op07cp芯片参数资料(免费)

OP07中文资料op07的功能介绍：高精度单片运算放大器OP07是一种高精度单片运算放大器，具有很低的输入失调电压和漂移。

OP07的优良特性使它特别适合作前级放大器，放大微弱信号。

使用OP07一般不用考虑调零和频率问题就能满足要求。

主要特点：◆低输入失调电压：75uV(最大)◆低失调电压温漂：1.3uV/℃(最大)◆低失调电压时漂：1.5uV/月(最大)◆低噪声：0.6uV P-P(最大)◆宽输入电压范围：±14V◆宽电源电压范围：3V～18VOp07芯片是一种低噪声，非斩波稳零的双极性运算放大器集成电路。

由于OP07具有非常低的输入失调电压（对于OP07A最大为25μV），所以OP07在很多应用场合不需要额外的调零措施。

OP07同时具有输入偏置电流低（OP07A为±2nA）和开环增益高（对于OP07A为300V/mV）的特点，这种低失调、高开环增益的特性使得OP07特别适用于高增益的测量设备和放大传感器的微弱信号等方面。

特点：超低偏移：150μV最大。

低输入偏置电流： 1.8nA 。

低失调电压漂移：0.5μV/℃ 。

超稳定，时间：2μV/month最大高电源电压范围：±3V至±22V图1 OP07外型图片图2 OP07 管脚图OP07芯片引脚功能说明：1和8为偏置平衡(调零端)，2为反向输入端，3为正向输入端，4接地，5空脚 6为输出，7接电源+图3 OP07内部电路图ABSOLUTE MAXIMUM RATINGS 最大额定值Symbol Parameter参数Value数值电气特性虚拟通道连接= ± 15V ，Tamb = 25 ℃（除非另有说明）SRSlew Rate 转换率(RL =2KΩ,CL = 100pF) -0.17 -V/μSGBP Gain Bandwidth Product 带宽增益(RL =2KΩ,CL = 100pF, f =100kHz)-0.5 -MHzIcc Supply Current -(no load) 电源电流（无负载）0℃ ≤ Tamb≤ +70℃ VCC = ±3V-2.70.675 61.3mAen Equivalent Input NoiseVoltage等效输入噪声电压f = 10Hz -11 20nV√Hzf = 100Hz-10.5 13.5f = 1kHz-1011.5in Equivalent Input NoiseCurrent 等效输入噪声电流f = 10Hz-0.3 0.9PA√Hzf = 100Hz-0.20.3f = 1kHz-0.1 0.2图4 输入失调电压调零电路应用电路图：图5 典型的偏置电压试验电路图6 老化电路图7 典型的低频噪声放大电路图8 高速综合放大器图9 选择偏移零电路图10 调整精度放大器图11 高稳定性的热电偶放大器图12 精密绝对值电路（注：可编辑下载，若有不当之处，请指正，谢谢!）。

OP07中文资料op07的功能介绍：高精度单片运算放大器OP07是一种高精度单片运算放大器，具有很低的输入失调电压和漂移。

OP07的优良特性使它特别适合作前级放大器，放大微弱信号。

使用OP07一般不用考虑调零和频率问题就能满足要求。

主要特点：◆低输入失调电压：75uV(最大)◆低失调电压温漂：℃(最大)◆低失调电压时漂：月(最大)◆低噪声： P-P(最大)◆宽输入电压范围：±14V◆宽电源电压范围：3V～18VOp07芯片是一种低噪声，非斩波稳零的双极性运算放大器集成电路。

由于OP07具有非常低的输入失调电压（对于OP07A最大为25μV），所以OP07在很多应用场合不需要额外的调零措施。

OP07同时具有输入偏置电流低（OP07A为±2nA）和开环增益高（对于OP07A为300V/mV）的特点，这种低失调、高开环增益的特性使得OP07特别适用于高增益的测量设备和放大传感器的微弱信号等方面。

