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A Guide to Modern Digitisers


A Guide to Modern Digitisers
Hello electronic!
A Guide to Modern Digitisers      
 
 
By Anagha P.


Digitiser is the generic term for a device that converts analogue data (image, sound, video, document and signal) into digital format. The most common and simple digitiser found these days is the one attached to the liquid crystal display (LCD) of a touchscreen phone that converts your press, swipe and similar actions into digital signals, understandable by the phone.

To view figure of Functional modelling level: click here 
 

This article is about the more complex digitisers used in research, design, and test and measurement labs, which are different from the simple ones. Such instruments are often coupled with other instruments and used in situations where high-speed analogue signals need to be sampled. Some application areas include semiconductor testing, ultrasound and other non-destructive testing, particle physics research and experimentation, medical imaging, environmental monitoring (radar), software defined radio, video signal analysis, cable fault testing, communication protocol analysis and so on. 
 
What is a digitiser
A digitiser is basically a set of multiple analogue-to-digital converters (ADC) with added functionalities like buffer memory and programming capability. Each channel of a digitiser has one ADC. It rapidly acquires, stores and either sends these multiple channels of data to a PC for processing or processes the data onboard.

Early models of modern digitisers date back to 1950 and used nuclear instrumentation module (NIM) and computer automated measurement and control (CAMAC) interface standards. However, creation of the standard instrument interface bus, general-purpose interface bus (GPIB/IEEE-488) instrumentation standard, in the late 1960s was a breakthrough in this field.

With the advent of personal computers came several new high-speed interface standards like AdvancedTCA extensions for instrumentation and test (AXIe), compactPCI (cPCI), LAN eXtensions for instrumentation (LXI), micro telecommunications computing architecture (MTCA), peripheral component interconnect (PCI), PCIExpress (PCIe), PCI eXtensions for instrumentation (PXI), VersaModular Eurocard bus (VMEbus), VME eXtensions for instrumentation (VXI) and VPX for test system integration. These have led to the development of most advanced digitisers we find nowadays.

To view important tables comparing digitisers with DAQ and digital oscilloscopes: click here
 
DAQ, digitiser and oscilloscope
Although a digitiser is a device used for acquisition of data, it has several differences from a typical data acquisition (DAQ) system (Table I). Oscilloscopes and digitisers share some common attributes such as basic specifications (sample rate, vertical resolution, memory capacity and analogue bandwidth), similar power consumption and size. These both measure analogue data of any system, convert it to digital format and transfer the data to a controller or PC for further processing. Though the terms digitiser and oscilloscope are sometimes interchangeably used by firms like National Instruments, these have some differences (Table II).

When buying a digitiser
When buying a digitiser for your application, the digitiser specification should match the application waveform. According to industry experts, following are the top features to consider while buying a new digitiser:

Bandwidth. Any signal consists of a main signal along with its infinite harmonic components. A digitiser has to capture the input wave along with several harmonics in order to get its true shape with least distortions and the most accurate measurements. It is best if the bandwidth of the digitiser is at least two times the highest frequency component of the signal to be measured.


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