Title :
A 2.7-V CMOS dual-mode baseband filter for PDC and WCDMA
Author :
Hollman, Tuomas ; Lindfors, Saska ; Länsirinne, Mika ; Jussila, Jarkko ; Halonen, Kari A I
Author_Institution :
Electron. Circuit Design Lab., Helsinki Univ. of Technol., Espoo, Finland
fDate :
7/1/2001 12:00:00 AM
Abstract :
A fifth-order analog CMOS RC-opamp baseband filter for a dual-mode cellular phone receiver was designed with maximum component sharing in the two modes, The filter meets the bandwidth specifications of both the PDC and WCDMA standards, which represent the two extremes with respect of the channel bandwidth. The total area of 4.8 mm2 was minimized by reducing the filter order from five to three in the PDC mode, Also, the operational amplifiers with adjustable GBW were used to minimize PDC-mode power consumption. The capacitance matrices were made only partially overlapping to reduce the resistance spread, The largest resistors were implemented with T networks and the smallest capacitors with series connections to extend the range of feasible passive component values. The measured integrated input referred noise is 17 μV and 47 μV in the PDC and WCDMA modes, respectively. The IIP3 is +35 dBV in the WCDMA mode, and the circuit consumes 6.8 mW and 25.4 mW in the PDC and WCDMA modes, respectively. The supply voltage is 2.7 V
Keywords :
Butterworth filters; CMOS analogue integrated circuits; RC circuits; active filters; cellular radio; code division multiple access; operational amplifiers; radiofrequency filters; 2.7 V; 25.5 mW; 6.8 mW; CMOS dual-mode baseband filter; PDC mode; T-network implemented resistors; WCDMA mode; adjustable GBW; analog CMOS RC-opamp filter; capacitance matrices; dual-mode cellular phone receiver; fifth-order baseband filter; operational amplifiers; Bandwidth; Baseband; Capacitance; Cellular phones; Energy consumption; Filters; Multiaccess communication; Operational amplifiers; Power amplifiers; Resistors;
Journal_Title :
Solid-State Circuits, IEEE Journal of