特点：超低偏移：150μV最大。

低输入偏置电流：。

低失调电压漂移：μV/℃ 。

超稳定，时间： 2μV/month最大高电源电压范围：±3V至±22V图1 OP07外型图片图2 OP07 管脚图OP07芯片引脚功能说明：1和8为偏置平衡(调零端)，2为反向输入端，3为正向输入端，4接地，5空脚 6为输出，7接电源+图3 OP07内部电路图ABSOLUTE MAXIMUM RATINGS 最大额定值SymbolParameter参数Value数值符号VCC Supply Voltage 电源电压±22Vid Differential Input Voltage差分输入电压±30Vi Input Voltage 输入电压±22电气特性虚拟通道连接= ± 15V ，Tamb = 25 ℃（除非另有说明）inEquivalent Input NoiseCurrent 等效输入噪声电流f = 10Hz-PA√Hzf = 100Hz-f = 1kHz-图4 输入失调电压调零电路应用电路图：图5 典型的偏置电压试验电路图6 老化电路图7 典型的低频噪声放大电路图8 高速综合放大器图9 选择偏移零电路图10 调整精度放大器图11 高稳定性的热电偶放大器图12 精密绝对值电路。

op07管脚、原理及其应用电路中文资料(总4页)-CAL-FENGHAI.-(YICAI)-Company One 1・CAL-本页仅作为文档封面，使用请直接删除一、 O pO7芯片是一种低噪声，非斩波稳零的单运算放大器集成电路。

山于0P07 具有非常低的输入失调电压（对于0P07A 最大为25 PV ）,所以0P07在很多应 用场合不需要额外的调零措施。

0P07同时具有输入偏置电流低（0P07A 为土 2nA ）和开环增益高（对于0P07A 为300V/mV ）的特点，这种低失调、高开环增 益的特性使得0P07特别适用于高增益的测量设备和放大传感器的微弱信号等方 面。

二、 0P07 特点：超低偏移：130 u V 最大。

低输入偏置电流：。

低失调电压漂移：uV/°C 。

超稳定，时间：2 u V/month 最大高电源电压范围：±3V 至±22V三、 0P07内部结构原理图四、0P07芯片引脚功能说明:1和8为偏置平衡（调零端）, 脚6为输出，7接电源+R".E c E F13F1 n u L T13 D10 ■丄 --------------Offset Null 1 In verting Input Non-n^ertng Input \'cc _ Offset Null 2 Vcc-* 0u9tKN.C.2为反向输入端，3为正向输入端,ABSOLUTE MAXIMUM RATINGS 最大额定值五、0P07典型应用电路图5典型的偏置电压试验电路R3 R4 R5图6老化电路图7典型的低频噪声放大电路图8高速综合放大器R4 lOkll +15V OP07C 1= R5kns2 -T5VR4图10调整精度放大器图11 高稳定性的热电偶放大器R3 R4 R5图12精密绝对值电路。

op07芯片OP07芯片是一种高性能、精度高的运算放大器芯片。

它是由美国国家半导体公司（National Semiconductor）推出的，被广泛应用于工业控制、仪器仪表、传感器信号放大和信号调理等领域。

OP07芯片采用了微电流型输入端设计，能够使输入端电流降至极小的水平。

在典型工作条件下，OP07的输入电流低至20nA，这意味着它能够处理非常微弱的信号，并且减少了对系统的电源和地线的依赖。

OP07还具有低噪声、低失真和高增益等特性。

它的输入噪声电压为0.6nV/√Hz，输出噪声电压为0.8uV/√Hz，这使得它可以处理极低幅值的信号而不会引入太多的噪声。

另外，OP07的失真也非常低，典型值为0.03%。

这些特性使得OP07芯片非常适合于信号放大和处理的应用。

除了高性能外，OP07还具有很高的稳定性和可靠性。

它的偏置电流系数仅为0.2nA/℃，温漂系数仅为2uV/℃，这使得它在宽温度范围内仍能保持较高的精度。

此外，OP07还具有短路保护和过载保护功能，能够防止芯片因输入信号过大而损坏。

在实际应用中，OP07芯片可以作为基本放大器，也可以与其他电路元件结合起来实现更复杂的功能。

它的输入阻抗高达10^12Ω，输出阻抗低至75Ω，这使得它可以与各种传感器和信号源相连，不会对信号源产生过大的负载效应。

此外，OP07还能提供高增益，典型值可达到100dB以上，可以放大非常弱的信号。

总的来说，OP07芯片是一款高性能、精度高的运算放大器芯片。

它具有微电流型输入端设计、低噪声、低失真、高增益、高稳定性和可靠性等特点，适用于工业控制、仪器仪表、传感器信号放大和信号调理等领域。

op07中文资料时间：2009-05-16 07:42:22 来源：资料室作者：op07的功能介绍：Op07芯片是一种低噪声，非斩波稳零的双极性运算放大器集成电路。

