recording+company

recording company

1) Кино: компания звукозаписи

2) Реклама: фирма грамзаписи

recording company

компания звукозаписи

recording company

компания звукозаписи

recording company

s.

disquera, empresa disquera.

eligible, sound, recording, company

( taxation)

société f d'enregistrement sonore admissible

sound, recording, company

société f d'enregistrement sonore

recording

1. n регистрация, запись

cinematographic recording — киносъёмка

dual-track recording — двухдорожечная запись

full-track recording — однодорожечная запись

helical recording — наклонно-строчная запись

monophonic recording — монофоническая запись

video signal recording — запись видеосигнала

2. n звукозапись

he has a collection of various recordings — у него большая коллекция записей

home recording — бытовая звукозапись

recording studio — студия звукозаписи

recording company — компания звукозаписи

sound recording — звукозапись, запись звука

sound recording equipment — аппаратура звукозаписи

3. n бухг. отчётность

4. a пишущий, записывающий; регистрирующий

recording meter — самопишущий прибор

recording barometer — барограф

recording flow meter — записывающий расходомер

recording indicator — регистрирующий указатель

recording flowmeter — регистрирующий расходомер

recording gravimeter — регистрирующий гравиметр

recording stylus — штифт регистрирующего прибора

Синонимический ряд:

1. registering (noun) enlisting; enlistment; enrollment; inducting; induction; matriculation; registering; registration; the act of recording

2. entering (verb) entering; inserting; posting; registering

3. showing (verb) indicating; marking; reading; saying; showing

recording

recording [rɪ'kɔ:dɪŋ]

1 noun

(of music, data) enregistrement m;

∎ this is a very poor recording cet enregistrement est très mauvais;

∎ a mono recording un enregistrement (en) mono

2 compound-forming noun

(a) Music & Television (equipment, session) d'enregistrement; (company) de disques; (star) du disque

(b) (indicating → apparatus) enregistreur

(c) Administration & Law (official, clerk → in census) chargé du recensement; (→ in court of law) qui enregistre les débats

►► Bible & figurative Recording Angel = l'ange qui tient le livre des actes (bons et mauvais) de chacun;

recording artist musicien(enne) m,f qui enregistre des disques;

∎ she's a recording artist for Phonolog elle enregistre (des disques) chez Phonolog;

recording engineer ingénieur m du son;

recording head tête f d'enregistrement;

recording studio studio m d'enregistrement;

recording tape ruban m ou bande f d'enregistrement

sound recording

звукозапись

home recording studio — домашняя студия звукозаписи

sound recording equipment — аппаратура звукозаписи

recording company — компания звукозаписи

recording studio — студия звукозаписи

tonnage tax company

гос. фин., брит. судоходная компания, платящая налог с тоннажа* !

возможно, нужно новое подзначение к tonnage tax! ссылок маловато, в основном в этом законодательном акте. не разобралась до конца!

http:www.opsi.gov.uk/acts/acts2000/00017-cg.htm

TONNAGE TAX

PART I

INTRODUCTORY

Tonnage tax

"

1. - (1) This Schedule provides an alternative regime (""tonnage tax"") for calculating the profits of a shipping company for the purposes of corporation tax.

" "

(2) The regime applies only if an election to that effect ( a ""tonnage tax election"") is made (see Part II of this Schedule).

"

Companies that are members of a group must join in a group election.

(3) A tonnage tax election may only be made if-

(a) the company or group is a qualifying company or group (see Part III of this Schedule), and

(b) certain requirements are met as to training (see Part IV of this Schedule) and other matters (see Part V of this Schedule).

Tonnage tax companies and groups

"

2. - (1) In this Schedule a ""tonnage tax company"" or ""tonnage tax group"" means a company or group in relation to which a tonnage tax election has effect.

"

(2) References in this Schedule to a company entering or leaving tonnage tax are to its becoming or ceasing to be a tonnage tax company.

