≈ 2 Ī box of Agfacolor Neu with the instruction "expose as 15/10° DIN" (in German).Īs in the Scheiner system, speeds were expressed in 'degrees'. corresponded to a hundredfold increase in sensitivity, which meant that an increment of 3° Sch. to 20° Sch., where an increment of 19° Sch. Speed was expressed in degrees Scheiner, originally ranging from 1° Sch. Scheiner's system rated the speed of a plate by the least exposure to produce a visible darkening upon development. The Scheinergrade (Sch.) system was devised by the German astronomer Julius Scheiner (1858–1913) in 1894 originally as a method of comparing the speeds of plates used for astronomical photography. The H&D system was officially accepted as a standard in the former Soviet Union from 1928 until September 1951, when it was superseded by GOST 2817–50. The methods to determine the sensitivity were later modified in 1925 (in regard to the light source used) and in 1928 (regarding light source, developer and proportional factor)-this later variant was sometimes called "H&D 10". For example, an emulsion rated at 250 H&D would require ten times the exposure of an emulsion rated at 2500 H&D. In their system, speed numbers were inversely proportional to the exposure required. Hurter & Driffield Īnother early practical system for measuring the sensitivity of an emulsion was that of Hurter and Driffield (H&D), originally described in 1890, by the Swiss-born Ferdinand Hurter (1844–1898) and British Vero Charles Driffield (1848–1915). The concept, however, was later built upon in 1900 by Henry Chapman Jones (1855–1932) in the development of his plate tester and modified speed system. His system saw some success but proved to be unreliable due to its spectral sensitivity to light, the fading intensity of the light emitted by the phosphorescent tablet after its excitation as well as high built-tolerances. Each number represented an increase of 1/3 in speed, typical plate speeds were between 10° and 25° Warnerke at the time. or °W.) corresponding with the last number visible on the exposed plate after development and fixation. The speed of the emulsion was then expressed in 'degrees' Warnerke (sometimes seen as Warn. The Warnerke Standard Sensitometer consisted of a frame holding an opaque screen with an array of typically 25 numbered, gradually pigmented squares brought into contact with the photographic plate during a timed test exposure under a phosphorescent tablet excited before by the light of a burning magnesium ribbon. The first known practical sensitometer, which allowed measurements of the speed of photographic materials, was invented by the Polish engineer Leon Warnerke – pseudonym of Władysław Małachowski (1837–1900) – in 1880, among the achievements for which he was awarded the Progress Medal of the Photographic Society of Great Britain in 1882. (As is common, the "100" in the film name alludes to its ISO rating.) Film speed measurement systems Historical systems Warnerke The second is often dropped, making (e.g.) "ISO 100" effectively equivalent to the older ASA speed. This film container denotes its speed as ISO 100/21°, including both arithmetic (100 ASA) and logarithmic (21 DIN) components. Ultimately sensitivity is limited by the quantum efficiency of the film or sensor. In short, the higher the sensitivity, the grainier the image will be. In both digital and film photography, the reduction of exposure corresponding to use of higher sensitivities generally leads to reduced image quality (via coarser film grain or higher image noise of other types). Highly sensitive films are correspondingly termed fast films. Relatively insensitive film, with a correspondingly lower speed index, requires more exposure to light to produce the same image density as a more sensitive film, and is thus commonly termed a slow film. A closely related ISO system is used to describe the relationship between exposure and output image lightness in digital cameras. For the genre of films, see slow cinema.įilm speed is the measure of a photographic film's sensitivity to light, determined by sensitometry and measured on various numerical scales, the most recent being the ISO system.
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