Title :
Perturbation-immune radiation-hardened PLL with a switchable DMR structure
Author :
SinNyoung Kim ; Tsuchiya, Akira ; Onodera, Hidetoshi
Author_Institution :
Dept. Commun. & Comput. Eng., Kyoto Univ., Kyoto, Japan
Abstract :
This paper proposes a perturbation-immune radiation-hardened PLL with a switchable dual modular redundancy (DMR) structure. By a radiation-strike, a PLL has clock-perturbation for a while. Conventional RHPLLs are proposed to reduce recovery-time which is the time to recover from perturbation. However, recovery still needs tens of clock cycles. Our proposal is `detecting´ and `switching´ instead of `recovering´ clock-perturbation. For robust perturbation-immunity, detecting speed is important. We identify types of clock-perturbation and - then propose a set of detectors to detect each type. With this, detectors guarantee high speed in detection.
Keywords :
clocks; phase locked loops; radiation hardening (electronics); redundancy; RHPLL; clock cycles; clock-perturbation detection speed; clock-perturbation switching; clock-perturbation types; perturbation-immune radiation-hardened PLL; phase-locked loops; radiation-strike; recovery-time reduction; robust perturbation-immunity; switchable DMR structure; switchable dual-modular redundancy structure; Clocks; Data models; Detectors; Redundancy; Switches; Testing; Voltage control; DMR; PLL; RHBD; RHPLL;
Conference_Titel :
On-Line Testing Symposium (IOLTS), 2013 IEEE 19th International
Conference_Location :
Chania
DOI :
10.1109/IOLTS.2013.6604063
