Acquire theoretical knowledge of the fundamental concepts of electronics, including the concepts of amplification, filtering and modulation of electrical signals, with a focus on their application in the biomedical field; acquire basic skills in circuit analysis techniques; acquire basic skills for the design of simple analogue electronic systems.
Curriculum
teacher profile teaching materials
OpAmp: open-loop ideal characteristics and negative feedback. Inverting and non-inverting configurations. OpAmp power supply. Output saturation. Single power supply OpAmps. DC voltage and current generators. I-V converters. Current amplifiers. Measurement and differential amplifiers.
Active filters: first and second order filters. Sallen-Key and multiple feedback configurations. Higher order filters. Standard filter responses: Bessel, Buttherworth and Chebyshev.
Stability and frequency compensation: stability criteria. Phase margin. Frequency compensation techniques.
Nonlinear circuits and signal generators: monolithic voltage comparators. Schmitt’s trigger. Single-stage MOSFET and BJT amplifiers.
Digital Electronics
Combinational devices and circuits: logic variables, Boole’s algebra and Boolean functions. Truth tables, Karnaugh’s maps. Boolean function minimization and representation with NAND ports (SOP) and NOR ports (POS). Output timing in combinational circuits. Don’t care conditions. Combinational circuits design with logic ports. Encoder and decoders. Function generation with decoders. Multiplexers and demultiplexers. Function generation with multiplexers. Read Only Memories. Programmable logic devices (PAL and PLA).
Sequential circuits: Set-Reset latch. Set-Reset latch with clock. Master-Slave flip-flop. J-K flip-flop. D flip-flop. Edge triggered flip-flop. Shit registers (SISO, PIPO, SIPO, PISO). Right-shift, left-shift and bidirectional shift of binary data. Ring shift, 1 and 0 circulators. Asynchronous binary counters: ripple counter and frequency dividers. Forward and backward counters. Bidirectional counters. Arbitrary base counters. Synchronous counters. Ring counters.
Analog-to-digital conversion. Sampling theorem. SAR, Flash and sigma-delta converters.
Digital Electronics 1: Combinational Logic Circuits, Tertulien Ndjountche
Digital Electronics 2: Sequential and Arithmetic Logic Circuits, Tertulien Ndjountche
Programme
Analog ElectronicsOpAmp: open-loop ideal characteristics and negative feedback. Inverting and non-inverting configurations. OpAmp power supply. Output saturation. Single power supply OpAmps. DC voltage and current generators. I-V converters. Current amplifiers. Measurement and differential amplifiers.
Active filters: first and second order filters. Sallen-Key and multiple feedback configurations. Higher order filters. Standard filter responses: Bessel, Buttherworth and Chebyshev.
Stability and frequency compensation: stability criteria. Phase margin. Frequency compensation techniques.
Nonlinear circuits and signal generators: monolithic voltage comparators. Schmitt’s trigger. Single-stage MOSFET and BJT amplifiers.
Digital Electronics
Combinational devices and circuits: logic variables, Boole’s algebra and Boolean functions. Truth tables, Karnaugh’s maps. Boolean function minimization and representation with NAND ports (SOP) and NOR ports (POS). Output timing in combinational circuits. Don’t care conditions. Combinational circuits design with logic ports. Encoder and decoders. Function generation with decoders. Multiplexers and demultiplexers. Function generation with multiplexers. Read Only Memories. Programmable logic devices (PAL and PLA).
Sequential circuits: Set-Reset latch. Set-Reset latch with clock. Master-Slave flip-flop. J-K flip-flop. D flip-flop. Edge triggered flip-flop. Shit registers (SISO, PIPO, SIPO, PISO). Right-shift, left-shift and bidirectional shift of binary data. Ring shift, 1 and 0 circulators. Asynchronous binary counters: ripple counter and frequency dividers. Forward and backward counters. Bidirectional counters. Arbitrary base counters. Synchronous counters. Ring counters.
Analog-to-digital conversion. Sampling theorem. SAR, Flash and sigma-delta converters.
