系統識別號 | U0002-2906201017081000 |
---|---|
DOI | 10.6846/TKU.2010.01417 |
論文名稱(中文) | 移動產品測試用電源裝置之設計與應用 |
論文名稱(英文) | Design and Apply With Dummy Battery Apparatus Test for Mobile Devices |
第三語言論文名稱 | |
校院名稱 | 淡江大學 |
系所名稱(中文) | 電機工程學系碩士在職專班 |
系所名稱(英文) | Department of Electrical and Computer Engineering |
外國學位學校名稱 | |
外國學位學院名稱 | |
外國學位研究所名稱 | |
學年度 | 98 |
學期 | 2 |
出版年 | 99 |
研究生(中文) | 賴俊欽 |
研究生(英文) | Chun-Chin Lai |
學號 | 796440344 |
學位類別 | 碩士 |
語言別 | 英文 |
第二語言別 | |
口試日期 | 2010-06-11 |
論文頁數 | 54頁 |
口試委員 |
指導教授
-
饒建奇(jcrau@ee.tku.edu.tw)
委員 - 黃俊郎(jlhuang@cc.ee.ntu.edu.tw) 委員 - 楊維斌(robin@ee.tku.edu.tw) |
關鍵字(中) |
測試用電源裝置 |
關鍵字(英) |
Dummy Battery Apparatus Switch Circut |
第三語言關鍵字 | |
學科別分類 | |
中文摘要 |
近10幾年來,隨著通訊事業之迅速發展,行動電話、個人數位助理等電子裝置越來越普及。該等電子裝置於組裝完成後,一般均需要對其中一些功能進行測試,以檢測電子裝置是否達到規定標準,此時測試用電源裝置的穩定性及相容性就顯得格為重要。 本篇論文中,我們提供一種測試用電源裝置,其用於為一待測電子裝置提供測試所需之電源,所述測試用電源裝置內設置有一切換電路,切換電路包括第一輸出端、第二輸出端及第三輸出端,所述第一輸出端、第二輸出端及第三輸出端分別與所述待測電子裝置之正連接器端子、ID連接器端子及負連接器端子一一對應,所述第二輸出端於切換電路之控制下可分別輸出兩種不同內阻電壓,其分別用於測試所述待測電子裝置中工作於習知電池提供之常規電壓之元件及工作於習知電池無法輸出之特殊電壓之元件,並對無線電頻率測試進行模擬驗證。 |
英文摘要 |
Over the Past 10 Years, With the Rapid Development of Telecommunications Industry, Mobile Phone, Personal Digital Assistant and Other Electronic Products is Becoming Increasingly Popular. Those Electronic Products are Kind of Electronic Devices. While The Electronic Devices in the Assembly is Completed, Generally Need to Test Some of Functions to Detect Whether Approach Standards or not. Testing the Stability and Compatibility for The Point Power Supply Unit Becomes Very Important. The Purpose of This Paper, It Provide a Dummy Battery Apparatus, Which Used an Electronic Device Under Test Required for Testing Power Supply. The Dummy Battery Apparatus Has a Switch Circuit, Switch Circuit Including The First Output, The Second Output and The Third Output. The First Output, The Second Output and The Third Output is Corresponding to a Positive Connector Terminal, an ID Connector Terminal and Negative Connector Terminal of the Untested Electronic Device. Under the Control of the Switch Circuit, Two Different Voltages can be supplied by The Second Output. One of the Voltages Can be Used to Testing Some Components Which works Under a Conventional Battery Voltage, The Other one can be Used to Testing Some Components which Works Under a Specific Voltage, and simulation and verification for radio frequency test. |
第三語言摘要 | |
論文目次 |
Table of Contents 誌謝 ...................................................................................................................... I Chinese Abstract ................................................................................................ II English Abstract ................................................................................................. III Table of Contents ............................................................................................... V List of Figure ...................................................................................................... VII List of Table ........................................................................................................ X Chapter 1 Introduction 1 Chapter 2 Test standards summary for mobile devices 3 2.1 Frequency Coverage Requirements 3 2.1.1 Band Class 0 (800 MHz Band) 3 2.1.2 Band Class 1 (1900 MHz Band) 4 2.2 Radio Frequency Calibration 4 2.2.1 TX Power 4 2.2.2 DVGA measure 5 2.2.3 LNA measure 5 2.2.4 HDET measure 6 2.3 Radio Frequency Test 6 2.3.1 Maximum RF Output Power 7 2.3.2 Waveform Quality and Frequency Accuracy 7 2.3.3 Conducted Spurious Emissions 7 2.3.4 Receiver Sensitivity and Dynamic Range 9 Chapter 3 Invent explain with dummy battery apparatus test for mobile devices 10 3.1 Invention content 10 3.2 Implementation methods 11 Chapter 4 Experimentation and research analysis 18 4.1Radio Frequency Calibration Process 18 4.2Radio Frequency Test Process 18 4.2.1 Maximum RF Output Power 19 4.2.2 Waveform Quality and Frequency Accuracy 26 4.2.3 Conducted Spurious Emissions 32 Chapter 5 Conclusions and Future work 42 References 43 Appendix 44 Appendix A.1 Radio Frequency Calibration simulate