• Infineon Successfully Completed its Share Buyback Program 2024

    Infineon Successfully Completed its Share Buyback Program 2024

    1 Min Read

    On 18 March 2024, Infineon Technologies AG successfully completed its Share Buyback Program 2024, announced on 26 February 2024 in accordance with Article 5(1)(a) of Regulation (EU) No 596/2014 and Article 2(1) of Delegated Regulation (EU) No 2016/1052.

    As part of the Share Buyback Program 2024, a total of 7,000,000 shares (ISIN DE0006231004) were acquired. The total purchase price of the repurchased shares was € 232,872,668. The average purchase price paid per share was € 33.27.

    The buyback was carried out on behalf of Infineon by an independent credit institution via Xetra trading on the Frankfurt Stock Exchange, serving the sole purpose of allocating shares to employees of the company or affiliated companies, members of the Management Board of the company as well as members of the management board and the board of directors of affiliated companies as part of the existing employee participation programs.

    Original – Infineon Technologies

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  • EPC Announced Availability of a 3-phase BLDC Motor Drive Inverter Using EPC2619 eGaN® FET

    EPC Announced Availability of a 3-phase BLDC Motor Drive Inverter Using EPC2619 eGaN® FET

    2 Min Read

    EPC announces the availability of the EPC9193, a 3-phase BLDC motor drive inverter using the EPC2619 eGaN® FET. The EPC9193 operates with a wide input DC voltage ranging from 14 V and 65 V and has two configurations – a standard unit and a high current version:

    • The EPC9193 standard reference design uses a single FET for each switch position and can deliver up to 30 ARMS maximum output current.
    • A high current configuration version of the reference design, the EPC9193HC, uses two paralleled FETs per switch position with the ability to deliver up to 60 Apk (42 ARMS) maximum output current.

    Both versions of the EPC9193 contain all the necessary critical function circuits to support a complete motor drive inverter including gate drivers, regulated auxiliary power rails for housekeeping supplies, voltage, and temperature sense, accurate current sense, and protection functions.  The EPC9193 boards measure just 130 mm x 100 mm (including connector).   

    Major benefits of a GaN-based motor drive are exhibited with these reference design boards, including lower distortion for lower acoustic noise, lower current ripple for reduced magnetic loss, and lower torque ripple for improved precision.  The extremely small size of this inverter allows integration into the motor housing resulting in the lowest EMI, highest density, and lowest weight.

    EPC provides full demonstration kits, which include interface boards that connect the inverter board to the controller board development tool for fast prototyping that reduce design cycle times.

    “GaN-based inverters enhance motor efficiency and lower costs, expensive silicon MOSFET inverters”, said Alex Lidow, CEO of EPC. “This results in smaller, lighter, quieter motors with increased torque, range, and precision.”

    Original – Efficient Power Conversion

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  • Teledyne e2v HiRel Announced Radiation Tolerant RF and Power Products for the New Space Market

    Teledyne e2v HiRel Announced Radiation Tolerant RF and Power Products for the New Space Market

    3 Min Read

    Teledyne e2v HiRel announced the availability of radiation tolerant RF and Power products for the evolving New Space market. Qualified based on the EEE-INST-002 space grade standard, these plastic packaged products are qualified for the harsh environment of space with –55°C to +125°C temperature operating ratings, and are radiation tolerant for use in LEO, MEO, and GEO missions.

    The RF products include several low noise amplifiers (LNA) and are ideal for demanding high-reliability space applications where low noise figure, minimal power consumption, and small footprint are critical to mission success. They are ideally suited for satellite communication systems that are increasing the power of radio signals so utilizing components with minimal noise and distortion help minimizing the degradation of digital signals.

    These LNAs are developed in the radiation tolerant pHEMT technology semiconductor process technology. The monolithic microwave integrated circuit (MMIC) products are available in dual-flat no lead (DFN) plastic over molded SMT packages and are biased over single positive VDD supply voltages, eliminating the need for negative power rail voltages.

    • The TDLNA002093SEP delivers a low noise figure of less than 0.37 dB, IDDQ from 30 mA to 100mA, and exceptional performance from 1 GHz (L-band) to 6 GHz (S-band) frequencies.
    • The TDLNA0430SEP delivers an industry leading low noise figure of less than 0.35 dB, IDDQ of 60mA and exceptional performance from 0.3 GHz (UHF) to 3 GHz (S-band) frequencies.
    • The TDLNA2050SEP delivers an industry leading low noise figure of less than 0.4 dB, IDDQ of 60mA and exceptional performance from 2.0 GHz (S-band) to 5 GHz (C-band) frequencies.


    The Power products offerings include Gallium Nitride (GaN) technology High Electron Mobility Transistors up to 650V, currents up to 90 Amp, high switching frequencies, and low RDSON. These GaN solutions have easy gate-drive requirements and enable high power density designs with four times less space requirements than traditional MOSFETs. The TDG650E60xSP parts are available in extremely small non hermetic packages with either top-side and bottom-side thermal pads and are ideally suited for satellite power supply systems with space production screening.


    “Today we’re announcing our New Space products offering of RF and Power products optimized for space applications,” said Mont Taylor, Vice President and Business Development Manager at Teledyne e2v HiRel. “These LNAs with their ultra low noise figures coupled with the high power density capabilities of GaN transistors, we believe these products will enable system designers with superior solutions for space based satellite communication applications.”

    Original – Teledyne e2v HiRel

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