SLUSAK2D August 2011 – April 2021 TPS53353
PRODUCTION DATA
When a ceramic output capacitor is used, the stability criteria in Equation 6 cannot be satisfied. The ripple injection approach as shown in Figure 8-4 is implemented to increase the ripple on the VFB pin and make the system stable. In addition to the selections made using Steps 1 through Step 5 in Section 8.2.2.2.1, the ripple injection components must be selected. The C2 value can be fixed at 1 nF. The value of C1 can be selected from 10 nF to 200 nF.
where
N is also used to provide enough margin for stability. It is recommended N = 2 for VOUT ≤ 1.8 V and N = 4 for VOUT ≥ 3.3 V or when L ≤ 250 nH. The higher VOUT needs a higher N value because the effective output capacitance is reduced significantly with higher DC bias. For example, a 6.3-V, 22-µF ceramic capacitor may have only 8 µF of effective capacitance when biased at 5 V.
Because the VFB pin voltage is regulated at the valley, the increased ripple on the VFB pin causes the increase of the VFB DC value. The AC ripple coupled to the VFB pin has two components, one coupled from SW node and the other coupled from the VOUT pin and they can be calculated using Equation 17 and Equation 18 when neglecting the output voltage ripple caused by equivalent series inductance (ESL).
It is recommended that VINJ_SW to be less than 50 mV and VINJ_TOTAL to be less than 60mV. If the calculated VINJ_SW is higher than 50 mV, then other parameters must be adjusted to reduce it. For example, COUT can be increased to satisfy Equation 16 with a higher R7 value, thereby reducing VINJ_SW. Use Equation 19 to calculate COUT capacitance needed. For a more holistic calculation, please reference the TPS53353 calculator on ti.com
The DC voltage at the VFB pin can be calculated by Equation 20:
And the resistor divider value can be determined by Equation 21: