It mainly introduces the following aspects:

1.Brief introduction of the project (brief introduction of the basic information of the project)

This project is based on the demand for radio frequency identification chip technology and systems in the construction of the country's emerging strategic industry-the Internet of Things, based on independent innovation and information security, and independently develops low-power consumption, low-cost, high-performance, and high-reliability in line with national standards. Sexual ultra-high-frequency radio frequency identification chip technology and reader system. With chips with independent intellectual property rights as the core, it provides reference designs and industry solutions for electronic tags and readers. The core technology product "RFID Electronic Tag Chips and Reader Modules" is at the leading level in China, filling the gap in this field in China.

Project-related products have been widely used in various wireless radio frequency identification systems such as logistics warehousing, asset management, personnel identification, electronic bills, government supervision, food anti-counterfeiting and traceability, package tracking, product quality inspection, and drug management.

2. Cooperation content

(1) Brief introduction of the main related technologies involved (mainly introduce the main technical contents involved in this project and other technologies that need to be supported)

Research content and technology of UHF RFID tag chips: UHF RFID standard research, automatic impedance matching technology, multi-user/multi-service dynamic storage area security control technology, UHF RFID tag data security research, high-security air interface protocol, complex application scenario matching, Research on multi-tag fast reading technology and chip promotion, application and industrialization.

Research content and technology of UHF RFID read-write module: Based on the considerations of facilitating system development, management, upgrade and maintenance, the design is based on modularization. This read-write module divides the system into: main control module, radio frequency transceiver module and multi-channel antenna extension module according to system functions. Interface function module, data encryption module, etc. The main control module is mainly composed of a microcontroller circuit, a power conversion circuit, an RS232 serial communication circuit, a status indication circuit and a JTAG debugging circuit. The technologies involved include basic architecture design, hardware design, software design, reliability design, appearance structure design, lightning and electromagnetic design, as well as related technologies and testing work such as reader and writer testing and environmental experiments.

(2) Proposed cooperation areas and cooperation objects (mainly describe the areas and recipients of cooperation in the project)

In view of the fact that this product has been widely used in logistics and warehousing, asset management, personnel identification, electronic bills, government supervision, food anti-counterfeiting and traceability, package tracking, product quality inspection, drug management and other industries, the cooperation area is not limited by regions, and the cooperation objects are relevant units and enterprises that develop and apply radio frequency identification systems.

(3) Proposed cooperation model (briefly introduce the future business model of the project and the cooperation model you hope to carry out)

Future business model:

(1) Collect reasonable technology transfer/licensing fees, and collect mass production/industrialization royalties on this basis. The royalties are negotiated based on actual conditions.

(2) Investment in technology, using knowledge or intellectual property rights as capital shares, investing in a joint venture or joint venture to obtain the shareholding rights of the enterprise.

Desired cooperation models: technology licensing, technology transfer

3. Cooperation cases (if there are demonstrations, applications, etc., available)

Case 1: Technology transfer

The technology transfer work is carried out in the exclusive licensing method of "mass production of chips designed by broadband up-down mixer" proprietary technology, and the license fee is collected, and the production royalty fee is collected within the agreed period. The royalty fee is settled annually, and the settlement is agreed to be completed at the end of November each year.

Case 2: Technology transfer

Carry out technology transfer work in the form of proprietary technology licensing of "RFID core chips for industry applications", and collect corresponding implementation license fees.

4. Project implementation unit (brief introduction of the main undertaking unit and cooperating unit of the project)

The Shanghai Institute for Advanced Study of China Academy of Sciences (hereinafter referred to as the "Institute for Advanced Studies") is jointly established by China Academy of Sciences and the Shanghai City People's Government. It officially entered the Shanghai Pudong Science and Technology Park of the Chinese Academy of Sciences on December 26, 2010 and passed the acceptance inspection on November 27, 2012. The Institute of Advanced Studies is positioned to target the bottlenecks faced in strategic emerging industries and industrial transformation and upgrading, carry out original innovative research around the intersection of industrialization, informatization, urbanization and agricultural modernization, and provide core technologies and integrated technology solutions for strategic emerging industries., explore a development model that combines science and technology with economy, education, finance, and culture, and become an internationally competitive comprehensive science and education institution integrating research, industry, and learning into a multi-disciplinary science and education collaboration.

