Title :
Design optimization of wire bonding for high frequency applications
Author :
Lu, Albert Chee W ; Fan, Wei ; Wai, Lai L.
Author_Institution :
Singapore Inst. of Manuf. Technol., Singapore
Abstract :
This paper describes a novel controlled impedance design methodology for wire bonding. Adjacent power or ground wires are used to provide return paths in a coplanar configuration, thereby minimizing impedance mismatch. Design space exploration based on full-wave electromagnetic analysis is performed to achieve an optimized topology. A design guideline is also provided for practical wire bonding implementation. With advances in wire bonding technology, particularly fine pitch bonding, a coplanar configuration is highly feasible. In high performance applications, many power and ground pads are typically required to provide adequate power distribution. These can be interleaved between signal pads to accommodate a coplanar bonding configuration. The proposed methodology can be applied to conventional lead frame and advanced BGA packages.
Keywords :
ball grid arrays; fine-pitch technology; lead bonding; packaging; BGA package; coplanar configuration; design optimization; fine pitch bonding; full-wave electromagnetic analysis; ground pad; high-frequency characteristics; impedance mismatch; lead frame package; power distribution; power pad; signal pad; wire bonding; Bonding; Design methodology; Design optimization; Electromagnetic analysis; Frequency; Guidelines; Impedance; Space exploration; Topology; Wire;
Conference_Titel :
Electronics Packaging Technology Conference, 2002. 4th
Print_ISBN :
0-7803-7435-5
DOI :
10.1109/EPTC.2002.1185709
