Documentation
& Knowledge Base

Welcome to the CENOS documentation page.

Explore the knowledge base or start searching with keywords and phrases.

CENOS is simulation software created by engineers, for engineers. We’ve designed it to be intuitive and user-friendly, understanding that engineers often prefer solving problems over reading lengthy instructions—and we respect that.

Our dedicated simulation engineers, who interact with users daily, regularly create technical articles addressing common questions and challenges to further support you.

As CENOS evolves with frequent updates, the documentation may occasionally lag behind. Even so, we encourage you to explore the technical documentation—it reflects the expertise and hard work of our engineers and is a valuable resource whenever you have questions about the software.

If you don’t find answers here or need further assistance, don’t hesitate to contact our support at support@cenos-platform.com.

Product
Documentation

Knowledge Base
Categories

Use Cases
& User Stories

Using simulation software to improve micro mobility mechanics
Wireless charging of industrial robots: case study
Induction heating of press moulds: case study
Induction heating of steel billets: case study
Induction heating of turbine blade: case study
Ball-bearing induction heating: case study
Induction shaft scanning: case study
Scanning and hardening of a gear: case study
Induction chain hardening: case study
Induction brazing simulation: case study
Induction hardening for electric vehicles: case study
Optimizing induction coil design: case study
Wireless charging simulation for mobile phones: case study
Pipe rolling pre-heating for welding
Wireless charging of electric vehicles: use case
Coil design impact on heat spread: Another image illustrates the impact of the coil’s design on temperature distribution. While the inner rings of the coil produce sufficient heat, the outer areas of the pan experience less heat transfer. This suggests that the coil’s design requires adjustment to ensure better heat distribution across the entire surface of the pan.
Induction Channel Furnace: case study
How COBES uses simulation software to win customer trust
Electromagnetic liquid metal simulation software. Induction Crucible Furnace: case study.
SMS Elotherm achieves perfect hardening profiles with simulation software
Induction channel furnace and induction crucible furnace: case study
How Netzsch improved their machines with CENOS software
TrustPoint's experience with CENOS has been consistently positive
Importance of heating simulations for additive manufacturing coils. Himmelwerk.
The planar inverted F Antenna. An independent comparison of the market-leading RF simulation software and CENOS RF.
IoT applications and microstrip antenna in the smart refrigerator
Simulation of different types of drones, quadcopter and UAV's
cenos-antenna-design-and-ansys-hfss-accuracy-comparison
One of the first Antenna Design testers gets awarded with lifetime free license
Preheating of substrate for DED and laser cladding processes
How induction heating could revolutionize construction/demolition works
This is a case where a corner of the inductor was somewhat far away (d) from the cooling channel so it was overheating.
Ball-bearing induction heating process modeling with CENOS Induction Heating simulation software
The big question - is the computer simulation of induction hardening accurate?
3D simulation of an SMD inductor / DC choke
Simulation of a moving inductor for coating removal systems
CENOS simulation software products. Busbar Heating BBH simulation software.
Large gear tooth-by-tooth hardening
Induction heating In the railway & subway industry
Pipe rolling pre-heating for welding
Optimizing an induction cooker coil efficiency with simulation software
Turbine blade preheating for welding
Simulation software and 3D printers make better copper coils
Simulation of induction heating of steel billets for forging
Induction Simulation of Semiconductor Crystal Growth by the University of South Dakota
Scanning hardening of a splined shaft
Induction hardening of a spur gear
123456789101112131415

Frequent
Questions

CENOS operates on an annual subscription basis, with pricing determined by the features and number of users required. The starting price for an annual subscription is $6,000 USD.

For certain applications, we also provide the option of Project-based subscriptions, which are available for shorter durations of 3 months, catering to specific project needs.

If you’d like a customized quote or further details, feel free to reach out to our sales team.

CENOS primarily provides software that is designed for ease of use, empowering our customers to run their own simulations with confidence. Alongside the software, we offer high-level customer support to ensure a seamless experience.

For customers who require additional assistance, we also offer a Premium Support service. Through this service, our team can collaborate on simulation projects, including running simulations on your behalf to address workload challenges or assist with new designs.

No, the software doesn’t create designs for you. Instead, it acts as a robust simulation platform that helps you test and perfect your own ideas.

This means you can experiment with numerous design variations virtually, ensuring you arrive at the best design without the expense and delays of building physical prototypes.

CENOS simulations are highly accurate, with results closely matching real-world outcomes when the simulation setup mirrors the real-life setup. The precision of your results depends on how well the simulation parameters align with the physical conditions.

All CENOS users, including companies like Volkswagen, John Deere, and ThyssenKrupp, have validated the software’s accuracy through their own tests. You can explore some of these validation studies here.

Have questions?

Don’t hesitate to contact our customer support.

support@cenos-platform.com

Europe
+371 27819253

Americas
+1 (708) 794 4046