Knowles 3 cell DGH and DSF, cde capacitors

Knowles Introduces Supercapacitors for up to 9 WVDC

Knowles 3 cell DGH and DSF

Knowles Precision Devices Introduces Supercapacitors that Operate at up to 9 WVDC

Three-cell devices offer greater energy potential and power output than single or dual-cell parts

CAZENOVIA, N.Y., March 11, 2024 – Knowles Precision Devices, a segment of Knowles Corporation (NYSE: KN), a leading global supplier of high-performance components and solutions, today announced its latest Electric Double Layer Capacitor (EDLC), or supercapacitor, modules are now available. Based on Knowles’ Cornell Dubilier brand DGH and DSF Series supercapacitors, these cutting-edge capacitors use a three-cell package for higher operating voltages and printed circuit board space savings.

Knowles Corporation acquired Cornell Dubilier in 2023 to expand its offering of high-quality film, electrolytic, and mica capacitors. Like other supercapacitors offered by Knowles’ Cornell Dubilier brand, the new devices provide very fast power discharge that cannot be matched by conventional capacitors or batteries. That large capacity makes it possible to support brief power interruptions, supplement batteries, or even be used in place of batteries in many applications. These supercapacitors are ideal for applications including solar and wind energy harvesting, mechanical actuators, AGV (Automated Guided Vehicles), EV transportation power, smart utility meters, IoT, pulse battery pack alternatives, memory backup, battery/capacitor hybrids, UPS systems, emergency lighting, LED power, solar lighting or anywhere that significant energy storage is needed.

The new supercapacitors offer a notable jump in voltage rating over typical radial-mount supercapacitors, up to 9.0 WVDC. A key feature of the DGH and DSF Series additions is the unique three-cell radial leaded package. Compared to single or dual-cell supercapacitors, the compact design saves space and allows for much higher operating voltages, making them ideal for a wider range of applications. Both series include capacitance values from 0.33 to 5 Farads. Multiple devices can be banked for even higher
capacitance or voltage.

Another notable advantage of these supercapacitors is their internal cell balancing. This feature ensures optimal performance and serves as a production time saver. DGH and DSF Series three-cell supercapacitors are also more cost-effective than other options currently available.

From a performance standpoint, both series offer high energy density and extremely low self-discharge rates, benefiting energy storage applications. Both series are also tolerant of wide-ranging operational environments, with operating temperature ranges from -40 °C to +65 °C for DGH 8.1V/DSF 9.0V and -40 °C to +85 °C for DGH 6.9V/DSF 7.5V. Low equivalent series resistance (ESR) minimizes energy loss for high efficiency. ESR varies by part but is lower than most capacitors with similar storage capabilities. These supercapacitors are designed to withstand over 500,000 charge/discharge cycles, ensuring long-lasting performance without performance degradation. Operating life is expected to be up to 10 years.

All items are in distributor stock. To learn more about Knowles’ Cornell Dubilier brand DGH and DSF Series Three-cell supercapacitors, visit www.cde.com.

About Knowles Corporation
Knowles Corporation (NYSE: KN) is a market leader and global provider of high-performance capacitors and radio frequency (“RF”) filtering products, balanced armature speakers, advanced micro-acoustic microphones, and audio solutions serving the medtech, defense, electric vehicle, industrial, communications, consumer electronics markets. Our focus on the customer,
combined with unique technology, proprietary manufacturing techniques, and global operational expertise, enables us to deliver innovative solutions across multiple applications. Knowles, founded in 1946 and headquartered in Itasca, Illinois, has approximately 7,100 employees at facilities located in 14 countries around the world. For more information, visit knowles.com.

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