How can I build a radio tuned to 120.55 Mhz using a simple circuit?

  • Thread starter Thread starter Phymath
  • Start date Start date
  • Tags Tags
    Radio
AI Thread Summary
To build a radio tuned to 120.55 MHz, a basic circuit can be constructed using a tank circuit with a specific inductor and capacitor to achieve resonance. A suggested configuration includes a 1 microhenry inductor and a 1.743 picofarad capacitor, though adjustments may be necessary for optimal performance. The circuit typically features a simple antenna connected to a parallel tuned circuit, with a diode and earphones for audio output. This type of setup is known as a crystal radio and is passive, requiring no external power source. However, it is important to note that this circuit is primarily suited for AM reception and may not effectively receive FM stations.
Phymath
Messages
183
Reaction score
0
How would u make a radio that's tuned into 120.55 Mhz? or any frequency? I thought you would fallow this formula...
(120.55 * 10^6 Hz) = 1/(2 pi sqrt(LC)), where L is the inductence, and C the capacitor. well i figured a 1 micro (10^-6) Henry inductor and a 1.743 pF (10^-12) would create the resonance frequency of 120.55 Mhz and thus that radio station would come in on the sieres circut i created, but would this acutally work? what would be the actually schematic where to place the anntenna, ground, diode, head phones, etc.. thanks to anyone who can explain to me if or how it will work

-Phymath
 
Engineering news on Phys.org
I've seen that

One of my instructors showed us a simple AM radio he built with just that type of setup. It was a totally passive radio. A simple antenna lead to a tank circuit... the tank circuit was in parallel to another parallel branch that had a diode and capacitive earphone (single earphone).
 
Why 120.55 Mhz is there at strong station there , and if so is it AM or FM .
The type of circuit your referring to is the simplest form of AM radio. It comprises a parallel tuned circuit using a cap of say 20 pf ( usually a variable ) with suitable inductor per your calc. of good Q . They used to wind them . The antenna ( wire of several feet )is connected to one end of the // pair and a ground "large metal chassis'
to the other. A diode is connected from the antenna side to some earphones and then back to ground. The earphones should be coil types NOT capacitive.
This circuit is NOT very sensitive and used to be used for longwave radio reception at 500Khz or so. It will not receive FM stations .
If your really serious you may wish to look at some modern chips which can be the basis of very sensitive circuits , but they require a fair amount of support components.
Ray.
 
Hi.
What RFbeginner told U is a good project, I made once this type. U don't have to use power sources or batt's, only a big antenna, an earphone (like the old phones), and creativity making the inductance. It works better if you use a mobile indictance inside the first one.
Bye.
 
These sorts of passive radios are called "crystal radios," by the way, and the web is teeming with info about them.

- Warren
 

Thread '3-terminal device external modeling'

Very basic question. Consider a 3-terminal device with terminals say A,B,C. Kirchhoff Current Law (KCL) and Kirchhoff Voltage Law (KVL) establish two relationships between the 3 currents entering the terminals and the 3 terminal's voltage pairs respectively. So we have 2 equations in 6 unknowns. To proceed further we need two more (independent) equations in order to solve the circuit the 3-terminal device is connected to (basically one treats such a device as an unbalanced two-port...
View full post »

Thread 'Question about the voltage between two charged capacitors'

suppose you have two capacitors with a 0.1 Farad value and 12 VDC rating. label these as A and B. label the terminals of each as 1 and 2. you also have a voltmeter with a 40 volt linear range for DC. you also have a 9 volt DC power supply fed by mains. you charge each capacitor to 9 volts with terminal 1 being - (negative) and terminal 2 being + (positive). you connect the voltmeter to terminal A2 and to terminal B1. does it read any voltage? can - of one capacitor discharge + of the...
View full post »
Thread 'Weird near-field phenomenon I get in my EM simulation'

Thread 'Weird near-field phenomenon I get in my EM simulation'

I recently made a basic simulation of wire antennas and I am not sure if the near field in my simulation is modeled correctly. One of the things that worry me is the fact that sometimes I see in my simulation "movements" in the near field that seems to be faster than the speed of wave propagation I defined (the speed of light in the simulation). Specifically I see "nodes" of low amplitude in the E field that are quickly "emitted" from the antenna and then slow down as they approach the far...
View full post »

Similar threads

How does AM broadcasting/receiving work + a project for HS students?
Replies
20
Views
1K
How does the source voltage affect the inductance in a 1 Mhz amplifier circuit?
Replies
7
Views
6K
Q factor of an AM radio RLC circuit
Replies
4
Views
3K
How can RLC circuits and LCAM be used together to demodulate AM signals?
Replies
15
Views
6K
Radio-frequency plasma fun: How to characterize a plasma circuit?
Replies
3
Views
6K
FM Radio receiver in RLC circuit with .200 microH Inductor
Replies
5
Views
11K
Solving for C in terms of L: Find C in RLC Circuit for 950kHz Station
Replies
5
Views
2K
What Capacitance is Needed to Tune an LC Circuit to 100 MHz?
Replies
1
Views
3K
Building a RC circuit to pick up radio waves
Replies
5
Views
3K
How do I build simple circuits?
Replies
33
Views
5K

Hot Threads

Recent Insights

Back
Top