CC BY 4.0Thome, FabianFabianThomeTure, ErdinErdinTureIannucci, RobertRobertIannucciLeuther, ArnulfArnulfLeutherSchäfer, FrankFrankSchäferNavarrini, AlessandroAlessandroNavarriniSerres, PatricePatriceSerres2022-03-0625.2.20202020https://publica.fraunhofer.de/handle/publica/26121610.1109/ACCESS.2020.2965823This paper reports on the monolithic integration of layout-optimized Schottky diodes realized in an established 50-nm gate-length metamorphic high-electron-mobility transistor technology for use in multifunctional nonlinear circuits. The suitability of the realized Schottky diodes is demonstrated by a broadband millimeter-wave I/Q-mixer (In-phase/Quadrature) and local oscillator (LO) chain comprising two power amplifiers and a frequency tripler, fabricated on monolithic microwave integrated circuits (MMICs). Both circuits are based on an anti-parallel Schottky diode to pology. The subharmonically-pumped I/Q-mixer covers an RF (radio frequency) and IF (intermediate frequency) range of at least 75GHz to 110GHz and 0.5GHz to 15GHz, respectively. The single-sideband conversion loss is between 14dB and 16dB across most of the entire RF and IF bands. The core of the LO chain consists of a frequency tripler (multiplier by three) and features a bias-adjustable output power with almost constant conversion efficiency and a control range of more than 8dB. The fully-integrated LO chain MMIC matches the needs of the presented I/Q-mixer and exhibits an average output power of 16.3dBm with a covered frequency range of 38GHz to 60GHz. The unwanted harmonics are suppressed by at least =25.9dBc below the third harmonic for the entire frequency range and better than =32.1dBc for most part of the band. Thus, the mixer and tripler MMICs demonstrate state-of-the-art performance with regards to, e.g., covered bandwidth, output power, harmonic .suppression, or 1dB compression point.enHigh-electron-mobility transistors (HEMTs)Ku-Bandmilimeter-wave (mmW)monolithic microwave integrated circuits (MMICs)varactorsmixersfrequency multiplierspower amplifiers (PAs)schottky diodesU-bandW-band667Frequency multiplier and mixer MMICs based on a metamorphic HEMT technology including schottky diodesjournal article