Relying on the scientific research platform of China Academy of Sciences, the Micro-Nano Device Laboratory is facing the major needs of the national strategic emerging industry-integrated circuit core technology and the development of the integrated circuit industry. Focusing on the key technologies and applications of the "135" smart city of the Institute for Advanced Research, focusing on the development of "Internet of Things Smart Sensing Core Devices", we carry out innovative research on the design of core chips and multi-sensing integrated circuits for the Internet of Things, break through key technologies such as radio frequency identification (RFID), and create RFID-related brands with independent intellectual property rights. Provide customized systems and solutions for urban security, intelligent transportation, Industry 4.0, etc., enhance our institute's core competitiveness in the field of integrated circuits, rely on laboratory innovation advantages to keep our institute's integrated circuit technology at the forefront of the industry, and drive the development of my country's UHF RFID related industries and the key to realizing China's creation.

At present, the laboratory is currently equipped with more than 70 scientific research and inspection equipment, and a complete set of simulation design, circuit design and mechanical design software. The main instruments and equipment include: 900M tag performance analyzer, NFC tag protocol analyzer, RFID signal simulator, dynamic signal analyzer, 250KHz-6.0GHz vector signal generator, 26.5GHz spectrometer, analog signal generator, 10MHz-26.5GHZ high-performance vector network analyzer, electronic calibration piece, communication signal demodulation analysis tool (vector signal analysis tool), wire bonding machine, probe station, laser repair instrument, Loadpull System (load pulling system), RFID test platform, Radio frequency shielded room, high and low temperature circulation box, digital microscope, phase shifter, high-definition video signal generator, high standard definition analog component measuring instrument, noise figure analyzer and frequency converter, digital radio frequency analyzer, digital signal oscilloscope, software and hardware co-verification instrument, oscilloscope, high-performance soft contact probe, high-performance flying wire probe, digital multimeter, test power supply, DC power supply, code stream analyzer, graphics quality evaluator, logic analyzer, baseband vector signal generator, Real-time oscilloscope, vector signal generator, epoxy/eutectic dual-purpose mounter, rapid ASIC prototype validator, arbitrary waveform generator, mixed signal oscilloscope, Zhengxuan signal source, multi-channel I/V tester, CIS packaging tester, professional high-definition 3D video capture and experimental testing system, 3D LCD professional monitor, spectrum analyzer, 60GHz downconverter, PNA microwave network analyzer, semiconductor dicing machine, dedicated FPGA prototype verification system, etc.

The laboratory has a complete RFID system and a circuit-level simulation and verification platform: the simulation software required by the system, Simulink, analog circuit design and simulation software Cadence Spectre, integrated circuit layout software Virtuoso, layout verification tool Calibre, digital circuit simulation software ModelSim, digital circuit FPGA verification platform, RFID chip test platform vector network analyzer (input impedance parameter test), protocol compliance tester based on NI instruments, power supplies, oscilloscopes, etc.

Laboratory information and system design and development test platform, including device, circuit, system-level testing, reliability testing, integrated circuit simulation and verification platform.

The experimental sub-platforms mainly include:

l Integrated circuit simulation design verification support platform

lFPGA prototype verification system

l Integrated circuit simulation accelerated verification platform

l Integrated semiconductor and chip test platform

l RF and microwave component testing platform

l Digital circuit comprehensive test platform

l Audio and video verification platform

l Signal integrity analysis platform

l Circuit system test platform

l Integrated circuit engineering packaging test platform

l Reliability test and verification platform

l Shielded rooms and dark rooms