References to a company being subject to tonnage tax have a corresponding meaning.

Profits of tonnage tax company

3. - (1) In the case of a tonnage tax company, its tonnage tax profits are brought into charge to corporation tax in place of its relevant shipping profits (see Part VI of this Schedule).

(2) Where profits would be relevant shipping income, any loss accruing to the company is similarly left out of account for the purposes of corporation tax.

Tonnage tax profits: method of calculation

4. - (1) A company's tonnage tax profits for an accounting period are calculated in accordance with this paragraph by reference to the net tonnage of the qualifying ships operated by the company.

For the purposes of the calculation the net tonnage of a ship is rounded down (if necessary) to the nearest multiple of 100 tons.

(2) The calculation is as follows:

Step One Determine the daily profit for each qualifying ship operated by the company by reference to the following table and the net tonnage of the ship:

For each 100 tons up to 1,000 tons

£0.60

For each 100 tons between 1,000 and 10,000 tons

£0.45

For each 100 tons between 10,000 and 25,000 tons

£0.30

For each 100 tons above 25,000 tons

£0.15

Step Two Work out the ship's profit for the accounting period by multiplying the daily profit by-

(a) the number of days in the accounting period, or

(b) if the ship was operated by the company as a qualifying ship for only part of the period, by the number of days in that part.

Step Three Follow Steps One and Two for each of the qualifying ships operated by the company in the accounting period.

Step Four Add together the resulting amounts and the total is the amount of the company's tonnage tax profits for that accounting period.

Tonnage tax profits: calculation in case of joint operation etc.

5. - (1) If two or more companies fall to be regarded as operators of a ship by virtue of a joint interest in the ship, or in an agreement for the use of the ship, the tonnage tax profits of each are calculated as if each were entitled to a share of the profits proportionate to its share of that interest.

(2) If two or more companies fall to be treated as the operator of a ship otherwise than as mentioned in sub-paragraph (1), the tonnage tax profits of each are computed as if each were the only operator.

Measurement of tonnage of ship

6. - (1) References in this Schedule to the gross or net tonnage of a ship are to that tonnage as determined-

"

(a) in the case of a vessel of 24 metres in length or over, in accordance with the IMO International Convention on Tonnage Measurement of Ships (ITC69);

"

(b) in the case of a vessel under 24 metres in length, in accordance with tonnage regulations.

(2) A ship shall not be treated as a qualifying ship for the purposes of this Schedule unless there is in force-

(a) a valid International Tonnage Certificate (1969), or

(b) a valid certificate recording its tonnage as measured in accordance with tonnage regulations.

"

(3) In this paragraph ""tonnage regulations"" means regulations under section 19 of the Merchant Shipping Act 1995 or provisions of the law of a country or territory outside the United Kingdom corresponding to those regulations.

"

+ мультитран:

Max Factor

6.05.2006 11:56

Тема сообщения: tonnage tax company

Пожалуйста, помогите перевести.

tonnage tax, если верить Мультитрану - корабельный сбор, а как это к company применить не представляю. компания, подлежащая обложению корабельным сбором?? - чушь какая-то...

Помогите, плиз!

Заранее спасибо Mt | Google

Codeater

6.05.2006 12:07

"

Tonnage Tax - это такой вид налогообложения судоходных компаний (пароходств), при котором размер налога рассчитывается в зависимости от чистой регистровой вместимости судов, составляющих флот компании (т.н. ""налог на тоннаж""). Tonnage tax company - компания подлежащая такому виду налогообложения.

"

Некоторые налоговые изменения коснутся мореходных компаний, для которых !подоходный налог! будет заменен на !налог с тоннажа! судна.

CTRCO

1) Вычислительная техника: Calculating, Tabulating, Recording Company (The name of this company was changed to "International Business Machines" by Thomas J. Watson, Sr.)

2) Расширение файла: Calculating, Tabulating, Recording Company (The name of this company was changed to International Business Machines by Thomas J. Watson, Sr.)

