TSB711, TSB711ATSB712, TSB712A Datasheet Precision rail-to-rail input / output 36 V, 6 MHz op amps Features TSB712 and TSB712A • Rail-to-rail input and output • Low offset voltage: 300 µV maximum • Wide supply voltage range: 2.7 V to 36 V • Gain bandwidth product: 6 MHz MiniSO8 SO8 • Slew rate : 3 V/µs • Low noise : 12 nV/√Hz TSB711 and TSB711A • Integrated EMI filter • 2 kV HBM ESD tolerance • Extended temperature range : -40 °C to +125 °C • Automotive-grade available Applications SOT23-5 • High-side and low-side current sensing • Hall effect sensors • Data acquisition and instrumentation • Test and measurement equipments • Motor control Maturity status link • Industrial process control TSB711, TSB711A, TSB712, TSB712A • Strain gauge Related productsDescription Low-power, 2.5 MHz, rail-to- TSB571, rail inputs and outputs, 36 V The TSB711, TSB711A, TSB712 and TSB712A 6 MHz bandwidth amplifiers feature TSB572 op amps rail-to-rail input and output, which is guaranteed to operate from +2.7 V to +36 V single supply as well as from ±1.35 V to ±18 V dual supplies. TSB511, Rail-to-rail inputs and TSB512, outputs, 36 V, 6 MHz op These amplifiers have the advantage of offering a large span of supply voltage and TSB514 amps an excellent input offset voltage of 300 µV maximum at 25 °C. The combination of wide bandwidth, slew rate, low noise, rail-to-rail capability and precision makes the TSB711, TSB711A, TSB712 and TSB712A useful in a wide variety of applications such as: filters, power supply and motor control, actuator driving, hall effect sensors and resistive transducers. DS12487 - Rev 7 - October 2023 www.st.com For further information contact your local STMicroelectronics sales office. Document Outline TSB711, TSB711A, TSB712, TSB712A 1 Pin description 2 Absolute maximum ratings and operating conditions 3 Electrical characteristics 4 Typical performance characteristics 5 Application information 5.1 Operating voltages 5.2 Input pin voltage range 5.3 Rail-to-rail input stage 5.4 Input offset voltage drift over the temperature 5.5 Long term input offset voltage drift 5.6 EMI rejection 5.7 Maximum power dissipation 5.8 Capacitive load and stability 5.9 PCB layout recommendations 5.10 Decoupling capacitor 6 Typical applications 6.1 Low-side current sensing 7 Package information 7.1 SOT23-5 package information 7.2 MiniSO8 package information 7.3 SO8 package information 8 Ordering information Revision history