital® and DTS® multi-channel output
Speaker Time Alignment with separate
settings for DVD and Super Audio CD
A/V alignment Yes Yes Yes
Dolby Digital® and DTS® pass-through Yes Yes Yes
R-Core transformer Yes Yes Yes
Separate circuit board for analog audio with
separate power supply
Audio shield plate protects analog audio
circuit board
High-speed digital outputs Yes - ­Audiophile-grade components Yes - ­Gold-plated output jacks Yes Yes Yes
Video Off and Display Off modes for lower
noise

Yes Yes Yes

Yes Yes Yes

Yes Yes Yes

Yes - -

Yes Yes Yes

Yes Yes Yes

Yes Yes Yes

Yes Yes Yes

Yes - Yes

Yes - -

Yes Yes Yes

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 42

Construction DVP-NS999ES DVP-CX777ES DVP-NC555ES

Aluminum front panel Yes Yes Yes
Anti-resonant construction Yes Yes Yes
Frame and Beam (FB) construction Yes - ­Off center insulator feet Yes - Yes
Advanced FX Mechanism Yes - ­Fixed Base Unit Yes - ­Hermetic shutter Yes - ­BMC mechanical deck Yes - -

Convenience DVP-NS999ES DVP-CX777ES DVP-NC555ES

Disc Explorer system - Yes ­LCD remote control with EasyScroll key Yes - ­Multi-brand remote control for televisions
and A/V receivers

1

Yes Yes Yes

Jog/shuttle dial Yes Yes ­Playback Memory 300 discs 400 discs 40 discs
Custom Parental Control 300 discs 400 discs 40 discs
SmoothScan™ and SmoothSlow special

Yes Yes Yes

effects modes

Originally introduced in black, the DVP-NS999ES is now also available
in silver.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 43

Appendix A:

Progressive, interlace and DVD.

In video, what appears to be a continuously moving image is actually a
series of discrete still pictures, called frames. On the typical direct-view
television, each frame is created on the picture tube by an electron beam that
moves from the left edge of the screen to the right, illuminating one scanning
line at a time. The American EIA television system uses 525 total scanning lines
per frame. However, about 45 lines are consumed by the vertical blanking
interval and are not displayed on the screen. As a result, the EIA television
system is often called 480-line scanning.

Due to bandwidth limitations from the early years of television, the EIA
system was designed to capture 30 frames per second. The natural way to
display these images would be to show the scanning lines in sequence, an
approach called progressive scanning. 480-line progressive scanning at 30
frames per second is abbreviated 480/30P or 480P (when discussing the line
rate) or 30P (when discussing the picture rate).

Progressive scanning creates the picture by illuminating each line from
top to bottom until all scanning lines in the frame are completed.
Progressive images are clearer, and sharper. The horizontal scanning
lines are far less conspicuous.

Unfortunately, 480/30P creates flicker: the image visibly darkens between
frames. In addition, capturing images at 480/30P yields unsatisfactory results in
fast-paced action like live sports. For these reasons, the early television
engineers developed a solution called interlace scanning. Instead of capturing
and displaying all 480 lines in their numerical sequence, the EIA system divides
the image into two fields. The "A" field contains the odd-numbered scanning
lines (1, 3, 5, etc.) and lasts 1/60 second. The "B" field contains the even
numbered lines and lasts 1/60 second. This system can be abbreviated 480/60i

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 44

or 480i (when discussing the line rate) or 60i (when discussing the picture rate).
The 480i solution is a compromise that doubles the picture rate but halves the
vertical resolution at any given instant. While it is a compromise, the 480i system
is highly effective, an elegant engineering solution that has helped make
television an essential part of entertainment.

Interlace scanning divides the frame into two "fields." The first field
presents the odd-numbered scanning lines (1, 3, 5, etc.). The second
field presents the even-numbered lines. Compared to progressive
scanning, picture quality is reduced and the horizontal scanning lines
are far more prominent on the screen.

