MCP6V02

The MCP6V01/2/3 family of operational amplifiers has input offset voltage correction for very low offset and offset drift. These devices have a wide bandwidth product and strongly reject switching noise. They are unity gain stable, have no 1/f noise, and have good PSRR and CMRR. These products operate with a single supply voltage as low as 1.8V and are designed in an advanced CMOS process. AEC-Q100 Grade 1 qualification is available for this device

产品特性
  • High DC Precision: VOS Drift: ±50 nV/°C (maximum) VOS: ±2 µV (maximum) AOL: 130 dB (minimum) PSRR: 130 dB (minimum) CMRR: 130 dB (minimum) Eni: 2.5 µVp-p (typical), f = 0.1 Hz to 10 Hz Eni: 0.79 µVp-p (typical), f = 0.01 Hz to 1 Hz
  • VOS Drift: ±50 nV/°C (maximum)
  • VOS: ±2 µV (maximum)
  • AOL: 130 dB (minimum)
  • PSRR: 130 dB (minimum)
  • CMRR: 130 dB (minimum)
  • Eni: 2.5 µVp-p (typical), f = 0.1 Hz to 10 Hz
  • Eni: 0.79 µVp-p (typical), f = 0.01 Hz to 1 Hz
  • Low Power and Supply Voltages: IQ: 300 µA/amplifier (typical) Wide Supply Voltage Range: 1.8V to 5.5V
  • IQ: 300 µA/amplifier (typical)
  • Wide Supply Voltage Range: 1.8V to 5.5V
  • Easy to Use: Rail-to-Rail Input/Output Gain Bandwidth Product: 1.3 MHz (typical) Unity Gain Stable Available in Single and Dual
  • Rail-to-Rail Input/Output
  • Gain Bandwidth Product: 1.3 MHz (typical)
  • Unity Gain Stable
  • Available in Single and Dual
  • Extended Temperature Range: -40°C to +125°C
  • AEC-Q100 Grade 1
技术参数
Parameter Name Value Value
Temp. Range (°C) -40°C to +125°C -40°C to +125°C
Vos Max (µV) 2 2
# per Package 2 2
Iq Typical (µA) 300 300
Iq Max (µA) 400 400
GBWP (kHz) 1300 1300
Operating Voltage Range (V) 1.8 to 5.5 1.8 to 5.5
Device Description Linear High Precision Op Amps-Auto Zero Linear High Precision Op Amps-Auto Zero
Input Voltage Noise Density (nV/rt(Hz)) 120 120
PSRR Min (dB) 130 130
CMRR Min (dB) 130 130
Vos/Ta (uV/°C) 0.05 0.05
Ib (pA) 1 1
Aol (dB) 145 145
PM (deg) 65 65
Isc (mA) 22 22
Rail-to-Rail In/Out In/Out
Unity Gain Stable Yes Yes
Slew Rate V/uS 0.5 0.5
文档资料
MCP6V01/2/3 Data SheetData Sheets12/16/2008999KB
AN1016 - Detecting Small Capacitive Sensors Using the MCP6291 and PIC16F690 DevicesAppNote04/13/2006630KB
AN1177 - Op Amp Precision Design: DC ErrorsAppNote03/12/2008269KB
AN1228 - Op Amp Precision Design: Random NoiseAppNote09/02/2008588KB
AN1258 - Op Amp Precision Design: PCB Layout TechniquesAppNote07/03/2012538KB
AN1297 - Microchip's Op Amp SPICE Macro ModelsAppNote09/25/2009280KB
AN1316 - Using Digital Potentiometers for Programmable Amplifier GainAppNote04/14/2010441KB
AN679 - Temperature Sensing TechnologiesAppNote08/10/1999177KB
AN682 - Using Single Supply Operational Amplifiers in Embedded SystemsAppNote07/07/2011169KB
AN684 - Single Supply Temperature Sensing with ThermocouplesAppNote08/10/1999301KB
AN685 - Thermistors in Single Supply Temperature Sensing CircuitsAppNote07/27/2004163KB
AN687 - Precision Temperature Sensing with RTD CircuitsAppNote09/26/2008149KB
AN695 - Interfacing Pressure Sensors to Microchip's Analog PeripheralsAppNote04/13/2000230KB
