6. Calculate KTB for B = 1Hz (equal to -174dBm at room temperature). 7. Subtract KTB from the normalized Nyquist band noise power to determine the ADC effective noise figure. Figure 1. Steps to determine effective ADC noise figure. Observations 1. As the sample rate is doubled, the ...
摘要:Abstract: The following application note provides an insight into the mathematical definitions of quantization and thermal noise, parameters which can significantly affect the signal-to-noise ratio (SNR) and signal-to-noise plus distortion... Abstract: The following applicaTIon note provides an in...
Calculate KTB for B = 1Hz (equal to -174dBm at room temperature). Subtract KTB from the normalized Nyquist band noise power to determine the ADC effective noise figure. Figure 1. Steps to determine effective ADC noise figure. Observations As the sample rate is doubled, the effective noise f...
Calculate KTB for B = 1Hz (equal to -174dBm at room temperature). Subtract KTB from the normalized Nyquist band noise power to determine the ADC effective noise figure. Figure 1. Steps to determine effective ADC noise figure. Observations As the sample rate is doubled, the effective noise f...