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2017 | OriginalPaper | Chapter

8. Applications for RF Transceiver ICs

Author : Wei Gao

Published in: Energy and Bandwidth-Efficient Wireless Transmission

Publisher: Springer International Publishing

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Abstract

So far, we have described some main system design ideas and technologies used in wireless mobile and 802.11 RF transceivers. We have also discussed radio frequency (RF) analog impairments that can affect system performance, and introduced various calibration techniques that can minimize analog impairments. In this section, we introduce several practical transceiver products that recently have been or currently are available in wireless markets. The purpose of this section is to provide readers with an overview about how the actual IC products perform and how the described technologies’ advantages are applied to these products. The products chosen are among the most popular and advanced technologies used in wireless RF transceivers.

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previous chapter Transceiver II: Receiver Architectures

Chih-Lin, I., Rowell, C., Han, S., Xu, Z., Li, G., & Pan, Z. (2014). Toward green and soft: A 5G perspective. IEEE Communication Magazine, 52(2), 66–73.CrossRef

Roh, W., Seol, J.-Y., Park, J. H., Lee, B., Lee, J., & Kim, Y. (2014). Millimeter-wave beamforming as an enabling technology for 5G cellular communications: Theoretical feasibility and prototype results. IEEE Communications Magazine, 52(2), 106–113.CrossRef

Silicon Laboratories. (2002). Aero + GSM/GPRS transceiver chipsets applications. Austin, TX: Author.

Conexant Corporation. (2001). CX74017 RF transceiver for GSM/GPRS/EDGE application data sheet. Irvine, CA: Author.

Molnar, A., Magoon, R., Zachan, J., Hatcher, G., & Rhee, W. (2002). A single-chip quad-band (850/900/1800/1900 MHz) direct-conversion GSM/GPRS RF transceiver with integrated VCOs and fractional-N synthesizer. IEEE International Solid-State Circuits Conference (ISSCC) 2002 (pp. 14.2).

Tenbroek, B., Strange, J., Nalbantis, D., Jones, C., & Fowers, P. (2008). Single-chip tri-band WCDMA/HSDPA transceiver without external SAW filters and with integrated TX power control. ISSCC 2008 (pp. 202–204).

Holma, H., & Toskala, A. (2010). WCDMA for UMTS: Evolution and LTE (5th ed.). New York, NY: Wiley.CrossRef

Sowlati, T., Agarwal, B., Cho, J., Obkircher, T., El Said, M., & Vasa, J. (2009, February). Single-chip multiband WCDMA/HSPA/EGPRS transceiver with diversity receiver and 3G DigRF interface without SAW filters in transmitter and receiver paths. I.E. International Solid-State Circuits Conference (pp. 116–118).

Bellalta, B. (2016, February). IEEE 802.11ax: High-efficiency WLANs. IEEE Wireless Communications (pp. 38–46).

10.

Behzad, A., Carter, K. A., Chien, H.-M., Wu, S., Pan, M.-A., & Paul Lee, C. (2007). A fully integrated MIMO multiband direct conversion CMOS transceiver for WALN applications (802.11n). IEEE Journal of Solid-State circuits, 42(12), 2795–2805.CrossRef

11.

Abdollahi-Alibeik, S., Webe, D., Dogan, H., Si, W. W., Baytekin, B., & Komijani, A. (2011, February). A 65 nm dual-band 3-steam 802.11n MIMO WLAN SoC. ISSCC Digest of Technical Papers (pp. 170–172).

Title: Applications for RF Transceiver ICs
Author: Wei Gao
Publisher: Springer International Publishing
Book: Energy and Bandwidth-Efficient Wireless Transmission
Print ISBN: 978-3-319-44220-4

Electronic ISBN: 978-3-319-44222-8

Copyright Year: 2017
DOI: https://doi.org/10.1007/978-3-319-44222-8_8