With reference to an architecture for the full integration of a 60 GHz receiver in embedded systems with wireless gigabit connectivity, the paper presents the design of key building blocks such as: on-chip antenna, Low Noise Amplifier (LNA) and a time-interleaved fast A/D converter (ADC) with AMBA AXI interface towards the digital baseband part. With respect to the state of the art the co-design of the on-chip antenna with the LNA, and the fast ADC architecture realized as a time-interleaved array of threshold-configuring SAR channels, represent new solutions optimized in terms of power consumption. Complexity and performance results in a 65nm CMOS SOI technology, suitable also for digital systems integration, are presented. The performance and complexity results of the designed antenna, LNA and ADC are integrated in a system level simulator with those obtained by adopting known solutions for other receiver blocks (mixer, IF and baseband amplifiers and filters, frequency synthesizer) thus estimating the performance achievable with a whole 60 GHz receiver and digitization sub-system macrocell. The system-level estimated performances confirm the feasibility of a full-integrated receiver supporting short-range High Definition (HD) connectivity of several Gb/s with a Signal-to- Noise-Ratio compliant with WiGig and Wireless HD new standardization initiatives.

Integrated 60 GHz Antenna, LNA and Fast ADC Architecture for Embedded Systems with Wireless Gbit Connectivity

SAPONARA, SERGIO;NERI, BRUNO
2012-01-01

Abstract

With reference to an architecture for the full integration of a 60 GHz receiver in embedded systems with wireless gigabit connectivity, the paper presents the design of key building blocks such as: on-chip antenna, Low Noise Amplifier (LNA) and a time-interleaved fast A/D converter (ADC) with AMBA AXI interface towards the digital baseband part. With respect to the state of the art the co-design of the on-chip antenna with the LNA, and the fast ADC architecture realized as a time-interleaved array of threshold-configuring SAR channels, represent new solutions optimized in terms of power consumption. Complexity and performance results in a 65nm CMOS SOI technology, suitable also for digital systems integration, are presented. The performance and complexity results of the designed antenna, LNA and ADC are integrated in a system level simulator with those obtained by adopting known solutions for other receiver blocks (mixer, IF and baseband amplifiers and filters, frequency synthesizer) thus estimating the performance achievable with a whole 60 GHz receiver and digitization sub-system macrocell. The system-level estimated performances confirm the feasibility of a full-integrated receiver supporting short-range High Definition (HD) connectivity of several Gb/s with a Signal-to- Noise-Ratio compliant with WiGig and Wireless HD new standardization initiatives.
2012
Saponara, Sergio; Neri, Bruno
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11568/152643
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