If only I waited another week! I just built my first pair of your Hydrophones last week, but I didn't know if I needed to cap the ends of the piezo. That's ok though, they still sound great! It would be awesome if you shared the sound files from your initial test, that way we could drop them into our DAWs to compare the previous version to the new version! Thanks!
this is mesmerizing. I am an expedition sailboat captain in Norway, and we do like to tinker on board and DIY our own gear. I wonder, would it be possible to hear which direction the sound is coming from with an array of 6 or 7 microphones, and a speaker setup to match it? With a live rig, hydrophone array and speaker array, could we hear which direction a whale is located? Or does the sound travel too fast in water to translate that sound into airborne soundwaves that give a 360 degree direction, or maybe even possibly a 3d sound space?
Thank you! I am actually working on an immersive version of this with 8 hydrophones in a cube array. For direction finding etc, you woudl really need some DSP processing similar to passive sonar the navy uses. I plan on recording whales in the same spot this coming January with the new array.
@@SoundSleuth can't wait to see what comes. What is the benefit of multiple, or 8 hydrophones in an array? I was hoping the our ears and brain could be the signal processor in determining direction of sound source if it was a array of microphones directly connected to dedicated speakers.
Remember when mixing to go around the sides of the cup, like you're trying to get the last bit of peanut butter out of the jar. Then when pouring, try to pour from the center (like, the main flow should be from the bulk liquid, not from the walls......its hard to explain if you're not familiar with pouring materials......youll see what I mean after a few times pouring your casts), these tricks will keep from getting unmixed sticky half kicked if at all goo in your molds. Remember to get the bottom of the cup too. If there are worrisome bubbles, try to pour in a thin ribbon or a very narrow string (but dont let it break!!! keep it a solid streamer otherwise drips will grab more bubbles when they hit the surface), the thin membrane over the lip plus the shear in the flow should push most bubbles out. Also, cheap and easy releases are hairspray, clear coat, and/or regular, no frills or fluff, Dawn dish soap. Dawn is magic, itll get silicon to kick, and is a billion times cheaper than the recommended hexane and paraffin wax release. Particularly in California..... oh, and especially if using smooth-on resin kits; if you're having a problem with your resin CONTACT THEM FOR ADVICE!!! They are serious about their products (because A LOT of industry hinges upon their products working as advertised and instructed), and they are turbo nerds about the chemistry. If they have a bad batch, or could clarify their instructions better, theyll want to know about it. So, if anyone uses any smooth-on product and its not quite performing as expected, contact them. They like hearing how their products are performing!
awesome! I was looking forward to the update. I hope to make a pair myself in the near future. great that you added the piezo cilinder to your website now aswel.
@@SoundSleuth It's been awhile. I was at Fleet Sonar School Key West in nov 1972- sept 1973. There was a class of ten of us Coasties that went through A1, BE & E, A2 and C shool together. Key West shut down FSS in mid 1974 and shifted all sonar schools to Sand Dawg.
@@tomtrenter3208 I was a Navy Nuke on three different submarines. I hung out a lot in Sonar on my final boat SSN 750. Just listening to the ocean go by!
@@megatubular To go deep make sure you fill the piezo cylinder with resin. I talk about using a end caps in the video so the cylinder has an airspace to help with acoustic sensitivity. The gain is not that significant vs the risk of "crush depth".
Reference 10:30 ..... were you able to strip the epoxy off the ones you got wrong? Looking at it it seems like a dremel could possibly salvage the printed circuit board.
@@SoundSleuth The Coast Guard trained us while at FSS Key West how to use Dremel type tools to chew through epoxy conformal coating on printed circuit boards to replace bad components. It wouldn't be easy but theoretically may be possible.
Keep in mind for any serious pressure, any air void or compressible region will cause the hydrophone to be damaged. If you need to take your hydrophone to depth, definitely don't cap the ends of the cylinder, and make sure you very thoroughly degass your resin before pouring (maybe after as well if possible).
Can I assume that the P48 version will work just fine with 12v or 24v (rather than 48v) phantom power for those devices that can deliver it? Having a Zenner drop 48v to 12v worries me.
