industry news
Subscribe Now

Panasonic Industry Europe capacitors empower new Raspberry Pi microcomputer

  • Two Panasonic Industry Europe Polymer capacitors enable new Raspberry Pi 4 to reach new levels of efficiency and reliability
  • Through a strong business collaboration Panasonic Industry Europe and the Raspberry Pi Foundation donated microcomputers to educational charity in Cameroon

Munich, September 2019: The new Raspberry Pi 4 is a microcomputer that promotes teaching of basic computer science in schools and in developing countries. It features Panasonic Industry Europe’s Polymer SP capacitor replacing the previously used MLCC’s (multi layer ceramic capacitor). Additionally the newly developed low-cost power supply of the Raspberry Pi  4 is equipped with Polymer OSCON capacitors from Panasonic Industry Europe, offering a reliable, high-tech and cost efficient solution for end users. As both companies focus on contributing to society and producing cost efficient, high performance and high quality products, the development of the new Raspberry Pi with Panasonic Industry Europe components as a perfect example for cutting edge technology in a low cost application led to a charity event in Cameroon, that both companies were very happy to support.

MLCC replacement on the PCB

The Raspberry Pi Foundation replaced two 1206 MLCCs with just one of Panasonic Industry Europe’s Polymer SP capacitors that contributes to the performance and reliability of the most powerful Raspberry Pi microcomputer ever. With a compact housing of only 7.3 x 4.3 x 1.9 mm and a capacitance value of 100µF as well as low ESR characteristics (15mΩ max.) the SP capacitor helped optimizing the design processes as well as the capabilities of the Raspberry Pi 4. MLCCs cannot achieve the same high capacitance as polymer for the same given footprint and volume. Also the MLCC exhibits strong capacitance dependence on DC bias due to ferroelectric dielectric materials used for MLCCs. The capacitance of these devices varies with applied DC voltage which can lead to a capacity drop of more than 70% compared to the given specs on the data sheet. For polymer capacitors the capacitance does not vary significantly when the application voltage changes. These advantages allowed a lower part count using SP-CAP with better capacitance range and temperature profile instead of MLCCs for Raspberry Pi 4 model, which not only saved space on the PCB but also was a cost factor by saving costs on parts and reducing the production steps.

Please find a video that shows the advantages of Polymer SP capacitors over MLCCs here.

OSCON Polymer capacitor for the power supply

The newly introduced low cost power supply for the Raspberry Pi 4 uses two Panasonic Industry Europe OSCON Polymer capacitors with a rated voltage of 6.3VDC. Excellent long-life characteristics, efficiency and reliability are secured due to the highest ripple current capabilities (5600 mA rms) in the entire capacitor market. With an operating temperature range from -55 up to 105°C the capacitor is capable of withstanding harsh environments for up to 5000 hours which renders it ideal for demanding applications like the Raspberry Pi, that is used in challenging surroundings.

Raspberry Pi for Cameroon educational charity events

The Raspberry Pi Foundation and Panasonic Industry Europe donated 100 Raspberry Pi microcomputers and further technical equipment to the Lycee D’Akwa-Nord Bonamoussadi High School and the University of Science in Douala. Even in demanding surroundings the robust microcomputers are performing reliably and engage pupils and students to get in touch with the latest technology.

The Panasonic principle “Contribution to Society” corresponds to the Raspberry Pi Foundation’s goal to facilitate the next generation pupils from emerging countries to engage in computer science and coding. The pupils and students are experimenting with Raspberry Pi/Panasonic Industry Europe driven applications and developed impressive solutions and applications like a GPS supported drone or a gas-, temperature- and humidity sensing device and even a fully-autonomous security alarm system, that detects light and human movement.

In total over 250 pupils, undergraduate, graduate and doctoral students together with their professors followed the educational and demonstrational sessions after the Raspberry Pi microcomputers were handed over. Panasonic Industry Europe will re-visit the schools and university in Cameroon to follow and further support the developments of the pupils and students.

About Panasonic

Panasonic Corporation is a worldwide leader in the development of diverse electronics technologies and solutions for customers in the consumer electronics, housing, automotive, and B2B businesses. The company, which celebrated its 100th anniversary in 2018, has expanded globally and now operates 582 subsidiaries and 87 associated companies worldwide, recording consolidated net sales of US$72.10 billion for the year ended March 31, 2019. Committed to pursuing new value through innovation across divisional lines, the company uses its technologies to create a better life and a better world for its customers. To learn more about Panasonic:

About Panasonic Industry Europe

Panasonic Industry Europe GmbH is part of the global Panasonic Group and provides automotive and industrial products and services in Europe. As a partner for the industrial sector, Panasonic researches, develops, manufactures and supplies technologies that support the slogan “A Better Life, A Better World”.

The company’s portfolio covers key electronic components, devices and modules up to complete solutions and production equipment for manufacturing lines across a broad range of industries. Panasonic Industry Europe is part of the global company Panasonic Industrial Solutions. More about Panasonic Industry Europe:

Leave a Reply

featured blogs
Jan 23, 2020
In my presentation "What the FAQ is an FPGA?" we will rend the veils asunder and reveal all, so attendees had best wear dark glasses....
Jan 23, 2020
Embedded design trends typically revolve around three main ideas: faster data rates, smaller form factors and cost-effective solutions. Those design trends drive the theme for the 2020 Embedded Tech Trends forum: The Business and Technology Forum for Critical and Intelligent ...
Jan 22, 2020
Master the design and verification of next gen transport: Part One – Overview Master the design and verification of next gen transport: Part Two – High-Level Synthesis Master the design and verification of next gen transport: Part Three – Functional Safety M...
Jan 17, 2020
[From the last episode: We saw how virtual memory helps resolve the differences between where a compiler thinks things will go in memory and the real memories in a real system.] We'€™ve talked a lot about memory '€“ different kinds of memory, cache memory, heap memory, vi...

Featured Video

Automotive Trends Driving New SoC Architectures -- Synopsys

Sponsored by Synopsys

Today’s automotive trends are driving new design requirements for automotive SoCs targeting ADAS, gateways, connected cars and infotainment. Find out why it is essential to use pre-designed, pre-verified, reusable automotive-optimized IP to meet such new requirements and accelerate design time.

Drive Your Next Design to Completion Today with DesignWare IP® for Automotive SoCs