For epilepsy detection and stimulation application, the medical device should be fully implantable. In order to minimize the area consumption and eliminate the negative effect of parasitic inductance, the LDO regulators should be fully-integrated without any external component. Moreover, in an implantable medical SoC powered by inductive link power supply, a single LDO is difficult to satisfy different performance requirements of analog, digital, and reference circuits. Therefore, a topology of LDO is designed, fabricated, and tested to realize three fully-integrated LDOs with 2V to 1.8V output voltages for analog, digital, and reference circuits. The maximum driving current capabilities are 5mA, 20mA and 1.5mA, respectively. By connecting the input voltage of the LDOs to a full-wave CMOS active rectifier which is operated at 13.56MHz and powered by near-field coils with an inductive link structure. The measured ripple voltages of analog output, digital output, and reference output are 3mVp-p, 6.2mVp-p, and 0.7mVp-p, respectively.