A radiation-hardened-by-design (RHBD) technique for phase-locked loops (PLLs) has been developed for single-event transient (SET) mitigation.By presenting a novel SET-resistant complementary current limiter (CCL) and implementing it between the charge pump (CP) and the loop filter (LPF),the PLL’s singleevent suscepti-bility is significantly decreased in the presence of SETs in CPs,whereas it has little impact on the loop parameters in the absence of SETs in CPs.Transistor-level simulation results show that the CCL circuit can significantly reduce the voltage perturbation on the input of the voltage-controlled oscillator (VCO) by up to 93.1% and reduce the recovery time of the PLL by up to 79.0%.Moreover,the CCL circuit can also accelerate the PLL recovery procedure from loss of lock due to phase or frequency shift,as well as a single-event strike. A radiation-hardened-by-design (RHBD) technique for phase-locked loops (PLLs) has been developed for single-transient transient (SET) mitigation.By presenting a novel SET-resistant complementary current limiter (CCL) and implementing it between the charge pump (CP) and the loop filter (LPF), the PLL’s single event susceptibility-bility is significantly less in the presence of SETs in CPs, whereas it has little impact on the loop parameters in the absence of SETs in CPs.Transistor- level simulation results show that the CCL circuit can significantly reduce the voltage perturbation on the input of the voltage-controlled oscillator (VCO) by up to 93.1% and reduce the recovery time of the PLL by up to 79.0% .OREover, the CCL circuit can also accelerate the PLL recovery procedure from loss of lock due to phase or frequency shift, as well as a single-event strike.