MindTap Engineering for Glover/Overbye/Sarma's Power System Analysis and Design, 6th Edition, [Instant Access], 1 term (6 months)
6th Edition
ISBN: 9781305636309
Author: J. Duncan Glover; Thomas Overbye; Mulukutla S. Sarma
Publisher: Cengage Learning US
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Chapter 3, Problem 3.31P
To determine
The gain for a negative sequence set.
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Ex) A standard two-junction thermocouple configuration is being used to measure the
temperature in a wind tunnel. The reference junction is held at a constant temperature
of 10 °C. We have only a thermocouple table referenced to 0 °C. Determine the output
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Junction Temperature (°C)
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10
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1.019
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1.536
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3. a) What do you understand by static and dynamic hazards in a circuit, explain.
b) Given the logic equation of a circuit as below:
F= (a + c')(a' + b')
Determine if this circuit has a hazard using K-Map. If there is a hazard, what type of hazard is
that? Also write down the hazard free equation.
6. Given the function F = [I(0, 1, 4, 6, 7,8,9) + Md(5, 10, 11,12)
a. [10] Write the equation for F in reduced SOP form
b. [10] Draw the circuit using AND gates, OR gates and INVERTERS.
0
c. [10] Draw the circuit using only NAND gates and INVERTERS.
Chapter 3 Solutions
MindTap Engineering for Glover/Overbye/Sarma's Power System Analysis and Design, 6th Edition, [Instant Access], 1 term (6 months)
Ch. 3 - The Ohms law for the magnetic circuit states that...Ch. 3 - For an ideal transformer, the efficiency is (a) 0...Ch. 3 - For an ideal 2-winding transformer, the...Ch. 3 - An ideal transformer has no real or reactive power...Ch. 3 - For an ideal 2-winding transformer, an impedance...Ch. 3 - Consider Figure 3.4. For an ideal phase-shifting...Ch. 3 - Consider Figure 3.5. Match the following, those on...Ch. 3 - The units of admittance, conductance, and...Ch. 3 - Match the following: (i) Hysteresis loss (a) Can...Ch. 3 - For large power transformers rated more than 500...
Ch. 3 - For a short-circuit test on a 2-winding...Ch. 3 - The per-unit quantity is always dimensionless. (a)...Ch. 3 - Consider the adopted per-unit system for the...Ch. 3 - The ideal transformer windings are eliminated from...Ch. 3 - To convert a per-unit impedance from old to new...Ch. 3 - In developing per-unit circuits of systems such as...Ch. 3 - Prob. 3.17MCQCh. 3 - Prob. 3.18MCQCh. 3 - With the American Standard notation, in either a...Ch. 3 - Prob. 3.20MCQCh. 3 - In order to avoid difficulties with third-harmonic...Ch. 3 - Does an open connection permit balanced...Ch. 3 - Does an open- operation, the kVA rating compared...Ch. 3 - It is stated that (i) balanced three-phase...Ch. 3 - In developing per-unit equivalent circuits for...Ch. 3 - In per-unit equivalent circuits of practical...Ch. 3 - Prob. 3.27MCQCh. 3 - Prob. 3.28MCQCh. 3 - For developing per-unit equivalent circuits of...Ch. 3 - Prob. 3.30MCQCh. 3 - Prob. 3.31MCQCh. 3 - Prob. 3.32MCQCh. 3 - The direct electrical connection of the windings...Ch. 3 - Consider Figure 3.25 of the text for a transformer...Ch. 3 - (a) An ideal single-phase two-winding transformer...Ch. 3 - An ideal transformer with N1=1000andN2=250 is...Ch. 3 - Consider an ideal transformer with...Ch. 3 - A single-phase 100-kVA,2400/240-volt,60-Hz...Ch. 3 - Prob. 3.5PCh. 3 - Prob. 3.6PCh. 3 - Consider a source of voltage v(t)=102sin(2t)V,...Ch. 3 - Prob. 3.8PCh. 3 - Prob. 3.9PCh. 3 - A single-phase step-down transformer is rated...Ch. 3 - For the transformer in Problem 3.10. The...Ch. 3 - Prob. 3.12PCh. 3 - A single-phase 50-kVA,2400/240-volt,60-Hz...Ch. 3 - A single-phase 50-kVA,2400/240-volt,60-Hz...Ch. 3 - Rework Problem 3.14 if the transformer is...Ch. 3 - A single-phase, 50-kVA,2400/240-V,60-Hz...Ch. 3 - The transformer of Problem 3.16 is supplying a...Ch. 3 - Using the transformer ratings as base quantities,...Ch. 3 - Using the transformer ratings as base quantities....Ch. 3 - Using base values of 20 kVA and 115 volts in zone...Ch. 3 - Prob. 3.21PCh. 3 - A balanced Y-connected voltage source with...Ch. 3 - Figure 3.32 shows the oneline diagram of a...Ch. 3 - For Problem 3.18, the motor operates at full load,...Ch. 3 - Consider a single-phase electric system shown in...Ch. 3 - A bank of three single-phase transformers, each...Ch. 3 - A three-phase transformer is rated...Ch. 3 - For the system shown in Figure 3.34. draw an...Ch. 3 - Consider three ideal single-phase transformers...Ch. 3 - Reconsider Problem 3.29. If Va,VbandVc are a...Ch. 3 - Prob. 3.31PCh. 3 - Determine the positive- and negative-sequence...Ch. 3 - Consider the three single-phase two-winding...Ch. 3 - Three single-phase, two-winding transformers, each...Ch. 3 - Consider a bank of this single-phase two-winding...Ch. 3 - Three single-phase two-winding transformers, each...Ch. 3 - Three single-phase two-winding transformers, each...Ch. 3 - Consider a three-phase generator rated...Ch. 3 - The leakage