A sensor interface circuit containing a light sensor (represented by the variable resistor Rx) is connected to an 4-bit ADC, as shown below. The parameters of the circuit are: Vs= 10 V R = 2.7 kiloohms 1) If the variation of Rx is from 3.3 kiloohms < Rx <8.2 kiloohms, what is the range of input voltage (VIN) to the ADC? 2) The 4-bit ADC is chosen so that the voltage range it can encode is equal to the range of the input voltage (VIN). 3) What is the voltage resolution of the ADC? At a particular instant, the input voltage to the ADC is 4.155 V, what is the ADC output (D3 D2 D1 Do)?

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can somebody solve the electrical problem

Vs
Vs= 10 V
R = 2.7 kiloohms
Rx
R
VIN
IN
Answers:
1) 2.477V ≤ Vin < 4.5V
2) 0.1264V
3) 1101
VCC
ADC
VDD
A sensor interface circuit containing a light sensor (represented by the variable
resistor Rx) is connected to an 4-bit ADC, as shown below. The parameters of the
circuit are:
D3
•D₂
•D₁
Do
1) If the variation of Rx is from 3.3 kiloohms < Rx <8.2 kiloohms, what is the range of
input voltage (VIN) to the ADC?
2) The 4-bit ADC is chosen so that the voltage range it can encode is equal to the range
of the input voltage (VIN).
3) What is the voltage resolution of the ADC? At a particular instant, the input voltage
to the ADC is 4.155 V, what is the ADC output (D3 D2 D1 Do)?
Transcribed Image Text:Vs Vs= 10 V R = 2.7 kiloohms Rx R VIN IN Answers: 1) 2.477V ≤ Vin < 4.5V 2) 0.1264V 3) 1101 VCC ADC VDD A sensor interface circuit containing a light sensor (represented by the variable resistor Rx) is connected to an 4-bit ADC, as shown below. The parameters of the circuit are: D3 •D₂ •D₁ Do 1) If the variation of Rx is from 3.3 kiloohms < Rx <8.2 kiloohms, what is the range of input voltage (VIN) to the ADC? 2) The 4-bit ADC is chosen so that the voltage range it can encode is equal to the range of the input voltage (VIN). 3) What is the voltage resolution of the ADC? At a particular instant, the input voltage to the ADC is 4.155 V, what is the ADC output (D3 D2 D1 Do)?
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