AN699 - Anti-Aliasing, Analog Filters for Data Acquisition SystemsAppNote07/26/1999171KB
AN717 - Building a 10-Bit Bridge Sensing Circuit Using the PIC16C6XX and MCP601Operational AmplifierAppNote04/03/2001181KB
AN722 - Operational Amplifier Topologies and DC SpecificationsAppNote04/03/2001223KB
AN723 - Operational Amplifier AC Specifications and ApplicationsAppNote04/03/2001341KB
AN737 - Using Digital Potentiometers to Design Low Pass Adjustable FiltersAppNote02/24/2004277KB
AN792 - A Method to Determine How Much Power a SOT23 Can Dissipate in an ApplicationAppNote07/18/2001523KB
AN844 - Simplified Thermocouple Interfaces and PICmicro® MCUsAppNote07/21/2002273KB
AN866 - Designing Operational Amplifier Oscillator Circuits For Sensor ApplicationsAppNote06/18/2003358KB
AN895 - Oscillator Circuits for RTD Temperature SensorsAppNote05/17/2004418KB
AN897 - Thermistor Temperature Sensing with MCP6SX2 PGAsAppNote05/31/2006452KB
AN929 - Temperature Measurement Circuits for Embedded ApplicationsAppNote05/06/2004448KB
AN951 - Amplifying High-Impedence Sensors ? Photodiode ExampleAppNote07/25/2006290KB
AN990 - Analog Sensor Conditioning Circuits - An OverviewAppNote03/28/2010262KB
Driving Capacitive Loads With Op Amps - Driving Capacitive Loads With Op AmpsAppNote03/31/2009493KB
TB077 - Advantage's of Microchip's Cascaded Op AmpsAppNote07/25/200685KB
Automotive Recommended Product Selector GuideBrochures09/16/20147598KB
PGA, Operational Amplifiers and Comparators Design GuideBrochures12/08/2009640KB
Signal Chain Design GuideBrochures11/10/20123229KB
Analog & Interface Product Selector GuideProduct Line Card03/21/20164116KB
SPICE Model for MCP6V01/2/3 DevicesSpice Model02/05/20132KB
MCP6V01 Input Offset Demo Board User's GuideUser Guides06/18/2009465KB
MCP6XXX Amplifier Eval Board - 4 as an Integrator Demo VideoVideo07/20/201037460KB
MCP6XXX as an Inverting Amplifier 1 Eval board VideoVideo07/20/201037546KB
MCP6XXX Eval Board 1- Voltage Follower VideoVideo07/20/201035976KB
MCP6XXX Eval board 2 as a Summing Amplifier VideoVideo07/20/201035562KB
MCP6XXX Eval board 3 as a Difference Amplifier VideoVideo07/22/201036624KB
订购型号
Part NumberLeadsPackage TypeTemp RangePacking1+26+100+1000+5000+
MCP6V02-E/MD8DFN-40C to +125CTUBE2.592.161.961.901.88
MCP6V02-E/SN8SOIC-40C to +125CTUBE2.552.121.931.861.84
MCP6V02T-E/MD8DFN-40C to +125CT/R2.592.161.961.901.88
MCP6V02T-E/SN8SOIC-40C to +125CT/R2.552.121.931.861.84
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器件无铅环保信息
PartNumberDeviceWeightShippingWeightLeadCountPackageTypePackageWidthSolderCompositionJEDECIndicatorRoHSChinaEFUP
MCP6V02-E/SN0.0780000.1600008SOIC.150In(3.90mm)Matte Tine3
MCP6V02T-E/SN0.0780000.2303038SOIC.150In(3.90mm)Matte Tine3
MCP6V02-E/MD0.0432000.0769238DFN4x4x0.9mmMatte Tine3
MCP6V02T-E/MD0.0432000.2121218DFN4x4x0.9mmMatte Tine3
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Analog & Interface Product Selector Guide ENC624J600
SPICE Model for MCP6V01/2/3 Devices MCP6V03
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