Circuit & schematic design
Architecture, part selection and schematic capture built around your requirements, power budget and interfaces — with signal integrity considered from the start.
One engineering-led workflow that turns your idea into a production-ready PCB — circuit design, layout, prototyping, fabrication and assembly for device makers, hardware startups and engineering teams.
Electronic design and manufacturing is the end-to-end discipline of taking an electronic product from an idea to a finished, testable circuit board. It spans the creative and analytical work of circuit design, the precision of PCB layout and routing, and the physical reality of fabrication and assembly.
Treating these stages as one connected workflow — rather than separate hand-offs — is what keeps a project moving. Design decisions are checked against real manufacturing constraints early, component availability shapes the bill of materials before it becomes a problem, and prototypes are built the same way volume production will be.
For a deeper technical breakdown of a complete electronic design and manufacturing process — from stackup planning to final inspection — it helps to see how each stage feeds the next and where the biggest cost and quality gains are won.
Six connected capabilities that cover the full path from a blank schematic to a tested, shippable assembly.
Architecture, part selection and schematic capture built around your requirements, power budget and interfaces — with signal integrity considered from the start.
Controlled-impedance routing, careful stackup planning and clean placement — optimized for manufacturability, thermal behaviour and EMC.
Fast-turn prototype boards and assembled samples so you can validate hardware, firmware and mechanical fit before committing to a production run.
Reliable fabrication from single-layer to complex HDI, rigid-flex and metal-core boards, in prototype quantities through to volume production.
SMT, through-hole and mixed-technology assembly, including BGA and fine-pitch placement, with component sourcing and full traceability.
Automated optical inspection, X-ray for hidden joints and functional testing — so every board that ships has been checked against spec.
Each stage validates the last, so problems are found on a screen — not on a production line.
Requirements become a schematic, a part list and a stackup plan.
The design is checked against fabrication and assembly rules before anything is built.
A small run is manufactured and assembled to prove the design works in the real world.
With sign-off complete, boards move into scalable volume production.
Components are placed, tested and inspected, then boards ship ready to integrate.
Whether you ship thousands of units a month or are soldering your very first prototype, the workflow adapts to where you are.
Stabilise supply, lift yield and control cost across every production run.
Get from a working prototype to a real production run without a large in-house team.
Offload fabrication and assembly and get manufacturing insight early in the design.
A snapshot of what the electronic design and manufacturing workflow supports across fabrication and assembly.
Jump straight into the tools and reference material that support each stage of your build.
Stackup planning, DFM checks and instant PCB manufacturing quotes — the engineering toolset behind the workflow, from PCBSync.
Open PCB manufacturing tools Reference guideA full technical walkthrough of the design, fabrication and assembly process — a solid primer for engineers and product teams.
Read the full guideA full service covers circuit and schematic design, PCB layout and routing, design-for-manufacture review, component sourcing, prototyping, PCB fabrication, and assembly with test and inspection — taking a product from concept to a production-ready board.
Simple prototype PCBs can turn in 24 to 72 hours, while assembled prototypes usually take a few days to a week depending on component lead times. Volume manufacturing is scheduled once the design and DFM review are signed off.
Yes. Startups can move from a validated prototype to a first production run without building a large in-house team, using DFM guidance, sourcing support and PCB manufacturing and assembly that scale with demand.
DFM — design for manufacture — checks a PCB design against real fabrication and assembly constraints before production begins. Catching issues early reduces respins, lowers cost and improves yield.
Yes. Sourcing, SMT and through-hole assembly, mixed-technology builds, BGA and fine-pitch placement, plus inspection and functional test are all part of the workflow.
Share your schematic, Gerbers or even a rough idea. You'll get manufacturing insight and a clear path from design to delivery.