d5

ASIL'D'系统SPC5 MCU系列,是32位MCU汽车动力传动系统解决方案，也是32位Power Architecture MCU。...

课时1：ASIL'D'系统SPC5 MCU系列简介

还介绍了SAM5D3 Xplained开发板的使用以及SAM5D3整个生态系统。...

课时1：Atmel SAMA5D3系列概览（二）

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课时1：Atmel SAMA5D3系列概览（一）

我们选择使用了齐纳二极管 D5 和 D6，它们在正常工作期间不导电。在出现过电压的情况下，它们便开始导电，压制光耦合器 U3 的电流。U3 触发由 Q4 和 Q5 组成的锁存电路。...

课时1：电源设计小贴士38：使用简易锁存电路保护电源

Bar-Ilan University 83-612: Digital VLSI Design In this course, I cover the basics of Chip Implementation, from designing the logic (RTL) to providin...

课时1：1a Introduction 课时2：1b Building a Chip 课时3：1c Design Automation 课时4：1d The Chip Design Flow 课时5：Introduction 课时6：2a_ Verilog 课时7：2b_ Verilog Syntax 课时8：2c_ Simple Verilog Examples 课时9：2d_ Verilog FSM Implementation 课时10：2e- Coding Style for RTL - part 1 课时11：How to write Synthesizeable RTL 课时12：Verilog HDL 课时13：3a_ Logic Synthesis - Part 1 课时14：3b_ HDL Compilation 课时15：3c- Library Definition 课时16：3d- LEF 课时17：3e_ Liberty (.lib) 课时18：3f- Contents of Standard Cell Libraries 课时19：Logic Synthesis Part 1 课时20：4a_ Logic Synthesis - Part 2 课时21：4b_ BDDs and Boolean Minimization 课时22：4c_ Constraint Definition 课时23：4d_ Technology Mapping 课时24：4e_ Verilog for Synthesis - revisited 课时25：4f- Timing Optimization 课时26：Logic Synthesis Part 2 课时27：5a_ Timing Analysis 课时28：5b_ Timing Constraints 课时29：5c_ Static Timing Analysis (STA) 课时30：5d_ STA Example 课时31：5e_ Design Constraints (SDC) 课时32：5f_ SDC Continued. 课时33：5g_ Timing Reports 课时34：5h_ Multi-Mode Multi-Corner (MMMC) 课时35：Timing Analysis 课时36：6a_ Moving to the Physical Domain 课时37：6b- Multiple Voltage Domains 课时38：6c_ Floorplanning 课时39：6d_ Hierarchical Design 课时40：6e- Power Planning 课时41：Moving to the Physical Domain 课时42：7a_ Standard Cell Placement 课时43：7b_ Random Placement 课时44：7c_ Analytic Placement 课时45：7d- Analytic Placement Example 课时46：7e_ Placement in Practice 课时47：Placement 课时48：8a_ Clock Tree Synthesis (CTS) 课时49：8b_ Clock Distribution 课时50：8c_ Clock Concurrent Optimization (CCOpt) 课时51：8d- Clock Tree Synthesis in EDA Tools 课时52：8e_ Clock Routing and Clock Tree Analysis 课时53：8f_ Clock Generation 课时54：8g_ Clock Domain Crossing (CDC) 课时55：CTS 课时56：9a- Routing 课时57：9b_ Maze Routing 课时58：9c_ Maze Routing (continued) 课时59：9d- Routing in Practice 课时60：9e- Signal Integrity (SI) and Design for Manufacturing (DFM) 课时61：Routing 课时62：10a- Packaging 课时63：10b- I_O Circuits - Digital IOs 课时64：10c- I_O Circuits - Analog IOs, ESD Protection, Pad Configurations 课时65：10d- System-in-Package (SiP) 课时66：I_O and Packaging 课时67：11a_ Sign-off Timing 课时68：11b- Additional issues in Sign-off Timing 课时69：11c_ Chip Finishing, including Density Fill and Antenna Fixes 课时70： 11d- Sign-off Validation, including IR Drop and EM Analysis, LEC, and DRC_LVS_ERC 课时71：Chip Finishing and Signoff 课时72：Introduction to Tcl-The tool command language-Part1 课时73：Introduction to Tcl-The tool command language-Part2

eRTC培训视频...