It will work on P24 as well. The zener doesn't drop 48 volts. the P48 standard supplies 48V via two 6.8K resistors on Pin 2 and Pin 3 of the incoming XLR. Then my circuit further current limits them with two 2.2K resistors. Those limit the current to the zener which is selected by its power rating. This whole circuit is based on my Op Amp impedance converter for condenser microphones. See this: www.instructables.com/OPA-Based-Alice-Microphones-a-Cardioid-and-a-Figur/ Also almost every condenser microphone with a FET uses this same topology.
@@SoundSleuth OK I think it's just terminology here. Without the zenner, 48v is delivered to pin 8 of the opamp. With the Zenner in place that rail drops to 12.6v (in my circuit). The other 36v doesn't just disappear and there are limits on what the zenner can take (I assume it's power rating)! Is the zenner power rating based on the 36v 'loss' and the current? (I only know enough about electronics to be dangerous as they say) Would a 1W 12v Zenner work here?
@@davidh1187 Actually without the Zener, the Opamp sees 48V minus the drop across the two 6.8K resistors in the mic preamp or recorder that supply the 48 volts. As this circuit is when connected you get about 22V on Pin 2 and Pin 3 of the input because of the quiescent current draw of the op amp (and residual rest of the circuit). The use of P48 and a Zener for regulation in mic circuitry is about 60 years old. en.wikipedia.org/wiki/Phantom_power
that is amazing quality - I've started ordering parts to build my own now - thanks
Well now I want a pair of these and a pair of 5 gallon buckets to take to band practice!
amazing just amazing
@@MatheAPro Thank you!
If only I waited another week! I just built my first pair of your Hydrophones last week, but I didn't know if I needed to cap the ends of the piezo. That's ok though, they still sound great! It would be awesome if you shared the sound files from your initial test, that way we could drop them into our DAWs to compare the previous version to the new version! Thanks!
You will be fine. I’ll put a link to the files in the video notes They were pretty close but I want to do more measurements.
@@SoundSleuth Great, thanks so much!
Thanks again Jules for this. Now I'm off to build another pair of hydrophones, and look for a VU T-shirt.
this is mesmerizing. I am an expedition sailboat captain in Norway, and we do like to tinker on board and DIY our own gear. I wonder, would it be possible to hear which direction the sound is coming from with an array of 6 or 7 microphones, and a speaker setup to match it? With a live rig, hydrophone array and speaker array, could we hear which direction a whale is located? Or does the sound travel too fast in water to translate that sound into airborne soundwaves that give a 360 degree direction, or maybe even possibly a 3d sound space?
Thank you! I am actually working on an immersive version of this with 8 hydrophones in a cube array. For direction finding etc, you woudl really need some DSP processing similar to passive sonar the navy uses. I plan on recording whales in the same spot this coming January with the new array.
@@SoundSleuth can't wait to see what comes. What is the benefit of multiple, or 8 hydrophones in an array? I was hoping the our ears and brain could be the signal processor in determining direction of sound source if it was a array of microphones directly connected to dedicated speakers.
The snorkeling audio sounded awesome through my studio monitors. Another great build.
Thanks Derek!
Superbly done and explanation provided is very much helpful for all enthusiasts ..,!!👍🏻👏🏻 I will surely make one myself.. 😊
Please do! You will love the results
Remember when mixing to go around the sides of the cup, like you're trying to get the last bit of peanut butter out of the jar. Then when pouring, try to pour from the center (like, the main flow should be from the bulk liquid, not from the walls......its hard to explain if you're not familiar with pouring materials......youll see what I mean after a few times pouring your casts), these tricks will keep from getting unmixed sticky half kicked if at all goo in your molds. Remember to get the bottom of the cup too. If there are worrisome bubbles, try to pour in a thin ribbon or a very narrow string (but dont let it break!!! keep it a solid streamer otherwise drips will grab more bubbles when they hit the surface), the thin membrane over the lip plus the shear in the flow should push most bubbles out.
Also, cheap and easy releases are hairspray, clear coat, and/or regular, no frills or fluff, Dawn dish soap. Dawn is magic, itll get silicon to kick, and is a billion times cheaper than the recommended hexane and paraffin wax release. Particularly in California.....
oh, and especially if using smooth-on resin kits; if you're having a problem with your resin CONTACT THEM FOR ADVICE!!! They are serious about their products (because A LOT of industry hinges upon their products working as advertised and instructed), and they are turbo nerds about the chemistry. If they have a bad batch, or could clarify their instructions better, theyll want to know about it. So, if anyone uses any smooth-on product and its not quite performing as expected, contact them. They like hearing how their products are performing!
awesome! I was looking forward to the update. I hope to make a pair myself in the near future. great that you added the piezo cilinder to your website now aswel.
