How To Build the Amazing CHEAP DIY Huntron Tracker Octopus PCB Tester Curve Tracer $20 or less

Impressive how you keep apologizing for having built such a simple high tech device. Please never stop teaching sir. Thank you for sharing your knowledge with us. Could you make a video designing such a circuit?

Whenever I was at a shop without an Octopus, we just grabbed a 115/120VAC (U.S.) to 6/12VAC transformer to slap one together. wish I still had mine, but is long gone now. Your making me pull out some old parts and make one again. Been DIY'ing and using them since 1974 ...

I did price this up (all the parts but apart from the resistors and capacitors which can be easily salvaged), it came in at just under $20
The most expensive part is the linear 6V transformer which is roughly 50% of the total cost if you can not salvage one. It did occur to me that it would be better to power the NE555/relay circuit from a small SMPS (rip the PCB from a 5V or 12V power adapter/wallwart) and power just the Tracker pcb from a 6V linear transformer as it needs a 50Hz/60Hz AC supply. That would bring the total build price down under $10 if can salvage the transformer and power adapter. The transistor in the relay drive circuit can be just about any NPN transistor that can handle Ic of 100mA or so (depends on relay coil resistance).
If you use a separate SMPS to power the relay switcher circuit you will also avoid the problem of the Oscilloscope trace changing size slightly as the relay switches. As the 'ground' for the relay switcher and the tracer circuits are totally independent/isolated, using a SMPS to power the relay switch, and a linear transformer for the tracker circuit will not cause any problems, in fact the opposite is true - it will work better 😉

This is fantastic! I fondly remember the Huntron and how I could not afford it for my shop, but we had one at my other job. This is like 1989....
I love your channel, thank you!

Man! What a heady dose of genius! That was spectacular! So simply explained, yet a very powerful gadget. Thank you Sir, and stay well.

Hi Richard,
I just built this Huntron Tracker and I must say it's brilliant.
I mostly fix 70s amplifier and I'm hoping it will save a lot of time diagnosing hard to find faults.
I was waiting for the PCB Way PCB and parts list, but I have learnt so much now figuring it out and using Veroboard.
Thanks again for sharing your knowledge. I eagerly await your new videos.
My girlfriend even loves your Car Booty videos!
All the best,
Craig.

Fascinating bit of kit, many thx for sharing. Keep up the great work 😀👍

This is pretty cool. Looking forward seeing more on this sort of thing.

Absolutely love this video, I know what I'm making this weekend. I've already built 3 V-I curve tracers, but being able to convert one to a 'Huntron' type will be superb. I thanks you most sincerely for sharing your knowledge.

wow I used a Huntron Tracker while fault finding alarm control panels in 1981 for a now defunct manufacturer in Oldham. One of the most useful pieces of test equipment I ever used.

Thanks Richard! I really enjoy your various trouble-shooting YT's. In the early 1970's a friend gave me a rather poor photocopy of pages 23 to 26 from some sort of manual from the Mobile Radio Department General Electric Company, which described how to build this type of device using a 6.3VAC transformer and a 300 ohm & 3K ohm resistor. It was called "The Curve Tracer". The document showed the various waveforms for different components. The page numbers indicate it was part of a GE publication. I built one and still have it, somewhere in the basement. As I remember it even worked as well on a non-triggered O-scope. I really had to dig deep in my archives but I found, and scanned, the original article I didn't know about the Hameg HZ65 & found two very slightly different schematics for it on-line.

Awesome!!! Such a useful tool (and video!)

I look forward to building this.

Thanks for the video. I want one now

This is SOOO good!!!

Very interesting explicated. Thanks!

I recently purchased a setchel-carlson triple video monitor, of which only one monitor is working. That gives me a great reason to build this! I find that machines and software work better when they are not overly complicated.

Perfect for the device building.

I definitely want to build one.

Thank you, Teacher.

