What the 85 V/µs slew rate buys you — and what it doesn't
The LMH6622MAX/NOPB: Its 85 V/µs slew rate and 160 MHz -3 dB bandwidth put it squarely in the high-speed signal-conditioning class — think video distribution, pulse amplification, or driving a differential-input ADC. The differential output type means it's designed to deliver a balanced signal, not just a single-ended rail-to-rail swing. Supply span runs from 5 V minimum to 12 V maximum, so it lives on a 5 V or 12 V analog rail, not a 3.3 V one.
Dual-channel current budget — 4.3 mA per amp
Each amplifier draws 4.3 mA supply current, totalling 8.6 mA for the pair. That's a reasonable load for a 5 V rail in a multi-channel system, but if you're running both channels at full output into 90 mA loads, the package dissipation adds up — the 8-SOIC copper footprint matters.
Temperature grade and environment
No AEC-Q100 mark, so not for under-hood or chassis-domain designs.
Lifecycle and sourcing posture
No end-of-life notice or last-time-buy pressure — it's still a valid BOM line for new production and replacement builds.
