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  • 北京元坤伟业科技有限公司

         该会员已使用本站17年以上

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  • 010-62104931、62106431、62104891、62104791 QQ:857273081QQ:1594462451
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  • 深圳市羿芯诚电子有限公司

     该会员已使用本站7年以上
  • AD8031ARTZ-REEL7 现货库存
  • 数量3000 
  • 厂家ADI/亚德诺 
  • 封装SOT-23 
  • 批号21+ 
  • 羿芯诚只做原装 原厂渠道 价格优势
  • QQ:2881498351QQ:2881498351 复制
  • 0755-22968581 QQ:2881498351
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  • 深圳市羿芯诚电子有限公司

     该会员已使用本站7年以上
  • AD8031ARTZ-REEL7 现货库存
  • 数量8500 
  • 厂家ADI(亚德诺)/LINEAR 
  • 封装SOT-23-5 
  • 批号新年份 
  • 羿芯诚只做原装,原厂渠道,价格优势可谈!
  • QQ:2853992132QQ:2853992132 复制
  • 0755-82570683 QQ:2853992132
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  • 深圳市西源信息科技有限公司

     该会员已使用本站9年以上
  • AD8031ARTZ-REEL7 现货库存
  • 数量8800 
  • 厂家ADI 
  • 封装SOT23-5 
  • 批号最新批号 
  • 原装现货零成本有接受价格就出
  • QQ:3533288158QQ:3533288158 复制
    QQ:408391813QQ:408391813 复制
  • 0755-84876394 QQ:3533288158QQ:408391813
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  • 深圳市雅维特电子有限公司

     该会员已使用本站15年以上
  • AD8031ARTZ-REEL7 现货库存
  • 数量8000 
  • 厂家AD 
  • 封装SOT23-5 
  • 批号23+ 
  • 原厂原装
  • QQ:767621813QQ:767621813 复制
    QQ:1152937841QQ:1152937841 复制
  • 0755-83975781 QQ:767621813QQ:1152937841
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  • 深圳市富科达科技有限公司

     该会员已使用本站13年以上
  • AD8031ARTZ-REEL7 现货库存
  • 数量38500 
  • 厂家ADI 
  • 封装SOT23-5 
  • 批号22+ 
  • 全新进口原装
  • QQ:1327510916QQ:1327510916 复制
    QQ:1220223788QQ:1220223788 复制
  • 0755-28767101 QQ:1327510916QQ:1220223788
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  • 深圳市芯脉实业有限公司

     该会员已使用本站11年以上
  • AD8031ARTZ-REEL7 现货库存
  • 数量34000 
  • 厂家ADI 
  • 封装SOT23-5 
  • 批号新年份 
  • 新到现货、一手货源、当天发货、bom配单
  • QQ:1435424310QQ:1435424310 复制
  • 0755-84507451 QQ:1435424310
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  • 深圳市勤思达科技有限公司

     该会员已使用本站14年以上
  • AD8031ARTZ-REEL7 现货库存
  • 数量30000 
  • 厂家ADI/亚德诺 
  • 封装SOT23-5 
  • 批号2021+ 
  • ▉十二年专注▉ 100%全新原装正品 正规渠道订货 长期现货供应
  • QQ:2881910282QQ:2881910282 复制
    QQ:2881239443QQ:2881239443 复制
  • 0755-83268779 QQ:2881910282QQ:2881239443
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  • 深圳市恒嘉威智能科技有限公司

     该会员已使用本站7年以上
  • AD8031ARTZ-REEL7 优势库存
  • 数量14324 
  • 厂家ADHOA 
  • 封装SOT23-5 
  • 批号21+ 
  • 原装恒嘉威价格最实在
  • QQ:1036846627QQ:1036846627 复制
    QQ:2274045202QQ:2274045202 复制
  • -0755-23942980 QQ:1036846627QQ:2274045202
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  • 深圳市勤思达科技有限公司

     该会员已使用本站14年以上
  • AD8031ARTZ-REEL7 优势库存
  • 数量35000 
  • 厂家ADI/亚德诺 
  • 封装SOT23-5 
  • 批号2021+ 
  • ▉十二年专注▉? 100%全新原装正品 正规渠道订货 长期现货供应
  • QQ:2881910282QQ:2881910282 复制
    QQ:2881239443QQ:2881239443 复制
  • 0755-83268779 QQ:2881910282QQ:2881239443
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  • 深圳市富科达科技有限公司

     该会员已使用本站13年以上
  • AD8031ARTZ-REEL7 热卖库存
  • 数量38500 
  • 厂家ADI 
  • 封装SOT23-5 
  • 批号22+ 
  • 全新进口原装
  • QQ:1327510916QQ:1327510916 复制
    QQ:1220223788QQ:1220223788 复制
  • 0755-28767101 QQ:1327510916QQ:1220223788
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  • 深圳市拓森弘电子有限公司

     该会员已使用本站1年以上
  • AD8031ARTZ-REEL7
  • 数量5300 
  • 厂家ADI(亚德诺) 
  • 封装SOT-23-5 
  • 批号21+ 
  • 全新原装正品,库存现货实报
  • QQ:1300774727QQ:1300774727 复制
  • 13714410484 QQ:1300774727
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  • 深圳市芯福林电子有限公司

     该会员已使用本站15年以上
  • AD8031ARTZ-REEL7
  • 数量65000 
  • 厂家ADI 
  • 封装SOT-5 
  • 批号23+ 
  • 真实库存全新原装正品!代理此型号
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  • 0755-23605827 QQ:2881495753
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  • 深圳市芯福林电子有限公司

     该会员已使用本站15年以上
  • AD8031ARTZ-REEL7
  • 数量98500 
  • 厂家AD 
  • 封装SOT23-5 
  • 批号23+ 
  • 真实库存全新原装正品!代理此型号
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  • 0755-88917743 QQ:2881495751
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  • 深圳市宏捷佳电子科技有限公司

     该会员已使用本站12年以上
  • AD8031ARTZ-REEL7
  • 数量82000 
  • 厂家ADI 
  • 封装SOT23-5 
  • 批号2023+ 
  • 原装原包现货支持实单
  • QQ:2885134554QQ:2885134554 复制
    QQ:2885134398QQ:2885134398 复制
  • 0755-22669259 QQ:2885134554QQ:2885134398
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  • 深圳市恒达亿科技有限公司

     该会员已使用本站12年以上
  • AD8031ARTZ-REEL7
  • 数量4500 
  • 厂家AD 
  • 封装SOT23-5 
  • 批号23+ 
  • 全新原装正品现货
  • QQ:867789136QQ:867789136 复制
    QQ:1245773710QQ:1245773710 复制
  • 0755-82772189 QQ:867789136QQ:1245773710
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  • 深圳市能元时代电子有限公司

     该会员已使用本站10年以上
  • AD8031ARTZ-REEL7
  • 数量50000 
  • 厂家ADI/亚德诺 
  • 封装SOT-23 
  • 批号24+ 
  • 主营品牌百分百原装正品公司现货特价支持!
  • QQ:2885637848QQ:2885637848 复制
    QQ:2885658492QQ:2885658492 复制
  • 0755-84502810 QQ:2885637848QQ:2885658492
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  • 深圳市晶美隆科技有限公司

     该会员已使用本站15年以上
  • AD8031ARTZ-REEL7
  • 数量85000 
  • 厂家ADI/亚德诺 
  • 封装TSOT23-5 
  • 批号24+ 
  • 假一罚十,原装进口正品现货供应,价格优势。
  • QQ:198857245QQ:198857245 复制
  • 0755-82865294 QQ:198857245
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  • 深圳市得捷芯城科技有限公司

     该会员已使用本站11年以上
  • AD8031ARTZ-REEL7
  • 数量380 
  • 厂家ADI/亚德诺 
  • 封装NA/ 
  • 批号23+ 
  • 优势代理渠道,原装正品,可全系列订货开增值税票
  • QQ:3007977934QQ:3007977934 复制
    QQ:3007947087QQ:3007947087 复制
  • 0755-82546830 QQ:3007977934QQ:3007947087
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  • 集好芯城

     该会员已使用本站13年以上
  • AD8031ARTZ-REEL7
  • 数量17418 
  • 厂家ADI/亚德诺 
  • 封装SOT23-5 
  • 批号最新批次 
  • 原装原厂 现货现卖
  • QQ:3008092965QQ:3008092965 复制
    QQ:3008092965QQ:3008092965 复制
  • 0755-83239307 QQ:3008092965QQ:3008092965
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  • 首天国际(深圳)科技有限公司

     该会员已使用本站16年以上
  • AD8031ARTZ-REEL7
  • 数量10000 
  • 厂家AD 
  • 封装SOT23-5 
  • 批号2024+ 
  • 百分百原装正品,现货库存
  • QQ:528164397QQ:528164397 复制
    QQ:1318502189QQ:1318502189 复制
  • 0755-82807802 QQ:528164397QQ:1318502189
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  • 深圳市得捷芯城科技有限公司

     该会员已使用本站11年以上
  • AD8031ARTZ-REEL7
  • 数量53508 
  • 厂家ADI(亚德诺) 
  • 封装SOT23-5 
  • 批号23+ 
  • 原厂可订货,技术支持,直接渠道。可签保供合同
  • QQ:3007947087QQ:3007947087 复制
    QQ:3007947087QQ:3007947087 复制
  • 0755-83061789 QQ:3007947087QQ:3007947087
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  • 深圳市羿芯诚电子有限公司

