A 1.8 dB NF Blocker-Filtering Noise-Canceling Wideband Receiver With Shared TIA in 40 nm CMOS

Author

Hedayati, Hajir ; Lau, Wing-Fat Andy ; Namsoo Kim ; Aparin, Vladimir ; Entesari, Kamran

Author_Institution

Analog & Mixed Signal Center at Electr. Eng. Dept., Texas A&M Univ., College Station, TX, USA

Volume

50

Issue

5

fYear

2015

fDate

May-15

Firstpage

1148

Lastpage

1164

Abstract

This paper presents a high-performance two-path wideband receiver (RX) for 4G LTE applications. The RX uses an extra GM stage after the LNA to improve the noise figure (NF). Furthermore, different RF and baseband blocker rejection techniques are proposed to significantly improve the linearity of the RX. The blockers are first rejected after the LNA stage through an N-path filter. Then, a novel base-band blocker filtering (BBBF) technique improves IIP3 by 7 dB. A dual-mixer architecture is also employed to attenuate blockers both before and after the mixer stage. The N-path filter noise is sensed out-of-phase by the RX main path and cancelled at the inputs of the shared TIA. The RX achieves 1.8 dB NF with 50 dB gain at 2 GHz in 40 nm CMOS technology. The RX out-of-band IIP3 is +5 dBm, which is improved by 20 dB employing the proposed techniques, while consuming 36 mW.

Keywords

4G mobile communication; CMOS integrated circuits; Long Term Evolution; UHF filters; interference suppression; linear phase filters; low noise amplifiers; radio receivers; wideband amplifiers; 4G LTE applications; CMOS technology; GM stage; IIP3 improvement; LNA; N-path filter noise; NF BBBF noise canceling wideband receiver; base band blocker filtering; baseband blocker rejection technique; dual-mixer architecture; frequency 2 GHz; gain 50 dB; high-performance two path RX; noise figure 1.8 dB; noise figure improvement; power 36 mW; shared TIA; size 40 nm; transimpedance amplifier; Gain; Linearity; Mixers; Noise; Noise measurement; Receivers; Switches; 4G LTE; Band pass filtering; N-path filter; baseband (BB); baseband blocker filtering; blocker filtering; frequency-translation; noise cancelling; out-of-band blocker; out-of-band linearity; passive mixer; radio frequency (RF); receiver; trans-impedance amplifier (TIA);

fLanguage

English

Journal_Title

Solid-State Circuits, IEEE Journal of

Publisher

ieee

ISSN

0018-9200

Type

jour

DOI

10.1109/JSSC.2015.2403324

Filename

7065330