LM358中文数据手册
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LM358 的中文资料资料 20091006 17:00:01 阅读3109 评论0 字号:大中小LM35字号: 大大 中中 小小LM358是常用的双运放,这里我们介绍一下他的一些资料以及简单电路应用等,有什么问题请去电子 论坛.简介:LM358里面包括有两个高增益、独立的、内部频率补偿的双运放,适用于电压范围很宽的单电源, 而且也适用于双电源工作方式,它的应用范围包括传感放大器、直流增益模块和其他所有可用单电源供电 的使用运放的地方使用。
〈lm358引脚图及引脚功能〉LM358封装有塑封8引线双列直插式和贴片式两种。
LM358的特点:. 内部频率补偿. 低输入偏流. 低输入失调电压和失调电流. 共模输入电压范围宽,包括接地. 差模输入电压范围宽,等于电源电压范围. 直流电压增益高(约100dB). 单位增益频带宽(约1MHz). 电源电压范围宽:单电源(3—30V);. 双电源(±1.5 一±15V). 低功耗电流,适合于电池供电. 输出电压摆幅大(0 至Vcc1.5V)lm358 pdf资料:下载LM358 pdf资料下载LM358中文资料lm358稳压电路制作电路原理:本稳压器的核心器件采用LM358。
电路原理如下图所示。
它主要由供电、基准电压、电 压取样比较等组成。
市电从变压器的1、2头输入,3、4头为自耦调压抽头,5、6头为控制电路的电源及取样抽头。
市 电电压正常时,因C点电压始终为3V (即R1降压DW 稳压所得),A、B点均大于3V,故A1、A2 (lm358 芯片)输出低电平;当市电电压下降时,5、6头的电压也随之下降,A点电压也跟着下降,当A点电压下 降到低于3V时,A1输出高电平,使三极管V1饱和导通,继电器K1吸合,将调压器输出调于1、3头;当市电电压继续下降时,同理B点电压低于3V时,(VA 反之,如果电压升高时,B点电压也随之升 高,当B点电压高于3V时,A2输出低电平,V2截止,H2释放,输出端调至1、3头;当市电电压继续 升高时,A点电压高于3V,A1输出低电平,V1截止,K1释放,输出端调至1、2头。
LM358中文资料LM358是常用的双运放,这里我们介绍一下它的一些资料以及简单电路应用。
简介:LM358里面包括有两个高增益、独立的、内部频率补偿的双运放,适用于电压范围很宽的单电源,而且也适用于双电源工作方式,它的应用范围包括传感放大器、直流增益模块和其他所有可用单电源供电的使用运放的地方使用。
LM358内部包括有两个独立的、高增益、内部频率补偿的双运算放大器,适合于电源电压范围很宽的单电源使用,也适用于双电源工作模式,在推荐的工作条件下,电源电流与电源电压无关。
它的使用范围包括传感放大器、直流增益模组,音频放大器、工业控制、DC增益部件和其他所有可用单电源供电的使用运算放大器的场合。
LM358的封装形式有塑封8引线双列直插式和贴片式。
〈lm358引脚图及引脚功能〉图1 DIP塑封引脚图引脚功能圆形金属壳封装管脚图内部电路原理图LM358的特性(Features):. 内部频率补偿. 低输入偏流. 低输入失调电压和失调电流. 共模输入电压范围宽,包括接地. 差模输入电压范围宽,等于电源电压范围. 直流电压增益高(约100dB). 单位增益频带宽(约1MHz). 电源电压范围宽:单电源(3—30V);. 双电源(±1.5 一±15V). 低功耗电流,适合于电池供电. 输出电压摆幅大(0 至Vcc-1.5V)参数输入偏置电流45 nA输入失调电流50 nA输入失调电压2.9mV输入共模电压最大值VCC~1.5 V共模抑制比80dB电源抑制比100dBLM358应用电路图:直流耦合低通RC有源滤波器LED驱动器TTL驱动电路RC有源带通滤波器Squarewave振荡器滞后比较器带通有源滤波器灯驱动程序电流监视器低漂移峰值检测器电压跟随器功率放大器外围电路电压控制振荡器VCO固定电流源脉冲发生器交流耦合反相放大器交流耦合非反相放大器可调增益仪表放大器直流放大器脉冲发生器桥式电流放大器引用差分输入信号直流差动放大器。
LM358中文资料图1 DIP塑封引脚图引脚功能图2 圆形金属壳封装管脚图图3 部电路原理图lm358中文资料LM358部包括有两个独立的、高增益、部频率补偿的双运算放大器,适合于电源电压围很宽的单电源使用,也适用于双电源工作模式,在推荐的工作条件下,电源电流与电源电压无关。
它的使用围包括传感放大器、直流增益模组,音频放大器、工业控制、DC增益部件和其他所有可用单电源供电的使用运算放大器的场合。
LM358的封装形式有塑封8引线双列直插式和贴片式。
特性(Features):*部频率补偿。
*直流电压增益高(约100dB) 。
*单位增益频带宽(约1MHz) 。
*电源电压围宽:单电源(3—30V);双电源(±1.5一±15V) 。
*低功耗电流,适合于电池供电。
*低输入偏流。
*低输入失调电压和失调电流。
*共模输入电压围宽,包括接地。
*差模输入电压围宽,等于电源电压围。
*输出电压摆幅大(0至Vcc-1.5V) 。
参数输入偏置电流45 nA输入失调电流50 nA输入失调电压2.9mV输入共模电压最大值VCC~1.5 V共模抑制比80dB电源抑制比100dBLM358应用电路图:图4 直流耦合低通RC有源滤波器图5 LED驱动器图6 TTL驱动电路图7 RC有源带通滤波器图8 Squarewave振荡器图9 滞后比较器图10 带通有源滤波器图11 灯驱动程序图12 电流监视器图13 低漂移峰值检测器图14 电压跟随器图15 功率放大器外围电路图16 电压控制振荡器VCO图17 固定电流源图18 脉冲发生器图19 交流耦合反相放大器图20 交流耦合非反相放大器图21 可调增益仪表放大器图22 直流放大器图23脉冲发生器图24 桥式电流放大器图25 引用差分输入信号图26 直流差动放大器。
LM358功能--中文资料LM358功能中文资料LM358是常用的双运放,这里我们介绍一下他的一些资料以及简单电路应用等.简介:LM358里面包括有两个高增益、独立的、内部频率补偿的双运放,适用于电压范围很宽的单电源,而且也适用于双电源工作方式,它的应用范围包括传感放大器、直流增益模块和其他所有可用单电源供电的使用运放的地方使用。
〈LM358引脚图及引脚功能〉LM358封装有塑封8引线双列直插式和贴片式两种。
LM358的特点:. 内部频率补偿. 低输入偏流. 低输入失调电压和失调电流. 共模输入电压范围宽,包括接地. 差模输入电压范围宽,等于电源电压范围. 直流电压增益高(约100dB). 单位增益频带宽(约1MHz). 电源电压范围宽:单电源(3—30V);. 双电源(±1.5 一±15V). 低功耗电流,适合于电池供电. 输出电压摆幅大(0 至Vcc-1.5V)LM358稳压电路制作电路原理:本稳压器的核心器件采用LM358。
电路原理如下图所示。
它主要由供电、基准电压、电压取样比较等组成。
由红外线传感器、信号放大电路、电压比较器、延时电路和音响报警电路等组成。
红外线探测传感器IC1 探测到前方人体辐射出的红外线信号时,由IC1 的②引脚输出微弱的电信号,经三极管VT1 等组成第一级放大电路放大,再通过C2 输入到运放IC2 (lm358)中进行高增益、低噪声放大,此时由IC2①引脚输出的信号已足够强。
IC3 (lm358)作电压比较器,它的第⑤引脚由R10、VD1 提供基准电压,当IC2①引脚输出的信号电压到达IC3 的⑥引脚时,两个输入端的电压进行比较,此时IC3的⑦引脚由原来的高电平变为低电平。
IC4(lm358)为报警延时电路,R14 和C6 组成延时电路,其时间约为1 分钟。
当IC3 的⑦引脚变为低电平时,C6 通过VD2 放电,此时IC4 的②引脚变为低电平,它与IC4 的③引脚基准电压进行比较,当它低于其基准电压时,IC4 的①引脚变为高电平,VT2 导通,讯响器BL 通电发出报警声。
下载:lm358中文资料LM358是常用的双运放,这里我们介绍一下他的一些资料以及简单电路应用等,有什么问题请去电子论坛.简介:LM358里面包括有两个高增益、独立的、内部频率补偿的双运放,适用于电压范围很宽的单电源,而且也适用于双电源工作方式,它的应用范围包括传感放大器、直流增益模块和其他所有可用单电源供电的使用运放的地方使用。
〈lm358引脚图及引脚功能〉LM358封装有塑封8引线双列直插式和贴片式两种。
LM358的特点:. 内部频率补偿. 低输入偏流. 低输入失调电压和失调电流. 共模输入电压范围宽,包括接地. 差模输入电压范围宽,等于电源电压范围. 直流电压增益高(约100dB). 单位增益频带宽(约1MHz). 电源电压范围宽:单电源(3—30V);. 双电源(±1.5 一±15V). 低功耗电流,适合于电池供电. 输出电压摆幅大(0 至Vcc-1.5V)lm358稳压电路制作电路原理:本稳压器的核心器件采用LM358。
电路原理如下图所示。
它主要由供电、基准电压、电压取样比较等组成。
市电从变压器的1、2头输入,3、4头为自耦调压抽头,5、6头为控制电路的电源及取样抽头。
市电电压正常时,因C点电压始终为3V(即R1降压DW稳压所得),A、B点均大于3V,故A1、A2(lm358芯片)输出低电平;当市电电压下降时,5、6头的电压也随之下降,A点电压也跟着下降,当A点电压下降到低于3V时,A1输出高电平,使三极管V1饱和导通,继电器K1吸合,将调压器输出调于1、3头;当市电电压继续下降时,同理B点电压低于3V时,(VA 反之,如果电压升高时,B点电压也随之升高,当B点电压高于3V时,A2输出低电平,V2截止,H2释放,输出端调至1、3头;当市电电压继续升高时,A点电压高于3V,A1输出低电平,V1截止,K1释放,输出端调至1、2头。
A1、A2为运放,在这里作电压比较器用;IC1为三端稳压块,它为运放及继电器提供供电电源;VD5、VD6为保护二极管。
下载:lm358中文资料LM358是常用的双运放,这里我们介绍一下他的一些资料以及简单电路应用等,有什么问题请去电子论坛.简介:LM358里面包括有两个高增益、独立的、内部频率补偿的双运放,适用于电压范围很宽的单电源,而且也适用于双电源工作方式,它的应用范围包括传感放大器、直流增益模块和其他所有可用单电源供电的使用运放的地方使用。
〈lm358引脚图及引脚功能〉LM358封装有塑封8引线双列直插式和贴片式两种。
LM358的特点:. 内部频率补偿. 低输入偏流. 低输入失调电压和失调电流. 共模输入电压范围宽,包括接地. 差模输入电压范围宽,等于电源电压范围. 直流电压增益高(约100dB). 单位增益频带宽(约1MHz). 电源电压范围宽:单电源(3—30V);. 双电源(±1.5 一±15V). 低功耗电流,适合于电池供电. 输出电压摆幅大(0 至Vcc-1.5V)lm358稳压电路整理电路原理:本稳压器的核心器件采用LM358。
电路原理如下图所示。
它主要由供电、基准电压、电压取样比较等组成。
市电从变压器的1、2头输入,3、4头为自耦调压抽头,5、6头为控制电路的电源及取样抽头。
市电电压正常时,因C点电压始终为3V(即R1降压DW稳压所得),A、B点均大于3V,故A1、A2(lm358芯片)输出低电平;当市电电压下降时,5、6头的电压也随之下降,A点电压也跟着下降,当A点电压下降到低于3V时,A1输出高电平,使三极管V1饱和导通,继电器K1吸合,将调压器输出调于1、3头;当市电电压继续下降时,同理B点电压低于3V时,(VA 反之,如果电压升高时,B点电压也随之升高,当B点电压高于3V时,A2输出低电平,V2截止,H2释放,输出端调至1、3头;当市电电压继续升高时,A点电压高于3V,A1输出低电平,V1截止,K1释放,输出端调至1、2头。
A1、A2为运放,在这里作电压比较器用;IC1为三端稳压块,它为运放及继电器提供供电电源;VD5、VD6为保护二极管。
LM358中文资料下载:lm358中文资料LM358是常用的双运放,这里我们介绍一下他的一些资料以及简单电路应用等,有什么问题请去电子论坛.简介:LM358里面包括有两个高增益、独立的、内部频率补偿的双运放,适用于电压范围很宽的单电源,而且也适用于双电源工作方式,它的应用范围包括传感放大器、直流增益模块和其他所有可用单电源供电的使用运放的地方使用。
〈lm358引脚图及引脚功能〉LM358封装有塑封8引线双列直插式和贴片式两种。
LM358的特点:. 内部频率补偿. 低输入偏流. 低输入失调电压和失调电流. 共模输入电压范围宽,包括接地. 差模输入电压范围宽,等于电源电压范围. 直流电压增益高(约100dB). 单位增益频带宽(约1MHz). 电源电压范围宽:单电源(3—30V);. 双电源(?1.5 一?15V). 低功耗电流,适合于电池供电. 输出电压摆幅大(0 至Vcc-1.5V)lm358稳压电路制作电路原理:本稳压器的核心器件采用LM358。
电路原理如下图所示。
它主要由供电、基准电压、电压取样比较等组成。
市电从变压器的1、2头输入,3、4头为自耦调压抽头,5、6头为控制电路的电源及取样抽头。
市电电压正常时,因C点电压始终为3V(即R1降压DW稳压所得),A、B点均大于3V,故A1、A2(lm358芯片)输出低电平;当市电电压下降时,5、6头的电压也随之下降,A点电压也跟着下降,当A点电压下降到低于3V时,A1输出高电平,使三极管V1饱和导通,继电器K1吸合,将调压器输出调于1、3头;当市电电压继续下降时,同理B点电压低于3V时,(VA 反之,如果电压升高时,B点电压也随之升高,当B点电压高于3V时,A2输出低电平,V2截止,H2释放,输出端调至1、3头;当市电电压继续升高时,A点电压高于3V,A1输出低电平,V1截止,K1释放,输出端调至1、2头。
