Assembly lines of products are designed from scratch by using CAD tools. In the design process; type of the assembly line (semi or fully), number of processes, technologies to be used in each process are derived out of concept design. 

Design is matured by conducting process failure mode effects and analysis technique (p-FMEA). Design of test benches as a part of production line or stand-alone device also is done by engineers in automation division. This yield advantage of providing cost-effective, efficient, optimizable, quality standard-convenient solutions for customers. 

At product design, we offer solution-focused designs that are communicated throughout the whole development process based on years of experience. 

Our dedicated engineering team benefit from product life cycle (PLM) tools widely used in automotive industry to deliver customer demands into products.

In product design, we offer a shell design tailored to a particular application or a design solution created from the ground up.

The simulation phase holds a crucial position in the product development process as it offers the chance to identify convenience and inconvenience at an early stage. Our capabilities include the ability to conduct tolerance stack-up analysis, heat analysis, strain energy modeling, snap analysis, temperature modeling, retention force analysis, mechanical behavior modeling, misuse simulations, and more.

This process is carried out to confirm that the product design satisfies client needs over physical components. A dedicated sub-team for design engineers reports on part release functionality and visual appearance for pre-series.

Expert engineers in circuit and layout design carry out advancements in hardware design. The design process is carried out in the following ways to provide a solid design that keeps the product's desired attributes. Such as;

- Design Verification with Prototype Hardware

- Hardware Development 

- Schematic Analysis 

- Schematic Design
- Delivering to Fabrication .

 Developments and outputs are constructed through widely used design tools in automotive industry.

As a result of embedded software development life cycle, we generate reliable software for our embedded electronic products. Following steps are followed during the development cycle, 

-Software Requirement Analysis, 

-Software Architecture Design,

-Detailed Desing via Model Based Programming or coding, 

-Software Integration.

Design of molds produced in tooling shop are done by their design team. Tooling design is conducted with the help of CAD tools in accordance with product design. Both design teams in product and mold side collaborate in development life cycle. Thus, efficient, reliable and consistent design is generated by our organization.  

Flow analysis is an essential step in the very early stage of mold design. Prior to the design being sent to production, sink marks, flashes, and gaps caused by material characteristics are observed and optimized. Therefore, throughout the mold production life cycle, the customer's quality standards are met.