in114ST
Big images for tight
budgets.
The InFocus IN114ST is not only one of the lowest
cost short throw projectors we’ve ever sold, but
also has one of the longest-lasting lamps – for
incredibly low total cost of ownership.
in114ST
This value-packed projector is easy to buy and built
to perform with high brightness, high contrast ratio
and BrilliantColor™ technology. Plus, the short
throw lens saves space, reduces shadows, and
prevents light from shining on the presenter’s face.
XGA (1024 x 768)
2500 lumens
Short throw lens
Why choose IN114ST?
¡ Ultra-low purchase price
¡ Long life lamp of up to 6,000 hours lowers costs even more
¡ Short throw lens for big images in tight spaces
¡ High 4000:1 contrast ratio
Connectivity
VGA x 2
Composite Video
RS232
Mini USB
(control & firmware)
¡ Slim design and weighs only 4.8 lbs (2.17 kg)
¡ Accurate and vivid color reproduction with BrilliantColor
technology
S-Video
3.5 mm audio in
3.5 mm audio out
Monitor out (VGA)
¡ 3D technology supports up to 120 Hz frame rate
Lowest Total Cost of Ownership
Short Throw
The IN114ST is the lowest priced office/classroom short throw
projector we’ve ever offered, and its lamp lasts 50% longer than
the previous generation. There aren’t even any filters to replace.
It's an unbeatable value.
The short throw lens of the IN114ST gives you big images in
tight spaces and prevents light from shining in the presenter's
face. With a 0.6:1 throw ratio, you'll get a 60-inch (152 cm)
wide image from only 3 feet (91 cm) away.
High Brightness and High Contrast
Compact, Slim and Light
The image quality of this projector will not disappoint. 2500
lumens will give you bright, clear images with the lights on and
the high 4000:1 contrast ratio adds sharpness with darker
blacks and whiter whites.
The IN114ST is small and lightweight for easy portability
from one room or building to the next. It's slim design is
only 2.8 inches (70 mm) tall and weighs only 4.8 lbs (2.17 kg).
Preset modes give you the best image quality on a beige wall,
whiteboard, blackboard or other surface.
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