1.RFID(無線射頻辨識)是一個發展快速而且需要多元知識的領域。其技術與相關應用不斷的推陳出新，且重要性與日俱增，這可由IEEE從2007年開始舉辦RFID國際研討會得到印證。RFID相關的知識可概分如:晶片設計(包括:RFID電子標籤、感測器及讀取器等)、天線及傳播、應用、通訊協定、調度問題及權衡、策略及調整問題、以RF(射頻)為基礎之區域化、系統架構、安全及隱私，以及系統工具。學生必須對這些知識有綜合性的了解與研究後，方能研發出具有競爭力的RFID產品。

2.認識數位邏輯設計及數位電子電路在控制系統上之應用。RFID晶片設計簡介、晶片設計基礎知識、信號調變與解調、無線充電技術、電子標籤晶片設計簡介、電子標籤晶片設計範例、讀取器晶片設計簡介、數字系統與代碼、基本邏輯元件、可程式規劃邏輯元件、布林代數予簡化技術、數碼轉換器、多工器和解多工器、正反器和暫存器、計數器電路設計、移位暫存器、

1. RFID (Radio Frequency Identification) is a field that is developing rapidly and requires diverse knowledge. Its technology and related applications are constantly being introduced, and its importance is increasing day by day. This can be confirmed by the RFID International Symposium held by IEEE since 2007. RFID-related knowledge can be summarized as: chip design (including RFID tags, sensors and readers, etc.), antennas and propagation, applications, communication protocols, scheduling issues and trade-offs, strategies and adjustment issues, RF (radio frequency)-based regionalization, system architecture, security and privacy, and system tools. Students must have a comprehensive understanding and research of this knowledge before they can develop competitive RFID products.

2. Understand digital logic design and the application of digital electronic circuits in control systems. Introduction to RFID chip design, basic knowledge of chip design, signal modulation and demodulation, wireless charging technology, introduction to electronic tag chip design, electronic tag chip design examples, introduction to reader chip design, digital systems and codes, basic logic components, programmable logic components, Bollinger algebra presimplification technology, digital converters, multiplexers and demultiplexers, flip-flops and registers, counter circuit design, shift registers,

數位邏輯設計

digital logic design