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Experimental Teaching

The experimental teaching

2020-01-08

MLCC (Electronic Component Raw Material Development) Lab

Principal: YU Hongyu , ZHANG Lei

The laboratory has a total of 2.57 million Yuan instruments and equipment such as ultra-pure water machine systems, desktop vacuum coating machines, and photoelectrochemical workstations. The laboratory is mainly responsible for the research and development of electronic component materials such as MLCC. The research directions of the MLCC laboratory include: synthesis of high tetragonal ultrafine barium titanate nano powders, doped barium titanate ceramics for wide temperature spectrum MLCC, nanocrystalline BME-MLCC failure and reliability, cast ultra-thin MLCC membranes (water-based / non-water-based), etc., among which the research and development of high tetragonal ultra-fine barium titanate nano-powders (used as important raw materials for ultra-micro high-capacity MLCCs) have made huge breakthroughs, and various indicators are close to the 150-200nm powder synthesized by the solid phase method of Murata Company in Japan, which is expected to enter the pilot phase in the near future. 

 

IC Design Lab

Principal: YU Hao

The integrated circuit design laboratory was established in June 2017. So far, the laboratory has more than 10 sets of teaching instruments and equipments, with a total value of 1 million Yuan. The core technology direction of the laboratory is: 5G medium and high frequency IC design, artificial intelligence IC Design.

5G medium and high frequency IC Design: the goal is to realize 5G millimeter wave small base station and its core communication devices and chips (PA, LNA, switch, ADC, etc.). The laboratory has developed the first domestic GaN-power amplifier with millimeter wave band of 26GHz, and undertakes Huawei ‘s 6G communication project such as the IC core module of 140GHz communication.            

Artificial intelligence IC Design: the goal is to realize the low-power mW curable vision edge intelligent chip, provide the general deep learning processing algorithm at the edge, achieve the real-time top level processing flux. The laboratory has developed the international leading 3D multi-core chip and deep compression algorithm of the storage and computing fusion architecture, and has successfully supported Huawei, DJI, Tencent and other cooperative transformation projects.

 

MEMS Laboratory

Principal: WANG Fei

Established in 2013, the MEMS Laboratory conducts research on MEMS under the leadership of Associate Professor WANG Fei. So far, the laboratory has more than 9 sets of instruments with a total value of 1.22 million Yuan. Since 2013, he has undertaken more than 10 projects, mainly including silicon-based MEMS processing and design technology, and many research projects such as micro vibration energy collection and gas sensors. MEMS system laboratory, a multi-disciplinary cross laboratory, mainly studies all kinds of new micro nano devices and their systems, and the research directions include new devices and systems, new technologies and processes, new circuits and models, new materials and structural applications, etc. The laboratory of MEMS is also responsible for the teaching of Innovation Experiment Course for the undergraduates of School of Microelectronics. The experiment course is designed according to the program. The overall curriculum aims at strengthening students' knowledge of the design, fabrication and characterization in related research topics. Meanwhile, it also focuses on the training of students' practical ability and the ability to think about scientific problems independently.

 

Advanced Sensing and Packaging Testing Lab

Principal: YE Huaiyu            

The advanced sensing and packaging testing laboratory was established in November 2019 and is now under construction. The laboratory now has two sets of teaching instruments, with a total value of 66 thousand Yuan. The laboratory is committed to the development and application of the third generation semiconductor power electronic device packaging with new materials, thermal management, energy management, testing mechanism, non-equilibrium thermodynamics of high-power and high-frequency semiconductor devices, development and application of new semiconductor sensors and packaging, energy management and sustainable application in electronic device modules and systems, two-dimensional semiconductor materials and devices and so forth. The laboratory is mainly responsible for the theoretical course of advanced micro and nano semiconductor device physics. The experiment course is designed according to the cultivation program. The overall curriculum is designed to strengthen the students' professional knowledge in this field, and at the same time, it focuses on the training of students' practical ability and the ability to think about scientific problems independently. The opening mode of experimental course is small class teaching, which fully embodies the school's characteristics.

