<20010806225804.SIIR21723.femail41.sdc1.sfba.home.com@[65.11.150.27]>, Ken Javor <ken.ja...@emccompliance.com> inimitably wrote: >You could use an array of very short dipoles or small loops and gain in >resolution by giving up efficiency, meaning that the viewer would have to be >near the source.
Well, very short dipoles can give us the broadband response we need. Suppose we look at 30 MHz as the lower limit? The lower frequencies are controlled by conducted emissions limits, in many cases, anyway. We need a 2-dimensional array of very short dipoles, each of which is connected through an amplifier and detector to one pixel of a backlit LCD screen. Suitable optics then create a virtual image for each eye to see. Anyone want to have a go? (;-) -- Regards, John Woodgate, OOO - Own Opinions Only. http://www.jmwa.demon.co.uk This message and its contents are not confidential, privileged or protected by law. Access is only authorised by the intended recipient - this means YOU! The contents may be disclosed to, or used by, anyone and stored or copied in any medium. If you are not the intended recipient, please advise the sender yesterday at the latest. ------------------------------------------- This message is from the IEEE EMC Society Product Safety Technical Committee emc-pstc discussion list. Visit our web site at: http://www.ewh.ieee.org/soc/emcs/pstc/ To cancel your subscription, send mail to: majord...@ieee.org with the single line: unsubscribe emc-pstc For help, send mail to the list administrators: Michael Garretson: pstc_ad...@garretson.org Dave Heald davehe...@mediaone.net For policy questions, send mail to: Richard Nute: ri...@ieee.org Jim Bacher: j.bac...@ieee.org All emc-pstc postings are archived and searchable on the web at: http://www.rcic.com/ click on "Virtual Conference Hall,"