CTRC

1) Медицина: Cancer Therapy Research Center

2) Техника: chief communications technician, collection

3) Радио: Carnegie Tech Radio Club

4) Фирменный знак: Computing Tabulating Recording Company

WJRC

1) Радио: West Jersey Radio Control Club

2) Фирменный знак: Western Jubilee Recording Company

Johnson, Eldridge Reeves

SUBJECT AREA: Recording

[br]

b. 18 February 1867 Wilmington, Delaware, USA

d. 14 November 1945 Moorestown, New Jersey, USA

[br]

American industrialist, founder and owner of the Victor Talking Machine Company; developer of many basic constructions in mechanical sound recording and the reproduction and manufacture of gramophone records.

[br]

He graduated from the Dover Academy (Delaware) in 1882 and was apprenticed in a machine-repair firm in Philadelphia and studied in evening classes at the Spring Garden Institute. In 1888 he took employment in a small Philadelphia machine shop owned by Andrew Scull, specializing in repair and bookbinding machinery. After travels in the western part of the US, in 1891 he became a partner in Scull \& Johnson, Manufacturing Machinists, and established a further company, the New Jersey Wire Stitching Machine Company. He bought out Andrew Scull's interest in October 1894 (the last instalment being paid in 1897) and became an independent general machinist. In 1896 he had perfected a spring motor for the Berliner flat-disc gramophone, and he started experimenting with a more direct method of recording in a spiral groove: that of cutting in wax. Co-operation with Berliner eventually led to the incorporation of the Victor Talking Machine Company in 1901. The innumerable court cases stemming from the fact that so many patents for various elements in sound recording and reproduction were in very many hands were brought to an end in 1903 when Johnson was material in establishing cross-licencing agreements between Victor, Columbia Graphophone and Edison to create what is known as a patent pool. Early on, Johnson had a thorough experience in all matters concerning the development and manufacture of both gramophones and records. He made and patented many major contributions in all these fields, and his approach was very business-like in that the contribution to cost of each part or process was always a decisive factor in his designs. This attitude was material in his consulting work for the sister company, the Gramophone Company, in London before it set up its own factories in 1910. He had quickly learned the advantages of advertising and of providing customers with durable equipment and records. This motivation was so strong that Johnson set up a research programme for determining the cause of wear in records. It turned out to depend on groove profile, and from 1911 one particular profile was adhered to and processes for transforming the grooves of valuable earlier records were developed. Without precise measuring instruments, he used the durability as the determining factor. Johnson withdrew more and more to the role of manager, and the Victor Talking Machine Company gained such a position in the market that the US anti-trust legislation was used against it. However, a generation change in the Board of Directors and certain erroneous decisions as to product line started a decline, and in February 1926 Johnson withdrew on extended sick leave: these changes led to the eventual sale of Victor. However, Victor survived due to the advent of radio and the electrification of replay equipment and became a part of Radio Corporation of America. In retirement Johnson took up various activities in the arts and sciences and financially supported several projects; his private yacht was used in 1933 in work with the Smithsonian Institution on a deep-sea hydrographie and fauna-collecting expedition near Puerto Rico.

[br]

Bibliography

Johnson's patents were many, and some were fundamental to the development of the gramophone, such as: US patent no. 650,843 (in particular a recording lathe); US patent nos. 655,556, 655,556 and 679,896 (soundboxes); US patent no. 681,918 (making the original conductive for electroplating); US patent no. 739,318 (shellac record with paper label).

Further Reading

Mrs E.R.Johnson, 1913, "Eldridge Reeves Johnson (1867–1945): Industrial pioneer", manuscript (an account of his early experience).

E.Hutto, Jr, "Emile Berliner, Eldridge Johnson, and the Victor Talking Machine Company", Journal of AES 25(10/11):666–73 (a good but brief account based on company information).

E.R.Fenimore Johnson, 1974, His Master's Voice was Eldridge R.Johnson, Milford, Del.

