资料介绍
The ADG1211/ADG1212/ADG1213 are monolithic complementary metal-oxide semiconductor (CMOS) devices containing four independently selectable switches designed on an iCMOS® (industrial CMOS) process. iCMOS is a modular manufacturing process combining high voltage CMOS and bipolar technologies. It enables the development of a wide range of high performance analog ICs capable of 33 V operation in a footprint that no previous generation of high voltage devices has been able to achieve. Unlike analog ICs using conventional CMOS processes, iCMOS components can tolerate high supply voltages while providing increased performance, dramatically lower power consumption, and reduced package size. The ultralow capacitance and charge injection of these switches make them ideal solutions for data acquisition and sample-andhold applications, where low glitch and fast settling are required. Fast switching speed coupled with high signal bandwidth make the devices suitable for video signal switching. iCMOS construction ensures ultralow power dissipation, making the devices ideally suited for portable and batterypowered instruments. The ADG1211/ADG1212/ADG1213 contain four independent single-pole/single-throw (SPST) switches. The ADG1211 and ADG1212 differ only in that the digital control logic is inverted. The ADG1211 switches are turned on with Logic 0 on the appropriate control input, while Logic 1 is required for the ADG1212. The ADG1213 has two switches with digital control logic similar to that of the ADG1211; the logic is inverted on the other two switches. The ADG1213 exhibits break-before-make switching action for use in multiplexer applications. Each switch conducts equally well in both directions when on and has an input signal range that extends to the supplies. In the off condition, signal levels up to the supplies are blocked.
下载该资料的人也在下载
下载该资料的人还在阅读
更多 >
- ADG1211 SPICE宏模型
- ADG1213 SPICE宏模型
- ADG611/ADG612/ADG613:1 PC电荷注入,100 pA漏电,CMOS,±5V/5V/3V,四路SPST开关数据表
- ADG741/ADG742:SC-70封装中的CMOS低压SPST开关数据表
- ADG1236:低电容,低电荷注入,±15 V/12 V<em>I</em>CMOS,双SPDT开关数据表
- ADG1202:SOT-23过时数据表中的低电容、低电荷注入、±15 V/+12 V iCMOS SPST
- ADG201S:高速四路SPST CMOS模拟开关航天数据表
- ADG1201:SOT-23数据表中的低电容、低电荷注入、±15 V/+12 V、iCMOS、SPST
- ADG1221/ADG1222/ADG1223:低电容、低电荷注入、±15 V/+12 V<i>CMOS®双SPST开关产品手册
- ADG1233/ADG1234:低电容,三路/四路SPDT±15 V/+12 V<em>I</em>CMOS开关数据表
- ADG1211/ADG1212/ADG1213:低电容、低电荷注入、±15 V/+12 V<em>I</em>CMOS;四路SPST开关数据表
- ADG1213 SPICE宏模型
- ADG1211 SPICE宏模型
- ADG1211_ADG1212_ADG1213 datasheet 5次下载
- ADG1211/ADG1212/ADG1213,pdf da
- 低边开关所需的最小开关电流容量探讨 199次阅读
- 低内阻超级电容在新能源领域的应用 228次阅读
- 介绍离子注入在电容极板和湿法腐蚀自停止技术上的应用 574次阅读
- 开关电容芯片的三种电压转换电路讲解 3569次阅读
- 用过压故障保护模拟开关代替分立保护元件 1031次阅读
- 如何构建一个低电阻表 2034次阅读
- 关于双SPST开关演示信号的无损切换 2325次阅读
- 基于ADI ADG5421F双路单刀单掷(SPST)低阻开关设计方案介绍 2516次阅读
- ADI模拟开关不一定能完全替代继电器 1w次阅读
- 精密四路SPST CMOS模拟开关 9529次阅读
- 常用CMOS模拟开关功能及引脚介绍 1.3w次阅读
- 节能型四通道低边智能电源开关的介绍 3172次阅读
- 盘点ADG9xx宽带CMOS开关解决方案 4080次阅读
- 影响LTE下载速率低的因素_LTE下载速率低原因分析 1.7w次阅读
- MAX4751,MAX4752,MAX4753低电压、单电源、四路SPST模拟开关 1w次阅读
下载排行
本周
- 1TC358743XBG评估板参考手册
- 1.36 MB | 330次下载 | 免费
- 2开关电源基础知识
- 5.73 MB | 6次下载 | 免费
- 3100W短波放大电路图
- 0.05 MB | 4次下载 | 3 积分
- 4嵌入式linux-聊天程序设计
- 0.60 MB | 3次下载 | 免费
- 5基于FPGA的光纤通信系统的设计与实现
- 0.61 MB | 2次下载 | 免费
- 651单片机窗帘控制器仿真程序
- 1.93 MB | 2次下载 | 免费
- 751单片机大棚环境控制器仿真程序
- 1.10 MB | 2次下载 | 免费
- 8基于51单片机的RGB调色灯程序仿真
- 0.86 MB | 2次下载 | 免费
本月
- 1OrCAD10.5下载OrCAD10.5中文版软件
- 0.00 MB | 234315次下载 | 免费
- 2555集成电路应用800例(新编版)
- 0.00 MB | 33564次下载 | 免费
- 3接口电路图大全
- 未知 | 30323次下载 | 免费
- 4开关电源设计实例指南
- 未知 | 21549次下载 | 免费
- 5电气工程师手册免费下载(新编第二版pdf电子书)
- 0.00 MB | 15349次下载 | 免费
- 6数字电路基础pdf(下载)
- 未知 | 13750次下载 | 免费
- 7电子制作实例集锦 下载
- 未知 | 8113次下载 | 免费
- 8《LED驱动电路设计》 温德尔著
- 0.00 MB | 6653次下载 | 免费
总榜
- 1matlab软件下载入口
- 未知 | 935054次下载 | 免费
- 2protel99se软件下载(可英文版转中文版)
- 78.1 MB | 537796次下载 | 免费
- 3MATLAB 7.1 下载 (含软件介绍)
- 未知 | 420026次下载 | 免费
- 4OrCAD10.5下载OrCAD10.5中文版软件
- 0.00 MB | 234315次下载 | 免费
- 5Altium DXP2002下载入口
- 未知 | 233046次下载 | 免费
- 6电路仿真软件multisim 10.0免费下载
- 340992 | 191185次下载 | 免费
- 7十天学会AVR单片机与C语言视频教程 下载
- 158M | 183279次下载 | 免费
- 8proe5.0野火版下载(中文版免费下载)
- 未知 | 138040次下载 | 免费
评论
查看更多