Sign up today to get the latest news and updates from EPC on new product announcements, applications work, and much more. Sign up for EPC email updates.
Bringing GaN to the final frontier, EPC Space introduced two new radiation-hardened GaN transistors for high-current switching in space-based applications. As the number of commercial satellites continues to increase, designers require more options for space-ready power electronics with improved current handling.
All About Circuits
September, 2023
Read article
Read more
As more processing power and more complex loads are placed on-orbit or into deep space missions, it is sometime necessary to parallel two or more power switches. However, conventional power device packages, such as the FSMD-A/B/C/D and their I/O pad provisioning make it difficult to accomplish paralleling these devices in a performance-conscious manner. When paralleled, the gate and source-sense pads on these packages either serve to block the most efficient/shortest interconnect from package-to-package for the drain and source connections or for the gate and source-sense pads. So in parallel configurations, there is always a compromise between optimized drain-source load-circuit performance and gate-source-sense drive-loop performance. This article introduces the FSMD-G discrete HEMT package and explains how the reconfiguration of its I/O pads overcomes these limitations when paralleling GaN HEMTs.
How2Power
September, 2023
Read article
Read more
The EPC9159 is a 1 kW, 48 V/ 12 V, LLC converter in a tiny 17.5 mm x 22.8 mm footprint for state-of-the-art power density of 5130 W/in3.
EL SEGUNDO, Calif.— September 2023 — EPC announces the availability of the EPC9159, a 48 V / 12 V, LLC converter designed for high-density 48 V server power and DC-DC converters. This reference design can deliver 1 kW of power in a tiny 17.5 mm x 22.8 mm footprint for a power density of 5130 W/cm3. This is achieved by employing gallium nitride (GaN) power switches operating at high switching frequencies in both the primary and secondary circuits.
Read more
EPC Space has introduced radiation-hardened gallium nitride devices for space-borne power converters and other rugged environments.
Electronics Weekly
August, 2023
Read article
Read more
GaN devices offer a plethora of benefits that align well with the demands of the space industry, addressing challenges related to reliability, radiation survivability, and space heritage.
Power Electronics News
August, 2023
Read article
Read more
Microinverters and power optimizers are widely utilized in modern solar panels to maximize energy efficiency and conversion. Such topologies and implementations usually require a minimum of 25 years of lifetime, which is becoming a critical challenge for market adoption. Low-voltage gallium nitride (GaN) power devices (VDS rating < 200 V) are a promising solution and are being used extensively by an increasing number of solar manufacturers.
In this article, a test-to-fail approach is adopted and applied to investigate the intrinsic underlying wear-out mechanisms of GaN transistors. The study enables the development of physics-based lifetime models that can accurately project the lifetimes under the unique demands of various mission profiles in solar applications.
How2Power
August, 2023
Read article
Read more
As the revolution of renewable energy as well as transportation electrification progresses, the need for residential energy storage systems is increasing. A high efficiency DC-to-DC converter is usually required to exchange energy generated from renewable sources, such as solar panels, with a battery. The fast-switching speed and low RDS(on) of gallium nitride (GaN) FETs can help save energy by reducing power consumption inside the DC-to-DC converter. This article shows how to design a high efficiency 100 – 250 V to 40 - 60 V DC-to-DC converter.
Power Electronics Europe
May, 2023
Read article
Read more
Automotive electronics have gone through several eras of evolution in the past 30 years. From the pure internal combustion engines (ICE) that had mostly mechanical, or engine-driven systems, to the mild hybrid (MHEV) with the addition of electrical motivation, to the fully battery-electric car (BEV). In each of these three eras, the architecture, and even the basic semiconductor components for converting and distributing electrical power changed. This article discusses this evolution and makes some speculations about likely further evolutionary directions.
Power Systems Design
August, 2023
Read article
Read more
In this article, Renesas Electronics explains how using a discreet GaN based power supply in the ISLVERSALDEMO2Z reference design for the core offers several advantages for power management in space avionics systems.
Power Electronics News
July, 2023
Read article
Read more
Lower-voltage GaN FETs are reducing size, minimizing cooling requirements and improving efficiency.
Lower-voltage GaN FETs (i.e., 100 V) are reducing size, minimizing cooling requirements and improving efficiency for many traditional Si-based power MOSFET applications. In this article, the challenges to repeatably and reliable characterization of the dynamic performance of these devices is discussed. Careful and thoughtful mechanical and electrical design of a customized GaN fixture and test board can overcome many of these challenges, enabling the confident use of these new WBG devices in your power-converter designs.
Power Electronics News
July, 2023
Read article
Read more
Efficient Power Conversion (EPC) expands its family of radiation-hardened (rad-hard) gallium nitride (GaN) products for power conversion solutions with two new 40 V devices rated at 62 A and 250 A to address critical spaceborne and other high-reliability applications.
EL SEGUNDO, Calif.— July 2023 — EPC announces the introduction of two new 40 V rated radiation-hardened GaN FETs.EPC7001 is a 40 V, 4 mΩ, 250 APulsed, rad-hard GaN FET in a small 7 mm2 footprint. EPC7002 is a 40 V, 14.5 mΩ, 62 APulsed, rad-hard GaN FET in a tiny 1.87 mm2 footprint. Both devices have a total dose radiation rating greater than 1,000K Rad(Si) and SEE immunity for LET of 83.7 MeV/mg/cm2 with VDS up to 100% of rated breakdown. These new devices, along with the rest of the Rad Hard family, are offered in a chip-scale package. Packaged versions are available from EPC Space.