课时1：密码学基本知识培训教程 课时2：电容触控量产测试工具的应用培训教程 课时3：USB Type-C™接口和供电技术概述和设计培训教程 课时4：Microchip基于Linux®平台的EGT图形库介绍与应用培训教程 课时5：在PIC®单片机上实现自举程序培训教程 课时6：PFC基本工作和控制原理培训教程 课时7：基于CIP的混合电源的设计培训课程 课时8：CAN简介与Atmel Start上CAN驱动开发培训视频 课时9：使用Curiosity Nano板和Click板进行快速原型开发培训教程 课时10：为系统设计选择合适的ADC及应用培训教程 课时11：电机控制系统硬件设计培训教程 课时12：用Harmony3玩转32位MCU培训教程 课时13：Microchip SAM单片机的外设特点和案例实践培训教程 课时14：CVD & PTC触摸原理与项目调试注意事项培训视频 课时15：Linux®系统应用开发入门介绍培训教程 课时16：MPLAB® Harmony v3基础和使用技巧培训教程 课时17：USB3 x智能HUB介绍及调试技巧分享培训教程 课时18：运算放大器基础入门培训教程 课时19：数字控制的移相全桥电源的基本原理和设计培训教程 课时20：AUTOSAR基础知识及Microchip方案介绍培训教程 课时21：Microchip私有无线通信协议Mesh组网方案介绍培训教程 课时22：EtherCAT®和Microchip LAN9252从站控制器培训教程 课时23：基于PIC16F153xx的单双相无刷马达控制实现培训教程 课时24：MCP16502——面向eMPU的高性能PMIC培训教程 课时25：AVR® DA系列MCU技术细节解析培训教程 课时26：用Harmony 3玩转MPU培训教程 课时27：电容式触摸原理、设计挑战和解决方案培训教程 课时28：电流采样及能量监测设计应用介绍培训教程 课时29：Microchip以太网交换机芯片的介绍与设计应用培训教程 课时30：AVR® 8位单片机及CIP外设设计培训教程 课时31：了解和设计采用自适应COT架构的开关电源培训教程 课时32：C++入门以及基于SAM9x60 EGT应用培训教程 课时33：以太网物理层的测试和调试技巧培训教程 课时34：如何学习和使用ATSHA204A安全认证芯片培训教程 课时35：基于dsPIC33的数字式降压DC_DC变换器的原理与设计培训教程 课时36：Microchip无线充电技术初探培训教程 课时37：PoE和Discrete Power产品介绍培训教程 课时38：电机设计的基础知识培训教程 课时39：Microchip MPU Bare metal开发培训教程 课时40：ENT以太网交换PHY产品培训教程 课时41：功能安全概述2培训教程 课时42：Microchip FPGA产品介绍培训教程 课时43：CAN FD技术培训教程 课时44：基于MCC 8位自举程序库的AVR®自举程序设计培训教程 课时45：EGT——在Linux®下通过SVG进行GFX设计培训教程 课时46：10BASE-T1S以太网的原理以及应用培训教程 课时47：常用功率级拓扑工作原理介绍培训教程 课时48：使用MPLAB® Harmony USB协议栈开发USB主机和设备应用培训教程 课时49：SAM MCU的PWM、AD、DMA和Event配置以及介绍培训教程 课时50：MPLAB® Harmony图形套件简介培训教程 课时51：电流测量和计量培训教程 课时52：常用功率级拓扑工作原理介绍培训教程（II） 课时53：安全基础知识和对称式安全应用实例培训教程 课时54：以太网的基础和PHY的介绍培训教程 课时55：开关电源应用探讨培训教程（I） 课时56：开关电源应用探讨培训教程（II） 课时57：SAMA5 MPU低功耗模式与Linux®电源管理培训教程 课时58：PIC® MCU和dsPIC® DSC的自举程序开发培训教程 课时59：dsPIC33C系列PWM原理以及MCC介绍培训教程 课时60：使用Buildroot创建你的第一个嵌入式Linux®系统培训教程 课时61：选择合适的ADC 优化您的设计培训教程 课时62：如何基于SAMA5D2实现安全启动功能培训教程 课时63：USB Type C®基本原理与PSF介绍和应用培训教程 课时64：如何使用MPLAB® Connect工具培训教程 课时65：常用功率级拓扑数字化实现方法与控制策略培训教程 课时66：AVR® DB单片机应用介绍培训教程 课时67：使用ATSHA204A实现IP保护防克隆，对称式认证原理介绍和源代码分享培训教程 课时68：常见Linux®驱动程序使用培训教程 课时69：PIC24和dsPIC33自举程序的原理与应用培训教程 课时70：EtherCAT®和Microchip LAN925X从站控制器介绍培训教程 课时71：RT Thread介绍及RT Thread在SAM MCU上的移植与调试培训教程 课时72：USB Smart Hub工作原理及应用培训教程 课时73：CAN与CAN FD协议阐述及最新发展培训教程 课时74：PIC® MCU中CLC功能模块的应用培训教程 课时75：QSPI闪存中最小的Linux®系统培训教程 课时76：电容式触摸设计原理、方案选型、设计要点和更新培训教程

Switchboards are designed with busbars for fuses or circuit breakers that are used for protecting and supplying feeders and branch circuits. Panelboar...

