4.2.1 Current-voltage characteristics of MOSFET 4.2.2 Triode and saturation regions 4.2.3 Circuit symbols 4.2.4 DC biasing of a common-source (CS) amplifier

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Week	Course Content	Course Video
	Chapter 3 P-N Junction 3.1.1 Impurity doping 3.1.2 Drift and diffusion currents 3.1.3 Energy band diagram 3.1.4 Current transport under forward bias	Watch Online
	3.2.1 Boundary conditions of the P-N junction 3.2.2 Current-voltage derivation	Watch Online
	3.3.1 Logarithmic amplifier 3.3.2 Exponential amplifier 3.3.3 Multiplier 3.3.4 Divider 3.3.5 Square root 3.3.6 Calibration 3.3.7 Diode rectification (1)	Watch Online
	3.4.1 Diode rectification (2) 3.4.2 Superdiode 3.4.3 Superdiode with a gain 3.4.4 Superdiode without saturation 3.4.5 Peak rectifier (1)	Watch Online
	3.5.1 Peak rectifier (2) 3.5.2 Full-wave peak rectifier 3.5.3 Voltage regulator 3.5.4 Loading effect 3.5.5 Breakdown diodes	Watch Online
	3.6.1 Voltage regulator with OP and BJT 3.6.2 An improved DC power supply 3.6.3 Ripple effect 3.6.4 Amplitude modulation (AM) 3.6.5 Amplitude demodulation	Watch Online
	3.7.1 AM transmitter 3.7.2 Current amplifier 3.7.3 AM receiver 3.7.4 Frequency tuner 3.7.5 Automatic gain control (AGC)	Watch Online
	3.8.1 Another AM receiver 3.8.2 Carrier-signal extraction	Watch Online
	3.9.1 AGC operation 3.9.2 Junction Field-Effect-Transistor (JFET) physics 3.9.3 JFET operating in the ohmic region 3.9.4. Peak detector 3.9.5 AGC circuit	Watch Online
	3.10.1 JFET amplifiers (1) 3.10.2 Channel pinch-off effect	Watch Online
	3.11.1 JFET amplifiers (2) 3.11.2 Infrared CO2 censor mechanism 3.11.3 Infrared driver circuit 3.11.4 Infrared detector 3.11.5 Infrared Co2 sensor complete circuit	Watch Online
	Chapter 4 MOSFETs 4.1.1 N-channel MOSFET physics 4.1.2 Threshold voltage 4.1.3 Channel pinch-off at the Drain end 4.1.4 Current-voltage derivation	Watch Online
	4.2.1 Current-voltage characteristics of MOSFET 4.2.2 Triode and saturation regions 4.2.3 Circuit symbols 4.2.4 DC biasing of a common-source (CS) amplifier	Watch Online
	4.3.1 MOSFET circuits 4.3.2 Load line 4.3.3 Input-output voltage characteristics	Watch Online
	4.4.1 DC and AC circuits 4.4.2 Constant-input DC biasing	Watch Online
	4.5.1 DC biasing stability against K variation 4.5.2 CS amplifier with source resistance 4.5.3 Bypass the source resistor with C to recover the ac gain	Watch Online
	4.6.1 Another DC biasing 4.6.2 Current-mirror as a constant-current source 4.6.3 CS amplifier with a constant-current biasing 4.6.4 Input DC range	Watch Online
	4.7.1 Common-gate (CG) amplifier with a constant-current biasing 4.7.2 Common-drain (CD) amplifier with a constant-current biasing	Watch Online
	4.8.1 CS in serial with CS 4.8.2 CS in serial with CD 4.8.3 CD in serial with CG	Watch Online
	4.9.1 CS in serial with CD 4.9.2 Complementary outputs to cancel the DC voltage	Watch Online
	4.10.1 MOS ohmic region to generate AM 4.10.2 Current mirror to cancel the DC current 4.10.3 P-channel MOS 4.10.4 P-MOS amplifier 4.10.5 P-MOS current mirror 4.10.6 Input DC range	Watch Online
	4.11.1 NMOS CS amplifier with a NMOS current mirror 4.11.2 PMOS CS amplifier with a PMOS current mirror 4.11.3 Integration Circuit (IC) biasing 4.11.4 CMOS amplifier	Watch Online
	4.12.1 COMS inverters 4.12.2 Pulse width modulation (PWM) 4.12.3 Early Effect (Channel-length modulation) (1)	Watch Online
	4.13.1 Early Effect (2) 4.13.2 IC design of a MOS amplifier 4.13.3 Constant-current load 4.13.4 Output DC offset	Watch Online
	4.14.1 Early Effect (3) 4.14.2 IC design of a CS amplifier with a constant-current load 4.14.3 Characteristics of a CS amplifier with a constant-current load 4.14.4 Adjust the DC output	Watch Online
	4.15.1 Short-circuit current and output resistance 4.15.2 Cascode amplifier 4.15.3 Cascode current load 4.15.4 Cascode amplifier with cascode current load	Watch Online

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