Film recorder

Last updated April 12, 2024

A film recorder is a graphical output device for transferring images to photographic film from a digital source. In a typical film recorder, an image is passed from a host computer to a mechanism to expose film through a variety of methods, historically by direct photography of a high-resolution cathode ray tube (CRT) display. The exposed film can then be developed using conventional developing techniques, and displayed with a slide or motion picture projector. The use of film recorders predates the current use of digital projectors, which eliminate the time and cost involved in the intermediate step of transferring computer images to film stock, instead directly displaying the image signal from a computer. Motion picture film scanners are the opposite of film recorders, copying content from film stock to a computer system. Film recorders can be thought of as modern versions of Kinescopes.

Design

Operation

All film recorders typically work in the same manner. The image is fed from a host computer as a raster stream over a digital interface. A film recorder exposes film through various mechanisms; flying spot (early recorders); photographing a high resolution video monitor; electron beam recorder (Sony HDVS); a CRT scanning dot (Celco); focused beam of light from a light valve technology (LVT) recorder; a scanning laser beam (Arrilaser); or recently, full-frame LCD array chips.

For color image recording on a CRT film recorder, the red, green, and blue channels are sequentially displayed on a single gray scale CRT, and exposed to the same piece of film as a multiple exposure through a filter of the appropriate color. This approach yields better resolution and color quality than possible with a tri-phosphor color CRT. The three filters are usually mounted on a motor-driven wheel. The filter wheel, as well as the camera's shutter, aperture, and film motion mechanism are usually controlled by the recorder's electronics and/or the driving software. CRT film recorders are further divided into analog and digital types. The analog film recorder uses the native video signal from the computer, while the digital type uses a separate display board in the computer to produce a digital signal for a display in the recorder. Digital CRT recorders provide a higher resolution at a higher cost compared to analog recorders due to the additional specialized hardware.^[1] Typical resolutions for digital recorders were quoted as 2K and 4K, referring to 2048×1366 and 4096×2732 pixels, respectively, while analog recorders provided a resolution of 640×428 pixels in comparison.^[2]

Higher-quality LVT film recorders use a focused beam of light to write the image directly onto a film loaded spinning drum, one pixel at a time. In one example, the light valve was a liquid-crystal shutter, the light beam was steered with a lens, and text was printed using a pre-cut optical mask.^[2] The LVT will record pixel beyond grain. Some machines can burn 120-res or 120 lines per millimeter. The LVT is basically a reverse drum scanner. The exposed film is developed and printed by regular photographic chemical processing.

Formats

Film recorders are available for a variety of film types and formats. The 35mm negative film and transparencies are popular because they can be processed by any photo shop. Single-image 4×5 film and 8×10 are often used for high-quality, large format printing.^[2]

Some models have detachable film holders to handle multiple formats with the same camera or with Polaroid backs to provide on-site review of output before exposing film.^[2]

Uses

Film recorders are used in digital printing to generate master negatives for offset and other bulk printing processes. For preview, archiving, and small-volume reproduction, film recorders have been rendered obsolete by modern printers that produce photographic-quality hardcopies directly on plain paper.

They are also used to produce the master copies of movies that use computer animation or other special effects based on digital image processing. However, most cinemas nowadays use Digital Cinema Packages on hard drives instead of film stock.

Computer graphics

Film recorders were among the earliest computer graphics output devices; for example, the IBM 740 CRT Recorder was announced in 1954.

Film recorders were also commonly used to produce slides for slide projectors;^[1] but this need is now largely met by video projectors that project images directly from a computer to a screen. The terms "slide" and "slide deck" are still commonly used in presentation programs.

Current uses

Currently, film recorders are primarily used in the motion picture film-out process for the ever increasing amount of digital intermediate work being done. Although significant advances in large venue video projection alleviates the need to output to film, there remains a deadlock between the motion picture studios and theater owners over who should pay for the cost of these very costly projection systems. This, combined with the increase in international and independent film production, will keep the demand for film recording steady for at least a decade.^{[ citation needed ]}

Key manufacturers

Traditional film recorder manufacturers have all but vanished from the scene or have evolved their product lines to cater to the motion picture industry. Dicomed was one such early provider of digital color film recorders. Polaroid, Management Graphics, Inc, MacDonald-Detwiler, Information International, Inc., and Agfa were other producers of film recorders. Arri is the only current major manufacturer of film recorders.

