Title :
Requirement for robust capacitors in high density power converters
Author :
Clelland, Ian W. ; Price, Rick A.
Author_Institution :
ITW Paktron, Lynchburg, VA, USA
Abstract :
Power supply designers are faced with complex component size and part shape issues in order to minimize circuit board land area and maximize cubic space efficiency. Packing density and logical layout of the topology is often made difficult because of the mechanical and electrical shortcomings of the components. Chip capacitors are perhaps the most fragile components in the power system, being easily damaged by external physical events. Capacitor damage often occurs from process events such as pick and place, part soldering, temperature shock, and circuit board netting during circuit board assembly. Less obvious reasons for damaged capacitors are location of chip capacitors near board edges, proximity to large heat sinks, pad size and solder fillet mass. Large chip capacitors are very fragile to mechanical shock of any kind, so it is often necessary to use multiple small units or employ special lead frame chip carriers to avoid cracking. Field problems related to chip component fragility cause converter designers to add cost in terms of component safety margin allowance and special handling and housing for the chip components on the board. Multilayer polymer (MLP) chip capacitors, based upon the newest low shrinkage PET polymer dielectric, offer a physical strength and mechanical flexibility that avoids cracking failures on the circuit board. Their stability under voltage and current loads provides a quality alternative to MLC capacitors in high current power conditioning circuits
Keywords :
capacitors; power convertors; printed circuit manufacture; chip capacitors; chip component fragility; circuit board area minimisation; circuit board assembly; circuit board flexing; complex component size; component safety margin allowance; converter designers; cracking failures avoidance; cubic space efficiency maximisation; current loads; high current power conditioning circuits; high density power converters; large heat sinks proximity; lead frame chip carriers; logical layout; low shrinkage PET polymer dielectric; mechanical flexibility; mechanical shock; multilayer polymer chip capacitors; packing density; pad size; part shape issues; part soldering; physical strength; pick and place; power supply designers; process events; robust capacitors; solder fillet mass; stability; temperature shock; voltage loads; Capacitors; Circuit topology; Electric shock; Polymers; Power supplies; Power systems; Printed circuits; Robustness; Shape; Soldering;
Conference_Titel :
Applied Power Electronics Conference and Exposition, 2001. APEC 2001. Sixteenth Annual IEEE
Conference_Location :
Anaheim, CA
Print_ISBN :
0-7803-6618-2
DOI :
10.1109/APEC.2001.911621