Designers of power conversion circuits are under relentless pressure to increase power density while maintaining high efficiency. A primary path to higher power density is the use of increased switching frequency. In this paper it is argued that the use of switching frequencies in the VHF band (30 MHz-300 MHz) are a viable path to the achievement of substantive gains in power density. Evidence for this viewpoint is presented in the form of an unregulated 900 W prototype DC-DC converter with a 30 MHz switching frequency, an input voltage range of 270 VDC to 330 V DC, and an output voltage of 50 VDC. This converter uses a quad module architecture with series input and parallel output to provide acceptable efficiency with the specified input voltage range. This converter operates with peak output power of 1 kW at 330 VDC input, and has an efficiency of Gt 78% under nominal conditions, with maximum efficiency near 80%.