This book is an entry-level text on the technology of telecommunications. It has been crafted with the newcomer in mind. The twenty-one chapters of text have been prepared for high-school graduates who understand algebra, logarithms, and the basic principles of electricity such as Ohm’s law. However, it is appreciated that many readers require support in these areas. Appendices A and B review the essentials of electricity and mathematics up through logarithms. This material was placed in the appendices so as not to distract from the main theme, the technology of telecommunication systems. Another topic that many in the industry find difficult is the use of decibels and derived units. Appendix C provides the reader a basic understanding of decibels and their applications. The only mathematics necessary is an understanding of the powers of ten
標簽: Telecommunications Fundamentals 2nd of ed
上傳時間: 2020-05-27
上傳用戶:shancjb
This books presents the research work of COST 273 Towards Mobile Broadband Multimedia Networks, hence, it reports on the work performed and on the results achieved within the project by its participants. The material presented here corresponds to the results obtained in four years of collaborative work by more than 350 researchers from 137 institutions (universities, operators, manufacturers, regulators, independent laboratories and others – a full list is provided in Appendix B) belonging to 29 countries (mainly European, but also from Asia and North America) in the area of mobileradio. Theobjectiveofpublishingtheseresultsasabookisessentiallytomakethemavailable to an audience wider than the project. In fact, it just follows a ‘tradition’ of previous COST Actions in this area of telecommunications, i.e. COST 207, 231 and 259.
標簽: Multimedia Techniques Broadband Networks Mobile
上傳時間: 2020-05-30
上傳用戶:shancjb
This edition updates and continues the series of books based on the residential courses on radiowave propagation organised by the IEE/IET. The first course was held in 1974, with lectures by H. Page, P. Matthews, D. Parsons, M.W. Gough, P.A. Watson, E. Hickin, T. Pratt, P. Knight, T.B. Jones, P.A. Bradley, B. Burgess and H. Rishbeth.
標簽: Propagation Radiowaves edition 3rd of
上傳時間: 2020-05-31
上傳用戶:shancjb
采用的PLC是西門子S7-200系列,仿真編程軟件為STEP7-Micro。在初始狀態,容器是空的,各閥門皆關閉,Y1、Y2、Y3燈皆暗和M攪拌機均為OFF,液面傳感器L1、L2、L3為關,加熱器H為關。若要啟動操作,按下啟動按鈕(I0.0),開始下列操作: (1)Y1、Y2為ON,液體A和B同時注入容器,當液面達到L2時,L2為ON,使Y1、Y2為OFF,Y3為ON,即關閉Y1、Y2閥門,打開液體C的閥門Y3。 (2)液面達到L1時,Y3為OFF,M為ON,即關閉閥門Y3,電動機起動開始攪拌。 (3)經10S攪勻后,M為OFF,停止攪拌,H為ON,加熱器開始加熱。 4、當混合液體溫度達到某一指定值時,T為ON,H為OFF,停止加熱,使電磁閥Y4為ON,開始放出混合液體。 (4)當液體高度降為L3后,L3從ON到OFF,再經5S,容器放空,Y4為OFF,開始下一周期。當按下停止按鈕后,在當前的混合操作處理完畢后,停止操作,停在初始狀態。
上傳時間: 2021-12-31
上傳用戶:XuVshu