At my job we use also the huntron; i thought it was a complex piece of equipment :) I certainly will make one my own

What a nice device! I must build one too, thank you :-)

That's neat, I like that.

Nice project

Most people open up their electronics to see how they’re working, but sir Richard opens up electronics to see how they’re wuuurkin… 😁 reminds me of travelling in the UK when I was a kid. Great video, thanks!

Nice video, thanks :)

I used to have a Huntron Tracker 1005B, worked great and was very handy for troubleshooting until the display failed.

i just finished building it and it works greats.just like the original!

I have a Hameg Analogue oscilloscope. I believe it was one of their last Analogue scopes. That oscilloscope has the component tester built in. Good memories to hear about the Huntron.

Well done Richard !
I did not remember how simple these circuits really were having used them daily back in time.
The signal relay should be optimized for a low coil current not to load the transformer.
Not a problem as any type of low power signal relay can be used.
I would not try opt for a semiconductor relay as this would complicate the circuit too much in favor of the mechanical relay.
I'd be a bit careful using the high current setting as this could damage the DUT.
In fact I suggest lowering the max current setting to about 100mA.

We used these units a while back when I worked at the phone company in the central office.
As electronics got more advanced thru the years, we had to stop using them because the voltage on the probs was taking out the cmos chips and some other very low voltage parts. Especially bad on incircuit testing of parts, because you didn't know where the voltage was going to ground thru other connecting parts. We just couldn't take a chance of causing more trouble then we started with.

Great video as usual, i used an AC output Power Brick for mine! It would be nice if there was an image store of components that you could compair to

17:08 Who else thought that Richard had put on some of his Disco test music? 😉
Sorry Richard. I love you really and love your channel. 😆

G'day Richard, all your videos are very well explained for a layman like me. Cudos to your abilities. Is there an actual build list or kit available for this product? Keep up the great work

5:32 - What you’re describing sounds very similar to what has been dubbed the “Octopus” circuit consisting of: a step down transformer; a resistor; and eight legs (two legs for the mains, two legs as the DUT probes, and two legs each to connect the X and Y channels of an oscilloscope.
25:50 - I’ve noticed that fuses in the milliamp range will have an appreciable resistance (caught me by surprise the first time I saw it).
30:50 - As I suspected. Your fuse rating is in the milliamp range!

As usual the video and topic is fascinating. I’m starting to find myself browsing through the comments and respect and admire all the different suggestions, explanations, additional knowledge. Every videos comment section has really helped give me a spark that I didn’t know was there. I have an itch that wants to be scratched 😂. Thank you Richard, and thanks to everyone from the professional to the hobbyists for asking and answering questions and providing insight at many levels. ✊

So essentially it injecting a small signal to a component leg and referencing to ground over a small window of time ( frequency of 50-60 hz) and creating a IV curve . Cheap CCT but could probably be built with an Arduino with more functionality . Interesting project . To try an find out the problem of that amp , I would place different amplitude audio signals and measure harmonic distortion over say 4 amplitudes and 4 frequencies giving a total of 24 measurements. This may tell you were the distortion is occuring in the cycle and if it is a transitive problem or a capacitive or a DC bias . Of course I would measure DC bias voltages of transistors with zero input and you have a great opportunity as you have a working cctv.

Did I miss the final build? I am interested in making one. Thanks and great channel.

Like it ... but that clicking like a car indicator would drive me nuts. I use mine with a USB scope ... put single probe to first test point, hit spacebar to freeze the component shape ... move the same probe to the 2nd test point to be compared, hit spacebar again and you get an instant comparison in silence ... (can also save screen captures of component shapes etc.) ... still an invaluable tool at times ... :)

Richard that was a really interesting video, it really got me thinking about your home built add-on device you made and how it could be used to fix a stereo audio amplifier. What about injecting a 1 kHz signal into input of each channel and then signal tracing the amplifier sections with the switching device and the oscilloscope, comparing waveform in each channel at the same time. Do you think that would help in finding the distortion in the amplifier?
by the way Hameg built in the component tester into their range of oscilloscopes.

