SNVAA82 Application note

SNVAA82 august 2023 LMR38020

4.3.3 Check I_pk

Both the positive and negative peak value through the primary winding must not exceed the current limits of the LMR38020.

This peak-to-peak magnetizing current ripple is:

Equation 8.

∆ i_{m} = \frac{(V_{I N} - V_{O U T 1}) \times D}{L_{P R I} \times f_{S W}}

The positive peak current of I_PRI is given by Equation 9 :

Equation 9.

I_{P R I_P K_P O S} = {(I}_{O U T 1} + I_{O U T 2} \times \frac{N_{2}}{N_{1}} + I_{O U T 3} \times \frac{N_{3}}{N_{1}}) + (\frac{∆ i_{m}}{2})

The negative peak current of I_PRI depends on different leakage inductance and parasitic parameters and finding an explicit expression is difficult. Commonly, an empirical and conservative linear approximation can be used, in which the secondary current is represented as a linear function and ramps up from zero at the start of T_off time^[1].

Equation 10.

I_{P R I_P K_N E G} = I_{O U T 1} - (\frac{∆ i_{m}}{2}) - {(I}_{O U T 2} \times \frac{N_{2}}{N_{1}} + I_{O U T 3} \times \frac{N_{3}}{N_{1}}) \times \frac{(1 + D)}{(1 - D)}

This gives a simple estimation of the negative peak current in worst case. However, the conservative estimate may lead to an unnecessary over design of the transformer. In fact the secondary current is usually a convex curve, as shown in Figure 3-3, therefore the actual I_{PRI_PK_NEG} is actually smaller than the calculated.

Equation 10 is more close to reality when the leakage inductance is very large, and when I_OUT1=0, V_IN=V_INMIN.

4.3.3 Check Ipk

4.3.3 Check I_pk