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Good lord, your channel is so underrated, every single other video I found just explain how to make the circuit, you're the first one I found that explained what the circuit is actually doing to the crystal, thank you😂
I remember the days we had to buy magazines to learn this stuff. And now its in plentiful supply on youtube. The ability to be a maker now-a-days is so much easier that we are seeing so much more innovation. And it's channels like this that are pushing us all forward. Brilliant!
Huge thanks for video. It took me only two days googling + microscope + this video and now i know wtf is & does this component on circuit. Now lets build adjustable frequency magnetic induction furnace.. ..after researching how much current it can hold or how to go around this "small issue"? 😅
Great video, useful.. In the previous days I was working on your portable soldering iron, with atmega328p-pu and I replaced the BJT (2SC3356) with2SC945
The only thing that is missing in this video is that you can (up to some range) check if crystals are working, using multimeter, by placing black probe to gnd, and red probe to one of contacts of resonator, multimeter should show frequency while device/pcb is turned ON. Not everyone has oscilloscope at home.
Is it true that the 3p resonators won't need capacitors in series with them (the ones that usually came with the value of 22pF) Because, I've seen a lot of microcontroller schematics that uses those 3p resonators, but doesn't use 2x 22pF capacitors...
Would you point me in the right direction to make a sonic knife? I actually want use wires in parallel. My goal is similar to slicing an entire loaf of bread in one pass.
Hi How Can I Lower The Frequency Of Quartz Crystal From 32768 kHz to 24500 kHz? I Wanna Create And Measure Martian Time Which Is 24 Hours 39 Minutes Thanks
Fg 200 dds hs çıkış signal generator ile 1mhz hs hıgh speed ile artı çıkış almak mümkünmü ve kare üçgen dalga verip frekans ları kullanmak istiyorum yardım edermisin
No an atomic part uses the resonance of atoms like Cesium or Rubidium. I believe these use a microwave cavity to set up the oscillations. Another (newish tech) resonator is MEMS (Micro Electrical Mechanical Systems). These are more stable over a wider temperature ranges, as quartz need to be temperature stabilized to remain accurate (ie Oven Crystal Oscillators OXCO).
Two noob questions if someone would kind enough to answer, pls & ty.... 1. If you always have to essentially convert the hertz to seconds, why is that particular speed so special or any easier to use, just because it evenly divides down to a whole number 1? 2. Why cant they just manufacturer 1hz crystal, save everyone a lot of work?
The answer is pretty simple. Let's suppose that while measuring time, there is always an error of 0.05Hz which can be machine error, human error or any type of an unavoidable error (since we don't live in an ideal world). Case 1: Now if we try to make a crystal of 1Hz, the worst-case scenario will be that we might end up making a crystal of 1.05Hz. Now while measuring time, this error will get added up with each clock tick. So after 1000s, the calculated time will be 952s with such a crystal. The situation will get worse as time passes by. Case 2: Now if we make a crystal of 32767Hz, the worst-case scenario will be that we might end up making a crystal of 32767.05Hz. When we divide this value by (2^15) using 15 flip flops, we'll get a net value of 1.0000015Hz. On measuring 1000s with such a crystal the measured time will be 999.9985s. Which case seems more accurate?
@@dtpc_technologies wow, great explanation, thanks so much! Im a software guy long before a hardware one... i need to remember the physical world is not the same as the virtual 😉
@@hardxor Ever tried cutting vegetables with a sword? It's not only about the number of flip flops. At such a high frequency, we have to use components that can actually handle such a high frequency. This will also reduce the battery life and will have other negative effects too. Will you pay 25 times the price for a watch with 10% battery life and almost the same precision?
Issue is size. A 1 Hz Crystal would be quite large and too big to use in a watch. The crystal size and shape determines it resonant frequency, just the the length of a pendulum. The shorter the pendulum the faster it oscillates.
Would be good to see some practical examples. Say for example an old laptop. Show the crystal. Each pin and readings from it...probably a seperate video.
While I do appreciate the effort you've put into that video , you're going too fast. If someone's watching this, either they'll know how it work and already understand what's going on, or they'll dont know and won't understant anything.
Sad to see you are resonating a metal ruler on that oscilloscope. Im doing electronics since 2009 and self studying about microcontrollers since 2015. I haven't even seen an oscilloscope in real yet 🙃😭
Your English is very good. Unfortunately you speak too fast for my ears to synch with your voice. I would like to be able to learn under you. Is it possible to speak just a bit slower. If not I'll still be here trying. Thanks.
You use illustrations from www.electronics-tutorials.ws and do not state the source. Shame.. This resource deserves all the credit. Every noob should have it bookmarked.
Good day. Sorry I didn't realized that. Plese tell me on which minute you think I've used that illustration and I'll place a credit link in the description.
Everyone who is working with microcontrollers knows the usage of a crystal because he is needing it and knows how to use it.For all the others enthusiasts what about is the interest for the crystal oscillators?Very boring components,cant even measure them with a multimeter to see a reading.Encapsulated glasses with pin connectors.