Kodak Lightning I film recorder. One of the first laser recorders. Needed an engineering staff to set up.
Kodak Lightning II film recorder used both gas and diode laser to record on to film.
The last LVT machines produced by Kodak / Durst-Dice stopped production in 2002. There are no LVT film recorders currently being produced. LVT Saturn 1010 uses a LED exposure (RGB) to 8"x10" film at 1000-3000ppi.
LUX Laser Cinema Recorder from Autologic/Information International in Thousand Oaks, California. Sales end in March 2000. Used on the 1997 film “Titanic”.
Arri produces the Arrilaser line of laser-based motion picture film recorders.
MGI produced the Solitaire line of CRT-based motion picture film recorders.^[3]
Matrix, originally ImaPRO, a branch of Agfa Division, produced the QCR line of CRT-based motion picture film recorders.^[4]
CCG, formerly Agfa film recorders, has been a steady manufacturer of film recorders based in Germany.
In 2004 CCG introduced Definity, a motion picture film recorder utilizing LCD technology. In 2010 CCG introduced the first full LED LCD film recorder as a new step in film recording.
Cinevator was made by Cinevation AS, in Drammen, Norway. The Cinevator was a real-time digital film recorder. It could record IN, IP and prints with and without sound
Oxberry produced the Model 3100 film recorder camera system, with interchangeable pin-registered movements (shuttles) for 35mm (full frame/Silent, 1.33:1) and 16mm (regular 16, "2R"), and others have adapted the Oxberry movements for CinemaScope, 1.85:1, 1.75:1, 1.66:1, as well as Academy/Sound (1.37:1) in 35mm and Super-16 in 16mm ("1R"). For instance, the "Solitaire" and numerous others employed the Oxberry 3100 camera system.

History

Before video tape recorders or VTRs were invented, TV shows were either broadcast live or recorded to film for later showing, using the Kinescope process. In 1967, CBS Laboratories introduced the Electronic Video Recording format, which used video and telecined-to-video film sources, which were then recorded with an electron-beam recorder at CBS' EVR mastering plant at the time to 35mm film stock in a rank of 4 strips on the film, which was then slit down to 4 8.75 mm (0.344 in) film copies, for playback in an EVR player.

All types of CRT recorders were (and still are) used for film recording. Some early examples used for computer-output recording were the 1954 IBM 740 CRT Recorder, and the 1962 Stromberg-Carlson SC-4020, the latter using a Charactron CRT for text and vector graphic output to either 16mm motion picture film, 16mm microfilm, or hard-copy paper output.

Later 1970 and 80s-era recording to B&W (and color, with 3 separate exposures for red, green, and blue)) 16mm film was done with an EBR (Electron Beam Recorder), the most prominent examples made by 3M), for both video and COM (Computer Output Microfilm) applications. Image Transform in Universal City, California used specially modified 3M EBR film recorders that could perform color film-out recording on 16mm by exposing three 16mm frames in a row (one red, one green and one blue). The film was then printed to color 16mm or 35mm film. The video fed to the recorder could either be NTSC, PAL or SECAM. Later, Image Transform used specially modified VTRs to record 24 frame for their "Image Vision" system. The modified 1 inch type B videotape VTRs would record and play back 24frame video at 10 MHz bandwidth, at about twice the normal NTSC resolution. Modified 24fps 10 MHz Bosch Fernseh KCK-40 cameras were used on the set. This was a custom pre-HDTV video system. Image Transform had modified other gear for this process. At its peak, this system was used in the production of the film "Monty Python Live at the Hollywood Bowl" in 1982. This was the first major pre-digital intermediate post production using a film recorder for film-out production.

In 1988, companies in the United States collectively produced 715 million slides at a cost of $8.3 billion.^[2]

Awards

The Academy of Motion Picture Arts and Sciences awarded an Oscar to the makers of the Arrilaser film recorder. The Award of Merit Oscar from the Academy Scientific and Technical Award ceremony was given on 11 February 2012 to Franz Kraus, Johannes Steurer and Wolfgang Riedel.^[5]^[6] Steurer was awarded the Oskar Messter Memorial Medal two years later in 2014 for his role in the development of the Arrilaser.^[7]

Related Research Articles

Telecine is the process of transferring film into video and is performed in a color suite. The term is also used to refer to the equipment used in this post-production process.

Digital intermediate (DI) is a motion picture finishing process which classically involves digitizing a motion picture and manipulating the color and other image characteristics.

