How to convert 1 frequency to a lower frequency?

  • Thread starter Thread starter David lopez
  • Start date Start date
  • Tags Tags
    Convert Frequency
AI Thread Summary
To convert a 5.8 GHz radio signal to 100 MHz, a heterodyne process is typically used, involving mixing the higher frequency with a locally generated continuous wave (CW) signal. This mixing creates outputs at both sum and difference frequencies, allowing for the desired 100 MHz signal to be filtered and amplified. Essential hardware includes a 5.8 GHz receiver, a digital data recorder, a mixer (preferably a nonlinear device like a square law diode), and a 100 MHz transmitter. An alternative method involves demodulating the 5.8 GHz signal and re-modulating it onto a 100 MHz carrier, though this may introduce buffering issues and limit data rates. Understanding the implications of carrier frequency on data rates is crucial in this conversion process.
David lopez
Messages
257
Reaction score
3
could you describe the hardware needed to convert 5.8 gigahertz to 100 megahertz?
 
Engineering news on Phys.org
i mean could you describe the hardware needed to convert a radio signal at 5.8 gigahertz to a radio signal at 100 megahertz? the hardware receives a radio signal at 5.8 gigahertz and retransmits it at 100 megahertz.
 
Receiver 5.8 Ghz, Digital data recorder, Transmitter 100 Mhz
 
  • Like
Likes russ_watters
but, how does it convert the higher frequency radio signal to the lower frequency radio signal?
 
The usual method is to mix the 5.8 GHz with a locally generated CW signal at 5.7 or 5.9 Ghz. This produces a beating action and creates outputs at sum and difference frequencies. We filter off the wanted one at 100MHz and amplify it to the desired power.
The process is called heterodyne action, and the mixer must be a non linear device, such as a square law diode. We usually amplify the 5.8GHz a little before the mixer in order to overcome mixer losses and noise. The circuit producing the CW signal for the mixer is called a local oscillator.
 
  • Like
Likes Keith_McClary and trurle
Yes, the alternative is to demodulate the 5.8GHz signal and then re-modulate the information on to a 100MHz carrier.
 
  • Like
Likes skeptic2 and berkeman
Depending on the type of signal or data you plan on sending you may have buffering issues. Keep in mind data rate is basically dependent on carrier frequency, well, data rate is dependent on bandwidth, but the bandwidth cannot be higher than the carrier, so carrier freq puts an upper limit on data rate. The 5.8GHz would have a much higher data rate potential than the 100MHz, just something to be aware of.
 
David lopez said:
could you describe the hardware needed to convert 5.8 gigahertz to 100 megahertz?
Here's another wide open question from you. What have you actually read about this? Search Google for frequency mixing and heterodyne circuits and ask a question about something you have actually found out on your own.
 
  • Like
Likes davenn, Vanadium 50 and Averagesupernova

Similar threads

Digital phase converters for running 3-phase motors
Replies
27
Views
297
Sources of voltage ripple in buck converter
Replies
13
Views
3K
How Do I Design an EMI Filter for a Converter with Only Voltage and Power Specs?
Replies
8
Views
2K
Is my understanding of the Nyquist theorem correct?
Replies
4
Views
2K
Choosing a pulse capacitor, ESR vs reactance at frequency
Replies
5
Views
2K
Connecting DC Boost Converters in Series
Replies
21
Views
7K
Converting oscilloscope voltage to laser power
Replies
12
Views
2K
Can I series buck converters to get higher stepdown ratio?
Replies
10
Views
2K
How can I convert audio signals into pulses for radio transmission?
Replies
20
Views
2K
How can I convert loss units, dB/mm, to mm^-1
Replies
7
Views
3K

Hot Threads

Recent Insights

Back
Top