课时1：OVERHEATING AND INDUCTIVE HEATING - 408.3(B) 课时2：USED AS SERVICE EQUIPMENT - 408.3(C) 课时3：PHASE ARRANGEMENT - 408.3(E) AND (F)​​​​​​​ 课时4：PHASE ARRANGEMENT - 408.3(E) AND (F) 课时5：5 课时6：HIGH LEG IDENTIFICATION - 408.3(F)(1) 课时7：MINIMUM WIRE-BENDING SPACE - 408.3(G) 课时8：MINIMUM WIRE-BENDING SPACE - 408.3(G) 课时9：CLEARANCE FOR CONDUCTOR ENTERING BUS ENCLOSURES - 408.5 课时10：DEDICATED EQUIPMENT SPACE - 408.18(B) AND 110.26(E)(1)(a) 课时11：PANELBOARDS AND SWITCHBOARDS - ARTICLE 408, PART II 课时12：SWITCHBOARD CLEARANCES - 408.18(A) AND (B)​​​​​​​ 课时13：OVERCURRENT PROTECTION - 408.36 课时14：OVERCURRENT PROTECTION - 408.36 课时15：OVERCURRENT PROTECTION - 408.36 课时16：SPLIT-BUS PANELBOARD 课时17：SNAP SWITCHES RATED AT 30 AMPS OR LESS - 408.36(A) 课时18：SUPPLIED THROUGH A TRANSFORMER - 408.36(B) 课时19：GROUNDING OF PANELBOARDS - 408.40 课时20：GROUNDING OF PANELBOARDS - 408.40 课时21：ISOLATED EQUIPMENT GROUNDING CONDUCTOR - 408.40, Ex 课时22：(a) RUNNING CIRCUITS TO COMPENSATE FOR HARMONIC CURRENTS 课时23：(b) RUNNING CIRCUITS TO COMPENSATE FOR HARMONIC CURRENTS 课时24：AMBIENT TEMPERATURE - 310.14(A)(3), IN 1(1)​​​​​​​ 课时25：WHEN TO APPLY CORRECTION FACTORS - 310.14(A)(2), Ex 课时26：DISSIPATION INTO AMBIENT MEDIUM - 310.14(A)(3), IN 1(3) 课时27：MATCHING TEMPERATURE MARKINGS - 110.14(C)(1)(a) AND (C)(1)(b) 课时28：WHEN TO APPLY ADJUSTMENT FACTORS - 310.15(C)(1) TO TABLES 0 – 2000 VOLTS 课时29：EQUIPMENT GROUNDING CONDUCTORS - ARTICLE 100 AND 310.6(B) 课时30：OVERCURRENT - ARTICLE 100, 240.3, AND 240.4 课时31：WHEN IS A NEUTRAL CURRENT-CARRYING - 310.15(E)(3) 课时32：UNGROUNDED CONDUCTORS - 310.6(C) 课时33：UNGROUNDED CONDUCTORS - 310.6(C)​​​​​​​ 课时34：TERMINAL RATINGS - 110.14(C)(1)(a) AND (C)(1)(b) 课时35：LONG- AND SHORT-TIME RATINGS OF CONDUCTORS - 310.14(A)(3) AND TABLE 310.16 课时36：THREE OR MORE CURRENT-CARRYING CONDUCTORS - 310.15(C)(1) TO AMPACITY TABLES 0 – 2000 VOLTS 课时37：DERATING FOR AMBIENT TEMPERATURE CORRECTION FACTORS - TABLES 310.15(B)(1) AND (B)(2) 课时38：(a) APPLYING BOTH DERATING FACTORS TABLE 310.15(C)(1) AND TABLES 310.15(B)(1) AND (B)(2)​​​​​​ 课时39：(b) APPLYING BOTH DERATING FACTORS TABLE 310.15(C)(1) AND TABLES 310.15(B)(1) AND (B)(2) 课时40：(c) APPLYING BOTH DERATING FACTORS TABLE 310.15(C)(1) AND TABLES 310.15(B)(1) AND (B)(2) 课时41：APPLYING 50 PERCENT LOAD DIVERSITY FACTOR - TABLE B.310.14(B)(2)(11) 课时42：BRANCH-CIRCUIT ELEMENTS - 422.10(A) AND (B), AND 422.11(A) THRU (G) 课时43：(a) INDIVIDUAL CIRCUITS - 210.19(A)(1)(a), 210.1 AND 210.20(A) 课时44：(b) INDIVIDUAL CIRCUITS - 210.19(A)(1)(a), 210.1 AND 210.20(A) 课时45：CONDUCTORS IN PARALLEL - 310.10(G)​​​​​​​ 课时46：CONDUCTOR CONSTRUCTIONS AND APPLICATIONS - 310.4 课时47：TYPICAL AMBIENT DESIGN TEMPERATURE - 1971 NEC 课时48：DETERMINING CONDUCTOR AMPACITIES IN CABLES - TABLES 311.60(C)(77) THRU 311.60(C)(86) 课时49：DETERMINING CONDUCTOR AMPACITIES IN DUCT BANKS - TABLES 311.60(C)(77) THRU 311.60(C)(86) 课时50：DERATING DUE TO OBSTRUCTIONS - 311.60(C)(2)(a) TO TABLES 311.60(C)(77) THRU 311.60(C)(86) 课时51：DERATING DUE TO OBSTRUCTIONS - 311.60(C)(2)(b) TO TABLES 311.60(C)(77) THRU 311.60(C)(86)​​​​​ 