Result 44 Appendix A.2 Radio Frequency Test simulate Result 53 List of Figure Figure 3.1 The three-dimensional diagram of dummy battery apparatus test 11 Figure 3.2 The three-dimensional diagram of electronic device under test 12 Figure 3.3 The three-dimensional diagram of another view of dummy battery apparatus test 14 Figure 3.4 The internal circuit diagram of dummy battery apparatus test 15 Figure 3.5 The three-dimensional diagram 16 Figure 4.1 Maximum Power for Test Channel number 384 20 Figure 4.2 Maximum Power for Test Channel number 777 20 Figure 4.3 Maximum Power for Test Channel number 1013 21 Figure 4.4 Maximum Power for Test Channel number 25 21 Figure 4.5 Maximum Power for Test Channel number 600 22 Figure 4.6 Maximum Power for Test Channel number 1175 22 Figure 4.7 Maximum Power for Test Channel number 384 23 Figure 4.8 Maximum Power for Test Channel number 777 24 Figure 4.9 Maximum Power for Test Channel number 1013 24 Figure 4.10 Maximum Power for Test Channel number 25 25 Figure 4.11 Maximum Power for Test Channel number 600 25 Figure 4.12 Maximum Power for Test Channel number 11750 26 Figure 4.13 Frequency error for Test Channel number 384 27 Figure 4.14 Waveform Quality for Test Channel number 384 28 Figure 4.15 Frequency error for Test Channel number 600 28 Figure 4.16 Waveform Quality for Test Channel number 600 29 Figure 4.17 Frequency error for Test Channel number 384 30 Figure 4.18 Waveform Quality for Test Channel number 384 30 Figure 4.19 Frequency error for Test Channel number 600 31 Figure 4.20 Waveform Quality for Test Channel number 600 31 Figure 4.21 Adjacent Channel Power 885000 for Test Channel number 384 33 Figure 4.22 Adjacent Channel Power 885000 for Test Channel number 384 33 Figure 4.23 Adjacent Channel Power 1980000 for Test Channel number 384 34 Figure 4.24 Adjacent Channel Power 1980000 for Test Channel number 384 34 Figure 4.25 Adjacent Channel Power 1250000 for Test Channel number 600 35 Figure 4.26 Adjacent Channel Power 1250000 for Test Channel number 600 35 Figure 4.27 Adjacent Channel Power 1980000 for Test Channel number 600 36 Figure 4.28 Adjacent Channel Power 1980000 for Test Channel number 600 36 Figure 4.29 Adjacent Channel Power 885000 for Test Channel number 384 37 Figure 4.30 Adjacent Channel Power 885000 for Test Channel number 384 38 Figure 4.31 Adjacent Channel Power 1980000 for Test Channel number 384 38 Figure 4.32 Adjacent Channel Power 1980000 for Test Channel number 384 39 Figure 4.33 Adjacent Channel Power 1250000 for Test Channel number 600 39 Figure 4.34 Adjacent Channel Power 1250000 for Test Channel number 600 40 Figure 4.35 Adjacent Channel Power 1980000 for Test Channel number 600 40 Figure 4.36 Adjacent Channel Power 1980000 for Test Channel number 600 41 List of Table Table 2.1 (CDMA Channel Number to CDMA Frequency Assignment Correspondence for Band Class 0) 3 Table 2.2 (CDMA Channel Number to CDMA Frequency Assignment Correspondence for Band Class 1) 4 Table 2.3 Tx Sweep PDM Measure Range 5 Table 2.4 Digital Variable Gain Amplifier Measure Range 5 Table 2.5 Low Noise Amplifier Measure Range 6 Table 2.6 High Power Detector Measure Range 6 Table 2.7 Effective Radiated Power at Maximum Output Power 7 Table 2.8 Band Class 0 Transmitter Spurious Emission Limits for Spreading Rate 1 8 Table 2.9 Band Class 1 Transmitter Spurious Emission Limits for Spreading Rate 1 8 Table 4.1 Maximum RF Output Power test CPK data 19 Table 4.2 Waveform Quality and Frequency Accuracy test CPK data 26 Table 4.3 Conducted Spurious Emissions test CPK data 32 |
參考文獻 |
[1] 賴俊欽、饒建奇,測試用電源裝置,發明專利,申請號:98138162, November 2009. [2] 3GPP2 (Third Generation Partnership Project2), Recommended Minimum Performance Standards for cdma2000 Spread Spectrum Mobile Stations Release A, TIA-98-D (C.S0011-A v2.0), March 2001. [3] 3GPP2 (Third Generation Partnership Project2), Recommended Minimum Performance Standards for cdma2000 Spread Spectrum Mobile Stations Release B, Version 1, TIA-98-E (C.S0011-B v1.0), December 2002. [4] QUALCOMM, Rx Diversity using RFT6150 ICs, February 2006. |
論文全文使用權限 |
如有問題,歡迎洽詢!
圖書館數位資訊組 (02)2621-5656 轉 2487 或 來信