Recently, objective measurement methods are increasingly becoming topics of interest in the treatment of patients with severe to profound hearing loss with a cochlear implant (CI), especially with regard to implant fitting in children or patients with poor compliance [
1‐
4]. Furthermore, in this context, the position of the electrode and the angle of insertion are of interest for improving the hearing perception outcome [
5]. The electrically evoked compound action potentials (ECAP) are considered a promising approach for CI fitting [
6,
7] especially in children, since they are able to provide objective information about the stimulation thresholds. There is evidence that ECAP are also suitable to provide information not only about the neural integrity of spiral ganglion neurons but also about the site of stimulation [
8‐
10]. The electrode position inside the cochlear is of interest for anatomy-based fitting approaches that have been shown to provide improved speech perception [
11,
12]. However, the size of the human cochlea can significantly affect the CI electrode position within the cochlea and consequently structure preservation as well as the final pitch discrimination [
13,
14]. Consequently, choosing the electrode variant fitting the individual expectations is highly relevant. To predict the postoperative electrode position from preoperative clinical imaging, it has been demonstrated that a clinical planning software for measuring the human cochlea (Otoplan, Cascination, Bern, Switzerland) is adequate to determine the length of the cochlear duct and to select the electrode length according to the aimed insertion depth [
15]. However, it has been shown that there are inaccuracies concerning the insertion depth prediction of the software [
16]. Thus, a feedback mechanism providing intraoperative information about the insertion depth is desirable. Thus, the aim of this work was to determine reference values for ECAP characteristics at different locations inside the cochlea. This study aims to contribute to the knowledge about the association between changing ECAP characteristics inside the cochlea according to the CDL.