Efficient Power Conversion (EPC) expands its family of radiation-hardened (rad-hard) gallium nitride (GaN) products for power conversion solutions with two new devices rated at 100 V and 200 V to address a multitude of critical spaceborne and other high-reliability .

EL SEGUNDO, Calif.— April 2023 — EPC announces the introduction of two new radiation-hardened GaN FETs. The EPC7020 is a 200 V, 11 mΩ, 170 A_Pulsed, rad-hard GaN FET in a small 12 mm² footprint. The EPC7003 is a 100 V, 30 mΩ, 42 A_Pulsed, 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 V_DS up to 100% of rated breakdown. These new devices, along with the rest of the Rad Hard family, EPC7019, EPC7014, EPC7004, EPC7018, EPC7007, are offered in a chip-scale package, the same as the commercial eGaN^® FET and IC family.  Packaged versions will be available from EPC Space.

GaN power devices should be the ideal choice for power conversion applications in space because they are more robust than rad hard MOSFETs when exposed to various forms of radiation. The electrical and thermal performance of GaN has also demonstrated superior operation in a space environment. In this podcast, Bel Lazar, Chief Executive Officer of EPC Space, will analyze the importance of GaN for the space industry. In addition to his role as CEO of EPC Space, Bel currently serves as COO of Efficient Power Conversion (EPC).

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Efficient Power Conversion (EPC) expands its family of radiation-hardened (rad-hard) gallium nitride (GaN) products for power conversion solutions in critical spaceborne and other high-reliability environments with the addition of a fifth rad hard device to the product family.

EL SEGUNDO, Calif.— June 2022 — EPC announces the introduction of the EPC7004 radiation-hardened GaN FET. The EPC7004 is a 100 V, 7 mΩ, 160 A_Pulsed, rad-hard GaN FET in a small 6.56 mm² footprint. The EPC7004 has a total dose radiation rating greater than 1 Mrad and SEE immunity for LET of 85 MeV/(mg/cm²). The EPC7004, along with the rest of the Rad Hard family, EPC7014, EPC7007, EPC7019, EPC7018, are offered in a chip-scale package, the same as the commercial eGaN^® FET and IC family.  Packaged versions will be available from EPC Space.

Efficient Power Conversion (EPC) expands its family of radiation-hardened (rad-hard) gallium nitride (GaN) products for power conversion solutions in critical spaceborne and other high-reliability environments with a 100 V device that has the lowest on-resistance of any 100 V rad hard transistor currently available on the market.

EL SEGUNDO, Calif.— June 2022 — EPC announces the introduction of the EPC7018 radiation-hardened GaN FET. The EPC7018 is a 100 V, 3.9 mΩ, 345 A_Pulsed, rad-hard GaN FET in a small 13.9 mm² footprint. The EPC7018 has a total dose radiation rating greater than 1 Mrad and SEE immunity for LET of 85 MeV/(mg/cm²). The EPC7018, along with the rest of the Rad Hard family, EPC7014, EPC7007, EPC7019, are offered in a chip-scale package, the same as the commercial eGaN^® FET and IC family.  Packaged versions will be available from EPC Space.

Efficient Power Conversion (EPC) expands its family of radiation-hardened (rad-hard) gallium nitride (GaN) products for power conversion solutions in critical spaceborne and other high reliability environments with a device that has the lowest on-resistance of any rad hard transistor currently available on the market.

EL SEGUNDO, Calif.— March 2021 — EPC announces the introduction of the EPC7019 radiation-hardened eGaN FET. The EPC7019, a 40 V, 1.5 mΩ, 530 A_Pulsed, rad-hard eGaN FET in a small 13.9 mm² footprint. The EPC7019 has a total dose rating greater than 1 Mrad and SEE immunity for LET of 85 MeV/(mg/cm²). These devices are offered in a chip-scale package, the same as the commercial eGaN FET and IC family.  Packaged versions will be available from EPC Space.