A1、A2为运放,在这里作电压比较器用;IC1为三端稳压块,它为运放及继电器提供供电电源;VD5、VD6为保护二极管。
LM358的中文资料资料2009-10-06 17:00:01 阅读3109 评论0 字号:大中小LM35字号:大大中中小小LM358是常用的双运放,这里我们介绍一下他的一些资料以及简单电路应用等,有什么问题请去电子论坛.简介:LM358里面包括有两个高增益、独立的、内部频率补偿的双运放,适用于电压范围很宽的单电源,而且也适用于双电源工作方式,它的应用范围包括传感放大器、直流增益模块和其他所有可用单电源供电的使用运放的地方使用。
〈lm358引脚图及引脚功能〉LM358封装有塑封8引线双列直插式和贴片式两种。
LM358的特点:. 内部频率补偿. 低输入偏流. 低输入失调电压和失调电流. 共模输入电压范围宽,包括接地. 差模输入电压范围宽,等于电源电压范围. 直流电压增益高(约100dB). 单位增益频带宽(约1MHz). 电源电压范围宽:单电源(3—30V);. 双电源(±1.5 一±15V). 低功耗电流,适合于电池供电. 输出电压摆幅大(0 至Vcc-1.5V)lm358 pdf资料:下载LM358 pdf资料下载LM358中文资料lm358稳压电路制作电路原理:本稳压器的核心器件采用LM358。
电路原理如下图所示。
它主要由供电、基准电压、电压取样比较等组成。
市电从变压器的1、2头输入,3、4头为自耦调压抽头,5、6头为控制电路的电源及取样抽头。
市电电压正常时,因C点电压始终为3V(即R1降压DW稳压所得),A、B点均大于3V,故A1、A2(lm358芯片)输出低电平;当市电电压下降时,5、6头的电压也随之下降,A点电压也跟着下降,当A点电压下降到低于3V时,A1输出高电平,使三极管V1饱和导通,继电器K1吸合,将调压器输出调于1、3头;当市电电压继续下降时,同理B点电压低于3V时,(VA 反之,如果电压升高时,B点电压也随之升高,当B点电压高于3V时,A2输出低电平,V2截止,H2释放,输出端调至1、3头;当市电电压继续升高时,A点电压高于3V,A1输出低电平,V1截止,K1释放,输出端调至1、2头。
双运算放大器LM358DLM358D简介数据手册版本V1.0电话:*************82568883邮箱:**********************传真:*************网址:公司地址:深圳市福田区滨河大道联合广场A座1308双运算放大器芯片功能说明:实物图:ØLM 358D 内部包括有两个独立、高增益、内部频率补偿的双运算放大器。
适合于电源电压范围很宽的单电源使用,也适用于双电源工作模式。
使用范围广。
ØLM 358D 为SOP8封装。
总体来说是一个低功耗,宽供电范围的性能运算放大器,可在不牺牲宝贵的电路板空间的情况下,以经济的价格设计成各种应用芯片功能主要特性:Ø内部频率补偿,直流电压增益高100dB Ø单位增益频带宽:1MHZ Ø低功耗电流适合电池供电Ø低输入偏置电流45nA Ø宽电源输入+3V to 30V Ø低输入失调电压和失调电流Ø共模输入电压范围宽Ø差模输入电压范围宽Ø输出电压摆幅大应用:Ø充电器Ø电源适配器Ø传感器放大器Ø压电传感器放大器Ø医疗仪器工业控制Ø音频放大器输出Ø直流增益模组DC 增益部件电话:*************82568883邮箱:**********************传真:*************网址:公司地址:深圳市福田区滨河大道联合广场A 座1308LM358DLM358D双运算放大器简化示意图:绝对最大额定值:差分输入电压输入电流(VIN<−0.3V)(2)±电源电压50mA电源电压(V+-V−)输入电压30V −0.3V to+5V输出短路到GND,V+≤15V and TA=25°C(3)连续存储温度范围结温(4)−65°C to150°C150°C安装温度铅温度(焊接,10秒)红外(10秒)60°C 215°C对环境的热阻(θJA ESD耐受(5)265°C/W300V电话:*************82568883邮箱:**********************传真:*************网址:公司地址:深圳市福田区滨河大道联合广场A座1308LM358D双运算放大器(1)绝对最大额定值表示超出该设备损坏的范围可能发生的极限。
R GR FV INV OUT1Features•Wide supply range of 3V to 36V (B version)•Quiescent current:300µA per amplifier (B version,typical)•Unity-gain bandwidth of 1.2MHz (B version)•Common-mode input voltage range includes ground,enabling direct sensing near ground•Low input offset voltage of 3mV at 25°C (A and B versions,maximum)•Internal RF and EMI filter (B version)•On products compliant to MIL-PRF-38535,allparameters are tested unless otherwise noted.On all other products,production processing does not necessarily include testing of all parameters.2Applications•Merchant network and server power supply units •Multi-function printers•Power supplies and mobile chargers•Motor control:AC induction,brushed DC,brushless DC,high-voltage,low-voltage,permanent magnet,and stepper motor •Desktop PC and motherboard•Indoor and outdoor air conditioners •Washers,dryers,and refrigerators•AC inverters,string inverters,central inverters,and voltage frequency drives •Uninterruptible power supplies •Programmable logic controllers •Electronic point-of-sale systemsSingle-Pole,Low-Pass Filter3DescriptionThe LM358B and LM2904B devices are the next-generation versions of the industry-standard operational amplifiers (op amps)LM358and LM2904,which include two high-voltage (36-V)op amps.These devices provide outstanding value for cost-sensitive applications,with features including low offset (300µV,typical),common-mode input range to ground,and high differential input voltage capability.The LM358B and LM2904B op amps simplify circuit design with enhanced features such as unity-gain stability,lower offset voltage of 3mV (maximum at room temperature),and lower quiescent current of 300µA per amplifier (typical).High ESD (2kV,HBM)and integrated EMI and RF filters enable the LM358B and LM2904B devices to be used in the most rugged,environmentally challenging applications.The LM358B and LM2904B amplifiers are available in micro-sized packaging,such as the SOT23-8,as well as industry standard packages,including SOIC,TSSOP,and VSSOP.Device Information (1)PART NUMBERPACKAGEBODY SIZE (NOM)LM358B,LM2904B,LM358,LM358A,LM2904,LM2904V,LM258,LM258A SOIC (8) 4.90mm ×3.90mmLM358B,LM2904B,LM358,LM358A,LM2904,LM2490VTSSOP (8)3.00mm ×4.40mmLM358B (2),LM2904B (2),LM358,LM358A,LM2904,LM2904V,LM258,LM258A VSSOP (8) 3.00mm ×3.00mm LM358B (2),LM2904B (2)SOT-23(8) 2.90mm ×1.60mm LM358,LM2904SO (8) 5.20mm ×5.30mm LM358,LM2904,LM358A,LM258,LM258A PDIP (8)9.81mm ×6.35mm LM158,LM158A CDIP (8)9.60mm ×6.67mm LM158,LM158ALCCC (20)8.89mm ×8.89mm(1)For all available packages,see the orderableaddendum atthe end of the data sheet.(2)Package is for preview only.找Memory 、FPGA 、二三极管、连接器、模块、光耦、电容电阻、单片机、处理器、晶振、传感器、 滤波器,上深圳市美光存储技术有限公司LM158,LM158A,LM258,LM258ALM358,LM358A,LM358B,LM358BA,LM2904,LM2904B,LM2904BA,LM2904VSLOS068X–JUNE1976–REVISED JUNE2020MIN MAX UNITSupply voltage,V S=([V+]–[V–])LM358B,LM358BA,LM2904B,LM2904BA±20or40V LM158,LM258,LM358,LM158A,LM258A,LM358A,LM2904V±16or32LM2904±13or26Differential input voltage,V ID(2)LM358B,LM358BA,LM2904B,LM2904BA,LM158,LM258,LM358,LM158A,LM258A,LM358A,LM2904V–3232V LM2904–2626Input voltage,V I Either input LM358B,LM358BA,LM2904B,LM2904BA–0.340V LM158,LM258,LM358,LM158A,LM258A,LM358A,LM2904V–0.332LM2904–0.326Duration of output short circuit(one amplifier)to ground at(or below)T A=25°C,V S≤15V(3)Unlimited sOperating ambient temperature,T A LM158,LM158A–55125°C LM258,LM258A–2585LM358B,LM358BA–4085LM358,LM358A070LM2904B,LM2904BA,LM2904,LM2904V–40125Operating virtual-junction temperature,T J150°C Storage temperature,T stg–65150°CLM158,LM158A,LM258,LM258ALM358,LM358A,LM358B,LM358BA,LM2904,LM2904B,LM2904BA,LM2904VSLOS068X–JUNE1976–REVISED JUNE2020 7.3Recommended Operating Conditionsover operating ambient temperature range(unless otherwise noted)MIN MAX UNITV S Supply voltage,V S=([V+]–[V–])LM358B,LM358BA,LM2904B,LM2904BA336V