For a given length of coaxial cable with distributed capacitance C = 48.3 pF/m

February 17, 2020/in Feeds /by Munene david

For a given length of coaxial cable with distributed capacitance C = 48.3 pF/m and distributed inductance L =

241.56 nH/m, determine the velocity factor and velocity of propagation.

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Question 1. 1. (TCO 1) Which of the following is not an alternative power system? (Points : 5)

February 17, 2020/in Feeds /by Munene david

Question 1. 1. (TCO 1) Which of the following is not an alternative

power system? (Points : 5)

Solar panel

Hydroelectric

Windmill

Nuclear reactor

Question 2. 2. (TCO 1) According to IPC-D-275, what is the minimum spacing (in inches) recommended when the voltage between conductors (dc or ac peak) is between 101-170? (Points : 5)

0.025

0.060

.0125

0.250

Question 3. 3. (TCO 1) If the peak ac voltage is 200 volts, the root-mean-square voltage is _____. (Points : 5)

400 volts

50 volts

200 volts

100 volts

Question 4. 4. (TCO 1) In rectification by full wave _____. (Points : 5)

the frequency is doubled

the amplitude is doubled

the period is doubled

the amplitude is halved

Question 5. 5. (TCO 1) An inverter typically uses the following components. (Points : 5)

Two switches

A transformer and a switch

A rectifier and a switch

A diode and a switch

Question 6. 6. (TCO 1) If motor drive is a cycloconverter, then the motor is connected to how many phases at a time? (Points : 5)

Four

One

Two

Three

Question 7.7. (TCOs 1 and 2) What is the critical path? (Points : 10)

Question 8.8. (TCOs 1 and 2) If the software does not allow you to create smooth arcs in your traces, what should you substitute for a right angle? (Points : 10)

Question 9.9. (TCOs 1 and 2) The common return may snake literally over the board. What is the benefit? (Points : 10)

Question 10.10. (TCO 1) Discuss the steps to identify the critical path on a circuit board. (Points : 15)

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need the answer for this lab. ECET 230 WK 5 ILAB

February 17, 2020/in Feeds /by Munene david

need the answer for this lab. ECET 230 WK 5 ILAB

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Laboratory Report Cover SheetDeVry UniversityCollege of Engineering and Information SciencesCourse Number:ECET230Professor:Laboratory Number:Laboratory Title:Design of a Simple State MachineNote that this is a formal lab and needs to be submitted as an individual separate document.Questions:The following questions are to be included in your formal report.1.In Figure 5.3, what is the purpose for the arrows going from S1 to S0 and from S4 to S3?Why are these needed?2.What are the advantages of using state variables instead of a series of IF…THEN…ELSEstatements?3.Give an example of a finite state machine that can be easily development using statediagrams and state variables?4.Do some research and determine when the state variable method of design was developed.Be sure to properly cite your sources.The grading rubric for this lab is below.DeliverablePointsAvailableFormal Lab Content35Working Circuit(s)/Program(s)25Questions10Total Points70Course Number: ECET-230Laboratory Number: 5Page 1 of 1

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I uploaded the question before because I needed help. However, didn’t label it as advanced.

February 17, 2020/in Feeds /by Munene david

I uploaded the question before because I needed help. However, didn’t label it as advanced.

So, I’m

requesting assistance with this work.

A Step by step breakdown and analysis would be very much appreciated.

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ECET-350EXPERIMENT #6NAME:__________________________________________IIR Filter DesignObjectve:To learn abou± how ±o design IIR fl±ers using Ma±lab’s bilinear ±ransForm command.IntroducTonAn IIR fl±er is comple±ely specifed by i±s di²erence equaton or ±ransFer FunctonAs given in general Forms in ±he Followingy(n)=box(n)+b1x(n−1)+…+bMx(n−M)−a1y(n−1)−…−aNy(n−N)Wherebo,b1,…,bManda1,a2,…,aNare coe³cien±s oF ±he sys±em;nis ±hediscre±e-tme index. A digi±al fl±er can also be represen±ed by i±s ±ransFer Functon by ±aking±he z-±ransForm oF ±he di²erence equaton asH(z)=Y(z)X(z)=bo+b1z−1+…+bMz−M1+a1z−1+…+aNz−N.The IIR fl±er ou±pu±y(n)depends no± only on ±he curren± inpu±x(n)and pas±inpu±sx(n−1),x(n−2),…bu± also on ±he pas± ou±pu±sy(n−1), y(n−2),…(Feedback or recursive ±erms). The ±ransFer Functon oF IIR fl±ers is a ratonal Functon oFz(i.e., numera±or polynomial on denomina±or polynomial inz. Consequen±ly ±hefl±er impulse response has an infni±e number oF ±erms.The roo±s oF ±he denomina±or polynomial ob±ained by solving charac±eristc equaton1+a1z−1+…+aNz−N=0are called poles and mus± be inside ±he uni± circle in z-plane ±oensure ±he fl±er s±abili±y.IIR fl±ers o²er a much smaller fl±er size. Hence, ±he fl±er operaton as coded on ±he digi±alcompu±ers or DSP chips requires a small number oF compu±atons. On ±he o±her side, ±helinear phase response is hard ±o achieve. When linear phase is no± necessary, IIR fl±ers arepreFerred due ±o simpler compu±aton and Fas±er response as compared ±o an ´IR fl±er wi±ha large number oF coe³cien±s or ±aps.