Oscilloscopes - Representing the Voltage of an Electronic Device
An oscilloscope is an electronic instrument that is used to represent the voltage of an electronic device. It signifies one or more electric potential differences in a clear two-dimensional graph, with the horizontal axis representing time and the vertical axis showing voltage. It is used to diagnose the working condition of any electric equipment.
There are basically two kinds of oscilloscopes: analog and digital. Digital oscilloscopes use analog-to-digital converter for converting the measured voltage into digital data. The digital oscilloscope collects waveforms in the form of samples, which is then displayed on the screen when it has accumulated enough samples. Digital oscilloscopes have higher data processing capabilities.
Digital oscilloscopes are further categorized into: digital storage oscilloscopes, digital phosphor oscilloscopes and sampling oscilloscopes. A Digital storage oscilloscope is just a conventional digital oscilloscope.
It displays on a raster-type screen instead of luminous phosphor. The waveform information in a digital oscilloscope can be stored, archived, analyzed and printed by the oscilloscope or by a computer attached to it. One thing that differentiates digital oscilloscopes from analog ones is that, there is permanent signal storage and extensive waveform processing.
Digital storage oscilloscopes are perfect for applications that involve single-shot, high-speed, multi-channel design or low-repetition-rate.
Digital phosphor oscilloscopes are an advanced version of the digital oscilloscopes. They have unmatched acquisition and display capacities. They can reconstruct a signal very accurately. They use parallel processing architecture unlike digital storage oscilloscopes that use serial processing architecture for capturing, displaying and analyzing signals.
Digital phosphor oscilloscopes rasterize waveform data and copy it to the display memory without any processing bottlenecks. A digital phosphor oscilloscope is perfect for digital debugging of intermittent signals, communication mask testing, repetitive digital design and timing purposes.
A digital sampling oscilloscope is used for capturing signals for which the frequency components are much higher than the oscilloscope's sample rate. This oscilloscope can capture very fast signals, and also attain very high bandwidth and high-speed timing for repetitive signals.
However, a digital sampling oscilloscope's has a limited dynamic range to around 1Volt (peak-to-peak). Even the safe input voltage is very limited at 3 V as compared to 500 V for other oscilloscopes.
Analog to digital convertors are used in digital oscilloscope. It collects the waveforms in the form of illustrations that are showed on the screen. It has very high data processing capabilities as compared to analog oscilloscope as well as easy to read and understandable by the observer more clearly as not everyone can read properly from the analog oscilloscope it really needs a lot of expertise.
It can be said as the Conventional oscilloscope. The display of digital storage oscilloscope is on a raster kind of screen rather than luminous phosphor. The best thing about this oscilloscope is that the information displayed on storage oscilloscope can be analyzed, stored, printed and archived by the oscilloscope or the computer that is attached to it.
They can be said as the more advanced version of the digital oscilloscope they have matchless acquirement and displaying capacity. One of the most important benefits with these kinds of oscilloscope is that they can reform a signal perfectly!
Their architecture is mainly a parallel processing one, not the serial processing architecture for analyzing, printing, storing and archiving like the way it is processed in digital storage oscilloscopes.
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