LM158,LM258,LM358,LM158A,LM258A,LM358A,LM2904V330LM2904326V CM Common-mode voltage V–V+–2VT A Operating ambient temperature LM358B,LM358BA–4085°C LM2904B,LM2904BA,LM2904,LM2904V–40125LM358,LM358A070LM258,LM258A–2085LM158,LM158A–55125LM158,LM158A,LM258,LM258ALM358,LM358A,LM358B,LM358BA,LM2904,LM2904B,LM2904BA,LM2904V SLOS068X–JUNE1976–REVISED JUNE2020Typical Characteristics(continued)LM158,LM158A,LM258,LM258A LM358,LM358A,LM358B,LM358BA,LM2904,LM2904B,LM2904BA,LM2904VSLOS068X–JUNE1976–REVISED JUNE2020PARTS PRODUCT FOLDER ORDER NOWTECHNICALDOCUMENTSTOOLS&SOFTWARESUPPORT&COMMUNITYLM158Click here Click here Click here Click here Click here LM158A Click here Click here Click here Click here Click here LM258Click here Click here Click here Click here Click here LM258A Click here Click here Click here Click here Click here LM358Click here Click here Click here Click here Click here LM358A Click here Click here Click here Click here Click here LM358B Click here Click here Click here Click here Click here LM2904Click here Click here Click here Click here Click here LM2904B Click here Click here Click here Click here Click here LM2904V Click here Click here Click here Click here Click here。
3212019910111213456781817161514NC2OUTNC2IN−NCNC1IN−NC1IN+NCNC1OUTNCNCNCNCGNDNCCC+V2IN+123487651OUT1IN−1IN+GNDV CC2OUT2IN−2IN+LM158,LM158A,LM258,LM258ALM358,LM358A,LM2904,LM2904VSLOS068S–JUNE1976–REVISED MAY2013FEATURES DESCRIPTIONThese devices consist of two independent,high-gain •Wide Supply Rangesfrequency-compensated operational amplifiers –Single Supply:3V to32V(26V for designed to operate from a single supply over a wide LM2904)range of voltages.Operation from split supplies also –Dual Supplies:±1.5V to±16V(±13V for is possible if the difference between the two suppliesis3V to32V(3V to26V for the LM2904),and V CC LM2904)is at least 1.5V more positive than the input •Low Supply-Current Drain,Independent ofcommon-mode voltage.The low supply-current drain Supply Voltage:0.7mA Typis independent of the magnitude of the supply •Wide Unity Gain Bandwidth:0.7MHz voltage.•Common-Mode Input Voltage Range Includes Applications include transducer amplifiers,dc Ground,Allowing Direct Sensing Near Ground amplification blocks,and all the conventional •Low Input Bias and Offset Parameters operational amplifier circuits that now can beimplemented more easily in single-supply-voltage –Input Offset Voltage:3mV Typsystems.For example,these devices can beA Versions:2mV Typoperated directly from the standard5-V supply used –Input Offset Current:2nA Typ in digital systems and easily can provide the requiredinterface electronics without additional±5-V supplies.–Input Bias Current:20nA TypA Versions:15nA Typ•Differential Input Voltage Range Equal toMaximum-Rated Supply Voltage:32V(26V forLM2904)•Open-Loop Differential Voltage Gain:100dBTyp•Internal Frequency Compensation•On Products Compliant to MIL-PRF-38535,All Parameters Are Tested Unless OtherwiseNoted.On All Other Products,ProductionProcessing Does Not Necessarily IncludeTesting of All Parameters.LM158,LM158A...FK Package LM158,LM158A...JG Package(Top View) LM258,LM258A...D,DGK,or P PackageLM358...D,DGK,P,PS,or PW PackageLM358A...D,DGK,P,or PW PackageLM2904...D,DGK,P,PS,or PW Package(Top View)NC−No internal connectionPlease be aware that an important notice concerning availability,standard warranty,and use in critical applications ofTexas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.PRODUCTION DATA information is current as of publication date.Copyright©1976–2013,Texas Instruments Incorporated Products conform to specifications per the terms of the TexasInstruments standard warranty.Production processing does notnecessarily include testing of all parameters.V CC+OUTGND (or V CC−)AmplifierIN−IN+Epi-FET Diodes Resistors Transistors CapacitorsCOMPONENT COUNT 127512IN+IN−OUTLM158,LM158A,LM258,LM258A LM358,LM358A,LM2904,LM2904VSLOS068S –JUNE 1976–REVISED MAY 2013This integrated circuit can be damaged by ESD.Texas Instruments recommends that all integrated circuits be handled with appropriate precautions.Failure to observe proper handling and installation procedures can cause damage.ESD damage can range from subtle performance degradation to complete device failure.Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications.Symbol (Each Amplifier)Schematic (Each Amplifier)2Submit Documentation Feedback Copyright ©1976–2013,Texas Instruments IncorporatedLM158,LM158A,LM258,LM258ALM358,LM358A,LM2904,LM2904VSLOS068S–JUNE1976–REVISED MAY2013 Absolute Maximum Ratingsover operating free-air temperature range(unless otherwise noted)(1)LM158,LM158ALM258,LM258A LM2904UNITLM358,LM358ALM2904VSupply voltage,V CC(2)±16or32±13or26V Differential input voltage,V ID(3)±32±26V Input voltage,V I(either input)–0.3to32–0.3to26V Duration of output short circuit(one amplifier)to ground at(or below)T A=25°C,V CC≤15V(4)Unlimited UnlimitedD package9797DGK package172172Package thermal impedance,θJA(4)(5)P package8585°C/WPS package9595PW package149149D package72.2Package thermal impedance,θJC(6)(7)FK package 5.61°C/WJG package14.5LM158,LM158A–55to125LM258,LM258A–25to85Operating free air temperature range.T A°CLM358,LM358A0to70LM2904–40to125–40to125 Operating virtual junction temperature,T J150150°C Case temperature for60seconds FK package260°CLead temperature1,6mm(1/16inch)from case for60JG package300300°C secondsStorage temperature range,T stg–65to150–65to150°C (1)Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device.These are stress ratingsonly,and functional operation of the device at these or any other conditions beyond those indicated under Recommended Operating Conditions is not implied.Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.(2)All voltage values(except differential voltages and V CC specified for the measurement of I OS)are with respect to the network GND.