As the outer reaches of the Earth’s atmosphere and space are opened to commercial development, motors will become increasingly important to systems places there for various functions. With the inevitability of manufacturing in space, motors – including their drivers – will take on even more functions. Of equal importance will be the motor drivers selected to drive those motors efficiently and reliably.

Components in Electronics
October, 2021
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Gallium nitride (GaN) power semiconductors allow for innovation in the harsh radiation environments of space applications.

Electronics Weekly
September, 2021
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Unlike silicon, whereby specific manufacturing processes and packaging are required to insulate semiconductors from the effects of radiation, GaN devices are largely resistant to the damage caused by space radiation due to their physical characteristics and structure. In an interview with Alex Lidow, CEO at EPC, Power Electronic News have discovered the features of GaN for space applications.

Power Electronics News
September, 2021
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Technology for space applications has been an important part of 2021, thus more components are coming out that are rad-hard. Recently, two new FETS have come out, what do they bring to this space?

All About Circuits
June, 2021
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Gallium nitride power device technology enables a new generation of power converters in space operating at higher frequencies, higher efficiencies, and greater power densities than everachievable before. GaN power devices can also exhibit superior radiation tolerance compared with Silicon MOSFETs depending upon their device design.

Power Electronics Europe
December, 2020
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GaN power transistors are an ideal choice for power and RF applications to support extreme space missions. Through its new eGaN^® solutions, EPC Space guarantees radiation hardness performance and SEE (single-event effects) immunity, with devices that are specifically designed for critical applications in commercial satellite space. These devices have exceptionally high electron mobility and a low-temperature coefficient with very low R_DS(on) values.

EETimes
July, 2020
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EPC Space, a joint venture company, will provide advanced, high-reliability, gallium nitride (GaN) power conversion solutions for critical spaceborne and other high reliability environments.

EL SEGUNDO, CA and BLACKSBURG, VA – June 2020 – Efficient Power Conversion (EPC) Corporation and VPT, Inc., A HEICO company (NYSE:HEI.A) (NYSE:HEI)  announce the establishment of EPC Space LLC, a joint venture focused on designing and manufacturing radiation hardened (Rad Hard) GaN-on-silicon transistors and ICs packaged, tested, and qualified for satellite and high-reliability applications.

Two space travel related stories hit my desktop this week; one that rapidly generated major international headlines and one that slid very quietly onto my email screen.

The headline-hitter was the successful launch of Elon Musk’s SpaceX rocket with its payload of a Tesla sports car, complete with a dummy driver at the wheel. The second was about Gallium Nitride technology that would be suitable for space applications.

Electro Pages
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SL70040SEH Low Side GaN FET Driver Powers ISL7002xSEH GaN FETs in Launch Vehicle and Satellite Power Supplies

TOKYO--(BUSINESS WIRE)--Renesas Electronics Corporation (TSE:6723), a premier supplier of advanced semiconductor solutions, today announced the space industry’s first radiation-hardened, low side Gallium Nitride (GaN) field effect transistor (FET) driver and GaN FETs that enable primary and secondary DC/DC converter power supplies in launch vehicles and satellites, as well as downhole drilling and high reliability industrial applications. These devices power ferrite switch drivers, motor control driver circuits, heater control modules, embedded command modules, 100V and 28V power conditioning, and redundancy switching systems.

Business Wire
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MILPITAS, Calif., May 25, 2016 /PRNewswire/ -- Intersil Corporation (NASDAQ: ISIL), a leading provider of innovative power management and precision analog solutions, today announced plans to extend its market leading radiation tolerant portfolio to include Gallium Nitride (GaN) power conversion ICs for satellites and other harsh environment applications.

PR Newswire
May 25, 2016
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Microsemi is working with Efficient Power Conversion (EPC) www.epc-co.com in the development of a complete line of high performance FETS for high reliability space and military applications. A jointly researched paper entitled "Enhancement Mode Gallium Nitride Characteristics Under Long Term Stress" will be presented at the Government Microcircuit Applications and Critical Technology Conference (GOMAC), March 21-24, 2011 in Orlando, Florida. The study covers the reliability testing results and demonstrates the stability of the devices at temperature and under radiation exposure.

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