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完整後設資料紀錄
DC 欄位 | 值 | 語言 |
---|---|---|
dc.contributor.advisor | 呂學士 | |
dc.contributor.author | Yi-Chin Lee | en |
dc.contributor.author | 李義欽 | zh_TW |
dc.date.accessioned | 2021-06-15T01:13:36Z | - |
dc.date.available | 2014-08-03 | |
dc.date.copyright | 2009-08-03 | |
dc.date.issued | 2009 | |
dc.date.submitted | 2009-07-29 | |
dc.identifier.citation | [1.1] Taiwan Council for Economic Planning and Development website
http://www.cepd.gov.tw/ [1.2] Warneke, B., and et al., Jan., 2001, 'Smart Dust: Communicating with a Cubic-Millimeter Computer,' IEEE-Computer, Vol. 34, no. 1, pp. 44-51. [2.1] CIC Training Manual, “Logic Synthesis with Design Compiler”, “Cell-Based IC Physical Design and Verification with SOC encounter”, “Design for Testability with TuboBIST-Memory, DFT Compiler and TetraMAX”, “Mixed-Signal IC Design Kit”. [2.2] Jack Marshall, 'RTL Implementation Guide', Euro SNUG 2003. [2.3] Synopsys SolvNet Website, Documentation on the Web Version Z-2007.06, https://solvnet.synopsys.com [2.4] Keshab K. Parhi, “VLSI Digital Signal Processing Systems – Design and Implementation”, Wiley. [2.5] Low Power Management, http://www.apache-da.com [3.1] Tsung-Yi Chen, “Latency-Aware and Energy-efficient MAC Protocol for Wireless Sensor Networks”, MS. Thesis, Department of Computer Science and Information Engineering, National Chiao Tung University, June 2005. [3.2] Chen-Ming Hsu and Ching-Hsing Luo, “Implementation of microwave biotelemetry chip,” National Chen Kung University MS. Thesis, June 2003. [3.3] EPCglobal Inc., “EPC™ Radio-Frequency Identity Protocols Class-1 Generation-2 UHF RFID Protocol for Communications at 860 MHz – 960 MHz Version 1.0.9”. 2004. [3.4] Chih-Wei Tseng, “Wireless Bio-Medical Integrated Chip”, National Taiwan University MS. Thesis, July 2006. [3.5] H. Yu, K. Najafi, IEEE, ”Low-Power Interface Circuits for Bio-Implantable Microsystems”, in IEEE Int. Solid-State Circuits Conf, Feb. 2003, pp. 194-195. [3.6] “Serial and UART Tutorial”, http://www.freebsd.org/doc/en/articles/serial-uart/ [3.7] Kevin Yeh, “Microcontroller Design for Wireless Sensor Network”, National Taiwan University MS. Thesis, July 2008. [3.8] GlobalCAD, Inc., http://www.gcadinc.com/index.html [4.1] T. D. Chiueh and P. Y. Tsai, OFDM Baseband Receiver Design for Wireless Communications. Wiley, September 2007. [4.2] Wikipedia, http://en.wikipedia.org/wiki/Orthogonal_frequency-division_multiplexing [4.3] Sadeghi, N.; Gaudet, V.C.; Schlegel, C, “Analog DFT Processors for OFDM Receivers: Circuit Mismatch & System Performance Analysis”, Circuits and Systems I: Regular Papers, IEEE Transactions on Accepted for future publication, Dec. 2008. [4.4] C. Winstead, J. Dai, S. Yu, C. Myers, R. R. Harrison, and C. Schlegel, “CMOS Analog MAP Decoder for (8,4) Hamming Code,” IEEE J. Solid-State Circuits, vol. 39, no. 1, pp. 122-131, Jan. 2004. [4.5] K. Boyle, P. Mercier, N. Sadeghi, V. Gaudet, C. Schlegel, C. Winstead, and M. Kashyap, “Design and Implementation of an All-Analog Fast-Fourier Transform Processor,” IEEE Midwest Symp. on Circuits and Systems, pp. 1532-1535, Aug. 2007. | |
dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/42427 | - |
dc.description.abstract | 由於跨領域結合已是社會之所趨,因此本論文整合生醫與電路設計,提供給病患們方便迅速的偵測生理狀況,諸如:血壓、心跳、心電圖、血氧量等生醫訊號。如此便能夠大大地增加病人們的安全。另外隨著無線通訊技術的發展,及半導體製程技術的進步,量測方式透過晶片之後就不再佔有巨大的體積,進而達成自動化量測後,也更適合每個人使用。
我們使用台積電2P4M 0.35um標準CMOS製程來實現我們所設計之感測點系統晶片,其內部電路包含特定應用積體電路微控制器、ASK傳送器、OOK接收器、儀器放大器、轉阻儀器放大器、類比數位轉換器及電壓調節器、類比4選1多工器。微控制器由我負責,其它則由實驗室其它學長及同學負責設計。此微控制器為一種特定應用在生醫領域的數位電路,與類比電路的溝通橋樑與封包格式由我們實驗室自行設計開發,主要特點為節省功率消耗、小面積、方便應用。 此SOC晶片具備接收指令,傳送生醫訊號的功能,透過無線收發機傳送至遠端監控中心,以達到我們當初設計此一晶片的目的─「自動量測,遠端監控」。傳送出去的訊號只需透過接收機並透過遠端電腦的疾病資訊判斷後,即可隨時提醒使用者的健康狀況。 | zh_TW |
dc.description.abstract | Because the combination of many fields is the trend nowadays, we design a circuit applied for bio-medical sensor to measure health condition of patients instantly. Therefore, the patients will get more comfortable attention by bio-medical SOC chip.
