Innovative circuit board level routing designs for BGA packages

Author

Titus, A. ; Jaiswal, Bhavesh ; Dishongh, T.

Author_Institution

Univ. of Buffalo, NY, USA

Volume

27

Issue

4

fYear

2004

Firstpage

630

Lastpage

639

Abstract

Advances in the performance of electronic devices have resulted in high input/output counts both at the chip and the package level, which has led to the development of new packaging technologies that can accommodate these high counts. This paper presents and analyzes a novel method for the placement of ball grid array (BGA) bonding pads and routing wires on printed circuit boards to maximize signal density, which ultimately reduces the number of circuit board layers needed for routing. This method has been termed as the "balls shifted as needed" method and all the ball placement/trace routing designs shown in this paper are based on this method. We also present a performance metric defined as the number of balls routed out divided by the area of package footprint on the circuit board, and we compare various placement/routing schemes using this method.

Keywords

ball grid arrays; circuit CAD; integrated circuit layout; integrated circuit packaging; printed circuit design; BGA packaging; ball grid array bonding pads; circuit board layers; circuit board packaging; circuit board routing designs; electronic devices; hexagonal array; package footprint; packaging technologies; performance metric; printed circuit boards; routing wires; signal density; square grid array; trace routing designs; wire placement; Bonding; Consumer electronics; Costs; Electronics packaging; Integrated circuit packaging; Printed circuits; Routing; Signal analysis; Wires; Wiring; 65; BGA; Ball grid array; I/O; PWB; balls; hexagonal array; input and output; printed wiring board; routing; square grid array;

fLanguage

English

Journal_Title

Advanced Packaging, IEEE Transactions on

Publisher

ieee

ISSN

1521-3323

Type

jour

DOI

10.1109/TADVP.2004.831864

Filename

1356005