Nice teardown and explaining, as always. Here's an interesting idea for you - what if we take, say open LTZ1000 reference module (or other zener), place it in the chamber for picture, and apply power and measure zener with 3458A with fast sampling rate. And then take number of pictures with different x-ray voltages and see if that affects or shifts the zener value in any visible way. Could be interesting to know, if zener output might shift from say shipment security checks at airports too, even without applied power to chip...
Thank you, Shahriar, for another great video! These little faxitron units are really good for imaging small items. Many of the x-ray units use a basic two element tube, where the focal spot size is directly proportionate to the filament dimensions. These models use a tube with a biased focal spot. By changing the bias voltage on the focus element, you can adjust the focal spot size down to very small diameters (I think these units are set to .02 or .03mm). We call those "microfocus" tubes. The gun board produces the bias voltage for the focus, among other things. In 1999, I went to school for a new cardiac cath lab system for imaging the heart that used a new type of variable focus x-ray tube. It could achieve focal spot sizes not quite as small as this, but at voltages of up to 150kV and current of up to 1000mA. It was quite the system! Anode cooling was a big issue, as you can imagine! It also used an image intensifier (dynamic DR panels weren't available yet) and the image intensifier had a variable zoom that could track with the focal spot. I foget what the marketing name was, but it was very complicated and expensive and we only sold a few of the units. Thanks for sharing and bringing back some memories!!!
I love how simple you make troubleshooting a device like this. It's illustrated to me how important it is to understand, at least to some degree, how the thing you're working on actually works. Certainly possible to repair things without that knowledge, but that combined with a step-by-step approach makes for a very efficient diagnosis that would otherwise take much, much longer.
Hats off to your level of intellect and vast knowledge. Every repair you do you is spot on with fault stage and components to be replaced. Thats called a Mervelous Electronics Engineer.
Wow you fixed an awesome piece of lab equipment by replacing a little reed switch. I remember a company called the Electronic Goldmine having those reed switches for a buck a piece in the 1990s. Awsome work ❤
Very interesting. I worked for Philips Medical System in Hamburg, Germany on X-Ray systems in another life. Back then instead of USB, control functions and UI were over CAN buses. Thanks for the trip down memory lane.
Worth mentioning that x-rays can also be 'filtered' by using inserts in the window of various materials. These are often used in mammography to help isolate specific xray energy levels to minimize dosage. The same goes for the anode, it doesn't always have to be Tungsten. A smaller machine like this likely produces lower energy xrays so you can also get away with steel shielding instead of having to step up to lead.
Yeah, this is 35kV max (tube can handle 50, but power supply is 35). Original purpose is for tissue samples or such. The microfocus tube is great for electronics, but 35kV is just a little bit low for some applications.
I'm working in medical X-Ray industry and yes options are also collimators, which are mechanical thingy like aperture in camera lenses . I'm taking images of my electronics on little bit bigger machines :D As a room with 5 different detectors.
Absolute excellent video. I was always waiting for looking inside such a nice device. Here in germany e,.g. europe its very difficult to get a permission for such a device to be used officilly in a small lab even if it completly in housed. -- I worked with x-ray machines with up to 200kV at helmholz in a huge housed shield for experimenting with x-rays, focusing is a tough topic most mechanically done. At helmholz also gamma readiation devices are available.... I also tested pulsed radiation in medical applications (for example used ct) and detectors using ccd array (had a patent on this measure principle tests on up to 2000 Gy/h using a iPhone/Android) -as the film dosimeters are problematic - I like this topic really very much. And great of PCB checkout usually have to use a external service company on this at the moment when needed in my lab.
I think I would have been inclined to soak test the reed switch and try to prove that it has an intermittent operation on one contact. Only then can we be sure that there wasn't some other intermittent fault which has been disturbed into working for now.
Removing the reed (especially with all the heat I had to put on it) seems to have damaged it more... I could not get it to energize at all once it was removed.
@@Thesignalpathtop right wire connection on the reed relay's x-ray looks strange. Like it is half cut or something like that, so it could a root cause.
That reed relay (or maybe an adjacent one) also failed in my MX20, leading to current adjustment not working. Also gets super hot. Bought a replacement for K1 and U1, but haven't had the energy to install it yet (it's not a big enough problem to solve asap). Interesting that we had the same failure modes. If you're interested, I have the schematics for it.
