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3066: Difference between revisions
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The '''Sony/Tektronix 3066''' is a portable real time spectrum analyzer with a frequency range of 10 MHz to 3 GHz. This spectrum analyzer is equipped with a 3 GHz down converter for analyzing radio frequency (RF) signals and allows seamless capture of frequency spectra with spans of up to 30 MHz. This allows the spectrum of burst signals, such as those from GSM, IS-136, PDC or partial rate CDMA mobile stations that are captured and examined. | The '''Sony/Tektronix 3066''' is a portable real time spectrum analyzer with a frequency range of 10 MHz to 3 GHz. This spectrum analyzer is equipped with a 3 GHz down converter for analyzing radio frequency (RF) signals and allows seamless capture of frequency spectra with spans of up to 30 MHz. This allows the spectrum of burst signals, such as those from GSM, IS-136, PDC or partial rate CDMA mobile stations that are captured and examined. | ||
The 3066 can obtain time domain and frequency domain data simultaneously through | The 3066 can obtain time domain and frequency domain data simultaneously through an architecture which allows capturing a block of frequencies all at once. Because this instrument samples these full frames constantly (rather than waiting for each discrete frequency step to be measured), the signal can come or go as it pleases and the real-time spectrum analyzer will detect the change instantly. | ||
A frequency mask trigger allows capture of randomly occurring or infrequent signals such as intermittent spurious emissions, as well as, the capture of “burst-on” periods, thus maximizing the number of bursts that can be captured in memory for subsequent spectral, time, or modulation analysis. The user can graphically define the frequency trigger mask; this allows the trigger condition to be generated by a particular event in the frequency domain. | A frequency mask trigger allows capture of randomly occurring or infrequent signals such as intermittent spurious emissions, as well as, the capture of “burst-on” periods, thus maximizing the number of bursts that can be captured in memory for subsequent spectral, time, or modulation analysis. The user can graphically define the frequency trigger mask; this allows the trigger condition to be generated by a particular event in the frequency domain. | ||