     该会员已使用本站7年以上
  • AD8031ARTZ-REEL7
  • 数量5000 
  • 厂家ADI/亚德诺 
  • 封装SOT-23 
  • 批号21+ 
  • 羿芯诚只做原装 原厂渠道 价格优势
  • QQ:2881498351QQ:2881498351 复制
  • 0755-22968581 QQ:2881498351
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  • 绿盛电子(香港)有限公司

     该会员已使用本站12年以上
  • AD8031ARTZ-REEL7
  • 数量2015 
  • 厂家ADI 
  • 封装SOP/DIP 
  • 批号18998 
  • ★一级代理AD原装现货,特价热卖!★
  • QQ:2752732883QQ:2752732883 复制
    QQ:240616963QQ:240616963 复制
  • 0755-25165869 QQ:2752732883QQ:240616963
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  • 深圳市恒达亿科技有限公司

     该会员已使用本站16年以上
  • AD8031ARTZ-REEL7
  • 数量3500 
  • 厂家AD 
  • 封装SOT-23-5 
  • 批号23+ 
  • 全新原装现货特价销售!
  • QQ:867789136QQ:867789136 复制
    QQ:1245773710QQ:1245773710 复制
  • 0755-82723761 QQ:867789136QQ:1245773710
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  • 首天国际(深圳)集团有限公司

     该会员已使用本站17年以上
  • AD8031ARTZ-REEL7
  • 数量10000 
  • 厂家AD 
  • 封装SOT23-5 
  • 批号2024+ 
  • 百分百原装正品,现货库存
  • QQ:528164397QQ:528164397 复制
    QQ:1318502189QQ:1318502189 复制
  • 0755-82807088 QQ:528164397QQ:1318502189
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  • 深圳市羿芯诚电子有限公司

     该会员已使用本站7年以上
  • AD8031ARTZ-REEL7
  • 数量8500 
  • 厂家ADI(亚德诺)/LINEAR 
  • 封装SOT-23-5 
  • 批号新年份 
  • 羿芯诚只做原装,原厂渠道,价格优势可谈!
  • QQ:2853992132QQ:2853992132 复制
  • 0755-82570683 QQ:2853992132
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  • 深圳市华斯顿电子科技有限公司

     该会员已使用本站16年以上
  • AD8031ARTZ-REEL7
  • 数量12500 
  • 厂家ADI/亚德诺 
  • 封装SOT23-5 
  • 批号2023+ 
  • 绝对原装正品全新深圳进口现货,优质渠道供应商!
  • QQ:1002316308QQ:1002316308 复制
    QQ:515102657QQ:515102657 复制
  • 美驻深办0755-83777708“进口原装正品专供” QQ:1002316308QQ:515102657
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  • 北京首天国际有限公司

     该会员已使用本站16年以上
  • AD8031ARTZ-REEL71
  • 数量14860 
  • 厂家ADI 
  • 封装 
  • 批号2024+ 
  • 百分百原装正品,现货库存
  • QQ:528164397QQ:528164397 复制
    QQ:1318502189QQ:1318502189 复制
  • 010-62565447 QQ:528164397QQ:1318502189
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  • 深圳市芯达科技有限公司

     该会员已使用本站9年以上
  • AD8031ARTZ-REEL7
  • 数量18700 
  • 厂家ADI 
  • 封装ADI一级代理商绝对进口原装假一赔十 
  • 批号2019+ 
  • QQ:2685694974QQ:2685694974 复制
    QQ:2593109009QQ:2593109009 复制
  • 0755-83978748,0755-23611964,13760152475 QQ:2685694974QQ:2593109009
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  • 深圳市硅诺电子科技有限公司

     该会员已使用本站8年以上
  • AD8031ARTZ-REEL7
  • 数量49041 
  • 厂家AD 
  • 封装SOT23-5 
  • 批号17+ 
  • 原厂指定分销商,有意请来电或QQ洽谈
  • QQ:1091796029QQ:1091796029 复制
    QQ:916896414QQ:916896414 复制
  • 0755-82772151 QQ:1091796029QQ:916896414
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  • 深圳市欧瑞芯科技有限公司

     该会员已使用本站11年以上
  • AD8031ARTZ-REEL7
  • 数量10000 
  • 厂家ADI(亚德诺) 
  • 封装SC-74A,SOT-753 
  • 批号24+ 
  • 绝对原装正品,可开专票,欢迎采购!!!
  • QQ:3354557638QQ:3354557638 复制
    QQ:3354557638QQ:3354557638 复制
  • 18565729389 QQ:3354557638QQ:3354557638
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  • 深圳市科庆电子有限公司

     该会员已使用本站16年以上
  • AD8031ARTZ-REEL7
  • 数量405 
  • 厂家AD 
  • 封装SOT23-5 
  • 批号23+ 
  • 只做进口原装/到货/可含13%税
  • QQ:2850188252QQ:2850188252 复制
    QQ:2850188256QQ:2850188256 复制
  • 0755 QQ:2850188252QQ:2850188256
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  • 万三科技(深圳)有限公司

     该会员已使用本站2年以上
  • AD8031ARTZ-REEL7
  • 数量660000 
  • 厂家ADI(亚德诺)/LINEAR(凌特) 
  • 封装SOT-23-5 
  • 批号23+ 
  • 支持实单/只做原装
  • QQ:3008961398QQ:3008961398 复制
  • 0755-21006672 QQ:3008961398
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  • 深圳市晶美隆科技有限公司

     该会员已使用本站14年以上
  • AD8031ARTZ-REEL7
  • 数量15862 
  • 厂家AD/AD 
  • 封装SOT23-.. 
  • 批号23+ 
  • 全新原装正品现货热卖
  • QQ:2885348339QQ:2885348339 复制
    QQ:2885348317QQ:2885348317 复制
  • 0755-82519391 QQ:2885348339QQ:2885348317
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  • 深圳市宏捷佳电子科技有限公司

     该会员已使用本站12年以上
  • AD8031ARTz-REEL7
  • 数量12300 
  • 厂家ADI/亚德诺 
  • 封装SOT-23 
  • 批号24+ 
  • ★原装真实库存★13点税!
  • QQ:2353549508QQ:2353549508 复制
    QQ:2885134615QQ:2885134615 复制
  • 0755-83201583 QQ:2353549508QQ:2885134615
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  • 深圳市宏世佳电子科技有限公司

     该会员已使用本站13年以上
  • AD8031ARTZ-REEL7
  • 数量3665 
  • 厂家ADI 
  • 封装SOT23-5 
  • 批号2023+ 
  • 全新原厂原装产品、公司现货销售
  • QQ:2881894392QQ:2881894392 复制
    QQ:2881894393QQ:2881894393 复制
  • 0755- QQ:2881894392QQ:2881894393
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  • 深圳市福田区恒科电子商行

     该会员已使用本站2年以上
  • AD8031ARTZ-REEL7
  • 数量36287 
  • 厂家ADI/亚德诺 
  • 封装SOT-153 
  • 批号23+ 
  • 原装现货实单可谈样品可出
  • QQ:2885433641QQ:2885433641 复制
    QQ:360990916QQ:360990916 复制
  • -0755-83981760 QQ:2885433641QQ:360990916
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  • 深圳市美思瑞电子科技有限公司

     该会员已使用本站12年以上
  • AD8031ARTZ-REEL7
  • 数量12245 
  • 厂家ADI/亚德诺 
  • 封装SOT23-5 
  • 批号22+ 
  • 现货,原厂原装假一罚十!
  • QQ:2885659458QQ:2885659458 复制
    QQ:2885657384QQ:2885657384 复制
  • 0755-83952260 QQ:2885659458QQ:2885657384
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  • 深圳市正信鑫科技有限公司

     该会员已使用本站12年以上
  • AD8031ARTZ-REEL7
  • 数量37523 
  • 厂家AD 
  • 封装原厂封装 
  • 批号22+ 
  • 原装正品★真实库存★价格优势★欢迎来电洽谈
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产品型号AD8031ARTZ-REEL7的概述

芯片AD8031ARTZ-REEL7概述 AD8031ARTZ-REEL7是一款高性能的单通道运算放大器,属于Analog Devices公司的AD8031系列。该系列运算放大器以其卓越的速度、低功耗和高线性度而受到广泛应用。AD8031的设计目标是提供优异的动态性能,适合高速信号处理、图像处理以及通信系统等领域。它的宽频带、低失真特性使其成为多种应用理想的选择。 芯片AD8031ARTZ-REEL7的详细参数 AD8031ARTZ-REEL7的主要技术参数包括以下几个方面: 1. 电源电压范围:±2.5V至±5V或单电源5V至10V。 2. 增益带宽积:46MHz。 3. 单位增益稳定性:该运算放大器在单位增益配置时能够提供高达46MHz的增益带宽积,确保其在高频应用中的出色表现。 4. 输入失调电压:最大值为0.5mV,确保输出信号的高精度。 5. 输入偏置电流:最大值为20nA,...