What was the symptom on the current adjustment not working? Mine isn't outputting any voltage on the current testpoints (or even slightly negative), but the machine seems to work very well apart from that. A friends unit shows the exact same behaviour, so I thought that this was expected behaviour (or at least a known problem)
@@Manawyrm No matter what settings you change, the current can't be changed. e.g. you can adjust L2 but nothing changes. Similarly, the voltage coming in from the controller to the gun board (pin 11 on the 10x2 header) doesn't change anything. I'm not entirely sure what the exact failed component is, but the potentiometer and output stage is fine, That leaves the reed relay K1 W171DIP-24 and the opamp U1 LM324. The current testpoint should be slightly negative, in the range of -0.1V or so (for 100mA).
Great timing! Just days ago I needed to see inside a potted module and asked a dentist friend to scan it for me (bonus, he did a 3D scan in addition to 2D, very handy!). Naturally, now I want my own X-Ray machine. This MX-20 looks like it does a good job, but when I am looking at buying one, it's not clear to me if the X-Ray sensor is included, what should I look for when buying one? Those of you that have experience in this area, any other units I should consider? I might roll my own (or adapt a dental x-ray), but there are obvious drawbacks to going that route. Thanks!!
Given that the current through the reed relay is likely small, maybe the relay is below its wetting current? If so, running some DC current and exercising the relay might restore operation. That said, I am not sure if hermetically sealed glass envelopes enclosing reed contacts might prevent this wetting issue? 🤔🤔
Hi Signal Path. I watch and enjoy your many technical videos regularly. This particular one was most interesting because I have an immediate use of one of these now. I notice a few available on the market, but that brings up the question, what is really needed as auxiliary equipment and software to use one of these?? Any comments will be much appreciated. I see a few others with similar questions in these comments. Regards.
That AirPod X-ray looks extremely cool, it would be super neat to have a animation of it rotating. How long does taking a picture take start to finish, would making an animation of a few dozen frames be feasible?
Well adding a rotating stage wouldn't be that difficult, but generating a tomographic image from the individual slices would require considerable software.
@@neonkev7866 I believe I've seen open source solutions to the software side (in a video about a DIY CAT scanner, I think). I know there are open source DICOM viewers that will do the 3D reconstruction and slicing (I've been using AMIDE to view some potted modules that a dentist friend scanned for me). It seems that DICOM is a container format that uses normal image data.... MIGHT not be to hard to get your own data into a DICOM files and use one of these viewers.
Absolutely love your channel. Your content is such top notch, and your knowledge is impressive to say the least. Any thoughts about doing a teardown of the Airborne Weather Radar antenna in the radome of airplanes? That seems like a crazy piece of engineering and I've got no clue how it works. Seems like it'd be right up your alley in terms of RF antenna and systems engineering. Just a thought, keep up the great work!
Nice thinking! Probably arc pitting on the reeds from switching the primary of the DC to DC converter. I wonder if there would be any way to mitigate that, perhaps a mercury wetted reed relay?
Turn on the DC DC converter via a MOSFET instead of all the current going through the reed relay. The reed relay turns on the FET, which turns on the DC DC converter. Maybe the relay could be replaced with a solid state relay entirely.
Thank you for another awesome video, dude! The amount of expertise you posess about virtually any aspect of the matter is truly amazing. An unrelated noob question, tho. Today we have a tons of cheap microwave DIY solutions - human presense radars and similar devices with around $5 boards with smth. like LD2410 chip, so it's very tempting to play around with them. And the question is: what entry level hobbyist oscilloscopes, like up to $500, exist for those frequencies, like with the bandwidth of 25 MHz+ accordingly?
Thanks again for a inspiriting episode. Always a pleasure and interesting to watch. Do you have experience in Thermal Interface Materials in electronics and test/measurement equipment for thermal conductivity? I would love to learn more on the subject. Kdrgds
Question: could the reed relay be replaced with opto coupler's and/or FETs instead? Solid state device should be more reliable. Its only switching 12V for the DC DC converters, isn't it?
Very cool! Question, did you provide any proof of being a licensed X-ray tech or operator to buy it? I really want to buy one of these old X-ray machines for PCB reverse engineering, and I even tried to bit on eBay, but was contacted by the seller almost immediately asking for proof of state license since it's FDA regulated to show that I'm allowed to own one. How did you get a hold of one? Can you please explain? Thanks !
The reverse of blown out, penetration of the xrays shows as black. It would probably require a more powerful unit to resolve the internal details due to the amount of metal in there. A 30kV xray is not strong, but perfect for PCBs and the like.