(3)Differential voltages are at IN+,with respect to IN−.(4)Short circuits from outputs to V CC can cause excessive heating and eventual destruction.(5)Maximum power dissipation is a function of T J(max),θJA,and T A.The maximum allowable power dissipation at any allowable ambienttemperature is P D=(T J(max)–T A)/θJA.Operating at the absolute maximum T J of150°C can affect reliability.(6)Maximum power dissipation is a function of T J(max),θJC,and T C.The maximum allowable power dissipation at any allowable casetemperature is P D=(T J(max)–T C)/θJC.Operating at the absolute maximum T J of150°C can affect reliability.(7)The package thermal impedance is calculated in accordance with MIL-STD-883.Copyright©1976–2013,Texas Instruments Incorporated Submit Documentation Feedback3LM158,LM158A,LM258,LM258ALM358,LM358A,LM2904,LM2904VSLOS068S–JUNE1976–REVISED MAY2013Electrical Characteristicsat specified free-air temperature,V CC=5V(unless otherwise noted)LM158LM258LM358 PARAMETER TEST CONDITIONS(1)T A(2)UNITMIN TYP(3)MAX MIN TYP(3)MAX25°C3537V CC=5V to MAX,V IC=V ICR min,V IO Input offset voltage mVV O=1.4V Full range79Average temperature coefficient ofαV IO Full range77µV/°C input offset voltage25°C230250I IO Input offset current V O=1.4V nAFull range100150Average temperature coefficient ofαI IO Full range1010pA/°C input offset current25°C–20–150–20–250I IB Input bias current V O=1.4V nAFull range–300–5000to0to25°CV CC–1.5V CC–1.5V ICR Common-mode input voltage range V CC=5V to MAX V0to0toFull rangeV CC–2V CC–2R L≥2kΩ25°C V CC–1.5V CC–1.5R L≥10kΩ25°CV OH High-level output voltage VR L=2kΩFull range2626V CC=MAXR L≥10kΩFull range27282728V OL Low-level output voltage R L≤10kΩFull range520520mVV CC=15V25°C5010025100Large-signal differential voltage VO =1V to11V,A VD V/mVamplification Full range2515R L≥2kΩV CC=5V to MAX,CMRR Common-mode rejection ratio25°C70806580dBV IC=V ICR(min)Supply-voltage rejection ratiok SVR V CC=5V to MAX25°C6510065100dB (ΔV DD/ΔV IO)V O1/V O2Crosstalk attenuation f=1kHz to20kHz25°C120120dBV CC=15V,25°C–20–30–20–30V ID=1V,SourceFull range–10–10V O=0mAI O Output current V CC=15V,25°C10201020V ID=–1V,SinkFull range55V O=15VV ID=–1V,V O=200mV25°C12301230μAV CC at5V,V O=0,I OS Short-circuit output current25°C±40±60±40±60mAGND at–5VV O=2.5V,No load Full range0.7 1.20.7 1.2I CC Supply current(two amplifiers)mAV CC=MAX,V O=0.5V CC,Full range1212No load(1)All characteristics are measured under open-loop conditions,with zero common-mode input voltage,unless otherwise specified.MAXV CC for testing purposes is26V for LM2902and30V for the others.(2)Full range is–55°C to125°C for LM158,–25°C to85°C for LM258,and0°C to70°C for LM358,and–40°C to125°C for LM2904.(3)All typical values are at T A=25°C4Submit Documentation Feedback Copyright©1976–2013,Texas Instruments IncorporatedLM158,LM158A,LM258,LM258ALM358,LM358A,LM2904,LM2904VSLOS068S–JUNE1976–REVISED MAY2013 Electrical Characteristicsat specified free-air temperature,V CC=5V(unless otherwise noted)LM2904PARAMETER TEST CONDITIONS(1)T A(2)UNITMIN TYP(3)MAX25°C37Non-A-suffixV CC=5V to MAX,devices Full range10V IO Input offset voltage V IC=V ICR(min),mV25°C12V O=1.4V A-suffix devicesFull range4Average temperature coefficient of inputαV IO Full range7μV/°C offset voltage25°C250Non-V deviceFull range300I IO Input offset current V O=1.4V nA25°C250V-suffix deviceFull range150Average temperature coefficient of inputαI IO Full range10pA/°C offset current25°C–20–250I IB Input bias current V O=1.4V nAFull range–5000to25°CV CC–1.5V ICR Common-mode input voltage range V CC=5V to MAX V0toFull rangeV CC–2R L≥10kΩ25°C V CC−1.5R L=2kΩFull range22V CC=MAX,Non-V deviceV OH High-level output voltage R L≥10kΩFull range2324VR L=2kΩFull range26V CC=MAXV-suffix device RL≥10kΩFull range2728V OL Low-level output voltage R L≤10kΩFull range520mVV CC=15V,25°C25100A VD Large-signal differential voltage amplification V O=1V to11V,V/mVFull range15R L≥2kΩNon-V device25°C5080V CC=5V to MAX,CMRR Common-mode rejection ratio dBV IC=V ICR(min)V-suffix device25°C6580Supply-voltage rejection ratiok SVR V CC=5V to MAX25°C65100dB (ΔV CC/ΔV IO)V O1/V O2Crosstalk attenuation f=1kHz to20kHz25°C120dBV CC=15V,25°C–20–30V ID=1V,SourceFull range–10V O=0mAV CC=15V,25°C1020I O Output current VID =–1V,SinkFull range5V O=15VNon-V device25°C30V ID=–1V,V O=200mVμAV-suffix device25°C1240I OS Short-circuit output current V CC at5V,V O=0,GND at−5V25°C±40±60mAV O=2.5V,No load Full range0.7 1.2I CC Supply current(four amplifiers)mAV CC=MAX,V O=0.5V CC,No load Full range12(1)All characteristics are measured under open-loop conditions,with zero common-mode input voltage,unless otherwise specified.MAXV CC for testing purposes is26V for LM2902and32V for LM2902V.(2)Full range is–55°C to125°C for LM158,–25°C to85°C for LM258,0°C to70°C for LM358,and–40°C to125°C for LM2904.(3)All typical values are at T A=25°C.Copyright©1976–2013,Texas Instruments Incorporated Submit Documentation Feedback5LM158,LM158A,LM258,LM258A LM358,LM358A,LM2904,LM2904VSLOS068S –JUNE 1976–REVISED MAY 2013Electrical Characteristicsat specified free-air temperature,V CC =5V (unless otherwise noted)LM158A LM258A PARAMETERTEST CONDITIONS (1)T A (1)UNITMINTYP (2)MAXMINTYP (2)MAXV CC =5V to 30V,25°C 223V IO Input offset voltage V IC =V ICR(min),mV Full range44V O =1.4VAverage temperatureαV IO Full range 715(3)715µA/°Ccoefficient of input offset voltage 25°C 210215I IO Input offset current V O =1.4VnAFull range3030Average temperatureαI IO Full range 1020010200pA/°Ccoefficient of input offset current 25°C –15–50–15–80I IB Input bias currentV O =1.4VnAFull range –100–1000to 0to 25°CV CC –1.5V CC –1.5Common-mode V ICRV CC =30VVinput voltage range0to 0to Full rangeV CC –2V CC –2R L ≥2k Ω25°CV CC –1.5V CC –1.5High-level output V