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1-8 of 8
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4 Steps for Making Better Power Measurements (AN 64-4D)
Before selecting a power meter and associated sensors, make sure that you have taken the 4 steps detailed in this note, which influence the accuracy, economy and technical match to your application.
Application Note 2006-04-26 |
PDF
995 KB
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Characterizing Barker Coded Modulation in Radar Systems (AN 358-10)
This Application Note is for information only. Agilent no longer sells or supports these products.
Application Note 1989-10-01 |
PDF
721 KB
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Characterizing Chirp Coded Modulation in Radar Systems (AN 358-11)
This Application Note is for information only. Agilent no longer sells or supports these products.
Application Note 1990-01-01 |
PDF
647 KB
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Fundamentals of Time Interval Measurements (AN 200-3)
This classic Application Note provides a fundamental background on measurements of time-related events with electronic time interval counters. This Application Note is for information only. Agilent no longer sells or supports these products.
Application Note 1997-06-01 |
PDF
897 KB
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Modulation Domain Techniques for Measuring Complex Radar Singals (AN 358-9)
This Application Note is for information only. Agilent no longer sells or supports these products.
Application Note 1989-10-01 |
PDF
713 KB
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Single Shot Frequency Profiling of Chirped Radars Made Easy (AN 1200-8)
This Application Note describes the Agilent 53310A's ability to measure and display a signal's continuous frequency over time makes dynamic frequency analysis of radar pulses easy. Views of single-shot chirp linearity are obtained by measuring the continuous frequency of the IF chirp. The chirp...
Application Note 2000-08-01 |
PDF
105 KB
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Solutions for Using a Frequency Counter to Measure Phase Noise Close to a Carrier Signal
A local oscillator (LO) is the heart of any modern radar, electronic warfare or communication system. See how you can use this to your advantage.
Application Note 2011-08-01 |
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Spectrum Analysis: Amplitude and Frequency Modulation (AN 150-1)
Modulation is the act of translating some low-frequency or base-band signal (voice, music, data) to a higher frequency. Why do we modulate signals? There are at least two reasons: to allow the simultaneous transmission of two or more baseband signals by translating them to different frequencies...
Application Note 2001-10-01 |
PDF
1.23 MB
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