While the REST of the world is toying around with Laser Diodes, TSP once again ups the ante by playing around with his 'personal' X-Ray machine. Meanwhile, people at MY level are ecstatic that we were able to fix that faulty / intermittent flashlight!
I've been watching the news to see how many gen-z members received the Darwin Award after this video but I could find find any... Then, I remember gen-z have no money :) Silly me!
Nice teardown and explaining, as always. Here's an interesting idea for you - what if we take, say open LTZ1000 reference module (or other zener), place it in the chamber for picture, and apply power and measure zener with 3458A with fast sampling rate. And then take number of pictures with different x-ray voltages and see if that affects or shifts the zener value in any visible way. Could be interesting to know, if zener output might shift from say shipment security checks at airports too, even without applied power to chip...
Thank you, Shahriar, for another great video! These little faxitron units are really good for imaging small items. Many of the x-ray units use a basic two element tube, where the focal spot size is directly proportionate to the filament dimensions. These models use a tube with a biased focal spot. By changing the bias voltage on the focus element, you can adjust the focal spot size down to very small diameters (I think these units are set to .02 or .03mm). We call those "microfocus" tubes. The gun board produces the bias voltage for the focus, among other things. In 1999, I went to school for a new cardiac cath lab system for imaging the heart that used a new type of variable focus x-ray tube. It could achieve focal spot sizes not quite as small as this, but at voltages of up to 150kV and current of up to 1000mA. It was quite the system! Anode cooling was a big issue, as you can imagine! It also used an image intensifier (dynamic DR panels weren't available yet) and the image intensifier had a variable zoom that could track with the focal spot. I foget what the marketing name was, but it was very complicated and expensive and we only sold a few of the units. Thanks for sharing and bringing back some memories!!!
Nice tutorial on the X-ray tubes and how they work, I had no idea....but now I do! Thanks.
I love how simple you make troubleshooting a device like this. It's illustrated to me how important it is to understand, at least to some degree, how the thing you're working on actually works. Certainly possible to repair things without that knowledge, but that combined with a step-by-step approach makes for a very efficient diagnosis that would otherwise take much, much longer.
X-ray Shahriar-B. Casual genius.
Hats off to your level of intellect and vast knowledge. Every repair you do you is spot on with fault stage and components to be replaced. Thats called a Mervelous Electronics Engineer.
Wow you fixed an awesome piece of lab equipment by replacing a little reed switch. I remember a company called the Electronic Goldmine having those reed switches for a buck a piece in the 1990s. Awsome work ❤
This brought back some memories of when I was a BMET. I loved that job. Best in the Navy as far as I'm concerned. Thank you!
Another great video. Teardown video for high-voltage devices are worth to watch just like your RF related repair / teardown videos.
Thank you!
I appreciate the way you break down your troubleshooting approach. That's something I always struggle with.
Very interesting. I worked for Philips Medical System in Hamburg, Germany on X-Ray systems in another life. Back then instead of USB, control functions and UI were over CAN buses. Thanks for the trip down memory lane.
The Faxitron has control over RS232 with only the sensor being connected via USB (if it's a Hamamatsu sensor).
What a video! There is no screen wide enough to fully display your genius!
Worth mentioning that x-rays can also be 'filtered' by using inserts in the window of various materials. These are often used in mammography to help isolate specific xray energy levels to minimize dosage. The same goes for the anode, it doesn't always have to be Tungsten.
A smaller machine like this likely produces lower energy xrays so you can also get away with steel shielding instead of having to step up to lead.
Yeah, this is 35kV max (tube can handle 50, but power supply is 35). Original purpose is for tissue samples or such. The microfocus tube is great for electronics, but 35kV is just a little bit low for some applications.
This machine doesn't need any lead. Pretty low kV rating. The tube housing also appears fully exposed. Overall, a low-power tube.
I'm working in medical X-Ray industry and yes options are also collimators, which are mechanical thingy like aperture in camera lenses . I'm taking images of my electronics on little bit bigger machines :D As a room with 5 different detectors.
Absolute excellent video. I was always waiting for looking inside such a nice device. Here in germany e,.g. europe its very difficult to get a permission for such a device to be used officilly in a small lab even if it completly in housed. -- I worked with x-ray machines with up to 200kV at helmholz in a huge housed shield for experimenting with x-rays, focusing is a tough topic most mechanically done. At helmholz also gamma readiation devices are available.... I also tested pulsed radiation in medical applications (for example used ct) and detectors using ccd array (had a patent on this measure principle tests on up to 2000 Gy/h using a iPhone/Android) -as the film dosimeters are problematic - I like this topic really very much. And great of PCB checkout usually have to use a external service company on this at the moment when needed in my lab.
