OPA365AIDBVT - 2.2V, 50MHz, Low-Noise, Single-Supply Rail-to-Rail Operational AmplifierThe OPAx365 zerш-crossover Series rail-to-rail highperformance CMOS operational amplifiers are optimized for very low voltage, single-supply applications. Rail-to-rail input/output, low-noise (4.5nV/Hz) and high-speed operations (50MHz Gain Bandwidth) make them ideal for driving sampling analog-to-digital converters (ADCs). Applications incude audio, signal conditioning, and sensor amplification. The OPA365 family of op amps are well-su
OPA365AIDBVTG4 - 2.2V, 50MHz, Low-Noise, Single-Supply Rail-to-Rail Operational AmplifierThe OPAx365 zerш-crossover Series rail-to-rail highperformance CMOS operational amplifiers are optimized for very low voltage, single-supply applications. Rail-to-rail input/output, low-noise (4.5nV/Hz) and high-speed operations (50MHz Gain Bandwidth) make them ideal for driving sampling analog-to-digital converters (ADCs). Applications incude audio, signal conditioning, and sensor amplification. The OPA365 family of op amps are well-su
OPA3680E/250 - OPA3680, SpeedPlus(TM) Triple Wideband, Voltage Feedback Operational Amplifier With Disable
OPA3680E/2K5 - OPA3680, SpeedPlus(TM) Triple Wideband, Voltage Feedback Operational Amplifier With Disable
OPA3680U/2K5 - OPA3680, SpeedPlus(TM) Triple Wideband, Voltage Feedback Operational Amplifier With Disable
OPA3681E/250 - OPA3681, SpeedPlus(TM) Triple Wideband, Current Feedback Operational Amplifier With Disable
OPA3681E/2K5 - OPA3681, SpeedPlus(TM) Triple Wideband, Current Feedback Operational Amplifier With Disable
OPA3681U/2K5 - OPA3681, SpeedPlus(TM) Triple Wideband, Current Feedback Operational Amplifier With Disable
OPA3682E/250 - OPA3682, SpeedPlus(TM) Triple, Wideband, Fixed Gain Buffer Amplifier With Disable
OPA3682E/2K5 - OPA3682, SpeedPlus(TM) Triple, Wideband, Fixed Gain Buffer Amplifier With Disable
OPA3682U/2K5 - OPA3682, SpeedPlus(TM) Triple, Wideband, Fixed Gain Buffer Amplifier With Disable
OPA3684ID - OPA3684, Low-Power, Triple Current Feedback Operational Amplifier With Disable
OPA3684IDBQ - OPA3684, Low-Power, Triple Current Feedback Operational Amplifier With Disable
OPA3684IDBQR - OPA3684, Low-Power, Triple Current Feedback Operational Amplifier With Disable
OPA3684IDBQT - OPA3684, Low-Power, Triple Current Feedback Operational Amplifier With Disable
OPA3684IDR - OPA3684, Low-Power, Triple Current Feedback Operational Amplifier With Disable
OPA3690 - Dual, Wideband, High Output Current, Operational Amplifier with Current Limit
OPA3690 - Wideband, Current Feedback OPERATIONAL AMPLIFIER With Disable
OPA3690ID - OPA3690, Triple, Wideband, Voltage-feedback Operational Amplifier With Disable
OPA3690IDBQR - OPA3690, Triple, Wideband, Voltage-feedback Operational Amplifier With Disable
OPA3690IDBQT - OPA3690, Triple, Wideband, Voltage-feedback Operational Amplifier With Disable
OPA3690IDR - OPA3690, Triple, Wideband, Voltage-feedback Operational Amplifier With Disable
OPA3691 - Dual, Wideband, High Output Current, Operational Amplifier with Current Limit
OPA3691 - Wideband, Current Feedback OPERATIONAL AMPLIFIER With Disable
OPA3691ID - OPA3691, Triple Wideband Current Feedback Operational Amplifier With Disable
OPA3691IDBQR - OPA3691, Triple Wideband Current Feedback Operational Amplifier With Disable
OPA3691IDBQT - OPA3691, Triple Wideband Current Feedback Operational Amplifier With Disable
OPA3691IDR - OPA3691, Triple Wideband Current Feedback Operational Amplifier With Disable
OPA3692 - Wideband, Current Feedback OPERATIONAL AMPLIFIER With Disable
OPA3692ID - OPA3692, Triple, Wideband, Fixed Gain Video Buffer Amplifier With Disable
OPA3692IDBQR - OPA3692, Triple, Wideband, Fixed Gain Video Buffer Amplifier With Disable
OPA3692IDBQT - OPA3692, Triple, Wideband, Fixed Gain Video Buffer Amplifier With Disable
OPA3692IDR - OPA3692, Triple, Wideband, Fixed Gain Video Buffer Amplifier With Disable
