Simulation

Our “Tailored Solutions” service portfolio in the area of “Simulation” offers a comprehensive range of services that are specifically tailored to the needs of our customers. Precise and innovative simulation methods support us in the development and optimization of our products.

Discover our “Tailored Services” in the field of simulation:

Electrical, thermal and mechanical simulation methods
Electrical, thermal and mechanical simulation methods enable the innovative new development and continuous optimization of our products in the various product life cycles and development stages. These methods help us to maximize the performance and reliability of our products while shortening development times. By using state-of-the-art simulation software, we can make precise predictions about the behavior of our products under real operating conditions.

Simulation of manufacturing processes
The simulation of manufacturing processes such as plastic injection molding technology plays an essential role in our development process. By accurately simulating manufacturing processes, we can identify and eliminate potential problems at an early stage. This leads to higher product quality and more efficient production.

Moldflow analysis
Moldflow analysis is a crucial step in plastic injection technology. Using this method, we can simulate and analyze the flow of the plastic in the mold. This enables us to identify and rectify potential problems such as air inclusions, uneven filling or warping at an early stage. By optimizing the injection molding process, we ensure that the manufactured parts meet the highest quality standards.

Thermal simulation
Thermal simulation is an essential part of our development processes. Using state-of-the-art software tools, we can simulate the heat distribution and thermal behavior of components and assemblies under different operating conditions. This helps us to maximize thermal efficiency and avoid potential overheating problems. Our customers receive detailed reports on the expected heating in the partial and full load range as well as suggestions for dissipating the heat by means of forced cooling and the necessary fans or heat sinks.

LTSpice and simulation of EMC filters
LTSpice is a powerful simulation tool that we use to analyze and optimize electronic circuits. LTSpice is particularly indispensable for the simulation of EMC filters. Through simulation, we can evaluate the electromagnetic compatibility (EMC) of circuits and ensure that they comply with the applicable norms and standards. This is particularly important to minimize interference in electronic devices and increase reliability.

Dimensioning transformers with RALE
Transformers are dimensioned using the RALE design tool. We offer the calculation, simulation and design of transformers and chokes as a service. In addition to the determined sizes, we also supply winding cross-sections, number of windings and the expected heating in the partial and full load range. The resulting loss factors (Fe losses / Cu losses) can also be determined. Our customers also receive suggestions for dissipating the heat by means of forced cooling and the necessary fans or heat sinks.