The mechanical Bendix Air Data Computer, part 3: pressure transducers(righto.com)
righto.com
The mechanical Bendix Air Data Computer, part 3: pressure transducers
https://www.righto.com/2024/01/bendix-cadc-pressure-transducers.html
17 comments
I'm sure a repair and servicing manual existed, but I haven't found one, or even a mention of one. Even obtaining the mil spec for the CADC was a big effort.
As far as servicing, the official specification is "The computer shall have a reliable life of 1,000 hours with reasonable servicing and shall be designed to have a minimum operating life of 5,000 hours with reasonable servicing and replacement of parts. The computer shall have a mean life of at least 300 hours."
As far as servicing, the official specification is "The computer shall have a reliable life of 1,000 hours with reasonable servicing and shall be designed to have a minimum operating life of 5,000 hours with reasonable servicing and replacement of parts. The computer shall have a mean life of at least 300 hours."
Can you explain why the mean life is so much smaller than the reliable or operating life? Or was that meant to be 3000 hours?
"Mean life" is essentially MTBF, the average time during testing until the system malfunctions, at which point the system is serviced and testing continues. The "reliable life" is the life with servicing, so it is longer.
Ah I see, thank you. Given the complexity of the device and the amount of mechanical bits and pieces in there these numbers are very impressive even if they might seem low compared to solid state.
Author here, if you have analog computer questions...
This is so cool! Do you know if anyone ever wrote a general-purpose "how to program with mechanical parts" kind of resource? I've seen technical manuals for specific machines (like the navy's Basic Fire Control Mechanisms, OP 1140), but haven't found anything more general.
One excellent encyclopedia of mechanisms is "Mechanisms in Modern Engineering Design", Ivan I. Artobelevsky, USSR Academy of Science. Translated by Nicholas Weinstein. 7 volumes in the Internet Archive at the attached link.
https://mirtitles.org/2018/10/13/mechanisms-in-modern-engine...
Also, Cornell University hosts the Reuleaux Collection of Mechanisms and Machines. They used to have an excellent online resource with descriptions of each mechanism, animations of how they operate, and even downloadable CAD models. But then Web 3.0 happened and static websites were no longer in fashion, so it was taken offline for a refresh which was never completed. There are still some remnants available on archive.org.
https://engineering.library.cornell.edu/kmoddl/
https://mirtitles.org/2018/10/13/mechanisms-in-modern-engine...
Also, Cornell University hosts the Reuleaux Collection of Mechanisms and Machines. They used to have an excellent online resource with descriptions of each mechanism, animations of how they operate, and even downloadable CAD models. But then Web 3.0 happened and static websites were no longer in fashion, so it was taken offline for a refresh which was never completed. There are still some remnants available on archive.org.
https://engineering.library.cornell.edu/kmoddl/
I haven't seen a guide like that, but it would be interesting. It amazes me that they were able to get the CADC to work, since it is a complicated 3-D task to get all the gears to mesh without colliding. Since the gears need to be in particular ratios, there are a lot of constraints. The clearances in the CADC are very tight, by the way. It was hard to reverse-engineer because many gears looked like they meshed, but they didn't quite mesh.
There is Soroka 1954 - Analog methods in computation and simulation. Includes mechanical and electrical analogs
you will enjoy https://507movements.com/
What started your journey into analog computers ?
I remember seeing some navy videos from the 40s explaining self tracking guns (through projected geometry parts) and was so enamoured by it. Since then I found out about hydraulic and pneumatic electromechanic devices.
Also, don't you find that programmers are fighting the imperative / von neumann model to recreate what those machines were ? systems of coupled parts "reacting" to each others (looking at you web world).
I remember seeing some navy videos from the 40s explaining self tracking guns (through projected geometry parts) and was so enamoured by it. Since then I found out about hydraulic and pneumatic electromechanic devices.
Also, don't you find that programmers are fighting the imperative / von neumann model to recreate what those machines were ? systems of coupled parts "reacting" to each others (looking at you web world).
What started my journey? Mainly that a collector gave us this CADC to examine, and it turned out to be more interesting (and complicated) than I expected.
As far as programming models, yes, the imperative model isn't a good fit here. You can think of the CADC as "purely functional" since the outputs are direct functions of the inputs.
As far as programming models, yes, the imperative model isn't a good fit here. You can think of the CADC as "purely functional" since the outputs are direct functions of the inputs.
The kind of article that I read several times to savour it.
The work and skill the original designers and manufacturers must have put into this is awe inspiring. And the work the author put in, what a fantastic job well done!
The work and skill the original designers and manufacturers must have put into this is awe inspiring. And the work the author put in, what a fantastic job well done!
Thanks! Yes, it's amazing what the designers could do with the technology that was available. It's the sort of device that you would think couldn't possibly work, especially when it is experiencing the vibration and forces of a supersonic plane
Not a Bendix expert (but I was stationed at McClellan in the mid-1980s) - I would think that cleanliness and proper lubrication are going to be frequently mentioned. Also I wonder if they had a process to seal the unit up while in a atmosphere chamber. When the diaphragms expand they will be pressing against the air in the unit, so it needs to always be at a known altitude (pressure). The altitude of McClellan Field (KMCC) is 76.8 feet, so outside the tolerance range if they just sealed it up while on the bench.