Low Power NB-IoT transceiver designs and its business opportunities in China
ED/CAS Talk
Narrow Band IoT (NB-IoT) (LTE Cat-NB1), features low power, long range, low cost, will grow exponentially during the next 5 years. In this presentation, the characteristics of NB-IoT will be introduced and compared with other similar protocols used for IoT application. A transceiver architecture will be proposed to fit the requirement of NB-IoT and the circuit block including ADPLL, digital transmitter, low noise receiver will be described. All three mobile operators in China have committed the adoption of NB-IoT and their adoption plan, current pilot projects will be introduced.
Date and Time
Location
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Registration
- Date: 04 May 2017
- Time: 05:30 PM to 07:30 PM
- All times are (UTC-04:00) Eastern Time (US & Canada)
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- 154 Summit Street, Newark, NJ 07102
- Newark, New Jersey
- United States 07102
- Building: ECEC
- Room Number: 202
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- Contact Event Host
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Dr. Durga Misra, +1-973-596-5739, email: dmisra@ieee.org
Dr. Ajay K. Poddar, Ph.: 201-560-3806, email:akpoddar@ieee.org
Dr. Edip Niver, email: edip.niver@njit.edu
- Co-sponsored by AP01/MTT17
- Starts 06 April 2017 03:00 PM
- Ends 04 May 2017 05:00 PM
- All times are (UTC-04:00) Eastern Time (US & Canada)
- No Admission Charge
Speakers
Dr. Hao Min of Auto-ID lab at Fudan University, Shanghai, China
Low Power NB-IoT transceiver designs and its business opportunities in China
Narrow Band IoT (NB-IoT) (LTE Cat-NB1), features low power, long range, low cost, will grow exponentially during the next 5 years. In this presentation, the characteristics of NB-IoT will be introduced and compared with other similar protocols used for IoT application. A transceiver architecture will be proposed to fit the requirement of NB-IoT and the circuit block including ADPLL, digital transmitter, low noise receiver will be described. All three mobile operators in China have committed the adoption of NB-IoT and their adoption plan, current pilot projects will be introduced.
Biography:
Prof. Hao Min received his PhD degree from Fudan University in 1991. During 1995-1998, he was a visiting associate professor in Stanford University focusing on CMOS image sensors technologies. Meanwhile he was the consultant at a number of IC design companies in Silicon Valley. From 1998 to 2005, he served as director of the State Key Laboratory of ASIC & System, Fudan University. He is currently vice dean of School of Microelectronics, research director of the AUTO-ID Lab of Fudan University. He was General Manager of Shanghai Huahong Integrated Circuits Co., Ltd. during 1998-2006 where his team developed the first contact-less smart card chip which was successfully applied to the Shanghai Public Transportation System and designed the chip for the second generation ID cards of China. He is co-founder of Shanghai Quanray Electronics. His current research focuses on Internet of Things technologies which includes high energy efficiency wireless transceiver, high efficiency large dynamic range power management, etc. He has contributed over 80 papers and over 20 patents authorized or pending.
Email:
Address:Director, Auto-ID lab at Fudan University, No. 825, Zhangheng Rd, Zhangjiang High-Tech Park Pudong New District , Shanghai, China, 201203
Dr. Hao Min of Auto-ID lab at Fudan University, Shanghai, China
Low Power NB-IoT transceiver designs and its business opportunities in China
Biography:
Email:
Address:Shanghai, China
Dr. Hao Min of Auto-ID lab at Fudan University, Shanghai, China
Low Power NB-IoT transceiver designs and its business opportunities in China
Biography:
Email:
Address:Shanghai, China
Agenda
Event Time:05:30 PM to 07:30 PM
05:30 PM - Refreshments and Networking
06:00PM-07:00 PM: Talk by Prof. Hao Min of Fudan University
Seminar in ECE 202 All Welcome: There is no fee/charge for attending IEEE technical semiar. You don't have to be an IEEE Member to attend. Refreshmen is free for all attendess. Please invite your friends and colleagues to take advantages of this Invited Distinguished Lecture.