The maximum power dissipation of the TLE2084CN is dependent on the package type and ambient temperature. For the DIP package, the maximum power dissipation is 840mW at 25°C. For the SOIC package, it is 670mW at 25°C. It is essential to ensure that the device does not exceed these power dissipation limits to prevent overheating and potential damage.
To ensure stability when using the TLE2084CN in a unity-gain configuration, it is recommended to add a capacitor (typically 10-100pF) between the output and the inverting input pins. This capacitor helps to compensate for the internal pole of the op-amp and prevents oscillations.
To minimize noise and EMI, it is recommended to follow good PCB layout and routing practices. Keep the input and output traces short and away from each other, use a solid ground plane, and avoid running sensitive signals near the op-amp's power pins. Additionally, decouple the power pins with 0.1uF capacitors to reduce noise and ripple.
While the TLE2084CN can be used as a comparator, it is not recommended due to its relatively slow slew rate (0.5V/us) and limited output current drive capability. Texas Instruments recommends using a dedicated comparator, such as the LM339 or LM2901, for comparator applications.
The TLE2084CN has a relatively high input bias current (up to 500nA) which can cause voltage drops across the input resistors. To minimize the effects of input bias current, use high-impedance input sources, add input bias current cancellation resistors, or use a voltage follower configuration.
TLE2084CN datasheet
by Texas Instruments
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