Magnetic Recording: The First 100 YearsEric D. Daniel, C. Denis Mee, Mark H. Clark Electrical Engineering/History of Technology Magnetic Recording The First 100 Years The first magnetic recording device was demonstrated and patented by the Danish inventor Valdemar Poulsen in 1898. Poulsen made a magnetic recording of his voice on a length of piano wire. Magnetic Recording traces the development of the watershed products and the technical breakthroughs in magnetic recording that took place during the century from Poulsen’s experiment to today’s ubiquitous audio, video, and data recording technologies, including tape recorders, video cassette recorders, and computer hard drives. An international author team brings a unique perspective, drawn from professional experience, to the history of magnetic recording applications. Their key insights shed light on how magnetic recording triumphed over all competing technologies and revolutionized the music, radio, television, and computer industries. They also show how these developments offer opportunities for future applications. Magnetic Recording features 116 illustrations, including 92 photographs of historic magnetic recording machines and their inventors. |
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Page 64
... Neumann condenser microphones and a stereo version of the R22 studio deck . The next stage was to improve the tape handling , wow , and flutter of the K4 - based Magnetophons . The breakthrough was Model K7 , the first tape deck with ...
... Neumann condenser microphones and a stereo version of the R22 studio deck . The next stage was to improve the tape handling , wow , and flutter of the K4 - based Magnetophons . The breakthrough was Model K7 , the first tape deck with ...
Page 221
... Neumann , or stored program digital computer in the 1950s changed the basic computer configuration , making it much more flexible and generating an ever increasing demand for memory or storage . Figure 15-1 shows a block diagram of a ...
... Neumann , or stored program digital computer in the 1950s changed the basic computer configuration , making it much more flexible and generating an ever increasing demand for memory or storage . Figure 15-1 shows a block diagram of a ...
Page 337
... Neumann , John von , 221 Newell transport , 151 NHK ( Japanese Broadcasting Company ) , 121 , 174 , 178 , 182 , 207 , 208 , 211 , 213 , 214 Noise reduction , 92 compander principle , 94 Dolby type A , 94 Dolby type B , 104 , 105-106 ...
... Neumann , John von , 221 Newell transport , 151 NHK ( Japanese Broadcasting Company ) , 121 , 174 , 178 , 182 , 207 , 208 , 211 , 213 , 214 Noise reduction , 92 compander principle , 94 Dolby type A , 94 Dolby type B , 104 , 105-106 ...
Contents
AUDIO RECORDING | 6 |
The Telegraphone | 15 |
Steel Tape and Wire Recorders | 30 |
Copyright | |
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Magnetic Recording: The First 100 Years Eric D. Daniel,C. Denis Mee,Mark H. Clark Limited preview - 1998 |
Common terms and phrases
ac bias Ampex analog applications areal density audio recording b/in bandwidth BASF bit density broadcast capacity capstan cartridge channel coating color compact cassette consumer cost Courtesy of IBM data rate data recording data storage developed device diameter digital audio digital recording digital video recording disk drive disk surface diskette early electronic engineers equipment error ferrite Figure film frequency hard disk helical-scan improved inches industry instrumentation recorder Jack Mullin Japan laboratory machine magnetic disk magnetic drum magnetic recording magnetic tape Magnetophon manufacturers Mb/s mechanism memory Model modulation operation Panasonic performance personal computer playback Poulsen production quadruplex radio RAMAC read/write recording format recording medium recording system recording technology reel rotating slider SMPTE Sony sound standard stored t/in tape drive tape systems Telegraphone television tion track density United video cassette recorder video signal video tape recorder wire