As an electronics/embedded designer it hurts somewhat to see this beautiful tough MIL-SPEC technology, only manufactured to the highest of standards.... to be running for just a few minutes...
Why do you think our taxes are so high? Kind of remind you of a tea party.... Almost like the USA had become the very things it was founded against being. Because humans are dumb animals and tune into media or social opinions which and tuned by media.
Even if you were the most evil person in existence, and determined to commit war crimes, you wouldn't waste a Jav against noncombatants. It's just too valuable a resource to waste like that.
I am not sure what makes me more surprised: the amount of hig-spec electronic components in that thing, or the fact that this guy got into possession of a missile guidance computer.
You can get everything for money in Ukraine right now. And no, that is not Russia propaganda. Just the reality of war and what happens when a murderous thug attacks his neighbors.
40 years ago I took delivery of a box at my place of business in Belfast. I was expecting a resin sample from a chemical company and the box arrived by conventional courier. Instead it contained multiple carefully packaged cylindrical electronic devices. The address label for my firm had been stuck over the original destination "Short Brothers", a local defence contractor. The contained covering letter revealed the sender to be Graseby Dynamics, an English defence contractor, and the contents were described as the revised design of the Javelin missile warhead firing mechanism. I contacted Shorts and the police. and within 30 minutes my premises were crawling with plain clothes state security. The items were taken away and I was interviewed at some length. Somehow the press got hold of the story and it made the front page of the local paper. My business partner was by coincidence a friend of a department head in Shorts. He later revealed that a government junior minister had lost his job over this, and there had been several individuals severely disciplined both at Shorts and Graseby. I never did get my resin sample.
Working in Northern Ireland during that period must have been quite a mind blowing (no sick pun intended) experience. I was working on the mainland and it was bad enough there if you were a defense government employee.
The Javelin you saw parts for was actually an entirely different missile, a MANPADS developed in the 80's based on (and as a replacement for) the notoriously shit Blowpipe
Be kind to my friend Michel. He is making a great effort to do these videos in English, which is obviously not his native language, so he can share the amazing technology inside all his unusual items with the rest of us. You should give him a pat on the back.
In typical fashion I laughed at the bad joke and I also agree with everyone saying Michel is awesome! Maybe this reveals me as a crass American but I don't see the harm in that kind of ribbing. I laugh whenever I'm reminded my accent sounds funny to Europeans, never thought it should be a sore point for people that we all sound odd from far enough away. I love this kind of content, I'm a huge fan of novel and interesting computers!
Maybe also hold a pressure and temperature probes, since the missile is expected to be used in al sorts of weather and the propellant, the detonators and the double shaped charges might need to be tweaked for very precise timing trigger.
It's probably an orientation sensor so the missile knows which way it is pointing when it can't see the target. The missile trajectory is that it climbs up at a steep angle (in one of the modes of operation) and then pitches down and attacks the tank from above where the armour is thinner, and using infrared targeting. I suspect when the missile is in the climbing phase of its flight, the infrared seeker is not pointing at the target. So in this phase of flight, the infrared seeker head cannot see the target and cannot be used for control and guidance of the missile. The missile needs to know the pitch angle it is currently at so it can then be steered back down towards the target and the infrared seeker will be used to guide the missile in the terminal phase of flight. Just a theory
Hey dave. We'd have no chance ever scoring anything close to something like this in oz, ay? Did you ever get mil spec boards in a mailbag? I vaguely remember something or am i thinking of some high end telecom boards from a mailbag vid.
It's a 1980s design. Everything used was the absolute state of the art at the time, and from what I read there were a lot of problems with it. Even the most modern version has unresolved issues. The biggest part on the board with the DSP is most likely a TMS34010, a general-purpose 32-bit CPU with special graphics instructions which was just going into production back when this was being developed. The IDT parts on a few of the other boards are most certainly dual-port RAMs and the VLSI chips will be custom glue logic.
Hey, overall as I've watched the Ukraine War I have been researching and learning obsessively about every weapon system in existence.... The thing I don't understand is with the advancement of technology, microcontrollers & especially computer vision object tracking available to the market nowadays, wouldn't it be possible to MASS PRODUCE something similar to a javelin for less than $2,000? **(A daytime version at least)? I understand a high-end Mid Wave Thermal IR Image Seeker operating at 60-120FPS would be ITAR restricted & add $10k to the overall cost but, still should not cost more than $15k total today... It seems like most of the cost associated with these guided systems is the software and algorithms....
@@justinhealey-htcohio3798 electronics and cameras did get cheaper over years and you could possibly improvise something with consumer grade parts. However, rest of the missile - gyros, shaped charge, soft launch solid rocket motor, some machined parts, some servos for those fins still do not fit into anything under $2000. And don't forget the control unit ("CLU") which has some good optics to enable targeting from up to 2.5 miles.
Not an expert, but my guess is that at least part of the high cost is related to hardening the electronics and software. Both against environmental conditions and electronic warfare.
@@Jerry_from_analytics Yeah, I've built many different drones (Large and small)... I would have to think that modern consumer grade MCU & MEMS inertial/gyro stabilization IC's Could replace most of the components on the Javelin today. I was really surprised that he said it's a 64x64 image sensor ADC which really isn't that high of resolution by today's standards. It really is extraordinary what they were able to accomplish back in the 1980s...
The "sensor" is a javelin rate gyro probably made by marconi. It contains flourocarbon fluid and gemstone bearings. The pink coating at 6:13 is beryllium oxide and is toxic like asbestos.
ПРО токсичность Асбеста ничего нам неведомо , до сих пор все крыши жилых домов в России сделаны из шифера , где асбест главный компонент , у нас есть даже Город Асбест .
@@МигУдачи There are two types of asbestos, chrysotilly and amphibol, the first is less toxic, and is now used. If it is processed in the speaker, then everything will be fine.
I was qualified in these back in my military days. After discharging I started a career in software engineering. I always wanted to understand the key components in the guidance system. Thank you for this.
I used to work for an avionics contractor. It’s interesting how similar this is to modern hardware … yet also very different. Everything has FPGAs with 16-layer conformal-coated boards. It all has a 1553/1760 bus with expensive parts and a lot of redundancy (compared to consumer stuff). But look at all those ribbon cables and interfaces! In 2007 we were already working on 16Gb fibre interfaces because the F-35 needed the bandwidth. But many years before that we were making missiles with a lot more resistance to EMI than this appears to have. But it’s a funny mix of new and old. I used to have to look up specs in manuals from 1973.
I’ve heard one of the limiting factors now for the F35 is that it’s maxed out in its ability to get rid of all the excess heat created by the avionics/computers. I would bet there’s only so much bleed air from the single jet engine that they’re willing to sacrifice to be used to power & cools all the electronics.
@@TheAlexBell Remember it only has to fly once. On the pictures it looks like the flat cables are covered with tape on the outside of the missile, so there is no drag on them. And the unsupported parts inside the body are probably light enough, with large soldered contact area. The cables also are a lot sturdier than the flimsy things you find in modern laptops and smartphones.
But why would you use FPGA in mass production? I thought that you only do FPGAs for rapid prototyping and after you are sure about the hardware you've emulated, you can just mass produce it instead
@@simongreen9862 plus this is not just all made by 1 person. Typically your average embedded software or hardware guy only has a narrow view into a couple of components that make up such a system. And the system engineer will probably have an overall understanding on how it all fits together but he wouldn't be able to reproduce the product by themselves. It's very much need-to-know basis.
* The pink stuff gluing the metal plate to the carbon fiber body tube is heat transfer paste. * Those large VLSI parts are gate array parts rather than FPGAs. Gate arrays are midway between full-custom parts and FPGAs. VLSI used to make gate array chips where the silicon and maybe 1 or two metal layers were standardized, but the top couple of layers of metal were customized. So for the price of taping out (and making masks for) two metal layers, you could get a part with 100x the gate count of an FPGA, without having to pay the full cost (and manufacturing delay) of a full-custom 3-5 metal layer part. * Hardly any heat sinks! Most of this stuff didn't run long enough to get hot. Must of been a PITA to debug, since it probably got pretty hot during a debug session.
