1. Introduction

Zurück zum Zitat Zolfaghari A, Razavi B (2003) A low-power 2.4-GHz transmitter/receiver CMOS IC. IEEE J Solid-State Circ 38(2):176–183 Zolfaghari A, Razavi B (2003) A low-power 2.4-GHz transmitter/receiver CMOS IC. IEEE J Solid-State Circ 38(2):176–183

Zurück zum Zitat Wei-Yi H, Jia-Wei L, Kuo-Chi T, Yong-Hsiang H, Chao-Liang C, Hung-Ta T, Yi-Shun S, Shao-Chueh H, Sao-Jie C (2010) A 0.18-μm CMOS RF transceiver with self-detection and calibration functions for bluetooth V2.1 + EDR applications. IEEE Trans Microw Theory Techn 58(5):1367–1374 Wei-Yi H, Jia-Wei L, Kuo-Chi T, Yong-Hsiang H, Chao-Liang C, Hung-Ta T, Yi-Shun S, Shao-Chueh H, Sao-Jie C (2010) A 0.18-μm CMOS RF transceiver with self-detection and calibration functions for bluetooth V2.1 + EDR applications. IEEE Trans Microw Theory Techn 58(5):1367–1374

Zurück zum Zitat Si W, Weber D, Abdollahi-Alibeik S, MeeLan L, Chang R, Dogan H, Gan H, Rajavi Y, Luschas S, Ozgur S, Husted P, Zargari M (2008) A single-chip cmos bluetooth v2.1 radio SoC. IEEE J Solid-State Circ 43(12):2896–2904 Si W, Weber D, Abdollahi-Alibeik S, MeeLan L, Chang R, Dogan H, Gan H, Rajavi Y, Luschas S, Ozgur S, Husted P, Zargari M (2008) A single-chip cmos bluetooth v2.1 radio SoC. IEEE J Solid-State Circ 43(12):2896–2904

Zurück zum Zitat Ahola R, Aktas A, Wilson J, Kishore Rama R, Jonsson F, Hyyrylainen I, Brolin A, Hakala T, Friman A, Makiniemi T, Hanze J, Sanden M, Wallner D, Yuxin G, Lagerstam T, Noguer L, Knuuttila T, Olofsson P, Ismail M (2004) A single-chip CMOS transceiver for 802.11a/b/g wireless LANs. IEEE J Solid-State Circ 39(12):2250–2258 Ahola R, Aktas A, Wilson J, Kishore Rama R, Jonsson F, Hyyrylainen I, Brolin A, Hakala T, Friman A, Makiniemi T, Hanze J, Sanden M, Wallner D, Yuxin G, Lagerstam T, Noguer L, Knuuttila T, Olofsson P, Ismail M (2004) A single-chip CMOS transceiver for 802.11a/b/g wireless LANs. IEEE J Solid-State Circ 39(12):2250–2258

Zurück zum Zitat Pengfei Z, Der L, Dawei G, Sever I, Bourdi T, Lam C, Zolfaghari A, Chen J, Gambetta D, Baohong C, Gowder S, Hart S, Huynh L, Nguyen T, Razavi B (2005) A single-chip dual-band direct-conversion IEEE 802.11a/b/g WLAN transceiver in 0.18-μm CMOS. IEEE J Solid-State Circ 40(9):1932–1939 Pengfei Z, Der L, Dawei G, Sever I, Bourdi T, Lam C, Zolfaghari A, Chen J, Gambetta D, Baohong C, Gowder S, Hart S, Huynh L, Nguyen T, Razavi B (2005) A single-chip dual-band direct-conversion IEEE 802.11a/b/g WLAN transceiver in 0.18-μm CMOS. IEEE J Solid-State Circ 40(9):1932–1939

Zurück zum Zitat Nathawad L, Weber D, Shahram A, Chen P, Syed E, Kaczynski B, Alireza K, MeeLan L, Limotyrakis S, Onodera K, Vleugels K, Zargari M, Wooley B (2006) An IEEE 802.11a/b/g SoC for embedded WLAN applications. In: IEEE international digest of technical papers solid-state circuits conference (ISSCC 2006), pp 1430–1439 Nathawad L, Weber D, Shahram A, Chen P, Syed E, Kaczynski B, Alireza K, MeeLan L, Limotyrakis S, Onodera K, Vleugels K, Zargari M, Wooley B (2006) An IEEE 802.11a/b/g SoC for embedded WLAN applications. In: IEEE international digest of technical papers solid-state circuits conference (ISSCC 2006), pp 1430–1439