Color grading is a post-production process common to filmmaking and video editing of altering the appearance of an image for presentation in different environments on different devices. Various attributes of an image such as contrast, color, saturation, detail, black level, and white balance may be enhanced whether for motion pictures, videos, or still images. Color grading and color correction are often used synonymously as terms for this process and can include the generation of artistic color effects through creative blending and compositing of different layer masks of the source image. Color grading is generally now performed in a digital process either in a controlled environment such as a color suite, and is usually done in a dim or dark environment.

<span class="mw-page-title-main">Reversal film</span> Type of photographic film that produces a positive image on a transparent base

In photography, reversal film or slide film is a type of photographic film that produces a positive image on a transparent base. Instead of negatives and prints, reversal film is processed to produce transparencies or diapositives. Reversal film is produced in various sizes, from 35 mm to roll film to 8×10 inch sheet film.

Film-out is the process in the computer graphics, video production and filmmaking disciplines of transferring images or animation from videotape or digital files to a traditional film print. Film-out is a broad term that encompasses the conversion of frame rates, color correction, as well as the actual printing, also called scannior recording.

The Cineon System was one of the first computer based digital film systems, created by Kodak in the early 1990s. It was an integrated suite of components consisting a Motion picture film scanner, a film recorder and workstation hardware with software for compositing, visual effects, image restoration and color management.

Arri Group is a German manufacturer of motion picture film equipment. Based in Munich, the company was founded in 1917. It produces professional motion picture cameras, lenses, lighting and post-production equipment. It is cited by Hermann Simon as an example of a "hidden champion". The Arri Alexa camera system was used to shoot several films that won the Academy Award for Best Cinematography, including Hugo (2011), Life of Pi (2012), Gravity (2013), Birdman (2014), The Revenant (2015) and 1917 (2019).

<span class="mw-page-title-main">Digital cinematography</span> Digital image capture for film

Digital cinematography is the process of capturing (recording) a motion picture using digital image sensors rather than through film stock. As digital technology has improved in recent years, this practice has become dominant. Since the mid-2010s, most movies across the world are captured as well as distributed digitally.

The Arriflex D-20 is a film-style digital motion picture camera made by Arri first introduced in November 2005. The camera's attributes are its optical viewfinder, modularity, and 35mm-width CMOS sensor. The camera was discontinued in 2008 when its successor, the Arriflex D-21, was introduced.

A motion picture film scanner is a device used in digital filmmaking to scan original film for storage as high-resolution digital intermediate files.

<span class="mw-page-title-main">Flying-spot scanner</span>

A flying-spot scanner (FSS) uses a scanning source of a spot of light, such as a high-resolution, high-light-output, low-persistence cathode ray tube (CRT), to scan an image. Usually the image to be scanned is on photographic film, such as motion picture film, or a slide or photographic plate. The output of the scanner is usually a television signal.

Color motion picture film refers both to unexposed color photographic film in a format suitable for use in a motion picture camera, and to finished motion picture film, ready for use in a projector, which bears images in color.

<span class="mw-page-title-main">Cintel</span> British digital cinema company

Cintel was a British digital cinema company founded in 1927 by John Logie Baird and based in Ware, Hertfordshire. The early company was called Cinema Television Ltd. Cinema Television was sold to J Arthur Rank Organization renamed Rank Cintel in 1958. It specialized in the design and manufacture of professional post-production equipment, for transcribing film into video or data formats. It was formerly part of the Rank Organisation. Along with a line of telecines, Rank Cintel made 3 tube RGB color video projectors in the 1960s.

<span class="mw-page-title-main">Spirit DataCine</span> Motion picture film scanner

Spirit DataCine is a telecine and a motion picture film scanner. This device is able to transfer 16mm and 35mm motion picture film to NTSC or PAL television standards or one of many High-definition television standards. With the data transfer option a Spirit DataCine can output DPX data files. The image pick up device is a solid state charge-coupled device. This eliminated the need for glass vacuum tube CRTs used on older telecines. The units can transfer negative film, primetime, intermediate film and print film, stock. One option is a Super 8 gate for the transfer of Super 8 mm film. With a sound pick up option, optical 16mm and 35mm sound can be reproduced, also 16mm magnetic strip sound. The unit can operate stand alone or be controlled by a scene by scene color corrector. Ken Burns created The Civil War, a short documentary film included in the DVD release, on how he used the Spirit DataCine to transfer and remaster this film. The operator of the unit is called a Colorist or Colorist Assistant. The Spirit DataCine has become the standard for high-end real-time film transfer and scanning. Over 370 units are used in post-production facilities around the world. Most current film productions are transferred on Spirit DataCines for Television, Digital television, Cable television, Satellite television, Direct-to-video, DVD, Blu-ray Disc, pay-per-view, In-flight entertainment, Stock footage, Dailies, Film preservation, digital intermediate and digital cinema. The Spirit DataCine is made by DFT Digital Film Technology GmbH in Darmstadt, Germany.

