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This paper presents the design and analysis of a serial link transceiver (TRX) architecture employing analog multi-tone (AMT) signaling for chip-to-chip communication. Multi-tone single-sideband (SSB) signaling scheme is proposed in TRX architecture in order to optimize bandwidth requirements for each sub-channel and to improve signal-to-noise ratio (SNR) by reducing inter-channel interferences (ICI) between neighbouring sub-channels. System-level modeling results show that the proposed TRX architecture enables equalizer-free communication at 16 Gb/s over a lossy backplane channel that exhibits 22 dB attenuation at 8 GHz, while conventional NRZ signaling TRX necessitates a two-stage continuous-time linear equalizer (CTLE). A channel frequency-response inversion scheme, the up/downconversion mechanism of the TX/RX data stream and the RX design considerations have been analyzed and investigated by architectural modeling.
Andreas Peter Burg, Cosimo Aprile, Yusuf Leblebici, Alessandro Cevrero, Lukas Kull, Gain Kim, Ilter Ozkaya, Thomas Toifl
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