In the early days of television, when 12-inch diagonal screens were
commonly used in living rooms, halving the vertical resolution was not a practical
concern. But in today's environment of 61-inch diagonal projection systems, the
illusion of a continuous picture on the screen begins to fall apart. Depending on
how close you sit to the screen, individual scanning lines become visible and the
compromise in vertical resolution becomes an annoyance. That's why many of
today's finest big screen televisions have the ability to input and display 480P at
60 frames per second—480/60P. When carefully executed, 480/60P can
achieve fluid, lifelike fast motion, along with breathtaking image detail. The
480/60P system is also superb for resolving fine print on the screen—one reason
why 480/60P is the basis of the popular VGA computer display standard.

Film and video origination

Movie film is conventionally shot and displayed at 24 frames per second.
In the camera, the entire frame of film is exposed at one time. In the theater, the
entire frame is projected at one time. Unfortunately, projecting at the native film
rate of 24 frames per second creates flicker. That's why movie projectors use a
special shutter to display each frame twice, creating the effect of 48 frames per
second.

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Theatrical release movies aren't the only programs that are originally
captured at 24 frames per second on motion picture film. For example, music
videos, TV commercials and primetime dramas are often shot on film or film-like
24-frame progressive video. In fact, industry observers estimate that more than
50% of primetime television has been shot on film or 24P video.

Film-to-video transfer and 3-2 pulldown

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 24 frames per second 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.

332

OE OEOE OE

Thanks to 3-2 pulldown, movie film at 24 frames per second gets
transformed to videotape at 60 interlaced fields per second. Movie
frame A is converted to three fields. Movie frame B is converted to two
fields. Movie frame C is converted to three fields and so on, in a 3-2-3­2-3-2 pattern.

Film and video on DVD

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 distinguish between footage originally shot on conventional,
interlaced video and footage originally shot on film or 24P video. As you would

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 46

expect, DVD stores video footage in its native 60i form. But you might be
surprised to learn that most DVDs shot on film or 24P video store the images at
the native rate of 24 frames per second!

Like material shot on conventional, interlaced 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) that 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 480/24P. 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 20% more bits, for even better picture quality.

The DVD stores film-originated material at 24P—the same rate as the
original film. First Field Repeat Flags (FFRFs) mark the 3-2 cadence.
The DVD player then performs its own 3-2 pulldown to output images at
60i.

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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 3­2 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."

Interlace-to-progressive (I/P) conversion

The playback of 480/24P film-originated material has a special property.
In material originally shot on 480/60i video, each "B" field represents 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, 480/24P film-originated DVD is inherently progressive and is
beautifully suited to progressive scan display. Ironically, most of today's MPEG
decoder chips automatically convert the 480/24P progressive DVD into 480/60i
interlaced video. Additional processing is required to convert the 480/60i
interlaced signal into a 480/60P progressive signal for output to a compatible
television. The required process is called interlace-to-progressive (I/P)
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 480P inputs.

Frame memory versus full 3-2 reverse conversion

Unfortunately, not every DVD player with 480P outputs fully delivers on
the promise. One potential way to cut corners in 480P 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 video frames. You
can see a zipper-like artifact on the left and right side of moving objects.

The cause of these artifacts becomes clear when we review the I/P
conversion process. In simple frame memory conversion, the player combines
consecutive pairs of fields—no matter what cinema frame they came from. If the
two fields came from the same cinema frame, all is well and a beautiful 480P
picture results. But if the two fields came from different cinema frames—an
event that regularly occurs two times out of five—then images that were captured
1/24 second apart will be artificially combined on the television screen. The
result will be a blur of any moving objects in the video picture. These problems
are so severe that they undermine the whole reason for getting a progressive
scan DVD player in the first place.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 48

At the top are the original film frames, showing a car moving down the
street. Next comes the original 3-2 pulldown. Simple frame memory I/P
conversion results in a motion blur every time fields from different film
frames are combined. (This occurs for two out of every five video
frames—or 40% of the time!) At bottom, full 3-2 reverse conversion, as
featured in Sony's progressive scan DVD players, preserves the
integrity of the original film frames.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 49

Appendix B:

The Super Audio CD Format

Because there's so much more to hear.™

Super Audio CD is the most fundamental improvement in digital music
reproduction since the CD itself. No surprise. It comes from the people who
invented the CD: Sony and Philips.

