Bahr, AndreasAndreasBahrAbu Saleh, LaitLaitAbu SalehSchröder, DietmarDietmarSchröderKrautschneider, WolfgangWolfgangKrautschneider2017-02-022017-02-022016-10Current Directions in Biomedical Engineering. Band 2, Heft 1, Seiten 87–90http://tubdok.tub.tuhh.de/handle/11420/1347Diseases like schizophrenia and genetic epilepsy are supposed to be caused by disorders in the early development of the brain. For the further investigation of these relationships a custom designed application specific integrated circuit (ASIC) was developed that is optimized for the recording from neonatal mice [Bahr A, Abu-Saleh L, Schroeder D, Krautschneider W. 16 Channel Neural Recording Integrated Circuit with SPI Interface and Error Correction Coding. Proc. 9th BIOSTEC 2016. Biodevices: Rome, Italy, 2016; 1: 263; Bahr A, Abu-Saleh L, Schroeder D, Krautschneider W. Development of a neural recording mixed signal integrated circuit for biomedical signal acquisition. Biomed Eng Biomed Tech Abstracts 2015; 60(S1): 298–299; Bahr A, Abu-Saleh L, Schroeder D, Krautschneider WH. 16 Channel Neural Recording Mixed Signal ASIC. CDNLive EMEA 2015 Conference Proceedings, 2015.]. To enable the live display of the neural signals a multichannel neural data acquisition system with live display functionality is presented. It implements a high speed data transmission from the ASIC to a computer with a live display functionality. The system has been successfully implemented and was used in a neural recording of a head-fixed mouse.en2364-5504201618790De Gruyterhttps://creativecommons.org/licenses/by-nc-nd/4.0/high speed digital interfacinglive display of neural dataneural data acquisition systemneural recording systemInformatikJournal Articleurn:nbn:de:gbv:830-8821529610.15480/882.134411420/134710.1515/cdbme-2016-002210.15480/882.1344Journal Article