Zurück zum Zitat Ingels M, Giannini V, Borremans J, Mandal G, Debaillie B, Van Wesemael P, Sano T, Yamamoto T, Hauspie D, Van Driessche J, Craninckx J (2010) A 5 mm2 40 nm LP CMOS transceiver for a software-defined radio platform. IEEE J Solid-State Circ 45(12):2794–2806CrossRef Ingels M, Giannini V, Borremans J, Mandal G, Debaillie B, Van Wesemael P, Sano T, Yamamoto T, Hauspie D, Van Driessche J, Craninckx J (2010) A 5 mm² 40 nm LP CMOS transceiver for a software-defined radio platform. IEEE J Solid-State Circ 45(12):2794–2806CrossRef

Zurück zum Zitat Sowlati T, Agarwal B, Cho J, Obkircher T, El Said M, Vasa J, Ramachandran B, Kahrizi M, Dagher E, Wei-Hong C, Vadkerti M, Taskov G, Seckin U, Firouzkouhi H, Saeidi B, Akyol H, Yunyoung C, Mahjoob A, D’’Souza S, Chieh-Yu H, Guss D, Shum D, Badillo D, Ron I, Ching D, Feng S, Yong H, Komaili J, Loke A, Pullela R, Pehlivanoglu E, Zarei H, Tadjpour S, Agahi D, Rozenblit D, Domino W, Williams G, Damavandi N, Wloczysiak S, Rajendra S, Paff A, Valencia T (2009) Single-chip multiband WCDMA/HSDPA/HSUPA/EGPRS transceiver with diversity receiver and 3G DigRF interface without SAW filters in transmitter/3G receiver paths. In: IEEE international digest of technical papers solid-state circuits conference (ISSCC 2009), pp 116–117,117a Sowlati T, Agarwal B, Cho J, Obkircher T, El Said M, Vasa J, Ramachandran B, Kahrizi M, Dagher E, Wei-Hong C, Vadkerti M, Taskov G, Seckin U, Firouzkouhi H, Saeidi B, Akyol H, Yunyoung C, Mahjoob A, D’’Souza S, Chieh-Yu H, Guss D, Shum D, Badillo D, Ron I, Ching D, Feng S, Yong H, Komaili J, Loke A, Pullela R, Pehlivanoglu E, Zarei H, Tadjpour S, Agahi D, Rozenblit D, Domino W, Williams G, Damavandi N, Wloczysiak S, Rajendra S, Paff A, Valencia T (2009) Single-chip multiband WCDMA/HSDPA/HSUPA/EGPRS transceiver with diversity receiver and 3G DigRF interface without SAW filters in transmitter/3G receiver paths. In: IEEE international digest of technical papers solid-state circuits conference (ISSCC 2009), pp 116–117,117a

Zurück zum Zitat Nilsson M, Mattisson S, Klemmer N, Anderson M, Arnborg T, Caputa P, Ek S, Lin F, Fredriksson H, Garrigues F, Geis H, Hagberg H, Hedestig J, Hu H, Kagan Y, Karlsson N, Kinzel H, Mattsson T, Mills T, Fenghao Ma rtensson A, Nicklasson L, Oredsson F, Ozdemir U, Park F, Pettersson T, Pahlsson T, Palsson M, Ramon S, Sandgren M, Sandrup P, Stenman A, Strandberg R, Sundstrom L, Tillman F, Tired T, Uppathil S, Walukas J, Westesson E, Xuhao Z, Andreani P (2011) A 9-band WCDMA/EDGE transceiver supporting HSPA evolution. In: IEEE international digest of technical papers solid-state circuits conference (ISSCC 2011), pp 366–368 Nilsson M, Mattisson S, Klemmer N, Anderson M, Arnborg T, Caputa P, Ek S, Lin F, Fredriksson H, Garrigues F, Geis H, Hagberg H, Hedestig J, Hu H, Kagan Y, Karlsson N, Kinzel H, Mattsson T, Mills T, Fenghao Ma rtensson A, Nicklasson L, Oredsson F, Ozdemir U, Park F, Pettersson T, Pahlsson T, Palsson M, Ramon S, Sandgren M, Sandrup P, Stenman A, Strandberg R, Sundstrom L, Tillman F, Tired T, Uppathil S, Walukas J, Westesson E, Xuhao Z, Andreani P (2011) A 9-band WCDMA/EDGE transceiver supporting HSPA evolution. In: IEEE international digest of technical papers solid-state circuits conference (ISSCC 2011), pp 366–368