The ‘GA’ in FPGA literally Stan’s for ‘Gate Array’. For cost reasons, it was probably cheaper to reproduce the GA in large numbers with the final configuration once the configuration cleared development and testing.
@@derekedmondson9909 Field Programmable Gate Arrays and Gate Arrays are different technologies. The names are misleading, but what can you do. Gate Arrays are quite a bit less expensive that FPGAs, and use a LOT less power, and are much higher performance. On the flip side, I can reprogram an FPGA in a minute, but a new gate array is... months and at least several hundred thousand dollars.
@@derekedmondson9909 >"reproduce the GA in large numbers with the final configuration once the configuration cleared development and testing" There's a consideration of security as well - it being safer and actually cheaper to program the FPGAs yourself than to manage a secured trust relationship with a 3rd party for that function. Malicious code and hardware injection is a huge and growing problem in the field
@@Coecoo No, still humans. The chips just got smaller. What, you thought boards with tons of chips were designed that way because they looked better and "soulless machines" with no sense of aesthetics took it from us? Obviously what happened was chips got smaller, more powerful, more efficient to the point multiple could be stacked on the same die, that we needed less of them
@@Coecoo More like because the combined power of the entire thing doesn't even hold a candle to a dusty raspberry pi, and less chips = less failure points and less interconnects to manage.
@@cpte3729not entirely humans. Most of the fitting and layout is computer generated because they're much better at optimizing for timing. And they're rarely "stacked", just placed side by side on the same chip interconnected.
@@cpte3729 Nope, completely false. Please do your research before talking nonsense. A solid 90% or more chip designs these days are entirely computer generated. Pretty much the only input human has in their creation are entering parameters for the computers to follow, like designating areas for where cable ports need to be. A large part of the unfeasibility of having human-designed things is large parts thanks to the mainstreaming of multilayered PCBs. Trying to teach humans to efficiently plan out tens of thousands of pathways in a layered 3D structure instead of having a computer do it is wishful thinking at best.
Wow congratulations for this find, currently I have nothing better than Sidewinder rollerons on my watch list ! All the golden parts are space grade quality, all that for a single use device, how wastefull war is.
@@h7qvi All COTS stuff at first glance so really not that exotic. The actual cost to the military includes long term storage/packaging/training and disposal so that bumps the price way up. These thingy have to last for many decades in some drafty storage bunker and they have to survive the g-forces involved in launch all that adds up.
I work on semiconductor manufacturing equipment and appreciate the technology required to make modern ICs.. but lets be honest, nothing is quite as cool as an Apollo guidance computer!
Fascinating, I used to service the launchers (FCE) and training computers (analogue - op amps performing calculus) in the 80s, and it’s predecessor (blowpipe) but never got to see ordinance though 👍
This is the american anti-tank guided missile FGM-148 Javelin, not the British anti-air missile that you serviced. Still, thanks for sharing your story!
I used to work for a precious metal recovery company and can tell you, those gold plated chips and edge connectors make these boards [as with most old military electronics] worth a fortune! Modern boards/chips are gold plated measured in microns... old military equipment were absolutely lacquered in gold
That thick PCB will have loads of circuit tracks, making a reverse engineering project near impossible - but I'm sure someone somewhere will have done that. Great video, thank you Michel.
Sure you can have highly skilled engineers reverse engineer a many years old design, but it might be better to use that talent to design a new device to the latest standards. The magic is really in the software though.
NO need to reverwse engineer anythihng now. Today a 4 man team of decent engineers can achieve in 6 months what this thing was capable of back in the day. There is a TH-camr who managed to propulsively land a model. I'm sure an ATGM would be an easier task for someone with those skills.
Of course! Thats why I have those bits in my mega assortment, the javelin missle screwdriver tips! How could they forget the javelin missle screwdriver bits!
I had a professor that said he worked for a DoD contractor. He said they would calculate the memory requirements by the max memory allocation per second and multiply it by the max possible run time. Memory leak? No problem.
Great video! That was so high end cutting edge stuff and crammed in that, I bet just manufacturing the carbon fiber shell made a few people tens of millions.
Millions yeah, it would be dry fibre wrapped around a mandrel and run through an RTM press that would have been the bulk of the cost and charged up-front to the government. In the 90's / early 2000's they were probably using a template fixture for manual drilling and cutting, rather than CNC. The resin is probably phenolic and the PPE for the manual processing was probably pretty crap
American here with hands on experience in military electronic parts supply (night vision parts specifically). I'd recommend everyone saving this video. Nice on covering the serial too. Theres a dumb law (ITAR) we have that defines electronics (even well known decades old ones) as "arms" and must not be shared with foreign nationals (including allies) unless it has State Dept. approval. Since Google is an American company and we don't own any of what we ever upload, TH-cam may be forced to "bend the knee" to our "competent" (when it wants to be) gov't at some point (if it gets popular enough). Just wanted to point that out. I'm no lawyer but thats what I've always been told. Regardless I like this content. Thank you.
I just wanted to further add that I don't know how sites like "thefirearmsblog" (TFB) gets away with tearing down and showcasing night/thermal/fusion vision devices amongst other things. Ones in current use (AN/PSQ-36s) were clearly "demilled" (literally they drilled the sensors). Older stuff (up to early 2010s) the gov't generally doesn't care for the most part (teardown sites and vids are still up). Heck I found a FWS-I technical manual pdf copy by Googling. But again you never know with both TH-cam and the US gov't. Or just in general (how bout megaupload).
I'm also frequently around defense related electronics, specifically aerospace. This, given it's part of an active system, shouldn't be on the internet. Edit: I should add our adversaries certainly already has some of this stuff(plus the actually useful stuff would be the lines of code), but it's still a dark grey area that would just best be avoided.
Absolutely fascinating. Thank you so much for this video, all the components and board arrangements are typical 90's high tech. My old IBM thinkpads are just like that, full of boards atop other boards full of big custom chips and components. 😊
Sure, but those components are all of military grade, they are built to resist at broader ranges of temperatures....I'm not sure about the specs, but probably they are much better than any retail component of the same period!
Wow. Wow. I am really surprised: 1) u weren't forced to delete this video & all remnants, & 2) u weren't arrested for sharing this video on YT. I can only imagine the personal contacts u must have. Thanks for sharing. It's been fascinating to get a glimpse of guidance section of a freaking javelin. Wow.
Huh? This item is from the late 1990s and as far as Wikipedia goes the system debuted 1996. 32-bit 386 came to market 1985, way more powerful than the 286.
Very interesting, thanks a lot for posting! "You must ensure the missile goes to the target and not in your garden." - made my day=) I am curious about Part 2, and yes, I'd love an analysis / deep dive into the 64x64 Infrared Imaging Sensor and ADC specifically. Essentially, the sensors first stage. Maybe some aspects of the actors section as well. 330MOPS, 60MFLOPS in the DSP .. ok;) FPGAs proc power .. no idea. I guess all the processing magic will be buried in the bitstreams (ROMs, FPGAs, DSPs ..), hard to extract or analyze, so I'm not waiting for a Javelin emulator for Android soon;)
I've been watching your channel for a few years and it looks like this video really took off for you. Glad to see it and hope it brings you the subs and views you deserve.
beautiful analysis. not just the time to design the hardware, but imagine the time it took to write and validate all that code -> DSPs/fpga/etc. - for something that lives a few minutes, if that.
yeah like how a human is born, lives for 20 or so years, trains to be a solder and then can be dead within a few minutes when this is fired at them. Whats more sad, the loss of this beautiful hardware or the human life?
Et toi tu gobes. On est sur youtube mec, en 2023 on peut modifier le visage, la voix, les images. S'il y avait 0.01% de chances que ce soit vrai il n'y aurait pas moyen de le prouver
I've wanted a peek inside a Javelin for years, very nice. Perhaps it was explained and I missed it, why are there ribbon cables extending out of the side of the airframe? Is it perhaps a testing/debug model?
