UC Berkeley: Electrical Engineering
Para inscribirse en unas Summer Sessions en UC Berkeley, debes seleccionar 1 o 2 cursos de Summer Sessions. A continuación puedes ver todos los cursos del área Electrical Engineering; contenido y horario.
Recomendamos:
1.- Ver en que sesión (fechas y duración) se imparte cada uno de los cursos de esta área.
2.- Cuando sepas los cursos que más te interesan comprueba el horario para que no se solapen entre ellos.
DURACIÓN FECHAS SESSION
3 semanas Julio 23 - Agosto 10 Session E
6 semanas Julio 2 - Agosto 10 Session D
8 semanas Junio 18 - Agosto 10 Session C
10 semanas Junio 4 - Agosto 10 Session B
6 semanas Mayo 21 - Junio 29 Session A
REQUISITOS: Nivel Avanzado, TOEFL 79iBT, CAE, IELTS 6.5
Cursos de Electrical Engineering:
| Electrical Engineering | nº de creditos | duración en semanas | Sesión |
| Introduction to Microelectronic Circuits | 4 | 8 | C |
| Introduction to Digital Electronics | 3 | 8 | C |
| Introductory Electronics Laboratory | 1 | 8 | C |
| Electronic Techniques for Engineering | 4 | 8 | C |
Precios INTERNATIONAL REGISTRATION FEE: 685 € PRECIO CURSO: 1.250 € | ||||||
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| TIPO DE ALOJAMIENTO | DURACIÓN | FECHAS | | PRECIO | ||
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| Campus P.C. | 3 semanas | Jul 23 - Ago 10 | | 1.650,00 € | ||
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| Campus P.C. | 6 semanas. | May 21 - Jun 29 // Jul 2 - Ago 10 | | 2.660,00 € | ||
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| Campus P.C. | 8 semanas. | Jun 18 - Ago 10 | | 3.520,00 € | ||
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| Campus P.C. | 10 semanas | Jun 4 - Ago 10 | | 4.440,00 € | ||
ELECTRICAL ENGINEERING
Introduction to Microelectronic Circuits
Session Dates: June 18 - August 10
Six hours of lecture, two hours of discussion, and six hours of laboratory for eight weeks.
Prerequisites: Mathematics 1B and Physics 7B.
Fundamental circuit concepts and analysis techniques in the context of digital electronic circuits. Transient analysis of CMOS logic gates; basic integrated-circuit technology and layout
Introduction to Digital Electronics
Introduction to Digital Electronics
Session Dates: June 18 - August 10
Six hours of lecture and two hours of discussion for eight weeks.
Prerequisites: Mathematics 1B.
This course serves as an introduction to the principles of electrical engineering, starting from the basic concepts of voltage and current and circuit elements of resistors, capacitors, and inductors. Circuit analysis is taught using Kirchhoff's voltage and current laws with Thevenin and Norton equivalents. Operational amplifiers with feedback are introduced as basic building blocks for amplication and filtering. Semiconductor devices including diodes and MOSFETS and their IV characteristics are covered. Applications of diodes for rectification, and design of MOSFETs in common source amplifiers are taught. Digital logic gates and design using CMOS as well as simple flip-flops are introduced. Speed and scaling issues for CMOS are considered. The course includes as motivating examples designs of high level applications including logic circuits, amplifiers, power supplies, and communication links.
Introductory Electronics Laboratory
Session Dates: June 18 - August 10
Three and one-half hours of laboratory/discussion per week for eight weeks.
Prerequisites: 42 (may be taken concurrently) or equivalent or consent of instructor.
Using and understanding electronics laboratory equipment such as oscilloscope, power supplies, function generator, multimeter, curve-tracer, and RLC-meter. Includes a term project of constructing and testing a robot or other appropriate electromechanical device.
Electronic Techniques for Engineering
Session Dates: June 18 - August 10
Six hours of lecture, two hours of discussion, and three hours of laboratory for eight weeks.
Prerequisites: Mathematics 1B.
This course serves as an introduction to the principles of electrical engineering, starting from the basic concepts of voltage and current and circuit elements of resistors, capacitors, and inductors. Circuit analysis is taught using Kirchhoff's voltage and current laws with Thevenin and Norton equivalents. Operational amplifiers with feedback are introduced as basic building blocks for amplification and filtering. Semiconductor devices including diodes and MOSFETS and their IV characteristics are covered. Applications of diodes for rectification, and design of MOSFETs in common source amplifiers are taught. Digital logic gates and design using CMOS as well as simple flip-flops are introduced. Speed and scaling issues for CMOS are considered. The course includes as motivating examples designs of high level applications including logic circuits, amplifiers, power supplies, and communication links. Electronic
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