Hi Russell, This Royer configuration seems interesting, do you or anybody has any links to related info? Best regards Luis -----Original Message----- From: piclist-bounces@mit.edu [mailto:piclist-bounces@mit.edu] On Behalf Of Russell McMahon Sent: 22 July 2005 00:31 To: Microcontroller discussion list - Public. Subject: Re: suggestion for a low noise switching supply > I'm searching for a low noise switching supply IC. The goal is to > get > +5V/200mA and -5V/200mA from a +3.3V with less than 5mV ripple. > Ideal > one IC. Good comment from a competent friend: _________________________________ For lowest noise a sine-wave converter is the ultimate. Simple designs based on the Royer configuration can be built with one IC (or even with just two transistors if you can tolerate a slightly more complex wound component). The Royer is zero-voltage switched so efficiency is very high and noise is very low - and even lower due to all power waveforms (current and voltage) being sinusoidal. It is also very scalable - virtually all CCFL backlights for LCD's are driven with Royer converters - so are most induction cooktops. The Royer configuration was often used in valve communications gear powered from low-voltage batteries - with an electromagnetic vibrator (younger listeners will have no idea what I am talking about) doing the switching. I have built Royers rated between 1W and 500W to heat ball-bearings up 150mm diameter, weld plastic, transmit power across a rotating shaft, to convert 24V to 12V for noise-sensitive communications equipment on offshore yachts, and to drive compact fluorescent tubes from 12V and 24V DC sources (with dimming capabilities) for boats and mobile homes. Note that the resonating capacitor is a critical component in any Royer and especially so as the power level goes up. A good quality component with low series resistance, low dissipation factor, and adequate RMS current rating is absolutely essential. Care should also be taken with the wound component(s) to ensure low DC resistance. Litz wire is essential for good efficiency at higher frequencies and power levels. I have also successfully used planar cores with PCB windings. Most of my higher power designs have been based on the Unitrode (now TI) UC3871 device but there are now plenty of other alternatives. Low-power designs (up to 10's of watts) can be readily built with CMOS glue logic. Regards, Ken Mardle Applied Digital Research Ltd. -- http://www.piclist.com PIC/SX FAQ & list archive View/change your membership options at http://mailman.mit.edu/mailman/listinfo/piclist -- http://www.piclist.com PIC/SX FAQ & list archive View/change your membership options at http://mailman.mit.edu/mailman/listinfo/piclist