Title :
Module design using 2-layers PCB for an automotive BLDC motor driver
Author :
Kim, Chang-Gyun ; Lee, Tae-Heon ; Kim, Sang-Kook ; Jeon, Jin-Yong ; Wee, Jae-Kyung
Author_Institution :
ROOTiN Technol., South Korea
Abstract :
This paper reports the PCB design method of a 2-layers PCB stack-up instead of a 4-layers PCB stack-up for a BLDC motor driver. PCB design methodology is suggested to protect a system from performance decline in design of a 2-layers PCB system compared with a 4-layers system. For system specs, the maximum frequency of the BLDC motor drive module is 8 MHz and the operating voltage and peak current are 12V and 10A. The environment temperature and tolerable maximum temperature are given at 120°C and 180°C. For keeping its performance, electrically qualifying design methods of signal integrity, power integrity and EMI problems are considered and are proven through their performances compared with 4-Layers PCB system. The simulated results of designed 2-layers module show the successful design of a 2-layers PCB BLDC motor drive without any module area penalty and performance degradation.
Keywords :
DC motor drives; automotive electronics; brushless DC motors; driver circuits; electromagnetic interference; modules; printed circuit design; printed circuit motors; printed circuits; 2-layer PCB stack-up; EMI; PCB design; automotive BLDC motor driver; module design; power integrity; signal integrity; temperature 120 degC; temperature 180 degC; Automotive engineering; Brushless DC motors; Costs; Degradation; Design methodology; Driver circuits; Electromagnetic interference; Heat engines; Land surface temperature; Paper technology;
Conference_Titel :
Advanced Packaging and Systems Symposium, 2008. EDAPS 2008. Electrical Design of
Conference_Location :
Seoul
Print_ISBN :
978-1-4244-2633-1
Electronic_ISBN :
978-1-4244-2634-8
DOI :
10.1109/EDAPS.2008.4736011
