This is a guide on generally how to get PCBs fabricated. It is NOT a guide on how to etch PCBs - that's the PCB Etching Instructions page.
- 1 Introduction
- 2 Design
- 3 Fabrication
- 4 See Also
There comes a time when an electronic circuit just needs something a bit more permanent to be built on. That's when you will want to build a PCB.
Before you can make your PCB, you'll have to design it. You'll need to do this with some CAD software - there are a few out there, some are "free" and some are free software.
These packages often have quite a steep learning curve, so you may need to invest some time into learning them for the first time.
Below is not intended as a comprehensive list, just a guide to the packages you are most likely to encounter.
CadSoft EAGLEProbably the most widely used, CadSoft EAGLE, allows you to do schematic capture and PCB design. In the free version, the useable board area is limited to 100 x 80 mm (4 x 3.2 inches), only two signal layers can be used and the schematic editor can only create one sheet. The Hobbyist license costs £120. The layout area is restricted to a maximum of 160mm x 100mm (6.3inch x 3.9inch), a schematic can consist of a maximum of 99 sheets and a maximum number of 6 signal layers are allowed. Many thousands of components in Farnell's catalog are associated with EAGLE libraries.
Runs on Windows, Linux or Mac.
KiCadKiCad is an EDA software suite for the creation of professional schematics and printed circuit boards up to 16 layers. KiCad runs on Windows, Linux and Apple OS X and is released under the open-source GNU GPL v2 free of charge.
The particularly useful thing about KiCad is that it is entirely unlimited, and also free. This means you can design 4 layer boards without having to buy any (possibly restrictive) software licenses. It's extremely powerful, but somewhat unorthodox.
There is a full Getting Started guide on the KiCad website, as well as various tutorials on youtube to help you get started. The Getting to Blinky series (from a course run by Contextual Electronics) is quite comprehensive and demonstrates a typcial workflow going from schematic capture to gerber generation
OS X support is limited and experimental. Compiling recent versions may require modest skill; it will often require building the binaries yourself. Instructions are available  and there is a script within the source tree  however even then there may be significant bugs - particularly in viewport rendering - making running on a virtualised operating system a potentially more attractive option for using KiCad on OS X.
DesignSpark PCB is free, has unlimited schematic sheets per project, up to 1m squared of board size and no limits on layers. It can be used for schematic capture, PCB board design & layout, generating 3D views, and generating manufacturing files. Generating a BOM gives RS Components order numbers as RS Components are behind it, promoting it as an alternative to Eagle CAD now that Farnell Components own Cadsoft. It needs to be activate after installation to enable the save and print function.
Runs on Windows, not natively on Linux or Mac.
DipTrace is very intuitive, offers schematic capture, PCB layout, component library creation and 3D modeling. There is a free version, DipTrace Lite which allows 500 pins and, 2 signal layers for non-commercial use. It does not have a board size limitation. It can read Eagle files and import Eagle libraries and parts. After placing and locking components such as connectors, Diptrace tries to arrange the remaining components within the board outline to minimize total length of connections.
Runs on Windows, not natively on Linux or Mac.
Fritzing is open source, free software, devoted to making creative use of electronics accessible to everyone. It can be seen as an electronic design automation (EDA) tool for non-engineers. It uses breadboard prototyping as a design input metaphor.
Runs on Windows, Linux or Mac.
Circuitmaker is a cloud-hosted design suite produced by Altium. It's free to use for open-source designs, but the usual warnings about vendor lock-in and service continuity - especially as your design files are stored in their repository - apply.
Once you have finished your design, you'll want to actually make the board!
Etching in the space
The space has some etching facilities, for which you can view the instructions here: PCB Etching Instructions.
Be warned, though, there are no tinning, through hole plating, silk screening facilities. It's great to get you by for a quick turnaround prototype, but for anything more fancy, you'll probably want to send your design off to the professionals.
To get that lovely shiny looking PCB you're after, you can send off the design to a fabrication house to have it made for you.
This is the copper which makes up your circuit. The process starts with a copper clad board, which has a thickness of copper denoted by the weight of copper spread over a 1 ft square area (in Ounces). Typically this is 1 oz for external layers, and less for internal layers.
1 oz equates to 1.37 mils (thousandsth of an inch) or 0.0347 mm . The width scales up rectiliniarly, so 2 oz is twice the width of 1 oz, etc.
If your design has critical dimensions for your tracks, you might want to double check the thickness available to you before starting the layout.
Soldermasks are a coloured coating that goes over your board that prevents solder from flowing into bits that you don't want solder to flow. Traditionally, this is a darkish green colour (which is what primarily makes PCBs look so green!) - however there are a variety of different colours available. Some fab houses will do boards without soldermasks and silkscreen cheap (or maybe even free) - but bear in mind that a soldermask is important for components with a fine pitch (SMT, mainly) as it will prevent shorts between pins.
This is the (usually) marking you see on the boards with component identifiers and the like. This is purely decorative, and isn't usually applied as precisely as the other layers - so you may get slight registration errors. Silkscreen has to be applied over a soldermask - it will not adhere to exposed copper or board.
