Title :
Containing emissions from a microprocessor module
Author :
Raza, Md Ishfaqur
Author_Institution :
Intel Corp., DuPont, WA, USA
Abstract :
Based on the Faraday cage principle a solution to contain noise at the modular level of a microprocessor (μP) is presented. This solution builds a conductive enclosure around the module. Using a metallic skirt the enclosure is connected to the ground structure of the motherboard to complete a six-sided box. For the shield design to be implement-worthy, it had to be ensured that neither the thermal solution of the μP nor the design of the bus on the motherboard is broken by the enclosure design. This solution showed good suppression of emission at all frequencies (including the high frequencies) generated by the μP. Otherwise, the high bandwidth emissions demand costly and difficult chassis enhancements to meet strict regulatory requirements. This investigation focused on different flavors of vertically standing Pentium(R) III XeonTM processors from Intel
Keywords :
electromagnetic interference; electromagnetic shielding; integrated circuit measurement; integrated circuit packaging; interference suppression; microprocessor chips; modules; thermal management (packaging); EMI; Faraday cage; Intel; Pentium III Xeon processors; bus design; conductive enclosure; emission suppression; enclosure design; ground structure; high bandwidth emissions; high frequencies; metallic skirt; microprocessor module; motherboard; regulatory requirements; shield design; thermal solution; Bandwidth; Clocks; Conducting materials; Costs; Frequency; Heat sinks; Microprocessors; Silicon; Thermal conductivity; Thermal resistance;
Conference_Titel :
Electromagnetic Compatibility, 2000. IEEE International Symposium on
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-5677-2
DOI :
10.1109/ISEMC.2000.874737