由于OP07具有非常低的输入失调电压（对于OP07A最大为25μV），所以OP07在很多应用场合不需要额外的调零措施。

OP07同时具有输入偏置电流低（OP07A为±2nA）和开环增益高（对于OP07A 为300V/mV）的特点，这种低失调、高开环增益的特性使得OP07特别适用于高增益的测量设备和放大传感器的微弱信号等方面。

特点：超低偏移：150μV最大。

低输入偏置电流：1.8nA 。

低失调电压漂移：0.5μV/℃。

超稳定，时间：2μV/month最大高电源电压范围：±3V至±22V工作电源电压范围是±3V~±18V；OP07完全可以用单电源供电，你说的＋5V,-5V绝对没有问题，用单＋5V也可以供电，但是线性区间太小，单电源供电，模拟地在1/2 VCC. 建议电源最好>8V，否则线性区实在太小，放大倍数无法做大，一不小心，就充顶饱和了。

我一直用+12V，-12V双电源供电。

图1 OP07外型图片图2 OP07 管脚图OP07芯片引脚功能说明：1和8为偏置平衡(调零端)，2为反向输入端，3为正向输入端，4接地，5空脚6为输出，7接电源+图3 OP07内部电路图ABSOLUTE MAXIMUM RATINGS 最大额定值SymParameter参数Value数值Unit 单位bol符号VCC Supply Voltage 电源电压±22V Vid Differential Input Voltage差分输入电压±30V Vi Input Voltage 输入电压±22VTope r Operating Temperature 工作温度-40 to+105℃Tstg Storage Temperature 贮藏温度-65 to+150℃电气特性虚拟通道连接= ± 15V ，T amb = 25 ℃（除非另有说明）Symbol 符号Parameter 参数及测试条件最小典型最大Unit单位Vio Input Offset Voltage 输入失调电压0℃≤T amb ≤+70℃-601525μVLong Term Input Offset Voltage Stability-(note 1)长期输入偏置电压的稳定性-0.42μV/MoDVio Input Offset Voltage Drift 输入失调电压漂移-0.51.8μV/℃Iio Input Offset Current输入失调电流0℃≤T amb≤ +70℃-0.868nADIio Input Offset Current Drift 输入失调电流漂移-155pA/℃Iib Input Bias Current输入偏置电流0℃≤T amb ≤ +70℃-1.879nADIib Input Bias Current Drift 输入偏置电流漂移-155pA/℃Ro Open Loop Output Resistance 开环输出电阻-60-ΩRid Differential Input Resistance 差分输入电阻-33-MΩRic Common Mode Input Resistance 共模输入电阻-12-GΩVicm Input Common Mode Voltage Range输入共模电压范围0℃≤ T amb ≤ +70℃±13±13±13.5-VCMR Common Mode Rejection Ratio (Vi =Vicm min)共模抑制比0℃≤ T amb ≤ +70℃10097120-dBSVR Supply Voltage Rejection Ratio 电源电压抑制比(VCC= ±3to ±18V) 0℃≤ T amb ≤ +70℃9086104-dBAvd Large SignalVoltage Gain 大信号电压增益VCC = ±15, RL =2KΩ,VO =±10V,12040-V/mV0℃≤ T amb ≤ +105℃100-VCC = ±3V, RL = 500W,VO =±0.5V10040-Vop p Output VoltageSwing 输出电压摆幅RL = 10KΩ±12±13-VRL= 2kΩ±11.5±12.8RL= 1KΩ±120℃≤ T amb ≤ +70℃RL =2KΩ±11-SR Slew Rate 转换率(RL =2KΩ,CL = 100pF)-0.17-V/μSGBP Gain Bandwidth Product 带宽增益(RL =2KΩ,CL =100pF, f = 100kHz)-0.5-MHzIcc Supply Current -(no load) 电源电流（无负载）0℃≤ T amb ≤ +70℃VCC = ±3V-2.70.67561.3mAen Equivalent InputNoise Voltage等效输入噪声电压f = 10Hz -112nV√Hzf = 100Hz-10.513.5f = 1kHz-1011.5in Equivalent InputNoise Current等效输入噪声电流f = 10Hz-0.30.9PA√Hzf = 100Hz-0.20.3f = 1kHz-0.10.2图4 输入失调电压调零电路应用电路图：图5 典型的偏置电压试验电路图6 老化电路图7 典型的低频噪声放大电路图8 高速综合放大器图9 选择偏移零电路图10 调整精度放大器图11 高稳定性的热电偶放大器图12 精密绝对值电路以上翻译自SGS-THOMSON的OP07。

