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learn:courses:real-analog-chapter-5:start [2017/04/27 18:01] – [Section Summary] Marthalearn:courses:real-analog-chapter-5:start [2023/02/10 12:34] (current) – external edit 127.0.0.1
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-====== Real Analog: Chapter 5 ====== +===== Real Analog: Chapter 5 ====== 
--->Chapter 5 Downloads# +[[{}/learn/courses/real-analog-chapter-4/start|Back to Chapter 4]]
-  * {{ :learn:courses:real-analog-chapter-5:realanalog-circuits1-chapter5.pdf |Chapter 5 PDF}+
-    * {{ :learn:courses:real-analog-chapter-5:lab5p4p1.pdf |Lab 5.4.1}}: Inverting Voltage Amplifier +
-      * {{ :learn:courses:real-analog-chapter-5:lab5p4p1_worksheet.docx |5.4.1 Worksheet}} +
-    * {{ :learn:courses:real-analog-chapter-5:lab5p4p2.pdf |Lab 5.4.2}}: Summing Amplifier +
-      * {{ :learn:courses:real-analog-chapter-5:lab5p4p2_worksheet.docx |5.4.2 Worksheet}} +
-    * {{ :learn:courses:real-analog-chapter-5:lab5p4p3.pdf |Lab 5.4.3}}: Non-inverting Voltage Amplifier +
-      * {{ :learn:courses:real-analog-chapter-5:lab5p4p3_worksheet.docx |5.4.3 Worksheet}} +
-    * {{ :learn:courses:real-analog-chapter-5:lab5p4p4.pdf |Lab 5.4.4}}: Difference Amplifier +
-      * {{ :learn:courses:real-analog-chapter-5:lab5p4p4_worksheet.docx |5.4.4 Worksheet}} +
-    * {{ :learn:courses:real-analog-chapter-5:lab5p4p5.pdf |Lab 5.4.5}}: Temperature Measurement System Design +
-      * {{ :learn:courses:real-analog-chapter-5:lab5p4p5_worksheet.docx |5.4.5 Worksheet}} +
  
 +-->Chapter 5 Materials#  
 +  * Lecture Material:
 +    * {{ :learn:courses:real-analog-chapter-5:lecture12_b_.ppt |Lecture 12b PowerPoint Slides}}: Derivation of maximum power transfer, Thévenin theorem examples, operational amplifiers
 +    * {{ :learn:courses:real-analog-chapter-5:lecture13.ppt |Lecture 13 PowerPoint Slides}}: Operational amplifier examples, dependent Sources
 +    * [[http://www.youtube.com/watch?v=nhDq_Gl2yh4&list=PLDEC730F6A8CDE318&index=13&feature=plpp_video| Lecture 12(b) Video]]
 +    * [[http://www.youtube.com/watch?v=2nOj2f4FD6o&list=PLDEC730F6A8CDE318&index=14&feature=plpp_video| Lecture 13 Video]]
 +  * Chapter 5 Video:
 +    * [[http://www.youtube.com/watch?v=5my9_kRYVqc&list=PL170A01159D42313D&index=11&feature=plpp_video| Lab 5 Video]]: Operational amplifiers: Constructing operational amplifier based circuits.
 +  * {{ :learn:courses:real-analog-chapter-5:real-analog-chapter-5.pdf |Chapter 5 Complete PDF}}
 +    * {{ :learn:courses:real-analog-chapter-5:lab5p4p1.pdf |Lab 5.4.1}}
 +      * {{ :learn:courses:real-analog-chapter-5:lab5p4p1_worksheet.docx |Worksheet 5.4.1}}
 +    * {{ :learn:courses:real-analog-chapter-5:lab5p4p2.pdf |Lab 5.4.2}}
 +      * {{ :learn:courses:real-analog-chapter-5:lab5p4p2_worksheet.docx |Worksheet 5.4.2}}
 +    * {{ :learn:courses:real-analog-chapter-5:lab5p4p3.pdf |Lab 5.4.3}}
 +      * {{ :learn:courses:real-analog-chapter-5:lab5p4p3_worksheet.docx |Worksheet 5.4.3}}
 +    * {{ :learn:courses:real-analog-chapter-5:lab5p4p4.pdf |Lab 5.4.4}}
 +      * {{ :learn:courses:real-analog-chapter-5:lab5p4p4_worksheet.docx |Worksheet 5.4.4}}
 +    * {{ :learn:courses:real-analog-chapter-5:lab5p4p5.pdf |Lab 5.4.5}}
 +      * {{ :learn:courses:real-analog-chapter-5:lab5p4p5_worksheet.docx |Worksheet 5.4.5}}
   * {{ :learn:courses:real-analog-chapter-5:realanalog-exercisesolutions-chapter5.pdf |Exercise Solutions}}: Chapter 5 exercise solutions   * {{ :learn:courses:real-analog-chapter-5:realanalog-exercisesolutions-chapter5.pdf |Exercise Solutions}}: Chapter 5 exercise solutions
   * {{ :learn:courses:real-analog-chapter-5:homework5.docx |Homework}}: Chapter 5 homework problems   * {{ :learn:courses:real-analog-chapter-5:homework5.docx |Homework}}: Chapter 5 homework problems
  
