1 Fundamentals of Microelectronics  CH1 Why Microelectronics?  CH2 Basic Physics of Semiconductors  CH3 Diode Circuits  CH4 Physics of Bipolar Transistors.

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Presentation transcript:

1 Fundamentals of Microelectronics  CH1 Why Microelectronics?  CH2 Basic Physics of Semiconductors  CH3 Diode Circuits  CH4 Physics of Bipolar Transistors  CH5 Bipolar Amplifiers  CH6 Physics of MOS Transistors  CH7 CMOS Amplifiers  CH8 Operational Amplifier As A Black Box

2  1.1 Electronics versus Microelectronics  1.2 Example of Electronic System: Cellular Telephone  1.3 Analog versus Digital Chapter 1 Why Microelectronics?

CH1 Why Microelectronics?3 Cellular Technology  An important example of microelectronics.  Microelectronics exist in black boxes that process the received and transmitted voice signals.

CH1 Why Microelectronics?4 Frequency Up-conversion  Voice is “up-converted” by multiplying two sinusoids.  When multiplying two sinusoids in time domain, their spectra are convolved in frequency domain.

CH1 Why Microelectronics?5 Transmitter  Two frequencies are multiplied and radiated by an antenna in (a).  A power amplifier is added in (b) to boost the signal.

CH1 Why Microelectronics?6 Receiver  High frequency is translated to DC by multiplying by f C.  A low-noise amplifier is needed for signal boosting without excessive noise.

CH1 Why Microelectronics?7 Digital or Analog?  X 1 (t) is operating at 100Mb/s and X 2 (t) is operating at 1Gb/s.  A digital signal operating at very high frequency is very “analog”.

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