PACKAGING INFORMATION Orderable DeviceStatus (1)Package Type Package Drawing Pins Package Qty Eco Plan (2)Lead/Ball Finish MSL Peak Temp (3)OP-07DPSRACTIVE SO PS 82000Pb-Free (RoHS)CU NIPDAU Level-2-260C-1YEAR/Level-1-235C-UNLIM OP07CDACTIVE SOIC D 875Pb-Free (RoHS)CU NIPDAU Level-2-250C-1YEAR OP07CDRACTIVE SOIC D 82500Pb-Free (RoHS)CU NIPDAU Level-2-250C-1YEAR OP07CPACTIVE PDIP P 850Pb-Free (RoHS)CU NIPDAU Level-NC-NC-NC OP07DDACTIVE SOIC D 875Pb-Free (RoHS)CU NIPDAU Level-2-250C-1YEAR OP07DDRACTIVE SOIC D 82500Pb-Free (RoHS)CU NIPDAU Level-2-250C-1YEAR OP07DPACTIVE PDIP P 850Pb-Free (RoHS)CU NIPDAU Level-NC-NC-NC (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 -May not be currently available -please check /productcontent for the latest availability information and additional product content details.None:Not yet available Lead (Pb-Free).Pb-Free (RoHS):TI's terms "Lead-Free"or "Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all 6substances,including the requirement that lead not exceed 0.1%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.Green (RoHS &no Sb/Br):TI defines "Green"to mean "Pb-Free"and in addition,uses package materials that do not contain halogens,including bromine (Br)or antimony (Sb)above 0.1%of total product weight.(3)MSL,Peak Temp.--The Moisture Sensitivity Level rating according to the JEDECindustry 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 is provided.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.PACKAGE OPTION ADDENDUM 18-Feb-2005Addendum-Page 1IMPORTANT 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. T esting and other quality control techniques are used to the extent TI deems necessary to support this warranty. Except where mandated by government requirements, testing of all parameters of each product is not necessarily performed.TI assumes no liability for applications assistance or customer product design. Customers are responsible for their products and applications using TI components. T o minimize the risks associated with customer products and applications, customers should provide adequate design and operating safeguards.TI does not warrant or represent that any license, either express or implied, is granted under any TI patent right, copyright, mask work right, or other TI intellectual property right relating to any combination, machine, or process in which TI products or services are used. Information published by TI regarding third-party products or services does not constitute a license from TI to use such products or services or a warranty or endorsement thereof. Use of such information may require a license from a third party under the patents or other intellectual property of the third party, or a license from TI under the patents or other intellectual property of TI.Reproduction of information in TI data books or data sheets is permissible only if reproduction is without alteration and is accompanied by all associated warranties, conditions, limitations, and notices. Reproduction of this information with alteration is an unfair and deceptive business practice. TI is not responsible or liable for such altered documentation.Resale of TI products or services with statements different from or beyond the parameters stated by TI for that product or service voids all express and any implied warranties for the associated TI product or service and is an unfair and deceptive business practice. TI is not responsible or liable for any such statements. Following are URLs where you can obtain information on other Texas Instruments products and application solutions:Products ApplicationsAmplifiers Audio /audioData Converters Automotive /automotiveDSP Broadband /broadbandInterface Digital Control /digitalcontrolLogic Military /militaryPower Mgmt Optical Networking /opticalnetwork Microcontrollers Security /securityTelephony /telephonyVideo & Imaging /videoWireless /wirelessMailing Address:Texas InstrumentsPost Office Box 655303 Dallas, Texas 75265Copyright 2005, Texas Instruments IncorporatedThis datasheet has been download from: Datasheets for electronics components.。

op07集成电路资料op07的功能介绍Op07芯片是一种低噪声，非斩波稳零的双极性运算放大器集成电路。

由于OP07具有非常低的输入失调电压（对于OP07A最大为25μV），所以OP07在很多应用场合不需要额外的调零措施。

OP07同时具有输入偏置电流低（OP07A 为±2nA）和开环增益高（对于OP07A为300V/mV）的特点，这种低失调、高开环增益的特性使得OP07特别适用于高增益的测量设备和放大传感器的微弱信号等方面。

特点：超低偏移：150μV最大。

低输入偏置电流：1.8nA 。

低失调电压漂移：0.5μV/℃。

超稳定，时间：2μV/month最大高电源电压范围：±3V至±22V工作电源电压范围是±3V~±18V；OP07完全可以用单电源供电，你说的＋5V,-5V绝对没有问题，用单＋5V也可以供电，但是线性区间太小，单电源供电，模拟地在1/2 VCC. 建议电源最好>8V，否则线性区实在太小，放大倍数无法做大，一不小心，就充顶饱和了。