We plan to integrate wireless communication, electrical sensor, and software by semiconductor industry and information technology to achieve low-cost, long-tern, small and reliable medical sensors. We design a SOC chip that has the ability of wireless data transmitting and receiving, controllable behavior, and sensing. This SOC includes an ASIC microcontroller, two amplifiers to enlarge different type of signals, a wireless receiver for receiving command, a wireless transmitter for transmitting data, an analog-to-digital converter (ADC) to convert analog signal to digital, two regulators for saving power, and a 4-to-1 multiplex for choosing how many signal passes. All of them are integrated in one single SOC chip. Sensors for detecting biological signal are placed externally. | en |
dc.description.provenance | Made available in DSpace on 2021-06-15T01:13:36Z (GMT). No. of bitstreams: 1 ntu-98-R96943100-1.pdf: 2814370 bytes, checksum: 0ad8f288907842d0c65848f2cd9013da (MD5) Previous issue date: 2009 | en |
dc.description.tableofcontents | 誌謝 i
中文摘要 iii ABSTRACT v CONTENTS vii LIST OF FIGURES ix LIST OF TABLES xi Chapter 1 Introduction 1 1.1 Motivation 1 1.2 Thesis Organization 4 1.3 References 5 Chapter 2 Mixed-signal Circuit Design 6 2.1 Introduction 6 2.2 Mixed-signal Circuit Design Flow 8 2.3 Digital Circuit Design Flow 10 2.3.1 RTL Design Guide [2.2] 12 2.3.2 Synthesis 15 2.3.3 Design for Test 18 2.3.4 Place & Route 19 2.4 Digital Signal Processing Architecture Design 22 2.4.1 Pipelining and Parallel Processing [2.4] 22 2.4.2 Retiming [2.4] 24 2.4.3 Other Low Power Designs for Digital Circuits 25 2.5 References 27 Chapter 3 Wireless Sensor Node SOC with ASIC Microcontroller 28 3.1 Introduction 28 3.2 System on Chip (SOC) Overview 30 3.2.1 Wireless Sensor Network Introduction [3.1] [3.2] 30 3.2.2 The Architecture of SOC [3.3] [3.4] [3.5] 32 3.3 An ASIC Microcontroller Feature & Architecture 34 3.3.1 Controller Operation 36 3.3.2 Data Packet Format & Low Power Design 39 3.3.3 Universal Asynchronous Receiver/Transmitter [3.6] 42 3.3.4 Core 44 3.4 Analog & RF circuits [3.7] 47 3.4.1 ASK Transmitter 47 3.4.2 OOK Receiver 49 3.4.3 Instrument Amplifier 50 3.4.4 Successive Approximation ADC 52 3.4.5 Trans-Impedance Amplifier 54 3.4.6 Voltage Regulator 55 3.4.7 Analog 4-to-1 Multiplexer 57 3.5 Measurement for the ASIC Microcontroller 59 3.5.1 PCB Design for Testing 60 3.5.2 Measurement Setup and Result 62 3.5.3 Specification Summary 65 3.6 References 66 Chapter 4 Analog FFT Processors for OFDM Receivers 67 4.1 Introduction 67 4.1.1 The Basic Introduction of OFDM [4.1] [4.2] 67 4.1.2 The Typical OFDM Communication Transceiver System Model [4.2] 69 4.1.3 The Analog OFDM Communication Transceiver System Model [4.3] 71 4.2 FFT Algorithm & the Basic Circuit [4.3] [4.4] 73 4.2.1 The Introduction of FFT Algorithm 73 4.2.2 The Basic Circuits of the Analog FFT 75 4.3 A Radix-2, Analog 8-FFT Processor Implementation 77 4.3.1 Input Interface 77 4.3.2 Implementation of the Analog FFT Processor 78 4.3.3 The Whole Analog FFT Circuit 80 4.4 Simulation Result for an Analog FFT processor 82 4.4.1 The Tran-conductance Circuit 82 4.4.2 The Cascode Current Mirror 83 4.4.3 The Whole Analog FFT Circuit 84 4.5 References 85 Chapter 5 Conclusion 86 Appendix A Related Patent Collection and Analysis 88 | |
dc.language.iso | en | |
dc.title | 應用於無線生醫感測之數位電路設計 | zh_TW |
dc.title | Digital Circuit Design for Wireless Bio-medical Sensor | en |
dc.type | Thesis | |
dc.date.schoolyear | 97-2 | |
dc.description.degree | 碩士 | |
dc.contributor.oralexamcommittee | 孟慶宗,孫台平,洪子聖,邱弘緯 | |
dc.subject.keyword | 微控制器,中央處理單元,系統單晶片,無線感測網路,無線生醫量測, | zh_TW |
dc.subject.keyword | Microcontroller,Central Processing Unit,System on a Chip,Wireless Sensor Network,Wireless Bio-medical Sensor, | en |
dc.relation.page | 89 | |
dc.rights.note | 有償授權 | |
dc.date.accepted | 2009-07-29 | |
dc.contributor.author-college | 電機資訊學院 | zh_TW |
dc.contributor.author-dept | 電子工程學研究所 | zh_TW |
顯示於系所單位: | 電子工程學研究所 |
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