Quiz: AC & DC Specifications TIPL 4002 TI Precision Labs – ADCs

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Quiz: AC & DC Specifications TIPL 4002 TI Precision Labs – ADCs Created by Art Kay

Quiz: AC & DC Specifications Gain error is a measurement of ____. The measured code width compared to the ideal code width. How the measured slope compares to the ideal slope. The ADC output with an input of zero volts. Offset error is a measurement of ____.

Quiz: AC & DC Specifications Power supply rejection can be used to ____. See how noise applied to the input impacts performance. See how noise on the power supply impacts performance. Check how the power supply voltage impacts self heating. Check how the power supply voltage impacts ac performance. Slope and offset of a converter can be computed using the following equations. m = (y2 - y1)/(x2 - x1), b = y1 - m*x1 m = (y2 + y1)/(x2 + x1), b = y1 - m*x1 m = (y2 - y1)/(x2 - x1), b = y1 + m*x1 m = (y2 - y1)/(x2 - x1), b = - y1 - m*x1

Quiz: AC & DC Specifications 5. (T/F) SNR is related to system nonlinearity. True. False. 6. (T/F) THD is related to system nonlinearity. 7. (T/F) THD + N combines the error sources from SNR and THD.

Solutions

Solutions Quiz: AC & DC Specifications Gain error is a measurement of ____. The measured code width compared to the ideal code width. How the measured slope compares to the ideal slope. The ADC output with an input of zero volts. Offset error is a measurement of ____.

Solutions Quiz: AC & DC Specifications Power supply rejection can be used to ____. See how noise applied to the input impacts performance. See how noise on the power supply impacts performance. Check how the power supply voltage impacts self heating. Check how the power supply voltage impacts ac performance. Slope and offset of a converter can be computed using the following equations. m = (y2 - y1)/(x2 - x1), b = y1 - m*x1 m = (y2 + y1)/(x2 + x1), b = y1 - m*x1 m = (y2 - y1)/(x2 - x1), b = y1 + m*x1 m = (y2 - y1)/(x2 - x1), b = - y1 - m*x1

Solutions Quiz: AC & DC Specifications 5. (T/F) SNR is related to system nonlinearity. True. False. 6. (T/F) THD is related to system nonlinearity. 7. (T/F) THD + N includes the combines the error sources from SNR and THD.