Issue link: https://resources.pcb.cadence.com/i/973650
OrCAD PCB Designer Automotive TCL1 Certified for ISO 26262 The industry's first PCB design and verification flow to achieve "Fit for Purpose - Tool Confidence Level 1 (TCL1)" certification enables you to meet stringent ISO 26262 automotive safety requirements. The flow includes everything from design authoring to simulation to physical realization and verification using the PSpice®, Allegro, and OrCAD® product suites. The high-performance design entry, simulation, and layout editing tools provide an integrated environment for design engineers to validate the safety specifications against individual circuit specifications for design confidence. For information on the safety manuals, Tool Confidence Analysis (TCA) documents, and compliance reports from TÜV SÜD, download the Functional Safety Documentation Kits through Cadence Online Support. Powerful Floorplanning At the heart of the OrCAD PCB design solution is OrCAD PCB Editor, an easy-to-use, interactive place-and-route environment for creating and editing simple to complex PCBs. The extensive feature set addresses a wide range of today's modern design and manufacturability challenges. This powerful and flexible set of features includes automatic, schematic-driven floorplanning and inter- active placement, intelligent interactive routing, dynamic shapes, placement replication, simple and advanced rules (including differ- ential pairs, length, region, layer, etc.), STEP model support and 3D viewing, and MCAD-ECAD (interfaces for manufacturing and mechanical CAD). Floorplanning and placement Automatic, schematic-driven floorplanning and interactive-placement capabilities are designed to accelerate parts placement. Components or subcircuits are assigned to specific "rooms" during design entry to facilitate automatic floorplanning. In interactive placement, components can be filtered and selected in a wide variety of ways to streamline the placement process: by reference desig- nator, device package and footprint style, associated net name, part number, or the schematic sheet/page number. Interactive etch editing Interactive routing capabilities deliver controlled automation while maximizing routing productivity. Real-time, shape-based, and any-angle push and shove routing methods address a wide array of routing challenges. The routing engine optimizes traces by either pushing obstacles or following contours while dynamically jumping over obstacles such as vias or component pins. Routing modes include "shove-preferred," "hug-preferred," or "hug-only." The shove-preferred mode constructs the optimum trace path while dynamically pushing obstacles or automatically "jumping" over obstacles such as pins or vias. The hug-preferred mode is the perfect solution when a databus must be constructed. In this mode, the trace contour follows other traces as a priority and only pushes aside or jumps over obstacles when there is no other option. Backdrilling in PCB Designer Professional Users can now specify which vias on critical high-speed signals should be back drilled to avoid reflections. An output report—Backdrill NC and Legend Files from Bottom, Top, or Any Layer if backdrilling the inner core(s) of the PCB—allows users to send backdrilling instructions to their PCB manufacturers STEP models provide a realistic three dimensional representation of your design 2