课时52：RACEWAYS AND CABLES EXPOSED TO SUNLIGHT ON ROOFTOOPS - 310.15(B)(2) AND Ex 课时53：PROTECTION OF EQUIPMENT - 240.3 AND TABLE 240.3 课时54：PROTECTION OF EQUIPMENT PROTECTION OF CONDUCTORS - 240.4 课时55：OVERCURRENT DEVICES RATED 800 AMPS OR LESS - 240.4(B)​​​​​​​ 课时56：OVERCURRENT DEVICES RATED OVER 800 AMPS - 240.4(C) 课时57：OTOR-OPERATED APPLIANCE CIRCUIT CONDUCTORS - 240.4(G) AND TABLE 240.4(G) 课时58：(a) MOTOR AND MOTOR-CONTROL CIRCUIT CONDUCTORS - 240.4(G) AND TABLE 240.4(G) 课时59：(b) MOTOR AND MOTOR-CONTROL CIRCUIT CONDUCTORS - 240.4(G) AND TABLE 240.4(G) 课时60：(a) PHASE CONVERTER SUPPLY CONDUCTORS - 240.4(G) AND TABLE 240.4(G)​​​​​​​ 课时61：(b) PHASE CONVERTER SUPPLY CONDUCTORS - 240.4(G) AND TABLE 240.4(G) 课时62：AIR-CONDITIONING AND REFRIGERATION EQUIPMENT CIRCUIT CONDUCTORS - 240.4(G) AND TABLE 240.4(G) 课时63：(a) TRANSFORMER SECONDARY CONDUCTORS - 240.4(F)​​​​​​​ 课时64：(b) TRANSFORMER SECONDARY CONDUCTORS - 240.4(F)​​​​​​​ 课时65：(a) CAPACITOR CIRCUIT CONDUCTORS - 240.4(G) AND TABLE 240.4(G) 课时66：(b) CAPACITOR CIRCUIT CONDUCTORS - 240.4(G) AND TABLE 240.4(G) 课时67：ELECTRIC WELDER CIRCUIT CONDUCTORS - 240.4(G) AND TABLE 240.4(G)​​​​​​​ 课时68：REMOTE-CONTROL, SIGNALING, AND POWER-LIMITED CIRCUIT CONDUCTORS - 240.4(G) AND TABLE 240.4(G) 课时69：FIRE ALARM CIRCUIT CONDUCTORS - 240.4(G) AND TABLE 240.4(G) 课时70：FIXTURE WIRE - 240.5(B)(2) 课时71：EXTENSION CORD SETS - 240.5(B)(3) 课时72：STANDARD AMPERE RATINGS - 240.6(A) AND TABLE 240.6(A) 课时73：ADJUSTABLE TRIP CIRCUIT BREAKERS - 240.6(B) AND (C) 课时74：SUPPLEMENTARY OVERCURRENT PROTECTION - 240.10 课时75：ELECTRICAL SYSTEM COORDINATION - 240.12 课时76：USING HANDLE TIES - 240.15(B) 课时77：BRANCH-CIRCUIT CONDUCTORS - 240.21(A) 课时78：(a) TAPS NOT OVER 10 FT (3 m) LONG - 240.21(B)(1) 课时79：(b) TAPS NOT OVER 10 FT (3 m) LONG - 240.21(B)(1) 课时80：TAPS NOT OVER 25 FT (7.5 m) LONG - 240.21(B)(2) 课时81：(a) TAPS SUPPLYING A TRANSFORMER [PRIMARY PLUS SECONDARY NOT OVER 25 FT LONG]240.21(B)(3) ​​​​ 课时82： (b) TAPS SUPPLYING A TRANSFORMER [PRIMARY PLUS SECONDARY NOT OVER 25 FT LONG] - 240.21(B)(3) 课时83：(a) TAPS OVER 25 FT (7.5 m) LONG - 240.21(B)(4) 课时84：(b) TAPS OVER 25 FT (7.5 m) LONG - 240.21(B)(4) ​​​​​​​ 课时85：TRANSFORMER SECONDARY CONDUCTORS NOT OVER 10 FT (3 m) LONG - 240.21(C)(2) 课时86：INDUSTRIAL INSTALLATION SECONDARY CONDUCTORS NOT OVER 25 FT (7.5 m) LONG - 240.21(C)(3) 课时87：OUTSIDE SECONDARY CONDUCTORS - 240.21(C)(4)​​​​​​​ 课时88：SERVICE CONDUCTORS - 240.21(D) 课时89：USWAY TAPS - 240.21(E)​​​​​​​ 课时90：(a) MOTOR CIRCUIT TAPS - 240.21(F) 课时91：(b) MOTOR CIRCUIT TAPS - 240.21(F) 课时92：CONDUCTORS FROM GENERATOR TERMINALS - 240.21(G) 课时93：PROTECTED BY A DIFFERENTIAL RELAY - 240.92(C)(1)(2) 课时94：GROUNDED (NEUTRAL) CONDUCTOR - 240.22 课时95：CHANGE IN SIZE OF GROUNDED (NEUTRAL) CONDUCTOR - 240.23 课时96：ACCESSIBILITY OF OVERCURRENT PROTECTION DEVICES - 240.24(A) 课时97：ACCESSIBILITY OF OVERCURRENT PROTECTION DEVICES - 240.24(A) 课时98：BRANCH-CIRCUIT OVERCURRENT DEVICES - 240.24(B)(2) 课时99：SIZING - 210.20(A), 215.3, AND 230.42(A)(1) 课时100：(a) SIZING - 210.20(A), 215.3, AND 230.42(A)(1)​​​​​​​

