SOLIDWORKS Electrical 3D is a comprehensive software solution that seamlessly integrates 2D electrical schematics with 3D mechanical models, facilitating real-time, bidirectional collaboration between electrical and mechanical design teams. This integration enables designers to accurately place electrical components within the 3D model, automatically route wires, cables, and harnesses, and determine optimal lengths, all while maintaining synchronization between design and documentation. By bridging the gap between electrical and mechanical design, SOLIDWORKS Electrical 3D enhances accuracy, reduces errors, and accelerates the product development process. Key Features and Functionality: - Electrical Design in 3D CAD: Integrate 2D electrical schematics into 3D models, allowing for precise placement and routing of electrical components within the mechanical design. - Multi-wire Auto-routing: Utilize advanced routing technology to automate the routing of wires, cables, and harnesses, adhering to design rules and segregation requirements. - Real-time Collaboration: Enable multiple users to work concurrently on the same project with synchronized data, fostering efficient collaboration between electrical and mechanical teams. - Design Planning and Visualization: Create virtual "design-in-place" electrical systems, simplifying harness development and reducing errors through accurate 3D visualization. - 3D Electrical Cabinet Design: Design and layout electrical cabinets in 3D, ensuring component fit and compliance with design constraints, while generating detailed manufacturing documentation. Primary Value and Problem Solving: SOLIDWORKS Electrical 3D addresses the challenges of integrating electrical and mechanical designs by providing a unified platform that ensures consistency and accuracy across disciplines. It eliminates the need for manual updates and reduces the risk of errors associated with disconnected design processes. By automating routine tasks and enabling real-time collaboration, the software significantly shortens development cycles, reduces the need for physical prototypes, and accelerates time-to-market. This leads to cost savings, improved product quality, and enhanced innovation capabilities for design teams.