Majidzadeh Bafar, VahidSilay, Kanber MithatSchmid, AlexandreDehollain, CatherineLeblebici, Yusuf2011-04-142011-04-142011-04-14201110.1007/s10470-010-9556-7https://infoscience.epfl.ch/handle/20.500.14299/66436WOS:000289103200006This article presents a fully on-chip low-power LDO voltage regulator dedicated to remotely powered wireless cortical implants. This regulator is stable over the full range of alternating load current and provides fast load regulation achieved by applying a time-domain design methodology. Moreover, a new compensation technique is proposed and implemented to improve PSRR beyond the performance levels which can be obtained using the standard cascode compensation technique. Measurement results show that the regulator has a load regulation of 0.175 V/A, a line regulation of 0.024%, and a PSRR of 37 dB at 1 MHz power carrier frequency. The output of the regulator settles within 10-bit accuracy of the nominal voltage (1.8 V) within 1.6 μs, at full load transition. The total ground current including the bandgap reference circuit is 28 μA and the active chip area measures 290 μm × 360 μm in a 0.18 μm CMOSLDO voltage regulatorPsrrinductive linkCortical implantsLow-Dropout RegulatorFrequency CompensationSystemCircuittext::journal::journal article::research article