OHR L =2k ΩFull range 2626VvoltageV CC =30V R L ≥10k ΩFull range 27282728Low-level output V OL R L ≤10k ΩFull range 520520mVvoltageLarge-signal25°C 5010050100V CC =15V,V O =1V to 11V,A VD differential voltage V/mVR L ≥2k ΩFull range 2525amplification Common-mode CMRR25°C70807080dBrejection ratio Supply-voltage rejection ratio k SVR 25°C 6510065100dB(ΔV D /ΔV IO )Crosstalk V O1/V O2f =1kHz to 20kHz 25°C 120120dBattenuationV CC =15V,25°C–20–30–60–20–30−60V ID =1V,SourceFull range –10–10V O =0mAI O Output currentV CC =15V,25°C10201020V ID =–1V,SinkFull range 55V O =15VV ID =−1V,V O =200mV25°C 12301230μA V CC at 5V,GND at –5V,Short-circuit output I OS25°C ±40±60±40±60mAcurrentV O =0V O =2.5V,No load Full range 0.7 1.20.7 1.2Supply current (four I CC mAV CC =MAX V,V O =0.5V,amplifiers)Full range1212No load(1)All characteristics are measured under open-loop conditions,with zero common-mode input voltage,unless otherwise specified.MAX V CC for testing purposes is 26V for LM2904and 30V for others.(2)All typical values are at T A =25°C.(3)On products compliant to MIL-PRF-38535,this parameter is not production tested.6Submit Documentation Feedback Copyright ©1976–2013,Texas Instruments IncorporatedLM158,LM158A,LM258,LM258ALM358,LM358A,LM2904,LM2904VSLOS068S–JUNE1976–REVISED MAY2013 Electrical Characteristicsat specified free-air temperature,V CC=5V(unless otherwise noted)LM358APARAMETER TEST CONDITIONS(1)T A(2)UNITMIN TYP(3)MAXV CC=5V to30V,25°C23V IO Input offset voltage V IC=V ICR(min),mVFull range5V O=1.4VAverage temperatureαV IO coefficient of input offset Full range720µA/°C voltage25°C230I IO Input offset current V O=1.4V nAFull range75Average temperatureαI IO coefficient of input offset Full range10300pA/°C current25°C–15–100I IB Input bias current V O=1.4V nAFull range–2000to25°CV CC–1.5Common-mode inputV ICR V CC=30V V voltage range0toFull rangeV CC–2R L≥2kΩ25°C V CC–1.5V OH High-level output voltage R L=2kΩFull range26VV CC=30VR L≥10kΩFull range2728V OL Low-level output voltage R L≤10kΩFull range520mV25°C25100V CC=15V,V O=1V to11V,Large-signal differentialA VD V/mVvoltage amplification R≥2kΩFull range15LCommon-mode rejectionCMRR25°C6580dB ratioSupply-voltage rejectionratiok SVR25°C65100dB (ΔV DD/ΔV IO)V O1/V O2Crosstalk attenuation f=1kHz to20kHz25°C120dBV CC=15V,25°C–20–30−60V ID=1V,SourceFull range–10V O=0mAI O Output current V CC=15V,25°C1020V ID=–1V,SinkFull range5V O=15VV ID=–1V,V O=200mV25°C30μAV CC at5V,GND at–5V,I OS Short-circuit output current25°C±40±60mAV O=0V O=2.5V,No load Full range0.7 1.2 Supply current(fourI CC mAV CC=MAX V,V O=0.5V,amplifiers)Full range12No load(1)All characteristics are measured under open-loop conditions,with zero common-mode input voltage,unless otherwise specified.MAXV CC for testing purposes is26V for LM2904and30V for others.(2)All characteristics are measured under open-loop conditions,with zero common-mode input voltage,unless otherwise specified.MAXV CC for testing purposes is26V for LM2904and30V for others.(3)All typical values are at T A=25°C.Operating Conditions,V CC=±15V,T A=25°CPARAMETER TEST CONDITIONS TYP UNITSR Slew rate at unity gain R L=1MΩ,C L=30pF,V I=±10V(see Figure1)0.3V/μsB1Unity-gain bandwidth R L=1MΩ,C L=20pF(see Figure1Figure1)0.7MHzV n Equivalent input noise voltage R S=100Ω,V I=0V,f=1kHz(see Figure2)40nV/√Hz Copyright©1976–2013,Texas Instruments Incorporated Submit Documentation Feedback7LM158,LM158A,LM258,LM258A LM358,LM358A,LM2904,LM2904VSLOS068S –JUNE 1976–REVISED MAY 2013Figure 1.Unity-Gain AmplifierFigure 2.Noise-Test Circuit8Submit Documentation Feedback Copyright ©1976–2013,Texas Instruments IncorporatedLM158,LM158A,LM258,LM258A LM358,LM358A,LM2904,LM2904VSLOS068S –JUNE 1976–REVISED MAY 2013Typical CharacteristicsCopyright ©1976–2013,Texas Instruments Incorporated Submit Documentation Feedback 9LM158,LM158A,LM258,LM258A LM358,LM358A,LM2904,LM2904VSLOS068S –JUNE 1976–REVISED MAY 2013Typical Characteristics (continued)10Submit Documentation Feedback Copyright ©1976–2013,Texas Instruments IncorporatedLM158,LM158A,LM258,LM258A LM358,LM358A,LM2904,LM2904VSLOS068S –JUNE 1976–REVISED MAY 2013Typical Characteristics (continued)Copyright ©1976–2013,Texas Instruments Incorporated Submit Documentation Feedback 11LM158,LM158A,LM258,LM258ALM358,LM358A,LM2904,LM2904VSLOS068S–JUNE1976–REVISED MAY2013REVISION HISTORYChanges from Revision R(July2010)to Revision S Page •Converted this data sheet from the QS format to DocZone using the PDF on the web (1)•Updated Features (1)•Added ESD warning (2)•Deleted Ordering Information table (2)•Added Package thermal impedance information,θJC for D package (3)•Added Typical Characteristics Section (9)12Submit Documentation Feedback Copyright©1976–2013,Texas Instruments Incorporated万联芯城-电子元器件采购网,提供一站式配套,解决物料烦恼,万联芯城销售IC电子元器件,芯片,电阻,电容,二极管,三极管等多种类别,现货型号能够满足各种物料需求,万联芯城电子元器件一站式配单能满足多样化BOM 表需求,优势报价,下单优惠,为客户节省采购成本,满足客户物料需求,PDF完整版点击进入万联芯城。
LM358功能中文资料LM358是一种低功耗双运放,由德州仪器(Texas Instruments)公司制造。
它被广泛用于各种电子设备中,包括信号放大、滤波器、比较器和运算放大器等电路。
本文将详细介绍LM358的功能和特点。
首先,LM358具有双运放的结构,意味着它在一颗芯片上包含两个独立的运算放大器。
每个运放都有两个输入端和一个输出端。
这个结构使得LM358非常适合在需要多个放大器的应用中使用,减少了元件数量和电路板的面积。
LM358的输入电压范围非常广,可以接受从地线到电源线(通常是±15V)的电压。
这使得它非常适用于双电源供电电路,同时也使得它的应用更加灵活。
此外,LM358的输入阻抗很高,通常为100MΩ,使得它能够接收来自各种信号源的较小输入电压。
LM358的增益范围也很大,通常为100dB以上。
这使得它适用于需要高放大倍数的应用,如音频放大器和传感器信号放大器等。
此外,它还具有高输出电流能力,通常为20mA,这意味着它可以为外部负载提供足够的电流,以驱动各种外部元件。
本文接下来将重点介绍LM358在不同应用中的功能。
首先是信号放大功能。
LM358可以用作信号放大器,将弱信号放大至适当的水平。
它的低噪声和高增益使其非常适用于接收和放大来自传感器、麦克风和其他传感器的信号。
其次是滤波器功能。
利用LM358的运算放大器,可以构建各种类型的滤波器,如低通滤波器、高通滤波器、带通滤波器和带阻滤波器。
这些滤波器可用于消除噪音、筛选特定频率的信号和提高系统的稳定性。
第三是比较器功能。
LM358可以用作比较器,将两个输入信号进行比较,输出一个高或低电平。
它的高增益和高速度使其适用于需要快速响应和精确比较的应用,如电压判断和开关控制。
最后是运算放大器功能。
LM358的运算放大器具有高增益和低偏移电压,可以用于各种运算放大器电路,如放大、求和、差分运算和反馈控制等。
它可以用来设计各种类型的反馈控制系统,如温度控制系统、电流控制系统和电压控制系统。