James Stallcup, Sr. has reinvented Designing Electrical Systems that catapulted him to the forefront of the electrical industry as a prominent author,...

课时1：APPLYING THE NEC 课时2：ADMINISTRATION AND ENFORCEMENT 课时3：INTRODUCTION AND CHAPTER 1 课时4：CHAPTER 1 ARTICLE 100 课时5：CHAPTER 1 ARTICLE 110 课时6：CHAPTER 2 ARTICLES 200 – 285 课时7：CHAPTER 2 ARTICLES 200 – 285 课时8：CHAPTER 3 ARTICLES 300 – 399 课时9：CHAPTER 4 ARTICLES 400 – 490 课时10：CHAPTER 5 ARTICLES 500 – 590 课时11：CHAPTER 6 ARTICLES 600 – 695 课时12：CHAPTER 7 ARTICLES 700 – 770 课时13：CHAPTER 8 ARTICLES 800 – 840 课时14：CHAPTER 9 TABLES 1 – 12(B) 课时15：PURPOSE OF OSHA 课时16：APPLYING OSHA 1926, SUBPART K 课时17：APPLYING OSHA 1926, SUBPART V 课时18：APPLYING OSHA 1910, SUBPART R 课时19：PURPOSE OF NFPA 70E 课时20：PURPOSE OF NFPA 70B 课时21：PURPOSE OF NFPA 79 课时22：PURPOSE OF THE NESC 课时23：PURPOSE OF THIRD-PARTY CERTIFICATION 课时24：UL WHITE BOOK (Now Electronic) 课时25：APPROVAL 课时26：EXAMINATION, INSTALLATION, AND USE OF EQUIPMENT 课时27：INSTALLING AND MAINTAINING ELECTRICAL EQUIPMENT 课时28：AUTHORITY HAVING JURISDICTION 课时29：Retrofit Kit 课时30：HEART COMPRESSION 课时31：HEAD PROTECTION 课时32：HARD HATS 课时33：FACTOR IN PROTECTION 课时34：HAND AND ARM PROTECTION 课时35：FOOT AND LEG PROTECTION 课时36： (a) OVERALL PROTECTION 课时37：(b) OVERALL PROTECTION 课时38：120 V, SINGLE-PHASE, TWO-WIRE SYSTEMS 课时39：208_120 V, SINGLE-PHASE, THREE-WIRE SYSTEMS 课时40：240_120 V, SINGLE-PHASE, THREE-WIRE SYSTEMS 课时41：208_120 V, THREE-PHASE 课时42：240_120 V, THREE-PHASE 课时43：OPEN-DELTA SYSTEMS​​​​​​​ 课时44：480_277 V, THREE-PHASE, - FOUR-WIRE SYSTEMS 课时45：SYSTEMS OF 4160 VOLTS 课时46：SYSTEMS OF 13,800 VOLTS 课时47：CONDUCTORS - 720.4 课时48：LAMPHOLDERS - 720.5 课时49：RECEPTACLES - 720.6 AND 720.7 课时50：BATTERIES - 720.9 课时51：CLASS 1 CIRCUIT CLASSIFICATIONS AND POWER SOURCE REQUIREMENTS - 725.41(A) AND (B) 课时52：CONDUCTORS OF DIFFERENT CIRCUITS - 725.48(A) AND (B) AND 300.3(C)(1) 课时53：NUMBER OF CONDUCTORS - 725.51(A), (B), AND (C) 课时54：POWER SOURCES FOR CLASS 2 AND 3 CIRCUITS - 725.121(A), (B), AND (C) 课时55：NONPOWER-LIMITED FIRE ALARM(NPLFA) CIRCUITS - 760.2 课时56：POWER-LIMITED FIRE ALARM (PLFA) CIRCUIT - 760.2 AND 760.154 课时57：INTRINSICALLY SAFE SYSTEM - ARTICLE 100, PART III AND 504.2 课时58：EQUIPMENT - 504.4 课时59：CONTROL DRAWING - 504.10(A) AND ARTICLE 100, Part III 课时60：IN RACEWAYS, CABLE TRAYS, AND CABLES - 504.30(A)(1) 课时61：WITHIN ENCLOSURES - 504.30(A)(2) 课时62：OTHER (NOT IN RACEWAY OR CABLE TRAY SYSTEM) - 504.30(A)(3) 课时63：FROM DIFFERENT INTRINSICALLY SAFE CIRCUIT CONDUCTORS - 504.30(B)(1) AND (B)(2) 课时64：COLOR CODING - 504.80(C) 课时65：GROUNDING - 504.50(A) AND (B) 课时66：BONDING - 504.60(A) AND (B) 课时67：WIRING METHODS AND ENCLOSURES (RECOMMENDED REQUIREMENTS) 课时68：WIRING (RECOMMENDED REQUIREMENTS)​​​​​​​ 课时69：COLOR CODING (RECOMMENDED REQUIREMENTS) 课时70：LIGHTING SYSTEMS OPERATING AT 30 VOLTS OR LESS - 411.3 课时71：LISTING REQUIRED - 411.4(A) AND (B) 课时72：SPECIFIC LOCATION REQUIREMENTS - 411.5(A) AND (B)​​​​​​​ 课时73：SECONDARY CIRCUITS - 411.6(A) THRU (C) 课时74：BRANCH CIRCUIT - 411.7 课时75：SPACES ABOUT ELECTRICAL EQUIPMENT - 110.26(A)(1) THRU (A)(4) 课时76：DEPTH OF WORKING SPACE - 110.26(A)(1), AND TABLE 110.26(A)(1), CONDITION 1 课时77：DEPTH OF WORKING SPACE - 110.26(A)(1) AND TABLE 110.26(A)(1), CONDITION 2​​​​​​​ 课时78：DEPTH OF WORKING SPACE - 110.26(A)(1) AND TABLE 110.26(A)(1), CONDITION 2​​​​​​​ 课时79：DEPTH OF WORKING SPACE - 110.26(A)(1) AND TABLE 110.26(A)(1), CONDITION 3 课时80：EXISTING BUILDINGS - 110.26(A)(1)(c) 课时81：HEIGHT OF WORKING SPACE - 110.26(A)(3) 课时82：DEDICATED ELECTRICAL SPACE - 110.26(E)(1)(a) 课时83：ENTRANCE TO AND EGRESS FROM WORKING SPACE - 110.26(C)(1) AND (C)(2) 课时84：LARGE EQUIPMENT - 110.26(C)(2)​​​​​​​ 课时85：ILLUMINATION - 110.26(D) 课时86：DEDICATED ELECTRICAL SPACE - 110.26(E)(1)(a) 课时87：CLEAR SPACES - 110.26(B) 课时88：FOREIGN SYSTEMS - 110.26(E)(1)(b) 课时89：LIVE PARTS GUARDED AGAINST ACCIDENTAL CONTACT - 110.27(A) 课时90：LIVE PARTS GUARDED AGAINST ACCIDENTAL CONTACT - 110.27(A) 课时91：PREVENT PHYSICAL DAMAGE - 110.27(B) 课时92：WARNING SIGNS - 110.27(C) 课时93：ENTRANCE TO ENCLOSURES AND ACCESS TO WORKING SPACE (OVER 1000 V) - 110.33 课时94：ACCESS - 110.33(B) 课时95：ENCLOSURE FOR ELECTRICAL INSTALLATIONS - 110.31 课时96：ELECTRICAL VAULTS - 110.31(A) 课时97：INDOOR INSTALLATIONS - 110.31(B) 课时98：OUTDOOR INSTALLATIONS - 110.31(C) 课时99：ENCLOSED EQUIPMENT ACCESSIBLE TO UNQUALIFIED PERSONS - 110.31(D) 课时100：WORKSPACE ABOUT EQUIPMENT - 110.32

IOT-ARM体系结构与编程视频教程...

