| Comparison |
Plasma televisions |
LCD televisions |
Advantage |
| Screen Size |
Screen
sizes range from 32 inches to 63 inches. Larger plasmas, like a 103
inch unit from Panasonic, are in production, but are still
prohibitively expensive for consumer use. |
Sizes
range from 13 inches to 45 inches. As with plasma, there are larger LCD
TVs made, like a 100 inch display recently released by LG, but they are
not readily available or affordable at the consumer level. |
Plasma
TVs are the current size champions, particularly when comparing TVs
that consumers can easily purchase. LCDs are catching up in size with
their developing technology, however, and may surpass Plasmas in the
near future. This may be due to difficulties in producing glass large
enough for larger plasmas. |
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| Viewing Angle |
Up to 160° |
Up to 175° |
LCD
TVs have the advantage here, but by a small margin. Your viewing
experience is not going to be ideal at 160 or 175 degree angles. LCD
TVs used to have a problem in this area, primarily because LCDs were
originally used as single person computer monitors. |
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| Screen Refresh Rates |
Plasma displays refresh and handle rapid movements in video about as well as CRT televisions. |
LCD
TVs were originally designed for data display, and not video. Therefore
refresh rates had to be improved. LCD TVs with refresh rates below 16
ms or lower (5-15 ms) show very few noticeable artifacts. LCD TVs are
now available with refresh rates as low as 5ms. |
Slight edge to plasma technology. |
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| Burn-in or Stuck Pixels |
Plasma
TVs can suffer from burn-in produced by static images. After extended
periods, stationary images "burn in" and produce an after-image ghost
which remains permanently on the screen. With technologies such as
'pixel orbitor,' new plasma TVs have addressed burn-in and
significantly reduced the issues of older models. |
LCD
TVs do not suffer from burn-in, but can have a "retained pixel charge"
which may also produce ghosting. Stuck pixels are also possible with an
LCD display. |
With
the latest plasma technology, this is less of an issue than ever
before. "Pixel orbitor," for example, is one method of reducing burn in
used by plasma manufacturers. It requires no additional programing from
the end user as some older burn-in prevention techniques did. If you
plan to use a plasma for gaming, some games with permanent 'dashboards'
may still cause some burn-in. Check user-manuals for available
solutions by model. |
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| Product Life-span |
Plasma
TVs have a reported half life of 30,000 to 60,000 hours. Half-life is
the time it takes the lamp to fade to half its original brightness. |
LCD
TVs also have replaceable backlights, but the expense of replacing one
when the time comes may be greater than simply replacing the entire TV. |
Both
Plasma and LCD technology should more than adequately satisfy most
consumers. The average CRT TV (the kind most of us have at home) has a
half-life of around 25,000 hours. If the average American household
watches an average of four to six hours of television a day, even a
30,000 hour lamp would give you over 16 years of use. By then you'll be
enjoying your new 'Holodeck.' |
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| Weight |
Plasma displays are fairly heavy, and may need additional supports to be mounted onto a wall. |
LCD TVs weigh less than comparably sized plasma TVs. |
LCD TVs are considerably lighter, more portable, and cheaper to ship. |
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| Durability |
Plasmas
are very fragile making them tricky to ship and install. Unlike the
commercials where plasmas are mounted on the ceiling, plasmas are best
installed by a professional, and should be installed on a wall that can
bear a good deal of weight. |
Much more durable than plasmas. End users can easily mount an LCD TV themselves if desired. |
LCD TVs are far less fragile than plasmas. |
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| Shipping |
Due
to their fragile nature, plasma TVs need to be shipped by specialty
carriers. Overnight or fast delivery options are not recommended.
Special shipping methods and their heavier weight add to higher
shipping costs. |
Shipping LCD TVs is not difficult, and is not as expensive as shipping plasma displays. |
LCD TVs are lighter and far less fragile than plasma displays making shipping easier and less expensive. |
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| Installation |
Plasmas
are heavier, use more power, and run hotter than LCD TVs, and therefore
require more planning when mounting them. Plasmas are generally best
installed by professionals. |
End users can easily install LCD TVs themselves, or can use them just as they use a traditional TV using a stand. |
LCD TVs are much easier to install than plasma TVs. |
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| Brightness/Contrast |
Plasma
TVs report higher brightness and contrast levels than LCDs. Under ideal
conditions (no ambient light) this is a true advantage of plasma
technology, because LCD TVs are backlit and therefore light must be
blocked to create blacks. Plasmas have individual pixels that either on
or off, creating deeper blacks and better contrast. |
LCD
TVs can often look better in 'real-world' situations. Plasmas are made
with a special glass surface that can reflect light, which dulls the
brightness and contrast of the image. LCD TVs reflect very little
light, allowing them to maintain levels in well-lit rooms. |
Both
LCD and plasma TVs will meet the brightness expectations of most
consumers. However, in 'real world' situations with ambient light, LCD
TVs will generally look a little brighter. |
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| Thickness |
As thin as 3 inches deep. |
As thin as 2 inches deep. |
LCDs TVs are just a bit thinner. |
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| Performance at High Altitude |
High
altitudes can affect the performance of plasma displays because the gas
held inside each pixel is stressed, and has to work harder to perform.
Some manufacturers make plasmas that are specifically designed for
high-altitudes, but they may be priced higher than standard models. |
LCD TVs are not affected by high altitudes. |
LCD TVs. |
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