Here is how to correctly design control loop that stabilizes flyback converter in order to provide optimal functionality.

Recent advances in converter control and design have focused on improving efficiency, reducing external component count, and ensuring robust performance under variable loads and supply conditions.

The many virtues of flyback converter’s include being the lowest-cost isolated power converter, easily supplying multiple output voltages, a simple primary-side controller, and power delivery of up to ...

The transition from diodes to synchronous-rectification (SR) MOSFETs in secondary circuits of flyback converters increases with each new generation of MOSFETs, improving performance at little or ...

This type of converter seems at first glance to be a simple step-up design with a transformer that has a primary and secondary, where in fact it relies on the collapse in magnetic field during the ...

Peter Green explains advantages of LED drivers based on the flyback power-supply topology: They're inexpensive; they provide an isolated output that complies with UL safety requirements ...

A galvanically isolated power supply is usually designed with a flyback converter. These regulators have a very simple design. Figure 1 shows a typical design for such a regulator with an ADP1071 ...

At PCIM in Nuremberg today, Power Integrations revealed five 800V automotive power supply reference designs for its 1,700V InnoSwitch3-AQ flyback dc-dc converter IC: “The designs leverage both wound ...

Many times designers are given a set of non-isolated supply specifications where the output voltage falls between the minimum and maximum input voltage. They then have to decide between a flyback or ...

Below 60W, a forward converter could also be a better choice than a flyback converter based on circuit complexity and achievable efficiencies. For simplifying the decision about which topology to use, ...