The Arri Alexa is a digital motion picture camera system developed by Arri. Introduced in April 2010, the camera was Arri's first major transition into digital cinematography, after previous product efforts including the Arriflex D-20 and D-21.

Electronovision was a process used by producer and entrepreneur H. William "Bill" Sargent, Jr. to produce a handful of motion pictures, theatrical plays, and specials in the 1960s and early 1970s using a high-resolution videotape process for production, later transferred to film via kinescope for theatrical release.

<span class="mw-page-title-main">Multi-image</span>

Multi-image is the now largely obsolete practice and business of using 35mm slides (diapositives) projected by single or multiple slide projectors onto one or more screens in synchronization with an audio voice-over or music track. Multi-image productions are also known as multi-image slide presentations, slide shows and diaporamas and are a specific form of multimedia or audio-visual production.

The Pixar Photoscience Division, a division of Pixar Animation Studios, was founded in 1979 at Lucasfilm for the express purpose of designing and building a laser recorder/scanner system to input and output film to a computer for compositing and color correction of special effects. In the early years of Pixar's history, the team was responsible for the design of color monitoring instrumentation to control the color gamut and gamma of the digital images onto 35mm film using a more advance laser recorder system called PixarVision. In later years at Pixar, the team was responsible for transforming the artists computer-animated images onto film master negatives. Today the team manages all digital content to a variety of delivery media, film, DVD, and digital cinema projection. The team has won Engineering and Technical Academy Awards and patents for their work in Motion Picture Sciences.

<span class="mw-page-title-main">Test film</span>

Test film are rolls or loops or slides of photographic film used for testing the quality of equipment. Equipment to be tested could include: telecine, motion picture film scanner, Movie projectors, Image scanners, film-out gear, Film recorders and Film scanners.

References

1 2 Capen, Tracey; Douglas, Sally J. (6 March 1989). "Product Comparison: PC Film Recorders". InfoWorld. p. 51. Retrieved 4 November 2017.
1 2 3 4 5 Fersko-Weiss, Henry (28 February 1989). "From Screen to Slide—Affordably". PC Magazine. p. 199. Retrieved 4 November 2017.
↑ How "Toy Story", or Jurassic Park's SFX were printed on Film - MGI Solitaire 16.
↑ Exploring the hardware used to produce Romeo & Juliet: Sealed with a Kiss.
↑ "Technical Oscar for ARRI and Fraunhofer" (Press release). Fraunhofer Institute for Physical Measurement Techniques. 27 January 2012. Retrieved 4 November 2017.
↑ "Developers of film recorder to receive Oscar". Phys.org. Associated Press. 6 January 2012. Retrieved 4 November 2017.
↑ "Johannes Steurer receives Oskar Messter Medal" (Press release). Arri. 14 May 2014. Retrieved 4 November 2017.

External links

Cinevator
Arri
Lasergraphics
Definity Archived 27 December 2019 at the Wayback Machine
CCG

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[IW-890306-1] 1 2 Capen, Tracey; Douglas, Sally J. (6 March 1989). "Product Comparison: PC Film Recorders". InfoWorld. p. 51. Retrieved 4 November 2017.

[PCM-890228-2] 1 2 3 4 5 Fersko-Weiss, Henry (28 February 1989). "From Screen to Slide—Affordably". PC Magazine. p. 199. Retrieved 4 November 2017.

[3] How "Toy Story", or Jurassic Park's SFX were printed on Film - MGI Solitaire 16.

[4] Exploring the hardware used to produce Romeo & Juliet: Sealed with a Kiss.

[5] "Technical Oscar for ARRI and Fraunhofer" (Press release). Fraunhofer Institute for Physical Measurement Techniques. 27 January 2012. Retrieved 4 November 2017.

[6] "Developers of film recorder to receive Oscar". Phys.org. Associated Press. 6 January 2012. Retrieved 4 November 2017.

[7] "Johannes Steurer receives Oskar Messter Medal" (Press release). Arri. 14 May 2014. Retrieved 4 November 2017.

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