How do I generate a broadband or wideband carrier?

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Generating a broadband or wideband carrier typically involves using multiple oscillators to create a wider frequency range, often through techniques like frequency mixing. A single carrier is generally limited to a specific frequency, so to fill a bandwidth like 100KHz or 100MHz, multiple carriers or modulation schemes are used. Advanced methods such as frequency synthesizers, phase-locked loops (PLLs), and direct digital synthesis (DDS) provide greater control and flexibility in frequency generation. These techniques allow for precise manipulation of frequencies while considering stability and accuracy. Understanding the context of the application is crucial for selecting the appropriate method for generating wideband carriers.
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Generating a carrier on a single frequency is simple, just use an oscillator of a specific frequency and amplify.

But how do I generate a carrier that is 100KHz wide, or even 100MHz wide? The obvious answer is more oscillators, but is there a better way?
 
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Welcome to the PF.

I don't think there is such a thing as a "carrier that is 100kHz wide". You can fill out a 100kHz channel with multiple carriers (like in OOFDM), or you can modulate a carrier, but a single carrier is generally at a single frequency.

What is the context of your question? What are you studying?
 
I don't think there is such a thing as a "carrier that is 100kHz wide".

I understand this.

You can fill out a 100kHz channel with multiple carriers (like in OOFDM), or you can modulate a carrier, but a single carrier is generally at a single frequency.

My question is related to generation and independent control of multiple carriers spanning a given bandwidth (i.e. 100KHz or 100MHz.)

What is the context of your question? What are you studying?

I have been looking at some types of digital signals with large bandwidths (1/4/8MHz, etc). Is this bandwidth composed of independent carriers, or is it the result of interactions due to the modulation scheme employed?
 
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Generating a broadband or wideband carrier involves using multiple oscillators and combining their frequencies to create a wider frequency range. This can be achieved through techniques such as frequency mixing, where two oscillators with different frequencies are combined to create a new frequency that is the sum or difference of the original frequencies. This method can be repeated multiple times to generate a wider range of frequencies.

Another approach is to use a frequency synthesizer, which is a device that can generate a wide range of frequencies by combining multiple oscillators and using a control circuit to select and combine specific frequencies. This allows for precise control and flexibility in generating a broadband or wideband carrier.

In addition, techniques such as phase-locked loops (PLLs) and direct digital synthesis (DDS) can also be used to generate a wide range of frequencies by manipulating the phase and frequency of a single oscillator.

Overall, while using multiple oscillators may seem like the most straightforward solution, there are more advanced techniques and technologies available for generating a broadband or wideband carrier. It is important to consider factors such as frequency stability, accuracy, and control when choosing the best method for your specific application.
 

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