You can see on the picture of the complete missile at 01:00 these ribbon cables. I think it is easier for manufacturing than using connectors inside the missile.
@@NonEuclideanTacoCannon I have an empty fuselage section of a Super 530 missile, it also have holes for routing wires in channels outside the main body.
@@msylvain59 Come to think of it, space rockets use an external raceway for cables, too. It just didn't occur to me that smaller rockets would be the same for some reason.
@@NonEuclideanTacoCannon The warhead is clearly a shaped charge and since it's behind the guidance electronics, part of it's purpose is that it will totally destroy the guidance electronics when it detonates, the shockwave and hot gasses are all directed forward by the shaped charge and the vaporised electronics form part of the extremely hot gasses the punch holes in the target. I can't help thinking that this is doubtless still classified in at least some western nations, I'm surprised you were in fact able to get your hands on it.
Really cool to see one of these up close. Thanks for the video... I won't ask where it came from. (Honestly, it may have had a flaw in it, hence why it still exist. )
Great video - as always! This breakthrough digital technology is not as fun to reverse engineer as analog technology. What's surprising is that the main shaped charge and engine are so small. Gryroscope - what I can tell you - go for it.
Many thanks for the video. Beside electronics made to highest standards, the most interesting part is the cost of the missile at around $78,000, that's incredibly high for such part made in series of tens of thousands or more. So this is how weapons manufacturers and lobby get extremely rich.
Ich bin Eloka und Funkamateur. Ich finde diese Technik echt unglaublich interessant. Aktive Radar Steuerung, militärisches GPS, Wärmebild Auswertung, Flugsteuerung, ein Speicher für die Flug-Map.
The missile knows where it is at all times. It knows this because it knows where it isn't. By subtracting where it is from where it isn't, or where it isn't from where it is - whichever is greater - it obtains a difference or deviation. The guidance subsystem uses deviations to generate corrective commands to drive the missile from a position where it is to a position where it isn't, and arriving at a position that it wasn't, it now is. Consequently, the position where it is is now the position that it wasn't, and if follows that the position that it was is now the position that it isn't. In the event that the position that the position that it is in is not the position that it wasn't, the system has acquired a variation. The variation being the difference between where the missile is and where it wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computer scenario works as follows: Because a variation has modified some of the information that the missile has obtained, it is not sure just where it is. However, it is sure where it isn't, within reason, and it know where it was. It now subtracts where it should be from where it wasn't, or vice versa. And by differentiating this from the algebraic sum of where it shouldn't be and where it was, it is able to obtain the deviation and its variation, which is called error.
Kraang 1: The ones in this place are not in this place where they were. Kraang 2: The ones are called Ninja Turtles. They are dangerous to what we are doing in this place and other places. Kraang 1: Yes. I have knowledge of that. The Turtles must be eliminated from all places.
Such an amazing find! There’s actual real gold in those components! Amazing stuff; the components look like mil-spec radiation hardened devices, like the same components you’d use that makes up a rover to be sent off to Mars! No expense spared in this unit (because…thank you tax payers!). However, it’s a shame all of the engineering put into that, along with extremely expensive components…to exist as a single-use subassembly!
The components in here are not extremely expensive at all. The chips and electronics are dirt cheep. The reason why these things cost over $100,000 is because it's a problem that the department of defense has been dealing with for a long time. It's called price gouging! You see these missiles probably cost anywhere from 5000 to 10000 to make. But they're going to sell it for hundreds of thousands of dollars because they set the price and they know that the governments going to pay up. The Pentagon gets priced gouged on everything, from office supplies toilet paper to missiles. We're talking about pins that cost less than a dollar getting charged $80 per pin and over $100 a toilet roll. Lockheed Martin, Raytheon, Boeing, Northrop, Textron and more. All of them price gouge the hell out of the taxpayers it's the biggest scam nobody ever talks about. It's basically why we have to pump so much damn money into defense because the United States it's basically getting scammed by United States companys.
@@patman0250 Don't be so dense. The reason they cost 100k is because the 'cost' of the weapon is far higher than just the bill of materials and labor to assemble them. They're not selling flatpack chairs here.
Very interesting. For me the most valuable parts at the OMA2541 op amps. You can make a linear power supply or an audio amp with them. All other transistors and op amps can be reused for linear applications. They are high quality for sure.
Yeah, avoid opening them though! The BeO label is probably a warning: some of those TO-3 can packages are filled with a heat-sink compound. Beryllium oxide is a high performance one.
@@BigSmartArmed It doesn't look like it was fired at all. Considering it was manufactured in 98, I'm guessing it was rescued from a military weapons destruction dump.
@@BigSmartArmed Well, that is a sample picture from Google. The one he has is not the same as the one in the picture. Besides, the Pentagon generally has a 10-15 year shelf life on these missiles which indicates that what I said earlier was probably right considering the date of manufacture. I would bank more on it being decommissioned.
Montés sur la plaque alu centrale, le cylindre que tu observais et dont il y a l'air d'y avoir un équivalent monté à l'horizontale également, m'a l'air d'être un élément de centrale inertielle. Un p'tit moteur à la vitesse bien contrôlée et dont les écarts mesurés doivent permettre de calculer les écarts de position en rapport avec la trajectoire programmée du missile. Belle électronique !
C’est effectivement un gyroscope de variation angulaire mais il n’y en a qu’un, l’autre machin n’est qu’un cylindre en métal, peut-être un contrepoids.
Neat to see. I've been curious to see the electronics as well as what makes them so expensive. (As a side note, as an American, I don't know if I could have made this video without a knock on the door, or being put on some list 😛)
Smart design to have the charges burn through the electronic guidance and triggers fractions of seconds before the target gets it. Liquidate the most sensitive technology, in the primary action.
@@BigSmartArmed How do you know that? I'd expect a fully built one to have conformal coatings and stuff fixed better. Maybe this is a prototype or some engineering model instead of a live round.
Hello Michael, Do you think you can do a presentation of old EGPWS from Airbus? Also all callouts of the FWC Flight Warning Computer. May be you can get in contact with Airbus in Toulouse and they can send you one or may be more modules for free for education purposes.
@@lelabodemichel5162 At 10:54 what is the thing in the bottom left side of the aluminum bulkhead? It looks like another sensor (same cylindrical shape).
That "multi sensor" gyro is likely ITAR grade! I looked up the Emcore price list for NON-ITAR grade fiber optic gyro cylinders. the high end is ~$45K for ONE, if you buy 200+ quantity they will give you discount to ~$35K each. (non-ITAR)
Given the comments on this video, it really seems like when you make videos of this kind, you HAVE TO include a lot of disclaimers, at the very beginning, to let people know that this device is very old and doesn't contain anything sensitive that could be of interest to unfriendly nations. Otherwise, you'll get a lot of people reporting you to various authorities that could potentially make your life difficult depending on who investigates it (traveling to the US and being held up for a while etc). Obviously none of this is sensitive, but authorities can still go through their "due process" and their mistakes/misunderstandings can become your future problems. Federal government mistakes can take a very long time to correct. Simply DURING an investigation, you'll be on a watch list. As you know, government investigations can take years to complete, so there is that angle as well. Basically, it's probably not worth posting this type of content, despite the "cool factor"..... the comments made me re-think posting videos about some of my stuff as well. The more popular a video like this becomes, the more uninformed/ignorant people you're going to get in the comments. Even today, there are a bunch of somewhat modern missile PCB parts (from MBDA iirc) on sale for ebay, with FPGAs etc, which have been on there for years haha. No one recognizes them, so that's that. Lots of stuff leaks out in strange ways, unfortunately. I don't want to risk my own industry standing by getting involved, like most people... I've always loved your French accent, it sounds very pleasant!
You watching too much holywood crap movies. The fact the the video itself is on TH-cam is the proof that nobody care about thoses old junk. For theses califonians oligarchs the word niger is way much dangerous than a javelin.