OPA727AIDGKR - 20MHz, High Precision CMOS Operational Amplifiers The OPA727 and OPA728 Series op amps useA state-of-the-art 12V analog CMOS process and e-trim,A package-level trim, offering outstanding dc precision and ac performance. The extremely low offset (150µV max) and drift (1.5µV/°C) are achieved by trimming the IC digitally after packaging to avoid the shift in parameters asA result of stresses during package assembly. To correct for offset drift, the OPA727/OPA728 family is trimmed over temperature. The devic
OPA727AIDGKT - 20MHz, High Precision CMOS Operational Amplifiers The OPA727 and OPA728 Series op amps useA state-of-the-art 12V analog CMOS process and e-trim,A package-level trim, offering outstanding dc precision and ac performance. The extremely low offset (150µV max) and drift (1.5µV/°C) are achieved by trimming the IC digitally after packaging to avoid the shift in parameters asA result of stresses during package assembly. To correct for offset drift, the OPA727/OPA728 family is trimmed over temperature. The devic
OPA727AIDRBR - 20MHz, High Precision CMOS Operational Amplifiers The OPA727 and OPA728 Series op amps useA state-of-the-art 12V analog CMOS process and e-trim,A package-level trim, offering outstanding dc precision and ac performance. The extremely low offset (150µV max) and drift (1.5µV/°C) are achieved by trimming the IC digitally after packaging to avoid the shift in parameters asA result of stresses during package assembly. To correct for offset drift, the OPA727/OPA728 family is trimmed over temperature. The devic
OPA727AIDRBT - 20MHz, High Precision CMOS Operational Amplifiers The OPA727 and OPA728 Series op amps useA state-of-the-art 12V analog CMOS process and e-trim,A package-level trim, offering outstanding dc precision and ac performance. The extremely low offset (150µV max) and drift (1.5µV/°C) are achieved by trimming the IC digitally after packaging to avoid the shift in parameters asA result of stresses during package assembly. To correct for offset drift, the OPA727/OPA728 family is trimmed over temperature. The devic
OPA728AIDGKR - e-trim 20MHz, High Precision CMOS Operational AmplifierThe OPA727 and OPA728 Series op amps useA state-of-the-art 12V analog CMOS process and e-trim,A package-level trim, offering outstanding dc precision and ac performance. The extremely low offset (150µV max) and drift (1.5µV/°C) are achieved by trimming the IC digitally after packaging to avoid the shift in parameters asA result of stresses during package assembly. To correct for offset drift, the OPA727/OPA728 family is trimmed over temperature. The
OPA728AIDGKT - e-trim 20MHz, High Precision CMOS Operational AmplifierThe OPA727 and OPA728 Series op amps useA state-of-the-art 12V analog CMOS process and e-trim,A package-level trim, offering outstanding dc precision and ac performance. The extremely low offset (150µV max) and drift (1.5µV/°C) are achieved by trimming the IC digitally after packaging to avoid the shift in parameters asA result of stresses during package assembly. To correct for offset drift, the OPA727/OPA728 family is trimmed over temperature. The
OPA728AIDRBR - e-trim 20MHz, High Precision CMOS Operational AmplifierThe OPA727 and OPA728 Series op amps useA state-of-the-art 12V analog CMOS process and e-trim,A package-level trim, offering outstanding dc precision and ac performance. The extremely low offset (150µV max) and drift (1.5µV/°C) are achieved by trimming the IC digitally after packaging to avoid the shift in parameters asA result of stresses during package assembly. To correct for offset drift, the OPA727/OPA728 family is trimmed over temperature. The
OPA728AIDRBT - e-trim 20MHz, High Precision CMOS Operational AmplifierThe OPA727 and OPA728 Series op amps useA state-of-the-art 12V analog CMOS process and e-trim,A package-level trim, offering outstanding dc precision and ac performance. The extremely low offset (150µV max) and drift (1.5µV/°C) are achieved by trimming the IC digitally after packaging to avoid the shift in parameters asA result of stresses during package assembly. To correct for offset drift, the OPA727/OPA728 family is trimmed over temperature. The
