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Infineon Technologies AG introduced a 62mm half-bridge and common emitter module portfolio with 1200 V TRENCHSTOP™ IGBT7 chips. The wide range of offerings in the proven 62mm housing is extended with the new 800 A maximum current class for the package family. The addition to the portfolio’s current classes provides system designers with a high degree of flexibility in designing higher current power solutions while offering higher power density and electrical performance.
It is tailored to meet the needs of solar central inverters as well as industrial drive applications and uninterruptible power supplies (UPS). Additionally, EV charging, energy storage systems (ESS) and other new industrial applications can be covered.
Based on the new micro-pattern trench technology, the 62mm module family with the 1200 V TRENCHSTOP IGBT7 chip has significantly lower static losses compared to the modules with the IGBT4 chipset. This results in significant loss reduction in applications, especially in industrial drives that typically operate at moderate switching frequencies. The IGBT’s oscillation behavior and controllability have been improved. In addition, the new power modules feature a maximum overload junction temperature of 175°C.
A solid, nickel-coated copper baseplate and screw main terminals ensure the high mechanical robustness of the 62mm module housing. The main terminals are located in the center of the housing, making them well suited for parallel circuits and 3-level configurations due to the low inductive DC link connection.
Unchanged standard package design and dimensions within the module family support mechanical compatibility with the previous module version. In addition, all modules are available with Infineon’s proven pre-applied thermal interface material (TIM).
Original – Infineon Technologies
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Nexperia launched its entry to the insulated gate bipolar transistor (IGBT) market with a range of 600 V devices, starting with the 30A NGW30T60M3DF. By adding IGBTs to its extensive portfolio, Nexperia is addressing the growing demand for efficient, high-voltage switching devices with a range of performance and cost requirements.
These enable higher power density in power conversion and motor drive applications, including industrial motor drives like servo motors ranging from 5 to 20 kW (20 kHz), robotics, elevators, operating grippers, in-line manufacturing, power inverters, uninterruptible power supply (UPS), photovoltaic (PV) strings, EV-charging, and induction heating and welding.
IGBT is a relatively mature technology. Nonetheless, the market for these devices is expected to grow in line with the increased adoption of solar panels and electric vehicle (EV) chargers. Nexperia’s 600 V IGBTs feature a robust, cost-effective carrier-stored trench-gate advanced field-stop (FS) construction, providing exceptionally low conduction and switching loss performance with high levels of ruggedness in operating temperatures up to 175°C. This improves the efficiency and reliability of power inverters, induction heaters, welding equipment and industrial applications like motor drives and servos, robotics, elevators, operating grippers, and in-line manufacturing.
Designers can choose between the medium speed (M3) and high speed (H3) series IGBTs. These IGBTs have been designed with very tight parameter distributions, allowing multiple devices to connect safely in parallel. In addition, lower thermal resistance than competing devices enables them to provide higher output power. These IGBTs are also fully rated as soft fast reverse-recovery diodes. This means they are suitable for rectifier and bi-directional circuit applications or to protect against overcurrent conditions.
“With the release of these IGBTs, Nexperia provides designers with a greater choice of power-switching devices for a broad range of power applications”, according to Dr. Ke Jiang, General Manager Business Group Insulated-Gate Bipolar Transistors & Modules at Nexperia. “IGBTs are the ideal complement to Nexperia’s existing range of CMOS and wide-bandgap switching devices, making Nexperia a one-stop-shop for power electronics designers.”
These IGBTs are available in a standard, lead-free, TO247-3L package and are HV-H3TRB qualified for outdoor applications. Nexperia plans to follow this release with a series of 1200 V IGBTs. To learn more about Nexperia’s IGBTs, visit: https://www.nexperia.com/igbts
Original – Nexperia
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DENSO CORPORATION (DENSO), a leading mobility supplier, and United Semiconductor Japan Co., Ltd. (“USJC”), a subsidiary of global semiconductor foundry United Microelectronics Corporation (“UMC”), announced a joint collaboration to produce insulated gate bipolar transistors (IGBT), which have entered mass production at the 300mm fab of USJC. A first shipment ceremony was held last week to mark this important milestone. It comes just one year after the companies announced a strategic partnership for this critical power semiconductor used in electric vehicles.
As adoption of electric vehicles accelerates, automakers are seeking to boost powertrain efficiency while also increasing cost-effectiveness of electrified vehicles. The jointly invested line at USJC supports the production of a new generation of IGBT developed by DENSO, which offers 20% reduction in power losses compared with earlier generation devices. Production is expected to reach 10,000 wafers per month by 2025.
The ceremony was held at USJC’s fab in Mie Prefecture, Japan. Attendees included by DENSO President Koji Arima, UMC Co-President Jason Wang, USJC President Michiari Kawano, Director-General of the Commerce and Information Policy Bureau at Japan’s Ministry of Economy, Trade and Industry (METI) Satoshi Nohara, Governor of Mie Prefecture Katsuyuki Ichimi, and Mayor of Kuwana City Narutaka Ito.
