Abstract
For the first time, 4H-SiC RF bipolar junction transistors have been used to produce an output power in excess of 2.1 kW at 425 MHz. For an input pulse width of 2 μs and 1% duty cycle, the power gain at peak output power is 6.3 dB with the collector efficiency and power added efficiency [PAE] being 45% and 35%, respectively, at a collector supply voltage of 75 V in a class C configuration. The package consists of 24 cells (2 chips) having an emitter periphery of approximately 1 inch per cell. Each cell produced a DC current gain (β) of 15 and a common emitter breakdown voltage (BVCEO) greater than 250 V. A peak output power of 87 W per cell was obtained at 425 MHz, as compared to the earlier report of 50 W per cell [1, 2] by using a shorter pulse width and duty cycle.
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