I am still waiting to here from Alex (but in fairness not expecting an answer) about how much it would have cost DL/OSEL to have put the APOC through the same certification as the mil/commercial units which APOC uses spin-off technology from. I am guessing that it is unsustainable for a recreational unit. Whilst you are developing and building a new unit you need to be aware of how you are going to test and accept it given the market forces which are out there. I am pretty certain that the end user has no concept of how much it costs to test equipment to meet the high reliability/safety figures that they think are easily achievable. That doesn't mean that they shouldn't be the stretch goal, but if you are marketing into a sport (especially the recreational end of the market) you need to make it cheap.
Regards
GLOC, you simply can't make it cheap as doing so will kill divers as is shown in the accident stats and studies.
The cost of certifying the Apoc was the same as certifying the military/commercial units as they need to meet the same EN14143:2003 standard for CE.
To make this commercially viable, we developed one set of interchangeable components to make the three different breathing loops (front mount, rear mount, and rear mount twin scrubber), and worked with three different clients who address the sports, military and commercial diving markets respectively. There are considerable differences to the controllers between these applications but the breathing loops are the same. The components are interchangeable between these loops. In fact, we could use any of the three loops in any of the three applications, depending on what clients require.
One has to put the CE costs in the context of a professional project. CE certification, including IEC 61508, came to 3 million Euro (1 million originally planned plus 2 million over two years for the strict rigour from the UKAS NB audit). There were three rebreather loops so one could amortise that as original expectation of 300K Euro per rebreather cert cost, and 1 million actual. The design and tooling came to 3.5 million, with research prior to that being another million Euro. So 7.5 million Euro for the whole thing.
These costs are not out of order and not unique to DeepLife/OSEL: I note the public announcements of investment into a sports rebreather company last year was 14 million Euro, and rebreather company being sold for 35 million. If a company wants to get a return on its investment putting in 14 million, then it will need to cover multiple markets, or sell a heck of a lot of products. This should drive down the cost of rebreathers to bring up volume.
With all the design and tooling in place we can now do new rebreather models, using the same modules and subsystems, at around 600K Euro each and could do the entire set of tests for CE for around 300K Euro (about 10% of the cost of setting up all the test systems, using independent agencies etc, manning and running the original tests, the first time around). That capability is also worth a lot.
Alex