我一直用+12V，-12V双电源供电。

图1 OP07外型图片图2 OP07 管脚图OP07芯片引脚功能说明：1和8为偏置平衡(调零端)，2为反向输入端，3为正向输入端，4接地，5空脚6为输出，7接电源+图3 OP07内部电路图最大额定值符号参数数值单位VCC电源电压±22VVid差分输入电压±30VVi输入电压±22VTope r 工作温度-40 to+105℃Tstg贮藏温度-65 to+150℃电气特性虚拟通道连接= ± 15V ，Tamb = 25 ℃（除非另有说明）符号参数及测试条件最小典型最大单Vio输入失调电压0℃≤ T amb ≤ +70℃-601525μV长期输入偏置电压的稳定性-0.42μV/ oDVio输入失调电压漂移-0.51.8μV/Iio输入失调电流0℃≤T amb≤ +70℃-0.868nADIio输入失调电流漂移-155pA/Iib输入偏置电流0℃≤T amb ≤ +70℃-1.879nADIib输入偏置电流漂移-155pA/Ro开环输出电阻-60-ΩRid差分输入电阻-33-MΩRic共模输入电阻-12-GΩVicm e输入共模电压范围0℃≤ T amb ≤ +70℃±13±13±13.5-VCMR共模抑制比0℃≤ T amb ≤ +70℃10097120-dBSVR电源电压抑制比(VCC = ±3to ±18V) 0℃≤T amb ≤+70℃9086104-dBAvd大信号电压增益VCC = ±15, RL =2KΩ,VO =±10V,12040-V/mV 0℃≤ T amb ≤ +105℃100-VCC = ±3V, RL = 500W,VO =±0.5V10040-Vop p 输出电压摆幅RL = 10KΩ±12±13-V RL= 2kΩ±11.5±12.8RL= 1KΩ±120℃≤ T amb ≤ +70℃RL =2KΩ±11-SR转换率(RL =2KΩ,CL = 100pF)-0.17-V/μSGBP带宽增益(RL =2KΩ,CL = 100pF, f = 100kHz)-0.5-MHzIcc电源电流（无负载）0℃≤ T amb ≤ +70℃VCC =±3V-2.70.67561.3mAen等效输入噪声电压f = 10Hz -112nV√Hz f = 100Hz-10.513.5f = 1kHz-1011.5in等效输入噪声电流f = 10Hz-0.30.9 PA√Hzf = 100Hz-0.20.3f = 1kHz-0.10. 2图4 输入失调电压调零电路应用电路图：图5 典型的偏置电压试验电路图6 老化电路图7 典型的低频噪声放大电路图8 高速综合放大器图9 选择偏移零电路图10 调整精度放大器图11 高稳定性的热电偶放大器图12 精密绝对值电路以上翻译自SGS-THOMSON的OP07。

op07中文资料op07的功能介绍：Op07芯片是一种低噪声，非斩波稳零的双极性运算放大器集成电路。

由于OP07具有非常低的输入失调电压（对于OP07A最大为25μV），所以OP07在很多应用场合不需要额外的调零措施。

OP07同时具有输入偏置电流低（OP07A为±2nA）和开环增益高（对于OP07A 为300V/mV）的特点，这种低失调、高开环增益的特性使得OP07特别适用于高增益的测量设备和放大传感器的微弱信号等方面。

特点：超低偏移：150μV最大。

低输入偏置电流：1.8nA 。

低失调电压漂移：0.5μV/℃。

超稳定，时间：2μV/month最大高电源电压范围：±3V至±22V工作电源电压范围是±3V~±18V；OP07完全可以用单电源供电，你说的＋5V,-5V绝对没有问题，用单＋5V也可以供电，但是线性区间太小，单电源供电，模拟地在1/2 VCC. 建议电源最好>8V，否则线性区实在太小，放大倍数无法做大，一不小心，就充顶饱和了。

