Noise Equivalent Bandwidth in Electronics and Instrumentation Formulas

Noise Equivalent Bandwidth represents the bandwidth of an ideal filter that would pass the same noise power as the transducer, affecting its signal-to-noise ratio. And is denoted by Δf. Noise Equivalent Bandwidth is usually measured using the Hertz for Frequency. Note that the value of Noise Equivalent Bandwidth is always positive.

Formulas to find Noise Equivalent Bandwidth in Electronics and Instrumentation

fxNoise Equivalent of BandwidthGo

Electronics and Instrumentation formulas that make use of Noise Equivalent Bandwidth

fxArea of DetectorGo

fxNormalized DetectivityGo

List of variables in Electronics and Instrumentation formulas

fx Normalized Detectivity Go

fx Transducer Detectivity Go

fx Detector Area Go

FAQ

What is the Noise Equivalent Bandwidth?

Noise Equivalent Bandwidth represents the bandwidth of an ideal filter that would pass the same noise power as the transducer, affecting its signal-to-noise ratio. Noise Equivalent Bandwidth is usually measured using the Hertz for Frequency. Note that the value of Noise Equivalent Bandwidth is always positive.

Can the Noise Equivalent Bandwidth be negative?

No, the Noise Equivalent Bandwidth, measured in Frequency cannot be negative.

What unit is used to measure Noise Equivalent Bandwidth?

Noise Equivalent Bandwidth is usually measured using the Hertz[Hz] for Frequency. Petahertz[Hz], Terahertz[Hz], Gigahertz[Hz] are the few other units in which Noise Equivalent Bandwidth can be measured.

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