Plated Through Holes
When you want to get a signal from one side of the board to another, you'll need a via. This is just a pad which is drilled through to both sides of the board, with an electrical connection between the pads. If you're etching a board yourself, you'll need to make this connection yourself using a small bit of wire, or a rivet.
Once the PCB has been etched and soldermask applied, a number of different finishing processes may be used to improve the quality of the board.
Hot Air Solder Levelling  involves the PCB being dipped into a solder bath - which wets the exposed copper with solder. You can get this in tin/lead or lead-free compositions. This provides a good solderable finish, but possibly not completely flat pads (especially for large areas).
Immersion Silvering    involves depositing a thin layer of silver onto your PCBs contacts. This produces a much flatter result than HASL, and even better wetting. But it can be a bit more expensive.
Most fabrication houses will accept "industry standard" Gerber files. You'll need to find out how to generate these in your CAD software, and what the specifications of the files are from your fabrication house. They'll normally require a standard subset of files (layers) for top and bottom copper, silkscreens, drills and holes.
Once you've generated these files, you should load them into a gerber viewer (like gerbv) to check them before you send them off!
There are a number of places which can fabricate your board, here are some possibilities
- Fab comparison service
- UK/EU commercial suppliers. Fairly expensive but can be fast and good quality.
- Spirit Pretty well priced.
- Stickleback 
- Ragworm.eu (owned by Stickleback) hobbyist centric service
- Eurocircuits EU based PCB house - several proto services. Fairly cheap for stainless SMT stencils.
- PWT UK based full-capability PCB place for stuff Screenbond can't do. Typically cheaper than Eurociruits for 4-layer
- Screenbond UK based PCB house with unusually low tooling costs (typ £40). 1 & 2 layer only. Can do 24hr turnround if you have deep pockets.
- PCB-Pool Proto/low-volume oriented PCB service, not the cheapest these days but offer a free stainless SMT stencil.
- PCB Train Fast turn around, good prices. Also have an assembly service and a 1 day (~£40 all in) prototype service for uncoated 2 layer boards.
- Far-eastern suppliers.
- PCBCART PCBs from China. Very cheap once you get over a square foot or two. Reliable, Quality generally good. A gazillion options - funky resist & silk colours
- Seeed Studio Fusion PCB service
- Gold Pheonix
- Dirty PCBs Set up by Dangerous Prototypes. China Post is much slower than manufacture - so if you want to speed it up, fast shipping gets you better value than fast processing.
- WellPCB - WELLPCB is focusing on online prototypes orders, to meet the requirement of Low cost, Fast delivery, Easy order for customers around the world.
- OSHPark - out of the DorkbotPDX batch pcb order, and then absorbed Sparkfun's BatchPCB
For some kind of reference for comparison, here is a table of quotes for a fairly standard small board:
- Minimum quantity of boards
- 2-layer board
- No particularly coloured silkscreen/soldermask
- Through hole plating
- 1oz copper
- HASL or immersion silvering (whichever is cheaper)
- FR4 1.6mm (or nearest cheapest equivalent).
|Service||Approx Turnaround time||Approx Shipping time||Silkscreen||Cheapest shipping cost||Total quote||Number of PCBs||Cost per PCB (delivered)|
|Ragworm.eu||10 working days||2 working days||Orange only||£0.00 (included)||£5.95||1||£5.95|
|OSHPark see specs||12 days||7 - 28 days (average 11 days)||Purple only||£0.00 (included)||£4.50||3||£1.50|
|PCB Train Express service (no silkscreen, just copper)||2 days||?||None||£0.00 (included)||£30.00||1||£30.00|
|PCB Train 2 layer (with soldermask and silkscreen)||10 days||?||Green only||£0.00 (included)||£44.10||1||£44.10|
|PCB Pool 2 layer Bare board||8 days||?||None||?||£60.16||10||£6.02|
|PCB Pool 2 layer (silkscreen + soldermask)||8 days||?||Green||?||£117.30||10||£11.73|
|ITead 2 layer||?||4 - 5 days||Green||£2.29 (Airmail)||£8.10||1||£8.10|
|Eurocircuits||25 days||?||Green||£7.66 (Economy)||£33.02||1||£33.02|
|Elecrow 2 layer||?||7 to 25 days||Various||£2.70||£8.52||10||£0.85|
|Seeed Studio Fusion PCB||5 - 7 days||0-25 days (Registered airmail)||Green||£4.39||£10.21||5||£2.04|
|PCB Snap (Spirit Circuits)||?||?||Green?||£10.31||£61.86||1||£61.86|
|PCB Cart||12 days||3-5 days (DHL)||Green||£17.39||£59.59||1||£59.59|
|Gold Phoenix||5 days||3 days||Green||?||£78.96||25||£3.15|
|WellPCB||5 days||5 days||white & black||£23.91||£51.80||5||£3.99|
NB: this is not an endorsement - prices may change, but this could be an indicative guide on roughly how much you might expect to pay.
- Nottinghack wiki - PCB Suppliers and Manufacturers
- KiCAD Schematic capture + PCB design software
- EAGLE CAD
- Comparison of EDA software