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LCD MONITORS VS.
CRT MONITORS
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Your
budget range
The size of your budget will dictate the size
and type of your monitor. Here's a cheat sheet
to help you figure out what your options are.
| What
you'll pay |
What
you'll get |
| $50
to $100 |
15-inch
CRT |
| $100
to $250 |
17-inch
CRT |
| $250
to $350 |
15-inch
LCD or 19-inch CRT |
| $350
to $500 |
17-inch
LCD or 21-inch CRT |
| $500
to $1,000 |
18-
or 19-inch LCD or 22-inch CRT |
| $1,000
and up |
20-inch
LCD and larger |
Note:
These ranges reflect the lower end of the price
spectrum and are based on the latest street/online
prices as of this writing.
What
is an LCD?
LCDs,
or liquid-crystal displays (also called
flat panels or flat screens), are thin
sandwiches of glass containing a liquid-crystal
material. When exposed to electric current,
the molecules of liquid-crystal material
change their alignment to either transmit
or block light, which ultimately creates
an image. Each pixel is composed (in most
cases) of red, green, and blue subpixels.
LCD monitors cost more than same-size,
old-school CRTs, but they offer a few
significant advantages. Here's how LCDs
stack up, for better or worse.
|
 |
| Pros |
Cons |
| Thin
and stylish |
Relatively
expensive |
| Energy
efficient |
Fragile |
| Relatively
lightweight, especially in larger sizes |
Limited
viewing angle |
| Crisp
image |
Color
rendition may be limited or inconsistent |
| More
display area (a 15-inch LCD is equivalent
to a 17-inch CRT) |
Moving
images may smear |
| No
refresh-rate flicker |
May
flicker from inability to synchronize
with signal correctly |
| Little
or no low-frequency electromagnetic emissions
compared with a CRT |
Image
quality is greatly reduced when running
in nonnative resolution, because the image
must be scaled to match the pattern of
physical pixels |
| Perfect
screen geometry |
|
| No
convergence problems |
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What
is a CRT monitor?
The
original CRT (cathode ray tube) technology
was invented more than 100 years ago and
has been greatly refined since. Inside
a color CRT, three electron guns shoot
streams of electrons at the screen. A
mask blocks the electrons so that the
beam from one gun hits only red phosphor
dots on the screen, just as the beams
from the other guns only hit green or
blue phosphors. By controlling the position
of the beams and how fast they turn on
and off, a CRT can create pixels of varying
sizes, so it can produce different-resolution
images with little loss of image quality.
Although they're big and boxy, CRTs are
inexpensive--and indispensable for some
computing tasks such as video-editing
and gaming. Here's a look at the good
and the bad in CRTs. |
 |
| Pros |
Cons |
| Relatively
inexpensive |
Large
and bulky |
| Rugged |
Energy
inefficient |
| Unlimited
viewing angle |
Relatively
heavy, especially in larger sizes |
| Generally
good color rendition |
Pixels
are not clearly defined at any resolution |
| Moving
images do not smear |
Less
display area (a 15-inch LCD is equivalent
to a 17-inch CRT) |
| No
flicker from problems with synchronizing
with a signal |
Refresh-rate
flicker is below 75Hz; flicker is more
severe with larger monitors |
| Can
display different-resolution images with
relatively little loss of quality |
More
low-frequency electromagnetic emissions
than LCDs |
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Nearly
impossible to get perfect screen geometry,
especially with flat-faced CRT designs |
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Almost
impossible to get perfect convergence
of red, green, and blue beams on all parts
of the screen |
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