产品型号AD8031ARTZ-REEL7的Datasheet PDF文件预览

2.7 V, 800 μA, 80 MHz  
Rail-to-Rail I/O Amplifiers  
AD8031/AD8032  
FEATURES  
CONNECTION DIAGRAMS  
Low power  
AD8032  
NC  
–IN  
+IN  
1
2
3
4
8
7
6
5
NC  
+V  
OUT1  
–IN1  
1
2
3
4
8
7
6
5
+V  
S
+
Supply current 800 μA/amplifier  
Fully specified at +2.7 V, +5 V, and 5 V supplies  
High speed and fast settling on 5 V  
80 MHz, −3 dB bandwidth (G = +1)  
30 V/μs slew rate  
OUT2  
–IN2  
+IN2  
S
+ –  
+ –  
OUT  
NC  
+IN1  
–V  
S
AD8031  
–V  
S
NC = NO CONNECT  
Figure 1. 8-Lead PDIP (N) and  
SOIC_N (R)  
Figure 2. 8-Lead PDIP (N),  
SOIC_N (R), and MSOP (RM)  
125 ns settling time to 0.1%  
AD8031  
Rail-to-rail input and output  
V
1
2
3
5
+V  
S
OUT  
No phase reversal with input 0.5 V beyond supplies  
Input CMVR extends beyond rails by 200 mV  
Output swing to within 20 mV of either rail  
Low distortion  
–V  
S
+
+IN  
4
–IN  
Figure 3. 5-Lead SOT-23 (RJ-5)  
−62 dB @ 1 MHz, VO = 2 V p-p  
−86 dB @ 100 kHz, VO = 4.6 V p-p  
Output current: 15 mA  
High grade option: VOS (maximum) = 1.5 mV  
Operating on supplies from +2.7 V to +12 V and dual supplies  
up to 6 V, the AD8031/AD8032 are ideal for a wide range of  
applications, from battery-operated systems with large bandwidth  
requirements to high speed systems where component density  
requires lower power dissipation. The AD8031/AD8032 are  
available in 8-lead PDIP and 8-lead SOIC_N packages and  
operate over the industrial temperature range of −40°C to  
+85°C. The AD8031A is also available in the space-saving  
5-lead SOT-23 package, and the AD8032A is available in an  
8-lead MSOP package.  
APPLICATIONS  
High speed, battery-operated systems  
High component density systems  
Portable test instruments  
A/D buffers  
Active filters  
High speed, set-and-demand amplifiers  
V
= 4.85V p-p  
V
= 4.65V p-p  
IN  
OUT  
G = +1  
GENERAL DESCRIPTION  
The AD8031 (single) and AD8032 (dual) single-supply, voltage  
feedback amplifiers feature high speed performance with  
80 MHz of small signal bandwidth, 30 V/μs slew rate, and 125 ns  
settling time. This performance is possible while consuming less  
than 4.0 mW of power from a single 5 V supply. These features  
increase the operation time of high speed, battery-powered  
systems without compromising dynamic performance.  
2µs/DIV  
2µs/DIV  
Figure 4. Input VIN  
Figure 5. Output VOUT  
+5V  
The products have true single-supply capability with rail-to-rail  
input and output characteristics and are specified for +2.7 V, +5 V,  
and 5 V supplies. The input voltage range can extend to 500 mV  
beyond each rail. The output voltage swings to within 20 mV of  
each rail providing the maximum output dynamic range.  
+
V
OUT  
V
IN  
1k  
1.7pF  
+2.5V  
Figure 6. Rail-to-Rail Performance at 100 kHz  
The AD8031/AD8032 also offer excellent signal quality for only  
800 μA of supply current per amplifier; THD is −62 dBc with a  
2 V p-p, 1 MHz output signal, and –86 dBc for a 100 kHz,  
4.6 V p-p signal on +5 V supply. The low distortion and fast  
settling time make them ideal as buffers to single-supply ADCs.  
Rev. C  
Information furnished by Analog Devices is believed to be accurate and reliable. However, no  
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other  
rights of third parties that may result from its use. Specifications subject to change without notice. No  
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.  
Trademarks and registeredtrademarks arethe property of their respective owners.  
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.  
Tel: 781.329.4700  
Fax: 781.461.3113  
www.analog.com  
©2006 Analog Devices, Inc. All rights reserved.  
 
AD8031/AD8032  
TABLE OF CONTENTS  
Features .............................................................................................. 1  
Input Stage Operation................................................................ 13  
Overdriving the Input Stage...................................................... 13  
Applications....................................................................................... 1  
General Description......................................................................... 1  
Connection Diagrams...................................................................... 1  
Revision History ............................................................................... 2  
Specifications..................................................................................... 3  
+2.7 V Supply................................................................................ 3  
+5 V Supply................................................................................... 4  
5 V Supply................................................................................... 5  
Absolute Maximum Ratings............................................................ 6  
Maximum Power Dissipation ..................................................... 6  
ESD Caution.................................................................................. 6  
Typical Performance Characteristics ............................................. 7  
Theory of Operation ...................................................................... 13  
Output Stage, Open-Loop Gain and Distortion vs. Clearance  
from Power Supply..................................................................... 14  
Output Overdrive Recovery...................................................... 14  
Driving Capacitive Loads.......................................................... 15  
Applications..................................................................................... 16  
A 2 MHz Single-Supply, Biquad Band-Pass Filter ................. 16  
High Performance, Single-Supply Line Driver........................... 16  
Outline Dimensions....................................................................... 18  
Ordering Guide .......................................................................... 20  
REVISION HISTORY  
7/06—Rev. B to Rev. C  
Updated Format..................................................................Universal  
Updated Outline Dimensions....................................................... 18  
Change to Ordering Guide............................................................ 20  
9/99—Rev. A to Rev. B  
Rev. C | Page 2 of 20  
 
AD8031/AD8032  
SPECIFICATIONS  
+2.7 V SUPPLY  
@ TA = 25°C, VS = 2.7 V, RL = 1 kΩ to 1.35 V, RF = 2.5 kΩ, unless otherwise noted.  
Table 1.  
AD8031A/AD8032A  
AD8031B/AD8032B  
Parameter  
Conditions  
Min Typ  
Max  
Min Typ  
Max  
Unit  
DYNAMIC PERFORMANCE  
–3 dB Small Signal Bandwidth  
Slew Rate  
Settling Time to 0.1%  
DISTORTION/NOISE PERFORMANCE  
Total Harmonic Distortion  
G = +1, VO < 0.4 V p-p  
G = −1, VO = 2 V step  
G = −1, VO = 2 V step, CL = 10 pF  
54  
25  
80  
30  
125  
54  
25  
80  
30  
125  
MHz  
V/μs  
ns  
fC = 1 MHz, VO = 2 V p-p, G = +2  
fC = 100 kHz, VO = 2 V p-p, G = +2  
f = 1 kHz  
f = 100 kHz  
f = 1 kHz  
−62  
−86  
15  
2.4  
5
−62  
−86  
15  
2.4  
5
dBc  
dBc  
nV/√Hz  
pA/√Hz  
pA/√Hz  
dB  
Input Voltage Noise  
Input Current Noise  
Crosstalk (AD8032 Only)  
DC PERFORMANCE  
f = 5 MHz  
−60  
−60  
Input Offset Voltage  
VCM = VCC/2; VOUT = 135 V  
TMIN to TMAX  
VCM = VCC/2; VOUT = 135 V  
VCM = VCC/2; VOUT = 135 V  
TMIN to TMAX  
1
6
10  
0.45  
6
10  
0.5  
1.6  
10  
1.5  
2.5  
mV  
mV  
μV/°C  
μA  
μA  
nA  
Offset Drift  
Input Bias Current  
2
0.45  
2
2.2  
500  
2.2  
500  
Input Offset Current  
Open-Loop Gain  
50  
80  
50  
80  
VCM = VCC/2; VOUT = 0.35 V to 2.35 V  
TMIN to TMAX  
76  
74  
76  
74  
dB  
dB  
INPUT CHARACTERISTICS  
Common-Mode Input Resistance  
Differential Input Resistance  
Input Capacitance  
40  
280  
1.6  
−0.5 to  
+3.2  
40  
280  
1.6  
−0.5 to  
+3.2  
MΩ  
kΩ  
pF  
V
Input Voltage Range  
Input Common-Mode Voltage Range  
Common-Mode Rejection Ratio  
−0.2 to  
+2.9  
64  
74  
−0.2 to  
+2.9  
64  
74  
V
VCM = 0 V to 2.7 V  
VCM = 0 V to 1.55 V  
46  
58  
46  
58  
dB  
dB  
V
Differential Input Voltage  
OUTPUT CHARACTERISTICS  
Output Voltage Swing Low  
Output Voltage Swing High  
Output Voltage Swing Low  
Output Voltage Swing High  
Output Current  
3.4  
3.4  
RL = 10 kΩ  
RL = 1 kΩ  
0.05 0.02  
2.6 2.68  
0.15 0.08  
0.05 0.02  
2.6 2.68  
0.15 0.08  
V
V
V
V
mA  
mA  
mA  
pF  
2.55 2.6  
2.55 2.6  
15  
21  
−34  
15  
15  
21  
−34  
15  
Short Circuit Current  
Sourcing  
Sinking  
G = +2 (See Figure 46)  
Capacitive Load Drive  
POWER SUPPLY  
Operating Range  
2.7  
12  
2.7  
12  
V
Quiescent Current per Amplifier  
Power Supply Rejection Ratio  
750  
86  
1250  
750  
86  
1250 ꢀA  
dB  
VS− = 0 V to −1 V or  
75  
75  
VS+ = +2.7 V to +3.7 V  
Rev. C | Page 3 of 20  
 
