Title :
Voltage and Return Plane Bounce Affecting Digital Components Using Different Printed Circuit Board Edge Termination Methodologies
Author :
Montrose, Mark I.
Author_Institution :
Montrose Compliance Services, Inc., Santa Clara, CA, USA
Abstract :
This paper illustrates effects of board edge termination related to development of either voltage or return plane bounce exceeding operational margin levels of digital components at multiple locations within a printed circuit board (PCB). We study an actual problem encountered by design engineers using a worse-case configuration. This paper also explains how power and/or return bounce is developed. Lack of optimal plane termination at the physical edges of a PCB will exacerbate plane bounce. In addition, a solution that prevents this problem is provided in Section VIII.
Keywords :
electromagnetic interference; printed circuit layout; PCB; digital component; optimal plane termination; printed circuit board edge termination; return plane bounce; voltage; Capacitors; Couplings; Electromagnetic compatibility; Impedance; Layout; Noise; Printed circuits; Ground bounce; power bounce; power distribution network (PDN); printed circuit board (PCB); signal integrity (SI); simultaneously switching noise (SSN);
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2011.2141997
