Microelectronics Training Courses and Workshops

Schools providing training courses, certificates, diplomas or degree programs of Microelectronics




Total 116 training courses and degree programs available around the world.

VLSI and Microelectronics (Master Degree)

Course Format: Online / Virtual Classroom / Webinar
School/Trainer: IIT Armour College of Engineering
Training Center(s)/Venue(s): Chicago, United States
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The purpose of this degree program is to prepare students for leading edge positions in industry in the areas of VLSI and microelectronics. The Professional Master of VLSI and Microelectronics is a course-only degree program that prepares students for professional practice. Students can pursue a professional master&,#146,s degree in the area of VLSI and Microelectronics by completing the required core courses, ECE 425, ECE 429, ECE 529, and ECE 575 (and/or ECE 415) and selecting six additional courses from a combination of computer engineering electives, electronics electives, and other areas in electrical and computer engineering.

A minimum of 18 credit hours at the 500-level or higher must be selected. With advisor approval the student may take up to two ECE courses in other areas of electrical and computer engineering such as signal processing, communications, power and control. The admission requirements for the proposed degree will follow the existing admission requirements for such professional master&,#146,s degrees in ECE Department. Students whose... [Read More]

Microelectronics

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Temple University
Training Center(s)/Venue(s): Philadelphia, United States

Advanced study of electronic devices and their applications to linear, non-linear, and digital circuits, transistors, FET’s, amplifiers, digital integrated circuits, and VLSI’s, Software design emphasized. A term project will be assigned.

Microelectronics and Computer Engineering (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Temple University College of Engineering
Training Center(s)/Venue(s): Philadelphia, United States
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Concentration in Microelectronics and Computer Engineering emphasizes electronic circuits, embedded systems, and system-on-a-chip design. This research concentration provides students with advanced knowledge in current practices of computer design, application-specific integrated circuit (ASIC) development, hardware realization, and integrated circuit layout. Digital very-large-scale integration (VLSI) design considers the device parameters and fabrication of complementary metal-oxide-semiconductor (CMOS) integrated circuits for high-speed digital data computation and communication. Application areas include system-chip design methodologies using Verilog, behavioral synthesis in FPGAs, migration of existing integrated circuit designs to new fabrication processes, minimization of propagation delay in high-speed digital circuits, and thermal dissipation.

Microelectronics Design

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Johnson & Wales University Providence Campus
Training Center(s)/Venue(s): Providence, United States

This is a project-oriented design course. Topics covered include contemporary design methodologies, prototyping platforms, programmable devices, hardware description language, and design, verification, and realizations of digital systems and their building blocks.

Microelectronics Technology

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Portland Community College
Training Center(s)/Venue(s): Portland, United States
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Our Associate of Applied Science in Microelectronics lays the foundation for critical thinking and problem solving skills, providing courses in mathematics, chemistry, physics and electronics while introducing courses in semiconductor manufacturing and process equipment. In our program, you’ll learn how to maintain and repair the highly complex manufacturing equipment used to make integrated circuits and solar cells. You will get your hands on actual vacuum and plasma systems as well as actual process tools used by the industry.

As a professional equipment technician working in a clean room, you must follow strict procedures in order to maintain high quality and reduce particle count in manufacturing, while following safety procedures for handling processing chemicals and gases. You must also have a broad range of skills, including good English communication and the ability to thrive in a team-oriented organization. By graduation, you’ll have learned all the skills you need for an entry-level position.

Microelectronics (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: National University of Singapore
Training Center(s)/Venue(s): Singapore, Singapore

Please click on the training course title to find contact information and links to National University of Singapore's website.

Microelectronics (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Nanyang Technological University
Training Center(s)/Venue(s): Singapore, Singapore

This MSC (Microelectronics) programme is a highly specialized programme jointly offered by Nanyang Technological University and Technische Universitat Munchen (Germany) on a full-time basis for training engineers to work in silicon wafer fabrication industries, engage with the related research institutions and pursue further studies.