AD8031/AD8032  
+5 V SUPPLY  
@ TA = 25°C, VS = 5 V, RL = 1 kΩ to 2.5 V, RF = 2.5 kꢀ, unless otherwise noted.  
Table 2.  
AD8031A/AD8032A  
AD8031B/AD8032B  
Parameter  
Conditions  
Min Typ  
Max  
Min Typ  
Max  
Unit  
DYNAMIC PERFORMANCE  
−3 dB Small Signal Bandwidth  
Slew Rate  
Settling Time to 0.1%  
DISTORTION/NOISE PERFORMANCE  
Total Harmonic Distortion  
G = +1, VO < 0.4 V p-p  
G = −1, VO = 2 V step  
G = −1, VO = 2 V step, CL = 10 pF  
54  
27  
80  
32  
125  
54  
27  
80  
32  
125  
MHz  
V/μs  
ns  
fC = 1 MHz, VO = 2 V p-p, G = +2  
fC = 100 kHz, VO = 2 V p-p, G = +2  
f = 1 kHz  
f = 100 kHz  
f = 1 kHz  
RL = 1 kΩ  
RL = 1 kΩ  
f = 5 MHz  
−62  
−86  
15  
2.4  
5
0.17  
0.11  
−60  
−62  
−86  
15  
2.4  
5
0.17  
0.11  
−60  
dBc  
dBc  
Input Voltage Noise  
Input Current Noise  
nV/√Hz  
pA/√Hz  
pA/√Hz  
%
Degrees  
dB  
Differential Gain  
Differential Phase  
Crosstalk (AD8032 Only)  
DC PERFORMANCE  
Input Offset Voltage  
VCM = VCC/2; VOUT = 2.5 V  
TMIN to TMAX  
VCM = VCC/2; VOUT = 2.5 V  
VCM = VCC/2; VOUT = 2.5 V  
TMIN to TMAX  
1
6
5
0.45  
6
10  
0.5  
1.6  
5
1.5  
2.5  
mV  
mV  
μV/°C  
μA  
μA  
nA  
Offset Drift  
Input Bias Current  
1.2  
2.0  
350  
0.45  
1.2  
2.0  
250  
Input Offset Current  
Open-Loop Gain  
50  
82  
50  
82  
VCM = VCC/2; VOUT = 1.5 V to 3.5 V  
TMIN to TMAX  
76  
74  
76  
74  
dB  
dB  
INPUT CHARACTERISTICS  
Common-Mode Input Resistance  
Differential Input Resistance  
Input Capacitance  
40  
280  
1.6  
−0.5 to  
+5.5  
40  
280  
1.6  
−0.5 to  
+5.5  
MΩ  
kΩ  
pF  
V
Input Voltage Range  
Input Common-Mode Voltage Range  
Common-Mode Rejection Ratio  
−0.2 to  
+5.2  
70  
80  
−0.2 to  
+5.2  
70  
80  
V
VCM = 0 V to 5 V  
VCM = 0 V to 3.8 V  
56  
66  
56  
66  
dB  
dB  
V
Differential Input Voltage  
OUTPUT CHARACTERISTICS  
Output Voltage Swing Low  
Output Voltage Swing High  
Output Voltage Swing Low  
Output Voltage Swing High  
Output Current  
3.4  
3.4  
RL = 10 kΩ  
RL = 1 kΩ  
0.05 0.02  
4.95 4.98  
0.05 0.02  
4.95 4.98  
V
V
V
V
mA  
mA  
mA  
pF  
0.2  
4.8  
0.1  
4.9  
15  
28  
−46  
15  
0.2  
4.8  
0.1  
4.9  
15  
28  
−46  
15  
Short Circuit Current  
Sourcing  
Sinking  
G = +2 (See Figure 46)  
Capacitive Load Drive  
POWER SUPPLY  
Operating Range  
Quiescent Current per Amplifier  
Power Supply Rejection Ratio  
2.7  
75  
12  
1400  
2.7  
75  
12  
V
800  
86  
800  
86  
1400 μA  
dB  
VS− = 0 V to −1 V or  
VS+ = +5 V to +6 V  
Rev. C | Page 4 of 20  
 
AD8031/AD8032  
5 V SUPPLY  
@ TA = 25°C, VS = 5 V, RL = 1 kꢀ to 0 V, RF = 2.5 kꢀ, unless otherwise noted.  
Table 3.  
AD8031A/AD8032A  
AD8031A/AD8032A  
Parameter  
Conditions  
Min  
Typ  
Max Min Typ Max Unit  
DYNAMIC PERFORMANCE  
−3 dB Small Signal Bandwidth  
Slew Rate  
Settling Time to 0.1%  
DISTORTION/NOISE PERFORMANCE  
Total Harmonic Distortion  
G = +1, VO < 0.4 V p-p  
G = −1, VO = 2 V step  
G = −1, VO = 2 V step, CL = 10 pF  
54  
30  
80  
35  
125  
54  
30  
80  
35  
125  
MHz  
V/μs  
ns  
fC = 1 MHz, VO = 2 V p-p, G = +2  
fC = 100 kHz, VO = 2 V p-p, G = +2  
f = 1 kHz  
f = 100 kHz  
f = 1 kHz  
RL = 1 kΩ  
RL = 1 kΩ  
f = 5 MHz  
−62  
−86  
15  
2.4  
5
0.15  
0.15  
−60  
−62  
−86  
15  
2.4  
5
0.15  
0.15  
−60  
dBc  
dBc  
Input Voltage Noise  
Input Current Noise  
nV/√Hz  
pA/√Hz  
pA/√Hz  
%
Degrees  
dB  
Differential Gain  
Differential Phase  
Crosstalk (AD8032 Only)  
DC PERFORMANCE  
Input Offset Voltage  
VCM = 0 V; VOUT = 0 V  
TMIN to TMAX  
VCM = 0 V; VOUT = 0 V  
VCM = 0 V; VOUT = 0 V  
TMIN to TMAX  
1
6
5
0.45  
6
10  
0.5  
1.6  
5
1.5 mV  
2.5 mV  
μV/°C  
Offset Drift  
Input Bias Current  
1.2  
2.0  
350  
0.45  
1.2  
2.0  
250  
μA  
μA  
nA  
dB  
dB  
Input Offset Current  
Open-Loop Gain  
50  
80  
50  
80  
VCM = 0 V; VOUT = 2 V  
TMIN to TMAX  
76  
74  
76  
74  
INPUT CHARACTERISTICS  
Common-Mode Input Resistance  
Differential Input Resistance  
Input Capacitance  
40  
280  
1.6  
−5.5 to  
+5.5  
40  
280  
1.6  
−5.5 to  
+5.5  
MΩ  
kΩ  
pF  
V
Input Voltage Range  
Input Common-Mode Voltage Range  
Common-Mode Rejection Ratio  
−5.2 to  
+5.2  
80  
90  
−5.2 to  
+5.2  
80  
90  
V
VCM = −5 V to +5 V  
VCM = −5 V to +3.5 V  
60  
66  
60  
66  
dB  
dB  
V
Differential/Input Voltage  
OUTPUT CHARACTERISTICS  
Output Voltage Swing Low  
Output Voltage Swing High  
Output Voltage Swing Low  
Output Voltage Swing High  
Output Current  
3.4  
3.4  
RL = 10 kΩ  
RL = 1 kΩ  
−4.94 −4.98  
+4.94 +4.98  
−4.94 −4.98  
+4.94 +4.98  
V
V
V
V
mA  
mA  
mA  
pF  
−4.7  
+4.7  
−4.85  
+4.75  
15  
35  
−50  
15  
−4.7  
+4.7  
−4.85  
+4.75  
15  
35  
−50  
15  
Short Circuit Current  
Sourcing  
Sinking  
G = +2 (See Figure 46)  
Capacitive Load Drive  
POWER SUPPLY  
Operating Range  
Quiescent Current per Amplifier  
Power Supply Rejection Ratio  
1.35  
76  
6
1600  
1.35  
76  
6
V
900  
86  
900  
86  
1600 μA  
dB  
VS− = −5 V to −6 V or  
VS+ = +5 V to +6 V  
Rev. C | Page 5 of 20  
 
