A design and fabrication of a dual-band synthesizer device is presented in this paper. The noise analysis in synthesizer loop block component is modeled individually. The Design methodology is elaborated along with the test results. The initial frequency synthesizer in 1.8-2.4GHz frequency range (L and S-band) is designed and it is multiplied by 8. Microstrip bandpass filters (LFCN) are used to filter out the spurious frequency contents; the final output frequency is 14-20GHz (Ku-band). Phase noise investigation, design steps, filter assembling of 14-20GHz synthesizer is presented in this paper. This record was migrated from the OpenDepot repository service in June, 2017 before shutting down
The demand for high data rates and low power consumption has had a major impact on the design of RF ...
The current work employs the HMC830 phase-locked loop chip to design a frequency synthesizer operati...
A CMOS frequency synthesizer for 5 similar to 6 GHz UNII-band sub-harmonic direct-conversion receive...
Abstract- A design and fabrication of a dual-band synthesizer device is presented in this paper. The...
A design and fabrication of a dual-band synthesizer device is presented in this paper. The noise ana...
Careful selection of key components and the use of straightforward multiplication schemes can be app...
This straightforward design shows how to assemble commercial components into a low-noise 14.4-to-15....
This straightforward design shows how to assemble commercial components into a low-noise 14.4-to-15....
In this paper a high resolution dual-loop 17.7-19.7 GHz frequency synthesizer is presented which is ...
In this paper a high resolution dual-loop 17.7�19.7 GHz frequency synthesizer is presented which is ...
Abstract: By developing a low-noise frequency synthesizer at 2 GHz and applying a pair of doublers, ...
Due to development of both wireless communication users and communication line users, utilization of...
In this thesis, a low phase noise local oscillator operating at 2210 MHz is designed and implemented...
In this article, a dual-loop dual-output frequency synthesizer designed for IEEE802.11aj (45 GHz) st...
Abstract—A CMOS frequency synthesizer for 5~6 GHz UNII-band sub-harmonic direct-conversion receiver ...
The demand for high data rates and low power consumption has had a major impact on the design of RF ...
The current work employs the HMC830 phase-locked loop chip to design a frequency synthesizer operati...
A CMOS frequency synthesizer for 5 similar to 6 GHz UNII-band sub-harmonic direct-conversion receive...
Abstract- A design and fabrication of a dual-band synthesizer device is presented in this paper. The...
A design and fabrication of a dual-band synthesizer device is presented in this paper. The noise ana...
Careful selection of key components and the use of straightforward multiplication schemes can be app...
This straightforward design shows how to assemble commercial components into a low-noise 14.4-to-15....
This straightforward design shows how to assemble commercial components into a low-noise 14.4-to-15....
In this paper a high resolution dual-loop 17.7-19.7 GHz frequency synthesizer is presented which is ...
In this paper a high resolution dual-loop 17.7�19.7 GHz frequency synthesizer is presented which is ...
Abstract: By developing a low-noise frequency synthesizer at 2 GHz and applying a pair of doublers, ...
Due to development of both wireless communication users and communication line users, utilization of...
In this thesis, a low phase noise local oscillator operating at 2210 MHz is designed and implemented...
In this article, a dual-loop dual-output frequency synthesizer designed for IEEE802.11aj (45 GHz) st...
Abstract—A CMOS frequency synthesizer for 5~6 GHz UNII-band sub-harmonic direct-conversion receiver ...
The demand for high data rates and low power consumption has had a major impact on the design of RF ...
The current work employs the HMC830 phase-locked loop chip to design a frequency synthesizer operati...
A CMOS frequency synthesizer for 5 similar to 6 GHz UNII-band sub-harmonic direct-conversion receive...