AN331 Datasheet, PDF(1/8 Page) Silicon Laboratories – COMPENSATING THE FEEDBACK LOOP FOR THE Si3400 AND Si3401

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AN331 Datasheet, PDF (1/8 Pages) Silicon Laboratories – COMPENSATING THE FEEDBACK LOOP FOR THE Si3400 AND Si3401

AN331

COMPENSATING THE FEEDBACK LOOP FOR THE

Si3400 AND Si3401

1. Introduction

The Si3400 and Si3401 reference designs are available for many output voltages (e.g., 3.3, 5, 9, 12 V) and output

capacitor types. In general, Silicon Laboratories strongly recommends using these standard designs to minimize

risk and ensure robust performance. Refer to the design databases posted on the Si3400/01 documentation page

on the Silicon Labs website for more information:

EVB Data Sheets

Si3400-EVB

Si3401-EVB

Si3400ISO-EVB

Si3401ISO-EVB

EVB Reference Design Databases (Schematics and Layout)

Si3400-EVB

Si3401-EVB

Si3400ISO-EVB

Si3401ISO-EVB

However, some designers may want to consider other cases of output filtering, input filtering, inductors, etc. for a

variety of reasons (cost, footprint, availability, etc.).

While it would be desirable to use circuit simulation to optimize the feedback loop, it is very difficult to get reliable

information about important factors such as capacitor ESR. Also, the stabilizing effect of the input side hot-swap

switch and input filter ESR must be taken into account, which is not straightforward for commonly available SPICE

implementations. For these reasons, the feedback loop must be experimentally optimized if a known reference

design is not used.

The application note outlines the general process for compensating the feedback loop experimentally. In case a

predefined compensation and output filter is not used, it is strongly recommended that this procedure be followed

to ensure robust performance.

1.1. Breaking the feedback loop

The feedback loop is broken and a transformer is used to inject an ac signal across the break. Using a transformer

allows the loop stability to be measured in a closed loop system with whatever load a filtering is present. The loop

is broken at the output and at the point sensing the output voltage. The transformer ac and dc impedance must be

small compared to the impedance sensing the output voltage.

Figures 1 and 2 show the recommended transformer placement for the non-isolated and isolated reference

designs.

Rev. 0.1 9/07

AN331

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