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In this episode of PowerUP featuring Alex Lidow, CEO of EPC, we delve into an examination of the revolutionary implications of GaN technology across a range of applications, with a specific focus on motor control and LiDAR systems.
Power Electronics News
February, 2024
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EPC launches three laser driver boards showcasing AEC-Q101 qualified GaN FETs' rapid transition for superior LiDAR system performance.
EL SEGUNDO, Calif.— December 2023 — EPC introduces three evaluation boards - EPC9179, EPC9181, and EPC9180 - featuring pulse current laser drivers of 75 A, 125 A, and 231 A , showcasing EPC’s AEC-Q101 GaN FETs. These FETs; EPC2252, EPC2204A, and EPC2218A are 30% smaller and more cost-effective than their predecessors. Designed for both long and short-range automotive lidar systems, these boards expedite solution evaluation with varied input and output options.
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EPC gallium nitride (GaN) experts will be at Consumer Electronics Show (CES) to share how GaN enables enhanced features and performance in consumer electronics.
EL SEGUNDO, Calif – December 2023 – EPC, the global leader in enhancement-mode gallium nitride (eGaN®) FETs and ICs, will be showcasing the capabilities of GaN technology at CES 2024, demonstrating its role in enhancing features and performance in consumer electronics. This includes delivering higher efficiency, smaller size, and lower cost solutions.
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Modern agricultural techniques have been revolutionized by the integration of unmanned aerial- vehicle (UAV) drones, which are low-voltage battery-operated aircrafts. Smaller drones are utilized for terrain mapping and vegetation monitoring, while heavier, more robust variants are employed for tasks such as spraying and distributing fertilizers and insecticides as well as disseminating seeds and feed with payloads up to 50 kg loads. GaN-based inverters prove to be suitable for UAV agricultural drones since they extend the battery life by improving motor efficiency, courtesy of the higher PWM frequency with sinusoidal excitation. In addition to the efficiency considerations, the higher PWM frequency contributes to a reduction in the dimensions of the DC link, thereby reducing the size and weight of the inverter, which is vital in lightweight aircrafts.
Bodo’s Power Systems
December, 2023
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EL SEGUNDO, Calif – November 2023 – Efficient Energy Technology GmbH (EET), the Austrian-based pioneer in designing and producing innovative balcony power plants, has selected Efficient Power Conversion Corporation’s (EPC) EPC2204 enhancement-mode gallium nitride (eGaN®) power transistor for its latest SolMate® green solar balcony product. The EPC2204 strikes an optimal compromise between low RDS(on) and low COSS, critical for demanding hard switching application, while featuring a drain-source breakdown voltage of 100 V in a compact package. This compact design significantly reduces PCB size, keeps current loops small, and minimizes electromagnetic interference (EMI) emissions.
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Gallium nitride–based high-electron–mobility transistors (HEMTs) have been widely adopted in both consumer and industrial power conversion due to their many material and device advantages over legacy silicon-based converters. The improvements in power-conversion efficiency at much higher switching frequencies that are enabled by GaN can translate to lower system costs and improved power density. Heat dissipation analysis and thermal modeling become critically important as power densities increase. In this article, we will review a thermal calculator tool released by Efficient Power Conversion (EPC). EPC manufactures enhancement-mode GaN HEMTs and integrated power-conversion circuits like half-bridges that form the building blocks of many converters.
Power Electronics News
November 2023
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Space exploration has always demanded cutting-edge technology, reliability, and resilience. The latest breakthrough in power electronics, gallium nitride (GaN) technology, has emerged as a game-changer for space-based systems offering superior radiation tolerance and unmatched electrical performance compared to traditional silicon MOSFETs. In this article, we delve into the reasons why GaN power devices are the ultimate choice for power conversion applications in space and how their resistance to radiation makes them an extremely robust solution for space missions.
Components in Electronics
October 2023
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LLC resonant converters have emerged as the preferred topology for an intermediate 48 V to 12 V conversion due to their high efficiency, high power density and good dynamic response. The outstanding performance resulting from the combination of this topology with GaN transistors has been demonstrated in the past. This article presents how the newest generation of GaN devices, such as those from EPC, continues to push the envelope even further.
Bodo’s Power Systems
November, 2023
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The EPC9194 GaN-based inverter reference design significantly enhances motor drive system efficiency, range, and torque, while more than doubling power per weight. The inverter’s extremely compact size allows seamless integration into the motor housing resulting in the lowest electromagnetic interference (EMI,) highest density, and lowest weight.
EL SEGUNDO, Calif.— October, 2023 — EPC announces the availability of the EPC9194, a
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The space industry is undergoing a transformative shift to “New Space,” driven by the increasing demand for ubiquitous connectivity and the emergence of innovative business models. One of the key elements of this transformation is the adoption of gallium nitride (GaN) technology in space applications. GaN holds immense potential due to its impressive radiation hardness, high system efficiency and lightweight characteristics.
In a discussion with EE Times Europe, Taha Ayari and Aymen Ghorbel, technology and market analysts at Yole Intelligence, part of Yole Group, explained how New Space—the low Earth orbit (LEO) mission segment, with a typical satellite lifespan of three to five years and lower reliability requirements—has become a focal point for GaN adoption. As a result, power GaN devices are being adopted for various satellite systems, including DC/DC converters, point-of-load systems, motor drives and ion thrusters.
EE Times Europe
October 2023
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What are the factors impacting gallium nitride’s adoption across a wide range of power management applications? In this article, we will explore the feedback that EPC has received from customers we have visited over the last 13 years that the company has been in volume production.
Power Electronics News
October, 2023
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Battery-powered industrial vehicles such as forklifts, manual handlers, or warehouse automatic vehicles require high-current inverters to drive the electric motors. Gallium nitride technology helps to increase the power capability and simplify the inverter design in these applications.
Bodo’s Power Systems
October, 2023
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Efficient Power Conversion (EPC) is optimistic about GaN despite geopolitical challenges and the changing landscape in the compound semiconductor sector.
DIGITIMES
September, 2023
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Gallium Nitride (GaN) semiconductor company Efficient Power Conversion (EPC) is taking a fresh stab at the power component landscape, challenging the longstanding silicon hegemony.
DIGITIMES
September, 2023
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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
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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
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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.
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EPC Space has introduced radiation-hardened gallium nitride devices for space-borne power converters and other rugged environments.
Electronics Weekly
August, 2023
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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
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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
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