LM358中文资料图1 DIP塑封引脚图引脚功能图2圆形金属壳封装管脚图图3内部电路原理图lm358中文资料LM358内部包括有两个独立的、高增益、内部频率补偿的双运算放大器,适合于电源电压范围很宽的单电源使用,也适用于双电源工作模式,在推荐的工作条件下,电源电流与电源电压无关。
它的使用范围包括传感放大器、直流增益模组,音频放大器、工业控制、DC增益部件和其他所有可用Vcc0UTPUT2IN PUT 玄•)INP UTN+)V*4LL二inpLt 一—“XNor - p /eri!ig\11冲QMA50uA单电源供电的使用运算放大器的场合。
LM358的封装形式有塑封8引线双列直插式和贴片式。
特性(Features):*内部频率补偿。
*直流电压增益高(约lOOdB)。
*单位增益频带宽(约1MHz)。
土 15V)。
*电源电压范围宽:单电源(3 —30V);双电源(± 1.5*低功耗电流,适合于电池供电。
*低输入偏流。
*低输入失调电压和失调电流。
*共模输入电压范围宽,包括接地。
*差模输入电压范围宽,等于电源电压范围。
*输出电压摆幅大(0至VCC-1.5V)。
参数输入偏置电流45 nA输入失调电流50 nA输入失调电压2.9mV输入共模电压最大值VCC~1.5 V共模抑制比80dB电源抑制比100dBLM358应用电路图:Cl图6 TTL驱动电路IOVWlOUkHI lOOi h1!?2 LM1I血1总 LMint和? I 和「碍Cl31ID K Ft? J J 111 时R1 inmB一、-Jh ■ u h K M图7 RC有源带通滤波器 A1 100k图 8 Squarewave 振荡图9滞后比较器HI670ClD-lluFHHrCt S R ;IRRZ 3? Ofc<$-Jf c ri T _[%5b^LM35BV3 I MJ5RV QRa lOOhR7 tmihH6 12IH wv丄” =1 KHd0 — E5图10带通有源滤波器图12电流监视器图13低漂移峰值检测器图15功率放大器外围电路1J JKmAI L SIT工片Ikiv(r}V 严i --- -"(liTizrciRC R1for图11 灯驱动程H潮flIQQhSlil!¥m 5 S'*A z1«<LM15B血LMlSa OUTPUT 1+■埔+/3 51KlOUk/V%/Q OUTPUT 2WkVwVOOlxfIIMR2llOShilVSU3Pi9H图16电压控制振荡器VCOIH4IkTH LMJ5B源脉冲发生器Vin iR1IdhRZIQQkCl 曙fVR3iaokR4〕叱:-TL-TL图17 固定电流taiHiAAZV图18 隔JVPP图19交流耦合反相放大器Rl FW3 Vpp图20交流耦合非反相放大器ni图21 可调增益仪表放大器心】0—W*—Iq J1器> I呱in IM2 LNIfiS5inlOOhFllOOhRImlA'hcrc: K口二V)+ Vy - '% - V.iW - '也匕何3 — V,l) 1C. kfrCp *1r令V QQ图22直流放大图23脉冲发生器Vo - %图24桥式电流放大图25引用差分输入信号ft?VoAS 谢>^呦;V Q = 2 他VJ图26直流差动放大器。
PACKAGING INFORMATIONOrderable Device Status (1)Package Type Package Drawing Pins Package Qty Eco Plan (2)Lead/Ball FinishMSL Peak Temp (3)5962-87710012A ACTIVE LCCC FK 201TBD POST-PLATE N /A for Pkg Type 5962-8771001PA ACTIVE CDIP JG 81TBD A42SNPB N /A for Pkg Type 5962-87710022A ACTIVE LCCC FK 201TBD POST-PLATE N /A for Pkg Type 5962-8771002PA ACTIVE CDIP JG 81TBD A42SNPB N /A for Pkg Type LM158AFKB ACTIVE LCCC FK 201TBD POST-PLATE N /A for Pkg TypeLM158AJG ACTIVE CDIP JG 81TBD A42SNPB N /A for Pkg Type LM158AJGB ACTIVE CDIP JG 81TBD A42SNPB N /A for Pkg Type LM158FKB ACTIVE LCCC FK 201TBD POST-PLATE N /A for Pkg TypeLM158JG ACTIVE CDIP JG 81TBD A42SNPB N /A for Pkg Type LM158JGB ACTIVE CDIP JG 81TBD A42SNPB N /A for Pkg Type LM258AD ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258ADE4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258ADG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258ADGKR ACTIVE MSOP DGK 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258ADGKRG4ACTIVE MSOP DGK 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258ADR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258ADRE4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258ADRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258AP ACTIVE PDIP P 850Pb-Free (RoHS)CU NIPDAU N /A for Pkg Type LM258APE4ACTIVE PDIP P 850Pb-Free (RoHS)CU NIPDAU N /A for Pkg Type LM258D ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258DE4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258DG4ACTIVE SOIC D 875Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258DGKR ACTIVE MSOP DGK 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258DGKRG4ACTIVE MSOP DGK 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258DR ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258DRE4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258DRG4ACTIVE SOIC D 82500Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM258PACTIVEPDIPP850Pb-Free (RoHS)CU NIPDAUN /A for Pkg TypePACKAGE OPTION ADDENDUM1-Jul-2009Addendum-Page 1Orderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)LM258PE4ACTIVE PDIP P850Pb-Free(RoHS)CU NIPDAU N/A for Pkg TypeLM2904AVQDR ACTIVE SOIC D82500Pb-Free(RoHS)CU NIPDAU Level-2-250C-1YEAR/Level-1-235C-UNLIMLM2904AVQDRG4ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904AVQPWR ACTIVE TSSOP PW82000TBD CU NIPDAU Level-1-250C-UNLIM LM2904AVQPWRG4ACTIVE TSSOP PW82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904D ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904DE4ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904DG4ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904DGKR ACTIVE MSOP DGK82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904DGKRG4ACTIVE MSOP DGK82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904DR ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904DRE4ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904DRG4ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904P ACTIVE PDIP P850Pb-Free(RoHS)CU NIPDAU N/A for Pkg TypeLM2904PE4ACTIVE PDIP P850Pb-Free(RoHS)CU NIPDAU N/A for Pkg TypeLM2904PSR ACTIVE SO PS82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904PSRE4ACTIVE SO PS82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904PSRG4ACTIVE SO PS82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904PW ACTIVE TSSOP PW8150Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904PWE4ACTIVE TSSOP PW8150Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904PWG4ACTIVE TSSOP PW8150Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM2904PWLE OBSOLETE TSSOP PW8TBD Call TI Call TILM2904PWR ACTIVE TSSOP PW82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904PWRE4ACTIVE TSSOP PW82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904PWRG4ACTIVE TSSOP PW82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904QD OBSOLETE SOIC D8TBD Call TI Call TILM2904QDR ACTIVE SOIC D82500Pb-Free(RoHS)CU NIPDAU Level-2-250C-1YEAR/Level-1-235C-UNLIMOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)LM2904QP OBSOLETE PDIP P8TBD Call TI Call TILM2904VQDR ACTIVE SOIC D82500Pb-Free(RoHS)CU NIPDAU Level-2-250C-1YEAR/Level-1-235C-UNLIMLM2904VQDRG4ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM2904VQPWR ACTIVE TSSOP PW82000TBD CU NIPDAU Level-1-250C-UNLIM LM2904VQPWRG4ACTIVE TSSOP PW82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358AD ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358ADE4ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358ADG4ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358ADGKR