Print Email Facebook Twitter Control & Interface for a High Frequency Arbitrary Waveform generator Title Control & Interface for a High Frequency Arbitrary Waveform generator Author Engelen, Max (TU Delft Electrical Engineering, Mathematics and Computer Science) van den Heuvel, Philip (TU Delft Electrical Engineering, Mathematics and Computer Science) Contributor Serdijn, Wouter (mentor) Degree granting institution Delft University of Technology Project REValUE Date 2018-06-22 Abstract In the REstore Voiding Urinary rEtention (REValUE) project, a high frequency stimulator is designed that should be able to determine the optimal parameters to block the urethral sphincter. In this report the design of the control, interface, current source and electrode switching circuit of the device is explained – the other parts are explained in the reports of the waveform and safety subgroup [1, 2]. The 2,304 cm3 high frequency stimulator has an adjustable frequency (0-15 kHz with 1 kHz step-size), amplitude (0-10mAwith 0.1mAstepsize), pulse width (0-500 ¹s with 1 ¹s step-size) and interphase delay (0-1000 ¹s with 2 ¹s step-size). Two 4-electrode leads of can be connected in mono- and bipolar configuration. Integration of a Liquid-Crystal Display (LCD) screen with Inter-Integrated Circuit messaging bus (I2C) on the NXP LPC1343 shows the user the settings of the stimulation parameters. The current source is designed based on a cascode current mirror, implemented with PNP transistors, using active feedback to control the current. The topology is based on a discrete component implementation. Subject revalueneural stimulatorcontrolInterface management To reference this document use: http://resolver.tudelft.nl/uuid:eb06f920-5fa4-4fee-980c-6d759bb15c9a Embargo date 2019-07-31 Part of collection Student theses Document type bachelor thesis Rights © 2018 Max Engelen, Philip van den Heuvel Files PDF Control_Interface_for_a_H ... erator.pdf 3.93 MB Close viewer /islandora/object/uuid:eb06f920-5fa4-4fee-980c-6d759bb15c9a/datastream/OBJ/view