我一直用+12V，-12V双电源供电。

图1 OP07外型图片图2 OP07 管脚图OP07芯片引脚功能说明：1和8为偏置平衡(调零端)，2为反向输入端，3为正向输入端，4接地，5空脚6为输出，7接电源+图3 OP07内部电路图ABSOLUTE MAXIMUM RATINGS 最大额定值SymParameter参数Value数值Unit 单位bol符号VCC Supply Voltage 电源电压±22V Vid Differential Input Voltage差分输入电压±30V Vi Input Voltage 输入电压±22VTope r Operating Temperature 工作温度-40 to+105℃Tstg Storage Temperature 贮藏温度-65 to+150℃电气特性虚拟通道连接= ± 15V ，T amb = 25 ℃（除非另有说明）Symbol 符号Parameter 参数及测试条件最小典型最大Unit单位Vio Input Offset Voltage 输入失调电压0℃≤T amb ≤+70℃-601525μVLong Term Input Offset Voltage Stability-(note 1)长期输入偏置电压的稳定性-0.42μV/MoDVio Input Offset Voltage Drift 输入失调电压漂移-0.51.8μV/℃Iio Input Offset Current输入失调电流0℃≤T amb≤ +70℃-0.868nADIio Input Offset Current Drift 输入失调电流漂移-155pA/℃Iib Input Bias Current输入偏置电流0℃≤T amb ≤ +70℃-1.879nADIib Input Bias Current Drift 输入偏置电流漂移-155pA/℃Ro Open Loop Output Resistance 开环输出电阻-60-ΩRid Differential Input Resistance 差分输入电阻-33-MΩRic Common Mode Input Resistance 共模输入电阻-12-GΩVicm Input Common Mode Voltage Range输入共模电压范围0℃≤ T amb ≤ +70℃±13±13±13.5-VCMR Common Mode Rejection Ratio (Vi =Vicm min)共模抑制比0℃≤ T amb ≤ +70℃10097120-dBSVR Supply Voltage Rejection Ratio 电源电压抑制比(VCC= ±3to ±18V) 0℃≤ T amb ≤ +70℃9086104-dBAvd Large SignalVoltage Gain 大信号电压增益VCC = ±15, RL =2KΩ,VO =±10V,12040-V/mV0℃≤ T amb ≤ +105℃100-VCC = ±3V, RL = 500W,VO =±0.5V10040-Vop p Output VoltageSwing 输出电压摆幅RL = 10KΩ±12±13-VRL= 2kΩ±11.5±12.8RL= 1KΩ±120℃≤ T amb ≤ +70℃RL =2KΩ±11-SR Slew Rate 转换率(RL =2KΩ,CL = 100pF)-0.17-V/μSGBP Gain Bandwidth Product 带宽增益(RL =2KΩ,CL =100pF, f = 100kHz)-0.5-MHzIcc Supply Current -(no load) 电源电流（无负载）0℃≤ T amb ≤ +70℃VCC = ±3V-2.70.67561.3mAen Equivalent InputNoise Voltage等效输入噪声电压f = 10Hz -112nV√Hzf = 100Hz-10.513.5f = 1kHz-1011.5in Equivalent InputNoise Current等效输入噪声电流f = 10Hz-0.30.9PA√Hzf = 100Hz-0.20.3f = 1kHz-0.10.2图4 输入失调电压调零电路应用电路图：图5 典型的偏置电压试验电路图6 老化电路图7 典型的低频噪声放大电路图8 高速综合放大器图9 选择偏移零电路图10 调整精度放大器图11 高稳定性的热电偶放大器图12 精密绝对值电路以上翻译自SGS-THOMSON的OP07。

op07中文资料时间：2009-05—16 07:42:22 来源：资料室作者：op07的功能介绍：Op07芯片是一种低噪声，非斩波稳零的双极性运算放大器集成电路。

由于OP07具有非常低的输入失调电压(对于OP07A最大为25μV），所以OP07在很多应用场合不需要额外的调零措施.OP07同时具有输入偏置电流低（OP07A为±2nA）和开环增益高（对于OP07A为300V/mV）的特点，这种低失调、高开环增益的特性使得OP07特别适用于高增益的测量设备和放大传感器的微弱信号等方面。

