Fill in the voltage compared with the input voltage (i.e., 3.3V) at the 1,2,3,4,5 iterations of the successive approximation algorithm.
Fill in the voltage compared with the input voltage (i.e., 3.3V) at the 1,2,3,4,5 iterations of...
ADC, DAC Equations ADC: Vin input voltage, Vreft= reference voltage, Vref- N=number of bits of precision 0 V Vin/Vref output code/ 2N 2N output code Vref Vin Vref/2N 1 LSB DAC: Vout output voltage, Vref= reference voltage, N number of bits of precision 2Ninput code Vref Vout Vout/ Vref input_code/ 2N nn nun enhuu nnde Vref/2N 1 LSB Question 3 If Vref 5V, and a 8-bit A/D output code is OXFF, what is the ADC input voltage? If Vref 4V,...
a) What is the resolution (minimum distinguishable input voltage) of a 8-bit ADC with VRH 5V and Suppose that there is a 12-bit AD converter with VRL = 1V and VRH-5V. Find the corresponding voltage values for the A/D conversion results of 12, 180, and 1200 b) Assume that we have a 20-bit Successive Approximation ADC, driven by a 2 KHz clock. What is the minimum conversion time of one sample with this ADC? Express your answer in seconds. c)