Microelectronics

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: North Carolina State University
Training Center(s)/Venue(s): Raleigh, United States
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Introduction to the physics of semiconductors, PN Junctions, BJT and MOS field Effect Transistors: Physics of operation, IV characteristics, load line, quiescent point of operation, PSPICE analysis; diode circuit analysis; voltage regulation; Single Stage Transistor Amplifiers: Common Emitter and Common Source configurations, biasing, inverting and non-inverting amplifiers; follower circuits; calculation of small signal voltage gain, current gain, coupling and bypass capacitors; Multistage ac-coupled amplifiers; small signal modeling; input resistance and output resistance; logic inverters.

Microelectronics Manufacturing Engineering (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Rochester Institute of Technology
Training Center(s)/Venue(s): Rochester, United States
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The master of engineering degree in microelectronics manufacturing engineering provides a broad-based education to students with a bachelor’s degree in traditional engineering or science disciplines who are interested in a career in the semiconductor industry.

The ME degree is awarded upon successful completion of an approved graduate program consisting of a minimum of 45 quarter credit hours. The program consists of one transition course, seven core courses, two approved elective courses, and a minimum of 5 quarter credit hours of internship. Under certain circumstances, a student may be required to complete more than the minimum number of credits. The transition course is in an area other than that in which the BS degree was earned.

Program outcomes

After completion of the program, a student will be able to:
•Design and understand a sequence of processing steps to fabricate a solid state device to meet a set of geometric, electrical and/or processing parameters.
•Analyze experimental electrical data from a solid state device to extract perf... [Read More]

Microelectronics Systems Design (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: University of Southampton
Training Center(s)/Venue(s): Southampton, United Kingdom
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The field of microelectronics systems design embodies many of the key skills relating to integrated circuit design and electronic systems engineering. This cutting-edge programme examines aspects of system integration and discrete device properties, and is an excellent platform for further research in the Nano group and the Electronic Systems and Devices group.

Programme structure
Semester 1: Digital integrated circuit design; Digital system design; EDA; Integrated circuit design; Nanoelectronics devices; Research methods

Semester 2: Analogue and mixed-signal CMOS design; Digital systems synthesis; Integrated RF transceiver design; VLSI design project

Semester 3: Three-month, independent, individual research project, culminating in a dissertation

Microelectronics and System-on-Chip Engineering (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Lancaster University
Training Center(s)/Venue(s): Lancaster, United Kingdom
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This course brings together core techniques and technologies that cover relevant developments in System-on-Chip design, including advanced concepts in the design of digital synchronous systems, FPGA specific techniques, fundamentals of on-chip communication and embedded buses and hardware/software co-design.
The curriculum is built around 6 learning modules which will provide both theoretical information and practical experience using commonly employed industrial tools. The key module topics are Microsystem and System-On-Chip Technology, Embedded System Design, Intelligent System Control, Real Time Systems, and Interfacing and Integration. Additionally, you will undertake a major individual project which allows you to extend your knowledge by exploring more fully an area of interest.

RF Microelectronics

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: New Mexico State University
Training Center(s)/Venue(s): Las Cruces, Santa Fe, United States

Analysis, design and implementation of RF integrated circuits in CMOS/BJT technologies. Low noise amplifiers and mixers, power amplifiers, wideband amplifiers, oscillators, phase-locked frequency synthesizers.

Micro Circuit Mask Design (Certificate)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Mesa Community College
Training Center(s)/Venue(s): Mesa, United States
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are nearly ubiquitous in the digital age.

The Micro Circuit Mask Design program at MCC prepares you to work in the microcircuit design field. Our program emphasizes current technological trends in the industry. It is designed for the student preparing for a career in the field and for the microcircuit professional who wants to advance and update their knowledge and skills. Our curriculum combines coursework in microcircuit mask design with a general education component.

Microelectromechanics and Electrostatics (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: University of Rochester
Training Center(s)/Venue(s): Rochester, United States
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Research in the microelectromechanics area is directed to the development of small integrated sensors and transducers, using microfabrication techniques developed for silicon microelectronic circuits. Efforts are focusing on issues of noise and sensitivity in displacement sensors and accelerometers. Cryogenic electro-mechanical transducers and vacuum tunneling transducers sensitive to sub-Angstrom displacements are also being developed. Research on particle electro-mechanical interactions exhibited by particles in the size range from 5 to 500 microns when electric or magnetic fields are present. Dielectrophoretic levitation techniques have been developed for investigating di-electric properties of individual metallic or dielectric particles or even biological cells. The levitation systems used are based on a variety of custom-designed controller boards that interface a computer to various video cameras and linear diode arrays. These unique facilities can perform automated variable-frequency measurements upon individual particles. The flow of powders and granular media under... [Read More]

