PCB DESIGN
PCB designing services means taking your circuit diagrams and schematic designs, and creating physical PCB units that can be used in your components. It brings your designs to life and enables us to manufacture the precise circuit boards you need.
We design printed circuit boards of any complexity: rigid, flexible, multilayer, HDI boards, high-speed PCBs, and other types. Our team can create boards from scratch or improve an existing electric circuit design. Application of the latest PCB design tools combined with our proven methodologies allows faster design turnaround.
PCB designing services means taking your circuit diagrams and schematic designs, and creating physical PCB units that can be used in your components. It brings your designs to life and enables us to manufacture the precise circuit boards you need.
We design printed circuit boards of any complexity: rigid, flexible, multilayer, HDI boards, high-speed PCBs, and other types. Our team can create boards from scratch or improve an existing electric circuit design. Application of the latest PCB design tools combined with our proven methodologies allows faster design turnaround.
How Does PCB Design Work?
Here are the key steps involved in our PCB designing services
Component Placement – We position components on the board based on schematic layouts while optimizing it for functionality,design rules and manufacturability.
Routing -We then create copper traces layer-by-layer to interconnect components according to schematic nets and electrical constraints.
Verification – This is a crucial step where different layout validations with design rule checks, signal integrity analysis, power integrity analysis and physical testing are performed to identify and correct issues.
Iterations – We then refine and optimize placement and routing to meet all electrical, mechanical, and fabrication requirements.
Our PCB Design Capabilities
We also specialize in
- Layer Stack-up creation
- DFx Compliance
- Smart Signal Routing
- Handled up to 0.37mm BGA pitch designs
- Power route optimization
- Controlled Impedance Matching
- Critical Signal Length Matching
- Length Match report generation
- Attractive routing and clean up
- Designs with Back Drill
Why Choose GigHz For PCB Designing Services
Our top-notch PCB designs features with advanced technologies like PCI and DDRx. We provide prompt and accurate deliveries, with a focus on cost reduction and maximizing potential. Our team knows how to quickly and accurately give you the results you want, by following the standards and guidelines.
With expertise in compact mixed-signal PCBs, our team ensures prompt and precise results as per specifications. Complicated Design Rule Checks, comprehensive Net Connectivity Verification and Schematic Alignment upholds exceptional quality. Our team also has strong expertise in advanced design methodologies like DFM, DFF, DFA, DFT critical for manufacturability.The availability of a 3D preview and export for mechanical CAD modeling further enriches our services.
Our PCB Designing Process at GigHz
Our PCB Design process follows these typical steps.
- We first collaborate with the client to understand product goals and specifications. If needed, we help define the requirements.
- We then create a high-level board architecture and select components to meet the specifications. This is presented for validation.
- We create the detailed schematics for the board defining all connectivity. Supporting documentation like BoM is provided.
- We layout the board optimizing placement and routing to meet electrical and mechanical needs. Simulation and analysis is done.
- Extensive checks are done to ensure the layout meets schematics and requirements. Issues are identified and resolved.
- Once fully validated, the final board is fabricated and assembled.
- Initial prototypes are tested and validated.
- Comprehensive testing is done before delivering the finished boards to the client.
Do you need help with defining your requirements for the PCB design process?
Book a Call to Schedule a Free Consultation Now.
