Identify the source of propagation for these frequencies and their egress path. If you can successfully lower the radiated emissions level from these you should have a subsequent decrease in your susceptibility. If you are having a problem at 3V/m, the radiated emissions should be fairly strong. A caveat to this would be aware of ingress paths to enclosed areas whose dimensions may form a resonant chamber for the frequency of concern. Hope this helps.
JOHN E. STUCKEY EMC Engineer Micron Technology, Inc. Integrated Products Group Micron Architectures Lab 8455 West Emerald St. Boise, Idaho 83704 PH: (208) 363-5313 FX: (208) 363-5596 jestuc...@micron.com -----Original Message----- From: John Juhasz [mailto:jjuh...@fiberoptions.com] Sent: Wednesday, July 12, 2000 09:24 To: 'emc-p...@ieee.org' Subject: Radiated Immunity Having a Radiated Immunity problem (300-320MHz - 3V/M ) that I need to troubleshoot . . . I don't have a screen room to work in . . . I want to troubleshoot down to the circuit or component level . . . is there any type of 'probe' that can be used instead of creating a full-field in a chamber? Any ideas . . . ? Haven't had a problem like this yet . . . John Juhasz Fiber Options Bohemia, NY 631-419-2324 ------------------------------------------- This message is from the IEEE EMC Society Product Safety Technical Committee emc-pstc discussion list. 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: Jim Bacher: jim_bac...@mail.monarch.com Michael Garretson: pstc_ad...@garretson.org For policy questions, send mail to: Richard Nute: ri...@ieee.org