课时2：ARM世界 课时3：开发环境搭建1 课时4：开发环境搭建2 课时5：补充Linux装Sourceinsight 课时6：补充MiniTool烧写开发板-11.30更新工具 课时7：ARM体系结构-学习方法 课时8：ARM体系结构-处理器和名词1 课时9：ARM体系结构-处理器和名词2 课时10：ARM体系结构-工具和交叉工具链 课时11：处理器模式和片内寄存器1 课时12：ARM异常及中断2 课时13：处理器模式和片内寄存器3 课时14：处理器模式和片内寄存器4 课时15：ARM汇编寻址模式1 课时16：ARM汇编寻址模式2 课时17：ARM汇编寻址模式3 课时18：ARM汇编算数操作1 课时19：ARM汇编算数操作2 课时20：ARM汇编算数操作3 课时21：ARM汇编算数操作4 课时22：ARM汇编内存操作1 课时23：ARM汇编内存操作2 课时24：跳转指令及其它1 课时25：跳转指令及其它2 课时26：ARM汇编伪指令1 课时27：ARM汇编伪指令2 课时28：ARM汇编伪指令3 课时29：ARM汇编伪指令4 课时30：混合编程1 课时31：混合编程2 课时33：ARM硬件基础概述1 课时34：ARM硬件基础概述2 课时35：ARM硬件基础概述3 课时36：ARM硬件基础-SIMD&NEON 课时37：ARM硬件基础-Cache1 课时38：ARM硬件基础-Cache2 课时39：ARM硬件基础-MMU1 课时40：ARM硬件基础-MMU2 课时41：ARM硬件基础-MMU3 课时42：ARM异常及中断1 课时43：ARM异常及中断2 课时44：第一个裸板试验1 课时45：第一个裸板试验2 课时46：S5PV210启动原理1 课时47：S5PV210启动原理2 课时48：ARM硬件接口GPIO1 课时49：ARM硬件接口GPIO2 课时50：ARM硬件接口GPIO3 课时51：ARM硬件接口GPIO4 课时52：ARM硬件接口GPIO5 课时53：确定开发板资源1 课时54：确定开发板资源2 课时55：确定开发板资源3 课时56：确定开发板资源4 课时57：驱动开发板资源5 课时58：驱动开发板资源6 课时59：驱动开发板资源7 课时61：bootloader概述1 课时62：bootloader概述2 课时63：bootloader概述3 课时64：bootloader概述4 课时65：bootloader概述5 课时66：C5工程搭建Makefile1 课时67：C5工程搭建Makefile2 课时68：C5工程搭建Makefile3 课时69：工程搭建链接脚本 课时70：工程搭建链接脚本 课时71：工程搭建C代码点灯1 课时72：工程搭建C代码点灯2 课时73：工程搭建C代码点灯3 课时74：通信模型介绍1 课时75：通信模型介绍2 课时76：UART协议介绍1 课时77：UART协议介绍2 课时78：UART协议介绍3 课时79：UART控制器介绍1 课时80：UART控制器介绍2 课时81：通过串口发送一个字符1 课时82：通过串口发送一个字符2 课时83：通过串口发送一个字符3 课时84：通过串口发送一个字符4 课时85：通过串口发送一个字符串1 课时86：通过串口发送一个字符串2 课时88：中断介绍1 课时89：中断介绍2 课时90：中断介绍3 课时91：中断介绍4 课时92：中断初始化代码1 课时93：中断初始化代码2 课时94：中断初始化代码3 课时95：中断流程代码1 课时96：中断流程代码2 课时97：中断流程代码3 课时98：IIC协议介绍1 课时99：IIC协议介绍2 课时100：IIC协议介绍3 课时101：IIC协议介绍4 课时102：IIC协议介绍5 课时103：IIC协议介绍6 课时104：watchdog介绍1

Deep Learning course at NYU, Spring 2020. Taught by Yann LeCun & Alfredo Canziani. With practical applications using PyTorch. 图灵奖获得者给你讲深度学习...

课时1：Week 1 – Lecture- History, motivation, and evolution of Deep Learning 课时2：Week 1 – Practicum- Classification, linear algebra, and visualisation 课时3：Week 2 – Lecture- Stochastic gradient descent and backpropagation 课时4：Week 2 – Practicum- Training a neural network 课时5：Week 3 – Lecture- Convolutional neural networks 课时6：Week 3 – Practicum- Natural signals properties and CNNs 课时7：Week 4 – Practicum- Listening to convolutions 课时8：Week 5 – Lecture- Optimisation 课时9：Week 5 – Practicum- 1D multi-channel convolution and autograd 课时10：Week 6 – Lecture- CNN applications, RNN, and attention 课时11：Week 6 – Practicum- RNN and LSTM architectures 课时12：Week 7 – Practicum- Under- and over-complete autoencoders 课时13：Week 7 – Lecture- Energy based models and self-supervised learning 课时14：Week 8 – Lecture- Contrastive methods and regularised latent variable models 课时15：Week 8 – Practicum- Variational autoencoders 课时16：Week 9 – Lecture- Group sparsity, world model, and generative adversarial networks (GANs) 课时17：Week 9 – Practicum- (Energy-based) Generative adversarial networks 课时18：Week 10 – Practicum- The Truck Backer-Upper 课时19：Week 10 – Lecture- Self-supervised learning (SSL) in computer vision (CV) 课时20：Week 11 – Practicum- Prediction and Policy learning Under Uncertainty (PPUU) 课时21：Week 11 – Lecture- PyTorch activation and loss functions 课时22：Week 12 – Practicum- Attention and the Transformer 课时23：Week 12 – Lecture- Deep Learning for Natural Language Processing (NLP) 课时24：Week 13 – Practicum- Graph Convolutional Neural Networks (GCN) 课时25：Week 13 – Lecture- Graph Convolutional Networks (GCNs) 课时26：Week 14 – Lecture- Structured prediction with energy based models 课时27：Week 14 – Practicum- Overfitting and regularization, and Bayesian neural nets 课时28：Week 15 – Practicum part A- Inference for latent variable energy based models (EBMs) 课时29：Week 15 – Practicum part B- Training latent variable energy based models (EBMs) 课时30：Matrix multiplication, signals, and convolutions 课时31：Supervised and self-supervised transfer learning (with PyTorch Lightning) 课时32：Four decades in Machine Learning- a Personal Journey by Yann LeCun

This course is offered by Prof. James Chien-Mo Li, Lab of Dependable Systems, National Taiwan University. Lecture notes available on course website ...

