The power electronic systems in an electric vehicle (EV) feature a wide variety of capacitors. From DC-link capacitors to safety capacitors and snubber capacitors, these components play a critical role in stabilizing and safeguarding the electronics from factors like voltage spikes and electromagnetic interference (EMI). Here, we’ll focus on the capacitors used in the EV traction inverter.
Traction inverters are a critical power electronic device in EVs. They convert direct current (DC) from the vehicle’s batteries into alternating current (AC) to power the electric motor that drives the vehicle.
Before making any decision on what capacitors you need, you must first decide which traction inverter topology is right for your application.
Figure 1: High-voltage power systems in battery electric vehicles (BEVs)
There are four main topologies of traction inverters, with differences based on type of switch, voltage and levels. Choosing the appropriate topology and related components is critical in designing traction inverters that meet your application’s efficiency and cost requirements.
As stated, there are four most used topologies in EV traction inverters, pictured in Figure 1:
These topologies fall into two subsets: 400V Powertrains & 800V Powertrains. Between the two subsets, it’s more common to use the “2-level” topologies. “Multi-level” topologies are used in higher voltage systems such as electric trains, tramways and ships but they are less popular due to higher cost and complexity.
Figure 2: Four of the most used topologies for EV traction inverters. Source: Yole
There are many different types of capacitors that ensure the efficient and effective operation of your traction inverter. Here are the main players:
All of these roles are very important to the safety and functionality of traction inverters, but the design and specifications of these capacitors change based on which traction inverter topology you choose.
Our engineers have years of experience in the EV power electronics space, and our capacitors are AEC-Q200 tested to meet the needs of high reliability and EV manufacturers. If you need guidance to figure out how to specify the capacitors for these roles, turn to Knowles Precision Devices.