Murata Safety Ceramic Capacitor Solutions for EV Powertrains
Murata has a wide lineup of high-voltage, and compact electronic components that meet EVs technological trends. Our lineup of safety capacitors are featured in this technical article.
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Murata has a wide lineup of high-voltage, and compact electronic components that meet EVs technological trends. Our lineup of safety capacitors are featured in this technical article.
Capacitor Guide
Noise-control techniques are becoming increasingly important due to high-speed operation of ICs and electrification of automobiles.
This application note introduces examples of using the 3-terminal capacitor as a filter (feed-through connection) for radiated emission and conducted immunity.
・Aims and content of this fundamental knowledge series
・Direct current/alternating current, resistance/inductors/capacitors, voltage/current/electric power, relation to Ohm's Law
・Voltage and current of a direct current circuit connected to an ideal resistance/inductor/capacitor
SDGs×Murata
Continuing from Part 1, this article introduces specific SDG initiatives regarding Murata's MLCCs. It is part of a series that introduces technology articles about Murata Manufacturing.
SDGs×Murata
This article focuses on MLCCs (Multilayer Ceramic Capacitors), which are core products of Murata, and introduces case studies regarding SDG initiatives. It is part of a series that introduces technology articles about Murata Manufacturing.
In Part 3 of our series, we will learn about the direction of development associated with the remaining two elements consisting of Shared and Services (S) and Electric (E), as well as the measures implemented when conducting advanced development of technologies and products in anticipation of needs amid changing automobile industry supply chains.
Part 2 of our series will introduce the technologies and production systems that support the strengths of Murata’s automotive MLCCs. In addition, we also heard more about the direction of automotive MLCC development due to the progress of the Connected (C) and Autonomous (A) features that are part of the four elements that make up the CASE trend.
Automotive MLCCs must prioritize the implementation of a higher level of quality that is completely different from the MLCCs for consumer devices. We spoke with two automotive MLCC product technology managers who are well versed in the application and technology requirement trends in the automotive industry about the type of MLCCs required in the CASE era, the frontlines of technology development to meet those requirements, and future developments.
In Part 2, we talked about the difficulties in developing MLCC-specific manufacturing technology and the technology that solved our issues, as well as why Murata’s development system is so strong and continues to lead the way in miniaturizing and increasing the capacitance of MLCCs. Murata engineers also explained the prospects for further miniaturization and capacitance expansion of MLCCs.