ACTIVE MSOP DGK82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358ADGKRG4ACTIVE MSOP DGK82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358ADR ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358ADRE4ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358ADRG4ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358AP ACTIVE PDIP P850Pb-Free(RoHS)CU NIPDAU N/A for Pkg TypeLM358APE4ACTIVE PDIP P850Pb-Free(RoHS)CU NIPDAU N/A for Pkg TypeLM358APW ACTIVE TSSOP PW8150Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358APWE4ACTIVE TSSOP PW8150Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358APWG4ACTIVE TSSOP PW8150Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358APWR ACTIVE TSSOP PW82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358APWRE4ACTIVE TSSOP PW82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358APWRG4ACTIVE TSSOP PW82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358D ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358DE4ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358DG4ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358DGKR ACTIVE MSOP DGK82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358DGKRG4ACTIVE MSOP DGK82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358DR ACTIVE SOIC D82500Green(RoHS&CU NIPDAU Level-1-260C-UNLIMOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)no Sb/Br)LM358DRE4ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358DRG4ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358P ACTIVE PDIP P850Pb-Free(RoHS)CU NIPDAU N/A for Pkg TypeLM358PE4ACTIVE PDIP P850Pb-Free(RoHS)CU NIPDAU N/A for Pkg Type LM358PSLE OBSOLETE SO PS8TBD Call TI Call TILM358PSR ACTIVE SO PS82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358PSRE4ACTIVE SO PS82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358PSRG4ACTIVE SO PS82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358PW ACTIVE TSSOP PW8150Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358PWE4ACTIVE TSSOP PW8150Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358PWG4ACTIVE TSSOP PW8150Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM358PWLE OBSOLETE TSSOP PW8TBD Call TI Call TILM358PWR ACTIVE TSSOP PW82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358PWRE4ACTIVE TSSOP PW82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMLM358PWRG4ACTIVE TSSOP PW82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIM(1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be discontinued,and a lifetime-buy period is in effect.NRND:Not recommended for new designs.Device is in production to support existing customers,but TI does not recommend using this part in a new design.PREVIEW:Device has been announced but is not in production.Samples may or may not be available.OBSOLETE:TI has discontinued the production of the device.(2)Eco Plan-The planned eco-friendly classification:Pb-Free(RoHS),Pb-Free(RoHS Exempt),or Green(RoHS&no Sb/Br)-please check /productcontent for the latest availability information and additional product content details.TBD:The Pb-Free/Green conversion plan has not been defined.Pb-Free(RoHS):TI's terms"Lead-Free"or"Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all6substances,including the requirement that lead not exceed0.1%by weight in homogeneous materials.Where designed to be soldered at high temperatures,TI Pb-Free products are suitable for use in specified lead-free processes.Pb-Free(RoHS Exempt):This component has a RoHS exemption for either1)lead-based flip-chip solder bumps used between the die and package,or2)lead-based die adhesive used between the die and leadframe.The component is otherwise considered Pb-Free(RoHS compatible)as defined above.Green(RoHS&no Sb/Br):TI defines"Green"to mean Pb-Free(RoHS compatible),and free of Bromine(Br)and Antimony(Sb)based flame retardants(Br or Sb do not exceed0.1%by weight in homogeneous material)(3)MSL,Peak Temp.--The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications,and peak solder temperature.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it isprovided.TI bases its knowledge and belief on information provided by third parties,and makes no representation or warranty as to the accuracy of such information.Efforts are underway to better integrate information from third parties.TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.TI and TI suppliers consider certain information to be proprietary,and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s)at issue in this document sold by TI to Customer on an annual basis.OTHER QUALIFIED VERSIONS OF LM258A,LM2904:•Automotive:LM2904-Q1•Enhanced Product:LM258A-EPNOTE:Qualified Version Definitions:•Automotive-Q100devices qualified for high-reliability automotive applications targeting zero defects•Enhanced Product-Supports Defense,Aerospace and Medical ApplicationsTAPE AND REEL INFORMATION*All dimensions are nominal Device Package Type Package DrawingPinsSPQ Reel Diameter (mm)Reel Width W1(mm)A0(mm)B0(mm)K0(mm)P1(mm)W (mm)Pin1Quadrant LM258ADGKR MSOPDGK 82500330.012.4 5.3 3.4 1.48.012.0Q1LM258ADGKR MSOPDGK 82500330.012.4 5.3 3.4 1.48.012.0Q1LM258ADR SOICD 82500330.012.4 6.4 5.2 2.18.012.0Q1LM258ADR SOICD 82500330.012.4 6.4 5.2 2.18.012.0Q1LM258DGKR MSOPDGK 82500330.012.4 5.3 3.4 1.48.012.0Q1LM258DGKR MSOPDGK 82500330.012.4 5.3 3.4 1.48.012.0Q1LM258DR SOICD 82500330.012.4 6.4 5.2 2.18.012.0Q1LM258DR SOICD 82500330.012.4 6.4 5.2 2.18.012.0Q1LM2904DGKR MSOPDGK 82500330.012.4 5.3 3.4 1.48.012.0Q1LM2904DGKR MSOPDGK 82500330.012.4 5.3 3.4 1.48.012.0Q1LM2904DR SOICD 82500330.012.4 6.4 5.2 2.18.012.0Q1LM2904DR SOICD 82500330.012.4 6.4 5.2 2.18.012.0Q1LM2904PSR SOPS 82000330.016.48.2 6.6 2.512.016.0Q1LM2904PWR TSSOPPW 82000330.012.47.0 3.6 1.68.012.0Q1LM358ADGKR