Sir, I regret to infrom you that blue leds have indeed been around for 30 years. ;) Awesome channel, thanks for your work!

Huntron tracker technique was mostly use throughout my electronic repairs. I'm more visual than looking at numbers.

i use a huntron 2000 quite often at work and was looking for something cheaper to use at home. perfect timing. was this finished id like to get one.

Nothing wrong with the relay, at least you know it's working.

The r&s HMO1002 scope has a single channel tracker built in. Never used it personally but it was in the users manual.

Never heard of a Huntron Tracker before, but then again, there are so many measuring devices out there.
A Octopus curve tracer i do know, and once build one on breadboard a few years ago and forgot all about it. Time to get it back on my todo list.
20:26 Instead of using a 555 for triggering the relay, maybe a flashing light (turn signal) relay of a car can be used. When all flashing lights (light bulbs) of a car are okay, the flashing rate is arround 1Hz per second, but when there is less current draw through the flashing light relay due a defective light bulb(s) , the flashing rate goes to 2 or 3Hz per second and the driver will notice the quicker clicking inside the car.
These frequencies 1Hz to 3Hz are ideal for our measuring purposes here.

The timing issue coming from the supply voltage to the 555 timer varying when larger current is drawn. A regulated suppl y to 555 should alleviate this.

A Magnacraft W117-4 is an IC relay that has 8 pins, is internally a reed switch, and doesn't make the clicking of a relay.
I have a Huntron Tracker = one of the best tools I have ever used for finding out about unknown components but great for matching components too. Or, as you describe, for finding faults when you have 1 working part and another that isn't working.

superb looking tracker :) any updated videos on this ? :)

That 32mA fuse will have that high resistance, unless the fusible element is made out of silver, then it would be a bit less
Years ago I had a problem with the stereo in my work van in that, when I played it at full volume, which I generally do as I'm a rock and metalhead, the sound would distort and cut out terribly. When I was fault-finding, I found the in-line fuse holder to be quite warm. The fuse in it was a 500mA one and when I checked its resistance it was high, I think in the tens of Ohms. I checked a new 500mA fuse in got the same reading. I replaced the fuse with a 1 Amp fuse and that cured the problem. The fuse resistance was dropping the supply voltage proportional to the square of the current being drawn, power in a resistance I SQR R and that was playing havoc with the stereo at high volume.

Great Circuit

huntron still around you know. price is over the budget of most of us at around 6K. and if you think that is expensive take a look at ABI electronics modules very crazy prices but crazy capable, it seems.

I think the relay option is good because a relay contract won't change the characteristics of the test path. A CD4016 or CD4066 might add some unexpected artifacts.

Shit like this makes this channel even more enjoyable. Thank You.

If an HZ65 can't be found, could you recommend an alternative option to use with my scope ? Great video !

Hi Richard, any chance of a simple diagram of how you implemented the 555 IC, the link you provided seems to show a lot more components than you seem to have used. Thank you for sharing your knowledge with us, Regards form South Africa.

Very Interesting video. I used to use. Huntron many years ago, and was horrified by the prices they command, even for a very old model. I was hoping to find something that used one of the cheap Chinese LCD scope kits and the tracker adaptions as a modern low cost replacement. In your video, another enhancement you could add, is to have an option to switch much more quickly, and then provide X and Y offsets to both channels, so you can display the waveforms alongside each other.

I have a (broken) 1985 Crotech 3132 oscilloscope with built in component tester !

In the U.S. these are generically called "Octopus Testers" The earliest mention of these I have found was from a Naval training document of the early 1960's.