Direct Stream Digital™ encoding

Other digital systems—including the very latest designs—use Pulse Code
Modulation (PCM). Unfortunately, PCM record/playback systems require
decimation and interpolation filters that can cause problems, including
requantization noise, passband ripple and ringing. These degradations can
smear musical overtones, muddy the soundstage and compromise overall
transparency. Simply increasing the PCM word length to 24 bits or increasing
the PCM sampling rate to 96 kHz does nothing to overcome these fundamental
problems.

Compared to CD, Super Audio CD is far simpler. Super Audio CD
eliminates decimation and interpolation filters.

Direct Stream Digital processing eliminates these problems by eliminating
the filters. It enables a 1-bit signal to be recorded directly. Sony's 1-bit system
encodes music at an astonishing 2,822,400 samples per second.

Thanks to DSD encoding, the Super Audio CD format offers frequency
response to 100 kHz and a theoretical dynamic range of more than 120 dB. But
specifications alone cannot express the DSD advantage. DSD one-bit encoding
strips away entire classes of distortion that have always characterized PCM. The
DSD system provides nothing less than a quantum leap in music resolution.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 50

eft

The DSD pulse train "looks" remarkably like the analog waveform it
represents. More pulses point up as the wave goes positive and down
as the wave goes negative.

Multi-channel Super Audio CD

Producers also have the option of creating multi-channel Super Audio CDs
that can transport you to the acoustic space of the original recording. You'll hear
the most convincing soundstage ever presented at home. Super Audio CD multi­channel sound is based on the international standard ITU-R speaker setup. So
it's directly compatible with many of today's home theater speaker systems.

For full compatibility with pure stereo Super Audio CD players, every multi­channel Super Audio CD includes a complete stereo rendition from the hand of
the producer. You're never at the mercy of a computerized "fold-down" of the
multi-channel mix. You'll always hear the producer's original intent.

Center

Left surround

Super Audio CD multi-channel sound is based on the international ITU­R standard.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 51

LF

L

30°

110°

Reference

Right

Right surround

Every multi-channel Super Audio CD includes a separate 2-channel
stereo mix, done by the hand of the producer—not by a computer.

Backward compatibility

Every Super Audio CD player will play back the 13 billion audio Compact
Discs worldwide. So the Super Audio CD format keeps the faith with CD, the
most popular digital format of all time. The Super Audio CD format also includes
a hybrid disc option that will play back beautifully in more than 700 million CD
players, worldwide.

Disc diameter 12 cm 12 cm
Disc thickness 1.2 mm 1.2 mm
Playback side Single Single
Coding System 16-bit linear PCM encoding 1-bit DSD encoding
Sampling Frequency 44,100 Hz 2,822,400 Hz
Disc data capacity 680 MB 4.7 GB
Disc minimum pit length 0.83 micrometers 0.40 micrometers
Disc track pitch 1.60 micrometers 0.74 micrometers
Laser wavelength 780 nm 650 nm
Lens numerical aperture (NA) 0.45 0.60
Playback frequency range
(theoretical)
Dynamic range (theoretical) 96 dB (audible range) More than 120 dB (audible

Maximum playback time Approx. 74 min. (stereo) Approx. 110 min. (stereo)

Additional functions Text, graphics Text, graphics, video

CD Super Audio CD (single

layer)

DC—20,000 Hz DC—>100,000 Hz

range)

Approx. 74 min. (multi­channel and stereo)

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 52

Sony Electronics Inc.
1 Sony Drive, Park Ridge NJ 07656
http://www.sony.com

© 2003 Sony Electronics Inc. All rights reserved. Reproduction in whole or in part without written
permission is prohibited. Features and specifications are subject to change without notice. Sony,
Because there's so much more to hear, Direct Stream Digital, Disc Explorer, Disc Memo, Hi-Scan
1080i, Precision Cinema Progressive, Precision Drive and SmoothScan are trademarks of Sony.
Dolby Digital is a registered trademark of Dolby Laboratories Licensing Corp. DTS is a registered
trademark of Digital Theater Systems, L.P. Super Sub Alias Filter (SSAF) and Noise Shaped
Video (NSV) are trademarks of Analog Devices Inc. Macrovision is a trademark of Macrovision
Corporation.

1. Multi-brand remote may not be compatible with some brands or models.

ES Series DVD-Video/CD/SA-CD Players; Version 3.0 Page 53