Core Documentation
Analog Electronics : Circuits, Systems and Signal Processing, David Crecraft and Stephen GergelyDigital Electronics 1: Combinational Logic Circuits, Tertulien Ndjountche
Digital Electronics 2: Sequential and Arithmetic Logic Circuits, Tertulien Ndjountche
Attendance
Attendance is not mandatory but recommendedType of evaluation
The written exam is evaluated on a 0-30 scale; teacher profile teaching materials
OpAmp: open-loop ideal characteristics and negative feedback. Inverting and non-inverting configurations. OpAmp power supply. Output saturation. Single power supply OpAmps. DC voltage and current generators. I-V converters. Current amplifiers. Measurement and differential amplifiers.
Active filters: first and second order filters. Sallen-Key and multiple feedback configurations. Higher order filters. Standard filter responses: Bessel, Buttherworth and Chebyshev.
Stability and frequency compensation: stability criteria. Phase margin. Frequency compensation techniques.
Nonlinear circuits and signal generators: monolithic voltage comparators. Schmitt’s trigger. Single-stage MOSFET and BJT amplifiers.
Digital Electronics
Combinational devices and circuits: logic variables, Boole’s algebra and Boolean functions. Truth tables, Karnaugh’s maps. Boolean function minimization and representation with NAND ports (SOP) and NOR ports (POS). Output timing in combinational circuits. Don’t care conditions. Combinational circuits design with logic ports. Encoder and decoders. Function generation with decoders. Multiplexers and demultiplexers. Function generation with multiplexers. Read Only Memories. Programmable logic devices (PAL and PLA).
Sequential circuits: Set-Reset latch. Set-Reset latch with clock. Master-Slave flip-flop. J-K flip-flop. D flip-flop. Edge triggered flip-flop. Shit registers (SISO, PIPO, SIPO, PISO). Right-shift, left-shift and bidirectional shift of binary data. Ring shift, 1 and 0 circulators. Asynchronous binary counters: ripple counter and frequency dividers. Forward and backward counters. Bidirectional counters. Arbitrary base counters. Synchronous counters. Ring counters.
Analog-to-digital conversion. Sampling theorem. SAR, Flash and sigma-delta converters.
Digital Electronics 1: Combinational Logic Circuits, Tertulien Ndjountche
Digital Electronics 2: Sequential and Arithmetic Logic Circuits, Tertulien Ndjountche
Programme
Analog ElectronicsOpAmp: open-loop ideal characteristics and negative feedback. Inverting and non-inverting configurations. OpAmp power supply. Output saturation. Single power supply OpAmps. DC voltage and current generators. I-V converters. Current amplifiers. Measurement and differential amplifiers.
Active filters: first and second order filters. Sallen-Key and multiple feedback configurations. Higher order filters. Standard filter responses: Bessel, Buttherworth and Chebyshev.
Stability and frequency compensation: stability criteria. Phase margin. Frequency compensation techniques.
Nonlinear circuits and signal generators: monolithic voltage comparators. Schmitt’s trigger. Single-stage MOSFET and BJT amplifiers.
Digital Electronics
Combinational devices and circuits: logic variables, Boole’s algebra and Boolean functions. Truth tables, Karnaugh’s maps. Boolean function minimization and representation with NAND ports (SOP) and NOR ports (POS). Output timing in combinational circuits. Don’t care conditions. Combinational circuits design with logic ports. Encoder and decoders. Function generation with decoders. Multiplexers and demultiplexers. Function generation with multiplexers. Read Only Memories. Programmable logic devices (PAL and PLA).
Sequential circuits: Set-Reset latch. Set-Reset latch with clock. Master-Slave flip-flop. J-K flip-flop. D flip-flop. Edge triggered flip-flop. Shit registers (SISO, PIPO, SIPO, PISO). Right-shift, left-shift and bidirectional shift of binary data. Ring shift, 1 and 0 circulators. Asynchronous binary counters: ripple counter and frequency dividers. Forward and backward counters. Bidirectional counters. Arbitrary base counters. Synchronous counters. Ring counters.
Analog-to-digital conversion. Sampling theorem. SAR, Flash and sigma-delta converters.
Core Documentation
Analog Electronics : Circuits, Systems and Signal Processing, David Crecraft and Stephen GergelyDigital Electronics 1: Combinational Logic Circuits, Tertulien Ndjountche
Digital Electronics 2: Sequential and Arithmetic Logic Circuits, Tertulien Ndjountche
Attendance
Attendance is not mandatory but recommendedType of evaluation
The written exam is evaluated on a 0-30 scale;