AD8031/AD8032  
ABSOLUTE MAXIMUM RATINGS  
Table 4.  
Parameter  
MAXIMUM POWER DISSIPATION  
Rating  
The maximum power that can be safely dissipated by the  
AD8031/AD8032 is limited by the associated rise in junction  
temperature. The maximum safe junction temperature for  
plastic encapsulated devices is determined by the glass  
transition temperature of the plastic, approximately 150°C.  
Exceeding this limit temporarily can cause a shift in parametric  
performance due to a change in the stresses exerted on the die  
by the package. Exceeding a junction temperature of 175°C for  
an extended period can result in device failure.  
Supply Voltage  
12.6 V  
Internal Power Dissipation1  
8-Lead PDIP (N)  
8-Lead SOIC_N (R)  
8-Lead MSOP (RM)  
5-Lead SOT-23 (RJ)  
Input Voltage (Common Mode)  
Differential Input Voltage  
Output Short-Circuit Duration  
1.3 W  
0.8 W  
0.6 W  
0.5 W  
VS 0.5 V  
3.4 V  
Observe Power  
Derating Curves  
−65°C to +125°C  
300°C  
While the AD8031/AD8032 are internally short-circuit  
protected, this may not be sufficient to guarantee that the  
maximum junction temperature (150°C) is not exceeded under  
all conditions. To ensure proper operation, it is necessary to  
observe the maximum power derating curves shown in Figure 7.  
Storage Temperature Range (N, R, RM, RJ)  
Lead Temperature (Soldering 10 sec)  
Stresses above those listed under Absolute Maximum Ratings  
may cause permanent damage to the device. This is a stress  
rating only; functional operation of the device at these or any  
other conditions above those indicated in the operational  
section of this specification is not implied. Exposure to absolute  
maximum rating conditions for extended periods may affect  
device reliability.  
2.0  
T
= +150°C  
J
8-LEAD PDIP  
1.5  
1.0  
8-LEAD SOIC  
1 Specification is for the device in free air:  
8-Lead PDIP: θJA = 90°C/W.  
8-LEAD MSOP  
8-Lead SOIC_N: θJA = 155°C/W.  
8-Lead MSOP: θJA = 200°C/W.  
5-Lead SOT-23: θJA = 240°C/W.  
0.5  
0
5-LEAD SOT-23  
–50 –40 –30 –20 –10  
0
10 20 30 40 50 60 70 80 90  
AMBIENT TEMPERATURE (°C)  
Figure 7. Maximum Power Dissipation vs. Temperature  
ESD CAUTION  
ESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000 V readily accumulate on  
the human body and test equipment and can discharge without detection. Although this product features  
proprietary ESD protection circuitry, permanent damage may occur on devices subjected to high energy  
electrostatic discharges. Therefore, proper ESD precautions are recommended to avoid performance  
degradation or loss of functionality.  
Rev. C | Page 6 of 20  
 
 
 
AD8031/AD8032  
TYPICAL PERFORMANCE CHARACTERISTICS  
90  
800  
600  
400  
200  
0
80  
N = 250  
70  
60  
50  
40  
30  
20  
10  
0
V
= 10V  
S
V
= 5V  
V
= 2.7V  
S
S
–200  
–400  
–600  
–800  
0
1
2
3
4
5
6
7
8
9
10  
–5  
–4  
–3  
–2  
–1  
0
1
2
3
4
5
COMMON-MODE VOLTAGE (V)  
V
(mV)  
OS  
Figure 8. Typical VOS Distribution @ VS = 5 V  
Figure 11. Input Bias Current vs. Common-Mode Voltage  
2.5  
2.3  
2.1  
1.9  
1.7  
1.5  
0
V
= 5V  
S
–0.1  
–0.2  
–0.3  
–0.4  
–0.5  
–0.6  
V
= +5V  
S
V
= ±5V  
S
–40 –30 –20 –10  
0
10 20 30 40 50 60 70 80 90  
TEMPERATURE (°C)  
0
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0  
COMMON-MODE VOLTAGE (V)  
Figure 9. Input Offset Voltage vs. Temperature  
Figure 12. VOS vs. Common-Mode Voltage  
1.00  
0.95  
0.90  
1000  
±I , V = ±5V  
S
S
950  
900  
850  
800  
V
= 5V  
S
0.85  
0.80  
+I , V = +5V  
S
S
0.75  
0.70  
0.65  
750  
700  
650  
600  
+I , V = +2.7V  
S
S
0.60  
0.55  
0.50  
–40 –30 –20 –10  
0
10 20 30 40 50 60 70 80 90  
TEMPERATURE (°C)  
–40 –30 –20 –10  
0
10 20 30 40 50 60 70 80 90  
TEMPERATURE (°C)  
Figure 13. Supply Current vs. Temperature  
Figure 10. Input Bias Current vs. Temperature  
Rev. C | Page 7 of 20  
 