I think I would have been inclined to soak test the reed switch and try to prove that it has an intermittent operation on one contact. Only then can we be sure that there wasn't some other intermittent fault which has been disturbed into working for now.
Removing the reed (especially with all the heat I had to put on it) seems to have damaged it more... I could not get it to energize at all once it was removed.
@@Thesignalpathtop right wire connection on the reed relay's x-ray looks strange. Like it is half cut or something like that, so it could a root cause.
wow, the end result!
That reed relay (or maybe an adjacent one) also failed in my MX20, leading to current adjustment not working. Also gets super hot.
Bought a replacement for K1 and U1, but haven't had the energy to install it yet (it's not a big enough problem to solve asap). Interesting that we had the same failure modes.
If you're interested, I have the schematics for it.
Thanks for sharing! I would appreciate it if you could send me the schematics.
@@Thesignalpath Sent you an email
What was the symptom on the current adjustment not working?
Mine isn't outputting any voltage on the current testpoints (or even slightly negative), but the machine seems to work very well apart from that.
A friends unit shows the exact same behaviour, so I thought that this was expected behaviour (or at least a known problem)
@@Manawyrm No matter what settings you change, the current can't be changed. e.g. you can adjust L2 but nothing changes. Similarly, the voltage coming in from the controller to the gun board (pin 11 on the 10x2 header) doesn't change anything.
I'm not entirely sure what the exact failed component is, but the potentiometer and output stage is fine, That leaves the reed relay K1 W171DIP-24 and the opamp U1 LM324.
The current testpoint should be slightly negative, in the range of -0.1V or so (for 100mA).
AH! You do have some FINE pieces in your collection! The old Triplett 630! :)
Loving the cat flap for Pooch! :)
going even further up in frequency
Great timing! Just days ago I needed to see inside a potted module and asked a dentist friend to scan it for me (bonus, he did a 3D scan in addition to 2D, very handy!). Naturally, now I want my own X-Ray machine. This MX-20 looks like it does a good job, but when I am looking at buying one, it's not clear to me if the X-Ray sensor is included, what should I look for when buying one? Those of you that have experience in this area, any other units I should consider? I might roll my own (or adapt a dental x-ray), but there are obvious drawbacks to going that route. Thanks!!
Given that the current through the reed relay is likely small, maybe the relay is below its wetting current? If so, running some DC current and exercising the relay might restore operation. That said, I am not sure if hermetically sealed glass envelopes enclosing reed contacts might prevent this wetting issue? 🤔🤔
Wow, amazing equipment you have, and know how to fix it, and presentation is really good!!
Excellent video.
Hi Signal Path. I watch and enjoy your many technical videos regularly. This particular one was most interesting because I have an immediate use of one of these now. I notice a few available on the market, but that brings up the question, what is really needed as auxiliary equipment and software to use one of these?? Any comments will be much appreciated. I see a few others with similar questions in these comments. Regards.
Thank you for showing us such a great machine.
A very good video.
That AirPod X-ray looks extremely cool, it would be super neat to have a animation of it rotating. How long does taking a picture take start to finish, would making an animation of a few dozen frames be feasible?
1-2s. I've been planning to make a CT scanner using that technique with my MX-20.
Well adding a rotating stage wouldn't be that difficult, but generating a tomographic image from the individual slices would require considerable software.
Here's a rotating X-Ray video of the pods: ruclips.net/video/WsxHWKJA7ig/видео.htmlsi=Uy6URyiU-oU7FgWm&t=42
@@neonkev7866 I believe I've seen open source solutions to the software side (in a video about a DIY CAT scanner, I think). I know there are open source DICOM viewers that will do the 3D reconstruction and slicing (I've been using AMIDE to view some potted modules that a dentist friend scanned for me). It seems that DICOM is a container format that uses normal image data.... MIGHT not be to hard to get your own data into a DICOM files and use one of these viewers.
Absolutely love your channel. Your content is such top notch, and your knowledge is impressive to say the least.
Any thoughts about doing a teardown of the Airborne Weather Radar antenna in the radome of airplanes? That seems like a crazy piece of engineering and I've got no clue how it works. Seems like it'd be right up your alley in terms of RF antenna and systems engineering.
Just a thought, keep up the great work!
