This is painful. They got a used solder mask holder, a Lumen pick and place machine, a bunch of old Siemens feeders, and a small automatic reflow oven. All these tools needed major work. Everything with firmware needed firmware mods. Everything else needed assembly or major cleaning. Everything needed adjustment. They had to 3D print their own solder paste squeegee. They're six months in and still trying to produce one simple board.
I've been down this road of populating a surface mount board. There is a minimum size for a practical board-stuffing operation, and they are below it. They are using prototype techniques for 100 units or so, not techniques that scale.
Surface mount soldering requires applying hot air in a very controlled way, with the temperature ramping up, holding at the high temp for a few seconds, and then ramping down. On a small scale, you have a programmable oven which tries to do that. Those always have heat distribution problems. For production, you have a tunnel oven, with about six sections at different temperatures and a chain conveyor to take the boards through the tunnel. With the tunnel oven, you let the whole thing warm up and stabilize, and when all zones are at the right temperature, you can repeatably solder boards successfully.
They're using a hobbyist-grade pick and place machine. Slow, but cheap. Plus the software isn't ready for prime time. They looked at a used production machine. Runs Windows XP and wouldn't fit through the door. Rejected that.
They're about EUR 30,000 into this, not counting their own labor.
This approach is not going to revive electronics in Europe.
You are saying the same thing they said -- it doesn't scale. It's not how you build a large factory. They acknowledge this and pretty quickly move on to say that they are aiming for smaller and sustainable.
They even specifically call out why they chose not to use a conveyor based oven in the video.
Basically they believe they can be price reasonable at small scales, small batches. Build process knowledge and expertise over time, and then incrementally scale up after assessing bottlenecks.
I think the route of local sustainable, grow as needed or collaborate to expand capacity is pretty reasonable.
It's not possible to make a competitively priced product that way.
What are you going to do, sell artisanal circuit boards on Etsy?
Here's a small US-based PCB board and assembly facility in the US, in Hesperia, California.[1]
Looks like it might have 20 to 30 employees from the building picture.
This is probably about as small as a viable business of this type gets. It doesn't have to be done in a huge plant like JLCPCB in Shenzhen.
Here's a company in India, Invariance, which makes low-cost semi-automatic machines to do exactly the same operations 39c3 is doing.[2] They have three machines - a solder paste spreader, a pick and place machine, and a mini tunnel reflow oven. They make all three machines.
These machines intended for small companies who want to assemble their own boards in house. The solder paste spreader is just automated enough to do a consistent job, with pressure and timing controlled. The pick and place machine uses their own feeder design which runs off strips of component tape. The tunnel oven is small, only about a meter long.
That's close to a viable minimum production solution.
That depends on your definition of "competitive", doesn't it?
Being 3x as expensive as China but 0.1x as expensive as current small-scale EU manufacturing can be extremely competitive. Plenty of people looking for <1000 unit runs would be willing to pay extra for a "made in EU" label.
Design for manufacturability means you leave tolerance within Factory limits, and your own prototyping process limits.
While an inexpensive PnP machine will do 50k to 80k components/hour. If you have someone doing _any_ task, than add $3 USD * number of operations per unit.
Tech is a low-margin business with a lot of regulations, and should be contracted to a proper facility if making over a few thousand units a month. Tooling up for a production line is almost always a bad idea, as it usually adds additional barriers to a product launch as people get sidetracked. =3
Electronics in Europe is so dead. It is past the point where where it can be revived. One thing is sick overregulation to spin hardware product. Last nail in the coffin today is Cyber Resilience Act. It dwarfs all the regulations before it.
Second thing is talent. People can’t hardware anymore. I mean putting a 0402 capacitor on the printed circuit board is not hard. But doing that in meaningful way gets hard. As a contractor I designed few boards and optimized for production in China. In my dayjob colleagues are stuck in the last century. No recent knowledge about parts, design rules, testing principles… No willingness to learn and talk to Chinese manufacturers about optimization. Just copy paste bad decisions from old boards to new designs.
Honestly I wouldn’t even try to revive anything in Europe. Chinese electronics factories are way too far in the future. The suppliers for my workplace are all stuck in the past. Even the ones with new equipment struggle to use full potential due to worker’s shortage. Which is probably a problem in whole western world. Who wants to be manufacturing technician when you can be lifestyle influencer!?
The regulations argument is a red herring: those mostly apply to electronics products sold in the EU, not manufactured in the EU. You have exactly the same burden trying to sell CN-manufactured hardware in the EU.
Worker's shortage is a real problem in China as well. Their approach? Automate everything. Focus on manufacturing 1000s of designs using a handful of standard formulas, instead of treating every design as bespoke. There's no reason this couldn't be done in the EU.
It's going to require a serious cultural shift, but given the right incentive I see no reason why it would be impossible.
Funfact: If you are working in the industry, you know that there are many companies who produce electronics in Europe in general and some even in Germany.
As far as I am aware the European plants survive mostly on decent QA and regulated industries. When the cost of a defect slipping QA is high, it can be cheaper to operate European plant with intra-step quality controls than manufacture in China and slap thorough QA on top.
The problem is the gap between hobbyist project and hundred-thousand-unit production run.
You can't easily and cheaply get 10, 100, or 1000 units manufactured in the EU the way you can in China. This pretty much kills hardware startups and scaleups wanting to do local manufacturing.
If you're not a multinational or have an essentially-unlimited budget for your small-scale run, you have to outsource it to China.