AD8031/AD8032  
0
1.2  
1.0  
0.8  
0.6  
0.4  
V
= 2.7V  
CC  
V
V
CC  
EE  
–0.5  
–1.0  
–1.5  
V
= 10V  
V
CC  
OUT  
V
IN  
R
LOAD  
V
= 5V  
CC  
V
CC  
2
V
V
CC  
EE  
V
= 5V  
CC  
V
V
= 10V  
OUT  
CC  
V
IN  
R
LOAD  
–2.0  
–2.5  
0.2  
0
V
CC  
V
= 2.7V  
CC  
2
100  
1k  
10k  
100  
1k  
10k  
R
()  
LOAD  
R
()  
LOAD  
Figure 14. +Output Saturation Voltage vs. RLOAD @ +85°C  
Figure 17. −Output Saturation Voltage vs. RLOAD @ +85°C  
0
1.2  
V
= 2.7V  
CC  
V
V
CC  
EE  
1.0  
0.8  
0.6  
0.4  
–0.5  
–1.0  
–1.5  
V
V
= 10V  
OUT  
CC  
V
IN  
R
LOAD  
V
= 5V  
CC  
V
CC  
2
V
V
CC  
EE  
V
CC  
= 5V  
V
V
= 10V  
OUT  
CC  
V
IN  
R
LOAD  
–2.0  
–2.5  
0.2  
0
V
CC  
V
= 2.7V  
CC  
2
100  
1k  
10k  
100  
1k  
10k  
R
()  
LOAD  
R
()  
LOAD  
Figure 18. −Output Saturation Voltage vs. RLOAD @ +25°C  
Figure 15. +Output Saturation Voltage vs. RLOAD @ +25°C  
1.2  
0
V
= 2.7V  
CC  
V
V
CC  
EE  
1.0  
0.8  
0.6  
0.4  
–0.5  
–1.0  
–1.5  
V
V
= 10V  
OUT  
CC  
V
IN  
R
LOAD  
V
= 5V  
CC  
V
CC  
2
V
V
CC  
V
= 5V  
CC  
V
V
= 10V  
OUT  
CC  
V
IN  
R
LOAD  
–2.0  
–2.5  
0.2  
0
EE  
V
CC  
V
= 2.7V  
CC  
2
100  
1k  
10k  
100  
1k  
10k  
R
()  
LOAD  
R
()  
LOAD  
Figure 16. +Output Saturation Voltage vs. RLOAD @ −40°C  
Figure 19. −Output Saturation Voltage vs. RLOAD @ −40°C  
Rev. C | Page 8 of 20  
AD8031/AD8032  
110  
105  
100  
95  
V
= 5V  
S
500mV  
1V  
100  
90  
–A  
OL  
10  
0
90  
+A  
OL  
85  
80  
V
= 5V  
S
75  
10  
–10  
0%  
70  
65  
500mV  
2.5  
60  
0
2k  
4k  
6k  
()  
8k  
10k  
–1.5  
0.5  
4.5  
6.5  
R
LOAD  
INPUT VOLTAGE (V)  
Figure 20. Open-Loop Gain (AOL) vs. RLOAD  
Figure 23. Differential Input Overvoltage I-V Characteristics  
86  
84  
82  
80  
0.05  
0
V
R
= 5V  
= 1kΩ  
S
L
–A  
–0.05  
–0.10  
OL  
–0.15  
1ST 2ND 3RD 4TH 5TH 6TH 7TH 8TH 9TH 10TH 11TH  
+A  
OL  
0.10  
0.05  
78  
76  
0
–0.05  
–40 –30 –20 –10  
0
10 20 30 40 50 60 70 80 90  
TEMPERATURE (°C)  
–0.10  
1ST 2ND 3RD 4TH 5TH 6TH 7TH 8TH 9TH 10TH 11TH  
Figure 21. Open Loop Gain vs. (AOL) Temperature  
Figure 24. Differential Gain and Phase @ VS = 5 V; RL = 1 kΩ  
110  
100  
90  
100  
30  
10  
3
V
= 5V  
S
R
= 10kΩ  
LOAD  
V
= 5V  
S
100  
10  
1
VOLTAGE NOISE  
R
= 1kΩ  
LOAD  
80  
70  
60  
50  
CURRENT NOISE  
1
0.1  
0
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0  
(V)  
0.3  
10  
100  
1k  
10k  
100k  
1M  
10M  
V
OUT  
FREQUENCY (Hz)  
Figure 22. Open-Loop Gain (AOL) vs. VOUT  
Figure 25. Input Voltage Noise vs. Frequency  
Rev. C | Page 9 of 20  
AD8031/AD8032  
5
40  
30  
20  
10  
0
V
= 5V  
4
3
S
G = +1  
R
= 1k  
L
GAIN  
2
1
0
–10  
–20  
–90  
–135  
–180  
–225  
–1  
–2  
–3  
–4  
PHASE  
–5  
0.3  
1
10  
FREQUENCY (MHz)  
100  
0.1  
1
10  
100  
FREQUENCY (MHz)  
Figure 29. Open-Loop Frequency Response  
Figure 26. Unity Gain, −3 dB Bandwidth  
–20  
–30  
–40  
–50  
–60  
–70  
–80  
3
2
V
V
= 5V  
S
= –16dBm  
IN  
+85°C  
V
CC  
2
G = +1, R = 2kTO  
1
L
0
–40°C  
+25°C  
1.3V p-p  
= 2.7V  
–1  
–2  
–3  
–4  
–5  
V
2.5V p-p  
= 2.7V  
S
V
S
V
S
2V p-p  
= 2.7V  
2k  
V
S
V
OUT  
V
IN  
50Ω  
4.8V p-p  
= 5V  
V
S
1k  
10k  
100k  
1M  
10M  
0.1  
1
10  
100  
FREQUENCY (MHz)  
FUNDAMENTAL FREQUENCY (Hz)  
Figure 30. Total Harmonic Distortion vs. Frequency; G = +1  
Figure 27. Closed-Loop Gain vs. Temperature  
–20  
2
1
V
= +2.7V  
S
V
R
= +5V  
S
R
+ C TO 1.35V  
L
L
–30  
+ C  
L
L
G = +2  
TO 2.5V  
0
V
= 5V  
S
V
CC  
2
–40  
–50  
–60  
–70  
–80  
–90  
–100  
R
= 1kTO  
V
= ±5V  
L
S
–1  
–2  
–3  
–4  
–5  
–6  
–7  
–8  
4.8V p-p  
1V p-p  
G = +1  
C
R
= 5pF  
= 1kΩ  
L
L
4.6V p-p  
4V p-p  
1k  
10k  
100k  
1M  
10M  
100k  
1M  
10M  
FREQUENCY (Hz)  
100M  
FUNDAMENTAL FREQUENCY (Hz)  
Figure 28. Closed-Loop Gain vs. Supply Voltage  
Figure 31. Total Harmonic Distortion vs. Frequency; G +2  
Rev. C | Page 10 of 20  
AD8031/AD8032  
10  
8
0
V
= ±5V  
S
–20  
–40  
V
= 5V  
S
6
V
V
= +5V  
–60  
S
S
4
–80  
= +2.7V  
–100  
–120  
2
0
1k  
10k  
100k  
FREQUENCY (Hz)  
1M  
10M  
100  
1k  
10k  
100k  
1M  
10M  
100M  
FREQUENCY (Hz)  
Figure 32. Large Signal Response  
Figure 35. PSRR vs. Frequency  
V
= 5V  
S
R
V
= 10kTO 2.5V  
= 6V p-p  
L
RB = 50Ω  
100  
50  
T
IN  
5.5  
G = +1  
4.5  
3.5  
2.5  
1.5  
10  
1
0.5  
RB  
T
0.1  
V
–0.5  
OUT  
RB = 0Ω  
T
0.1  
1
10  
100 200  
FREQUENCY (MHz)  
10µs/DIV  
Figure 33. ROUT vs. Frequency  
Figure 36. Output Voltage  
0
V
= 5V  
V
= 5V  
S
S
INPUT  
G = +1  
INPUT = 650mV  
BEYOND RAILS  
–20  
–40  
5.5  
4.5  
3.5  
2.5  
1.5  
–60  
0.5  
–0.5  
–80  
–100  
100  
1k  
10k  
100k  
1M  
10M  
10µs/DIV  
FREQUENCY (Hz)  
Figure 37. Output Voltage Phase Reversal Behavior  
Figure 34. CMRR vs. Frequency  
Rev. C | Page 11 of 20  
AD8031/AD8032  
G = +1  
R
+2.5V  
TO  
L
R
R
C
= 0Ω  
F
L
L
S
= 2kTO 2.5V  
= 5pF TO 2.5V  
= 5V  
2.56  
2.54  
2.52  
2.50  
2.48  
2.46  
2.44  
V
V
R
= +5V  
= 1kΩ  
S
L
G = –1  
R
TO GND  
L
0
50ns/DIV  
10µs/DIV  
Figure 41. 100 mV Step Response  
Figure 38. Output Swing  
–50  
–60  
G = +2  
R
R
C
= R = 2.5k  
F
L
L
S
G
= 2kΩ  
= 5pF  
= 5V  
3.1  
2.9  
2.7  
2.5  
2.3  
2.1  
1.9  
–70  
V
V
V
= ±2.5V  
S
–80  
= +10dBm  
IN  
–90  
–100  
2.5k2.5kΩ  
2.5kΩ  
2.5kΩ  
V
OUT  
V
IN  
1kΩ  
50Ω  
RECEIVER  
50Ω  
TRANSMITTER  
1
0..11  
1100  
100 200  
50ns/DIV  
FREQUENCY (MHz)  
Figure 39. 1 V Step Response  
Figure 42. Crosstalk vs. Frequency  
V
= 2.7V  
S
R
= 1k  
L
G = –1  
2.85  
2.35  
1.85  
1.35  
0.85  
0.35  
R
1.35V  
TO  
L
R
TO GND  
L
10µs/DIV  
Figure 40. Output Swing  
Rev. C | Page 12 of 20  
AD8031/AD8032  
THEORY OF OPERATION  
The AD8031/AD8032 are single and dual versions of high  
speed, low power, voltage feedback amplifiers featuring an  
innovative architecture that maximizes the dynamic range  
capability on the inputs and outputs. The linear input common-  
mode range exceeds either supply voltage by 200 mV, and the  
amplifiers show no phase reversal up to 500 mV beyond supply.  
The output swings to within 20 mV of either supply when  
driving a light load; 300 mV when driving up to 5 mA.  
Switching to the NPN pair as the common-mode voltage is  
driven beyond 1 V within the positive supply allows the amplifier  
to provide useful operation for signals at either end of the  
supply voltage range and eliminates the possibility of phase  
reversal for input signals up to 500 mV beyond either power  
supply. Offset voltage also changes to reflect the offset of the  
input pair in control. The transition region is small, approximately  
180 mV. These sudden changes in the dc parameters of the  
input stage can produce glitches that adversely affect distortion.  
Fabricated on Analog Devices, Inc. eXtra Fast Complementary  
Bipolar (XFCB) process, the amplifier provides an impressive  
80 Hz bandwidth when used as a follower and a 30 V/μs slew  
rate at only 800 μA supply current. Careful design allows the  
amplifier to operate with a supply voltage as low as 2.7 V.  
OVERDRIVING THE INPUT STAGE  
Sustained input differential voltages greater than 3.4 V should  
be avoided as the input transistors can be damaged. Input clamp  
diodes are recommended if the possibility of this condition  
exists.  
INPUT STAGE OPERATION  
A simplified schematic of the input stage appears in Figure 43.  
For common-mode voltages up to 1.1 V within the positive  
supply (0 V to 3.9 V on a single 5 V supply), tail current I2  
flows through the PNP differential pair, Q13 and Q17. Q5 is cut  
off; no bias current is routed to the parallel NPN differential  
pair, Q2 and Q3. As the common-mode voltage is driven within  
1.1 V of the positive supply, Q5 turns on and routes the tail  
current away from the PNP pair and to the NPN pair. During  
this transition region, the input current of the amplifier changes  
magnitude and direction. Reusing the same tail current ensures  
that the input stage has the same transconductance, which  
determines the gain and bandwidth of the amplifier, in both  
regions of operation.  
The voltages at the collectors of the input pairs are set to  
200 mV from the power supply rails. This allows the amplifier  
to remain in linear operation for input voltages up to 500 mV  
beyond the supply voltages. Driving the input common-mode  
voltage beyond that point will forward bias the collector junction of  
the input transistor, resulting in phase reversal. Sustaining this  
condition for any length of time should be avoided because it is  
easy to exceed the maximum allowed input differential voltage  
when the amplifier is in phase reversal.  
V
CC  
R1  
2k  
I3  
25µA  
R2  
2kΩ  
I2  
90µA  
Q9  
1.1V  
R5  
50kΩ  
V
Q3  
R8  
Q2  
R9  
Q6  
Q10  
IN  
1
1
R6  
R7  
Q8  
850Ω  
850Ω  
Q7  
Q5  
4
4
4
4
850850Ω  
V
Q13  
Q17  
I4  
25µA  
IP  
OUTPUT STAGE,  
COMMON-MODE  
FEEDBACK  
Q14  
Q11  
1
1
Q15  
Q16  
R4  
2kΩ  
R3  
2kΩ  
I1  
5µA  
Q18  
Q4  
V
EE  
Figure 43. Simplified Schematic of AD8031 Input Stage  
Rev. C | Page 13 of 20  
 
 
 