Nowadays export controls are quite strict, trade has become too transparent for government agencies. In the old days, we sold the sensors from the US and French missiles to a Russian military institute and no one cared.
This likely is a design prototype or a manfacturing functional test technician training model, that someone had secretly kept in their garage for decades.
Why do you think that? The easiest explanation is that in the poorest country in Europe, people can take stuff meant for war and mark it as used and sell it afterwards. Not a jab at Ukraine, just the simplest explanation.
I think you are right. 1. The umbilical cable is intact, so this cannot possibly be from a dud. 2. None of the cables are creased like they would have been after being folded when the complete missile is assembled.
@@colombianguy8194thats pretty slow for a 64 x 64 display makes you wonder about all the equipment in service now, outdated and not as good as people think it is.
The warhead is behind the electronics for having the best penetration distance without needing a probe as with previous generation missiles that had the warhead in the front.
Now I understand how that military chip manufacturer was able to create their own graphics card 3DFX out of nowhere and bring it to market. These missiles are basically flying webcams with video processors on them guiding the missile to the infrared/heat target.
@hakimmohamad6216 because it's not true lol. i think the only graphics card that was a result of military development was the intel i740 which was actually a joint project with lockheed martin and an outgrowth of their simulation systems, but it was really shit. SGI (where the 3dfx team originated) didn't make military hardware either
Wow that Missle must have been veryyy close to its expatriation date. The style of TI-Gold cap chips - Do they still use those on modern military systems? Those chips, the VLSI glue logic on the rear - perhaps this missile was manufactured in the 1990s - it does not have that many modern components inside it which is probably why this video still exists. The sensor I think is a proximity fuse. I love military electronics, its a thing of beauty
Thank-you. Great teardown vid. The boards and basemount IC's appear to be more modern than '80's vintage. The metal (non-ferrous?) bulkhead is both a heatsink for the opamps, trim ballast and eventually part of the EFP jet? The metal cylinder appears to be either a proton precession magnetometer or magnetic induction sensor for detecting proximity to the target vehicle. BTW: See if you scratch a few spare chips for the Ivans to keep their wash-machines spinning. All the best from Namibia.
As an electronics/embedded designer it hurts somewhat to see this beautiful tough MIL-SPEC technology, only manufactured to the highest of standards.... to be running for just a few minutes...
I was thinking that, too. Only has to work once!
Why do you think our taxes are so high? Kind of remind you of a tea party.... Almost like the USA had become the very things it was founded against being. Because humans are dumb animals and tune into media or social opinions which and tuned by media.
@@andreyukhov9403 Or it kills innocent people.
Even if you were the most evil person in existence, and determined to commit war crimes, you wouldn't waste a Jav against noncombatants. It's just too valuable a resource to waste like that.
@-_a-a_- ?
I am not sure what makes me more surprised: the amount of hig-spec electronic components in that thing, or the fact that this guy got into possession of a missile guidance computer.
@weirdscience2911 russian propaganda
@@nawnaw4709 putin huilo
You can get everything for money in Ukraine right now.
And no, that is not Russia propaganda. Just the reality of war and what happens when a murderous thug attacks his neighbors.
@@casel4154 Ucraine war is pushed, wanted and needed just by the US. All the rest is NATO propaganda.
@weirdscience2911 keep cope, dude
40 years ago I took delivery of a box at my place of business in Belfast. I was expecting a resin sample from a chemical company and the box arrived by conventional courier. Instead it contained multiple carefully packaged cylindrical electronic devices. The address label for my firm had been stuck over the original destination "Short Brothers", a local defence contractor. The contained covering letter revealed the sender to be Graseby Dynamics, an English defence contractor, and the contents were described as the revised design of the Javelin missile warhead firing mechanism. I contacted Shorts and the police. and within 30 minutes my premises were crawling with plain clothes state security. The items were taken away and I was interviewed at some length. Somehow the press got hold of the story and it made the front page of the local paper. My business partner was by coincidence a friend of a department head in Shorts. He later revealed that a government junior minister had lost his job over this, and there had been several individuals severely disciplined both at Shorts and Graseby. I never did get my resin sample.
Ever checked if one of those contractors had the resin sample? :)
You could make a better deal, if you called Russian embassy instead.
the last sentence really bites :-)
Working in Northern Ireland during that period must have been quite a mind blowing (no sick pun intended) experience. I was working on the mainland and it was bad enough there if you were a defense government employee.
The Javelin you saw parts for was actually an entirely different missile, a MANPADS developed in the 80's based on (and as a replacement for) the notoriously shit Blowpipe
This guy is a genius. Not only is he a great engineer, he is also the inventor of the French accent!
He speaks English because you know this language.
You speak it because it's the only one you know.
@@marinoceccotti9155 Seems like you took that (bad) joke a bit too personally.
He will likely just laugh in your general direction, while tapping his head and calling you silly.
Be kind to my friend Michel. He is making a great effort to do these videos in English, which is obviously not his native language, so he can share the amazing technology inside all his unusual items with the rest of us. You should give him a pat on the back.
In typical fashion I laughed at the bad joke and I also agree with everyone saying Michel is awesome! Maybe this reveals me as a crass American but I don't see the harm in that kind of ribbing. I laugh whenever I'm reminded my accent sounds funny to Europeans, never thought it should be a sore point for people that we all sound odd from far enough away. I love this kind of content, I'm a huge fan of novel and interesting computers!
"These are very rare. If you find one, you have to pay the price." But you pay an even greater price if one finds you.
Damn, I was about to say that XD
pay him even greater price and ask him to withdraw this so that you can say it again :) @@fridaycaliforniaa236
Lol👍
Javelin is so powerful weapon so the Ukrainian has to use Chinese drone to deliver it's warhead
@@sallehsallehnewton3258 Cavemen given muskets would use them as clubs...
wow! Crazy expensive stuff. Definitely open the sensor - I assume it's a gyro/accelerometer of some sort
Maybe also hold a pressure and temperature probes, since the missile is expected to be used in al sorts of weather and the propellant, the detonators and the double shaped charges might need to be tweaked for very precise timing trigger.
If Mike says waw...🤗
Looking forward for next part.
Thank you.
Maybe it would be reasonable to try to CT scan the sensor in a vet clinic before destroying it
It's probably an orientation sensor so the missile knows which way it is pointing when it can't see the target.
The missile trajectory is that it climbs up at a steep angle (in one of the modes of operation) and then pitches down and attacks the tank from above where the armour is thinner, and using infrared targeting.
I suspect when the missile is in the climbing phase of its flight, the infrared seeker is not pointing at the target. So in this phase of flight, the infrared seeker head cannot see the target and cannot be used for control and guidance of the missile.
The missile needs to know the pitch angle it is currently at so it can then be steered back down towards the target and the infrared seeker will be used to guide the missile in the terminal phase of flight.
Just a theory
Hello do you still have your work on the flir lepton ?
Wow, great teardown, thanks for sharing.
Hey dave. We'd have no chance ever scoring anything close to something like this in oz, ay? Did you ever get mil spec boards in a mailbag? I vaguely remember something or am i thinking of some high end telecom boards from a mailbag vid.
@EEVblog hi dave like to see ur version of this 😁😁
@@anandasri1330 this would never make it through Australian customs.never.
@@yaghiyahbrenner8902 ship in pieces
I hope he gives it to you for free for 2nd tear down. You can get it working and send it to the sky
It's a 1980s design. Everything used was the absolute state of the art at the time, and from what I read there were a lot of problems with it. Even the most modern version has unresolved issues. The biggest part on the board with the DSP is most likely a TMS34010, a general-purpose 32-bit CPU with special graphics instructions which was just going into production back when this was being developed. The IDT parts on a few of the other boards are most certainly dual-port RAMs and the VLSI chips will be custom glue logic.
Hey, overall as I've watched the Ukraine War I have been researching and learning obsessively about every weapon system in existence....