Heh i love that you had it x-ray its own broken parts.
great video love stuff like that
Amazing device...
Great video! I always wanted to see that machine, it takes really nice pics. I was very curious to see the photo sensor. Maybe for a future video?
Nice thinking! Probably arc pitting on the reeds from switching the primary of the DC to DC converter. I wonder if there would be any way to mitigate that, perhaps a mercury wetted reed relay?
Turn on the DC DC converter via a MOSFET instead of all the current going through the reed relay. The reed relay turns on the FET, which turns on the DC DC converter. Maybe the relay could be replaced with a solid state relay entirely.
Thank you for another awesome video, dude! The amount of expertise you posess about virtually any aspect of the matter is truly amazing. An unrelated noob question, tho. Today we have a tons of cheap microwave DIY solutions - human presense radars and similar devices with around $5 boards with smth. like LD2410 chip, so it's very tempting to play around with them. And the question is: what entry level hobbyist oscilloscopes, like up to $500, exist for those frequencies, like with the bandwidth of 25 MHz+ accordingly?
google it instead of spamming the question. LD2410 is 25GHz you won't find any entry level equipment that is useful to measure that.
Thanks again for a inspiriting episode. Always a pleasure and interesting to watch. Do you have experience in Thermal Interface Materials in electronics and test/measurement equipment for thermal conductivity? I would love to learn more on the subject. Kdrgds
Question: could the reed relay be replaced with opto coupler's and/or FETs instead? Solid state device should be more reliable. Its only switching 12V for the DC DC converters, isn't it?
Thanks. I would love some details on the sensor/detector. Can you refer me? thanks, - Jim
I would love to work with a device like this at some point
Awesome...cheers!
Very cool! Question, did you provide any proof of being a licensed X-ray tech or operator to buy it? I really want to buy one of these old X-ray machines for PCB reverse engineering, and I even tried to bit on eBay, but was contacted by the seller almost immediately asking for proof of state license since it's FDA regulated to show that I'm allowed to own one. How did you get a hold of one? Can you please explain? Thanks !
The air pod was quite "blown out" - can the machine (or you manually) do something like exposure-stacking to get a complete image with more details ?
The reverse of blown out, penetration of the xrays shows as black. It would probably require a more powerful unit to resolve the internal details due to the amount of metal in there. A 30kV xray is not strong, but perfect for PCBs and the like.
18:03 I would assume the reed switch package is configured with both NO and NC operations (Normally Open / Normally Closed).
They are both NO in this part.
@@Thesignalpath Interesting.
While the REST of the world is toying around with Laser Diodes, TSP once again ups the ante by playing around with his 'personal' X-Ray machine.
Meanwhile, people at MY level are ecstatic that we were able to fix that faulty / intermittent flashlight!
Serious question what do you need so many SMUs for? That’s a pretty big pile
They are not all the same. Different models.
For a second I thought that Mikeelectricstuff got a new x-ray or something 😂 ;) Nonetheless I'm always happy with video from The SignalPath too!
is signalpath engineer?
Who the fuck is that
Excellent video
Hi thank you. What kv range is that x-ray operating in?
Up to 37kV.
So a reed switch was the cause, unusual.
If only you had an extra one of those high voltage DC-DC converters to x-ray.
For sure! I once took an x-ray of an x-ray power supply while it powered the x-ray tube taking the x-ray.
@@d.jensen5153 Neat!
I was wondering what KV range this x-ray machine operates in?
Maximum is 37kV.
Looks like the relay was it. maybe you can test the relay too prove it.
Windows XP.... woah...
please create 3D Pictures ;)
I givem about a decade.
It sounds like the filament is getting old and needs to warm up to full charge.
The filament is fine, the issue was with the focusing circuit.
I've been watching the news to see how many gen-z members received the Darwin Award after this video but I could find find any... Then, I remember gen-z have no money :) Silly me!
I hope a smartphone with a micro-X-ray device will soon come onto the market that can be used to examine smaller things.
Yeah sure..... lets have people running around with portable ionizing radiation devices.
@@jayytee8062 Would be very practical in the outdoor area. For example, you could quickly determine whether you have broken your leg.
I think you'd know if you had broken your leg. Walking would be excruciatingly painful if not impossible for a start.
I doubt you'll ever find a spinning anode in a Faxitron. Those are for x-raying fat people and making video at high frame rates.
Yep, it's a microfocus tube. Very different construction.
No, of course not. The tube I showed was just an example.
And….. a real repair or is it a connection again 🫣😂