Custom Magnetics: The Future of Magnetic Component Manufacturing

Choosing a custom component over an off-the-shelf option is a significant decision that influences the design, manufacturing, and deployment stages. Learn how the right approach to customization can help bring innovation to market.Continue reading

Introduction to Gate Drivers

12 Steps for Designing Gate Drive Transformers

Following these 12 steps when designing gate drive transformers will ensure a long component life and optimal performanceContinue reading

Introduction to Gate Drivers

8 Things to Consider Before Designing a Gate Drive Transformer

Several important factors need to be considered when designing an optimized gate drive transformer (GDT). This article discusses several GDT design considerations, as well as ideal applications for their use. Two of the critical components to control when designing a gate-drive transformer are the leakage inductance and distributed capacitance. High leakage inductance and distributed capacitance...Continue reading

Introduction to Gate Drivers

Gate Drive Transformer Pulse Response Characteristics

A gate drive transformer must reproduce the shape of an input pulse as accurately as possible at its secondary terminals. The performance of a gate drive transformer’s pulse characteristics is specified in terms of its effect on the shape of the pulse input current/voltage. It is important that the transformer must reproduce the shape of...Continue reading

Introduction to Gate Drivers

Introduction to Gate Drivers for Power Electronics

A gate driver is a power amplifier that accepts a low-power input from a controller IC and produces the appropriate high current gate drive for a power device. As requirements for power electronics continue to increase, the design and performance of the gate driver circuitry are becoming ever more important.Continue reading

basic-smps-circuit-diagram

12 Steps for Designing SMPS Transformers

Designing magnetic components for SMPS can be challenging due to the increasing demands of modern electronics designs. Following these 12 steps can help engineers navigate the challenges and ensure a successful projectContinue reading

Phase Shifted Full-Bridge components

SMPS: Phase-Shifted Full-Bridge Converters

Phase-shifted full-bridge (PSFB) converters reduce switching loss and increase efficiency by phase-shifting the gate signals between the leading leg and the lagging leg switches without additional circuitsContinue reading

SMPS Resonant Converters

SMPS: Resonant Converters

Demand for smaller electronics (and thus smaller power supplies) continues to increase. Resonant techniques are used to allow for high-frequency operation in switched-mode power supplies, which in turn allows for smaller componentsContinue reading

symmetrical-examples

SMPS: Symmetrical Isolated Converters

The fourth article in our series on switched-mode power supplies (SMPS) covers the main types of symmetrical isolated converter topologies: push-pull, half-bridge, and full-bridgeContinue reading

asymmetrical-examples

SMPS: Asymmetrical Isolated Converters

Isolated SMPS topologies are split into two main categories depending upon how the transformer is utilized: asymmetrical and symmetrical. In this article, we discuss asymmetrical isolated converter topologies.Continue reading

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