Microelectronics: Circuit Analysis and Design - 4th Edition - by Donald A. Neamen - ISBN 9780073380643

Microelectronics: Circuit Analysis and ...
4th Edition
Donald A. Neamen
Publisher: McGraw-Hill Companies, The
ISBN: 9780073380643

Solutions for Microelectronics: Circuit Analysis and Design

Book Details

Microelectronics: Circuit Analysis and Designis intended as a core text in electronics for undergraduate electrical and computer engineering students. The fourth edition continues to provide a foundation for analyzing and designing both analog and digital electronic circuits. The goal has always been to make this book very readable and student friendly..An accessible approach to learning through clear writing and practical pedagogy has become the hallmark ofMicroelectronics: Circuit Analysis and Designby Donald Neamen. Now in its fourth edition, the text builds upon its strong pedagogy and tools for student assessment with key updates as well as revisions that allow for flexible coverage of op-amps. .

Sample Solutions for this Textbook

We offer sample solutions for Microelectronics: Circuit Analysis and Design homework problems. See examples below:

Given: The value of current is, IS1=IS2=10−13 A IS1=5×10−14 A, IS2=5×10−13A The given circuit is...Chapter 1, Problem 1.47PChapter 1, Problem 1.48PChapter 2, Problem 2.1EPChapter 2, Problem 2.1TYUChapter 2, Problem 2.3PChapter 2, Problem 2.24PChapter 2, Problem D2.25PChapter 2, Problem 2.45PChapter 2, Problem 2.47PChapter 2, Problem 2.51PChapter 2, Problem 2.52PChapter 2, Problem 2.57PChapter 2, Problem 2.59PChapter 2, Problem 2.62PChapter 3, Problem 3.1EPChapter 3, Problem 3.2TYUChapter 3, Problem 3.5EPChapter 3, Problem 3.8EPChapter 3, Problem 3.1PChapter 3, Problem 3.4PChapter 3, Problem 3.3CAEChapter 3, Problem 3.4CAEChapter 3, Problem 3.17PChapter 3, Problem 3.27PChapter 3, Problem 3.29PGiven Information: The given values are: VTN=1.4 V, Kn=0.25 mA/V2, IDQ=0.5 mA, VD=1 V The given...Given Information: The given circuit is shown below. VTN=0.4 V, kn'=120 μAV2( W L)1=( W L)2=30...Given Information: The given values are: VTN=0.6 V, kn'=120 μA/V2, IDQ=0.8 mA, V1=2.5 V, V2=6 V The...Given information: The given values are IDQ=0.8mAVTN=0.6Vkn'=100μA/V2=0.1mA/V2gm=1.8mA/V...Chapter 4, Problem 4.2EPChapter 4, Problem 4.3EPChapter 4, Problem 4.4EPChapter 4, Problem 4.8EPChapter 4, Problem 4.9EPChapter 4, Problem 4.12TYUChapter 4, Problem 4.40PChapter 4, Problem 4.66PChapter 4, Problem 4.67PChapter 4, Problem 4.70PChapter 4, Problem 4.71PChapter 4, Problem 4.78PChapter 5, Problem 5.1EPChapter 5, Problem 5.9EPChapter 5, Problem D5.31PChapter 5, Problem 5.32PChapter 5, Problem 5.42PChapter 5, Problem 5.52PGiven: The circuit is given as: Assume β=100 . Redrawing the given circuit by replacing voltage...Chapter 5, Problem 5.57PChapter 5, Problem 5.58PChapter 5, Problem D5.59PChapter 5, Problem D5.62PChapter 5, Problem 5.79PChapter 5, Problem 5.82PChapter 5, Problem D5.89DPChapter 5, Problem D5.91DPChapter 6, Problem 6.1EPGiven: Given circuit: Given Data: β=120VA=∞VBE(on)=0.7V Calculation: Considering the BJT (Bipolar...Given Information: The circuit diagram is shown below. β=120, VBE(on)=0.7 V, VA=∞VCC=VEE=3.3 V,...Chapter 6, Problem 6.16TYUChapter 6, Problem 6.19PChapter 6, Problem 6.26PChapter 6, Problem 6.45PChapter 6, Problem 6.51PChapter 6, Problem 6.52PChapter 6, Problem 6.54PChapter 6, Problem 6.83PChapter 7, Problem 7.1EPChapter 7, Problem 7.10EPChapter 7, Problem 7.21PChapter 7, Problem 7.23PChapter 7, Problem 7.32PChapter 7, Problem 7.40PChapter 7, Problem 7.41PChapter 7, Problem 7.49PChapter 7, Problem 7.50PChapter 7, Problem 7.69PChapter 7, Problem 7.70PCalculation: The expression for the collector to the emitter load line is given by, VCE=VCC−ICRC The...Calculation: The given diagram is shown in Figure 1 The conversion from 1 mA into A is given by, 1...Calculation: The sketch for the safe operating area of the transistor is shown below. The required...Calculation: The given diagram is shown in Figure 1 The expression for the maximum value of