The thing I don't understand is with the advancement of technology, microcontrollers & especially computer vision object tracking available to the market nowadays, wouldn't it be possible to MASS PRODUCE something similar to a javelin for less than $2,000? **(A daytime version at least)?
I understand a high-end Mid Wave Thermal IR Image Seeker operating at 60-120FPS would be ITAR restricted & add $10k to the overall cost but, still should not cost more than $15k total today...
It seems like most of the cost associated with these guided systems is the software and algorithms....
@@justinhealey-htcohio3798 electronics and cameras did get cheaper over years and you could possibly improvise something with consumer grade parts. However, rest of the missile - gyros, shaped charge, soft launch solid rocket motor, some machined parts, some servos for those fins still do not fit into anything under $2000. And don't forget the control unit ("CLU") which has some good optics to enable targeting from up to 2.5 miles.
Not an expert, but my guess is that at least part of the high cost is related to hardening the electronics and software. Both against environmental conditions and electronic warfare.
@@Jerry_from_analytics Yeah, I've built many different drones (Large and small)... I would have to think that modern consumer grade MCU & MEMS inertial/gyro stabilization IC's Could replace most of the components on the Javelin today.
I was really surprised that he said it's a 64x64 image sensor ADC which really isn't that high of resolution by today's standards.
It really is extraordinary what they were able to accomplish back in the 1980s...
Date of manufacture on at least the big quads is 1997, so I’d guess it’s an early 90s design at the latest?
The "sensor" is a javelin rate gyro probably made by marconi. It contains flourocarbon fluid and gemstone bearings.
The pink coating at 6:13 is beryllium oxide and is toxic like asbestos.
ПРО токсичность Асбеста ничего нам неведомо , до сих пор все крыши жилых домов в России сделаны из шифера , где асбест главный компонент , у нас есть даже Город Асбест .
@@МигУдачи wtf are you saying it's been proven since ages that asbestos is cancer (pun intended)
私があなたのコメントを読むと思ったら大間違いでした。@@МигУдачи
how do you know it is made of beryllium?
@@МигУдачи There are two types of asbestos, chrysotilly and amphibol, the first is less toxic, and is now used. If it is processed in the speaker, then everything will be fine.
I was qualified in these back in my military days. After discharging I started a career in software engineering. I always wanted to understand the key components in the guidance system. Thank you for this.
I used to work for an avionics contractor. It’s interesting how similar this is to modern hardware … yet also very different. Everything has FPGAs with 16-layer conformal-coated boards. It all has a 1553/1760 bus with expensive parts and a lot of redundancy (compared to consumer stuff). But look at all those ribbon cables and interfaces! In 2007 we were already working on 16Gb fibre interfaces because the F-35 needed the bandwidth. But many years before that we were making missiles with a lot more resistance to EMI than this appears to have. But it’s a funny mix of new and old. I used to have to look up specs in manuals from 1973.
I was surprised by these ribbon cables too. Aren't they vulnerable to acceleration overload?
That’s really interesting. 👍 Thanks for sharing.
I’ve heard one of the limiting factors now for the F35 is that it’s maxed out in its ability to get rid of all the excess heat created by the avionics/computers. I would bet there’s only so much bleed air from the single jet engine that they’re willing to sacrifice to be used to power & cools all the electronics.
@@TheAlexBell Remember it only has to fly once. On the pictures it looks like the flat cables are covered with tape on the outside of the missile, so there is no drag on them. And the unsupported parts inside the body are probably light enough, with large soldered contact area. The cables also are a lot sturdier than the flimsy things you find in modern laptops and smartphones.
But why would you use FPGA in mass production? I thought that you only do FPGAs for rapid prototyping and after you are sure about the hardware you've emulated, you can just mass produce it instead
A rare glimpse into a marvel of engineering that few people can ever truly appreciate. Please, do more of these!
And anyone who DOES get to fully appreciate it, doesn't get to do so for very long.
@@simongreen9862 plus this is not just all made by 1 person. Typically your average embedded software or hardware guy only has a narrow view into a couple of components that make up such a system. And the system engineer will probably have an overall understanding on how it all fits together but he wouldn't be able to reproduce the product by themselves. It's very much need-to-know basis.
* The pink stuff gluing the metal plate to the carbon fiber body tube is heat transfer paste.
* Those large VLSI parts are gate array parts rather than FPGAs. Gate arrays are midway between full-custom parts and FPGAs. VLSI used to make gate array chips where the silicon and maybe 1 or two metal layers were standardized, but the top couple of layers of metal were customized. So for the price of taping out (and making masks for) two metal layers, you could get a part with 100x the gate count of an FPGA, without having to pay the full cost (and manufacturing delay) of a full-custom 3-5 metal layer part.
* Hardly any heat sinks! Most of this stuff didn't run long enough to get hot. Must of been a PITA to debug, since it probably got pretty hot during a debug session.
Submerge in mineral oil and do the debugging🤣
The ‘GA’ in FPGA literally Stan’s for ‘Gate Array’. For cost reasons, it was probably cheaper to reproduce the GA in large numbers with the final configuration once the configuration cleared development and testing.
@@derekedmondson9909 Field Programmable Gate Arrays and Gate Arrays are different technologies. The names are misleading, but what can you do.
Gate Arrays are quite a bit less expensive that FPGAs, and use a LOT less power, and are much higher performance. On the flip side, I can reprogram an FPGA in a minute, but a new gate array is... months and at least several hundred thousand dollars.
@@derekedmondson9909 >"reproduce the GA in large numbers with the final configuration once the configuration cleared development and testing"
There's a consideration of security as well - it being safer and actually cheaper to program the FPGAs yourself than to manage a secured trust relationship with a 3rd party for that function. Malicious code and hardware injection is a huge and growing problem in the field
Random but aesthetically I really love the big multi-chip era of computer hardware. Just looks so interesting.
That's because they were designed by humans and not computers back then.
@@Coecoo
No, still humans. The chips just got smaller. What, you thought boards with tons of chips were designed that way because they looked better and "soulless machines" with no sense of aesthetics took it from us? Obviously what happened was chips got smaller, more powerful, more efficient to the point multiple could be stacked on the same die, that we needed less of them
@@Coecoo More like because the combined power of the entire thing doesn't even hold a candle to a dusty raspberry pi, and less chips = less failure points and less interconnects to manage.
@@cpte3729not entirely humans. Most of the fitting and layout is computer generated because they're much better at optimizing for timing.
And they're rarely "stacked", just placed side by side on the same chip interconnected.
@@cpte3729 Nope, completely false. Please do your research before talking nonsense.
A solid 90% or more chip designs these days are entirely computer generated. Pretty much the only input human has in their creation are entering parameters for the computers to follow, like designating areas for where cable ports need to be.
A large part of the unfeasibility of having human-designed things is large parts thanks to the mainstreaming of multilayered PCBs. Trying to teach humans to efficiently plan out tens of thousands of pathways in a layered 3D structure instead of having a computer do it is wishful thinking at best.
This really proves that the missile knows where it is.
and where it isn't
@@PeechaLaCosh The javelin is self-guiding.
That missile was recovered after it was fired and it missed.
@@BigSmartArmed No. It would be in small pieces if that happened.
I don't think we're in Keiv, anymore, Toto.
Wow congratulations for this find, currently I have nothing better than Sidewinder rollerons on my watch list ! All the golden parts are space grade quality, all that for a single use device, how wastefull war is.
Hey war is all about the gold plated military grade toilet seat 🚽 on the taxpayer's dime 😅
The cost of the targets this missile is launched to is a lot higher than the actual missile.
@@h7qvi All COTS stuff at first glance so really not that exotic. The actual cost to the military includes long term storage/packaging/training and disposal so that bumps the price way up. These thingy have to last for many decades in some drafty storage bunker and they have to survive the g-forces involved in launch all that adds up.
@@DelyanT So it's even more wasteful, in that case. Or perhaps that's what you meant.
