| 95,8 → 95,8 |
|---|
| |
| \midinsert |
| \clabel[img-miniSAS-cable]{Used miniSAS cable} |
| \picw=10cm \cinspic ./img/miniSAS_SATA_cable.jpg |
| \caption/f A type of miniSAS cable similar to used. |
| \picw=5cm \cinspic ./img/miniSAS_SATA_cable.jpg |
| \caption/f An example of miniSAS cable similar to used. |
| \endinsert |
| |
| \secc Signal integrity requirements |
| 301,9 → 301,10 |
|---|
| |
| For additional validation of system design a receiver setup was constructed. |
| |
| \sec Basic interferometer station |
| \sec Basic interferometric station |
| |
| Interferometry station was selected as most basic setup. We connected the new data acquisition system to two SDRX01B receivers. Block schematic of used setup is shown in image \ref[block-schematic]. Two ground-plane antennas were used and mounted outside of balcony at CTU building at location 50$^\circ$4'36.102"N, 14 $^\circ$ 25'4.170" E. Antennas were equipped by LNA01A amplifiers. Coaxial cable length are matched for 5 meters. And antennas were isolated by common mode ferrite bead mounted on cable for minimize signal coupling between antennas. Evaluation system consists SDGPSDO local oscillator subsystem used for tuning local oscillator frequency. |
| Interferometry station was selected as most basic setup. We connected the new data acquisition system to two SDRX01B receivers. Block schematic of used setup is shown in image \ref[block-schematic]. Two ground-plane antennas were used and mounted outside of balcony at CTU building at location 50$^\circ$ 4\' 36.102\" N, 14$^\circ$ 25\' 4.170\" E. |
| Antennas were equipped by LNA01A amplifiers. Coaxial cable length are matched for 5 meters. And antennas were isolated by common mode ferrite bead mounted on cable for minimize signal coupling between antennas. Evaluation system consists SDGPSDO local oscillator subsystem used for tuning local oscillator frequency. |
| |
| \midinsert |
| \clabel[block-schematic]{Receiver block schematic} |