课时1：Introduction What Is Testing 课时2：Introduction Types Of Tests 课时3：Introduction TestQuality 课时4：Introduction Test Economics 课时5：ReferenceDedication (_optional) 课时6：LogicSim Intro 课时7：LogicSim Model 课时8：LogicSim CompliedCode 课时9：LogicSim EventDriven 课时10：LogicSim Parallel 课时11：LogicSim Issues (_ optional) 课时12：FaultModeling Intro 课时13：FaultModeling SSF 课时14：FaultModeling BridgeFault 课时15：FaultModeling DelayFault 课时16：FaultModeling TransistorFault (_ optional) 课时17：FaultModeling_ FaultDetect,FaultCoverage 课时18：Equivalent Fault Collapsing 课时19：Dominance Fault Collapsing, DFC (_optional) 课时20：FaultSim Intro 课时21：FaultSim Parallel 课时22：FaultSim Deductive 课时23：Concurrent Fault Simulation 课时24：FaultSim DiffFsim 课时25：FaultSim Alternatives 课时26：FaultSim IssueConclusion (_optional) 课时27：Testability Intro 课时28：Testability SCOAPseq (_optional) 课时29：Testability COP 课时30：Combinational ATPG Introduction 课时31：Combinational ATPG (Boolean Difference) 课时32：Combinational ATPG (Single Path Sensitization) 课时33：Combinational ATPG, D_algorithm 课时34：Combinational ATPG, PODEM 课时35：Combinational ATPG, FAN 课时36：Combinational ATPG, SAT 课时37：Combinational ATPG, acceleration techniques 课时38：Sequential ATPG Introduction 课时39：Sequential ATPG (9_valued) 课时40：Sequential ATPG (Backward Time Frame Processing) 课时41：Sequential ATPG Simulation (_optional) 课时42：Sequential ATPG Conclusion (_optional) 课时43：DelayTest Intro 课时44：Delay Test _ Path Sensitize 课时45：DelayTest PathTG 课时46：DelayTest PathFsim 课时47：DelayTest TransitionFsimTG 课时48：Diagnosis Intro 课时49：Diagnosis StaticCE 课时50：Diagnosis DynamicCE 课时51：Diagnosis EffectCause 课时52：Diagnosis, Chain Diagnosis (_optional) 课时53：DFT1 Intro 课时54：DFT1 ScanConcepts 课时55：DFT1 _ Test Mode Operation (SSF & Delay Test LOS_LOC) 课时56：DFT1 Muxed_D Scan ATPG model (_optional) 课时57：DFT1 ClockScan (_optional) 课时58：DFT1 LSSD 课时59：DFT1 ScanDesignFlow 课时60：DFT1 IssueSol 课时61：DFT2 JTAG Intro 课时62：DFT2 JTAG Registers 课时63：DFT2 JTAG Instruction 课时64：DFT2 JTAG Instruction (old version) 课时65：DFT2 Instruction2Conclude 课时66：BIST1 Intro 课时67：BIST1 LFSR 课时68：BIST1 _ LFSR seed solving 课时69：BIST1 LFSRpolynomial 课时70：BIST1 CA 课时71：BIST2 Intro 课时72：BIST2 SerialORA 课时73：BIST2 Parallel ORA MISR 课时74：BIST2 Architecture 课时75：BIST2 Design Phase Shifter for LFSR TPG 课时76：BIST2 IssuesConclude (_optional)_2 课时77：TestCompress Intro 课时78：TestCompress SoftwareSTC 课时79：Test Compress Hardware Stimulus (updated 5_10_2020) 课时80：TestCompress HardwareResponse (_optional) 课时81：MemTest Intro 课时82：Memory Test _ Classical algorithm 课时83：MemTest March 课时84：FunctionTest Intro 课时85：FunctionTest CheckExp 课时86：FunctionTest IOV 课时87：FunctionTest SV (_optional)

嵌入式项目实战讲解，从软件到硬件应有尽有...

课时1：P1. D1 - 课程体系概要巩固 课时2：P2. Ｌ１３－Ｄ１－２ 课时3：P3. Ｌ１３－Ｄ１－３ 课时4：P4. Ｌ１３－Ｄ１－４ 课时5：P5. Ｌ１３－Ｄ１－５ 课时6：P6. Ｌ１３－Ｄ１－６ 课时7：P7. Ｌ１３－Ｄ１－７ 课时8：P8. Ｌ１３－Ｄ１－８ 课时9：P9. Ｌ１３－Ｄ１－９ 课时10：P10. D2 - 物联网仓储项目实战安排与环境搭建 课时11：P11. Ｌ１３－Ｄ２－２ 课时12：P12. D3 - 物联网仓储 实现及需求分析 课时13：P13. Ｌ１３－Ｄ３－２ 课时14：P14. D4 - 软硬件环境分析和通信结构体定义 课时15：P15. Ｌ１３－Ｄ４－２ 课时16：P16. Ｌ１３－Ｄ４－３ 课时17：P17. Ｌ１３－Ｄ４－４ 课时18：P18. D5 - A9主框架的搭建 课时19：P19. D6 - boa服务器的移植 课时20：P20. Ｌ１３－Ｄ６－２ 课时21：P21. D7 - CGI的移植与HTML的通信 课时22：P22. Ｌ１３－Ｄ７－２ 课时23：P23. Ｌ１３－Ｄ７－３ 课时24：P24. D8 - 从网页上控制A9的LED灯 课时25：P25. Ｌ１３－Ｄ８－２ 课时26：P26. D9 - HTML框架浅析及模拟环境信息刷新到网页 课时27：P27. Ｌ１３－Ｄ９－２ 课时28：P28. Ｌ１３－Ｄ９－３ 课时29：P29. Ｌ１３－Ｄ９－４ 课时30：P30. Ｌ１３－Ｄ１０－１ 课时31：P31. Ｌ１３－Ｄ１１－１ 课时32：P32. Ｌ１３－Ｄ１１－２ 课时33：P33. Ｌ１３－Ｄ１１－３ 课时34：P34. Ｌ１３－Ｄ１２－１ 课时35：P35. Ｌ１３－Ｄ１２－２ 课时36：P36. Ｌ１３－Ｄ１３－１ 课时37：P37. Ｌ１３－Ｄ１４－１ 课时38：P38. Ｌ１３－Ｄ１４－２ 课时39：P39. Ｌ１３－Ｄ１４－３ 课时40：P40. Ｌ１３－Ｄ１５－１

解释什么是卡尔曼滤波器并如何使用它...

