solid Physics electronics
标签: electronics Physics solid
上传时间: 2017-07-22
上传用户:daoxiang126
modelling-Physics whit labview
标签: modelling-Physics labview whit
上传时间: 2014-11-23
上传用户:13188549192
its a program in word but C++ how to program projectile (Physics) in C++
标签: program projectile Physics in
上传时间: 2017-08-16
上传用户:gtf1207
'Physics Toy(物理玩具)是zh1110设计的一款2D物理模拟软件,仿制了真实环境物体的各种连接与碰撞效果 应用介绍: 少年智力开发,学校物理课程指导,各种机构运动的研究 基于冲量的刚体铰链与碰撞,销限制铰接计算出链、摆、小车等模型,通过与扭簧配合模拟出玩具木马模型 仿真真实世界物理状态,建立了可用户控制的功能,达成了如同儿童玩具房的环境
标签: Physics Toy 2D物理模拟 VB
上传时间: 2015-05-22
上传用户:ynitqi
·JOHN DANIEL KRAUS: 94 DIED 18 July 2004 MEMBER GRADE Life Fellow EDUCATION Bachelors, masters, and doctorate-all in Physics from the University of Michigan, Ann Arbor, USA FIELDS OF INTEREST Electroma
标签: nbsp Applications Antennas Edition
上传时间: 2013-07-29
上传用户:ukuk
This unique guide to designing digital VLSI circuits takes a top-down approach, reflecting the natureof the design process in industry. Starting with architecture design, the book explains the why andhow of digital design, using the Physics that designers need to know, and no more.Covering system and component aspects, design verification, VHDL modelling, clocking, signalintegrity, layout, electricaloverstress, field-programmable logic, economic issues, and more, thescope of the book is singularly comprehensive.
标签: Integrated Digital Circuit Design
上传时间: 2013-11-04
上传用户:life840315
模拟集成电路的设计与其说是一门技术,还不如说是一门艺术。它比数字集成电路设计需要更严格的分析和更丰富的直觉。严谨坚实的理论无疑是严格分析能力的基石,而设计者的实践经验无疑是诞生丰富直觉的源泉。这也正足初学者对学习模拟集成电路设计感到困惑并难以驾驭的根本原因。.美国加州大学洛杉机分校(UCLA)Razavi教授凭借着他在美国多所著名大学执教多年的丰富教学经验和在世界知名顶级公司(AT&T,Bell Lab,HP)卓著的研究经历为我们提供了这本优秀的教材。本书自2000午出版以来得到了国内外读者的好评和青睐,被许多国际知名大学选为教科书。同时,由于原著者在世界知名顶级公司的丰富研究经历,使本书也非常适合作为CMOS模拟集成电路设计或相关领域的研究人员和工程技术人员的参考书。... 本书介绍模拟CMOS集成电路的分析与设计。从直观和严密的角度阐述了各种模拟电路的基本原理和概念,同时还阐述了在SOC中模拟电路设计遇到的新问题及电路技术的新发展。本书由浅入深,理论与实际结合,提供了大量现代工业中的设计实例。全书共18章。前10章介绍各种基本模块和运放及其频率响应和噪声。第11章至第13章介绍带隙基准、开关电容电路以及电路的非线性和失配的影响,第14、15章介绍振荡器和锁相环。第16章至18章介绍MOS器件的高阶效应及其模型、CMOS制造工艺和混合信号电路的版图与封装。 1 Introduction to Analog Design 2 Basic MOS Device Physics 3 Single-Stage Amplifiers 4 Differential Amplifiers 5 Passive and Active Current Mirrors 6 Frequency Response of Amplifiers 7 Noise 8 Feedback 9 Operational Amplifiers 10 Stability and Frequency Compensation 11 Bandgap References 12 Introduction to Switched-Capacitor Circuits 13 Nonlinearity and Mismatch 14 Oscillators 15 Phase-Locked Loops 16 Short-Channel Effects and Device Models 17 CMOS Processing Technology 18 Layout and Packaging
上传时间: 2014-12-23
上传用户:杜莹12345
Abstract: Engineers often wish that radio susceptibility (RS) or radio immunity could be cured with an antibiotic, a vaccine, or someform of cure-all. Unfortunately, solving the RS problem is not that easy. Indeed, the laws of Physics apply. In this article we discusssources of RS. We also offer tips and hints to protect systems, power supplies, printed circuit boards (PCBs), and electroniccomponents from radio frequency interference.
标签: Susceptibility Radio 无线电干扰
上传时间: 2014-12-30
上传用户:旗鱼旗鱼
It would not be an exaggeration to say that semiconductor devices have transformed humanlife. From computers to communications to internet and video games these devices and the technologies they have enabled have expanded human experience in a way that is unique in history. Semiconductor devices have exploited materials, Physics and imaginative applications to spawn new lifestyles. Of course for the device engineer, in spite of the advances, the challenges of reaching higher frequency, lower power consumption, higher power generation etc.
上传时间: 2013-10-28
上传用户:songnanhua
Applying power to a standard logic chip, SRAM, or EPROM, usually results in output pinstracking the applied voltage as it rises. Programmable logic attempts to emulate that behavior,but Physics forbids perfect emulation, due to the device programmability. It requires care tospecify the pin behavior, because programmable parts encounter unknown variables – yourdesign and your power environment.
上传时间: 2013-11-24
上传用户:253189838