Title :
A four-channel GNSS front-end IC for a compact interference- and jamming-robust multi-antenna Galileo/GPS receiver
Author :
Schafer, Eric ; Irteza, Safwat ; Jager, Andre ; Bieske, Bjorn ; Richter, Andre ; Khan, Muhammad Abdullah ; Sathyamurthy, Muralikrishna ; Kerkmann, Sebastian ; Rolapp, Alexander ; Hennig, Eckhard ; Sommer, Ralf
Author_Institution :
IMMS Inst. fur Mikroelektron.- und Mechatronik-Syst. gemeinnutzige GmbH, Ilmenau, Germany
Abstract :
We present a four-channel GNSS front-end IC for a compact interference- and jammer-robust multi-antenna sub-sampling receiver for Galileo El-B/C and GPS LI signals. The front end includes four coherent RF-to-IF signal paths with an intermediate frequency of 75.42 MHz, a common PLL frequency synthesizer, which generates the 1500-MHz local-oscillator signal, and an I2C interface for parameter adjustment. The front end exhibits a gain of 83 dB, a noise figure of 2.8 dB, and an input-referred 1-dB compression point of -73.5 dBm preventing the front end from saturation while jammed. A path-to-path isolation of at least 30 dB leads to a high spatial resolution. The power consumption is 231.7 mW and 255.7 mW with and without interferers, respectively.
Keywords :
Global Positioning System; VHF antennas; VHF oscillators; antenna arrays; frequency synthesizers; jamming; phase locked loops; radio receivers; signal reconstruction; signal sampling; wireless channels; GPS LI signal; GPS receiver; Galileo El-B/C signal; Galileo receiver; I2C interface; PLL frequency synthesizer; compact interference multiantenna subsampling receiver; four coherent RF-to-IF signal paths; four-channel GNSS front-end IC; frequency 75.42 MHz; gain 83 dB; input-referred compression point; jammer-robust multiantenna subsampling receiver; local-oscillator signal generation; noise figure 2.8 dB; parameter adjustment; path-to-path isolation; power 231.7 mW; power 255.7 mW; power consumption; Gain; Global Positioning System; Integrated circuits; Noise figure; Phase locked loops; Radio frequency; Receivers; antenna arrays; mutual coupling; radio-frequency integrated circuits; satellite navigation systems;
Conference_Titel :
Satellite Navigation Technologies and European Workshop on GNSS Signals and Signal Processing (NAVITEC), 2014 7th ESA Workshop on
DOI :
10.1109/NAVITEC.2014.7045150
