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Slide projector

From Wikipedia, the free encyclopedia
A 1960 slide projector

A slide projector is an optical device for projecting enlarged images of photographic slides onto a screen. Many projectors have mechanical arrangements to show a series of slides loaded into a special tray sequentially.

35 mm slide projectors, direct descendants of the larger-format magic lantern, first came into widespread use during the 1950s for slide shows as home entertainment, and for use by educational and other institutes. Reversal film created a small positive projectable image rather than the negatives used since the early days of photography; photography now produced 35mm directly viewable small colour slides, rather than large monochrome negatives. The slide images were too small for unaided viewing, and required enlargement by a projector or enlarging viewer.

Photographic film slides and projectors have been replaced by image files on digital storage media shown on a projection screen by using a video projector, or displayed on a large-screen video monitor.

History

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A continuous-slide lantern was patented in 1881.[1] It included a dissolving views apparatus.[2]

Design

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Slide projector light generation and collimation system: from left to right, mirror / reflector, bulb, condenser lens 1, green-tinted heat-absorbing glass, condenser lens 2; a centrifugal fan, used to cool the bulb, is visible at the top of the picture.

A projector has three main optical elements:[3]: 39–40 

Most slide projectors have a mechanism to hold slides in place during projection; many feature automated or mechanized slide advance and return to facilitate slideshows with multiple images.

Light source and collimation

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Philips halogen lamp used in Carl Braun Camera-Werk Novamat M 330 slide projector

An incandescent lamp bulb is used to generate light, usually specially designed to have a small, bright filament to produce a sharp and bright image. For example, the Leitz Pradovit RC uses a special 24V 150W quartz lamp, with provision to center it, required for best performance. This projector had provision to reduce lamp power by 20% to double its life (50 hours at full brightness).[4]

Light from the bulb is modified from a point source by reflection and passing through condenser lens(es) to generate a collimated beam, which is then directed through the slide. A flat piece of heat-absorbing glass is usually placed in the light path before the slide, to avoid damaging the latter. This glass transmits visible wavelengths but absorbs infrared.[5]: 10  Some slide projectors used bulbs that had an integral multifaceted reflector, which were more expensive than bare bulbs, but were more convenient to use, as the reflector did not have to be adjusted after bulb changes.[3]: 43 

Projection

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This slide projector, sold under the Zeiss Ikon brand, uses a straight-through tray; a thin arm grabs slides from a tray and puts them into the light path; the tray is advanced along its length. At the front of the projector, the protruding projection lens features rings to control focal length and focus.

After the collimated beam passes through the transparent slide, it is enlarged by a projection lens onto a flat projection screen so the audience can view the reflected image. For some slide projectors, the projection lens is removable and may be swapped with alternative lens(es) to change the brightness or focal length(s), which may affect potential size of the image or the distance from the screen required for a certain projected image size, respectively.[5]: 3 [6]

Standard focal lengths for projector lenses are approximately twice that of a normal lens for that film format, which allows the projector to be located behind the audience for an average screen size. For example, with 135 film, a standard projector lens focal length would be around 100 mm.[3]: 41  Starting in the 1970s, some slide projectors were offered with autofocus to compensate for differences in slide mount thickness or warping.[7]

Alternatively, the image may be projected onto a translucent "rear projection" screen, often used for continuous automatic display for close viewing. For example, the Singer Caramate and Bell & Howell RingMaster projected slides onto a flat screen approximately the size and shape of a small CRT TV;[8][9] the RingMaster also could be used for front projection for larger audiences.[10] This form of projection also avoids the potential of the audience interrupting the projected light beam by casting their shadows on the projection or by bumping into the projector.[citation needed]

Mechanical

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Kodak Carousel S-AV 1050, which features a horizontal rotary slide tray

Some slide projectors required users to manually place each slide that was being shown.[11] Starting in the 1950s, manufacturers introduced slide projectors with mechanisms which handle slides preloaded into cartridges, moving individual slides into and out of the light path in sequence. One of the primary differentiators between slide projectors was the form factor of the cartridges used to hold and, in many cases, store slides. Some automated slide projectors offered slide trays with straight, rectangular shapes,[12] which were popular in Europe; these use an arm, moving laterally, to extract a slide from the cartridge for projection.[3]: 42  Some straight-tray machines could also accept vertical rotary cartridges, which resemble a Ferris wheel.[3]: 42  In the United States, Eastman Kodak introduced Carousel slide projectors in 1961, which used a horizontal rotary cartridge like the namesake merry-go-round, and the format soon became ubiquitous there.[13] Advantages of Carousel-type slide projectors include a simpler, gravity-fed mechanism, and the ability to automatically repeat the sequence of images without having to reload;[3]: 41  however, the circular trays tended to be bulkier and more expensive.[3]: 42 

Sophisticated transition effects between images, such as dissolves, can be performed with multiple projectors; Rollei introduced the P3800 at photokina 1976, which had two lenses and could perform without an additional unit.[7] By 1990, Rollei marketed the Rolleivision 35 Twin Digital, an upgraded P3800 which added a personal computer interface to control its operation.[3]: 47  However, competing technologies which used images directly displayed from computers, such as projection panels and video projectors, largely displaced film slide projectors by the mid-1990s.

Types

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Slide projectors proper:

Related devices:

Manufacturers

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List of known manufacturers of slide projectors:

See also

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References

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General references

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  • Murphy, Burt (February 1973). Slide projectors get smarter all the time. Popular Mechanics. Retrieved 2011-10-22.

Inline citations

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  1. ^ The Canadian Patent Office Record and Mechanics' Magazine, Volume 9. 1881.
  2. ^ Sloane, T. O'Conor. Facts Worth Knowing Selected Mainly from the Scientific American for Household, Workshop, and Farm Embracing Practical and Useful Information for Every Branch of Industry. Hartford: S. S. Scranton & Co. 1895.
  3. ^ a b c d e f g h Beeler, Robert (October 1990). "Try Projection!". Popular Photography. pp. 38–47, 160–161. Retrieved 2 September 2024.
  4. ^ "Pradovit RV-74 projector manual" (PDF). Leitz. September 1972.
  5. ^ a b "Kodak Ektagraphic Slide Projector, Model E-2". Eastman Kodak. May 1975. Retrieved 30 August 2024.
  6. ^ "GK Delineascope Reference Manual". American Optical Corporation. September 1968. Retrieved 30 August 2024.
  7. ^ a b "Rollei slide projectors (dealer catalog)" (PDF). Rollei. 1978. Retrieved 2 September 2024 – via Pacific Rim Camera, Reference Library.
  8. ^ bohus (August 23, 2007). "Singer Caramate II SP: Multimedia Slide Projector". Retro Thing. Retrieved 2 September 2024.
  9. ^ "RingMaster". Radio Museum. Retrieved 30 August 2024.
  10. ^ "Get the picture two ways with one sound-slide projector [advertisement]". Cincinnati Magazine. May 1978. p. 24. Retrieved 30 August 2024.
  11. ^ "To do a slide justice ... show it with an Argus projector [advertisement]". Argus Camera Corporation. September 1946. Retrieved 30 August 2024.
  12. ^ Rawsthron, Alice (January 20, 2013). "It's a Spaceship! No, It's a Time Machine". The New York Times. Retrieved 30 August 2024.
  13. ^ Cortez, Meghan Bogardus (September 26, 2016). "Kodak Carousel Projectors Revolutionized the Lecture". EdTech. Retrieved 30 August 2024.