the...Calculation: The given diagram is shown in Figure 1 The conversion from 1 mA into A is given by, 1...Calculation: The given diagram is shown in Figure 1 The diagram for the class AB output stage using...Calculation: The given diagram is shown in Figure 1. The expression for the value of base current of...Chapter 8, Problem 8.48PChapter 8, Problem 8.49PChapter 9, Problem 9.1EPChapter 9, Problem 9.9EPChapter 9, Problem 9.6PChapter 9, Problem 9.13PChapter 9, Problem 9.14PChapter 9, Problem D9.18PChapter 9, Problem 9.51PChapter 9, Problem 9.62PChapter 9, Problem 9.63PChapter 9, Problem 9.65PChapter 9, Problem 9.67PChapter 9, Problem 9.72PChapter 9, Problem 9.81PChapter 10, Problem 10.1EPChapter 10, Problem 10.6TYUGiven: The circuit parameters are V+=+5VV−=0 The transistor parameters are...Chapter 10, Problem 10.56PGiven: VTN=0.4VVTP=−0.4VK'n=100μA/V2K'p=60μA/V2λn=λp=0 (W/L) 1 = (W/L) 2 =20 (W/L) 3 =5 (W/L) 4 =10...Chapter 10, Problem 10.63PGiven: VTN=0.5VVTP=−0.5V(1/2)μnCox=50μA/V2(1/2)μpCox=20μA/V2λn=λp=0 (W/L) 1 = (W/L) 3 = (W/L) 4 =5/1...Chapter 10, Problem 10.68PGiven: VTN=0.8VVTP=−0.8VK'n=100μA/V2K'P=60μA/V2λn=λp=0R=100kΩ Calculation: The given circuit is,...Chapter 10, Problem 10.76PGiven: R1=47kΩVAN=120VVAP=90VV+=3VVEB(on)=0.6V Calculation: The given circuit is, The transistor Q1...Chapter 10, Problem 10.83PChapter 10, Problem 10.89PChapter 10, Problem D10.90PChapter 11, Problem 11.1EPGiven: The given circuit is, V+=+5V ,V−=−5V,RD=1kΩ ,RS=2kΩ,VTP=−0.6V,Kp=1.2mA/V2,λ=0 v1=v2=0...Given: The given circuit is, V+=+5V ,V−=−5V,RD=25kΩ...Given: The given circuit is shown in Figure 1 Figure 1 Calculation: The expression for the current...Chapter 11, Problem 11.62PChapter 11, Problem 11.68PGiven: The given diagram is shown in Figure 1 Figure 1 Calculation: The expression for the input...Given: The given circuit is shown in Figure 1 Figure 1 Calculation: The expression for the input...Given: The given diagram is shown in Figure 1 Figure 1 Calculation: The expression to determine the...Chapter 11, Problem 11.82PGiven: The given circuit is, IQ=25μA,β=100 VA=50V,VTN=0.8V,Kn=0.25mA/V2,λ=0.02V−1 The two amplifying...Given: The circuit is given as: The circuit parameters:...Chapter 11, Problem 11.90PGiven: The given circuit is, β=200,VBE(on)=0.7V,VA=80V Calculation: Consider the given figure,...Chapter 11, Problem 11.93PChapter 11, Problem D11.105DPChapter 12, Problem 12.1EPGiven: The given diagram is shown in Figure 1 Figure 1 Calculation: Mark the nodes and redraw the...Given: The given diagram is shown in Figure 1 Figure 1 Feedback resistor value is varied between 5...Chapter 12, Problem 12.11TYUGiven: The give circuit is shown in Figure 1 Calculation: The value of the collector current of the...Chapter 12, Problem 12.37PChapter 12, Problem 12.38PGiven: The given values are: V+=5 VVGG=2.5 VRD1=5 kΩRE2=1.6 kΩRL=1.2 kΩKn=1.5(mAV2)VTN=0.5...Given: The given circuit is shown in Figure 1. Calculation: The Thevenin resistance of the above...Given: The given diagram is shown in Figure 1 Calculation: The expression to determine the value of...Chapter 12, Problem 12.49PChapter 12, Problem 12.50PChapter 12, Problem 12.53PGiven: The given circuit is shown in Figure 1 Figure 1 Calculation: The small signal equivalent...Chapter 12, Problem 12.77PChapter 12, Problem 12.80PGiven: The bias circuit and input stage portion of 741 op-amp circuit is shown below. Figure 1...Given: Following is given circuit of the MC14573 op-amp equivalent circuit Given data, The...Given: The circuit diagram of the BJT op-amp is Given that The transistor parameters are, β(npn)=120...Given: Circuit is given as; V+=3 V,V−=−3 V,R1=80 kΩ,RE=3.5 kΩ Current for transistors Q1,Q2 and Q3...Given: Consider the 741 op-amp having bias voltage ±5 V Calculation: The reference current is....Given: Consider the 741 op-amp having bias voltage ±5 V Calculation: The early voltage given as...Given: Consider the 741 op-amp having bias voltage ±5 V Calculation: The resistance at Q14 can be...Chapter 14, Problem 14.1TYUGiven: Given bipolar active load diff-amp