700 V CoolMOS™ P7 family from Infineon for quasi resonant flyback topologies

Munich, Germany – January 17, 2017 – Infineon Technologies AG developed the new 700 V CoolMOS™ P7 family to serve today’s and tomorrow’s trends in quasi resonant flyback topologies. These new MOSFETs offer unmatched performance improvements compared to currently used superjunction technologies. Soft switching topologies like smart phone and tablet chargers but also notebook adapters profit from this advantage. Additionally, the new CoolMOS supports fast switching and high power density designs for TV adapters, lighting, Audio, and Aux power. The new family conveys an improved form factor for very slim designs.

Compared to competitor parts the new 700 V CoolMOSP7 technology delivers reduced switching losses (E OSS) from 27 up to 50 percent. In a flyback based charger application the technology leads to up to 3.9 percent higher efficiency. Furthermore, the device temperature is reduced by up to 16 K. In comparison to the previous 650 V C6 technology it offers a 2.4 percent gain in efficiency and 12 K lower device temperature.

The integrated Zener diode ensures an increased ESD ruggedness of up to HBM Class 2 level. Customers profit from an improved assembly yield which leads to less production related failures and finally saves manufacturing costs. Additionally, the 700 V CoolMOS P7 shows low losses due to its very low RDS (on)*Q g and RDS (on)*E OSS. Compared to C6 technology as well as to some competitor devices, the new family features an additional extra 50 V blocking voltage.

Keeping the ease-of-use in mind, the technology has been developed with a V GSth of 3 V and a very narrow tolerance of ±0.5 V. This makes the new P7 family very easy to design-in and enables the usage of lower gate source voltage, which makes it easier to drive and leads to less idle losses. Especially in price sensitive segments, the new 700 V CoolMOS P7 offers an attractive price performance ratio that helps customers in taking further advantages in competitiveness.

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