Title :
Control System Design for Height Measurement of BGA Balls Based on Timed Automata
Author :
Hengsheng Wang ; Zimin Lu ; Fuliang Wang
Author_Institution :
State Key Lab. of High Performance Complex Manuf., Central South Univ., Changsha, China
Abstract :
This paper presents a model, based on timed automata (TA), of a real-time control system to measure the heights of solder balls of ball grid arrays (BGAs) on a printed circuit board and to determine whether the BGAs pass the height inspection routine. The TA model is actually a network of five TA, namely User, Controller, Motion, Camera, and Light, synchronized through user-defined channels. The dynamics of system components are simplified by a time delay which can be determined through experiments or roughly by experience. The simulation and verification in UPPAAL show that the model works fine without deadlock, and procedures after user operations demonstrate proper timely cooperation among the automata. The main design of hardware and software for the control system based on the model is also given in this paper, which has been successfully implemented in our laboratory.
Keywords :
automata theory; ball grid arrays; control system synthesis; delays; height measurement; printed circuits; real-time systems; solders; BGA balls; TA model; UPPAAL; ball grid arrays; camera; control system design; controller; height inspection; height measurement; light; motion; printed circuit board; real-time control system; solder balls; system component dynamics; time delay; timed automata; user; user-defined channels; Arrays; Automata; Cameras; Computational modeling; Control systems; Real-time systems; Software; Ball grid array (BGA) inspection; UPPAAL; control system design; real-time system modeling; timed automata (TA);
Journal_Title :
Components, Packaging and Manufacturing Technology, IEEE Transactions on
DOI :
10.1109/TCPMT.2013.2292699