is, Given parameters are: V+=5V V−=−5V The transistor...Chapter 14, Problem 14.38PGiven: Bipolar diff-amp with active load and a pair of offset-null terminal is shown below. Given...Given: The given circuit is: IB1=IB2=1 μA and vI=0 As vI=0 , the modified circuit is; For first...Given: The given circuit is: Input bias current IB=0.8 μA Input offset current IOS=0.2 μA R1=R2=50...Given: The given circuit is shown below. Input offset voltage is VOS=3 mV Average input bias current...Given: The given circuit is shown below. Input offset voltage V0S=2 mV at T=25°C Average input bias...Chapter 14, Problem 14.60PGiven: The given difference amplifier circuit is, Tolerance of each resistor is ±x% . Minimum CMRRdB...Chapter 15, Problem 15.1EPGiven: Circuit diagram for voltage regulator is shown below. The voltage of Zener diode Vz=5.6 V...Given: Calculation: Redraw the given circuit in s -domain as From the circuit,...Given: The circuit is given as: The circuit is redrawn by labeling the voltages as shown below:...Given: Consider the circuit shown below. Calculation: The non-inverting terminal of op-amp is...Given: The circuit is given for the phase shift oscillator: Redrawing the given circuit Nodal...Given: The circuit for the Hartley oscillator is given as: Transconductance, gm=30mA/VForward biased...Given: The circuit is given as: For the ideal operation amplifier, the inverting and non-inverting...Chapter 15, Problem 15.46PChapter 15, Problem 15.47PChapter 15, Problem 15.49PGiven: The circuit is given as: For the ideal operational amplifier, the currents in the inverting...Given: Given LM380 power amplifier circuit as V+=22Vβn=100βp=20 Calculation: Assuming matched input...Chapter 16, Problem 16.1EPGiven: Power supply voltage, VDD=3V Intrinsic trans conductance parameter, kn'=100×10−6A/V2 Device...Chapter 16, Problem 16.9EPGiven: The given circuit is shown below. The parameters are: VDD=3.3 VKn=50 μA/V2RD=100 kΩvI=3.3...Calculation: The given diagram is shown in Figure 1. The expression for the voltage VOH is given by,...Calculation: The given diagram is shown in Figure 1 The expression to determine the power dissipated...Calculation: The given diagram is shown in Figure 1 The expression to determine the...Calculation: The given diagram is shown in Figure 1 The expression to determine the...Calculation: The given diagram is shown in Figure 1. Consider the case when the input voltage is...Calculation: The expression to determine the value of the KN is given by, KN=k′n2(WL)n Substitute 80...Calculation: The expression to determine the value of the KN is given by, KN=k′n2(WL)n Substitute...Calculation: Consider the case when the input voltage is, vI=VDD The expression for the conduction...Calculation: The expression to determine the value of the KN is given by, KN=k′n2(WL)n Substitute...Calculation: The given diagram is shown in Figure 1 The given table is shown in Table 1 Table 1...Given: The given diagram is shown in Figure 1. Calculation: The expression to determine the...Calculation: The given diagram is shown in Figure 1 The expression to determine the analog output...Chapter 17, Problem 17.1EPCalculation: The given diagram is shown in Figure 1 The redesign circuit is shown below. The...Chapter 17, Problem 17.9EPCalculation: The given diagram is shown in Figure 1 Apply KVL in the above circuit. 5 V=iC(2.25...Calculation: The given diagram is shown in Figure 1 The expression to determine the value of the...Calculation: The given diagram is shown in Figure 1 Mark the currents and redraw the circuit. The...Calculation: The given diagram is shown in Figure 1. The expression for the current i1 is given by,...Calculation: The given diagram is shown in Figure 1 The expression for the voltage vB1 is given by,...

More Editions of This Book

Corresponding editions of this textbook are also available below:

Microelectronics: Circuit Analysis And Design
3rd Edition
ISBN: 9780071254434
MICROELECT. CIRCUIT ANALYSIS&DESIGN (LL)
4th Edition
ISBN: 9781266368622

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