Power electronics play a critical role in converting and managing electrical energy efficiently. As electric vehicles (EVs), renewable energy systems, and consumer electronics quickly become more powerful, the demand for high-voltage power electronics is quickly increasing. This means the importance of components like bootstrap capacitors has grown significantly.
In power electronics, a bootstrap capacitor is a specific type of capacitor used to drive high-side MOSFETs efficiently. The bootstrap capacitor plays a critical role in maintaining the gate voltage required to turn on the high-side MOSFET in a half-bridge or full-bridge configuration. By using the charge stored in the bootstrap capacitor, the high-side MOSFET's gate voltage can be boosted above the supply voltage, ensuring proper switching operation and enabling efficient power conversion (Figure 1).
Figure 1. A representation of the discharge path of the bootstrap capacitor. Source.
Now that it’s clear the role a bootstrap capacitor plays in a circuit, let’s look at how multilayer ceramic capacitors (MLCCs) can fulfill the bootstrap capacitor role and help you design more efficient and reliable power circuits. Since MLCCs are compact and have high capacitance and low equivalent series resistance (ESR), these components are generally well-suited for using as bootstrap capacitors. Integrating MLCCs in the capacitor role within bootstrap circuits can improve system performance, reduce the PCB space required, and enhance overall energy efficiency.
Using an MLCC as a bootstrap capacitor brings the following additional benefits for your power electronics applications:
If you need help designing a bootstrap capacitor into your system or simply need a high-reliability MLCC to fill the role, contact us today.