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
Op-Amps
- Ideal open-loop characteristics and negative feedback
- Inverting and non-inverting configurations
- Op-amp power supply
- Saturation
- Single-supply op-amps
- DC voltage and current sources
- I-V converters
- Current amplifiers, differential amplifiers, and instrumentation amplifiers
Active filters
- First- and second-order filters
- Sallen-Key and Multiple Feedback configurations
- Higher-order filters
- Bessel, Butterworth, and Chebyshev responses
Nonlinear circuits and signal generators
- Monolithic voltage comparators
- Schmitt triggers
Single-stage MOSFET and BJT transistor amplifiers
DIGITAL ELECTRONICS
Combinational circuits and devices
- Logic variables, Boolean algebra, and Boolean functions
- Truth tables and Karnaugh maps
- Boolean function minimization and implementation using NAND gates in SOP form and NOR gates in POS form
- Output timing in combinational circuits
- Don't-care conditions and minimization
- Design of combinational circuits using logic gates
- Encoding and decoding circuits
- Function generation using decoders
- Multiplexers and demultiplexers
- Function generation using multiplexers
- Read-only memories (ROMs)
- PAL and PLA programmable logic devices
Sequential circuits
- Set-Reset latches
- Clocked Set-Reset latches
- Master-Slave flip-flops
- J-K flip-flops
- D flip-flops
- Edge-triggered flip-flops
- SISO, PIPO, SIPO, and PISO shift registers
- Right, left, and bidirectional data shifting
- Circular shifting, one circulators, and zero circulators
Binary counters
- Ripple counters and frequency dividers
- Up counters and down counters
- Bidirectional counters
- Counters with arbitrary modulus
- 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 ELECTRONICSOp-Amps
- Ideal open-loop characteristics and negative feedback
- Inverting and non-inverting configurations
- Op-amp power supply
- Saturation
- Single-supply op-amps
- DC voltage and current sources
- I-V converters
- Current amplifiers, differential amplifiers, and instrumentation amplifiers
Active filters
- First- and second-order filters
- Sallen-Key and Multiple Feedback configurations
- Higher-order filters
- Bessel, Butterworth, and Chebyshev responses
Nonlinear circuits and signal generators
- Monolithic voltage comparators
- Schmitt triggers
Single-stage MOSFET and BJT transistor amplifiers
DIGITAL ELECTRONICS
Combinational circuits and devices
- Logic variables, Boolean algebra, and Boolean functions
- Truth tables and Karnaugh maps
- Boolean function minimization and implementation using NAND gates in SOP form and NOR gates in POS form
- Output timing in combinational circuits
- Don't-care conditions and minimization
- Design of combinational circuits using logic gates
- Encoding and decoding circuits
- Function generation using decoders
- Multiplexers and demultiplexers
- Function generation using multiplexers
- Read-only memories (ROMs)
- PAL and PLA programmable logic devices
Sequential circuits
- Set-Reset latches
- Clocked Set-Reset latches
- Master-Slave flip-flops
- J-K flip-flops
- D flip-flops
- Edge-triggered flip-flops
- SISO, PIPO, SIPO, and PISO shift registers
- Right, left, and bidirectional data shifting
- Circular shifting, one circulators, and zero circulators
Binary counters
- Ripple counters and frequency dividers
- Up counters and down counters
- Bidirectional counters
- Counters with arbitrary modulus
- 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
The course consists of two weekly lectures, each lasting two hours.Type of evaluation
Assessment consists of a written examination divided into two tests, respectively covering analog electronics and digital electronics. Passing both written tests grants access to the oral examination, which is aimed at determining the final grade out of 30 based on the average score obtained in the two written tests. teacher profile teaching materials
Op-Amps
- Ideal open-loop characteristics and negative feedback
- Inverting and non-inverting configurations
- Op-amp power supply
- Saturation
- Single-supply op-amps
- DC voltage and current sources
- I-V converters
- Current amplifiers, differential amplifiers, and instrumentation amplifiers
Active filters
- First- and second-order filters
- Sallen-Key and Multiple Feedback configurations
- Higher-order filters
- Bessel, Butterworth, and Chebyshev responses
Nonlinear circuits and signal generators
- Monolithic voltage comparators
- Schmitt triggers
Single-stage MOSFET and BJT transistor amplifiers
DIGITAL ELECTRONICS
Combinational circuits and devices
- Logic variables, Boolean algebra, and Boolean functions
- Truth tables and Karnaugh maps
- Boolean function minimization and implementation using NAND gates in SOP form and NOR gates in POS form
- Output timing in combinational circuits
- Don't-care conditions and minimization
- Design of combinational circuits using logic gates
- Encoding and decoding circuits
- Function generation using decoders
- Multiplexers and demultiplexers
- Function generation using multiplexers
- Read-only memories (ROMs)
- PAL and PLA programmable logic devices
Sequential circuits
- Set-Reset latches
- Clocked Set-Reset latches
- Master-Slave flip-flops
- J-K flip-flops
- D flip-flops
- Edge-triggered flip-flops
- SISO, PIPO, SIPO, and PISO shift registers
- Right, left, and bidirectional data shifting
- Circular shifting, one circulators, and zero circulators
Binary counters
- Ripple counters and frequency dividers
- Up counters and down counters
- Bidirectional counters
- Counters with arbitrary modulus
- 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 ELECTRONICSOp-Amps
- Ideal open-loop characteristics and negative feedback
- Inverting and non-inverting configurations
- Op-amp power supply
- Saturation
- Single-supply op-amps
- DC voltage and current sources
- I-V converters
- Current amplifiers, differential amplifiers, and instrumentation amplifiers
Active filters
- First- and second-order filters
- Sallen-Key and Multiple Feedback configurations
- Higher-order filters
- Bessel, Butterworth, and Chebyshev responses
Nonlinear circuits and signal generators
- Monolithic voltage comparators
- Schmitt triggers
Single-stage MOSFET and BJT transistor amplifiers
DIGITAL ELECTRONICS
Combinational circuits and devices
- Logic variables, Boolean algebra, and Boolean functions
- Truth tables and Karnaugh maps
- Boolean function minimization and implementation using NAND gates in SOP form and NOR gates in POS form
- Output timing in combinational circuits
- Don't-care conditions and minimization
- Design of combinational circuits using logic gates
- Encoding and decoding circuits
- Function generation using decoders
- Multiplexers and demultiplexers
- Function generation using multiplexers
- Read-only memories (ROMs)
- PAL and PLA programmable logic devices
Sequential circuits
- Set-Reset latches
- Clocked Set-Reset latches
- Master-Slave flip-flops
- J-K flip-flops
- D flip-flops
- Edge-triggered flip-flops
- SISO, PIPO, SIPO, and PISO shift registers
- Right, left, and bidirectional data shifting
- Circular shifting, one circulators, and zero circulators
Binary counters
- Ripple counters and frequency dividers
- Up counters and down counters
- Bidirectional counters
- Counters with arbitrary modulus
- 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
The course consists of two weekly lectures, each lasting two hours.Type of evaluation
Assessment consists of a written examination divided into two tests, respectively covering analog electronics and digital electronics. Passing both written tests grants access to the oral examination, which is aimed at determining the final grade out of 30 based on the average score obtained in the two written tests.