(a very personal biography by his only son).

GB-N

Haddy, Arthur Charles

SUBJECT AREA: Electronics and information technology, Recording

[br]

b. 16 May 1906 Newbury, Berkshire, England

d. December 1989

[br]

English electronics engineer who developed Full Frequency Range Recording for the Decca Record Company and was instrumental in the development of stereo records.

[br]

He developed recording equipment for. the Crystallate Gramophone Company, becoming Chief Recording Engineer at Decca when Crystallate was taken over. Eventually he was made Technical Director of Decca Record Company Ltd, a position he held until 1980. The developments of good cutterheads accelerated due to contract work for the armed services during the Second World War, because an extended frequency range was needed. This necessitated the solution of the problem of surface noise, and the result became known publicly as the ffrr system. The experience gained enabled Haddy to pioneer European Long Play recording. Haddy started development of a practical stereo record system within the Decca group, and for economic reasons he eventually chose a solution developed outside his direct surveillance by Teldec. The foresight of Decca made the company an equal partner in the standards discussions during the late 1950s, when it was decided to use the American 45/45 system, which utilized the two side walls of the groove. The same foresight had led Decca to record their repertoire in stereo from 1954 in order to prepare for any commercialized distribution system. In 1967 Haddy also became responsible for cassette manufacture, which meant organizing the logistics of a tape-duplication plant.

[br]

Principal Honours and Distinctions

OBE 1976.

Bibliography

Haddy's patents are a good description of some of his technical achievements; for example: UK patent no. 770,465 (greater playing time from a record by changing the groove pitch); UK patent no. 807,301 (using feedback to linearize a cutterhead); UK patent no. 810,106 (two-channel by simultaneous vertical and lateral modulation).

Further Reading

G.A.Briggs (ed.), 1961, Audio Biographies, Wharfedale Wireless Works, pp. 157–63. H.E.Roys, "The coming of stereo", Jour. AES 25 (10/11):824–7 (an appreciation of Haddy's role in the standardization of stereo recording).

GB-N

Blumlein, Alan Dower

SUBJECT AREA: Aerospace, Broadcasting, Electronics and information technology, Photography, film and optics, Recording, Telecommunications

[br]

b. 29 June 1903 Hampstead, London, England

d. 7 June 1942

[br]

English electronics engineer, developer of telephone equipment, highly linear electromechanical recording and reproduction equipment, stereo techniques, video and radar technology.

[br]

He was a very bright scholar and received a BSc in electrical technology from City and Guilds College in 1923. He joined International Western Electric (later to become Standard Telephone and Cables) in 1924 after a period as an instructor/demonstrator at City and Guilds. He was instrumental in the design of telephone measuring equipment and in international committee work for standards for long-distance telephony.

From 1929 Blumlein was employed by the Columbia Graphophone Company to develop an electric recording cutterhead that would be independent of Western Electric's patents for the system developed by Maxfield and Harrison. He attacked the problems in a most systematic fashion, and within a year he had developed a moving-coil cutterhead that was much more linear than the iron-cored systems known at the time. Eventually Blumlein designed a complete line of recording equipment, from microphone and through-power amplifiers. The design was used by Columbia; after the merger with the Gramophone Company in 1931 to form Electrical and Musical Industries Ltd (later known as EMI) it became the company standard, certainly for coarse-groove records, until c.1950.

Blumlein became interested in stereophony (binaural sound), and developed and demonstrated a complete line of equipment, from correctly placed microphones via two-channel records and stereo pick-ups to correctly placed loudspeakers. The advent of silent surfaces of vinyl records made this approach commercial from the late 1950s. His approach was independent and quite different from that of A.C. Keller.

His extreme facility for creating innovative solutions to electronic problems was used in EMI's development from 1934 to 1938 of the electronic television system, which became the BBC standard of 405 lines after the Second World War, when television broadcasting again became possible. Independent of official requirements, EMI developed a 60 MHz radar system and Blumlein was involved in the development of a centimetric radar and display system. It was during testing of this aircraft mounted equipment that he was killed in a crash.