Opto-Electronics (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: University of Rochester
Training Center(s)/Venue(s): Rochester, United States
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Information processing with optical pulses offers data rates much in excess of what is available with electronic signals. Examples are long-haul and local-area-fiber networks, and optical computing. Optoelectronics research is directed at obtaining a detailed understanding of ultrafast phenomena and ultrafast nonlinearities in semiconductors and high-temperature superconductors, and at using silicon quantum dots and nanometer-size objects in optoelectronics and biosensing. Using these basic results, novel optoelectronic and opto-optic devices are designed. This work is a combination of laser technology, solid-state physics, materials science, and device physics and engineering. Recent research includes the study of electron and hole thermalization and recombination in semiconductors and semiconductor quantum wells, and the optoelectronic properties of porous silicon, which unlike crystalline silicon emits light efficiently at room temperature. Studies span the range from fundamental materials characterization to device fabrication and testing. In the area of superconducting... [Read More]

Superconductivity and Solid-State Electronics (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: University of Rochester
Training Center(s)/Venue(s): Rochester, United States
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A major focus for research in the Department involves design, fabrication, and testing of ultrafast superconducting digital integrated circuits. This is carried out under the auspices of the University research initiative in Low-Temperature Superconducting Digital Electronics. This research is leading toward the development of integrated circuits that can carry out digital signal processing and analog-to-digital conversion at unprecented rates, using the new "single-flux quantum logic." In the area of ultrafast electronics, picosecond electrical and optical pulses probe the transient response of semiconducting and superconducting devices, such as Metal-Semiconductor-Metal (MSM) photodiodes and tunnel junctions. Research in high-temperature superconductivity is concentrated on developing thin-film devices based on Y-Ba-Cu-O for applications including high-speed electronic interconnects, passive microwave circuits, high-frequency Josephson junctions, and optoelectronic hybrid and monolithic devices. Also under study is a superconducting implementation of quantum com... [Read More]

Integrated Electronics and Computer Engineering (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: University of Rochester
Training Center(s)/Venue(s): Rochester, United States
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Department research in VLSI and CAE addresses topics in integrated circuit design methodologies and automation. Specific system-oriented research includes an analytical model for multi-access protocols with prioritized messages and distributed control architecture. Design for testability studies are exploring operational parallelism in any testing process to determine the set of automated test procedures which minimizes the silicon area consumed by the built-in self-test structures. A program in Low Temperature Superconducting Digital Electronics, described in more detail below, is applying VLSI design and analysis techniques to the development of new ultrafast superconducting digital integrated circuits. Other research in this area focuses on the design and analysis of high performance VLSI-based digital and analog integrated circuits and their systems. Specifically, speed, area, and power dissipation tradeoffs are investigated in terms of application-specific constraints and their fundamental circuit level limitations. System architectural issues which directly affect per... [Read More]

Microelectronics

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Durham Technical Community College
Training Center(s)/Venue(s): Durham, United States
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This course introduces the field of microelectronics and semiconductor processing. Topics include an overview of the industry, job requirements and opportunities, vocabulary, and types of microelectronics devices manufactured. Upon completion, students should be able to demonstrate an understanding of the basics of semiconductor materials, properties, and fabrication procedures. This course is a unique concentration requirement in the Microelectronics concentration of the Electronics Engineering Technology program.

MICROELECTRONIC CIRCUITS

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Boise State University
Training Center(s)/Venue(s): Boise, United States

Circuit design and analysis using diodes, bipolar junction transistors, and MOSFETs. Introduction to design with op-amps. Circuit simulation with SPICE

Digital Microelectronics

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: New Jersey Institute of Technology
Training Center(s)/Venue(s): Newark, United States

Topics include: linear wave shaping with RC circuits, clipping and clamping circuits; theory of operation of semiconductor diode, bipolar transistor (BJT), and MOSFET; BJT and MOSFET inverters, gate circuits, and regenerative logic circuits.

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We serve the schools and students around the world. Major visitors come from India, United States, United Kingdom, Canada, Australia, Philippines, Malaysia, Singapore and South Africa.



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