OPA734 - SINGLE-SUPPLY CMOS OPERATIONAL AMPLIFIERS Zero-Drift Series
OPA734AID - SINGLE-SUPPLY CMOS OPERATIONAL AMPLIFIERS Zero-Drift Series
OPA734AIDBVR - SINGLE-SUPPLY CMOS OPERATIONAL AMPLIFIERS Zero-Drift Series
OPA734AIDBVT - SINGLE-SUPPLY CMOS OPERATIONAL AMPLIFIERS Zero-Drift Series
OPA734AIDR - SINGLE-SUPPLY CMOS OPERATIONAL AMPLIFIERS Zero-Drift Series
OPA735AID - SINGLE-SUPPLY CMOS OPERATIONAL AMPLIFIERS Zero-Drift Series
OPA735AIDBVR - SINGLE-SUPPLY CMOS OPERATIONAL AMPLIFIERS Zero-Drift Series
OPA735AIDBVT - SINGLE-SUPPLY CMOS OPERATIONAL AMPLIFIERS Zero-Drift Series
OPA735AIDR - SINGLE-SUPPLY CMOS OPERATIONAL AMPLIFIERS Zero-Drift Series
OPT101P-J - OPT101, Monolithic Photodiode and Single-supply Transimpedance Amplifier
P82B96D - Dual Bidirectiional Bus Buffer * Operating Power-Supply Voltage Range of 2V to 15V * Can Interface Between I2C Buses Operating at Different Logic Levels (2V to 15 V) * Supports Bidirectional Data Transfer of I2C Bus Signals * Allows bus capacitance of 400 pF on the Main I2C Bus (Sx/Sy Side) and 4000 pF on the Transmission Side (Tx/Ty) * Outputs on the Transmission Side (Tx/Ty) Have High Sink Capability for Driving Low-Impedance or High-Capacitive Buses * I2C Bus Signals Can Be Split Int
P82B96DGKR - Dual Bidirectiional Bus Buffer * Operating Power-Supply Voltage Range of 2V to 15V * Can Interface Between I2C Buses Operating at Different Logic Levels (2V to 15 V) * Supports Bidirectional Data Transfer of I2C Bus Signals * Allows bus capacitance of 400 pF on the Main I2C Bus (Sx/Sy Side) and 4000 pF on the Transmission Side (Tx/Ty) * Outputs on the Transmission Side (Tx/Ty) Have High Sink Capability for Driving Low-Impedance or High-Capacitive Buses * I2C Bus Signals Can Be Split Int
P82B96DR - Dual Bidirectiional Bus Buffer * Operating Power-Supply Voltage Range of 2V to 15V * Can Interface Between I2C Buses Operating at Different Logic Levels (2V to 15 V) * Supports Bidirectional Data Transfer of I2C Bus Signals * Allows bus capacitance of 400 pF on the Main I2C Bus (Sx/Sy Side) and 4000 pF on the Transmission Side (Tx/Ty) * Outputs on the Transmission Side (Tx/Ty) Have High Sink Capability for Driving Low-Impedance or High-Capacitive Buses * I2C Bus Signals Can Be Split Int
P82B96P - Dual Bidirectiional Bus Buffer * Operating Power-Supply Voltage Range of 2V to 15V * Can Interface Between I2C Buses Operating at Different Logic Levels (2V to 15 V) * Supports Bidirectional Data Transfer of I2C Bus Signals * Allows bus capacitance of 400 pF on the Main I2C Bus (Sx/Sy Side) and 4000 pF on the Transmission Side (Tx/Ty) * Outputs on the Transmission Side (Tx/Ty) Have High Sink Capability for Driving Low-Impedance or High-Capacitive Buses * I2C Bus Signals Can Be Split Int
P82B96PW - Dual Bidirectiional Bus Buffer * Operating Power-Supply Voltage Range of 2V to 15V * Can Interface Between I2C Buses Operating at Different Logic Levels (2V to 15 V) * Supports Bidirectional Data Transfer of I2C Bus Signals * Allows bus capacitance of 400 pF on the Main I2C Bus (Sx/Sy Side) and 4000 pF on the Transmission Side (Tx/Ty) * Outputs on the Transmission Side (Tx/Ty) Have High Sink Capability for Driving Low-Impedance or High-Capacitive Buses * I2C Bus Signals Can Be Split Int
P82B96PWR - Dual Bidirectiional Bus Buffer * Operating Power-Supply Voltage Range of 2V to 15V * Can Interface Between I2C Buses Operating at Different Logic Levels (2V to 15 V) * Supports Bidirectional Data Transfer of I2C Bus Signals * Allows bus capacitance of 400 pF on the Main I2C Bus (Sx/Sy Side) and 4000 pF on the Transmission Side (Tx/Ty) * Outputs on the Transmission Side (Tx/Ty) Have High Sink Capability for Driving Low-Impedance or High-Capacitive Buses * I2C Bus Signals Can Be Split Int