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Correction to 9:41 The clock crystal is usually rated at 32768 Hertz, which is 32.768 KHz, not 32768 MHz.
@@devrim-oguz ups. My bad. Yes is KHz!
Good lord, your channel is so underrated, every single other video I found just explain how to make the circuit, you're the first one I found that explained what the circuit is actually doing to the crystal, thank you😂
I just started researching about timing diagrams, clock rate etc and you and Dave from EevBlog put these videos that I need
I remember the days we had to buy magazines to learn this stuff. And now its in plentiful supply on youtube. The ability to be a maker now-a-days is so much easier that we are seeing so much more innovation. And it's channels like this that are pushing us all forward. Brilliant!
I was searching for this explanation since a long time .
great work man 👏
Best electronic channel in youtube
Very well explained
My teacher never explained me this way
Really, really interesting, dude! 😃
In the past you had to change the resonator from the remote controller to change the frequency! 😂
True!
your video is just like great scott you are also one of the bests
Change "i hope you learned something new today" to "i know that you've learned many things from this video"
Electronoobs channel is awesome 🥰
jaja
Amazingly explained !!!
Superb bro hats off 👌👌👌
Huge thanks for video.
It took me only two days googling + microscope + this video and now i know wtf is & does this component on circuit. Now lets build adjustable frequency magnetic induction furnace.. ..after researching how much current it can hold or how to go around this "small issue"? 😅
Great video, useful..
In the previous days I was working on your portable soldering iron, with atmega328p-pu and I replaced the BJT (2SC3356) with2SC945
Very helpful video and helpful information
This video is a gem. Thanks a lot.
this is very informative , thank you very much mr
Love the added production! Thank you.
Wow got something new info. Thank you very much keep growing
Thankyou as an electronics noob it is helpful.
I love this channel very much,superb👌👌👌👌👌👌
Awesome explanation bro
very nice explanation
A homemade piezzo digital clock could be interesting. Waiting for new videos.
Keep posting more theory related and practical explanation for them, like this vedio, it helps us understand more clearly
The only thing that is missing in this video is that you can (up to some range) check if crystals are working, using multimeter, by placing black probe to gnd, and red probe to one of contacts of resonator, multimeter should show frequency while device/pcb is turned ON. Not everyone has oscilloscope at home.
It is very useful video. Thank U.
மிக சிறந்த பதிவு.👍👌
Thank you Electronoobs
Awesome.
Your videos inspired me a lot..
Thanks
O see your every video
Love you from Nepal
you are a genius👏
Great video, well explained !
9:42 wait, what ??
32768 MHz crystal..?? 😛😂
Still love your videos.❤👌👏
Nono my bad. Wanted to say Hz.
😂😂i was also thinking the same
One minor correction: A clock crystal resonates at 32768 Hz, not MHz
That's what I was looking for
Nice explaination.
But how do motherboards reach the Ghz range?
Best video ever
İ can not find co4905 clock crystal oscillator application note.How we hey square wave from this oscillator.i take sinusoidal signal
Very good sir, from india
So how can we calculate / measure the parameters of an unknown coil, or design one that we need by winding up some wire?
Wow
amazing
Is it true that the 3p resonators won't need capacitors in series with them
(the ones that usually came with the value of 22pF)
Because, I've seen a lot of microcontroller schematics
that uses those 3p resonators, but doesn't use 2x 22pF capacitors...
Would you point me in the right direction to make a sonic knife? I actually want use wires in parallel. My goal is similar to slicing an entire loaf of bread in one pass.
Hii great project..... please make emergency blinkers like police car for drones
Hi
How Can I Lower The Frequency Of Quartz Crystal From 32768 kHz to 24500 kHz?
I Wanna Create And Measure Martian Time Which Is
24 Hours 39 Minutes
Thanks
can you consider making basic videos...or tutorials for circuit design & PCB construction..also some videos on the use of PCB design software...
Without osilloscope how do I check that the oscilator is working
Can you talk about PLL next? How they get the higher harmonics up to GHz?
Thank you so much.
Sir can I use 4 pad 12mhz crystal oscillator with ch340g for my arduino.
7:02 SMPS use this technique ?
7:05.CanThisOscilateLikeThis,WithOnly1Transistor?
Thanks ❤️
very useful clip for me thanks !
i want to put a crystal resonator on a toy receiver but its not working
Sir will it be possible for you to make a video explaining , astable multivibratör , and other circuits in this video
Please do it if you can
thank you very much
Fg 200 dds hs çıkış signal generator ile 1mhz hs hıgh speed ile artı çıkış almak mümkünmü ve kare üçgen dalga verip frekans ları kullanmak istiyorum yardım edermisin
Etmez anlamaz kendim yaptım zaten
Amazing
Electronoobs también tenes en ingles (para me confundí ahora me voy a Electronoobs España)
Very good sir
hello sir
can you give me the blue print of your rc remotcontroler or reciver and transmeter
How do this smd capacitor work.🤔
my mind is now blown
Nice 👍
Bro where is that airplane project you talked about in earlier video
Good, if not the best video on youtube , about oscilators. But part about capacitors around crystal is not clear at all(((
sir please make crystal redio reciver and transmeter circuit.
