Director
D. Antonio Jesús Torralba Silgado
(Ingeniería Electrónica)
Unidad Promotora
Cátedra USECHIP
Impartición
Del 15/10/2025 al 15/02/2026
Modalidad
Presencial
Idioma de impartición
bilingüe
Lugar de impartición
Departamento de Ingeniería Electrónica
37,00 €
(tasas incluidas)
19,00 ECTS
Prácticas
No
Objetivos
To train students in advanced microelectronic and nanoelectronic design, as well as optical communication.
Develop a project on: a) digital, analog, and mixed-signal microelectronic and nanoelectronic design, or b) photonic, optoelectronic, and optical communication.
These projects consider relevant applications typical in aerospace, communications, industrial, and automotive engineering.
This course aims to cover the various aspects of advanced design and engage students in a project that consolidates their knowledge, understanding the different aspects of complex system design, and participating in the development of some of their components.
All of this being part team effort led by an expert.
Competencias
• Ability to analyse and detect problems from the perspective of micro- and nano-electronic engineering and optoelectronic engineering
• Ability to understand the different design components of a complex system in micro- and nano-electronic engineering and optical-electronic engineering
• Ability to design the blocks of a complex system, from its specifications, through the different stages of development, from high level to layout.
• Ability to design blocks and tools for the testing and verification of a complex system.
• Ability to prepare technical documentation related to the advanced design of micro- and nano-electronic systems, and integrated optimisation.
• Ability to participate in a team effort dedicated to the design of complex systems
• Oral communication skills applied to micro- and nano-electronic engineering and optoelectronic engineering
Procedimiento de evaluación
Trabajos
Requisitos
Requisitos específicos de admisión a los estudios
- Hold a Bachelor's or Master's degree in different areas of Engineering, such as Electrical and Electronic, Telecommunication, Aeronautics and Space, and Industrial.
Requisitos académicos para la obtención del Título o Diploma
- To obtain the degree, the student must attend 80% of the classroom hours, and pass each of the modules that comprise it, as well as the assigned project(s).
Criterios de selección de alumnos
- Admission criteria will be determined by the Academic Committee of the Course based on the student's background.
- Ties will be resolved based on the order of registration.
Módulos / Asignaturas
Modalidad de impartición: Presencial
Fechas de inicio-fin: 15/10/2025 - 15/02/2026
Horario: Lunes Tarde, Martes Tarde, Miércoles Tarde
Contenido
1, Intriduction to Embedded Systems & IoT
2. Advanced Microprocessors
3. Advanced Programmable Arrays
4. Complex Digital Design
5. Advanced VHDL
5. Verification and Test
Modalidad de impartición: Presencial
Fechas de inicio-fin: 15/10/2025 - 15/02/2026
Horario: Lunes Tarde, Martes Tarde, Miércoles Tarde
Contenido
1. Advanced Simulation of Analog and Mixed-Signal Micro- and Nano-Electronic Circuits: SPICE and SPECTRE
2. Modelling Analog Circuits with Verilog-A
3. Design of Analog Building Blocks Blocks and Application to Signal Processing
4. Design of Complex Mixed-Signal Systems
5. Physical implementation
Modalidad de impartición: Presencial
Fechas de inicio-fin: 15/10/2025 - 15/02/2026
Horario: Lunes Tarde, Martes Tarde, Miércoles Tarde
Contenido
1: Optical Signal Propagation
2: Optical Signal Generation
3: Optical Signal Detection
4: Optical Networks
Modalidad de impartición: Presencial
Fechas de inicio-fin: 15/10/2025 - 15/02/2026
Horario: Lunes Tarde, Martes Tarde, Miércoles Tarde
Contenido
Execution of an advanced engineering project on electronic and photonic systems, with applications in Industrial, Telecommunication, and Aerospace Engineering.
The project is carried out in a working group, under the direction of one of the teachers.
The student will participate in the design of a complex system, from its specifications to the detailed design of its blocks, being responsible for one of the system's blocks.
Design examples:
• Ultrasound transmission system
• Design of a receiver based on a certain communication standard, like Bluetooth or DVB.
• Instrumentation system for liquid flow measurements
• Optical amplifier
• DWDM and OTDM optical communication system
Profesorado
Personal Académico
- D. Alejandro Carballar Rincón . Universidad de Sevilla - Ingeniería Electrónica
- D. Antonio Jesús Torralba Silgado . Universidad de Sevilla - Ingeniería Electrónica
- Dª. Clara Isabel Luján Martínez . Universidad de Sevilla - Ingeniería Electrónica
- D. Fernando Muñoz Chavero . Universidad de Sevilla - Ingeniería Electrónica
Profesorado
- D. Alejandro Carballar Rincón . Universidad de Sevilla - Ingeniería Electrónica
- D. Antonio Jesús Torralba Silgado . Universidad de Sevilla - Ingeniería Electrónica
- Dª. Clara Isabel Luján Martínez . Universidad de Sevilla - Ingeniería Electrónica
- D. Enrique López Morillo . Universidad de Sevilla - Ingeniería Electrónica
- D. Fernando Muñoz Chavero . Universidad de Sevilla - Ingeniería Electrónica
- D. Francisco Rogelio Palomo Pinto . Universidad de Sevilla - Ingeniería Electrónica
- D. Hipólito Guzmán Miranda . Universidad de Sevilla - Ingeniería Electrónica
- D. Jose María Hinojo Montero . Universidad de Huelva - Ingeniería Eletrónica, de SIstemas Informáticos y Automática
- D. José Ramón García Oya . Universidad de Sevilla - Ingeniería Electrónica
- D. Ramón González Carvajal . Universidad de Sevilla - Ingeniería Electrónica
- D. Rubén Martín Clemente . Universidad de Sevilla - Teoría de la Señal y Comunicaciones