特点：超低偏移：150μV最大。

低输入偏置电流： 1。

8nA .低失调电压漂移： 0。

5μV/℃ 。

超稳定，时间：2μV/month最大高电源电压范围：±3V至±22V图1 OP07外型图片图2 OP07 管脚图OP07芯片引脚功能说明:1和8为偏置平衡（调零端)，2为反向输入端，3为正向输入端，4接地,5空脚 6为输出，7接电源+图3 OP07内部电路图ABSOLUTE MAXIMUM RATINGS 最大额定值Symbol符号Parameter参数Value数值Unit 单位VCC Supply Voltage 电源电压±22VVid Differential Input Voltage差分输入电压±30VVi Input Voltage 输入电压±22VTope r Operating Temperature 工作温度—40 to+105℃Tstg Storage Temperature 贮藏温度—65 to+150℃电气特性虚拟通道连接= ± 15V ，Tamb = 25 ℃（除非另有说明) Symbol符号Parameter 参数及测试条件最小典型最大Unit单位Vio Input Offset Voltage 输入失调电压0℃ ≤ Tamb ≤+70℃-601525μVLong Term Input Offset Voltage Stability—(note 1) 长期输入偏置电压的稳定性—0.42μV/MoDVio Input Offset Voltage Drift 输入失调电压漂移-0。

OP07是高精度低失调电压的精密运放集成电路,用于微弱信号的放大,如果使用双电源.能达到最好的放大效果下面介绍一下他的引脚图资料。

OP07 pdf 中文资料下载：/view.jsp?Searchword=OP07
op07介绍
1) 低的输入噪声电压幅度—0.35 μVP-P (0.1Hz ～10Hz)
2) 极低的输入失调电压—10 μV
3) 极低的输入失调电压温漂—0.2 μV/ ℃
4) 具有长期的稳定性—0.2 μV/MO
5) 低的输入偏置电流—±1nA
6) 高的共模抑制比—126dB
7) 宽的共模输入电压范围—±14V
8) 宽的电源电压范围—±3V ～±22V
9) 可替代725、108A、741、AD510 等电路
下面是一些OP07放大电路的应用，供大家查阅。

OP07应用介绍
TD07高精度运放具有极低的输入失调电压，极低的失调电压温漂，非常低的输入噪声电压幅度及长期稳定等特点。

广泛应用于稳定积分、比较器，密绝对值电路、及微弱信号的精确放大(中有详细介绍)，尤其适应于宇航、军工的应用。

可和uA741,uA709,LM301,LM308, LF356,OP07，op37,max427这些运放来直接代换。

op07的功能介绍
op07的功能介绍：
Op07芯片是一种低噪声，非斩波稳零的双极性运算放大器集成电路。

由于OP07具有非常低的输入失调电压（对于OP07A最大为25μV），所以OP07在很多应用场合不需要额外的调零措施。

OP07同时具有输入偏置电流低（OP07A为±2nA）和开环增益高（对于OP07A为300V/mV）的特点，这种低失调、高开环增益的特性使得OP07特别适用于高增益的测量设备和放大传感器的微弱信号等方面。

特点：
超低偏移： 150μV最大。

低输入偏置电流： 1.8nA 。

低失调电压漂移： 0.5μV/℃ 。

超稳定，时间： 2μV/month最大
高电源电压范围：±3V至±22V
图1 OP07外型图片
图2 OP07 管脚图
OP07芯片引脚功能说明：
1和8为偏置平衡(调零端)，2为反向输入端，3为正向输入端，4接地，5空脚 6为输出，7接电源+
图3 OP07内部电路图
ABSOLUTE MAXIMUM RATINGS 最大额定值
电气特性
虚拟通道连接= ± 15V ，Tamb = 25 ℃（除非另有说明）
图4 输入失调电压调零电路
应用电路图：
图5 典型的偏置电压试验电路
图6 老化电路
图7 典型的低频噪声放大电路
图8 高速综合放大器
图9 选择偏移零电路
图10 调整精度放大器
图11 高稳定性的热电偶放大器。

OP07 和Analog Devices信息:Manufactured by Analog Devices, OP07Z 是一种运算放大器。

1.Op07中文资料
Op07芯片是一种低噪声，非斩波稳零的双极性(双电源供电)运算放大器集成电路。

由于OP07具有非常低的输入失调电压(对于OP07A最大为25μV)，所以OP07在很多应用场合不需要额外的调零措施。

OP07同时具有输入偏置电流低(OP07A为±2nA)和开环增益高(对于OP07A为300V/mV)的特点，这种低失调、高开环增益的特性使得OP07特别适用于高增益的测量设备和放大传感器的微弱信号等方面。

2.Op07引脚图及功能
1脚：偏置平衡（调零端）
2脚：反向输入端
3脚：正向输入端
4脚：GND
5脚：空脚
6脚：输出
7脚：VCC+
8脚：偏置平衡（调零端）
3.Op07放大电路原理图。