[br]

Bibliography

Blumlein was inventor or co-inventor of well over 120 patents, a complete list of which is to be found in Burns (1992; see below). The major sound-recording achievements are documented by British patent nos. 350,954, 350,998, 363,627 (highly linear cutterhead, 1930) and 394,325 (reads like a textbook on stereo technology, 1931).

Further Reading

The definitive biography of Blumlein has not yet been written; the material seems to have been collected, but is not yet available. However, R.W.Burns, 1992, "A.D.Blumlein, engineer extraordinary", Engineering Science and Education Journal (February): 19– 33 is a thorough account. Also B.J.Benzimra, 1967, "A.D. Blumlein: an electronics genius", Electronics \& Power (June): 218–24 provides an interesting summary.

GB-N

Voigt, Paul Gustavus Adolphus Helmuth

SUBJECT AREA: Broadcasting, Electronics and information technology, Recording

[br]

b. 9 December 1901 Forest Hill, London, England

d. 9 February 1981 Brighton, Ontario, Canada

[br]

English/Canadian electronics engineer, developer of electromechanical recording and reproductions systems, amplifiers and loudspeakers.

[br]

He received his education at Dulwich College and in 1922 graduated with a BSc from University College, London. He had an early interest in the application of valve amplifiers, and after graduating he was employed by J.E.Hough, Edison Bell Works, to develop a line of radio-receiving equipment. However, he became interested in the mechanical (and later electrical) side of recording and from 1925 developed principles and equipment. In particular he developed capacitor microphones, not only for in-house work but also commercially, until the mid-1930s. The Edison Bell company did not survive the Depression and closed in 1933. Voigt founded his own company, Voigt Patents Ltd, concentrating on loudspeakers for cinemas and developing horn loudspeakers for domestic use. During the Second World War he continued to develop loudspeaker units and gramophone pick-ups, and in 1950 he emigrated to Toronto, Canada, but his company closed. Voigt taught electronics, and from 1960 to 1969 he was employed by the Radio Regulations Laboratory in Ottawa. After retirement he worked with theoretical cosmology and fundamental interactions.

[br]

Bibliography

Most of Voigt's patents are concerned with improvements in the magnetic circuit in dynamic loudspeakers and centring devices for diaphragms. However, UK patent nos. 278,098, 404,037 and 447,749 may be regarded as particularly relevant. In 1940 Voigt contributed a remarkable paper on the principles of equalization in mechanical recording: "Getting the best from records, part 1—the recording characteristic", Wireless World (February): 141–4.

Further Reading

Personal accounts of experiences with Voigt may be found in "Paul Voigt's contribution to Audio", British Kinematography Sound and Television (October 1970): 316–27, which also includes a list of his patents.

GB-N

De Forest, Lee

SUBJECT AREA: Broadcasting, Electronics and information technology, Photography, film and optics, Recording, Telecommunications

[br]

b. 26 August 1873 Council Bluffs, Iowa, USA

d. 30 June 1961 Hollywood, California, USA

[br]

American electrical engineer and inventor principally known for his invention of the Audion, or triode, vacuum tube; also a pioneer of sound in the cinema.

[br]

De Forest was born into the family of a Congregational minister that moved to Alabama in 1879 when the father became President of a college for African-Americans; this was a position that led to the family's social ostracism by the white community. By the time he was 13 years old, De Forest was already a keen mechanical inventor, and in 1893, rejecting his father's plan for him to become a clergyman, he entered the Sheffield Scientific School of Yale University. Following his first degree, he went on to study the propagation of electromagnetic waves, gaining a PhD in physics in 1899 for his thesis on the "Reflection of Hertzian Waves from the Ends of Parallel Wires", probably the first US thesis in the field of radio.