AD8031/AD8032  
The open-loop gain of the AD8031 decreases approximately  
linearly with load resistance and depends on the output voltage.  
Open-loop gain stays constant to within 250 mV of the positive  
power supply, 150 mV of the negative power supply, and then  
decreases as the output transistors are driven further into  
saturation.  
OUTPUT STAGE, OPEN-LOOP GAIN AND  
DISTORTION vs. CLEARANCE FROM POWER  
SUPPLY  
The AD8031 features a rail-to-rail output stage. The output  
transistors operate as common-emitter amplifiers, providing the  
output drive current as well as a large portion of the amplifier’s  
open-loop gain.  
The distortion performance of the AD8031/AD8032 amplifiers  
differs from conventional amplifiers. Typically, the distortion  
performance of the amplifier degrades as the output voltage  
amplitude increases.  
I2  
25µA  
I1  
25µA  
Q51  
Q42  
Q47  
DIFFERENTIAL  
DRIVE  
Q37  
Q38  
Used as a unity gain follower, the output of the AD8031/  
AD8032 exhibits more distortion in the peak output voltage  
region around VCC − 0.7 V. This unusual distortion characteristic is  
caused by the input stage architecture and is discussed in detail  
in the Input Stage Operation section,  
FROM  
C9  
5pF  
Q68  
INPUT STAGE  
R29  
300  
Q20  
Q27  
Q21  
V
OUT  
C5  
1.5pF  
Q43  
Q48  
Q49  
I4  
25µA  
OUTPUT OVERDRIVE RECOVERY  
I5  
25µA  
Output overdrive of an amplifier occurs when the amplifier  
attempts to drive the output voltage to a level outside its normal  
range. After the overdrive condition is removed, the amplifier  
must recover to normal operation in a reasonable amount of  
time. As shown in Figure 45, the AD8031/AD8032 recover  
within 100 ns from negative overdrive and within 80 ns from  
positive overdrive.  
Q50  
Q44  
Figure 44. Output Stage Simplified Schematic  
The output voltage limit depends on how much current the  
output transistors are required to source or sink. For applications  
with low drive requirements (for instance, a unity gain follower  
driving another amplifier input), the AD8031 typically swings  
within 20 mV of either voltage supply. As the required current  
load increases, the saturation output voltage increases linearly as  
R
R
F
G
R
= R = 2k  
F
G
V
OUT  
V
IN  
R
L
I
LOAD × RC  
where:  
LOAD is the required load current.  
50Ω  
I
RC is the output transistor collector resistance.  
For the AD8031, the collector resistances for both output  
transistors are typically 25 Ω. As the current load exceeds the  
rated output current of 15 mA, the amount of base drive current  
required to drive the output transistor into saturation reaches its  
limit, and the amplifiers output swing rapidly decreases.  
V
V
R
= ±2.5V  
S
= ±2.5V  
IN  
= 1kTO GND  
1V  
L
100ns  
Figure 45. Overdrive Recovery  
Rev. C | Page 14 of 20  
 
 
AD8031/AD8032  
1000  
R
= 5Ω  
S
DRIVING CAPACITIVE LOADS  
V
= 5V  
S
200mV STEP  
Capacitive loads interact with an op amps output impedance to  
create an extra delay in the feedback path. This reduces circuit  
stability and can cause unwanted ringing and oscillation. A  
given value of capacitance causes much less ringing when the  
amplifier is used with a higher noise gain.  
WITH 30% OVERSHOOT  
R
= 0Ω  
S
100  
10  
R
= 20Ω  
S
R
= 20Ω  
S
The capacitive load drive of the AD8031/AD8032 can be  
increased by adding a low valued resistor in series with the  
capacitive load. Introducing a series resistor tends to isolate the  
capacitive load from the feedback loop, thereby diminishing its  
influence. Figure 46 shows the effects of a series resistor on the  
capacitive drive for varying voltage gains. As the closed-loop  
gain is increased, the larger phase margin allows for larger  
capacitive loads with less overshoot. Adding a series resistor at  
lower closed-loop gains accomplishes the same effect. For large  
capacitive loads, the frequency response of the amplifier is  
dominated by the roll-off of the series resistor and capacitive load.  
R
R
F
G
R
V
S
OUT  
R
= 0, 5Ω  
S
C
L
1
0
1
2
3
4
5
CLOSED-LOOP GAIN (V/V)  
Figure 46. Capacitive Load Drive vs. Closed-Loop Gain  
Rev. C | Page 15 of 20  
 
 
AD8031/AD8032  
APPLICATIONS  
A 2 MHz SINGLE-SUPPLY, BIQUAD BAND-PASS  
FILTER  
0
–10  
–20  
–30  
Figure 47 shows a circuit for a single-supply, biquad band-pass  
filter with a center frequency of 2 MHz. A 2.5 V bias level is  
easily created by connecting the noninverting inputs of all three  
op amps to a resistor divider consisting of two 1 kΩ resistors  
connected between 5 V and ground. This bias point is also  
decoupled to ground with a 0.1 μF capacitor. The frequency  
response of the filter is shown in Figure 48.  
To maintain an accurate center frequency, it is essential that the  
op amp have sufficient loop gain at 2 MHz. This requires the  
choice of an op amp with a significantly higher unity gain,  
crossover frequency. The unity gain, crossover frequency of the  
AD8031/AD8032 is 40 MHz. Multiplying the open-loop gain by  
the feedback factors of the individual op amp circuits yields the  
loop gain for each gain stage. From the feedback networks of  
the individual op amp circuits, it can be seen that each op amp  
has a loop gain of at least 21 dB. This level is high enough to  
ensure that the center frequency of the filter is not affected by  
the op amp’s bandwidth. If, for example, an op amp with a gain  
bandwidth product of 10 MHz was chosen in this application,  
the resulting center frequency would shift by 20% to 1.6 MHz.  
–40  
–50  
10k  
100k  
1M  
10M  
100M  
FREQUENCY (Hz)  
Figure 48. Frequency Response of 2 MHz Band-Pass Filter  
HIGH PERFORMANCE, SINGLE-SUPPLY LINE DRIVER  
Even though the AD8031/AD8032 swing close to both rails, the  
AD8031 has optimum distortion performance when the signal  
has a common-mode level half way between the supplies and  
when there is about 500 mV of headroom to each rail. If low  
distortion is required in single-supply applications for signals  
that swing close to ground, an emitter-follower circuit can be  
used at the op amp output.  
R6  
1k  
C1  
50pF  
5V  
10µF  
R2  
2kΩ  
R4  
2kΩ  
5V  
0.1µF  
5V  
0.1µF  
C2  
50pF  
R1  
3kΩ  
0.1µF  
7
3
V
R3  
2kΩ  
IN  
V
6
IN  
2N3904  
R5  
2kΩ  
49.9Ω  
2
1kΩ  
AD8031  
4
AD8031  
1/2  
AD8032  
49.9Ω  
200Ω  
1/2  
AD8032  
2.49kΩ  
2.49kΩ  
V
OUT  
49.9Ω  
0.1µF  
1kΩ  
V
OUT  
Figure 49. Low Distortion Line Driver for Single-Supply, Ground Referenced Signals  
Figure 47. A 2 MHz, Biquad Band-Pass Filter Using AD8031/AD8032  
Figure 49 shows the AD8031 configured as a single-supply, gain-  
of-2 line driver. With the output driving a back-terminated  
50 ꢀ line, the overall gain from VIN to VOUT is unity. In addition  
to minimizing reflections, the 50 ꢀ back termination resistor  
protects the transistor from damage if the cable is short circuited.  
The emitter follower, which is inside the feedback loop, ensures  
that the output voltage from the AD8031 stays about 700 mV  
above ground. Using this circuit, low distortion is attainable  
even when the output signal swings to within 50 mV of ground.  
The circuit was tested at 500 kHz and 2 MHz.  
Rev. C | Page 16 of 20  
 
 
 
 
AD8031/AD8032  
Figure 50 and Figure 51 show the output signal swing and  
frequency spectrum at 500 kHz. At this frequency, the output  
signal (at VOUT), which has a peak-to-peak swing of 1.95 V  
(50 mV to 2 V), has a THD of −68 dB (SFDR = −77 dB).  
This circuit could also be used to drive the analog input of a  
single-supply, high speed ADC whose input voltage range is  
referenced to ground (for example, 0 V to 2 V or 0 V to 4 V). In  
this case, a back termination resistor is not necessary (assuming  
a short physical distance from transistor to ADC); therefore, the  
emitter of the external transistor would be connected directly to  
the ADC input. The available output voltage swing of the circuit  
would therefore be doubled.  
100  
90  
2V  
1.5V  
100  
90  
10  
0%  
50mV  
1µs  
0.5V  
Figure 50. Output Signal Swing of Low Distortion Line Driver at 500 kHz  
10  
0%  
+9dBm  
0.2V  
200ns  
50mV  
Figure 52. Output Signal Swing of Low Distortion Line Driver at 2 MHz  
+7dBm  
START 0Hz  
STOP 5MHz  
Figure 51. THD of Low Distortion Line Driver at 500 kHz  
Figure 52 and Figure 53 show the output signal swing and  
frequency spectrum at 2 MHz. As expected, there is some  
degradation in signal quality at the higher frequency. When the  
output signal has a peak-to-peak swing of 1.45 V (swinging  
from 50 mV to 1.5 V), the THD is −55 dB (SFDR = −60 dB).  
START 0Hz  
STOP 20MHz  
Figure 53. THD of Low Distortion Line Driver at 2 MHz  
Rev. C | Page 17 of 20  
 
 
 