reactance of a three-phase,...Ch. 3 - Prob. 3.40PCh. 3 - Consider the single-line diagram of the power...Ch. 3 - For the power system in Problem 3.41, the...Ch. 3 - Three single-phase transformers, each rated...Ch. 3 - A 130-MVA,13.2-kV three-phase generator, which has...Ch. 3 - Figure 3.39 shows a oneline diagram of a system in...Ch. 3 - The motors M1andM2 of Problem 3.45 have inputs of...Ch. 3 - Consider the oneline diagram shown in Figure 3.40....Ch. 3 - With the same transformer banks as in Problem...Ch. 3 - Consider the single-Line diagram of a power system...Ch. 3 - A single-phase three-winding transformer has the...Ch. 3 - The ratings of a three-phase three-winding...Ch. 3 - Prob. 3.52PCh. 3 - The ratings of a three-phase, three-winding...Ch. 3 - An infinite bus, which is a constant voltage...Ch. 3 - A single-phase l0-kVA,2300/230-volt,60-Hz...Ch. 3 - Three single-phase two-winding transformers, each...Ch. 3 - A two-winding single-phase transformer rated...Ch. 3 - A single-phase two-winding transformer rated...Ch. 3 - Prob. 3.59PCh. 3 - PowerWorid Simulator case Problem 3_60 duplicates...Ch. 3 - Rework Example 3.12 for a+10 tap, providing a 10...Ch. 3 - A 23/230-kV step-up transformer feeds a...Ch. 3 - The per-unit equivalent circuit of two...Ch. 3 - Reconsider Problem 3.64 with the change that now...Ch. 3 - What are the advantages of correctly specifying a...Ch. 3 - Why is it important to reduce the moisture within...Ch. 3 - What should be the focus of transformer preventive...
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- 6. Given the function F = [I(0, 1, 4,6, 7,8,9) + Md(5,10, 11, 12) a. [10] Write the equation for F in reduced SOP form b. [10] Draw the circuit using AND gates, OR gates and INVERTERS.arrow_forward6. A second order system is critically damped, if the damping ratio s has a value (a) 0arrow_forwarda) Obtain the simplified Boolean expression in SOP form for the function F(abcd) = 0,1,2,4,6,7,8,9,10,11 using Karnaugh map. b) Draw the circuit for the Boolean expression obtained in a) above. c) the propagation delay in each gate is 10 ns, what will be the total propagation delay for the logic circuit obtained in b) above?arrow_forwardProblem 2 Use the Karnaugh map method to design a transistor-level circuit that generates the function F described in the following truth table. The transistor level circuit you design must have the minimum possible number of transistors. You must show your work. C AFarrow_forwarda) Draw the simplified hazard-free circuit of F(A,B,C,D,E)=E(4,6,20,22,28,29)arrow_forward5. In an RL circuit with a resistance of 175 Q and an inductor that has an inductive reactance value of 100 Q. Calculate the impedance and inductance of the circuit also draw the circuit diagram. Act Go tarrow_forward8. A 4-µF capacitor, a 6-uF capacitor, and an 8-μF capacitor are in parallel across a 300-V source. Find (a) the total capacitance, (b) the magnitude of charge stored by each capacitor, and (c) the total stored energy.arrow_forwardQuestions and Report: 1- Simplify the following functions using Karnaugh map method, and realize it using NAND-NAND circuit. F,(A, B, C, D) = E(0,2,5,7,8,13) +Ed(10,15) F,(W,X,Y,Z) E(5,6,13,14) + Ed(7,15)arrow_forward10. a. Simplify the Boolean function F (a,b,c) = Σ m(0,2,3,4,6,7) using a K- map b. Draw a circuit for F using only NAND gatesarrow_forward19. For the network of Fig. 6.82 D, find: a. The voltage V. b. The current /2. c. The current I,. d. The power to the 12 kQ resistor. 12 kΩ 18 kN 48 V Is + v - 3 kN 12arrow_forwardsolve for the capacitor (Filter) values of the Half-wave Design a half-wave rectifier with a filter for the following conditions: a) The peak input voltage is 10 V. Input frequency is 60 Hz. b)Use virtual diode (VON = 0.7 V). c)The minimum output voltage should be at least 90% of the maximum output voltage. d)The load resistance may vary from 1.5 k ohm to 2.5 k ohm. Instructions: ~ Vomax = 10 - 0.7 = 9.3 V; Vomin = 0.9xVomax; angleV = Vomax- Vomin~ fin =60Hz; fp =60Hz.~ Use the smallest value of load resistance (1.5 k ohm) to calculate the capacitor value.~ Use the above calculated capacitor value (same value) to build 2 circuits (half-waverectifier with a filter), with load resistance of 1.5 kohm and 2.5 kohm, respectively.~ Note: The same capacitor value is applied to the load resistance of 1.5 kohm and 2.5 kohm,respectively.arrow_forwardConsider two coupled dielectric slab waveguides .The two waveguides are identical to one another and have coupling coefficient:C=C12=C21=500 m-1 a)Find the length of the coupled waveguide structure that allows for complete power transfer from waveguide 1 to waveguide 2.b)Now assume that light is launched into both waveguides at the same power P0 and the same phase,but with linear X polarization in waveguide 1 and linear Y polarization in waveguide 2.Write expressions for the power and the polarization (normalized Jones vector)of the light in each waveguide as a function of the distance traveled.Assume that propagation constants and coupling coefficients are the same for both X and Y polarizations.arrow_forwardarrow_back_iosSEE MORE QUESTIONSarrow_forward_ios
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