He then joined the Western Electric Company in Chicago where he helped develop the infant technology of wireless, working his way up from a modest post in the production area to a position in the experimental laboratory. There, working alone after normal working hours, he developed a detector of electromagnetic waves based on an electrolytic device similar to that already invented by Fleming in England. Recognizing his talents, a number of financial backers enabled him to set up his own business in 1902 under the name of De Forest Wireless Telegraphy Company; he was soon demonstrating wireless telegraphy to interested parties and entering into competition with the American Marconi Company.

Despite the failure of this company because of fraud by his partners, he continued his experiments; in 1907, by adding a third electrode, a wire mesh, between the anode and cathode of the thermionic diode invented by Fleming in 1904, he was able to produce the amplifying device now known as the triode valve and achieve a sensitivity of radio-signal reception much greater than possible with the passive carborundum and electrolytic detectors hitherto available. Patented under the name Audion, this new vacuum device was soon successfully used for experimental broadcasts of music and speech in New York and Paris. The invention of the Audion has been described as the beginning of the electronic era. Although much development work was required before its full potential was realized, the Audion opened the way to progress in all areas of sound transmission, recording and reproduction. The patent was challenged by Fleming and it was not until 1943 that De Forest's claim was finally recognized.

Overcoming the near failure of his new company, the De Forest Radio Telephone Company, as well as unsuccessful charges of fraudulent promotion of the Audion, he continued to exploit the potential of his invention. By 1912 he had used transformer-coupling of several Audion stages to achieve high gain at radio frequencies, making long-distance communication a practical proposition, and had applied positive feedback from the Audion output anode to its input grid to realize a stable transmitter oscillator and modulator. These successes led to prolonged patent litigation with Edwin Armstrong and others, and he eventually sold the manufacturing rights, in retrospect often for a pittance.

During the early 1920s De Forest began a fruitful association with T.W.Case, who for around ten years had been working to perfect a moving-picture sound system. De Forest claimed to have had an interest in sound films as early as 1900, and Case now began to supply him with photoelectric cells and primitive sound cameras. He eventually devised a variable-density sound-on-film system utilizing a glow-discharge modulator, the Photion. By 1926 De Forest's Phonofilm had been successfully demonstrated in over fifty theatres and this system became the basis of Movietone. Though his ideas were on the right lines, the technology was insufficiently developed and it was left to others to produce a system acceptable to the film industry. However, De Forest had played a key role in transforming the nature of the film industry; within a space of five years the production of silent films had all but ceased.

In the following decade De Forest applied the Audion to the development of medical diathermy. Finally, after spending most of his working life as an independent inventor and entrepreneur, he worked for a time during the Second World War at the Bell Telephone Laboratories on military applications of electronics.

[br]

Principal Honours and Distinctions

Institute of Electronic and Radio Engineers Medal of Honour 1922. President, Institute of Electronic and Radio Engineers 1930. Institute of Electrical and Electronics Engineers Edison Medal 1946.

Bibliography

1904, "Electrolytic detectors", Electrician 54:94 (describes the electrolytic detector). 1907, US patent no. 841,387 (the Audion).

1950, Father of Radio, Chicago: WIlcox \& Follett (autobiography).

De Forest gave his own account of the development of his sound-on-film system in a series of articles: 1923. "The Phonofilm", Transactions of the Society of Motion Picture Engineers 16 (May): 61–75; 1924. "Phonofilm progress", Transactions of the Society of Motion Picture Engineers 20:17–19; 1927, "Recent developments in the Phonofilm", Transactions of the Society of Motion Picture Engineers 27:64–76; 1941, "Pioneering in talking pictures", Journal of the Society of Motion Picture Engineers 36 (January): 41–9.

Further Reading

G.Carneal, 1930, A Conqueror of Space (biography).

I.Levine, 1964, Electronics Pioneer, Lee De Forest (biography).

