GOPALAN COLLEGE OF ENGINEERING AND MANAGEMENT Department of Electronics and Communication Engineering COURSE PLAN

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Appendix - C GOPALAN COLLEGE OF ENGINEERING AND MANAGEMENT Department of Electronics and Communication Engineering Academic Year: 2016-17 Semester: EVEN COURSE PLAN Semester: VI Subject Code& Name: 10EC63 & MICROELECTRONIC CIRCUITS Name of Subject Teacher: Pavan V S Name of Subject Expert (Reviewer): Kavitha M V For the Period: From: 6-02-17 to 2-06-17 Details of Book to be referred: Text Books Microelectronic Circuits, Adel Sedra and K.C. Smith, 5th Edition, Oxford University Press, Interantional Version, 2009. Reference Books 1. Fundamentals of Microelectronics, Behzad Razavi, John Wiley India Pvt. Ltd, 2008. 2. Microelectronics Analysis and Design, Sundaram Natarajan, Tata McGraw-Hill, 2007 Lecture NO 1. 2. 3. Topic Planned UNIT-1 Introduction Device structure and physical operation Practical Applications & Brief objectives To further understand the MOSFET operation, analysis and its biasing methods Book referred with Pg No. 325 326 V-I characteristics 338 Planned Date 6-2-17 7-2-17 9-2-17 Executed Date Deviation Reasons thereof How Made Good / Reciprocate arrangement Remarks by HOD

4. 5. 6. 7. MOSFET circuit at DC 352 Cell phone Biasing in MOS amplifiers Television Processors(CPU) 370 Biasing using constant current source in MOS amplifiers The MOSFET as an amplifier Able to understand basic function and overview of MOSFET 375 360 10-2-17 10-2-17 13-2-17 14-2-17 8. MOSFET as a switch 364 16-2-17 9. 10. Small signal operation and models Small signal equivalent circuits models 377 380 17-2-17 17-2-17 11. Modeling the body effect 386 20-2-17 12. Single stage MOS amplifier 389 21-2-17 13. Characterizing the amplifier 391 23-2-17 14. 15. 16. 17. 18. 19. 20. UNIT 2 IC design Philosophy, and types of scaling Short channel effects and recent scaling trend Comparison between BJT and MOSFET Basic MOSFET current source Basic MOSFET current mirror MOS current steering circuits High frequency response general considerations To further understand problems with reduced channel length in MOSFET and also it frequency response RAM ROM Pendrive Able to understand differentiate the advantages and disadvantages of 566 27-2-17 567 28-2-17 572 2-3-17 587 3-3-17 592 3-3-17 590 6-3-17 596 7-3-17

21. 3dB frequency drop MOSFET over BJT for specific applications 598 13-3-17 22. Test on Unit 1 and 2 14-3-17 23. 24. 25. UNIT 5 FEEDBACK - General feedback structure and properties of feedback To get constant voltage gain with suppressed noise for MOSFET for the changing input, to be Four basic topologies used in amplifier circuit. 718 Encryption and 26. 27. 28. Determining the loop gain Stability problem Effect of feedback on amplifier poles Decryption devices, Synchronous circuits Able to understand the advantages of stable MOSFET 751 754 756 20-3-17 21-3-17 23-3-17 29. Stability study using bode with fixed gain, 765 plots design fixed loop 24-3-17 30. 712 Noise margin 717 Frequency compensation gain for specific applications and requirement of compensation 769 16-3-17 17-3-17 17-3-17 24-3-17 31. UNIT 6 Operational amplifiers The ideal OP amp To understand how MOSFET s can be used to build 32. The inverting configuration 478 30-3-17 Noninverting configuration amplifier, by proper 487 33. analysis and its 31-3-17 specific biasing 503 methods 34. Effect of finite open loop gain and bandwidth on circuit performance 474 27-3-17 31-3-17

35. 36. Difference amplifier Large signal operation of op amp Earphones Hearing aid Speakers DC imperfections 512 37. 6-4-17 Will be able to select 38. Analog multipliers among the available 533 7-4-17 MOS amplifier Sample and hold circuits based on the 534 39. 7-4-17 required conditions 40. 491 508 Differentiators 526 3-4-17 4-4-17 10-4-17 41. 42. 43. 44. Integrators 521 Logarithmic amplifiers 528 Antilogarithmic amplifiers 532 Test on Unit 5& 6 11-4-17 13-4-17 13-4-17 20-4-17 45. 46. 47. UNIT 7 & 8 Digital CMOS circuits. Overview. Voltage transfer characteristic and Noise margin Design and performance analysis of CMOS inverter To understand the MOSFET operation, analysis and its biasing methods Camera CMOS sensor R F circuits Transmitter and 896 898 901 21-4-17 21-4-17 25-4-17

48. Static characteristics of CMOS inverter receiver 902 27-4-17 49. Dynamic operation of CMOS inverter 50. 51. Logic gate circuits Types of CMOS logic gates 52. Pass-transistor logic Will be able to understand the exact requirement of digital CMOS circuits which gives the advantage of pmos and nmos, also the clocking for device operation 904 909 912 914 28-4-17 28-4-17 2-5-17 4-5-17 53. Charging with nmos 915 918 5-5-17 54. Dynamic Logic Circuits, CMOS logic circuits UNIT 4 Differential and 55. Multistage amplifier - The MOS differential pair operation Qualitative analysis of 56. MOS differential pair operation Small signal model, Small 57. signal behavior of 58. 59. differential pair Common mode inputs to differential pair To understand how MOSFET behaves for same input and how it can be implemented for multistage networks Internet Wired/Wireless communication Cascaded circuits Will be able to understand the small 792 795 5-5-17 8-5-17 9-5-17 800 11-5-17 804 12-5-17 The BJT differences pair 808 12-5-17

60. 61. 62. 63. 64. 65. 66. 67. Differential pair with active loads Differential amplifier with active loads, Multistage amplifier UNIT 3 Single Stage IC amplifiers CS and CF amplifiers with loads, high frequency response of CS and CF amplifiers CG and CB amplifiers with active loads high frequency response of CG and CB amplifiers, Cascade amplifiers CS and CE amplifiers with source ( emitter) degeneration source and emitter followers Current mirrors with Improved performance. signal behavior and common mode input behavior of MOSFET (amplifiers). To further understand the MOSFET operation, analyze its frequency response for different combinations of amplifier circuits MOS amplifiers Speakers Transmitters and receivers Able to select compare between different combinations of MOSFET circuits with respect to Gain, 831 833 18-5-17 19-5-17 68. Bandwidth load 29-5-17 effects, impedance matching 607 613 625 638 654 674 19-5-17 22-5-17 23-5-17 25-5-17 26-5-17 26-5-17 69. 70. 30-5-17 31-5-17

71. 72. 73. 1-6-17 2-6-17 2-6-17 Prepared By: Reviewed by: Approved by: Approved by: (Faculty) (Sub. expert) (HOD) (Principal/ Acad. Co) Date & Sign Date & Sign Date & Sign Date & Sign

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