Title :
A Single-Event-Hardened Phase-Locked Loop Fabricated in 130 nm CMOS
Author :
Loveless, T.D. ; Massengill, L.W. ; Bhuva, B.L. ; Holman, W.T. ; Reed, R.A. ; McMorrow, D. ; Melinger, J.S. ; Jenkins, P.
Author_Institution :
Vanderbilt Univ., Nashville
Abstract :
A radiation-hardened-by-design phase-locked loop (PLL)-designed and fabricated in 130 nm CMOS-is shown to mitigate single-event transients (SETs). Two-photon-absorption (TPA) laser tests were used to characterize the error signatures of the PLL and to perform single-event upset (SEU) mapping of the PLL sub-components. Results show that a custom, voltage-based charge pump reduces the error response of the PLL over conventional designs by more than two orders of magnitude as measured by the number of erroneous PLL clock pulses following a single-event. Additionally, SEU mapping indicates a 99% reduction in the vulnerable area of the radiation-hardened-by-design (RHBD) charge pump over a conventional design. Furthermore, the TPA experiments highlight the importance of the voltage-controlled oscillator in the overall SET response of the PLL implementing the RHBD charge pump.
Keywords :
CMOS integrated circuits; phase locked loops; radiation effects; radiation hardening (electronics); voltage-controlled oscillators; 130 nm CMOS; PLL; error signatures; phase-locked loop; radiation hardening; radiation-hardened-by-design charge pump; single-event upset mapping; two-photon-absorption laser; voltage-based charge pump; voltage-controlled oscillator; Charge measurement; Charge pumps; Current measurement; Performance evaluation; Phase locked loops; Pulse measurements; Pump lasers; Single event upset; Testing; Voltage; Charge pumps; RF operation; mixed analog–digital integrated circuits; phase-locked loops (PLLs); radiation effects; radiation hardening; radiation-hardened-by-design (RHBD); single-event effects (SEEs); single-event transients (SETs);
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2007.908166
