NVNA Applications Loren Betts Component Test Division.

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Presentation transcript:

NVNA Applications Loren Betts Component Test Division

Loren Betts 2008 Nonlinear Vector Network Analyzer (NVNA)  Vector (amplitude/phase) corrected nonlinear measurements from 10 MHz to 26.5 GHz  Calibrated absolute amplitude and relative phase (cross-frequency relative phase) of measured spectra traceable to standards lab  26 GHz of vector corrected bandwidth for time domain waveforms of voltages and currents of DUT  Multi-Envelope domain measurements for measurement and analysis of memory effects  X-parameters: Extension of Scattering parameters into the nonlinear region providing unique insight into nonlinear DUT behavior  X-parameter extraction into ADS PHD block for nonlinear simulation and design  Standard PNA-X with Nonlinear features and capability New phase calibration standard

Loren Betts 2008 NVNA System Configuration Amplitude Calibration Vector Calibration Phase Calibration Phase Reference X-Parameter extraction/multi-tone source Standard PNA-X Network Analyzer New!! Agilent Calibrated Phase Reference New!! Agilent NVNA

Loren Betts 2008 Advantages: Lower temperature sensitivity Lower sensitivity to input power Smaller minimum tone spacing (< 10 MHz vs 600 MHz) Lower frequency (< 10 MHz vs 600 MHz) Much wider dynamic range due to available energy vs noise Phase Reference: New!! Agilent Proprietary Calibrated Phase Reference Agilent’s new, InP IC based phase reference is superior in all aspects to the existing phase reference technologies.

Loren Betts 2008 NVNA Applications (What does it do?) Time domain oscilloscope measurements with vector error correction applied View time domain (and frequency domain) waveforms (similar to an oscilloscope) but with vector correction applied (measurement plane at DUT terminals) Vector corrected time domain voltages (and currents) from device

Loren Betts 2008 NVNA Applications (What does it do?) Measurement of narrow (fast) DC pulses with vector error correction applied View time domain (and frequency domain) representations of narrow DC pulses with vector correction applied (measurement plane at DUT terminals) Less than 50 ps

Loren Betts 2008 NVNA Applications (What does it do?) Measurement of narrow (fast) RF pulses with vector error correction applied View time domain (and frequency domain) representations of narrow RF pulses with vector correction applied (measurement plane at DUT terminals) Example: 50 ns pulse width at a 1 GHz carrier frequency

Loren Betts 2008 NVNA Applications (What does it do?) Measurement of narrow (faster) RF pulses with vector error correction applied View time domain (and frequency domain) representations of narrow RF pulses with vector correction applied (measurement plane at DUT terminals) Example: 10 ns pulse width at a 2 GHz carrier frequency. Limited by external source not NVNA. Can measure down into the picosecond RF pulse widths

Loren Betts 2008 NVNA Applications (What does it do?) Measurements of multi-tone stimulus/response with vector error correction applied View time and frequency domain representations of a multi-tone stimulus to/from a device with vector correction applied (measurement plane at DUT terminals) Stimulus is 5 frequencies spaced 10 MHz apart centered at 1 GHz measuring all spectrum to 20 GHz Input Waveform Output Waveform

Loren Betts 2008 NVNA Applications (What does it do?) Measure amplitude and cross-frequency phase of frequencies to/from device with vector error correction applied View absolute amplitude and phase relationship between frequencies to/from a device with vector correction applied (measurement plane at DUT terminals) Phase relationship between frequencies at output of deviceInput output frequencies at device terminals 1 GHz 2 GHz degree phase delta 1 GHz Fundamental Frequency Source harmonics (< 60 dBc) Stimulus to device Output from device Output harmonics

Loren Betts 2008 NVNA Applications (What does it do?) Measure modeling coefficients and other nonlinear device parameters Measure, view and simulate actual nonlinear data from you device Dynamic Load Line Waveforms (‘a’ and ‘b’ waves) X-parameters … More

Loren Betts 2008 NVNA Applications (What does it do?) Measure memory effects in nonlinear devices with vector error correction applied View and analyze dynamic memory signatures using the vector error corrected envelope amplitude and phase at the fundamental and harmonics with a pulsed (RF/DC) stimulus Output (b2) multi-envelope waveforms Each harmonic has a unique time varying envelope signature