240 V/µs slew rate — the spec that defines the part
Its 240 V/µs slew rate and 70 MHz -3 dB bandwidth place it firmly in the high-speed signal-conditioning class — video distribution, ADC front-end buffering, or pulse-amplifier stages where a general-purpose op-amp (5 V/µs to 25 V/µs) would slew-limit and distort the waveform. Each of the two channels draws 8.5 mA supply current and can deliver 100 mA output current, which is enough to drive a 50 Ω or 75 Ω terminated line directly without a separate buffer stage.
Supply span: 9 V to 32 V — no single 5 V operation
The supply span runs from 9 V minimum to 32 V maximum. That covers ±5 V to ±15 V dual supplies and single 12 V or 24 V industrial rails, but it excludes single 5 V systems. The input offset voltage is 2.5 mV typical, input bias current 2.5 µA, which are reasonable for a high-speed stage but not precision-grade; plan for a DC servo or digital calibration if sub-mV offset matters.
This part belongs in benchtop instruments, office equipment, lab gear, or indoor test racks — not in a motor drive cabinet, an outdoor telecom enclosure, or an automotive ECU. If the design sees -20°C or +85°C ambient, the industrial-temperature variant (THS4052ID, if it exists) or a different high-speed dual op-amp with a -40°C to +85°C or +125°C rating is the correct choice.
No broker dependency, no surplus risk — a clean BOM line for production.
