DocumentCode
1512568
Title
Multirate Cascaded Discrete-Time Low-Pass ΔΣ Modulator for GSM/Bluetooth/UMTS
Author
Bos, Lynn ; Vandersteen, Gerd ; Rombouts, Pieter ; Geis, Arnd ; Morgado, Alonso ; Rolain, Yves ; Van der Plas, Geert ; Ryckaert, Julien
Author_Institution
IMEC, Leuven, Belgium
Volume
45
Issue
6
fYear
2010
fDate
6/1/2010 12:00:00 AM
Firstpage
1198
Lastpage
1208
Abstract
This paper shows that multirate processing in a cascaded discrete-time ΔΣ modulator allows to reduce the power consumption by up to 35%. Multirate processing is possible in a discrete-time ΔΣ modulator by its adaptibility with the sampling frequency. The power reduction can be achieved by relaxing the sampling speed of the first stage and increasing it appropriately in the second stage. Furthermore, a cascaded ΔΣ modulator enables the power efficient implementation of multiple communication standards.@The advantages of multirate cascaded ΔΣ modulators are demonstrated by comparing the performance of single-rate and multirate implementations using behavioral-level and circuit-level simulations. This analysis has been further validated with the design of a multirate cascaded triple-mode discrete-time ΔΣ modulator. A 2-1 multirate low-pass cascade, with a sampling frequency of 80 MHz in the first stage and 320 MHz in the second stage, meets the requirements for UMTS. The first stage alone is suitable for digitizing Bluetooth and GSM with a sampling frequency of 90 and 50 MHz respectively. This multimode ΔΣ modulator is implemented in a 1.2 V 90 nm CMOS technology with a core area of 0.076 mm2. Measurement results show a dynamic range of 66/77/85 dB for UMTS/ Bluetooth/GSM with a power consumption of 6.8/3.7/3.4 mW. This results in an energy per conversion step of 1.2/0.74/2.86 pJ.
Keywords
3G mobile communication; Bluetooth; CMOS integrated circuits; cellular radio; delta-sigma modulation; Bluetooth; CMOS technology; GSM; UMTS; behavioral-level simulations; circuit-level simulations; frequency 20 MHz; frequency 50 MHz; frequency 90 mHz; multirate cascaded discrete-time low-pass ΔΣ modulator; power 3.4 W; power 3.7 W; power 6.8 W; power consumption reduction; sampling frequency; voltage 1.2 V; 3G mobile communication; Bluetooth; CMOS technology; Circuit simulation; Dynamic range; Energy consumption; Frequency; GSM; Power measurement; Sampling methods; CMOS; Cascade; delta sigma modulation; multimode; multirate; sigma delta modulation;
fLanguage
English
Journal_Title
Solid-State Circuits, IEEE Journal of
Publisher
ieee
ISSN
0018-9200
Type
jour
DOI
10.1109/JSSC.2010.2046240
Filename
5482538
Link To Document