A fully calibrated NVNA set-up for linearity characterization of RF power devices using Unequally Spaced Multi-Tone signal through IM3 & IM5 measurements

This paper presents an innovative experimental method and its associated test bench for assessing the in-band linearity degradation of radiofrequency and microwave power devices, suitable both for on-wafer and connectorized characterization. The Unequally Spaced Multi-Tone (USMT) signal is a tailored signal which presents flexible characteristics depending on the number of pilot tones (e.g. Peak to average radio, IQ enveloppe, and Radiofrequency bandwidth). It behaves like a complex modulation signal with particularity to have a complete separation of pilot tones, IM3 and IM5 and it was used for linearity measurements. The method has been used up to 28 MHz RF Bandwidth on a VNA with the spectrum option (PNA-L from Keysight Technologies). The USMT set-up enables very fast measurements. In only one acquisition, simultaneous criteria are evaluated, like output power, gain, Power Added Efficiency (PAE), in-band degradation such as Carrier to Intermodulation ratio (C/I) induced by the device, by measuring the USMT signal at the input and output ports of the DUT. This novel approach has been validated through the linearity characterization of a commercial power amplifier.

[1]  R. Quere,et al.  A test set-up for the analysis of multi-tone intermodulation in microwave devices , 2014, 84th ARFTG Microwave Measurement Conference.

[2]  Fadhel M. Ghannouchi,et al.  Multitone power and intermodulation load-pull characterization of microwave transistors suitable for linear SSPA's design , 1997 .

[3]  Jacques Sombrin,et al.  Linearity characterization of RF circuits through an unequally spaced multi-tone signal , 2016, 2016 88th ARFTG Microwave Measurement Conference (ARFTG).

[4]  Jong-Heon Kim,et al.  Load–Pull Characterization Using Different Digitally Modulated Stimuli , 2007, IEEE Microwave and Wireless Components Letters.

[5]  M. Prigent,et al.  Envelope time-domain characterizations to assess in-band linearity performances of pre-matched MASMOS® power amplifier , 2017, 2017 IEEE Radio Frequency Integrated Circuits Symposium (RFIC).

[6]  A. Ferrero,et al.  Two-port network analyzer calibration using an unknown 'thru' , 1992, IEEE Microwave and Guided Wave Letters.

[7]  Christian Fager,et al.  Vector-corrected nonlinear multi-port IQ-mixer characterization using modulated signals , 2017, 2017 IEEE MTT-S International Microwave Symposium (IMS).

[8]  Jacques B. Sombrin,et al.  On the formal identity of EVM and NPR measurement methods: Conditions for identity of error vector magnitude and noise power ratio , 2011, 2011 41st European Microwave Conference.

[9]  R. Westcott Investigation of multiple f.m./f.d.m. carriers through a satellite t.w.t. operating near to saturation , 1967 .

[10]  C. Rapp,et al.  Effects of HPA-Nonlinearity on a 4-DPSK/OFDM-Signal for a Digital Sound Broadcasting System. , 1991 .