 <-- <--
-====== 5. Introduction and Chapter Objectives ======+===== 5. Introduction and Chapter Objectives =====
 //Operational amplifiers// (commonly abbreviated as //op-amps//) are extremely useful electronic devices. Some argue, in fact, that operational amplifiers are the single most useful integrated circuit in analog circuit design. Operational amplifier-based circuits are commonly used for //signal conditioning//, performing //mathematical operations//, and //buffering//. These topics are discussed briefly below.  //Operational amplifiers// (commonly abbreviated as //op-amps//) are extremely useful electronic devices. Some argue, in fact, that operational amplifiers are the single most useful integrated circuit in analog circuit design. Operational amplifier-based circuits are commonly used for //signal conditioning//, performing //mathematical operations//, and //buffering//. These topics are discussed briefly below. 
  
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 $$V_{OUT} = K \left(v_p - v_n \right) = K \cdot \Delta v_{in}      (Eq. 5.1)$$ $$V_{OUT} = K \left(v_p - v_n \right) = K \cdot \Delta v_{in}      (Eq. 5.1)$$
  
-Where in $\Delta v_{in}$ is the difference between the voltages at the input terminals and //K// is a very large number. (Values of //K// for typical commercially available operational amplifiers can be on the order of $10^6$$ or higher.) Since the output voltage is constrained to be less than the supply voltages,+Where in $\Delta v_{in}$ is the difference between the voltages at the input terminals and //K// is a very large number. (Values of //K// for typical commercially available operational amplifiers can be on the order of $10^6$ or higher.) Since the output voltage is constrained to be less than the supply voltages,
  
 $$V^- < K \cdot \Delta v_{in} < V^+$$ $$V^- < K \cdot \Delta v_{in} < V^+$$
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 ==== Exercises ==== ==== Exercises ====
-  - An operational amplifier has a gain K = 10,000. The voltage supplies are $V+ = 20V$ and $V-= -10V$. Determine the output voltage if the voltage difference between the input terminals $\left( v_p - v_n \right) is:+  - An operational amplifier has a gain K = 10,000. The voltage supplies are $V+ = 20V$ and $V-= -10V$. Determine the output voltage if the voltage difference between the input terminals $\left( v_p - v_n \right)is:
     - 1mV     - 1mV
     - 2mV     - 2mV
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   * The effect of a non-zero output resistance on an operational amplifier’s operation is that the power output of the amplifier is limited. Thus, a realistic operational amplifier will not be able to provide any arbitrary current to a load. Whether this has a significant effect on the overall circuit’s operation is primarily dependent upon the value of the load resistance.    * The effect of a non-zero output resistance on an operational amplifier’s operation is that the power output of the amplifier is limited. Thus, a realistic operational amplifier will not be able to provide any arbitrary current to a load. Whether this has a significant effect on the overall circuit’s operation is primarily dependent upon the value of the load resistance. 
   * The effect of a finite op-amp gain is that the voltage difference across the input terminals may not be identically zero.   * The effect of a finite op-amp gain is that the voltage difference across the input terminals may not be identically zero.
 +
 +
 +[[{}/learn/courses/real-analog-chapter-4/start|Back to Chapter 4]]
 +[[{}/learn/courses/real-analog-chapter-6/start|Go to Chapter 6]]