Litcius/Paper detail

A compact 1200 V, 700 A, IGBT-based pulse generator for repetitive transcranial magnetic stimulation <i>in vivo</i> laboratory experiments on small animals

Daniel Senda, Haley Strong, Dustin J. Hines, Rochelle M. Hines, R. Jacob Baker

2021Review of Scientific Instruments16 citationsDOIOpen Access PDF

Abstract

An insulated-gate bipolar transistor (IGBT) pulse generator for repetitive transcranial magnetic stimulation used for in vivo laboratory experiments on small animals, such as mice, is reported. The pulse generator is based upon an IGBT that can switch 700 A of current for 1 ms and that has a DC breakdown voltage of 1200 V. The duration of the design's output pulse is controlled by, and follows, an input trigger pulse. The voltage amplitude of the output pulses is determined by an external high-voltage power supply and the energy stored in a 330 µF capacitor bank. The approach enables the amplitude of the voltage applied across the coil, the length of time the voltage is applied, and the number of times the voltage pulses are applied all to be controlled and adjusted to facilitate a wide range of experimental options. This paper provides a detailed schematic of the design, design discussions, and some representative experimental results. Additionally, the reported design can be scaled to higher currents by using an IGBT with a higher current rating.

Topics & Concepts

Insulated-gate bipolar transistorPulse generatorVoltagePulse (music)Materials scienceElectromagnetic coilElectrical engineeringCapacitorGenerator (circuit theory)Pulse-width modulationHigh voltagePulsed powerPulse durationPower (physics)PhysicsOpticsEngineeringLaserQuantum mechanicsTranscranial Magnetic Stimulation StudiesNeuroscience and Neural EngineeringMuscle activation and electromyography studies