There is one that I had my workgroup at my current company purchase, however... Just want to add a disclaimer that I'm NOT sponsored or compensated in any way by the company who makes them, nor am I expressing nor implying endorsement. With that mentioned, a company called "uCore Electronics" makes several versions with various capabilities. They have a RUclips channel and their own website where they can be checked out.
Speaking on personal experience, V-I testers have worked quite well when it comes to discrete component testing, though may not quite be useful when it comes to LSI IC's. For my own personal repair business, I have a DIY version that uses a combination of my Oscope in X-Y mode, a function generator with variable sine wave outputs, and a power supply. The Mr. Carlson's Lab RUclips channel has a version that designed that he makes available through his Patreon subscription.
Even though commercial versions have limited availability today, there's lots of DIY versions that can be found looking online.
Just my .02 cents.

Built one of these,must be 30+ years ago,still use it today,such a simple device,be carefull what you test with it,as it can damage sensitive parts,but if your a quilified electronics engineer you should have no probs. understanding its few limitations.

20:50 - A normal fuse with a very low rating will have a notably higher than expected resistance. It might be of interest to see the voltage drop across that fuse.

I think for this to work on modern logic, that don't like -ve voltages, it would be necessary to apply AC 0V pk to 3.3V pk and also AC 0V pk to 5V pk.

solidstate relay will work too

very nice unit, thinking of making one, I noted that the trim pot goes to the black probe (schematic 30:00) and not to the other side of the transformer(your drawing 37:55) it don't seem to make a difference as the circuit works

Great device, but I'd look at much smaller relays to start, that clicking sound would drive me absolutely batty in short order.. definitely a cool tool though!

I've noticed something with THIS channel, mostly.
First, I have Business internet, high speed, solid, no glitching.
I watch a lot of videos and movies (netflix, etc). Never an issue.
But with THIS channel, several of the videos will hesitate with "spinny thing" and worse if I click forward in the video.
Other vids don't do that.
Hmmmmm

This type of tester was used quite frequently years ago. Now, however, the current across the probes might be too much for many sensitive solid state devices. Keeping the current to around 3 ma and using a 4066 cmos solid state switch may be an idea.

DiodeGoneWild built up something very similar to this. I think he used an AC wall wart that is fairly common in Europe; these things are mostly unknown to Seppos like me.
As for the switching, you said it's low voltage and low current, yeah? A pair of optocouplers would be an ideal substitute for the transistor and relay.
EDIT: Since you had the three RCA jacks, you could have dispensed with the switch, all together. ("You could have dispensed with the switch.") Select current by moving the test lead across the three jacks, just as you would select amps or milliamps on a moldymeder. And I would have used banana jacks rather than RCA for everything except the scope output; I'm guessing none of your test leads are shielded to the tip.

This is my specialty…. So feel free to ask any questions I’ll help however I can
I have a small business and laboratory specializing in component level troubleshooting and repair/calibration of industrial equipment. I specialize in test equipment and other metrology related stuff.
I also have a collection of curve tracers, short finders, Huntron trackers, polar “tone-ohm” devices…..and dozens of other troubleshooting type devices.
Some of them are built from old DIY schematics from retired HP engineers and elsewhere. Some really interesting stuff
So If anyone has any questions about that type of stuff….. feel free to drop a comment or question down below. Lot of experience looking at that type of stuff

Is there a PCB and components kit available for this project? I do not have very much in the way of "scrap" parts and would really like to just build from scratch with new components.

What is the purpose of the capacitor next to the 1M trimmer pot in the HZ65 portion of the circuit?

Wondering tracker but did you ever get the amplifier figured out ?

You could add one of these cheap little 20€ scopes as a screen, then you have the complete tester in one box.

Well engineered Octopus mod. An observation / suggestion. The bridge (power for the relay etc) is now effectively across the X/Y and that and the relay / LED load will affect things. Perhaps use a low power LED and an analogue switch / multiplexer or 2 x FETs instead of the relay. A pot or a selector switch instead of the preset so you can set the voltage (low for micros, high for zeners etc) and some sort of voltage display (even if only a simple LED bargraph). Did something similar to my Octopus (no marine life was hurt) many moons ago.