用三點法實現機器人三維位置測量的研究摘 要 :提 出 了一 種 微 小 爬 壁 機 器 人 三 維 位 置 測 量 的新 方 法 。筆 者 通 過 深 入 分 析 研 究各 種 位 置 測 控 方 法 與 系 統 ,提 出采 用單 目視 覺方 法 中的 聚 焦法 ,以 CCD作 為 傳 感 器 ,用 三 點 法 實現 對 機 器 人 的 三 維 位 置 測 量 。 驗 證性 實驗 結果表 明 ,本研 究提 出的測 量原 理和 系統是 正 確 可行 的 。 關鍵詞 :機 器人 ;位置 測量 ;CCD傳 感 器 ;單 目視 覺 ;攝 像 機 標 定 中 圖分 類 號 :TP242.6 文 獻 標 識 碼 :B Abstract:A new 3D position measurementmethod Ofa wall—climbing micro robothas been researched.Researc— hing on the various position measuring and controlling method,theauthorhasputforwardanewprojecttomeas— ure the 3D position of the robot,in which the focusing method with singlecamera and CCD sensorhasbeen used to getthe position information.The elementary experiment has verified the principle and the system. Key words:robot;position detection;CCD sensor;single camera vision;camera caiibration 位置測量技 術是智 能機 器人 的關鍵 技術 ,是各 種 機器人控 制系統 中極 為重 要 的環節 ,也 是 國內外研 究 的熱點所 在。 按 照測試 系統 與被 測機 器 人 的關 系 ,可 以將位 置 測量技術 分為接觸 式和非接觸式 兩大類 。接觸 式測量 系統 由于在測 量過程 中或多或少地 對機器人施 加 了載 荷 ,因而僅適用于靜 態 位置測 量 。而動 態 位 置測量 系 統 主要分 5類 :①激光跟蹤 系統 ;@ CCD交 互測量 收 稿 日期 :2001—07—03 基 金項 目:國家 863高科技 研 究 資助 項 目(9804-06);教 育 部 高 等 學校 骨干教 師 資助 計 3t,j項 目 作者 簡 介 :張 智海 (1973一 ),男 ,工 學碩 士 ,主 要 研 究 方 向 為 智 能 機 器人 測 控 技 術 。 系統 ;③ 超聲波 測量 系統 ;④ PSD(positionsensitivede— vice)位 置 測 量 系統 ;⑤ 帶 有 接 近覺 傳 感 器 的 測量 系 統 。位置測量 還可 以從另一個分類 角度劃分為主動式 測量和被動 式測 量 。主動式測 量主要可 以分為結 構光方法和激光 自動聚焦法兩類 。被 動式測量 主要 可 以分為雙 目視 覺 、三 目視覺 、單 目視覺 等方法 。 對 比以上各種方法 的 優缺 點 ,針對 筆者 研制 的微 小爬壁機器人 的空 間三 維位 置 測量 的要 求 ,測量 系統 必須滿足尺 寸小 、分 辨率 高 、穩定 性 和可 靠性 好 、時 間 響應快等特 點 ,提 出了采用 單 目視覺方法 中的聚焦法 , 選用 CCD作 為傳感器 ,用 三點法實現對機器人 的三維 位置測量 ,并用 Matlab和 V
標簽: 機器人
上傳時間: 2022-02-12
上傳用戶:
高通(Qualcomm)藍牙芯片QCC5144_硬件設計詳細指導書(官方內部培訓手冊)其內容是針對硬件設計、部分重要元器件選擇(ESD,Filter)及走線注意事項的詳細說明。2 Power management 2.1 SMPS 2.1.1 Components specification 2.1.2 Input power supply selection 92.1.3 Minimize SMPS EMI emissions 2.1.4 Internal LDOs and digital core decoupling 2.1.5 Powering external components 2.2 Charger 2.2.1 Charger connections.2.2.2 General charger operation2.2.3 Temperature measurement during charging 2.3 SYS_CTRL 3 Bluetooth radio3.1 RF PSU component choice 3.2 RF band-pass filter3.3 Layout (天線 走線的注意事項)4 Audio4.1 Audio bypass capacitors 4.2 Earphone speaker output4.3 Line/Mic input 4.4 Headphone output optimizition5 LED pads 5.1 LED driver 5.2 Digital/Button input 5.3 Analog input5.4 Disabled 6 Reset pin (Reset#)7 USB interfaces7.1 USB device port7.1.1 USB device port7.1.2 Layout notes 7.1.3 USB charger detectionA QCC5144 VFBGA example schematic and BOM B Recommended SMPS components specificationB.1 Inductor specifition B.2 Recommended inductors B.3 SMPS capacitor specifition
上傳時間: 2022-04-07
上傳用戶:默默
STM32 F1系列 MCU ATIUM AD集成庫 原理圖庫 PCB 3D封裝庫文件,STM32F1XXXXX全系列原理圖+PCB封裝庫文件,共209個器件型號,CSV text has been written to file : STM32 F1.csvLibrary Component Count : 209Name Description----------------------------------------------------------------------------------------------------STM32F100C4T6B STM32 ARM-based 32-bit MCU Value Line with 16 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 48-Pin LQFP, TraySTM32F100C4T7B STM32 ARM-based 32-bit MCU Value Line with 16 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +105癈 Temperature, 48-Pin LQFP, TraySTM32F100C6T6B STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 48-Pin LQFP, TraySTM32F100C6T6BTR STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 48-Pin LQFP, Tape and ReelSTM32F100C6T7B STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +105癈 Temperature, 48-Pin