The document discusses signal generators and oscillator circuits. It covers oscillators and feedback conditions, oscillator circuits using LC resonators, quartz resonators operating at 32768Hz, and the 555 timer IC. Example circuits shown include a multi-vibrator, one-shot, and circuits combining multiple 555 timers for applications like laser alignment and audio generation.
This document contains lecture notes on operational amplifiers (op-amps). It discusses feedback in op-amps and how it determines whether the op-amp acts as an amplifier or oscillator. It also defines what an op-amp is, describes common op-amp models like the μA741, and discusses the internal structure of op-amps. Finally, it outlines several applications of op-amps including inverting amplifiers, non-inverting amplifiers, differential amplifiers, summing amplifiers, integrators, differentiators, logarithmic/anti-logarithmic amplifiers, analog computers, active rectifiers, and current sources.
This document contains lecture notes on field effect transistors and MOSFETs. It discusses the basic structure and operation of N-channel junction FETs, including their V-I characteristics. It also covers P-channel JFETs, JFET amplifiers and current sources, and the use of JFETs as source followers. The document then discusses MOSFETs, including depletion mode and enhancement mode types, as well as planar MOSFET structure. It covers the use of N-MOSFETs as motor drivers and concludes with a section on static discharge and safety.
The document discusses signal generators and oscillator circuits. It covers oscillators and feedback conditions, oscillator circuits using LC resonators, quartz resonators operating at 32768Hz, and the 555 timer IC. Example circuits shown include a multi-vibrator, one-shot, and circuits combining multiple 555 timers for applications like laser alignment and audio generation.
This document contains lecture notes on operational amplifiers (op-amps). It discusses feedback in op-amps and how it determines whether the op-amp acts as an amplifier or oscillator. It also defines what an op-amp is, describes common op-amp models like the μA741, and discusses the internal structure of op-amps. Finally, it outlines several applications of op-amps including inverting amplifiers, non-inverting amplifiers, differential amplifiers, summing amplifiers, integrators, differentiators, logarithmic/anti-logarithmic amplifiers, analog computers, active rectifiers, and current sources.
This document contains lecture notes on field effect transistors and MOSFETs. It discusses the basic structure and operation of N-channel junction FETs, including their V-I characteristics. It also covers P-channel JFETs, JFET amplifiers and current sources, and the use of JFETs as source followers. The document then discusses MOSFETs, including depletion mode and enhancement mode types, as well as planar MOSFET structure. It covers the use of N-MOSFETs as motor drivers and concludes with a section on static discharge and safety.