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Blue Ray Disc |
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SONY'S
DISK drive division is
working hard to introduce
Blue-Ray.
It merged with NEC in April and
will try to take as much market
as possible. But despite the
fact that some Blu-Ray consumer
recorders are out and about,
there won't be any computer
drives on the shelves before
August.
While Sony can't say much about
the pricing of such drives, it
can say one thing: they will be
expensive. Its Blu-ray drives
will be able to read and write
DVDs, CDs as well as Blu-Ray
disks.
In fact the disks are already
available and they should cost
between Rs 500 and Rs 750 for a
single-layer 25GB disk and much
more for 50GB dual-layer
platter.
Sony brands its upcoming drive
the BRU 100 A and it comes in
rather interesting black and
white design. Here's a picture
of a picture of it. |
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What is
a Blu-ray Disc?
A current, single-sided,
standard DVD can hold 4.7 GB
(gigabytes ) of information.
That's about the size of an
average two-hour,
standard-definition movie with a
few extra features. But a
high-definition movie, which
has a much clearer image (see
How Digital Television Works ),
takes up about five times
more bandwidth and therefore
requires a disc with about five
times more storage. As TV sets
and movie studios make the move
to high definition, consumers
are going to need playback
systems with a lot more
storage capacity. |
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Blu-ray is
the next-generation digital
video disc. It can record, store
and play back high-definition
video and digital audio, as well
as computer data. The advantage
to Blu-ray is the sheer amount
of information it can hold:
A single-layer Blu-ray disc,
which is roughly the same size
as a DVD, can hold up to 27
GB of data -- that's more
than two hours of
high-definition video or
about 13 hours of standard
video.
A double-layer Blu-ray disc
can store up to 50 GB,
enough to hold about 4.5
hours of high-definition video
or more than 20 hours of
standard video. And there
are even plans in the works to
develop a disc with twice that
amount of storage.
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Blu-ray
discs not only have more storage
capacity than traditional DVDs,
but they also offer a new level
of interactivity . Users
will be able to connect to
the Internet and instantly
download subtitles and other
interactive movie features.
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Blu-ray Advantages
- record
high-definition
television ( HDTV)
without any quality loss
- instantly skip to
any spot on the disc
- record one
program while watching
another on the disc
- create playlists
- edit or reorder
programs recorded on the
disc
- automatically
search for an empty
space on the disc to
avoid recording over a
program
- access the Web to
download subtitles and
other extra features
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Discs store digitally encoded
video and audio information in
pits -- spiral grooves that run
from the center of the disc to
its edges. A laser reads the
other side of these pits -- the
bumps -- to play the movie or
program that is stored on the
DVD. The more data that is
contained on a disc, the smaller
and more closely packed the pits
must be. The smaller the pits
(and therefore the bumps), the
more precise the reading laser
must be.
Unlike current DVDs, which use a
red laser to read and write
data, Blu-ray uses a blue laser
(which is where the format gets
its name). A blue laser has a
shorter wavelength (405
nanometers) than a red laser
(650 nanometers). The smaller
beam focuses more precisely,
enabling it to read information
recorded in pits that are only
0.15 microns (�m) (1 micronfiltered= 10-6 meters)
long -- this is more than twice
as small as the pits on a DVD.
Plus, Blu-ray has reduced the
track pitch from 0.74 microns to
0.32 microns. The smaller pits,
smaller beam and shorter track
pitch together enable a
single-layer Blu-ray disc to
hold more than 25 GB of
information -- about five times
the amount of information that
can be stored on a DVD.
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Each Blu-ray
disc is about the same thickness
(1.2 millimeters) as a
DVD. But the two types of discs
store data differently. In a
DVD, the data is sandwiched
between two polycarbonate
layers, each 0.6-mm thick.
Having a polycarbonate layer on
top of the data can cause a
problem called birefringence,
in which the substrate layer
refracts the laser light into
two separate beams. If the beam
is split too widely, the disc
cannot be read. Also, if the DVD
surface is not exactly flat, and
is therefore not exactly
perpendicular to the beam, it
can lead to a problem known as
disc tilt, in which the
laser beam is distorted. All of
these issues lead to a very
involved manufacturing process.
The Blu-ray disc overcomes
DVD-reading issues by placing
the data on top of a
1.1-mm-thick polycarbonate layer
. Having the data on top
prevents birefringence and
therefore prevents readability
problems. And, with the
recording layer sitting
closer to the objective lens
of the reading mechanism, the
problem of disc tilt is
virtually eliminated. Because
the data is closer to the
surface, a hard coating is
placed on the outside of the
disc to protect it from
scratches and fingerprints.
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The design
of the Blu-ray discs saves on
manufacturing costs. Traditional
DVDs are built by injection
molding the two 0.6-mm discs
between which the recording
layer is sandwiched. The process
must be done very carefully to
prevent birefringence.
1. The two discs are molded.
2. The recording layer is added
to one of the discs.
3. The two discs are glued
together.
Blu-ray discs only do the
injection-molding process on a
single 1.1-mm disc, which
reduces cost. That savings
balances out the cost of adding
the protective layer, so the end
price is no more than the
price of a regular DVD.
Blu-ray has a higher data
transfer rate -- 36 Mbps
(megabits per second) -- than
today's DVDs, which transfer at
10 Mbps. A Blu-ray disc can
record 25 GB of material in just
over an hour and a half
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Formats
Unlike DVDs and CDs, which
started with read-only
formats and only later
added recordable and
re-writable formats, Blu-ray
is initially designed in
several different formats:
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·BD-ROM
(read-only) - for
pre-recorded content
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·BD-R
(recordable) - for PC
data storage
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·BD-RW
(rewritable) - for PC
data storage
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·BD-RE
(rewritable) - for HDTV
recording
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In the
meantime, JVC has developed a
Blu-ray/DVD combo disc with an
approximate 33.5-GB capacity,
allowing for the release of
video in both formats on a
single disc. But Blu-ray is not
alone in the marketplace. A few
other formats are competing for
a share of the DVD market.
HD-DVD
The other big player is HD-DVD,
also called AOD (Advanced
Optical Disc), which was
developed by electronics giants
Toshiba and NEC. HD-DVD was
actually in the works before
regular DVD, but it didn't begin
real development until 2003.
The advantage to HD-DVD is that
it uses the same basic format as
the traditional DVD and can
therefore be manufactured
with the same equipment ,
saving on costs. The
disadvantage is that it can't
match the storage capacity of
Blu-ray. A rewritable,
single-layer HD-DVD can hold 15
GB of data; a double-layer disc
can hold 30 GB (that's compared
to 27 GB and 50 GB for Blu-ray).
The read-only versions hold
slightly less data. Also, HD-DVD
doesn't offer the interactive
capabilities of Blu-ray,
although it will probably be
less expensive than its
competitor |
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