R Problem 4 (15 points): The output of an infrared distance sensor (with zero output impedance)...
A current sensor is measuring the DC current that is flowing through a power circuit. The output of the current sensor is a raw voltage signal which varies according to the following equation V 2.50.02 Where I is the flowing current in A (value can be positive or negative). An engineer would like a microcontroller to be able to measure this current so that it can be used for control purposes. The available ADC is 12-bit in resolution and measures...
A current sensor is measuring the DC current that is flowing through a power circuit. The output f the current sensor is a raw voltage signal which varies according to the following equation: V 2.5 0.02 Where I is the flowing current in A (value can be positive or negative). An engineer would like a microcontroller to be able to measure this current so that it can be used for control purposes. The available ADC is 12-bit in resolution and...
Problem 2 (25 pts.) A thermocouple is to be used with a 16 bit A/D converter that has an input range of ov to sv. The voltage output of the thermocouple varies linearly with the temperature over the temperature range of 50°C to 70°C; the corresponding voltages at these temperatures are 2.585 mV and 3.649 mV respectively. Parta) 5 pts. Compute the quantization error of the A/D convertor and the temperature resolution for the entire system. Part b) 10 pts....
Problem 3 (Op Amps) 15 1520 = 50 points R Assume the op-amp is ideal and a load is modeled as a current source IL. This circuit R allows us to set the voltage across the load as well as monitor its current. Vin, Vo, and R are R R known quantities, but the load characteristics of VL and II are unknown. (a) What is Vi as a function of vin, Vo, and V Vin R? (b) What is Ii...
10- (15 pts) The data-sheet of a force sensor indicates that: at F O N the sensor output is 1 V F 100 N the sonsor output is 4 v Assume that the sensor is linear in this range of forces. a. Find the sensor sensitivity b. Design the signal conditioning circuit (SCC) such that at F-O N the SSC output i OV and at F = 100 N the SSCoutput is S. Calculate all circuit param the SCC. eters...
Learning Goal: To analyze op amps that sum different input voltages. Before proceeding, review summing op amp circuits and the ideal op amp assumptions. Figure 1 of 1 Review Part A - Calculating the output voltage of a summing op amp circuit For the circuit shown(Figure 1). determine V, when R1 = 3.4 kN, R2 = 5.0 kN. R3 = 7.0 kN Rp = 100 kn. Vi = 20 mV, V = 50 mV V3 = 280 mV and Voc...
7 of 10 Problem 2 (25 pts) A thenmocouple is to be used with 16 bt A/D convener has full scale rang of OV o SV. The volhage output of the themocouple range of S0'C to 70"C, the 3649 mV nespectively Parra) 5 pts Compute the quantiration enor and the temperature resolution for this confiration Part bi 10 pts An noninverting OP amp is to he used to amplify the voltage signal to reduce the relative varies lincarly with the...
Problem 2 110 points) For an ideal op-amp model and a typical 741 op-amp chip, the following partial table is provided. 1. Furnish the two (2) missing responses in the "Typical Value" column from the attached UM741 data sheet. Note: Use the "Typ" column on the data sheet for your responses. 2. Furnish the four (4) missing responses in the "Ideal Value” column from what you remember in class about the ideal op amp model Ideal Value Typical Value Parameter...
2.36 please Develop signal conditioning for Problem 2.3 so the output voltage varies from 0 to 2.35 5 V as the resistance varies from 520 to 2500 Ω, where OV corresponds to 520 varying from 0 to 5 V as the resistance changes. voltage converter and a summing amplifier to get a voltage error siqno r varies from 1 to 5 k2. Use this in an op amp circuit to provide a voltage 2.37 A process signal varies from 4...
Problem 7 (CLO 3, 4, 11 - Ideal Op-Amps, Design): We will now design an Op-Amp circuit to perform the function where v1 - input voltage 1, input voltage 2, = input voltage 3, Vo = output voltage. It may be helpful to consult your recitation 6 (week 7) results as well as Table 4-3 for this problem. 7.a: Select an Op-Amp configuration for your design. Sketch the Op-Amp configuration with symbolic resistors (Rf, Ri, R2, etc) indicated. Do not...