Add to ORKGThis work presents a fully integrated multi-band frequency synthesizer that is capable of creating wide-band linear frequency sweeps of very short duration. The main aim is to create a flexible waveform generation system, requiring distribution of a low frequency reference rather than RF signals. By using a phase-locked loop, frequency multiplication (rather than shifting) occurs. This allows for a narrow band and low frequency reference signal, allowing digital reference generation and thus providing a large degree of flexibility. Chirps with a bandwidth of 1 GHz (in X-band) and duration as short as 10 μs can be created. The chip can be operated in either pulsed or CW mode. The small external size of the package, which measures 5×5 mm 2 me...
Direct digital synthesis (DDS) is a method of producing an RF analogue waveform which is usually a s...
Abstract: By developing a low-noise frequency synthesizer at 2 GHz and applying a pair of doublers, ...
Overcoming the agility limitations of conventional frequency synthesizers in multi-band OFDM ultra w...
Abstract—A type-III PLL is used to generate linear frequency ramps with 386 kHz RMS frequency error ...
A type-III PLL is used to generate linear frequency ramps with 386 kHz RMS frequency error in L-band...
A type-III PLL is used to generate linear frequency ramps with 386 kHz RMS frequency error in L-band...
The vast number of radar applications generates the demand for highly-linear, low-noise, fast chirp ...
This paper discusses the most recent advances in the design of fast chirp modulators in modern CMOS ...
Traditional designs of commercial frequency synthesizers for multi-GHz mobile RF wireless applicatio...
This frequency synthesizer design aims at achieving low phase and high reliability for X-band digita...
Due to the character of the original source materials and the nature of batch digitization, quality ...
A great number of spatially distributed transceiver chips within multiple-input multiple-output rada...
The wireless communication industry is currently experiencing a tremendous growth. The frequency syn...
In a wide-band RF system, the RF channel is located within 50 MHz to 9 GHz. A high-frequency resolut...
This paper describes a 23-GHz digital bang-bang phase-locked loop (PLL) fabricated in 65-nm CMOS for...
Direct digital synthesis (DDS) is a method of producing an RF analogue waveform which is usually a s...
Abstract: By developing a low-noise frequency synthesizer at 2 GHz and applying a pair of doublers, ...
Overcoming the agility limitations of conventional frequency synthesizers in multi-band OFDM ultra w...
Abstract—A type-III PLL is used to generate linear frequency ramps with 386 kHz RMS frequency error ...
A type-III PLL is used to generate linear frequency ramps with 386 kHz RMS frequency error in L-band...
A type-III PLL is used to generate linear frequency ramps with 386 kHz RMS frequency error in L-band...
The vast number of radar applications generates the demand for highly-linear, low-noise, fast chirp ...
This paper discusses the most recent advances in the design of fast chirp modulators in modern CMOS ...
Traditional designs of commercial frequency synthesizers for multi-GHz mobile RF wireless applicatio...
This frequency synthesizer design aims at achieving low phase and high reliability for X-band digita...
Due to the character of the original source materials and the nature of batch digitization, quality ...
A great number of spatially distributed transceiver chips within multiple-input multiple-output rada...
The wireless communication industry is currently experiencing a tremendous growth. The frequency syn...
In a wide-band RF system, the RF channel is located within 50 MHz to 9 GHz. A high-frequency resolut...
This paper describes a 23-GHz digital bang-bang phase-locked loop (PLL) fabricated in 65-nm CMOS for...
Direct digital synthesis (DDS) is a method of producing an RF analogue waveform which is usually a s...
Abstract: By developing a low-noise frequency synthesizer at 2 GHz and applying a pair of doublers, ...
Overcoming the agility limitations of conventional frequency synthesizers in multi-band OFDM ultra w...