 
AD8031/AD8032  
OUTLINE DIMENSIONS  
0.400 (10.16)  
0.365 (9.27)  
0.355 (9.02)  
8
5
4
0.280 (7.11)  
0.250 (6.35)  
0.240 (6.10)  
1
0.325 (8.26)  
0.310 (7.87)  
0.300 (7.62)  
PIN 1  
0.100 (2.54)  
BSC  
0.060 (1.52)  
MAX  
0.195 (4.95)  
0.130 (3.30)  
0.115 (2.92)  
0.210  
(5.33)  
MAX  
0.015  
(0.38)  
MIN  
0.150 (3.81)  
0.130 (3.30)  
0.115 (2.92)  
0.015 (0.38)  
GAUGE  
0.014 (0.36)  
0.010 (0.25)  
0.008 (0.20)  
PLANE  
SEATING  
PLANE  
0.022 (0.56)  
0.018 (0.46)  
0.014 (0.36)  
0.430 (10.92)  
MAX  
0.005 (0.13)  
MIN  
0.070 (1.78)  
0.060 (1.52)  
0.045 (1.14)  
COMPLIANT TO JEDEC STANDARDS MS-001-BA  
CONTROLLING DIMENSIONS ARE IN INCHES; MILLIMETER DIMENSIONS  
(IN PARENTHESES) ARE ROUNDED-OFF INCH EQUIVALENTS FOR  
REFERENCE ONLY AND ARE NOT APPROPRIATE FOR USE IN DESIGN.  
CORNER LEADS MAY BE CONFIGURED AS WHOLE OR HALF LEADS.  
Figure 54. 8-Lead Plastic Dual In-Line Package [PDIP]  
Narrow Body (N-8)  
Dimensions shown in inches and (millimeters)  
5.00 (0.1968)  
4.80 (0.1890)  
8
1
5
4
6.20 (0.2440)  
5.80 (0.2284)  
4.00 (0.1574)  
3.80 (0.1497)  
0.50 (0.0196)  
0.25 (0.0099)  
1.27 (0.0500)  
BSC  
45°  
1.75 (0.0688)  
1.35 (0.0532)  
0.25 (0.0098)  
0.10 (0.0040)  
8°  
0°  
0.51 (0.0201)  
0.31 (0.0122)  
COPLANARITY  
0.10  
1.27 (0.0500)  
0.40 (0.0157)  
0.25 (0.0098)  
0.17 (0.0067)  
SEATING  
PLANE  
COMPLIANT TO JEDEC STANDARDS MS-012-AA  
CONTROLLING DIMENSIONS ARE IN MILLIMETERS; INCH DIMENSIONS  
(IN PARENTHESES) ARE ROUNDED-OFF MILLIMETER EQUIVALENTS FOR  
REFERENCE ONLY AND ARE NOT APPROPRIATE FOR USE IN DESIGN.  
Figure 55. 8-Lead Standard Small Outline Package [SOIC_N]  
Narrow Body (R-8)  
Dimensions shown in millimeters and (inches)  
Rev. C | Page 18 of 20  
 
AD8031/AD8032  
2.90 BSC  
5
1
4
3
2.80 BSC  
1.60 BSC  
2
PIN 1  
0.95 BSC  
1.90  
BSC  
1.30  
1.15  
0.90  
1.45 MAX  
0.22  
0.08  
10°  
5°  
0°  
0.15 MAX  
0.50  
0.30  
0.60  
0.45  
0.30  
SEATING  
PLANE  
COMPLIANT TO JEDEC STANDARDS MO-178-AA  
Figure 56. 5-Lead Small Outline Transistor Package [SOT-23]  
(RJ-5)  
Dimensions shown in millimeters  
3.20  
3.00  
2.80  
8
1
5
4
5.15  
4.90  
4.65  
3.20  
3.00  
2.80  
PIN 1  
0.65 BSC  
0.95  
0.85  
0.75  
1.10 MAX  
0.80  
0.60  
0.40  
8°  
0°  
0.15  
0.00  
0.38  
0.22  
0.23  
0.08  
SEATING  
PLANE  
COPLANARITY  
0.10  
COMPLIANT TO JEDEC STANDARDS MO-187-AA  
Figure 57. 8-Lead Mini Small Outline Package [MSOP]  
(RM-8)  
Dimensions shown in millimeters  
Rev. C | Page 19 of 20  
AD8031/AD8032  
ORDERING GUIDE  
Model  
AD8031AN  
AD8031ANZ1  
Temperature Range  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
–40°C to +85°C  
Package Description  
8-Lead PDIP  
8-Lead PDIP  
Package Option  
N-8  
N-8  
R-8  
R-8  
R-8  
R-8  
R-8  
R-8  
RJ-5  
RJ-5  
RJ-5  
RJ-5  
RJ-5  
RJ-5  
N-8  
N-8  
R-8  
R-8  
R-8  
Branding  
AD8031AR  
8-Lead SOIC_N  
AD8031AR-REEL  
AD8031AR-REEL7  
AD8031ARZ1  
8-Lead SOIC_N, 13" Tape and Reel  
8-Lead SOIC_N, 7" Tape and Reel  
8-Lead SOIC_N  
8-Lead SOIC_N, 13" Tape and Reel  
8-Lead SOIC_N, 7" Tape and Reel  
5-Lead SOT-23  
5-Lead SOT-23, 13" Tape and Reel  
5-Lead SOT-23, 7" Tape and Reel  
5-Lead SOT-23  
5-Lead SOT-23, 13" Tape and Reel  
5-Lead SOT-23, 7" Tape and Reel  
8-Lead PDIP  
AD8031ARZ-REEL1  
AD8031ARZ-REEL71  
AD8031ART-R2  
AD8031ART-REEL  
AD8031ART-REEL7  
AD8031ARTZ-R21  
AD8031ARTZ-REEL1  
AD8031ARTZ-REEL71  
AD8031BN  
AD8031BNZ1  
AD8031BR  
AD8031BR-REEL  
AD8031BR-REEL7  
AD8031BRZ1  
H0A  
H0A  
H0A  
H04  
H04  
H04  
8-Lead PDIP  
8-Lead SOIC_N  
8-Lead SOIC_N, 13" Tape and Reel  
8-Lead SOIC_N, 7" Tape and Reel  
8-Lead SOIC_N  
8-Lead SOIC_N, 13" Tape and Reel  
8-Lead SOIC_N, 7" Tape and Reel  
8-Lead PDIP  
R-8  
R-8  
R-8  
AD8031BRZ-REEL1  
AD8031BRZ-REEL71  
AD8032AN  
N-8  
N-8  
AD8032ANZ1  
8-Lead PDIP  
AD8032AR  
8-Lead SOIC_N  
R-8  
R-8  
R-8  
R-8  
R-8  
R-8  
RM-8  
RM-8  
RM-8  
RM-8  
RM-8  
RM-8  
N-8  
N-8  
R-8  
R-8  
R-8  
AD8032AR-REEL  
AD8032AR-REEL7  
AD8032ARZ1  
AD8032ARZ-REEL1  
AD8032ARZ-REEL71  
AD8032ARM  
AD8032ARM-REEL  
AD8032ARM-REEL7  
AD8032ARMZ1  
AD8032ARMZ-REEL1  
AD8032ARMZ-REEL71  
AD8032BN  
AD8032BNZ1  
AD8032BR  
AD8032BR-REEL  
AD8032BR-REEL7  
AD8032BRZ1  
AD8032BRZ-REEL1  
AD8032BRZ-REEL71  
8-Lead SOIC_N, 13" Tape and Reel  
8-Lead SOIC_N, 7" Tape and Reel  
8-Lead SOIC_N  
8-Lead SOIC_N, 13" Tape and Reel  
8-Lead SOIC_N, 7" Tape and Reel  
8-Lead MSOP  
8-Lead MSOP, 13" Tape and Reel  
8-Lead MSOP, 7" Tape and Reel  
8-Lead MSOP  
8-Lead MSOP, 13" Tape and Reel  
8-Lead MSOP, 7" Tape and Reel  
8-Lead PDIP  
H9A  
H9A  
H9A  
H9A#  
H9A#  
H9A#  
8-Lead PDIP  
8-Lead SOIC_N  
8-Lead SOIC_N, 13" Tape and Reel  
8-Lead SOIC_N, 7" Tape and Reel  
8-Lead SOIC_N  
8-Lead SOIC_N, 13" Tape and Reel  
8-Lead SOIC_N, 7" Tape and Reel  
R-8  
R-8  
R-8  
1 Z = Pb-free part, # denotes lead-free product may be top or bottom marked.  
©2006 Analog Devices, Inc. All rights reserved. Trademarks and  
registered trademarks are the property of their respective owners.  
C01056-0-7/06(C)  
Rev. C | Page 20 of 20  
 
 
 
配单直通车
AD8031ARTZ-REEL7产品参数
型号:AD8031ARTZ-REEL7
是否无铅: 不含铅
是否Rohs认证: 符合
生命周期:Active
IHS 制造商:ROCHESTER ELECTRONICS INC
零件包装代码:SOIC
包装说明:LSSOP,
针数:5
Reach Compliance Code:unknown
风险等级:5.45
Is Samacsys:N
放大器类型:OPERATIONAL AMPLIFIER
最大平均偏置电流 (IIB):2 µA
标称共模抑制比:80 dB
最大输入失调电压:10000 µV
JESD-30 代码:R-PDSO-G5
JESD-609代码:e3
长度:2.9 mm
湿度敏感等级:1
负供电电压上限:-6.3 V
标称负供电电压 (Vsup):-5 V
功能数量:1
端子数量:5
最高工作温度:85 °C
最低工作温度:-40 °C
封装主体材料:PLASTIC/EPOXY
封装代码:LSSOP
封装形状:RECTANGULAR
封装形式:SMALL OUTLINE, LOW PROFILE, SHRINK PITCH
峰值回流温度(摄氏度):260
座面最大高度:1.45 mm
标称压摆率:35 V/us
子类别:Operational Amplifier
供电电压上限:6.3 V
标称供电电压 (Vsup):5 V
表面贴装:YES
技术:BIPOLAR
温度等级:INDUSTRIAL
端子面层:MATTE TIN
端子形式:GULL WING
端子节距:0.95 mm
端子位置:DUAL
处于峰值回流温度下的最长时间:40
宽度:1.6 mm
Base Number Matches:1
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