PACKAGING INFORMATIONOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)OP-07DPSR ACTIVE SO PS82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOP-07DPSRE4ACTIVE SO PS82000Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOP07CD ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOP07CDE4ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOP07CDG4ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOP07CDR ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOP07CDRE4ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOP07CDRG4ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOP07CP ACTIVE PDIP P850Pb-Free(RoHS)CU NIPDAU N/A for Pkg TypeOP07CPE4ACTIVE PDIP P850Pb-Free(RoHS)CU NIPDAU N/A for Pkg TypeOP07DD ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOP07DDE4ACTIVE SOIC D875Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOP07DDR ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOP07DDRE4ACTIVE SOIC D82500Green(RoHS&no Sb/Br)CU NIPDAU Level-1-260C-UNLIMOP07DP ACTIVE PDIP P850Pb-Free(RoHS)CU NIPDAU N/A for Pkg TypeOP07DPE4ACTIVE PDIP P850Pb-Free(RoHS)CU NIPDAU N/A for Pkg Type(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 is provided.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.IMPORTANT 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. T esting and other quality control techniques are used to the extent TI deems necessary to support this warranty. Except where mandated by government requirements, testing of all parameters of each product is not necessarily performed.TI assumes no liability for applications assistance or customer product design. Customers are responsible for their products and applications using TI components. T o minimize the risks associated with customer products and applications, customers should provide adequate design and operating safeguards.TI does not warrant or represent that any license, either express or implied, is granted under any TI patent right, copyright, mask work right, or other TI intellectual property right relating to any combination, machine, or process in which TI products or services are used. Information published by TI regarding third-party products or services does not constitute a license from TI to use such products or services or a warranty or endorsement thereof. Use of such information may require a license from a third party under the patents or other intellectual property of the third party, or a license from TI under the patents or other intellectual property of TI.Reproduction of information in TI data books or data sheets is permissible only if reproduction is without alteration and is accompanied by all associated warranties, conditions, limitations, and notices. Reproduction of this information with alteration is an unfair and deceptive business practice. TI is not responsible or liable for such altered documentation.Resale of TI products or services with statements different from or beyond the parameters stated by TI for that product or service voids all express and any implied warranties for the associated TI product or service and is an unfair and deceptive business practice. TI is not responsible or liable for any such statements. Following are URLs where you can obtain information on other Texas Instruments products and application solutions:Products ApplicationsAmplifiers Audio /audioData Converters Automotive /automotiveDSP Broadband /broadbandInterface Digital Control /digitalcontrolLogic Military /militaryPower Mgmt Optical Networking /opticalnetwork Microcontrollers Security /securityLow Power Wireless /lpw Telephony /telephonyVideo & Imaging /videoWireless /wirelessMailing Address:Texas InstrumentsPost Office Box 655303 Dallas, Texas 75265Copyright 2006, Texas Instruments Incorporated。

op07管脚、原理及其应用电路中文资料(总4页)-CAL-FENGHAI.-(YICAI)-Company One 1・CAL-本页仅作为文档封面，使用请直接删除一、 O pO7芯片是一种低噪声，非斩波稳零的单运算放大器集成电路。

山于0P07 具有非常低的输入失调电压（对于0P07A 最大为25 PV ）,所以0P07在很多应 用场合不需要额外的调零措施。

0P07同时具有输入偏置电流低（0P07A 为土 2nA ）和开环增益高（对于0P07A 为300V/mV ）的特点，这种低失调、高开环增 益的特性使得0P07特别适用于高增益的测量设备和放大传感器的微弱信号等方 面。

二、 0P07 特点：超低偏移：130 u V 最大。

低输入偏置电流：。

低失调电压漂移：uV/°C 。

超稳定，时间：2 u V/month 最大高电源电压范围：±3V 至±22V三、 0P07内部结构原理图四、0P07芯片引脚功能说明:1和8为偏置平衡（调零端）, 脚6为输出，7接电源+R".E c E F13F1 n u L T13 D10 ■丄 --------------Offset Null 1 In verting Input Non-n^ertng Input \'cc _ Offset Null 2 Vcc-* 0u9tKN.C.2为反向输入端，3为正向输入端,ABSOLUTE MAXIMUM RATINGS 最大额定值五、0P07典型应用电路图5典型的偏置电压试验电路R3 R4 R5图6老化电路图7典型的低频噪声放大电路图8高速综合放大器R4 lOkll +15V OP07C 1= R5kns2 -T5VR4图10调整精度放大器图11 高稳定性的热电偶放大器R3 R4 R5图12精密绝对值电路。