The engineering partner between your design and a flawless board.
Ampletron takes your circuit-board design, catches the costly mistakes a factory can't, and hands fabrication a clean, verified, build-ready dataset — from a first prototype to 110-layer test boards.
- Gerber & ODB++ CAM
- DFM / DRC verification
- HDI & controlled impedance
- ATE loadboards to 110 layers
Most board failures are decided long before the factory floor.
A design can look perfect in the CAD tool and still be impossible to build reliably. That gap — between what was drawn and what can actually be etched, drilled, plated and assembled — is where hardware projects quietly lose weeks and budgets. Ampletron exists to close it.
The gap is invisible until it's expensive
Design-rule checks in a layout tool are generic. They don't know your fabricator's real limits, so problems slip through and only surface as scrapped panels or field failures.
One missed detail scraps a whole run
A thin annular ring, an un-verified impedance line, an acute copper sliver — any one of them can ruin an entire production batch. The cost of catching it early is a fraction of catching it late.
Someone has to own that gap
Fabricators optimize for throughput, not for your design's edge cases. We stand between your team and the factory as the specialists whose only job is making the data correct.
One team for the entire pre-manufacturing surface.
From preparing raw fabrication data to engineering the world's most demanding test interfaces — every capability is owned by a specialist engineer.
Gerber & ODB++ CAM Processing
Like getting a rough manuscript print-ready, we take a designer's raw board files and tidy them up so a factory can actually build the circuit board.
Fab-ready panels and verified netlists that drop straight into your fabricator's line.
DFM & DRC Analysis
Like a proofreader for your circuit board — we catch the tiny design mistakes that would make a factory build it wrong, before they ruin a whole batch.
HDI & Microvia Engineering
We design the tiny, tightly packed circuit boards found inside phones and smartwatches, fitting microscopic connections into a space smaller than a fingernail.
Controlled Impedance Design
Like sizing water pipes just right so nothing leaks or echoes, we shape the copper wires on a board so fast signals travel cleanly without errors.
ATE Loadboard & Probecard Design
We build the giant, extremely complex circuit boards that factories use to test computer chips and make sure each one works before it ships.
CAM Scripting & Tooling Automation
Like a robot that handles boring paperwork, we write custom software to automate slow, repetitive board-prep tasks so they finish faster with fewer mistakes.
Not sure what your board needs?
Send us the files and tell us what you're building. We'll tell you exactly which checks apply — no jargon required.
Trusted with the boards that cannot fail.
Anyone can run a design-rule check. What sets us apart is ownership, rigor and the range to handle the hardest hardware on earth — with total transparency.
Engineers, not order-takers
Every program is owned by a dedicated pre-manufacturing engineer who is reachable around the clock. You get reasoning and options — not just a pass/fail stamp.
Deterministic, repeatable tooling
Fab-specific rule decks and version-controlled automation mean the result never depends on who ran the job. Every decision is documented, defensible and reproducible.
The boards others decline
HDI stackups, sequential lamination, controlled impedance held to ±5%, gold fingers, and ATE loadboards up to 110 layers routing 40,000+ nets. Complexity is our default, not an exception.
Checked against reality
We verify your data against your fabricator's true capability deck — catching the manufacturability issues a generic DRC will always miss.
Transparent from day one
Itemized quotes, annotated findings keyed to layer and coordinate, and clear lead times. No black boxes, no surprises — the trust is in the detail.
Round-the-clock desk
A live DFM engineer is on desk 24 hours a day — close to your fabricators and design teams, wherever they sit.
Four steps from your files to finished boards.
Every project follows the same checked path — so nothing reaches the factory without a documented, signed-off record of each decision.
- Step 01
You send your files
Upload your board design. We open it and rebuild a complete, accurate picture of every layer.
- Step 02
We check it for mistakes
We hunt for design errors that would make the factory build it wrong — and flag every one for you.
- Step 03
You see a clear price
You get an itemized quote up front — no surprises about what drives the cost.
- Step 04
It's ready to build
We hand the factory clean, approved files — so your boards come out right the first time.
Tuned to the standards of every market.
Reliability targets and qualification rules differ by industry. Our rule decks are built for each — from aerospace and medical to automotive and connected devices.
Aerospace & Defense PCB CAM
Circuit boards for aircraft, satellites, and defense equipment, where a single failure could be catastrophic, so everything is built to the strictest standards.
Medical Device PCB CAM
Circuit boards for medical equipment like monitors and implants, where safety and reliability are tightly regulated because people's lives depend on them.
Automotive Electronics PCB CAM
Circuit boards for cars, built to survive engine heat, constant road vibration, and many years of daily driving without ever letting you down.
Consumer & IoT PCB CAM
Circuit boards for everyday smart gadgets and connected home devices, made in huge quantities at low cost while staying small and reliable.
A specialist team standing between design intent and a manufacturable board.
Ampletron is a pre-manufacturing PCB engineering firm. For more than a decade we have worked at the hand-off point where an electronic design becomes a real, physical board — the moment where small oversights become expensive.
Designers and OEMs send us their fabrication data. We reconstruct the full picture of the board, audit it against the target fabricator's real rules, resolve every manufacturability and signal-integrity risk, and return a clean, verified, build-ready dataset — with the reasoning documented every step of the way.
The result is simple to describe and hard to deliver: boards that come out right the first time, for the teams building the world's most demanding hardware.
Reliability over speed
We optimize for boards that pass in the field, not just data that clears a gate.
Rigor you can audit
Field-solver stackups, coupon-verified impedance and version-controlled sign-off.
A partner, not a vendor
We flag risk early and share the why, not just the verdict.
Headquartered in Ahmedabad, India
A live DFM engineer is on desk 24 hours a day — close to your fabricators and design teams, wherever they sit.
Everything you need to know before reaching out.
New to circuit boards or a seasoned hardware lead — we'll meet you where you are. Something more specific? Ask us directly.
In plain terms: before a factory makes your electronic circuit board, we review the design for mistakes, fix the files, and make sure it can be built correctly. It's like having a proofreader and print-shop for circuit boards.
It's the flat board inside almost every electronic device. It physically holds the chips and other parts and connects them with tiny printed copper lines. Almost everything electronic — phones, cars, medical devices — runs on one.
No. Send us whatever files your designer produced and tell us what you're building. We'll explain everything in plain language, flag anything risky, and guide you to a board that's ready to manufacture.
We ingest Gerber RS-274X, ODB++ (v7/v8), IPC-2581 Rev C and legacy RS-274D with aperture files. Netlists are cross-verified against IPC-D-356.
Standard rigid stacks up to 32 layers, HDI builds with sequential lamination, and specialized ATE loadboards up to 110 layers routing 40,000+ nets.
Yes. We build field-solver-driven stackups holding single-ended and differential targets to ±5%, with impedance test coupons embedded in every panel.
We operate under strict controlled-data handling protocols — NDA coverage, per-program access isolation and full audit logging on every job.
A 24/7 engineering desk returns first-pass DFM findings within hours for standard designs; complex HDI and ATE reviews are scheduled with a dedicated engineer.
We build custom Perl/Python tooling and HyperTooling engine runtimes that codify fab-specific rule decks into deterministic, version-controlled jobs.
Send us your board. We'll tell you exactly where it stands.
Share your design files and what you're building — even if you're not sure what to include. A real engineer reviews it and replies with findings, cost drivers and a lead-time read, usually within hours.
- A real engineer's review — not an automated report
- Your files kept private and securely handled
- A clear, itemized quote with no surprises