Blu-ray
has finally won the high definition format war, but that is just the beginning.
There is a lot of confusion out there among the general public about the
difference between DVD and Blu-ray discs. Although Blu-ray discs look exactly the
same as DVDs in size and shape there are many differences between the media,
including storage capacity, laser technology, disc construction, image
resolution and player compatibility.
Storage
Capacity
Storage
capacity is measured in gigabytes (GB), like computers and iPods. The more GB
the disc has more information it can hold.
·
DVD- Single layer DVDs
can store about 4.7 GB of data, which is about two hours worth of movie. These
are commonly referred to as DVD-5s. Double layer DVDs, or DVD-9s, can store
twice the amount of data at 8.7 GB. This equals about four hours of movie, or one
“Lord of the Rings” movie.
- Blu-ray- Single layer Blu-ray
discs store approximately 25 GB of data, this equals about two hours of
high definition information or 13 hours of standard definition
information. Double layer Blu-ray discs can hold about 50 GB equaling
about four and a half hours of high definition information or 26 hours in
standard definition. Potentially you could put all three “Lord of the
Rings” movies on one double layer Blu-ray disc.
Laser Technology
Lasers are used in both media to read the information stored on the disc. As
the disc spins the laser reads the information and transfers both picture and
sound to the television.
- DVD- DVD players use a red
laser at 650nm wave length to read DVD discs. As the disc spins the laser
reads the information encoded on the media and produces an image and sound
on your television.
- Blu-ray- Like the name suggests
Blu-ray players use a blue laser to read the stored information. Blue
laser wavelengths are shorter than the red at 405nm and are about two and
a half times smaller in diameter than red lasers. This allows for closer
and more precise reading of information stored on the disc.
Disc Construction
Physically, Blu-ray and DVD discs are identical. Both media have grooves or
pits on their bottom layer than enables the laser to penetrate through and read
the stored information.
- DVD- Since DVDs are read with a
red laser the grooves on its underside need to be wide enough to
accommodate the larger wavelength. Because the grooves are so far apart
only 4.7 GB of information can be stored on each layer of the disc. DVDs
also include a protective layer designed to resist scratching.
- Blu-ray- The grooves on a
Blu-ray disc are much thinner and closer together because the blue laser
used to read the disc has a shorter wave length and is two and a half
times thinner than the red laser. This allows the Blu-ray disc to squeeze
almost five times as many grooves on to a disc exactly the same size as a
DVD. Blu-ray also includes a protective layer to prevent scratches. This
protective layer is physically thinner than the one on a DVD, but it has a
hard coating that makes it more scratch resistant.
Image Resolution
Image resolution is measured by the number of vertical lines times the number
of horizontal lines of light in a picture. It is represented by the number of
horizontal lines going across the screen like 480, 720 or 1080. The higher the
number the higher the resolution and more detailed the picture.
- DVD- Almost all DVDs have a
standard definition resolution of 480 or enhanced definition resolution of
520. These resolutions look great on a standard “tube” TV utilizing all
available pixels on the screen. However, if blown up to accommodate a
widescreen HDTV the picture may look grainy. Although a DVD can store high
definition data it would only fit about 30 minutes maximum.
- Blu-ray- Blu-ray was designed
for high definition 1080 display. Since they can store 25 GB of data you
can fit an entire HD movie on a single layer disc. Blu-ray currently has
the best image resolution on the market and looks great on HDTVs. Blu-ray
discs are one of the few signal sources that displays in 1080, not even HD
cable or satellite companies can claim that yet.
Player Compatibility
Some of us are still recovering from the VHS to DVD format switch of almost 10
years ago, slowly upgrading our VHS collections to DVD. Now, there is a new,
better format on the horizon and many are still skeptical. However, you’ll be
happy to hear that all Blu-ray players support DVDs.
- DVD Players- Blu-ray discs
cannot and will not play in a standard DVD player, because the red laser
used in DVD players is too large to read the tiny grooves in a Blu-ray
disc.
- Blu-ray Players- All Blu-ray
players currently on the market (including the Playstation 3) are
backwards compatible and will still play standard DVDs. However, the DVD
image displayed, while still decent, will not be high definition quality
like a Blu-ray disc.
Fear
not technophobes, the transition from DVD to Blu-ray will be relatively
painless once the price of Blu-ray players starts to come down. With the
exception of storage capacity perhaps the best thing Blu-ray has going for it
is its higher image resolution and compatibility with standard DVDs. To find
the Blu-ray player that fits your budget see our Blu-ray DVD players review.
Earth generates two cone-shaped shadows: The umbra is the dark, center shadow, and the outer, more diffused one is known as thepenumbra. The penumbra encases the umbra. Both these cones are cast out from behind the sunlit side of the planet. Consequently, lunar eclipses only occur during the full moon phase(when the moon and the sun are on opposite sides of the Earth). Solar eclipses are possible only during the new moon phase (when the moon plays "monkey in the middle" between the sun and Earth).