Yeah, think about how much we wasted stopping the holocaust! Jeez. Sometimes war has it's place.
Nice find Michel. When only the best will do. Impressive electronics board and mini IMU!
I work on semiconductor manufacturing equipment and appreciate the technology required to make modern ICs.. but lets be honest, nothing is quite as cool as an Apollo guidance computer!
Very impressive. I love the aesthetic of purple ceramic and gold top ICs.
Beautiful circuits. Never thought a missile would carry this level of sophisticated electronics.
Fascinating, I used to service the launchers (FCE) and training computers (analogue - op amps performing calculus) in the 80s, and it’s predecessor (blowpipe) but never got to see ordinance though 👍
This is the american anti-tank guided missile FGM-148 Javelin, not the British anti-air missile that you serviced. Still, thanks for sharing your story!
@@supersarge24 Jav is used by the UK as well so that's probably why he said that
As always awesome teardown and explanation Michel.
Is there a possibility to shot some good resolution photos of the entire board.
I used to work for a precious metal recovery company and can tell you, those gold plated chips and edge connectors make these boards [as with most old military electronics] worth a fortune!
Modern boards/chips are gold plated measured in microns... old military equipment were absolutely lacquered in gold
i can imagine some Ukrainian guy firing the missile, then running at the speed of sound out his trench with a butterfly net.
why use gold anyway?
To protect from rust or?? we have stainless steel, a lot cheaper. I dont see the reason to use gold.
whats the point?
@@jw200 if you are using modern, expensive munitions, you need to make sure they work with no chance of failure.
@@jw200gold is much more conductive than ss
I'm french and i understand perfectly what you say in english. Curious. Thanks for the video, it's so beautiful !
Merci mon ami!
The guidance section on it's own is not regarded to be a weapon,
but the seeker section is !
Tbh this is the kind of content i watch youtube for
That thick PCB will have loads of circuit tracks, making a reverse engineering project near impossible - but I'm sure someone somewhere will have done that. Great video, thank you Michel.
What’s a circuit track?
Not really an obstacle for a vacuum plate and a precision surface grinder. Take it down layer-by-layer and take pics.
Don`t underestimate the patience of a Chinese
Sure you can have highly skilled engineers reverse engineer a many years old design, but it might be better to use that talent to design a new device to the latest standards. The magic is really in the software though.
NO need to reverwse engineer anythihng now. Today a 4 man team of decent engineers can achieve in 6 months what this thing was capable of back in the day. There is a TH-camr who managed to propulsively land a model. I'm sure an ATGM would be an easier task for someone with those skills.
Of course! Thats why I have those bits in my mega assortment, the javelin missle screwdriver tips! How could they forget the javelin missle screwdriver bits!
It's in my cart as we speak. Don't forget to order it as a high security type so you have the hole in the middle.
Same screws (Torq-set) are also on TOW missile airframe
What a great find Michel! well done, Isn't it sad all that beautiful engineering for a destructive cause
So calculations on this whole board had to be faster than the missile itself. Quite impressive for that era.
Best Amazon product unboxing ever.
I had a professor that said he worked for a DoD contractor. He said they would calculate the memory requirements by the max memory allocation per second and multiply it by the max possible run time.
Memory leak? No problem.
I work in aerospace and there’s no such thing as a memory leak because dynamic memory allocation is forbidden
Great video! That was so high end cutting edge stuff and crammed in that, I bet just manufacturing the carbon fiber shell made a few people tens of millions.
Millions yeah, it would be dry fibre wrapped around a mandrel and run through an RTM press that would have been the bulk of the cost and charged up-front to the government. In the 90's / early 2000's they were probably using a template fixture for manual drilling and cutting, rather than CNC. The resin is probably phenolic and the PPE for the manual processing was probably pretty crap
American here with hands on experience in military electronic parts supply (night vision parts specifically). I'd recommend everyone saving this video. Nice on covering the serial too. Theres a dumb law (ITAR) we have that defines electronics (even well known decades old ones) as "arms" and must not be shared with foreign nationals (including allies) unless it has State Dept. approval. Since Google is an American company and we don't own any of what we ever upload, TH-cam may be forced to "bend the knee" to our "competent" (when it wants to be) gov't at some point (if it gets popular enough). Just wanted to point that out. I'm no lawyer but thats what I've always been told. Regardless I like this content. Thank you.
I just wanted to further add that I don't know how sites like "thefirearmsblog" (TFB) gets away with tearing down and showcasing night/thermal/fusion vision devices amongst other things. Ones in current use (AN/PSQ-36s) were clearly "demilled" (literally they drilled the sensors). Older stuff (up to early 2010s) the gov't generally doesn't care for the most part (teardown sites and vids are still up). Heck I found a FWS-I technical manual pdf copy by Googling. But again you never know with both TH-cam and the US gov't. Or just in general (how bout megaupload).
I was looking for coments on this topic. That was my first thought when I saw the title. I hope he will not be travelling to the US ;)
ITAR isnt dumb jealous one.
I'm also frequently around defense related electronics, specifically aerospace. This, given it's part of an active system, shouldn't be on the internet.
Edit: I should add our adversaries certainly already has some of this stuff(plus the actually useful stuff would be the lines of code), but it's still a dark grey area that would just best be avoided.
@@valrabellkeys9867 yep this is a very bad idea.
Purée ! C'est de la belle électronique ! Ce sont des bijoux ! Merci pour le partage !
Absolutely fascinating. Thank you so much for this video, all the components and board arrangements are typical 90's high tech. My old IBM thinkpads are just like that, full of boards atop other boards full of big custom chips and components. 😊
Sure, but those components are all of military grade, they are built to resist at broader ranges of temperatures....I'm not sure about the specs, but probably they are much better than any retail component of the same period!
Wow. Wow. I am really surprised: 1) u weren't forced to delete this video & all remnants, & 2) u weren't arrested for sharing this video on YT. I can only imagine the personal contacts u must have. Thanks for sharing. It's been fascinating to get a glimpse of guidance section of a freaking javelin. Wow.
This thing is 40 years old!
Imagine all this is made at the same time as consumers were able to first time see a 16bit Intel 286 CPU.
Huh? This item is from the late 1990s and as far as Wikipedia goes the system debuted 1996. 32-bit 386 came to market 1985, way more powerful than the 286.
@@benbaselet2026 you could be right, my understanding was this is 80’s tech and the 286 was release in early 80’s, so that was my thought process.
Very interesting, thanks a lot for posting! "You must ensure the missile goes to the target and not in your garden." - made my day=) I am curious about Part 2, and yes, I'd love an analysis / deep dive into the 64x64 Infrared Imaging Sensor and ADC specifically. Essentially, the sensors first stage. Maybe some aspects of the actors section as well. 330MOPS, 60MFLOPS in the DSP .. ok;) FPGAs proc power .. no idea. I guess all the processing magic will be buried in the bitstreams (ROMs, FPGAs, DSPs ..), hard to extract or analyze, so I'm not waiting for a Javelin emulator for Android soon;)
I've been watching your channel for a few years and it looks like this video really took off for you. Glad to see it and hope it brings you the subs and views you deserve.
OMG, it is so interesting. so brilliant design! looking forward to seeing inside the gyro sensor too. thanks.
Ta chaine est juste extraordinaire ! Merci pour ce bijou ! ^_^
This is 40 year old weapons made back when the USSR was collapsing.
beautiful analysis. not just the time to design the hardware, but imagine the time it took to write and validate all that code -> DSPs/fpga/etc. - for something that lives a few minutes, if that.
yeah like how a human is born, lives for 20 or so years, trains to be a solder and then can be dead within a few minutes when this is fired at them. Whats more sad, the loss of this beautiful hardware or the human life?
@@kspau13Depends on the particular human..
@@benbaselet2026 I don't think anyone serving in the military deserves to die.
@@kspau13 We will then just have to agree to disagree on this one.
c'est juste dingue de trouver de tels appareils , un grand merci pour le partage c'est toujours un grand plaisir.
