SIVONIC GmbH is an innovative company with two decades of expertise in the field of high-performance electrochemical impedance spectrometers (EIS). As a family-owned company, we attach great importance to excellent product quality as well as comprehensive advice and support for our customers worldwide.
Our impressive collection of reference projects testifies to the outstanding performance of our company and our dedicated employees.
As an independent and privately owned company, we have successfully established ourselves in various industrial sectors. Thanks to our many years of experience, particularly in automotive technology, battery and fuel cell technology and energy technology, we are able to incorporate this knowledge into the development of innovative devices in a targeted manner.
We maintain intensive cooperation with renowned universities and research institutes in order to always be at the forefront of technology and to support our customers as a first-class partner.
As a globally operating company, we enable the operation of our devices in multiple languages and ensure seamless integration into existing laboratory, testing, and production environments through modern, standardized interfaces.
Our customers work with test objects that exhibit highly diverse impedance and voltage requirements: ranging from extremely low impedances in fuel cells, batteries, supercapacitors, and electrolyzers to high voltages in battery packs as well as fuel cell and electrolyzer stacks. For these demanding applications, we develop tailored, application-specific solutions.
Our impedance spectrometers have been continuously refined for more than two decades and are now well established in both research and development as well as in production environments—particularly in end-of-line quality control. In addition, our systems enable the online monitoring of fuel cell systems and electrolyzers during operation. This allows degradation mechanisms to be detected at an early stage, operating conditions to be precisely assessed, and system availability and lifetime to be sustainably optimized.