Modulation Circuit for a Radio Device and A Method Thereof
First Claim
1. A circuit comprising:
- a first signal path comprising a first mixer, wherein the first mixer is configured to modulate a baseband signal with a local oscillator signal to provide a first radio-frequency signal;
a second signal path comprising a delay circuit and a second mixer, wherein the delay circuit is configured to delay the baseband signal by a delay time, and wherein the second mixer is configured to modulate the delayed baseband signal with the local oscillator signal to provide a second radio-frequency signal; and
an adder circuit configured to combine the first radio-frequency signal and the second radio-frequency signal to provide an output radio-frequency signal.
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Accused Products
Abstract
The present disclosure relates to a modulation circuit and a method for suppressing energy content of spectral side lobes caused by high-frequency content present in a baseband signal, with the energy content of the spectral side lobes being outside an intended operational bandwidth in a modulated radio-frequency signal. An example circuit is configured to: receive a digital baseband signal, feed the digital baseband signal to a first and a second signal path, with the first signal path comprising a first mixer and the second signal path comprising a delay circuit and a second mixer. The first mixer and the second mixer may receive a same local oscillator signal, and may respectively provide a first radio-frequency signal and a second radio-frequency signal that are delayed with respect to each other. The example circuit is further configured to generate an output radio-frequency signal by combining the first and second radio-frequency signals.
12 Citations
12 Claims
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1. A circuit comprising:
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a first signal path comprising a first mixer, wherein the first mixer is configured to modulate a baseband signal with a local oscillator signal to provide a first radio-frequency signal; a second signal path comprising a delay circuit and a second mixer, wherein the delay circuit is configured to delay the baseband signal by a delay time, and wherein the second mixer is configured to modulate the delayed baseband signal with the local oscillator signal to provide a second radio-frequency signal; and an adder circuit configured to combine the first radio-frequency signal and the second radio-frequency signal to provide an output radio-frequency signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method comprising:
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receiving at a modulation circuit a digital baseband signal; mixing the digital baseband signal with a local oscillator signal to generate a first radio-frequency signal; delaying the digital baseband signal to provide a delayed baseband signal; mixing the delayed baseband signal with the local oscillator signal to generate a second radio-frequency signal; and generating an output radio-frequency signal by combining the first radio-frequency signal and the second radio-frequency signal. - View Dependent Claims (10, 11)
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12. A radio device comprising a modulation circuit, the modulation circuit comprising:
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a first signal path comprising a first mixer, wherein the first mixer is configured to modulate a baseband signal with a local oscillator signal to provide a first radio-frequency signal; a second signal path comprising a delay circuit and a second mixer, wherein the delay circuit is configured to delay the baseband signal by a delay time, and wherein the second mixer is configured to modulate the delayed baseband signal with the local oscillator signal to provide a second radio-frequency signal; and an adder circuit configured to combine the first radio-frequency signal and the second radio-frequency signal to provide an output radio-frequency signal.
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Specification