The Difference Between Ultra Short Throw , Short Throw & Standard Projectors
Projector |
Throw Distance
for a 100” (16:9) image |
Strengths |
Weakness |
Standard or
“Long Throw”
Projector |
About 8-10 feet
(244-305cm) |
Versatility and cost |
The amount of space they can take up in any application. Another side effect of “long throw” is that when people, animals, or any other objects come between the projector and screen, it will create a shadow over the projected image. |
Short-Throw
Projector |
About 3-4 feet
(90-120cm) |
Its ability to work well at giving a big picture in close confines |
Its inability to work with anything but a perfectly flat projection surface and that it is not at all compatible with any type of ALR materials. |
Ultra Short-Throw
Projectors |
About 3-20 inches
(8-50cm) |
Its ability to work well at giving a big picture in close confines.
Flush design eliminates the shadow problem making it ideal for training or home theater applications.
CLR projection materials are
available for them. |
Its inability to work with anything but a perfectly flat projection surface. Limited availability of larger CLR material sizes (for now). |
Standard or “Long Throw” Projector
Standard Throw or “Long Throw” Projectors are the most common type. They require the greatest amount of distance to make an image. They are compatible with virtually all projection materials. The exception would be “UST-ALR” (Ultra Short Throw- Ambient Light Rejecting) or “CLR” (Ceiling Light Rejecting) specialty projection Materials. They can be used on regular or tensioned “white” or “grey” materials as well as any regular “ALR” or “rear-projection” material.
Short-Throw Projector
Short throw projectors were developed namely for presenters to work more closely with the projection screen without having the projector’s glare in their eyes. Another reason is that the close confines of many classrooms and training facilities don’t permit enough throw distance for a standard projector. The “fish eye” design of the lens is the most noticeable trait and it’s bubble-like curve allows light to be spread out with more rapidity to create a larger image in a shorter distance. It works very well with tensioned materials. However, the uneven “flatness” of standard projector screens will create image distortion so a flat-tensioned material is a must. Also “ST” projectors create their images with “off axis” light. “Off axis” means that the light is not really hitting the screen material head-on but rather, it is more from the side. Because ALR materials filter out off-axis light, it does not work well with short throw projectors either.
Ultra Short-Throw Projectors
UST projectors are the latest concept in projection versatility. They are designed to be positioned flush with the screen and still create a huge image. Pull it back a few inches and the picture nearly doubles in size. These typically have a reflector lens to spread out its light signal over a minimal distance. Although they can be more costly than other projector types, they are a favorite with teachers and professional trainers for obvious reasons. Because shadowing is minimal, they are typically used in interactive whiteboard displays an there is no possibility of foot traffic passing between the projector and screen. This is also the main reason why UST projectors are gaining in popularity with residential applications as well. Like the short throw projectors, these screens are only compatible with perfectly flat projector surfaces. Although they don’t work with the standard ALR materials, there is a new CLR® (Ceiling light rejecting) or ALR-UHD materials that allow them to assume the appearance of a large TV display in either bright or dark rooms.
What is Throw Distance?
Simply put, throw distance is the measured expanse that the light must travel from the projector’s lens to the projection screen’s surface. Standard throw projectors typically create a 100” (16:9) image footprint from about 10 feet of throw distance. Short throw projectors can create the same sized image from less than half that distance (about 4 feet), and UST projectors will put up the same sized image in a matter of inches.