Power
Freescale broadens RF LDMOS portfolio for industrial and commercial aerospace applications
Freescale Semiconductor today unveiled three advanced industrial RF power transistors at an ideal price/performance ratio for original equipment manufacturers (OEMs). The enhanced rugged capability combined with leading-edge RF performance enables OEMs to realise significant cost savings at the system level for industrial and commercial aerospace designs.
Free“The introduction of our latest 30V and 50V LDMOS power transistors underscores Freescale’s commitment to developing leading-edge technologies in the RF industrial and commercial aerospace markets,” said Ritu Favre, vice president and general manager of Freescale’s RF Division. “All three devices allow designers to make the critical step to Freescale’s LDMOS and take advantage of outstanding performance and ruggedness. Designing with LDMOS technology offers our customers robust and efficient solutions with higher gain to build more reliable and cost-efficient RF-based applications.”
50V RF LDMOS power transistors for mismatched applications
Building on Freescale’s industry-leading 50V LDMOS transistor for high mismatched applications, the MRFE6VP5600H/S and MRFE6VP61K25H/S 50V LDMOS transistors deliver output power levels of 600W and 1250W for rugged applications and are capable of handling a Voltage Standing Wave Ratio (VSWR) of 65:1 at multiple phase angles. The enhanced ruggedness allows designers to remove external circuitry that was previously required, which enables lower overall system cost while improving performance.
Higher efficiency for long-range applications
With the addition of the MRF8P29300H/S, Freescale’s LDMOS power transistors for ATC and modulated communications applications cover frequencies from 10 to 3500 MHz at power levels from 10W to 1000W peak RF power. Ideal for air traffic management systems and weather radar, the MRF8P29300H/S provides a 2700 to 2900 MHz frequency range with pulsed RF output power of 320W. The device has power gain of 13.3 dB and drain efficiency of 50.5 percent, allowing designers to reduce system complexity and costs.