E.I.Sponable, 1947, "Historical development of sound films", Journal of the Society of Motion Picture Engineers 48 (April): 275–303 (an authoritative account of De Forest's sound-film work, by Case's assistant).

W.R.McLaurin, 1949, Invention and Innovation in the Radio Industry.

C.F.Booth, 1955, "Fleming and De Forest. An appreciation", in Thermionic Valves 1904– 1954, IEE.

V.J.Phillips, 1980, Early Radio Detectors, London: Peter Peregrinus.

KF / JW

Berliner, Emile

SUBJECT AREA: Recording

[br]

b. 20 May 1851 Hannover, Germany

d. 3 August 1929 Montreal, Canada

[br]

German (naturalized American) inventor, developer of the disc record and lateral mechanical replay.

[br]

After arriving in the USA in 1870 and becoming an American citizen, Berliner worked as a dry-goods clerk in Washington, DC, and for a period studied electricity at Cooper Union for the Advancement of Science and Art, New York. He invented an improved microphone and set up his own experimental laboratory in Washington, DC. He developed a microphone for telephone use and sold the rights to the Bell Telephone Company. Subsequently he was put in charge of their laboratory, remaining in that position for eight years. In 1881 Berliner, with his brothers Joseph and Jacob, founded the J.Berliner Telephonfabrik in Hanover, the first factory in Europe specializing in telephone equipment.

Inspired by the development work performed by T.A. Edison and in the Volta Laboratory (see C.S. Tainter), he analysed the existing processes for recording and reproducing sound and in 1887 developed a process for transferring lateral undulations scratched in soot into an etched groove that would make a needle and diaphragm vibrate. Using what may be regarded as a combination of the Phonautograph of Léon Scott de Martinville and the photo-engraving suggested by Charles Cros, in May 1887 he thus demonstrated the practicability of the laterally recorded groove. He termed the apparatus "Gramophone". In November 1887 he applied the principle to a glass disc and obtained an inwardly spiralling, modulated groove in copper and zinc. In March 1888 he took the radical step of scratching the lateral vibrations directly onto a rotating zinc disc, the surface of which was protected, and the subsequent etching created the groove. Using well-known principles of printing-plate manufacture, he developed processes for duplication by making a negative mould from which positive copies could be pressed in a thermoplastic compound. Toy gramophones were manufactured in Germany from 1889 and from 1892–3 Berliner manufactured both records and gramophones in the USA. The gramophones were hand-cranked at first, but from 1896 were based on a new design by E.R. Johnson. In 1897–8 Berliner spread his activities to England and Germany, setting up a European pressing plant in the telephone factory in Hanover, and in 1899 a Canadian company was formed. Various court cases over patents removed Berliner from direct running of the reconstructed companies, but he retained a major economic interest in E.R. Johnson's Victor Talking Machine Company. In later years Berliner became interested in aeronautics, in particular the autogiro principle. Applied acoustics was a continued interest, and a tile for controlling the acoustics of large halls was successfully developed in the 1920s.

[br]

Bibliography

16 May 1888, Journal of the Franklin Institute 125 (6) (Lecture of 16 May 1888) (Berliner's early appreciation of his own work).

1914, Three Addresses, privately printed (a history of sound recording). US patent no. 372,786 (basic photo-engraving principle).

US patent no. 382,790 (scratching and etching).

US patent no. 534,543 (hand-cranked gramophone).

Further Reading

R.Gelatt, 1977, The Fabulous Phonograph, London: Cassell (a well-researched history of reproducible sound which places Berliner's contribution in its correct perspective). J.R.Smart, 1985, "Emile Berliner and nineteenth-century disc recordings", in Wonderful

Inventions, ed. Iris Newson, Washington, DC: Library of Congress, pp. 346–59 (provides a reliable account).

O.Read and W.L.Welch, 1959, From Tin Foil to Stereo, Indianapolis: Howard W.Sams, pp. 119–35 (provides a vivid account, albeit with less precision).

