It delivers a 10 MHz gain-bandwidth product and a 45 V/µs slew rate, supplied from a single or split rail spanning 4.5 V to 38 V total.
Rated for the harsh edge — military temperature range
That means it is specified for avionics, satellite payloads, missile guidance electronics, and downhole instrumentation — environments where the ambient swings past what industrial-grade parts survive. If your BOM calls out a -55°C to 125°C op-amp in a DIP-8 footprint, the TLE2082AMP is a direct fit.
With a 45 V/µs slew rate and 10 MHz gain-bandwidth, this part can swing a 10 V peak-to-peak output at frequencies approaching 700 kHz before the slew-rate limit sets in. That is enough headroom for fast pulse amplification, video-line drivers, and high-speed data acquisition front-ends where a slower op-amp would introduce slew-induced distortion. The 48 mA output per channel also gives it the drive to handle moderate capacitive loads or feed a downstream ADC input stage directly.
Package and mounting — through-hole DIP for socketed or high-reliability boards
It is the standard footprint for socketed designs — useful in burn-in boards, evaluation platforms, and legacy equipment where a soldered SOIC or MSOP would complicate field replacement.
Compliance and lifecycle — active, but RoHS non-compliant
However, it is marked RoHS non-compliant — the leads and internal construction contain lead (Pb). That is a standard condition for many high-reliability and military-grade parts, but it blocks use in EU RoHS-regulated consumer or commercial products unless an exemption applies. If your project requires RoHS compliance, you will need to look at the TLE2082AID (SOIC) or a surface-mount sibling; the DIP variant stays in the legacy, leaded channel.