How about atomic clock? Is it use a crystal too?
No an atomic part uses the resonance of atoms like Cesium or Rubidium. I believe these use a microwave cavity to set up the oscillations.
Another (newish tech) resonator is MEMS (Micro Electrical Mechanical Systems). These are more stable over a wider temperature ranges, as quartz need to be temperature stabilized to remain accurate (ie Oven Crystal Oscillators OXCO).
Nice man
Kindly make arduino based laser mouse. 👍👍👍👍👍👍😍😍😍
Two noob questions if someone would kind enough to answer, pls & ty....
1. If you always have to essentially convert the hertz to seconds, why is that particular speed so special or any easier to use, just because it evenly divides down to a whole number 1?
2. Why cant they just manufacturer 1hz crystal, save everyone a lot of work?
The answer is pretty simple.
Let's suppose that while measuring time, there is always an error of 0.05Hz which can be machine error, human error or any type of an unavoidable error (since we don't live in an ideal world).
Case 1: Now if we try to make a crystal of 1Hz, the worst-case scenario will be that we might end up making a crystal of 1.05Hz. Now while measuring time, this error will get added up with each clock tick. So after 1000s, the calculated time will be 952s with such a crystal. The situation will get worse as time passes by.
Case 2: Now if we make a crystal of 32767Hz, the worst-case scenario will be that we might end up making a crystal of 32767.05Hz. When we divide this value by (2^15) using 15 flip flops, we'll get a net value of 1.0000015Hz. On measuring 1000s with such a crystal the measured time will be 999.9985s.
Which case seems more accurate?
@@dtpc_technologies wow, great explanation, thanks so much! Im a software guy long before a hardware one... i need to remember the physical world is not the same as the virtual 😉
@@dtpc_technologies then why dont put 1GHz to watch and few more flipflops.... this will produce much more precision
@@hardxor Ever tried cutting vegetables with a sword?
It's not only about the number of flip flops. At such a high frequency, we have to use components that can actually handle such a high frequency. This will also reduce the battery life and will have other negative effects too. Will you pay 25 times the price for a watch with 10% battery life and almost the same precision?
Issue is size. A 1 Hz Crystal would be quite large and too big to use in a watch. The crystal size and shape determines it resonant frequency, just the the length of a pendulum. The shorter the pendulum the faster it oscillates.
4:16 This a Largest Crystal Oclilator 24.000.000.000mHz
Two caps with crystal resonator is in parallel not series
thanks !
Por favor este video que sea pronto en español
that is very hard to check on a pcb board- better buy a replacement if not sure
Please make dc esc please help me out how to make this
Great scott also made one himself
Nice
I didn't knew that there were so many flip-folps inside my watch.
Jimmy Buffett wrote a a song when he blew out a flip-flop while on a trip to Margaritaville.
I think you meant 32768 Hertz, not 32768 Megahertz. 32.7GHz in your watch would be absolutely ridiculous.
Would be good to see some practical examples. Say for example an old laptop. Show the crystal. Each pin and readings from it...probably a seperate video.
Great
While I do appreciate the effort you've put into that video , you're going too fast. If someone's watching this, either they'll know how it work and already understand what's going on, or they'll dont know and won't understant anything.
Sorry, I'll try to go slower
@@ELECTRONOOBS Don't worry, worst case scenario we can pause the video ;)
9:40 32768MHz would be a bit much...
08:07 #Flux=WasteOfTime
Sad to see you are resonating a metal ruler on that oscilloscope. Im doing electronics since 2009 and self studying about microcontrollers since 2015. I haven't even seen an oscilloscope in real yet 🙃😭
Someone please hand me a band aid, I'm pretty sure that my head just exploded.
#awesome
You should talk faster ! It remember me "Great Scott" When you talk ... Do you know him ?
Your English is very good. Unfortunately you speak too fast for my ears to synch with your voice. I would like to be able to learn under you. Is it possible to speak just a bit slower. If not I'll still be here trying. Thanks.
Previous font style was better
I'll have that in mind!
👀 ✅
Intonation overload
You use illustrations from www.electronics-tutorials.ws and do not state the source.
Shame.. This resource deserves all the credit. Every noob should have it bookmarked.
Good day. Sorry I didn't realized that. Plese tell me on which minute you think I've used that illustration and I'll place a credit link in the description.
Everyone who is working with microcontrollers knows the usage of a crystal because he is needing it and knows how to use it.For all the others enthusiasts what about is the interest for the crystal oscillators?Very boring components,cant even measure them with a multimeter to see a reading.Encapsulated glasses with pin connectors.
The inductance meter tutorial he mentioned is here: ua-cam.com/video/BGjV5vUvGPc/v-deo.html
32768 Hz crystal, not MHz!
indonesia language please sir🙏
Ma non ci credo, quindi sei italiano??