The Fluke Calibration 27 GHz 96270A RF Reference Source is the
simplest, most accurate and cost effective single instrument for
calibrating spectrum analyzers and RF power sensors and more. Its
precision signal level and attenuation, high signal purity and precision
low distortion modulation make this reference source clearly superior
to the general-purpose signal generators that are often used to
calibrate spectrum analyzers, RF power sensors, attenuators, and
similar instruments. Its low phase noise provides superior phase noise
performance.
Unlike many RF calibration solutions, the 96270A is designed
specifically for RF calibration, with a calibration oriented user
interface that makes it easy to learn and operate. The 96270A
simplifies and speeds up calibration procedures, reduces
opportunities for operator errors, and greatly simplifies RF metrology.
At the core of an RF and microwave calibration system, the 96270A
covers more than 80 % of the test points required for calibrating
almost all spectrum analyzers of any frequency range. For many
spectrum analyzer models operating below 27 GHz, you only need a
96270A to perform the entire calibration. You can't simplify much
more than that!
Automated with MET/CALŪ Calibration Management Software, the
96270A reduces complexity and calibration times, improving
efficiency and increasing capacity over manual methods.
Key benefits
-Self-characterization lets you avoid calculating correction factors for
each component in the signal delivery system
-"What you set is what you get" accurate signal delivery direct to the
UUT input up to 27 GHz
-Covers a broad range of RF calibration workload
-Reduces the number of instruments and interconnections required
for your RF calibration system
-Integrated 300 MHz frequency counter and dual power meter
readout eliminate need for additional instruments
-Calibration-specific interface simplifies technician tasks
-Simplifies uncertainty calculations
-Lowers RF system maintenance costs
-With automation, reduces spectrum analyzer calibration times by as
much as 50 % over manual methods