I work with companies, which have a more like small scale production. They are about 100 or so workers. Yes, this is also possible. They grew their business in the last 25 years, when it was even harder to produce something than these days. At least one of these business have PCB suppliers in the EU, which helped them in the post COVID crises where everybody struggled with supply.
I just named some big name brands. I also know mid-size and smaller brands.
Building your business and getting your stuff together is hard for any startup in any business field.
Not sure why your post was buried. As the EU does have a lot of rules, but if a product is reasonably made its almost the same cost as the US market entry. Robert Feranec covers a lot of the more obscure EU rules:
Designs that contain China parts are often immediately disqualified from most trade exemptions. The landed cost can bump gadget retail prices too high in some countries. YMMV =3
Ngl, everything on crowd supply is overpriced. I bought an sdr through them several months ago, and the antenna I bought with it could be found on mouser for at least $10 cheaper.
I've been down this road of populating a surface mount board. There is a minimum size for a practical board-stuffing operation, and they are below it. They are using prototype techniques for 100 units or so, not techniques that scale.
Surface mount soldering requires applying hot air in a very controlled way, with the temperature ramping up, holding at the high temp for a few seconds, and then ramping down. On a small scale, you have a programmable oven which tries to do that. Those always have heat distribution problems. For production, you have a tunnel oven, with about six sections at different temperatures and a chain conveyor to take the boards through the tunnel. With the tunnel oven, you let the whole thing warm up and stabilize, and when all zones are at the right temperature, you can repeatably solder boards successfully.
They're using a hobbyist-grade pick and place machine. Slow, but cheap. Plus the software isn't ready for prime time. They looked at a used production machine. Runs Windows XP and wouldn't fit through the door. Rejected that.
They're about EUR 30,000 into this, not counting their own labor. This approach is not going to revive electronics in Europe.
They even specifically call out why they chose not to use a conveyor based oven in the video.
Basically they believe they can be price reasonable at small scales, small batches. Build process knowledge and expertise over time, and then incrementally scale up after assessing bottlenecks.
I think the route of local sustainable, grow as needed or collaborate to expand capacity is pretty reasonable.
Here's a small US-based PCB board and assembly facility in the US, in Hesperia, California.[1] Looks like it might have 20 to 30 employees from the building picture. This is probably about as small as a viable business of this type gets. It doesn't have to be done in a huge plant like JLCPCB in Shenzhen.
Here's a company in India, Invariance, which makes low-cost semi-automatic machines to do exactly the same operations 39c3 is doing.[2] They have three machines - a solder paste spreader, a pick and place machine, and a mini tunnel reflow oven. They make all three machines. These machines intended for small companies who want to assemble their own boards in house. The solder paste spreader is just automated enough to do a consistent job, with pressure and timing controlled. The pick and place machine uses their own feeder design which runs off strips of component tape. The tunnel oven is small, only about a meter long.
That's close to a viable minimum production solution.
[1] https://mermarinc.com/
[2] https://www.youtube.com/watch?v=K_VCJyeqa-A
Being 3x as expensive as China but 0.1x as expensive as current small-scale EU manufacturing can be extremely competitive. Plenty of people looking for <1000 unit runs would be willing to pay extra for a "made in EU" label.
Rule #23: Don't compete to be at the bottom, as you just might actually win.
Have a great day =3
While an inexpensive PnP machine will do 50k to 80k components/hour. If you have someone doing _any_ task, than add $3 USD * number of operations per unit.
Tech is a low-margin business with a lot of regulations, and should be contracted to a proper facility if making over a few thousand units a month. Tooling up for a production line is almost always a bad idea, as it usually adds additional barriers to a product launch as people get sidetracked. =3
Second thing is talent. People can’t hardware anymore. I mean putting a 0402 capacitor on the printed circuit board is not hard. But doing that in meaningful way gets hard. As a contractor I designed few boards and optimized for production in China. In my dayjob colleagues are stuck in the last century. No recent knowledge about parts, design rules, testing principles… No willingness to learn and talk to Chinese manufacturers about optimization. Just copy paste bad decisions from old boards to new designs.
Honestly I wouldn’t even try to revive anything in Europe. Chinese electronics factories are way too far in the future. The suppliers for my workplace are all stuck in the past. Even the ones with new equipment struggle to use full potential due to worker’s shortage. Which is probably a problem in whole western world. Who wants to be manufacturing technician when you can be lifestyle influencer!?
Worker's shortage is a real problem in China as well. Their approach? Automate everything. Focus on manufacturing 1000s of designs using a handful of standard formulas, instead of treating every design as bespoke. There's no reason this couldn't be done in the EU.
It's going to require a serious cultural shift, but given the right incentive I see no reason why it would be impossible.
Bosch, Continental, Siemens, Palfinger, FAUN, Webasto, Phoenix Contact, Beckhoff, …
You can't easily and cheaply get 10, 100, or 1000 units manufactured in the EU the way you can in China. This pretty much kills hardware startups and scaleups wanting to do local manufacturing.
If you're not a multinational or have an essentially-unlimited budget for your small-scale run, you have to outsource it to China.
I just named some big name brands. I also know mid-size and smaller brands.
Building your business and getting your stuff together is hard for any startup in any business field.
https://www.youtube.com/watch?v=CTPb7etzOmA
Designs that contain China parts are often immediately disqualified from most trade exemptions. The landed cost can bump gadget retail prices too high in some countries. YMMV =3