Design of temperature control system for burn-in test based on fuzzy adaptive PID control algorithm
Author:
Affiliation:
1. CKS Integrated Circuit Co., Ltd,Microsystems Center,Wuxi,China
2. Xidian University,Xi’an,China
Publisher
IEEE
Link
http://xplorestaging.ieee.org/ielx7/9872527/9872536/09873275.pdf?arnumber=9873275
Reference17 articles.
1. Development and Performance Study of Temperature and Humidity Regulator in Baby Incubator Using Fuzzy-PID Hybrid Controller
2. Fuzzy adaptive PID evaporation source temperature control based on Smith variable universe [J];ziming;Control Engineering,2021
3. Design of automatic temperature controller for dynamic aging of high-power integrated circuits[J];jie;Electronic Measurement Technology,2015
4. PLC based fractional-order PID temperature control in pipeline: design procedure and experimental evaluation[J];mo?aryn;Meccanica,2020
5. A Fuzzy-PID Controller Combined with PSO Algorithm for the Resistance Furnace
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