LQFP, TraySTM32F100C8T6B STM32 ARM-based 32-bit MCU Value Line with 64 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 48-Pin LQFP, TraySTM32F100C8T6BTR STM32 ARM-based 32-bit MCU Value Line with 64 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 48-Pin LQFP, Tape and ReelSTM32F100CBT6B STM32 ARM-based 32-bit MCU Value Line with 128 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 48-Pin LQFP, TraySTM32F100CBT7B STM32 ARM-based 32-bit MCU Value Line with 128 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +105癈 Temperature, 48-Pin LQFP, TraySTM32F100R4H6B STM32 ARM-based 32-bit MCU Value Line with 16 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin TFBGA, TraySTM32F100R4T6B STM32 ARM-based 32-bit MCU Value Line with 16 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100R4T6BTR STM32 ARM-based 32-bit MCU Value Line with 16 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, Tape and ReelSTM32F100R6H6B STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin TFBGA, TraySTM32F100R6T6 STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100R6T6B STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100R6T6BTR STM32 ARM-based 32-bit MCU Value Line with 32 kB Flash, 4 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin TFBGA, Tape and ReelSTM32F100R8H6B STM32 ARM-based 32-bit MCU Value Line with 64 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin TFBGA, TraySTM32F100R8T6B STM32 ARM-based 32-bit MCU Value Line with 64 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100R8T6BTR STM32 ARM-based 32-bit MCU Value Line with 64 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, Tape and ReelSTM32F100RBH6B STM32 ARM-based 32-bit MCU Value Line with 128 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin TFBGA, TraySTM32F100RBH6BTR STM32 ARM-based 32-bit MCU Value Line with 128 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin TFBGA, Tape and ReelSTM32F100RBT6B STM32 ARM-based 32-bit MCU Value Line with 128 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100RBT6BTR STM32 ARM-based 32-bit MCU Value Line with 128 kB Flash, 8 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, Tape and ReelSTM32F100RCT6B STM32 ARM-based 32-bit MCU Value Line with 256 kB Flash, 24 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100RDT6 STM32 ARM-based 32-bit MCU Value Line with 384 kB Flash, 32 kB Internal RAM, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100RDT6B STM32 ARM-based 32-bit MCU Value Line with 384 kB Flash, 32 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100RET6 STM32 ARM-based 32-bit MCU Value Line with 512 kB Flash, 32 kB Internal RAM, -40 to +85癈 Temperature, 64-Pin LQFP, TraySTM32F100RET6B STM32 ARM-based 32-bit MCU Value Line with 512 kB Flash, 32 kB Internal RAM, Internal Code B, -40 to +85癈 Temperature, 64-
上傳時間: 2022-04-30
上傳用戶:jiabin
學習Direct3D中的2D-Focus.On.2D.in.Direct3D.-.fly
標簽: Direct3D D-Focus Direct fly
上傳時間: 2013-08-04
上傳用戶:eeworm
學習3D中的地形focus.on.3D.terrain
上傳時間: 2013-07-31
上傳用戶:eeworm
學習3D模型-Focus.On.3Dodels
上傳時間: 2013-07-23
上傳用戶:eeworm
