Chapter 4, Problem 4.85P

همسة 4. Discussion: Compare between theoretical combination effect of Kp, KI and KD at second order systems regarding steady-state errors and transient responses with the practical obtained results whenever applying step input signalln Experiment PID Controller

Hi there! I’m working on some practice questions and would appreciate your help. I’ve uploaded two images: the first contains the initial questions (with the second part also typed out below), and the second image shows the final section of the worksheet. Could you please assist me with these?THE QUESTION NUMBERS ARE IN ORDER. 1b). Suppose the flip-flops are 74F74 devices and the AND gates are 74F08 devices. Let maxtpd,D=9ns, maxtsu,D=3ns, and maxtpd,AND=6ns. What is the maximum clock frequency at which the circuit can operate reliably?                                                                                                                                    2. Compare serial transmission and parallel transmission and discuss their advantages and disadvantages.   3. Explain briefly how the slave can protect itself from being overwhelmed by the master in I2   4. A hypothetical logic family has the following specifications. VOH=4.6V                   VIH=4.0V VOL=0.5V…

همسة 4. Discussion: Compare between theoretical combination effect of Kp, KI and KD at second order systems regarding steady-state errors and transient responses with the practical obtained results whenever applying step input signal in Experiment PI Controller

The Fourier series of a square wave of fundamental frequency fm is given by s(t) cos(2πfmt) Π 1 3 1 1 cos(6лfmt) - ½ ½ cos(10#fmt) --—-— cos(14πfmt) + ... 5 7 Compute the 98% power bandwith of a 10kHz square wave and hence determine the maximum frequency, W. Also find the bandwidth Bw = 2W. Note: W=140kHz

please show full explaination and workings

show full explaination and workings

Given parameters: Impedance match a the load Z0=25 2 Source impedance Z = 50 2 f = 1GHz The substrate FR4 (substrate thickness h = 1.6 mm, ɛrd =4.4, loss tangent = 0.04, and a 1oz. Cu cladding thickness t= 0.0368 mm) a) Determine the w and ɛreff of a z0 = 50 microstrip line (ɛreff# ɛrd). Determine the wavelength λ at the design frequency. 1 C Verd λ f B) Determine the electrical lengths, for the distance from the load (1₁) and length of (in term of λ) the OC stub (l2).

The circuit shown in Fig. P12.41 was introduced inProblem 5.68. Then, a time-domain solution was sought foruout1 (t) and uout2 (t) for t ≥ 0, given that ui(t) = 10u(t) mV,VCC = 10 V for both op amps, and the two capacitors had nochange prior to t = 0. Analyze the circuit and plot uout1 (t) anduout2 (t) using the Laplace transform technique.

12.43 For the circuit shown in Fig. P12.43, determine uout(t)given that R1 = 1 kW, R2 = 4 kW, and C = 1 μF, and(a) us(t) = 2u(t) (V),(b) us(t) = 2cos(1000t) (V),(c) us(t) = 2e−t u(t) (V).