MSOPDGK 82500330.012.4 5.3 3.4 1.48.012.0Q1LM358ADGKR MSOPDGK 82500330.012.4 5.3 3.4 1.48.012.0Q1LM358ADR SOICD 82500330.012.4 6.4 5.2 2.18.012.0Q1LM358ADR SOIC D 82500330.012.4 6.4 5.2 2.18.012.0Q1Device PackageType PackageDrawingPins SPQ ReelDiameter(mm)ReelWidthW1(mm)A0(mm)B0(mm)K0(mm)P1(mm)W(mm)Pin1QuadrantLM358APWR TSSOP PW82000330.012.47.0 3.6 1.68.012.0Q1 LM358DGKR MSOP DGK82500330.012.4 5.3 3.4 1.48.012.0Q1 LM358DGKR MSOP DGK82500330.012.4 5.3 3.4 1.48.012.0Q1 LM358DR SOIC D8*******.012.4 6.4 5.2 2.18.012.0Q1 LM358DR SOIC D8*******.012.4 6.4 5.2 2.18.012.0Q1 LM358PSR SO PS82000330.016.48.2 6.6 2.512.016.0Q1 LM358PWR TSSOP PW82000330.012.47.0 3.6 1.68.012.0Q1*All dimensions are nominalDevice Package Type Package Drawing Pins SPQ Length(mm)Width(mm)Height(mm) LM258ADGKR MSOP DGK82500332.0358.035.0LM258ADGKR MSOP DGK82500358.0335.035.0LM258ADR SOIC D8*******.5338.120.6LM258ADR SOIC D8*******.0346.029.0LM258DGKR MSOP DGK82500332.0358.035.0LM258DGKR MSOP DGK82500358.0335.035.0LM258DR SOIC D8*******.0346.029.0LM258DR SOIC D8*******.5338.120.6LM2904DGKR MSOP DGK82500358.0335.035.0LM2904DGKR MSOP DGK82500332.0358.035.0Device Package Type Package Drawing Pins SPQ Length(mm)Width(mm)Height(mm) LM2904DR SOIC D8*******.0346.029.0LM2904DR SOIC D8*******.5338.120.6LM2904PSR SO PS82000346.0346.033.0LM2904PWR TSSOP PW82000346.0346.029.0LM358ADGKR MSOP DGK82500358.0335.035.0LM358ADGKR MSOP DGK82500332.0358.035.0LM358ADR SOIC D8*******.5338.120.6LM358ADR SOIC D8*******.0346.029.0LM358APWR TSSOP PW82000346.0346.029.0LM358DGKR MSOP DGK82500332.0358.035.0LM358DGKR MSOP DGK82500358.0335.035.0LM358DR SOIC D8*******.5338.120.6LM358DR SOIC D8*******.0346.029.0LM358PSR SO PS82000346.0346.033.0LM358PWR TSSOP PW82000346.0346.029.0IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries(TI)reserve the right to make corrections,modifications,enhancements,improvements, and other changes to its products and services at any time and to discontinue any product or service without notice.Customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete.All products are sold subject to TI’s terms and conditions of sale supplied at the time of order acknowledgment.TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with TI’s standard warranty.Testing and other quality 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理工学院毕业设计外文资料翻译学院:理工学院专业:电子信息工程姓名:边治朋学号: 08L0701201外文出处:附件: 1.外文资料翻译译文;2.外文原文。
指导教师评语:签名:年月日附件1:外文资料翻译译文LM358使用手册1.电源范围3~30V2.低电源电流消耗与电源电压无关。
典型值为 0.7 mA 。
3. 共模输入电压范围宽度,包括接地。
低输入偏置与偏移参数:1.输入失调电压的典型值为3mV 。
2.输入失调电流的典型值为2nA 。
3.输入偏置电流的典型值为20nA 。
4.差分输入电压范围等于最大额定电压为±32V 。
5.开环差分电压放大的典型值为100 V/mV 。
内部频率补偿这个芯片包括两个独立的,高增益,频率补偿运算放大器。
适合于电源电压范围很宽的单电源使用,也是用于双电源工作模式。
两个电源之间的差值为3 V 至30 V ,和VCC 至少必须比共模输入电压高1.5 V。
LM358引脚图应用包括传感器放大器,直流放大器,和所有传统的运算放大器电路,现在可以更容易地在单电源电压系统实施。
例如,在数字系统中使用的标准5 V电源供电情况下可以直接操作这个芯片,电子接口无需额外的±5 V电源。
LM358的温度范围-25℃至125℃。
绝对最大额定值以上经营自由空气的温度范围内(除非另有说明)。
LM358 单位电源电压,VCC 32 V差分输入电压,VID±32 V输入电压VI–0.3 to 32 V接地输出短路持续时间(放大器)在(或低于)25°C自由空气的温度(Vcc≤15伏)(见注3)无限连续总功耗见耗散评价表经营自由的空气温度范围TA 0 to 70 °C存储温度范围,Tstg –65 to 150 °C外壳温度为60秒260 °C铅为60秒温度1,6毫米(1/16英寸)300 °C10秒的铅温度1,6毫米(1/16英寸)260 °C耗散评等表包装额定功率Ta≤25 °C降额因子TA= 25°CTA=70℃额定功率TA= 85°C额定功率TA= 125°C额定功率D 725 mW 5.8 mW/ °C 464 mW 377 mW 145 mWFK 1375 mW 11.0 mW/ °C 880 mW 715 mW 275 mW JG 1050 mW 8.4 mW/°C 672 mW 546 mW 210 mW P 1000 mW 8.0 mW/°C 640 mW 520 mW 200 mW PW 525 mW 4.2 mW/ °C 336 mW 273 mW在指定的自由空气温度的电气特性参数测试条件测试温度LM358单位最小典型值最大输入失调电压VCC= 5 V至最25℃ 3 7 mV大,全范围9平均温度系数输入失调电压全范围7 µV/ ℃输入失调电流VO=14V25℃ 2 50nA 全范围150平均气温系数输入失调电流全范围10 pA/°C输入偏置电流VO=14V25℃–20 –250nA 全范围-500共模输入电压范围VCC= 5 V至最大,25℃0至VCC-1.5V全范围0至VCC-2高电平输出电压RL≥ 2 k Ω25°C VCC–1.5V RL≥ 10 kΩ25°CVCC=最大RL=2kΩ全范围26RL≥10kΩ全范围27 28低电平输出电压RL ≤ 10 kΩ全范围 5 20 mV大信号差电压差放大VCC= 15 V,VO=1V至11V,RL= ≥ 2 kΩ25℃25 100V/mV全范围15共模抑制比VCC = 5 V 至最大,VIC=VICR(min)25°C 65 80 dB电源电压抑制比VCC = 5V到最大25°C 65 100 dB串音衰减f = 1 kHz to 20kHz25°C 120 dB输出电流VCC=15,VID=1 V,VO= 025°C –20 –30mA全范围–10VCC=15 V,VID=1 V,V o =15 V,25°C 10 20全范围 5VID = –1V,VO= 200 mV25°C 12 30 µA短路输出电流VCC=5 V,GND=-5V,VO= 025°C ±40 ±60 mA供电电流(两个放大器)VO= 2.5 V,无负载全范围0.7 1.2mA VCC= 最大,VO= 0.5 V,无负载全范围 1 2所有的特点是测量零共模输入电压开环的条件下,除非另有规定。
LM358LM358的封装形式有塑封引线双列直插式、贴片式和圆形金属封装等。
具有低功耗,低噪声的优点LM358内部包括有两个独立的、高增益、内部频率补偿的双运算放大器,适合于电源电压范围很宽的单电源使用,也适用于双电源工作模式,在推荐的工作条件下,电源电流与电源电压无关。
它的使用范围包括传感放大器、直流增益模组,音频放大器、工业控制、DC增益部件和其他所有可用单电源供电的使用运算放大器的场合产品用途:适用于监视器,充电器,汽车功放,小家电控板,无绳电话机,交换机,集线器,扫描器,民用音响,UPS,防盗器,电磁炉控板等。
性能及优点:LM358由两个独立、高增益和内部频率补偿的运算放大器组成。
可用一个宽范围的单电源供电。
也可用带隙电源供电;低输入电流不依赖供电电压的大小。
在整个频带增益有温度补偿。
输入偏置电流有温度补偿。
兼容所有的逻辑电平。
可用电池供电。
同一增益内部频率补偿。
大DC电压增益,达100 dB。
同一增益带宽:1 MHz。
宽供电电压:单电源供电:3V到32V。
双电源供电:±1.5V到±16V。
非常低的耗电(500 µA)不依赖电源供电。
低偏移电压:2 mV。
输入对地的通用电压。
差分输入电压于供电电压相等。
输出电压范围摆率:0V 到V+- 1.5V*内部频率补偿。
*直流电压增益高(约100dB) 。
*单位增益频带宽(约1MHz) 。
*电源电压范围宽:单电源(3—30V);双电源(±1.5一±15V) 。
*低功耗电流,适合于电池供电。
*低输入偏流。
*低输入失调电压和失调电流。
*共模输入电压范围宽,包括接地。
*差模输入电压范围宽,等于电源电压范围。
*输出电压摆幅大(0至Vcc-1.5V) 。
LM358主要参数输入偏置电流45 nA输入失调电流50 nA输入失调电压2.9mV输入共模电压最大值VCC~1.5 V共模抑制比80dB电源抑制比100dB行情分析LM358该型号,市场上比较常见,在各大网站上,搜索比较频繁,价格一直相对平稳。
LM358中文资料
图1 DIP塑封引脚图引脚功能
图2 圆形金属壳封装管脚图
图3 内部电路原理图
lm358中文资料
LM358内部包括有两个独立的、高增益、内部频率补偿的双运算放大器,
适合于电源电压范围很宽的单电源使用,也适用于双电源工作模式,在推荐的工
作条件下,电源电流与电源电压无关。
它的使用范围包括传感放大器、直流增益
模组,音频放大器、工业控制、DC增益部件和其他所有可用单电源供电的使用运算放大器的场合。
LM358的封装形式有塑封8引线双列直插式和贴片式。
特性(Features):
*内部频率补偿。
*直流电压增益高(约100dB) 。
*单位增益频带宽(约1MHz) 。
*电源电压范围宽:单电源(3—30V);双电源(±1.5一±15V) 。
*低功耗电流,适合于电池供电。
*低输入偏流。
*低输入失调电压和失调电流。
*共模输入电压范围宽,包括接地。
*差模输入电压范围宽,等于电源电压范围。
*输出电压摆幅大(0至Vcc-1.5V) 。
参数
输入偏置电流45 nA
输入失调电流50 nA
输入失调电压2.9mV
输入共模电压最大值VCC~1.5 V
共模抑制比80dB
电源抑制比100dB
LM358应用电路图:
图4 直流耦合低通RC有源滤波器
图5 LED驱动
器图6 TTL驱动电路
图7 RC有源带通滤波器
图8 Squarewave振荡
器
图9 滞后比较器
图10 带通有源滤波器
图11 灯驱动程
序图12 电流监视器
图13 低漂移峰值检测器
图14 电压跟随
器图15 功率放大器外围电路
图16 电压控制振荡器VCO
图17 固定电流
源图18 脉冲发生器
图19 交流耦合反相放大器
图20 交流耦合非反相放大器
图21 可调增益仪表放大器
图22 直流放大
器
图23脉冲发生器
图24 桥式电流放大
器
图25 引用差分输入信号
图26 直流差动放大器。