Memory Storage Devices: Difference between revisions

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== Magnetic recording ==
== Magnetic recording ==


Magnetic recording is a process where portions of a magnetic material are selectively magnetized with the use of electrical signals. The first use of this kind of technique was introduced by a Danish engineer Valdemar Poulsen in 1900. He created a machine called telegraphone that allowed him to record speech magnetically on a steel wire, and this became the start of many storage devices that are existent today.
Magnetic recording is a process where portions of a magnetic material are selectively magnetized with the use of electrical signals.  


== History of recording devices ==
As technology improved significantly over time, a wide number of recording devices have been introduced.
=== Telegraphone ===
The first use of this kind of technique was introduced by a Danish engineer Valdemar Poulsen in 1900. He created a machine called telegraphone that allowed him to record speech magnetically on a steel wire, and this became the start of many storage devices that are existent today. After the introduction, he continued to develop the technology and improved the sound quality through the use of direct current onto the recording head. However, the signals were weak and difficult to amplify, with the quality of the product highly fluctuating and thus unreliable.
[[File:telegraphone.jpg]]
=== Magnetophone ===


== How it works ==
== How it works ==
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[[File:Digital recording.gif]]
[[File:Digital recording.gif]]


== References ==
== References ==
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http://www.spring8.or.jp/en/news_publications/research_highlights/no_51/
http://www.spring8.or.jp/en/news_publications/research_highlights/no_51/
http://www.aes.org/aeshc/docs/recording.technology.history/magnetic4.html

Revision as of 19:22, 5 December 2015

--Lee Dong Hyun dlee682 (talk) 19:06, 5 December 2015 (EST)

Magnetic storage devices use the method of magnetic recording to preserve data.


Magnetic recording

Magnetic recording is a process where portions of a magnetic material are selectively magnetized with the use of electrical signals.

History of recording devices

As technology improved significantly over time, a wide number of recording devices have been introduced.

Telegraphone

The first use of this kind of technique was introduced by a Danish engineer Valdemar Poulsen in 1900. He created a machine called telegraphone that allowed him to record speech magnetically on a steel wire, and this became the start of many storage devices that are existent today. After the introduction, he continued to develop the technology and improved the sound quality through the use of direct current onto the recording head. However, the signals were weak and difficult to amplify, with the quality of the product highly fluctuating and thus unreliable.

Magnetophone

How it works

The main physics behind magnetic recording involves specific patterns of magnetization on a track which corresponds to specific signals to be stored. The signals triggers the magnetization of the material as it passes through the recording device, and the remnants of the magnetization are the codes which become the basis of the storage of the data. To retrieve the data stored, the reverse process happens: the magnetization is detected by the reader which reproduces the signal that initially triggered the magnetization. The two earliest versions of this recording were longitudinal recording and perpendicular recording.


Recording methods

Analog Recording

Analog recording was the most popular method used when tapes were the most prevalent recording devices. The tape would run at a constant speed, and the writing head magnetizes the tape in response to the signals required to record a particular piece of data. Once a magnetization distribution is completed to store the relevant data, this distribution can be read out to replay the original signal which triggered the magnetization. The commonly used magnetic particles for this method are Iron oxide particles or Chromium oxide.

Digital Recording

Digital recording can be considered a more advanced method of recording, as instead of creating a magnetization distribution, digital recording makes use of magnetic states. The method involves the usage of two stable magnetic states, which are the +Ms and the -Ms on a hysteresis loop. This converts into a binary code of 0 and 1 to construct a data of existence/non-existence of signal in the particular area of recording medium. This is a technique which is used to create devices such as floppy disks and the currently popular hard disk drives.


References

http://www.britannica.com/topic/magnetic-recording

http://www.cse.scu.edu/~tschwarz/coen180_04/LN/physics.html

http://artsites.ucsc.edu/EMS/music/tech_background/te-19/teces_19.html

http://artsites.ucsc.edu/EMS/music/tech_background/TE-16/teces_16.html

http://www.spring8.or.jp/en/news_publications/research_highlights/no_51/

http://www.aes.org/aeshc/docs/recording.technology.history/magnetic4.html