课时1：The Kalman Filter (1 of 55) What is a Kalman Filter 课时2：The Kalman Filter (2 of 55) Flowchart of a Simple Example (Single Measured Value) 课时3：The Kalman Filter (3 of 55) The Kalman Gain- A Closer Look 课时4：The Kalman Filter (4 of 55) The 3 Calculations of the Kalman Filter 课时5：The Kalman Filter (5 of 55) A Simple Example of the Kalman Filter 课时6：The Kalman Filter (6 of 55) A Simple Example of the Kalman Filter (Continued) 课时7：The Kalman Filter (7 of 55) The Multi-Dimension Model 1 课时8：The Kalman Filter (8 of 55) The Multi-Dimension Model 2-The State Matrix 课时9：The Kalman Filter (9 of 55) The Multi-Dimension Model 3- The State Matrix 课时10：The Kalman Filter (10 of 55) 4- The Control Variable Matrix 课时11：The Kalman Filter (11 of 55) 5- Find the State Matrix of a Falling Object 课时12：The Kalman Filter (12 of 55) 6- Update the State Matrix 课时13：The Kalman Filter (13 of 55) 7- State Matrix of Moving Object in 2-D 课时14：The Kalman Filter (14 of 55) 8- What is the Control Variable Matrix 课时15：The Kalman Filter (15 of 55) 9- Converting from Previous to Current State 2-D 课时16：The Kalman Filter (16 of 55) 10- Converting from Previous to Current State 3-D 课时17：The Kalman Filter (17 of 55) 11- Numerical Ex. of Finding the State Matrix 1-D 课时18：The Kalman Filter (18 of 55) What is a Covariance Matrix 课时19：The Kalman Filter (19 of 55) What is a Variance-Covariance Matrix 课时20：The Kalman Filter (20 of 55) Example of Covariance Matrix and Standard Deviation 课时21：The Kalman Filter (21 of 55) Finding the Covariance Matrix, Numerical Ex. 1 课时22：The Kalman Filter (22 of 55) Finding the Covariance Matrix, Numerical Ex. 2 课时23：The Kalman Filter (23 of 55) Finding the Covariance Matrix, Numerical Example 课时24：The Kalman Filter (24 of 55) Finding the State Covariance Matrix- P= 课时25：The Kalman Filter (25 of 55) Explaining the State Covariance Matrix 课时26：The Kalman Filter (26 of 55) Flow Chart of 2-D Kalman Filter - Tracking Airplane 课时27：The Kalman Filter (27 of 55) 1. The Predicted State - Tracking Airplane 课时28：The Kalman Filter (28 of 55) 2. Initial Process Covariance - Tracking Airplane 课时29：The Kalman Filter (29 of 55) 3. Predicted Process Covariance - Tracking Airplane 课时30：The Kalman Filter (30 of 55) 4. Calculate the Kalman Gain - Tracking Airplane 课时31：The Kalman Filter (31 of 55) 5. The New Observation - Tracking Airplane 课时32：The Kalman Filter (32 of 55) 6. Calculate Current State - Tracking Airplane 课时33：The Kalman Filter (33 of 55) 7. Update Process Covariance - Tracking Airplane 课时34：The Kalman Filter (34 of 55) 8. Current Becomes Previous - Tracking Airplane 课时35：The Kalman Filter (35 of 55) 1, 2, 3 of Second Iteration - Tracking Airplane 课时36：The Kalman Filter (36 of 55) 4. Kalman Gain Second Iteration - Tracking Airplane 课时37：The Kalman Filter (37 of 55) 5, 6 of Second Iteration - Tracking Airplane 课时38：The Kalman Filter (38 of 55) 7, 8 of Second Iteration - Tracking Airplane 课时39：The Kalman Filter (39 of 55) Part 1 of Third Iteration - Tracking Airplane 课时40：The Kalman Filter (40 of 55) Part 2 of Third Iteration - Tracking Airplane 课时41：The Kalman Filter (41 of 55) Graphing 1st 3 Iterations (t vs x) - Tracking Airplane 课时42：The Kalman Filter (42 of 55) Graphing 1st 3 Iterations (t vs v) - Tracking Airpl

Identification of the operating frequency of the X-NUCLEO-IDS01Ax (x=4 or 5) is performed through two...

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课时1：TI DLP® 技术与市场简介 课时2：1 - 全新 TI DLP® 3D扫描打印光控制应用 及 3D 曝光应用 课时3：2 - TI DLP® 3D 扫描应用介绍 课时4：3 - TI DLP® 3D 打印应用介绍 课时5：4 - TI DLP® 数字曝光系统 (1) 课时6：5 - TI DLP® 数字曝光系统 (2) 课时7：6 - TI DLP® 数字曝光系统 (3)

不出意外的话，这就是3D Touch所带来的副作用了。除了排线精简和布局有些许不同之外，iPhone 6s的屏幕面板和iPhone 6还是很像的。...

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课程简介 两年半时间，全球销售近350万台的硬魅力！自造神器Raspberry Pi能做的，绝对远比您想像的还多！2012年诞生的Raspberry Pi(树莓派)，绝对有资格在计算机发展史写下一页辉煌记录，可说是当今最令人惊艳的低成本规模计算机。晋升Raspberry Pi自造达人不能错过...

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Atmel于2014年度德国慕尼黑国际电子展上，展出Atmel最新的高性能，附加视频功能，基于ARM Cortex-A5的微处理器，SAM A5D4产品。...

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一般而言，我们将小号（5-9）的LED 串联起来，使用一个电源将线电压转换为低电压（通常为数十伏），这时的电流约为 350 到 700mA。...

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to #1, no master-slave operation;  3) minimum interconnect;  4) no adverse impact on efficiency;  5)...

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