OPA396 Series

Single, micropower (24 μA), low-offset (100 μV), high speed-to-power ratio RRIO op amp

Catalog

Single, micropower (24 μA), low-offset (100 μV), high speed-to-power ratio RRIO op amp

Part	Supplier Device Package	Voltage - Supply Span (Max) [Max]	Operating Temperature [Min]	Operating Temperature [Max]	Current - Output / Channel	Voltage - Input Offset	Number of Circuits	Voltage - Supply Span (Min) [Min]	Current - Supply	Current - Input Bias	Output Type	Gain Bandwidth Product	Amplifier Type	Slew Rate	Mounting Type	Package / Case
Texas Instruments OPA396DCKR	SC-70-5	5.5 V	-40 °C	125 °C	60 mA	10 µV	1	1.7 V	23.5 µA	10 pA	Rail-to-Rail	1 MHz	Current Feedback	1 V/µs	Surface Mount	5-TSSOP SC-70-5 SOT-353
Texas Instruments OPA396DCKT	SC-70-5	5.5 V	-40 °C	125 °C	60 mA	10 µV	1	1.7 V	23.5 µA	10 pA	Rail-to-Rail	1 MHz	Current Feedback	1 V/µs	Surface Mount	5-TSSOP SC-70-5 SOT-353

Catalog

Single, micropower (24 μA), low-offset (100 μV), high speed-to-power ratio RRIO op amp

Key Features

• Low IQ: 23.5 µAGain bandwidth product: 1 MHzLow input bias current: 10 fA (typical)Low offset voltage: ±100 µV (maximum)Low drift: ±1.2 µV/°CLow supply voltage operation: 1.7 V to 5.5 VInput common mode range ±100 mV beyond railFast slew rate: 1 V/µsHigh load capacitance driveHigh output current drive: 60 mARail-to-rail outputEMI/RFI filtered inputsSmall packages: SC70 and WCSP (Preview)Low IQ: 23.5 µAGain bandwidth product: 1 MHzLow input bias current: 10 fA (typical)Low offset voltage: ±100 µV (maximum)Low drift: ±1.2 µV/°CLow supply voltage operation: 1.7 V to 5.5 VInput common mode range ±100 mV beyond railFast slew rate: 1 V/µsHigh load capacitance driveHigh output current drive: 60 mARail-to-rail outputEMI/RFI filtered inputsSmall packages: SC70 and WCSP (Preview)

Description

The OPA396 features a combination of high bandwidth (1 MHz) along with very low quiescent current (23.5 µA) in a high-precision amplifier. These features combined with rail-to-rail input and output make this device an exceptional choice in high-gain, low-power applications. Ultra-low input bias current of 10 fA, 100 µV of offset (maximum), and 1.2 µV/°C of drift over temperature help maintain high precision in ratiometric and amperometric sensor front ends that have demanding low-power requirements. The OPA396 uses Texas Instrument’s proprietary e‑trim™ operational amplifier technology, enabling a unique combination of ultra-low offset and low input offset drift without the need for any input switching or auto-zero techniques. The CMOS-based technology platform also features a modern, robust output stage design that is tolerant of high output capacitance, alleviating stability problems that are common in typical low-power amplifiers. The OPA396 features a combination of high bandwidth (1 MHz) along with very low quiescent current (23.5 µA) in a high-precision amplifier. These features combined with rail-to-rail input and output make this device an exceptional choice in high-gain, low-power applications. Ultra-low input bias current of 10 fA, 100 µV of offset (maximum), and 1.2 µV/°C of drift over temperature help maintain high precision in ratiometric and amperometric sensor front ends that have demanding low-power requirements. The OPA396 uses Texas Instrument’s proprietary e‑trim™ operational amplifier technology, enabling a unique combination of ultra-low offset and low input offset drift without the need for any input switching or auto-zero techniques. The CMOS-based technology platform also features a modern, robust output stage design that is tolerant of high output capacitance, alleviating stability problems that are common in typical low-power amplifiers.