Title :
Implantable Stimulator for Epileptic Seizure Suppression With Loading Impedance Adaptability
Author :
Chun-Yu Lin ; Wei-Ling Chen ; Ming-Dou Ker
Author_Institution :
Nanoelectron. & Gigascale Syst. Lab., Nat. Chiao-Tung Univ., Hsinchu, Taiwan
Abstract :
The implantable stimulator for epileptic seizure suppression with loading impedance adaptability was proposed in this work. The stimulator consisted of the high voltage generator, output driver, adaptor, and switches, can constantly provide the required 40-μA stimulus currents, as the loading impedance varied within 10 kΩ -300 kΩ. The performances of this design have been successfully verified in silicon chip fabricated by a 0.35- μm 3.3-V/24-V CMOS process. The power consumption of this work was only 1.1 mW-1.4 mW. The animal test results with the fabricated chip of proposed design have successfully verified in the Long-Evans rats with epileptic seizures.
Keywords :
CMOS integrated circuits; biomedical electronics; biomedical equipment; brain; electric impedance; electroencephalography; medical disorders; medical signal processing; neurophysiology; power consumption; CMOS process; Long-Evans rats; adaptor; animal testing; current 40 muA; electroencephalography; epileptic seizure suppression; high voltage generator; implantable stimulator; loading impedance adaptability; output driver; power 1.1 mW to 1.4 mW; power consumption; resistance 10 kohm to 300 kohm; signal processing; silicon chip; size 0.35 mum; stimulus currents; switches; voltage 3.3 V to 24 V; Charge pumps; Clocks; Electrodes; Generators; Impedance; Loading; Power demand; Adaptability; epilepsy; epileptic seizure suppression; implantable device; stimulator; Animals; Biomedical Engineering; Brain; Deep Brain Stimulation; Disease Models, Animal; Electric Impedance; Electric Power Supplies; Electrodes, Implanted; Electronics, Medical; Epilepsy; Equipment Design; Rats; Rats, Long-Evans; Signal Processing, Computer-Assisted; Silicon;
Journal_Title :
Biomedical Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TBCAS.2012.2200481
