Academic Company Events Community Support Solutions Products & Services Contact NI MyNI
136 ratings:
 4.08 out of 5     Rate this Document

What is Spurious-Free Dynamic Range?



Hardware: Multifunction DAQ (MIO)

Problem:
What is Spurious-Free Dynamic Range?

Solution:
Spurious-Free Dynamic Range (SFDR) is a crucial specification that you can use to characterize the dynamic performance of a signal generator. SFDR specifies the relationship between the amplitude of the fundamental frequency being generated and the amplitude of the most prominent harmonic. In an ideal world, the frequency domain of a pure analog signal has all power concentrated at the desired frequency. However, due to noise and the nonlinearity of components, even the best signal generators also generate frequency content at harmonics (or multiples) of the desired tone.

For example, when generating a 10 MHz sine wave, you can observe harmonics at 20 MHz, 30 MHz, and so on.  These harmonics are also referred to as spurs.

The dynamic range between the fundamental tone and the largest spur is called spurious-free dynamic range (SFDR). SFDR is the measure of the ratio between the fundamental signal and the largest harmonically or nonharmonically related spur from the DC half of the sampling rate. You can calculate this specification visually by observing the following graph.



To measure the SFDR of a signal generator, a tone is generated at a given frequency. A spectrum analyzer is then used to measure the amplitude of the fundamental tone and the amplitude of the next highest tone. Typically, this is one of the harmonics.

Using decibels, it is easy to calculate SFDR:

On the graph above, the second harmonic is the second highest tone and the SFDR is approximately 310 dBc. As a matter of perspective, let us say the SFDR of a signal is 70 dBc. This means that the amplitude of spurious signals is always less than 0.0003162 times the amplitude of the fundamental frequency.

Given RMS voltages, you can calculate SFDR with the following equation: 

For many applications requiring a clean sinusoid, it is important that a signal generator has a good SFDR performance. For example, consider analog-to-digital-converter (ADC) characterization below.


For ADC characterization, it is important to measure the harmonic imperfections of the ADC. Thus, it is crucial that the stimulus to the device under test is as spectrally pure as possible.

Related Links:
KnowledgeBase ID 2MRIMPJT: What is the noise floor and how do you measure noise floor for the dynamic signal acquisition & analyzer (DSA) boards?
KnowledgeBase ID 4X31Q728:  How Do I measure the Dynamic Range of My Data Acquisition Device?
White Paper: Spec Study: Dynamic Range
White Paper: Signal-to-Noise Ratio

Attachments:





Report Date: 07/09/2002
Last Updated: 08/19/2014
Document ID: 2N8D0BN5

Your Feedback! poor Poor  |  Excellent excellent   Yes No
 Document Quality? 
 Answered Your Question? 
  1 2 3 4 5
Please Contact NI for all product and support inquiries.submit