SLUSD87A March 2018 – January 2024 LMR14010A
PRODUCTION DATA
The most critical parameters for the inductor are the inductance, peak current and the DC resistance. The inductance is related to the peak-to-peak inductor ripple current, the input and the output voltages. Because the ripple current increases with the input voltage, the maximum input voltage is always used to determine the inductance. Equation 1 is used to calculate the minimum value of the output inductor, where KIND is ripple current percentage. A reasonable value is setting the ripple current to be 30% (KIND) of the DC output current. For this design example, the minimum inductor value is calculated to be 16.4 µH, and a nearest standard value was chosen: 22 µH. For the output filter inductor, it is important that the RMS current and saturation current ratings not be exceeded. The RMS and peak inductor current can be found from Equation 3 and Equation 4. The inductor ripple current is 0.22 A, and the RMS current is 1 A. As the equation set demonstrates, lower ripple currents will reduce the output voltage ripple of the regulator but will require a larger value of inductance. A good starting point for most applications is 22 μH with a 1.6-A current rating. Using a rating near 1.6 A will enable the LMR14010A to current limit without saturating the inductor. This is preferable to the LMR14010A going into thermal shutdown mode and the possibility of damaging the inductor if the output is shorted to ground or other long-term overload.