Junction
共 18 篇文章
Junction 相关的电子技术资料,包括技术文档、应用笔记、电路设计、代码示例等,共 18 篇文章,持续更新中。
热电路温度计算公式的说明并以OPA512为例介绍TO-3封装器件在两种不同应用下的节点温度值
A critical issue with all semiconductor devices is junction temperature (TJ). TJ must be kept below
Cyclone系列器件的热阻
Tables 1 through 6 in this data sheet provide θJA (junction-to-ambient<BR>thermal resistance) and θJ
AD594/AD595Monolithic Thermocouple Amplifierswith Cold Junction Compensation
<P>AD594/AD595Monolithic Thermocouple Amplifierswith Cold Junction Compensation</P>
<P>FEATURES<BR>
AMOLEDS High Power LED Lighting Application
<P>TCE (Thermal Coefficient of Expansion)<BR>• TCE mismatch causes most defects in Junction ar
5A/200V JBS整流管的设计
<p>结势垒控制肖特基整流管(Junction-Barrier-controlled Schottky Rectifier缩写JBS)是一种新型的肖特基整流管,它集肖特基整流管和p-n结势垒的优点于一身,可制成大电流、高反压、开关速度快、抗浪涌电流强的功率整流管。</p><p>本论文的主要工作是设计正向电流为5-10A,反向击穿电压为200V、300V、400V的系列JBS整流器。论文在分析了JB
Junction temperaturet of IGBT module
该文档介绍了 Junction temperature management of IGBT module,不错的参考文档
二极管参数翻译(中英互译)
<p>此文档包含了基础的二极管参数英文名称及其中文翻译。</p><p style="margin-bottom:5px;line-height:18px">Cj</p><p style="margin-bottom:5px;line-height:18px">Junction Capacitance 结电容</p><p style="margin-bottom:5px;line-heig
实用模拟电路设计 (Marc T. Thompson)
<p>本书是 Marc Thompson 博士 20 年模拟电路设计和教学经验的总结,讲述了模拟电路与系统设计中常用的直观分析方法。本书提出了“模拟电路直观方法学”,力图帮助学生和设计人员摆脱复杂的理论推导与计算,充分利用直观知识来应对模拟电路工程设计挑战。全书共分为 16 章,内容涵盖了二极管、晶体管、放大器、滤波器、反馈系统等模拟电路的基本知识与设计方法。</p><p><br/></p><p>
音频放大器设计
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This design uses Common-Emitter Amplifier (Class A) with 2N3904 Bipolar Junction Transistor.<span style="display:none;" id="__kindeditor_bookmark_start_6__"></span>
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AZ1117H
The AZ1117 is a series of low dropout three-terminal regulators with a dropout of 1.15V at 1A output current.<br />
The AZ1117 series provides current limiting and thermal shutdown. Its circuit includ
Describe diference car junction.
Describe diference car junction.
场效应管产品指南
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The super-junction structure, which has P-type pillar layers as shown left,<br />
realizes high withstand voltage and ON-resistance lower than the conventional<br />
theoretical limit of silico
COOLMOS_原理结构
看到不少网友对COOLMOS感兴趣,把自己收集整理的资料、个人理解发出来,与大家共享。个人理解不一定完全正确,仅供参考。COOLMOS(super junction)原理,与普通VDMOS的差异如下:<br />
对于常规VDMOS器件结构,大家都知道Rdson与BV这一对矛盾关系,要想提高BV,都是从减小EPI参杂浓度着手,但是外延层又是正向电流流通的通道,EPI参杂浓度减小了,电阻必然变大,R
多远程二极管温度传感器 (Design Considerat
<P>多远程二极管温度传感器-Design Considerations for pc thermal management</P>
<P>Multiple RDTS (remote diode temperature sensing) provides the most accurate method of sensing an IC’s junction temperature. It ove
These Matlab files are a convenient interface for the Java library containing the implementation of
These Matlab files are a convenient interface for the Java library
containing the implementation of thin junction tree filters (TJTF).
摘要:本文基于Matlab对约瑟夫森结(Josephson Junction)RCSJ模型的交直流I-V特性及非线性混沌现象进行数值模拟。通过计算机数值模拟得到该模型的非线性微分方程数值解
摘要:本文基于Matlab对约瑟夫森结(Josephson Junction)RCSJ模型的交直流I-V特性及非线性混沌现象进行数值模拟。通过计算机数值模拟得到该模型的非线性微分方程数值解,研究了RCSJ模型中各参量对约瑟夫森结的影响,进而简要分析其I-V特性和非线性混沌现象的产生机理,绘制出约瑟夫森结的交直流I-V特性曲线、非线性微分方程的相图及因其高度非线性而引起的通过倍周期分岔和阵发性原理进
基于Matlab对约瑟夫森结(Josephson Junction)RCSJ模型的交直流I-V特性及非线性混沌现象进行数值模拟。通过计算机数值模拟得到该模型的非线性微分方程数值解
基于Matlab对约瑟夫森结(Josephson Junction)RCSJ模型的交直流I-V特性及非线性混沌现象进行数值模拟。通过计算机数值模拟得到该模型的非线性微分方程数值解,研究了RCSJ模型中各参量对约瑟夫森结的影响,进而简要分析其I-V特性和非线性混沌现象的产生机理,绘制出约瑟夫森结的交直流I-V特性曲线、非线性微分方程的相图及因其高度非线性而引起的通过倍周期分岔和阵发性原理进入混沌状态
IC封装热计算研究
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Many thermal metrics exist for integrated circuit (IC) packages ranging from θja to Ψjt.Often, these thermal metrics are misapplied by customers who try to use them to estimate junction