 

Space Identification Lab           

Principal: AN Fengwei            

The space identification laboratory was established in March 2019. The laboratory mainly studies image processing, image recognition, artificial intelligence, integrated circuit design and ADS system for auxiliary driving. At present, the laboratory has or plans to purchase about 2 million yuan experimental equipments. The lab undertakes the teaching of SOC integrated circuit design course. The overall course is designed to strengthen the students' knowledge of digital integrated circuit design, and at the same time, it also pays attention to the cultivation of students' practical ability and the ability to think about scientific problems independently.                                                                                                                                                                                                                                                                                                                  

 

Power Management IC Lab            

Principal: ZHAN Chenchang            

The power management integrated IC laboratory was established in September 2014. Recently, the laboratory has dozens of simulation software, and a complete high-performance test platform for scientific research and teaching. The laboratory's main instruments, equipment, accessories, software, consumables total value about 4.8 million yuan. The lab’s main research direction is high-performance power management chip, which is applied to mobile devices, IoT devices, etc. The undergraduate course "Integrated Circuit Design" enables the students to have systematic knowledge and thinking about the integrated circuit design process. For graduate students, the course "power management integrated circuit design" is set up to cultivate students' basic scientific research ability on power management chip design. The course combines theoretical teaching with hands-on practice, and focuses on cultivating students' thinking ability of combining theory with practice, so as to cultivate competitive students for the society.

 

Nano Imprinting Laboratory            

Principal: CUI Dehu            

Nano imprinting laboratory was established in June 2017. So far, the laboratory has more than 10 sets of teaching instruments and equipment, with a total value of 1 million yuan. The laboratory has built a complete nano imprinting device, which provides a platform for the smooth progress of the project; has built a 200nm-2500nm material optical detection platform, which can carry out optical analysis after the preparation of new materials; a polarizing microscope, which can carry out the basic characterization of graphics; a set of metal thermal evaporation glove box system, which can carry out graphic coating process. The laboratory is mainly responsible for the teaching of the experiment course of integrated circuit material and process practice for the postgraduates of photoelectric and related majors. The experiments focused on making capacitors, including lithography, nano - imprint forming, dry etching, film deposition, ALD deposition and final measurement.

 

High frequency and high speed IC laboratory            

Principal: PAN Quan            

High speed high frequency IC laboratory was established in March 2018, specializing in high speed analog/RF integrated circuit design, including: wireline/wireless high speed communication integrated circuit (receiver/transmitter), Serdes/clock and data recovery (CDR) circuit, low noise amplifier/frequency synthesizer, GaN integrated circuit, silicon-optical-interconnection research. The lab has advanced EDA software tools such as IC simulation and layout design, as well as high-performance workstations. The project leader not only publishes many high-level academic papers in international mainstream conferences/journals, but also has more than 8 years of rich domestic and foreign work experience, including 4 years of the most cutting-edge work experience in Silicon Valley industry.

 

Semiconductor Devices and Micro Nano Optoelectronic Lab            

Principal: Kwai Hei Li          

The semiconductor devices and micro nano optoelectronic laboratory was established in November 2019. Currently, the laboratory is under construction and has 2 sets of teaching instruments, with a total value of 100000 yuan. The laboratory is mainly responsible for the theory course "gallium nitride materials and devices" for graduate students of gallium nitride devices and related majors. The experiment course is designed according to the training scheme. The overall course is designed to strengthen the students' knowledge in the design, preparation and characterization of GaN devices. Meanwhile, it also focuses on the training of students' practical ability and the ability to think about scientific problems independently. The mode of experimental course is small class teaching, which fully embodies the school's characteristics.

 

Biochip and Micro Nano Optical Chip Lab           

Laboratory principal: LI Yi            

Biochip and Micro Nano Optical Chip Lab was established in November 2019. The laboratory plans to purchase 5 sets of single-molecule nanopores teaching instruments, with a total value of about 1 million yuan. A single molecular optical tweezers and a magnetic tweezers teaching equipment with a total value of about 2 million yuan. The laboratory mainly undertakes the teaching of “biochip experiment” for undergraduates majoring in microelectronics and related majors, which is corresponding to the theoretical course of “principles and applications of biochip”. The teaching and experimental contents are designed according to the training scheme. The overall curriculum is designed to strengthen students' interest and ability in chip design in connection with the application of biomedicine/pharmaceutical chemistry, and also to cultivate students' practical ability and ability to think independently about scientific problems. The experimental course is in small class, which fully reflects the characteristics of the school.

 

Medium and High Voltage Power Supply IC Design Lab            

Laboratory principal: GAO Yuan            

At present, the IC Design Laboratory for medium and high voltage power supply is under construction. Its main research direction is IC design and test for different systems, including gallium nitride power drive circuit, LED lighting and communication system, wireless energy transmission system and DC-DC converter. The relevant equipment is under construction, and the goal is to build a complete IC design platform and verification test platform for medium and high voltage power supply in the near future.