The OPAx310-Q1 family of op amps includes single (OPA310-Q1), dual (OPA2310-Q1), and quad-channel (OPA4310-Q1), ultra-low-voltage (1.5V to 5.5V), high output current operational amplifiers (op amps) with rail-to-rail input and output swing capabilities. The OPAx310-Q1 also features a very fast shutdown response and has an enable time specification of just 0.9µs typical. This feature allows for power savings when the application involves duty cycling the amplifier signal chain. OPAx310-Q1 has robust ESD performance with fail safe input ESD structure where there are no diodes connected from inputs to the positive power supply rail.

OPAx310-Q1 is offered in standard packages and has an internal current limit, thermal shutdown protection that enables additional robustness when operating with high output current. OPAx310-Q1 can swing very close to the rails and has a short circuit current of ±75mA minimum across temperature at 5.5-V power supply while consuming just 165 μA of quiescent current. This combination of low voltage, low I_Q, and high output current capability makes this device quite unique and an excellent choice for a wide range of general-purpose and high current applications. Additional output current capability can be easily achieved by connecting multiple op amps in parallel. These devices are excellent choice for LED driver and other higher current applications and can also be used as a reference buffer, guard amplifier or as a discrete LDO.

The input common-mode voltage range includes both rails, and allows the OPAx310-Q1 series to be used in many single-supply or dual supply configurations. Rail-to-rail input and output swing significantly increases dynamic range, especially in low-supply applications, and makes these devices an excellent choice for driving low speed sampling analog-to-digital converters (ADCs). Further, the class AB output stage is capable of driving smaller resistive loads connected to any point between V+ and ground.

The OPAx310-Q1 can drive up to 75pF with a typical phase margin of 40° and features 3 MHz gain bandwidth product, 3V/μs slew rate with 4 μV_p-p integrated noise (0.1 Hz to 10 Hz) while consuming only 165 μA supply current per channel, thus providing a good AC performance at a very low power consumption. DC applications are also well served with a low input bias current (1 pA typical), a good input offset voltage (0.25 mV typical) and a good PSRR (10 μV/V typical), CMRR (80 dB typical), and A_OL (125 dB typical).