Zurück zum Zitat Afsahi A, Behzad A, Magoon V, Larson LE (2010) Linearized dual-band power amplifiers with integrated baluns in 65 nm CMOS for a 2x2 802.11n MIMO WLAN SoC. IEEE J Solid-State Circ 45(5):955–966 Afsahi A, Behzad A, Magoon V, Larson LE (2010) Linearized dual-band power amplifiers with integrated baluns in 65 nm CMOS for a 2x2 802.11n MIMO WLAN SoC. IEEE J Solid-State Circ 45(5):955–966

Zurück zum Zitat Kanda K, Kawano Y, Sasaki T, Shirai N, Tamura T, Kawai S, Kudo M, Murakami T, Nakamoto H, Hasegawa N, Kano H, Shimazui N, Mineyama A, Oishi K, Shima M, Tamura N, Suzuki T, Mori T, Niratsuka K, Yamaura S (2012) A fully integrated triple-band CMOS power amplifier for WCDMA mobile handsets. In: IEEE international digest of technical papers solid-state circuits conference (ISSCC 2012), pp 86–88 Kanda K, Kawano Y, Sasaki T, Shirai N, Tamura T, Kawai S, Kudo M, Murakami T, Nakamoto H, Hasegawa N, Kano H, Shimazui N, Mineyama A, Oishi K, Shima M, Tamura N, Suzuki T, Mori T, Niratsuka K, Yamaura S (2012) A fully integrated triple-band CMOS power amplifier for WCDMA mobile handsets. In: IEEE international digest of technical papers solid-state circuits conference (ISSCC 2012), pp 86–88

Zurück zum Zitat Delaunay N, Deltimple N, Kerherve E, Belot D (2011) A RF transmitter linearized using cartesian feedback in CMOS 65 nm for UMTS standard. In: IEEE topical conference on power amplifiers for wireless and radio applications (PAWR 2011), pp 49–52 Delaunay N, Deltimple N, Kerherve E, Belot D (2011) A RF transmitter linearized using cartesian feedback in CMOS 65 nm for UMTS standard. In: IEEE topical conference on power amplifiers for wireless and radio applications (PAWR 2011), pp 49–52

Zurück zum Zitat Ba SN, Khurram W, Zhou GT (2010) Efficient lookup table-based adaptive baseband predistortion architecture for memoryless nonlinearity. EURASIP J Adv Signal Process. doi:10.1155/2010/379249 Ba SN, Khurram W, Zhou GT (2010) Efficient lookup table-based adaptive baseband predistortion architecture for memoryless nonlinearity. EURASIP J Adv Signal Process. doi:10.​1155/​2010/​379249

Zurück zum Zitat Hildersley J (2012) Managing 4G handset RF power consumption, electronics design, strategy. News EDN Eur 57(11):16-21 Hildersley J (2012) Managing 4G handset RF power consumption, electronics design, strategy. News EDN Eur 57(11):16-21

Zurück zum Zitat Alvarado U, Bistué G, Adín I (2011) Low power RF circuit design in standard CMOS technology. Springer, Berlin Alvarado U, Bistué G, Adín I (2011) Low power RF circuit design in standard CMOS technology. Springer, Berlin

Zurück zum Zitat Reynaert P, Steyaert M (2006) RF power amplifiers for mobile communications. Springer, The Netherlands Reynaert P, Steyaert M (2006) RF power amplifiers for mobile communications. Springer, The Netherlands

Zurück zum Zitat Hella MM, Ismail M (2002) RF CMOS power amplifiers: theory, design and implementation. Kluwer Academic Publishers, Boston Hella MM, Ismail M (2002) RF CMOS power amplifiers: theory, design and implementation. Kluwer Academic Publishers, Boston

Zurück zum Zitat Hastings A (2001) The art of analog layout. Prentice Hall, Upper Saddle River Hastings A (2001) The art of analog layout. Prentice Hall, Upper Saddle River

Zurück zum Zitat Aoki I, Kee SD, Rutledge DB, Hajimiri A (2002) Fully integrated CMOS power amplifier design using the distributed active-transformer architecture. IEEE J Solid-State Circ 37(3):371–383CrossRef Aoki I, Kee SD, Rutledge DB, Hajimiri A (2002) Fully integrated CMOS power amplifier design using the distributed active-transformer architecture. IEEE J Solid-State Circ 37(3):371–383CrossRef

Zurück zum Zitat Aoki I, Kee SD, Rutledge DB, Hajimiri A (2002) Distributed active transformer-a new power-combining and impedance-transformation technique. IEEE Trans Microw Theory Techn 50(1):316–331CrossRef Aoki I, Kee SD, Rutledge DB, Hajimiri A (2002) Distributed active transformer-a new power-combining and impedance-transformation technique. IEEE Trans Microw Theory Techn 50(1):316–331CrossRef