Et toi tu gobes. On est sur youtube mec, en 2023 on peut modifier le visage, la voix, les images. S'il y avait 0.01% de chances que ce soit vrai il n'y aurait pas moyen de le prouver
I've wanted a peek inside a Javelin for years, very nice. Perhaps it was explained and I missed it, why are there ribbon cables extending out of the side of the airframe? Is it perhaps a testing/debug model?
You can see on the picture of the complete missile at 01:00 these ribbon cables. I think it is easier for manufacturing than using connectors inside the missile.
@@lelabodemichel5162 Oh I see now. I suppose the warhead fills the entire volume inside of that next segment.
@@NonEuclideanTacoCannon I have an empty fuselage section of a Super 530 missile, it also have holes for routing wires in channels outside the main body.
@@msylvain59 Come to think of it, space rockets use an external raceway for cables, too. It just didn't occur to me that smaller rockets would be the same for some reason.
@@NonEuclideanTacoCannon The warhead is clearly a shaped charge and since it's behind the guidance electronics, part of it's purpose is that it will totally destroy the guidance electronics when it detonates, the shockwave and hot gasses are all directed forward by the shaped charge and the vaporised electronics form part of the extremely hot gasses the punch holes in the target. I can't help thinking that this is doubtless still classified in at least some western nations, I'm surprised you were in fact able to get your hands on it.
I love your Accent! and very interesting video, this is something very unusual to see. and a great find indeed!
thank you, Mon ame! 😀
So interesting the flat cables are just on the outside like that.
I am amazed you got this fella to tear down.
impotant question is "can it run doom?"
It can distribute Doom.
I can recognize that at it least it is not "but does it run Windows?"
it should be "can it run crysis?".oh!! man, "'can it run doom'" is a insult to this guidance computer & its computing capability!!!
@@riajhasib8810Well… Doom was launched at the end of ‘93 and if this is an 80s design I’d say it would be hard to run Doom on it. My two cents…
It can spell Doom.
It's amazing the design details and electronics package that goes into these missiles to support their very, very brief operational life!
depressing how much effort and complexity we put into weapons of destruction
Really cool to see one of these up close. Thanks for the video... I won't ask where it came from. (Honestly, it may have had a flaw in it, hence why it still exist. )
Great video - as always! This breakthrough digital technology is not as fun to reverse engineer as analog technology. What's surprising is that the main shaped charge and engine are so small. Gryroscope - what I can tell you - go for it.
ur not going too
wow ! thanks for taking the time to show us this - really fascinating
The missile knows where it is at all times
Only because it knows where it isn't at all times
It's a piece of art for electronics engineers.
Many thanks for the video. Beside electronics made to highest standards, the most interesting part is the cost of the missile at around $78,000, that's incredibly high for such part made in series of tens of thousands or more. So this is how weapons manufacturers and lobby get extremely rich.
You are forgetting R&D costs…
@@M3ntalMaze Serial production with some updates...
i really enjoyed this. thank you Michel
really makes one wonder what's it doing with all that stuff! some super nice boardds though
Ich bin Eloka und Funkamateur. Ich finde diese Technik echt unglaublich interessant. Aktive Radar Steuerung, militärisches GPS, Wärmebild Auswertung, Flugsteuerung, ein Speicher für die Flug-Map.
The missile knows where it is at all times. It knows this because it knows where it isn't. By subtracting where it is from where it isn't, or where it isn't from where it is - whichever is greater - it obtains a difference or deviation. The guidance subsystem uses deviations to generate corrective commands to drive the missile from a position where it is to a position where it isn't, and arriving at a position that it wasn't, it now is. Consequently, the position where it is is now the position that it wasn't, and if follows that the position that it was is now the position that it isn't. In the event that the position that the position that it is in is not the position that it wasn't, the system has acquired a variation. The variation being the difference between where the missile is and where it wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the missile must also know where it was. The missile guidance computer scenario works as follows: Because a variation has modified some of the information that the missile has obtained, it is not sure just where it is. However, it is sure where it isn't, within reason, and it know where it was. It now subtracts where it should be from where it wasn't, or vice versa. And by differentiating this from the algebraic sum of where it shouldn't be and where it was, it is able to obtain the deviation and its variation, which is called error.
sounds too smart
I knew you knew something that I thought I knew but I didn’t. But you probably knew that. 😂
Kraang 1: The ones in this place are not in this place where they were.
Kraang 2: The ones are called Ninja Turtles. They are dangerous to what we are doing in this place and other places.
Kraang 1: Yes. I have knowledge of that. The Turtles must be eliminated from all places.
Beatiful write-up *scratching head*
Meth?
It amazes me what you can find on TH-cam 😅
Such an amazing find! There’s actual real gold in those components! Amazing stuff; the components look like mil-spec radiation hardened devices, like the same components you’d use that makes up a rover to be sent off to Mars! No expense spared in this unit (because…thank you tax payers!). However, it’s a shame all of the engineering put into that, along with extremely expensive components…to exist as a single-use subassembly!
Yes they are all Radiation and extended temperature resistant.
Unfortunately the reality of the world is taxpayers pay with dollars or probabillity raises that they could be "paying" with their own lives.
The components in here are not extremely expensive at all. The chips and electronics are dirt cheep. The reason why these things cost over $100,000 is because it's a problem that the department of defense has been dealing with for a long time. It's called price gouging! You see these missiles probably cost anywhere from 5000 to 10000 to make. But they're going to sell it for hundreds of thousands of dollars because they set the price and they know that the governments going to pay up. The Pentagon gets priced gouged on everything, from office supplies toilet paper to missiles. We're talking about pins that cost less than a dollar getting charged $80 per pin and over $100 a toilet roll. Lockheed Martin, Raytheon, Boeing, Northrop, Textron and more. All of them price gouge the hell out of the taxpayers it's the biggest scam nobody ever talks about. It's basically why we have to pump so much damn money into defense because the United States it's basically getting scammed by United States companys.
@@videosuperhighway7655 Ceramic mil-grade chips with gold plated lids doesn't mean rad hardened, especially not in the 80's.
@@patman0250 Don't be so dense. The reason they cost 100k is because the 'cost' of the weapon is far higher than just the bill of materials and labor to assemble them. They're not selling flatpack chairs here.
Imagine what they can have now as a top secret now if this was designed in 1986...
All the electronics has been replaced with a Raspberry Pi Zero.
Never seen all this details , Thanks for sharing. All sophisticated electronics will be gone in seconds Phew.
Very interesting. For me the most valuable parts at the OMA2541 op amps. You can make a linear power supply or an audio amp with them. All other transistors and op amps can be reused for linear applications. They are high quality for sure.
damn that op amp can give an output current of 6 amps
Yeah, avoid opening them though! The BeO label is probably a warning: some of those TO-3 can packages are filled with a heat-sink compound. Beryllium oxide is a high performance one.
This is a very unusual video. On many levels, but still informative.
They did a wonderful engineering job.
That missile was recovered after it missed.
@@BigSmartArmed eles devem ser ruins então, bom mesmo são os mísseis russos que dão meia volta e destroem a propia base de lançamento 😅
@@BigSmartArmed It doesn't look like it was fired at all. Considering it was manufactured in 98, I'm guessing it was rescued from a military weapons destruction dump.
@@moshet842The recovery pic shows full deployment. Ukros have a huge black market for complete and chopped weapon systems.
@@BigSmartArmed Well, that is a sample picture from Google. The one he has is not the same as the one in the picture. Besides, the Pentagon generally has a 10-15 year shelf life on these missiles which indicates that what I said earlier was probably right considering the date of manufacture. I would bank more on it being decommissioned.
Thank you. Very informative. -Scientist from Iran
Awesome PCBs. It's sad to see that usualy that high quality electronic assembly is only working for a few minutes and then usually scrificing itself.