GB-N

Poniatoff, Alexander Mathew

SUBJECT AREA: Broadcasting, Electronics and information technology, Recording

[br]

b. 25 March 1892 Kazan District, Russia

d. 24 October 1980

[br]

Russian (naturalized American in 1932) electrical engineer responsible for the development of the professional tape recorder and the first commercially-successful video tape recorder (VTR).

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Poniatoff was educated at the University of Kazan, the Imperial College in Moscow, and the Technische Hochschule in Karlsruhe, gaining degrees in mechanical and electrical engineering. He was in Germany when the First World War broke out, but he managed to escape back to Russia, where he served as an Air Force pilot with the Imperial Russian Navy. During the Russian Revolution he was a pilot with the White Russian Forces, and escaped into China in 1920; there he found work as an assistant engineer in the Shanghai Power Company. In 1927 he immigrated to the USA, becoming a US citizen in 1932. He obtained a post in the research and development department of the General Electric Company in Schenectady, New York, and later at Dalmo Victor, San Carlos, California. During the Second World War he was involved in the development of airborne radar for the US Navy.

In 1944, taking his initials to form the title, Poniatoff founded the AMPEX Corporation to manufacture components for the airborne radar developed at General Electric, but in 1946 he turned to the production of audio tape recorders developed from the German wartime Telefunken Magnetophon machine (the first tape recorder in the truest sense). In this he was supported by the entertainer Bing Crosby, who needed high-quality replay facilities for broadcasting purposes, and in 1947 he was able to offer a professional-quality product and the business prospered.

With the rapid post-war boom in television broadcasting in the USA, a need soon arose for a video recorder to provide "time-shifting" of live TV programmes between the different US time zones. Many companies therefore endeavoured to produce a video tape recorder (VTR) using the same single-track, fixed-head, longitudinal-scan system used for audio, but the very much higher bandwidth required involved an unacceptably high tape-speed. AMPEX attempted to solve the problem by using twelve parallel tracks and a machine was demonstrated in 1952, but it proved unsatisfactory.

The development team, which included Charles Ginsburg and Ray Dolby, then devised a four-head transverse-scan system in which a quadruplex head rotating at 14,400 rpm was made to scan across the width of a 2 in. (5 cm) tape with a tape-to-head speed of the order of 160 ft/sec (about 110 mph; 49 m/sec or 176 km/h) but with a longitudinal tape speed of only 15 in./sec (0.38 m/sec). In this way, acceptable picture quality was obtained with an acceptable tape consumption. Following a public demonstration on 14 April 1956, commercial produc-tion of studio-quality machines began to revolutionize the production and distribution of TV programmes, and the perfecting of time-base correctors which could stabilize the signal timing to a few nanoseconds made colour VTRs a practical proposition. However, AMPEX did not rest on its laurels and in the face of emerging competition from helical scan machines, where the tracks are laid diagonally on the tape, the company was able to demonstrate its own helical machine in 1957. Another development was the Videofile system, in which 250,000 pages of facsimile could be recorded on a single tape, offering a new means of archiving information. By 1986, quadruplex VTRs were obsolete, but Poniatoff's role in making television recording possible deserves a place in history.

Poniatoff was President of AMPEX Corporation until 1955 and then became Chairman of the Board, a position he held until 1970.

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Further Reading

A.Abrahamson, 1953, "A short history of television recording", Part I, JSMPTE 64:73; 1973, Part II, Journal of the Society of Motion Picture and Television Engineers, 82:188 (provides a fuller background).

Audio Biographies, 1961, ed. G.A.Briggs, Wharfedale Wireless Works, pp. 255–61 (contains a few personal details about Poniatoff's escape from Germany to join the Russian Navy).

E.Larsen, 1971, A History of Invention.

Charles Ginsburg, 1981, "The horse or the cowboy. Getting television on tape", Journal of the Royal Television Society 18:11 (a brief account of the AMPEX VTR story).

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