Heya that a nice tool wen your working on amplifiers wen you have only 1 channel working

It’s ironic that I just viewed a video from the Play with Junk channel on this very subject of the curve tracer/tracker 😮 …

36:24 Hmm - my instincts were bugging me about the resistors being on the black wire and not the red wire; seemed like touching the red wire to the wrong thing could short the transformer. Upon further inspection, though, the bottom side of the transformer isn't "ground", it's just sorta-floating. Is that ok, to have the transformer in such a design not have a fixed reference point?

I think the 1M pot goes between the RED lead and GND.

Cool...

Hi Richard, wondering if there is a way to order just 1 PCB from PCBWay rather than 5? I just want 1 board, but it defaults to 5 with no option that I can find to lower that pre-set quantity. Also, how can I order the ruler? It says the ruler requires 50 beans (have no idea what those are or how to gain "bean credit"). Cannot seem to just be able to pay for it normally. Maybe their process has changed since you posted this video over a year ago? By the way, Heathkit made an instrument called the Component Tracer (Heath Model 2232) which was essentially a Huntron Tracker clone for a lot less cost. It allows two separate test probes to be used with A/B/AB sampling capability and two switch-selectable test voltages (5V or 50V). In the AB mode you can super-impose the images in real time rather than dealing with the switching issues and associated noise glitches. The traces are distinguished by one being solid and the other being a dotted line. These devices are available every so often on eBay and often run less than $100.

Curious as a home Hobby repair guy with this work with modern equipment?

Thank you for teaching us.
Can the the Huntron tracker be used on surface mount boards, or will it damage them?

Thank you very much for this informative video about making the "Huntron El Cheapo Clone (HECC)". What if i want to test low voltage ic's like in tv's or in video card's? Would this device damage the circuit or is can simply lower the voltage and reduce further the current? It's maybe an option to extend the usefullness of your device. I'll hope you have a solution and are willing it to share. Have a nice day. Greetings Henk.

Have you developed a board/kit for this?

Would you be able to send me the schematic? Love this project. Currently working on many of the same type switching power supplies. I have one working and the other 20 do not work.

It's generically known as a curve tracer. That will find you a lot of schematics and detailed explanation of how it works.

Trying to order these from PCBWay but says subject to audit... What's up with that?

A little note about the oscilloscope. You have an analog one, which is great. But many modern digital scopes exhibit peculiar behaviors, if used in X-Y mode. That as a warning...

Commenting with this video having 555 likes. Seemed like a good opportunity to help out with a comment. I like the device!

Do a Carver amp refurb.

Will this work on a digital oscilloscope? ...Or is a CRT just better for this?. ........Thank you for helping with the learning curve...

Hi Richard. Thanks for this video bro! :) If i might ask for your expert advice/cooment. How common are circuits that are identical for comparison in the same device? What other uses and what other types of regular device can this assist with? Also. Can you help us viewers with discounting a benchtop 2/4 channel high frequency O/scope? there's no way the premiums charged for decent spec by scope manufacturers like keysight etc are anywhere near affordable. especially for those of us trying to break the threshold into advancing repair skills on state /disability benefits.

Could keep it old school and replace the relay with a bistable multivibrator circuit switching a couple of transistors or mosfets

If you get a new ociliscope it is now biult in and will do the XY.

Hi I think I know a circuit that can be adapted to work for this device . It uses a 555 timer a cmos Dual D flip flop and a cmos quad lateral switch and can run on 9 volt battery I can send you the schematic if your interested.

👏🏻👏🏻👏🏻

Is the Scope display flicker difference;... not the finite time the relay contact are in mid position (ie: no man's land) neither connected to 1 or the other...

I see 1 Hameg HZ65 ( Zed) for 127 quid on eBay, great project you have there and I certainly learnt something today, will you film yourself creating the PCB ?...cheers.

Did you get the finished pcb and how to get one?