Thank you
Brilliant video, full of great construction tips for amateurs like me!
Thank you!
this is brilliant. Would be cool to squeeze the circuit onto a round PCB that doubles as the to end-cap.
@@FRobot-rx4kz thanks!
This is so awesome, thank you for sharing!
You are welcome!
16:21 ...... Frying bacon, haven't heard them lil buggers in about 48 years! LOL
You must be a Sonar Tech!
@@SoundSleuth It's been awhile. I was at Fleet Sonar School Key West in nov 1972- sept 1973. There was a class of ten of us Coasties that went through A1, BE & E, A2 and C shool together. Key West shut down FSS in mid 1974 and shifted all sonar schools to Sand Dawg.
@@tomtrenter3208 I was a Navy Nuke on three different submarines. I hung out a lot in Sonar on my final boat SSN 750. Just listening to the ocean go by!
What a kool build! What would the depth rating be on this hydrophones you think ?
Easily 100ft if you don’t have an airspace it’s wiring at that point 1000ft at least
@@SoundSleuth what’s airspace ?
@@megatubular To go deep make sure you fill the piezo cylinder with resin. I talk about using a end caps in the video so the cylinder has an airspace to help with acoustic sensitivity. The gain is not that significant vs the risk of "crush depth".
Thank you for clarifying. Great channel !
Reference 10:30 ..... were you able to strip the epoxy off the ones you got wrong? Looking at it it seems like a dremel could possibly salvage the printed circuit board.
@@tomtrenter3208 that would be a lot harder than you might think. I did not attempt it
@@SoundSleuth The Coast Guard trained us while at FSS Key West how to use Dremel type tools to chew through epoxy conformal coating on printed circuit boards to replace bad components. It wouldn't be easy but theoretically may be possible.
Nice. How deep have they been?
I have these down 100ft
Keep in mind for any serious pressure, any air void or compressible region will cause the hydrophone to be damaged. If you need to take your hydrophone to depth, definitely don't cap the ends of the cylinder, and make sure you very thoroughly degass your resin before pouring (maybe after as well if possible).
@@gizmoguyar Yep. I also learned that freezing them hollow in ice isn't good. Filled solid worked.
Can I assume that the P48 version will work just fine with 12v or 24v (rather than 48v) phantom power for those devices that can deliver it? Having a Zenner drop 48v to 12v worries me.
It will work on P24 as well. The zener doesn't drop 48 volts. the P48 standard supplies 48V via two 6.8K resistors on Pin 2 and Pin 3 of the incoming XLR. Then my circuit further current limits them with two 2.2K resistors. Those limit the current to the zener which is selected by its power rating. This whole circuit is based on my Op Amp impedance converter for condenser microphones. See this: www.instructables.com/OPA-Based-Alice-Microphones-a-Cardioid-and-a-Figur/ Also almost every condenser microphone with a FET uses this same topology.
@@SoundSleuth OK I think it's just terminology here. Without the zenner, 48v is delivered to pin 8 of the opamp. With the Zenner in place that rail drops to 12.6v (in my circuit). The other 36v doesn't just disappear and there are limits on what the zenner can take (I assume it's power rating)! Is the zenner power rating based on the 36v 'loss' and the current? (I only know enough about electronics to be dangerous as they say) Would a 1W 12v Zenner work here?
@@davidh1187 Actually without the Zener, the Opamp sees 48V minus the drop across the two 6.8K resistors in the mic preamp or recorder that supply the 48 volts. As this circuit is when connected you get about 22V on Pin 2 and Pin 3 of the input because of the quiescent current draw of the op amp (and residual rest of the circuit). The use of P48 and a Zener for regulation in mic circuitry is about 60 years old. en.wikipedia.org/wiki/Phantom_power
@@SoundSleuth cheers for the link. I have seen so many schematics online that just show pins 2 and 3 as +48v I just assumed rather than investigate.