Problem 4 [20 points] Use MATLAB command tf and bode, generate magnitude (in decibel)

2.8. Determine and sketch the convolution of the following two signals: [1+1, 0≤t≤1 1 <1 ≤ 2, elsewhere x(t) = 2-1, 0, h(t) = 8(t + 2) + 28(1 + 1)./nQ.4 Textbook P.2.8

A pressure sensor has an input range of 0 to 10 bar and an output range of 0to 5 V. At 2.5 bar the pressure sensor provides an output of 1 V. What is thenon-linearity in % of the span А. 10%В. 5%С. 2%D. 0.5%

Question 1: Using two 74192 ICs decade counters, two 7447 ICs 7-segment decoders, two 7- segment displays and negative-edge triggered D-flipflop. Design a box counting system that works with a conveyor belt. The system should stop the conveyor belt when the count of boxes reaches 23 boxes. A manual push button should reset the count and restart the working process of the conveyor belt.

A Platinum Resistance Thermometer (PT1000) obeys the following equationwhere R_{T}=\left(1+\alpha \Delta T+\beta \Delta T^{2}+\gamma \Delta T^{3 \cdots}\right) RO=1 kohms, a=3.91x10-3, B=-5.87x10-7 and the higher terms can be assumed zero. The thermometer is used to measure the temperature in a water cylinder between 0 and100 °C. The required accuracy is within 1 °C. Which of the following statements is true? A. Thethermometeris linearhence will bewithin therequiredaccuracy B. Thethermometer isnonlinear, butthe non-linearityis low hence willremain withinthe requiredaccuracy C. A look upD.table or othertsuitablecalculation willbe needed tokeep withinthe requiredaccuracy D. None of these

6.2-3 For baseband modulation, each bit duration is Th. Consider a pulse shape P1(t)=Δ(1/2Tb) (a) For a random binary data sequence 01001010110, sketch the polar signal waveform y(t). (b) Find PSDs for the polar, on-off, and bipolar signaling. (c) Sketch the resulting PSDs and compare their effective bandwidths.

5) Find the system response to the input x(t), given the impulse response given by h(t), and as described in the figures below (hint: Graphical Convolution), where: x(t) = t & h(t) = t

Problem 5 [10 points] A signal z(t), bandlimited to 10 Hz, is sampled at 12 samples/s. what portion of its spectrum can still be recovered from its samples? Please draw a sketch (with an arbitrary signal shape of bandwidth 10Hz) that illustrates your findings.

A schematic of a feedback amplifier is shown. The transistor has a ßr= 100 with a very large Early voltage. The collector current Ic = 0.913 mA and Im= 0.423 mA .1. What is he feedback configuration (e.g. shunt-shunt?)а. b. Draw a schematic of the AC model of the loaded forward amplifier. c. Determine the loaded forward amplifier gain of the amplifier using feedback theory(Sim ok). The loaded forward amplifier gain can be left in terms of trans resistance(RM), Current Gain (AIM), Voltage gain (AvM), or transconductance (GM). d. Draw the feedback f-circuit diagram e. What is the f-factor (Sim ok)? f. Using parts (c) and (e), calculate the overall gain with feedback (RMf , AIF, Av£ or GMF)using the loaded forward amplifier gain and the f-factor? Show your calculation. You can confirm your calculation with MultiSim.

Consider a hydraulic press that lifts a weight of 100 kg by applying a 10 kg force. What is the ratio of area of the load' piston to the area of the 'force'piston? А. V10В. 10C. V0.1D. 0.1

(а)Determine the DC conditions of the amplifier (b) Draw the AC model of the amplifier (c)Determine the midband voltage gain A, (you can use Sim) (d) Determine the low frequency poles of the amplifier (You can calculate the low frequency poles, or find the pole due to Cl by making Cs and C2 equal to 1F, etc for each pole and each capacitor). If you simulate to find the low frequency poles, please include the resulting frequency responses. 3. The enhancement NMOSFET used in the amplifier shown has the following specifications: K=0.16 mA/V² , V7=2 V, and V,= 300 V. You can show Simulations results for each part – just make sure you highlight the results as a text in your simulations.