Difference between revisions of "Digital storage oscilloscope"
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Latest revision as of 13:52, 10 December 2011
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A digital storage oscilloscope is an oscilloscope which stores and analyses the signal digitally rather than using analogue techniques. It is now the most common type of oscilloscope in use because of the advanced trigger, storage, display and measurement features which they typically provide.[1]
The input analogue signal is sampled and then converted into a digital record of the amplitude of the signal at each sample time. The sampling frequency should be the Nyquist rate or better to avoid aliasing. These digital values are then turned back into an analogue signal for the display if this is a cathode ray tube (CRT) or otherwise transformed as needed for the various possible types of output — liquid crystal display, chart recorder, plotter or network interface.[2]
Digital storage oscilloscopes are usually large and expensive — $400 USD or more. However, small, pocket-size models are now available which, though limited in function, may retail for as little as $50 USD.[3]
Contents
Advantages
Digital oscilloscopes will usually analyse and provide values as well as visual displays. These values will typically include averages, minima, maxima, root mean square (RMS) and frequencies. They may be used to capture transient signals when operated in a single sweep mode — something that was normally difficult to achieve with an analogue oscilloscope.[4]
References
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Further reading
- Hickman, Ian (1997.) "Digital storage oscilloscopes." Newnes. ISBN 0-7506-2856-1
External links
Resources (White papers, technical papers, application notes)
- The Effective Number of Bits (ENOB) - This application note explains how to measure the oscilloscope ENOB.
- The Impact of Digital Oscilloscope Blind Time on Your Measurements - This application note explains the background of blind time and points out why a high acquisition rate is important.
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- ↑ Ian Hickman (1997), Digital storage oscilloscopes, Newnes, ISBN 9780750628563
- ↑ Hughes electrical and electronic technology, Pearson Education, 2008, p. 953, ISBN 9780132060110
- ↑ Charlie Sorrel (May 13, 2009), "DIY Oscilloscope is Awesomely Affordable", Wired
- ↑ Alan S. Morris (2001), Measurement and instrumentation principles, Butterworth-Heinemann, p. 211, ISBN 9780750650816