“Today, we are thrilled to welcome a memorable shipping ceremony that symbolizes the partnership between DENSO, UMC and USJC. We are from different cultures such as semiconductor industry and automobile industry. However, we have worked steadily with mutual respect which is a source of our strong competitiveness. DENSO, together with our trusted partners, will continue to further accelerate electrification through the production of competitive semiconductors in order to preserve the global environment and create a society full of smiles,” said Koji Arima, President of DENSO.
“USJC is proud to be the first semiconductor foundry in Japan to manufacture IGBT on 300mm wafers, offering customers greater production efficiency than the standard fabrication on 200mm wafers. Thanks to our dedicated teams and support from DENSO, we were able to complete trial production and reliability testing without delay and honor the mass production date as agreed with the customer,” said Michiari Kawano, President of USJC.
“It is an honor to be a strategic partner of DENSO, a leading automotive solution provider to global automakers. This collaboration fully demonstrates UMC’s manufacturing capability and our collaborative approach to ensure the success of our foundry customers,” said Jason Wang, Co-President of UMC. “The electrification and automation of cars will continue to drive up semiconductor content, particularly for chips manufactured using specialty foundry processes on 28nm and above nodes. As a specialty technology leader, UMC is well positioned to play a bigger role in the automotive value chain and enabling our partners to capture opportunities and win market share in this rapidly evolving industry.
Original – DENSO
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Mitsubishi Electric Corporation announced that it will begin shipping samples of a new HV100 dual-type X-Series high-voltage insulated gate bipolar transistor (HVIGBT) module on May31, offering superior power, efficiency and reliability in inverter systems for large industrial equipment such as railways and electric power systems. The dual-type module, which achieves 4.5kV withstand voltage and 10.2kVrms dielectric strength, is rated at 450A, which is believed to be unmatched among 4.5kV silicon HVIGBT modules.
Power semiconductors are increasingly being utilized to efficiently convert electric power in order to lower the carbon footprint of global society, particularly in heavy industry, where these devices are used in power-conversion equipment such as inverters in railway traction systems and for DC power transmission. In response to the growing demand for devices offering high output, high efficiency and wide-ranging output capacity, Mitsubishi Electric released two versions (3.3kV/450A and 3.3kV/600A) of its HV100 dual-type X-Series high-dielectric-strength HVIGBT module in 2021. In the near future, the forthcoming HV100 dual-type X-Series module will contribute to even higher output, higher efficiency and improved system reliability for inverters used in large industrial equipment requiring high dielectric strength.
Original – Mitsubishi Electric
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Semikron Danfoss and the Kyoto-based company ROHM Semiconductor have been collaborating for more than ten years with regards to the implementation of silicon carbide (SiC) inside power modules. Recently, Semikron Danfoss added ROHM’s new 1200V RGA IGBT to its low power module offering. In doing so, both companies show that they remain committed to serving worldwide motor drive customers’ needs.
The worldwide growth in electrification technologies has created unprecedented demand for power modules. Often, it is the chip supply that limits power module availability. Despite ongoing investments in production capacity by the chip manufacturers, the supply situation remains tight. It is against this backdrop that ROHM has introduced the new 1200V RGA IGBT, targeted as an alternative to the latest Generation 7 IGBT devices in industrial applications. ROHM is now expanding their bare die offering to Semikron Danfoss, positioning themselves as an advanced alternative to traditional chip suppliers.
“The RGA is a newly designed, light punch through, trench gate IGBT with Tj,max = 175°C. The conduction, switching, and thermal characteristics are optimized for new industrial drive applications in the low to medium power range. At the same time, the RGA is intended to remain compatible with existing IGBT solutions, enabling a multiple source approach. In addition, the RGA can also be used to improve transient overcurrent handling during overload conditions in motor drive applications,” says Kazuhide Ino, Member of the Board, Managing Executive Officer, CFO at ROHM.
Semikron Danfoss can offer the 1200V RGA IGBT in a full range of nominal current classes from 10A to 150A. This range, combined with the suitability of the RGA chip in motor drive applications, means that the MiniSKiiP family is the ideal choice for module implementation. The baseplate-less, spring-contact MiniSKiiP is already deeply embedded in the worldwide motor drive market and always equipped with the latest generation IGBTs. Therefore, it is important for this product to have an alternative IGBT source to diversify the supply chain. The uniform-height MiniSKiiP housing family is also offered on the market as a multiple source package, making an alternative IGBT a valuable option for manufacturers.
For press-fit/solder applications, the industry-standard SEMITOP E package will also be available in pin-compatible configurations to existing Generation 7 IGBT module offerings. This housing family will also offer sixpack (“GD”) and converter-inverter-brake (“DGDL”) circuit configurations.
“The power electronics industry continues to recover and learn lessons from the supply issues in recent years. It’s clear that diversification in semiconductor chip and module manufacturing is required to generate true ‘multiple source’ power modules”, says Claus A. Petersen, President, Semikron Danfoss. “In the case of 1200V Generation 7 IGBTs, a reliable equivalent from a reputable manufacturer is now available to address this issue also in the low power range. The 1200V RGA IGBT from ROHM is a perfect alternative to the Generation 7 IGBT and can be made to behave in a remarkably similar manner with small gate resistor adjustment,” continues Peter Sontheimer, Senior Vice President Industry Division & Managing Director at Semikron Danfoss.
Original – Semikron Danfoss
