Our hardware and software are open and modular in design and deeply integrated into the software of the devices being tested.
This means that we can offer test systems that are less expensive to purchase than systems with similar functions. More importantly, however, they reduce the time required for implementation, integration, and adaptation of a test setup.
The platform is used to expand and redesign engine test stands, as well as to support variable test applications in R&D.
es:mod™ is an open hardware platform for signal acquisition and processing for development, testing, and operation. In various configurations, it enables:
You can use front ends and software from our ecosystem, integrate your own designs, or combine both.
All interfaces are open. es:mod™ was developed for engineers who want to design and expand their own test and measurement systems without proprietary restrictions.
In many test setups, such as engine test benches, the requirements, protocols, and test specimens change. The test setup must be adapted accordingly. Our platform was developed for this scenario.
Modular: Interfaces can be exchanged and developed by the user.
Scalable: Modules can be added and interact with each other while sharing a common time base (PTP timestamping at PHY/MAC level).
Open: Integrate your own hardware interfaces and software or use those from third-party providers.
The platform is used to expand and redesign engine test benches.
The platform also supports variable test applications in research and development with embedded systems.
We actively seek cooperation with third parties in their specific areas. The open architecture enables cooperation in which either our platform provides the data for partners or our partners' software runs on our platform.
The es:saar platform connects actuators, sensors, embedded devices, and PLCs via a uniform, open toolchain.
es:mod captures and processes signals directly at the system being monitored. es:prot enables data transfer between the embedded software and es:scopewhere signals are visualized and parameters are adjusted in real time.
All components can be used independently of each other or replaced with your own hardware and software. This allows the platform to be seamlessly integrated into existing toolchains while maintaining full modularity and expandability.
We look forward to discussing your Embedded systems development. As a partner for corporations, SMEs, start-ups, and public research institutions, we support you at every stage.
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