Montés sur la plaque alu centrale, le cylindre que tu observais et dont il y a l'air d'y avoir un équivalent monté à l'horizontale également, m'a l'air d'être un élément de centrale inertielle. Un p'tit moteur à la vitesse bien contrôlée et dont les écarts mesurés doivent permettre de calculer les écarts de position en rapport avec la trajectoire programmée du missile. Belle électronique !
C’est effectivement un gyroscope de variation angulaire mais il n’y en a qu’un, l’autre machin n’est qu’un cylindre en métal, peut-être un contrepoids.
@@lelabodemichel5162 Merci pour ces précisions !
@@lelabodemichel5162 sûrement une masse d'équilibrage en effet
LDM #355: Patriot MIM-104F PAC-3 missile guidance computer - Part 1: teardown
Neat to see. I've been curious to see the electronics as well as what makes them so expensive.
(As a side note, as an American, I don't know if I could have made this video without a knock on the door, or being put on some list 😛)
This is wild, but 100% true: my dad designed the aluminum assembly that holds the high-power transistors on the back end on the "C block" version.
Gotta love TH-cam. Watching a missile torn down on a Sunday morning with my tea :)))
Smart design to have the charges burn through the electronic guidance and triggers fractions of seconds before the target gets it. Liquidate the most sensitive technology, in the primary action.
They rig drones to do this when hit.
That missile was recovered after it was fired and it missed. If it was that smart it would have self destructed like SAM/AA missiles do.
@@BigSmartArmed they should as a safety feature as well as for security, rather surprised by this 😬
@@BigSmartArmed How do you know that? I'd expect a fully built one to have conformal coatings and stuff fixed better. Maybe this is a prototype or some engineering model instead of a live round.
@@christopherleubner6633 Munitions that are directly deployed by personnel can't have self destruct mechanisms.
Hello Michael,
Do you think you can do a presentation of old EGPWS from Airbus?
Also all callouts of the FWC Flight Warning Computer.
May be you can get in contact with Airbus in Toulouse and they can send you one or may be more modules for free for education purposes.
This sensor looks a lot like a dynamically tuned gyro (DTG). If so, there must be two of them.
There is only one sensor on that section.
@@lelabodemichel5162 At 10:54 what is the thing in the bottom left side of the aluminum bulkhead? It looks like another sensor (same cylindrical shape).
@s102tk Nothing electrical, just a metallic cylinder. Maybe a provision for another sensor.
One of the best videos I've ever seen on TH-cam.
Who knows, maybe one day you will show us a Himars teardown !
Tearing down a whole truck would be quite large and quite boring.
This is a freakin' fortune in gold and IC's. No wonder these systems are pricey as hell 😂 Artwork of engineering.
That "multi sensor" gyro is likely ITAR grade! I looked up the Emcore price list for NON-ITAR grade fiber optic gyro cylinders. the high end is ~$45K for ONE, if you buy 200+ quantity they will give you discount to ~$35K each. (non-ITAR)
Given the comments on this video, it really seems like when you make videos of this kind, you HAVE TO include a lot of disclaimers, at the very beginning, to let people know that this device is very old and doesn't contain anything sensitive that could be of interest to unfriendly nations. Otherwise, you'll get a lot of people reporting you to various authorities that could potentially make your life difficult depending on who investigates it (traveling to the US and being held up for a while etc). Obviously none of this is sensitive, but authorities can still go through their "due process" and their mistakes/misunderstandings can become your future problems. Federal government mistakes can take a very long time to correct. Simply DURING an investigation, you'll be on a watch list. As you know, government investigations can take years to complete, so there is that angle as well. Basically, it's probably not worth posting this type of content, despite the "cool factor"..... the comments made me re-think posting videos about some of my stuff as well. The more popular a video like this becomes, the more uninformed/ignorant people you're going to get in the comments.
Even today, there are a bunch of somewhat modern missile PCB parts (from MBDA iirc) on sale for ebay, with FPGAs etc, which have been on there for years haha. No one recognizes them, so that's that. Lots of stuff leaks out in strange ways, unfortunately. I don't want to risk my own industry standing by getting involved, like most people...
I've always loved your French accent, it sounds very pleasant!
You watching too much holywood crap movies. The fact the the video itself is on TH-cam is the proof that nobody care about thoses old junk. For theses califonians oligarchs the word niger is way much dangerous than a javelin.
Nowadays export controls are quite strict, trade has become too transparent for government agencies. In the old days, we sold the sensors from the US and French missiles to a Russian military institute and no one cared.
Превосходно, отлично!!!!
Еще показали и другие элементы. Ну например рулевые приводы и другое!!!!
We love Ukraine. Crimea is Ukraine.
Très intéressant.
Oui oui,
Il faut l'ouvrir, ce capteur !
magnifique accent anglais ^^ ! c'est super je comprend tout. Vidéo très intéressante, je m'abonne de suite ! Merci Michel !!
This likely is a design prototype or a manfacturing functional test technician training model, that someone had secretly kept in their garage for decades.
Why do you think that? The easiest explanation is that in the poorest country in Europe, people can take stuff meant for war and mark it as used and sell it afterwards. Not a jab at Ukraine, just the simplest explanation.
@@ligius3 the pcb circuit boards are all exposed and don't have thick plastic conformal coating
I think you are right.
1. The umbilical cable is intact, so this cannot possibly be from a dud.
2. None of the cables are creased like they would have been after being folded when the complete missile is assembled.
After the video from @perepolox shooting Javelin, it is no surprise that its electronics is very similar to those in modern PC video cards.
I am impressed, I thought this javelin would be much simpler/rugged, and that s pretty advanced for 1996
Advanced?
Less advanced than an old Cell phone.
@@rdallas81if you are comparing it to a 2010's cellphone, yes. But a 90's phone of the same era as this guidance computer, no.
Isn't this missile from mid 80s
@@togowack designed in 1989, in service since 1996.
@@colombianguy8194thats pretty slow for a 64 x 64 display makes you wonder about all the equipment in service now, outdated and not as good as people think it is.
Thank u for this very cool teardown!
Looks like they made sure no one recovered the guidance system. The main charge would mess it up pretty bad.
The warhead is behind the electronics for having the best penetration distance without needing a probe as with previous generation missiles that had the warhead in the front.
Very nice video, thanks 😊😊
Now I understand how that military chip manufacturer was able to create their own graphics card 3DFX out of nowhere and bring it to market. These missiles are basically flying webcams with video processors on them guiding the missile to the infrared/heat target.
@hakimmohamad6216 because it's not true lol. i think the only graphics card that was a result of military development was the intel i740 which was actually a joint project with lockheed martin and an outgrowth of their simulation systems, but it was really shit. SGI (where the 3dfx team originated) didn't make military hardware either
Something so beautiful, relatively "low cost" made to be vaporized.
I wonder how million-dollar missiles are built.
A lot of technology in that for it to get used once and blown up.
It's going to take something 10x more expensive along when it does.
it's just planned obsolescence at extreme :D
Wow that Missle must have been veryyy close to its expatriation date. The style of TI-Gold cap chips - Do they still use those on modern military systems? Those chips, the VLSI glue logic on the rear - perhaps this missile was manufactured in the 1990s - it does not have that many modern components inside it which is probably why this video still exists. The sensor I think is a proximity fuse. I love military electronics, its a thing of beauty
The parts are made 1998, lots of datestamps visible.
As expected, the guidance hardware has micro processors from Texas Instruments, the same company that makes our college calculators
The logo is all over the place
@@mattmurphy7030 yes, I know
5/10 on repairability scale. Still better than iPhone 15
Thank-you. Great teardown vid.
The boards and basemount IC's appear to be more modern than '80's vintage.
The metal (non-ferrous?) bulkhead is both a heatsink for the opamps, trim ballast and eventually part of the EFP jet?
The metal cylinder appears to be either a proton precession magnetometer or magnetic induction sensor for detecting proximity to the target vehicle.
BTW: See if you scratch a few spare chips for the Ivans to keep their wash-machines spinning.
All the best from Namibia.
This is fantastic video to see such weapon so closely....
The best youtube content ever ! merci