Jump to content

Recommended Posts

Posted

if you take an ordinary quartz crystal and apply a voltage to it, will it vibrate?

 

if not, how do you make it oscillate? and will it be enough that you can feel it?

Posted

Yes you can make it vibrate; what you want to do is have an amplifier circuit with feedback, where the potential across the crystal is part of a capacitor, so the RC circuit has a resonance. That way you can tune the resistor (or a second capacitor) so that the voltage oscillates at the same frequency as the crystal. There are a lot of different circuit designs that will do this.

 

You probably can't feel the DC displacement, but it will buzz if the frequency is high enough — buzzers use piezoelectric transducers. The displacement is small, but you can stack many of them together. The stack actuators I'm familiar with have a travel of less than 1 mm.

Posted

thankyou, could you give an example of a simple circuit design?

 

and haha ophiolite :lol:

 

also, what happens if alternating current is used?

Posted

if you take an ordinary quartz crystal and apply a voltage to it, will it vibrate?

 

if not, how do you make it oscillate? and will it be enough that you can feel it?

 

 

and can you do it from a distance? like...remotely? shut it on and off? it may be a silly question but are these crystals in voting machines? I know they use them in humans for medical purposes........

Posted

and can you do it from a distance? like...remotely? shut it on and off? it may be a silly question but are these crystals in voting machines? I know they use them in humans for medical purposes........

You could turn the circuit on and off remotely. Any electronics with its own processor will have a clocking circuit.

Posted

Yes you can make it vibrate; what you want to do is have an amplifier circuit with feedback, where the potential across the crystal is part of a capacitor, so the RC circuit has a resonance. That way you can tune the resistor (or a second capacitor) so that the voltage oscillates at the same frequency as the crystal. There are a lot of different circuit designs that will do this.

 

You probably can't feel the DC displacement, but it will buzz if the frequency is high enough — buzzers use piezoelectric transducers. The displacement is small, but you can stack many of them together. The stack actuators I'm familiar with have a travel of less than 1 mm.

 

Did you mean "tune an INDUCTOR (or capacitor)"? A crystal is usually accurately cut to oscillate at a given frequency or one of its harmonics. That manufactured frequency can be changed a certain amount with a tuned circuit - but only by so much. The resonant frequency of a tuned circuit is 1/(2*pi*(SQR(L*C))) Hz. I have never experienced an oscillator circuit that was tuned to a different frequency by changing resistance.

Posted

could that be why so many people today are hearing ringing or humming in their ears? and Ophio's comment.....lolol ....why hitting it with a hammer..lol.... is that what a bug is made out of lol.....when they say if walls could talk...lol

 

last question:.....how would anyone detect one...... like if your going thru an airport....could one be detected in a human going thru a scanner.....or that scanner affect that person....like shutting it off or vibrating it....especially if its a heart monitor......

 

Did you mean "tune an INDUCTOR (or capacitor)"? A crystal is usually accurately cut to oscillate at a given frequency or one of its harmonics. That manufactured frequency can be changed a certain amount with a tuned circuit - but only by so much. The resonant frequency of a tuned circuit is 1/(2*pi*(SQR(L*C))) Hz. I have never experienced an oscillator circuit that was tuned to a different frequency by changing resistance.

 

 

since the crystal oscillates at its given frequency or harmonics..........what would happen if someone with one of these crystals was sitting watching a movie with surround sound with all the vibrations included in that moving........ wouldnt or couldnt that circuit be affected by that frequency?

Posted

Did you mean "tune an INDUCTOR (or capacitor)"? A crystal is usually accurately cut to oscillate at a given frequency or one of its harmonics. That manufactured frequency can be changed a certain amount with a tuned circuit - but only by so much. The resonant frequency of a tuned circuit is 1/(2*pi*(SQR(L*C))) Hz. I have never experienced an oscillator circuit that was tuned to a different frequency by changing resistance.

 

Yeah, brainfart. R doesn't affect the resonance.

  • 1 month later...
Posted

ok..... like in a remote control........i picked up a universal remote for an old tv...... i had to keep repeating the signal till it picked up the tv signal number. So is that remote a signal generator or a frequency generator? Why would a magnet repel the wave or frequency . Wondering if the oscillation would change the repelling?

 

Whats the difference from a RF and a microwave frequency? is it the heat? again wondering if the oscillation causes the heat? Just a question because these vibrations i've been getting......and zaps......... i was holding the remote while on the cell phone and the remote vibrated and i dropped it......... what would cause that.

 

One last question: can a rf wave cause an electrical wave current?......kind of like two electrical wires causing a magnetic wave.

  • 7 years later...
Posted
On 6/16/2011 at 9:16 PM, swansont said:

Yes you can make it vibrate; what you want to do is have an amplifier circuit with feedback, where the potential across the crystal is part of a capacitor, so the RC circuit has a resonance. That way you can tune the resistor (or a second capacitor) so that the voltage oscillates at the same frequency as the crystal. There are a lot of different circuit designs that will do this.

 

I have no problem with tuning the RC circuit to the frequency of the crystal. But how is it that the crystal used vibrates at the fixed speed of 32,768 vibrstions/sec. Is this number decided by nature? If so it is a remarkable coincidence that Providence has provided a number capable of being divided by 2  15 times  (or any other suitable number to replace the 15) to give a pulse of once per second. There is an infinite range of numbers in the world (such as 32,769 to (2 x 32,768-1)) that would not give this exact result and if Nature had "chosen" one of these, a quartz crystal could not be used.

Could the answer be that by manufacturing the crystals (by the million), they could be tested for the few that had the correct property? A time-consuming task.

What's the answer to this conundrum please?

Thanks.

Posted (edited)

Quartz crystals has  piezoelectric properties due to its electric dipole structure. Quartz has a natural structure however many ceramics can be manmade. The frequency of resonance is determined by the same structure. However different frequencies can be generated by different dipole arrangements.

https://en.wikipedia.org/wiki/Piezoelectricity

Edited by Mordred
Posted
48 minutes ago, Stevekir said:

But how is it that the crystal used vibrates at the fixed speed of 32,768 vibrstions/sec.

The frequency is determined by the size and the "cut" of the crystal.

Crystals are manufactured with a range of different frequencies. 32kHz is useful, as you say, for real time clocks. Microcontrollers typically use crystals with a frequency of 10MHz to 15MHz - this is multiplied up internally to the microcontroller to provide the different frequencies used by the bus, processor, memory, etc. Other systems use clocks of different frequencies.

Although crystals provide a stable frequency reference, the frequency can also be adjusted over a small range by changing the load capacitance in the circuit.

Posted
1 hour ago, Stevekir said:

I have no problem with tuning the RC circuit to the frequency of the crystal. But how is it that the crystal used vibrates at the fixed speed of 32,768 vibrstions/sec. Is this number decided by nature? Thanks.

No, it's how big the crystal is, and how it is cut, mainly.

 

edit: xpost with Strange 

9 minutes ago, Strange said:

 Crystals are manufactured with a range of different frequencies. 32kHz is useful, as you say, for real time clocks. Microcontrollers typically use crystals with a frequency of 10MHz to 15MHz - this is multiplied up internally to the microcontroller to provide the different frequencies used by the bus, processor, memory, etc. Other systems use clocks of different frequencies.

We use 5 MHz in our fountain clocks, since that's convenient — many of our signals are at 5 MH (making the clock comparisons simple), and it's easily multiplied up to other frequencies we use.

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now
×
×
  • Create New...

Important Information

We have placed cookies on your device to help make this website better. You can adjust your cookie settings, otherwise we'll assume you're okay to continue.