Analysis, Design, Modeling, and Characterization of Low-Loss Scalable On-Chip Transformers

Analysis, Design, Modeling, and Characterization of Low-Loss Scalable On-Chip Transformers

A few important design choices for a low-loss scalable on-chip transformer are discussed, the most important one being that the capacitive and inductive couplings should be aligned to minimize insertion loss. The importance of these design choices is illustrated both theoretically as well as experim...

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Veröffentlicht in:IEEE transactions on microwave theory and techniques 2013-07, Vol.61 (7), p.2545-2557
Hauptverfasser: Tiemeijer, L. F., Pijper, R. M. T., Andrei, C., Grenados, E.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Baluns
Calibration
Circuit properties
Couplers
Couplings
de-embedding
Design engineering
Design. Technologies. Operation analysis. Testing
Electric, optical and optoelectronic circuits
Electronic circuits
Electronics
Exact sciences and technology
Impedance
Impedance matching
Inductive coupling
Inductors
Insertion loss
Integrated circuits
Mathematical models
Microwaves
on-wafer microwave measurements
Resonant frequency
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
Signal convertors
System-on-chip
Theoretical study. Circuits analysis and design
Transformations
transformer design and modeling
Transformers
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Beschreibung
Zusammenfassung:A few important design choices for a low-loss scalable on-chip transformer are discussed, the most important one being that the capacitive and inductive couplings should be aligned to minimize insertion loss. The importance of these design choices is illustrated both theoretically as well as experimentally. In particular, for the first time the performance of these on-chip transformers is verified with four-port S -parameter measurements taken up to 67 GHz. With that, an insertion loss of only 0.6 dB up to 30 GHz is demonstrated. To facilitate the use of these low-loss on-chip transformers in the RF integrated-circuit design flow, a scalable compact equivalent-circuit model suitable for all pre-layout circuit simulations is described, which accurately predicts transformation ratios, transmission efficiencies and balun amplitude and phase imbalances.
ISSN:0018-9480
1557-9670
DOI:10.1109/TMTT.2013.2265684