Read more
Transient voltage overshoot is a common phenomenon in GaN high electron mobility transistors (HEMTs) under high slew rate switching conditions. The dynamic parametric instability under such stress is a critical concern for GaN applications. This work, for the first time, accurately characterized the evolution of dynamic on-resistance (RDS(on)) in GaN HEMTs under repetitive voltage overshoot up to billions of switching cycles. The dynamic RDS(on) increase was found to be the dominant device degradation under overvoltage switching. Such findings were obtained from a high-frequency, repetitive, unclamped inductive switching (UIS) test with active temperature control and accurate in-situ RDS(on) monitoring. A physics-based model was proposed to correlate the dynamic RDS(on) drift with the peak overvoltage, and a good agreement with experimental data was achieved. This model was further used to project the lifetime of GaN HEMTs. For 100 V rated GaN HEMTs switched under 100 kHz and 120 V spikes, the model projects less than 10% dynamic RDS(on) shift over 25 years of continuous operation. This work addresses the major concerns of overvoltage switching reliability of GaN HEMTs and provides new insights of the electron trapping mechanism.
IEEE Xplore
Ruizhe Zhang, Ricardo Garcia, Robert Strittmatter, Yuhao zhang, Shengke Zhange
Read article (IEEE subscription required)
Read more
On July 3rd, 2023, China’s Ministry of Commerce announced it would put in place certain restrictions on the exporting of gallium and germanium, among other materials, starting in August of this year. EPC’s wafer technology is ‘GaN-on-Si’, although the amount of gallium in each device is miniscule. There are significant sources of gallium available worldwide and EPC’s needs are relatively small, we expect no short or long-term interruption of supply.
Read more
Gallium Nitride (GaN) heterojunction field effect power transistors in the 15 V to 350 V range have shown to give significant advantages over silicon in efficiency, size, speed, and cost in applications such as power conversion, motor drive, and pulsed light for lidar. GaN integration provides numerous system benefits for many high frequency applications. GaN integration is just beginning, and the benefits are assured to increase over time.
Bodo’s Power Systems
June, 2023
Read article
Read more
EPC, a leader in enhancement-mode gallium-nitride (GaN) FETs and ICs, delivered multiple technical presentations on GaN technology and showcased applications at PCIM Europe 2023 in Nuremburg. We spoke with the company's Founder and CEO, Alex Lidow, about the power industry and how it's being impacted by GaN devices.
Electronic Design
May, 2023
View video
Read more
In this episode of Spirit: Behind the Screen, Spirit Electronics CEO Marti McCurdy chats with EPC’s CEO Alex Lidow and Marketing Director Renee Yawger about the progress of GaN. They discuss GaN’s performance under high radiation as well as the extensive testing, failure modes and device lifespan detailed in EPC’s Phase 15 reliability report. With the full potential of GaN still to be explored and new EPC products releasing frequently, including new half-bridge drivers, low-side drivers and full power stage, GaN is especially useful in New Space and commercial space applications.
Spirit: Behind the Screen
Listen to podcast
Read more
Case Spotlights Next-Gen Tech Replacing Silicon
(El Segundo, California)—Efficient Power Conversion Corporation (EPC), the global leader in gallium nitride (GaN) technology, today filed complaints in federal court and in the U.S. International Trade Commission (ITC) asserting four patents of its foundational patent portfolio against Innoscience (Zhuhai) Technology Company, Ltd. and its affiliates (collectively, Innoscience). These patents cover core aspects of the design and manufacturing process of EPC’s proprietary enhancement-mode gallium nitride power semiconductor devices. These patents encompass innovations that enabled GaN-based power devices to mature from a research project to a mass-producible high-volume alternative to silicon-based transistors and integrated circuits with GaN devices having higher efficiency, smaller size, and lower cost.
Read more
Monolithic GaN integration has matured to the point that complex circuits such as a half bridge gate driver with various features can now be realized. This article will cover DC-to-DC and BLDC motor drive application examples that benefit from monolithic half-bridge integration.
Power Electronics News
May, 2023
Read article
Read more
The EPC9186 GaN-based inverter reference design enhances motor system performance, range, precision, and torque for high power applications.
EL SEGUNDO, Calif.— May, 2023 — EPC announces the availability of the EPC9186, a 3-phase BLDC motor drive inverter using the EPC2302 eGaN® FET. The EPC9186 supports a wide input DC voltage ranging from 14 V to 80 V. The high-power capability of the EPC9186 supports applications such as electric scooters, small electric vehicles, agricultural machinery, forklifts, and high-power drones.
Read more
Modern solar panels are demanding increasingly higher power density and longer operating lifetimes. Solar applications including power optimizers and panels with built-in microinverters are becoming the prevailing trend for an increasing number of solar customers, where low voltage GaN power devices (VDS < 200 V) are extensively used.
Bodo’s Power Systems
May, 2023
Read article
Read more