Title :
A periodical frequency synthesizer for a 2.4-GHz fast frequency hopping transceiver
Author :
Uusikartano, Riku ; Niittylahti, Jarkko
Author_Institution :
Digital & Comput. Syst. Lab., Tampere Univ. of Technol., Finland
fDate :
10/1/2001 12:00:00 AM
Abstract :
In this paper, a compact architecture of a digital frequency synthesizer for a 2.4-GHz fast frequency hopping radio modem is presented. The synthesizer is designed for generating 12-bit quadrature carrier signals from 50 to 90 MHz in 500 kHz steps. The phase-to-amplitude conversion in the synthesizer is performed with a highly compressed look-up table (LUT). The read-only memory compression is based on the property that only a limited set of discrete frequencies is needed. Simulation and synthesis results for a VHDL-implementation of the architecture are given. In addition, the proposed architecture is compared to a traditional look-up based direct digital frequency synthesizer with similar performance. Layouts were generated for both designs using a 3.3-V 4-metal 0.35-μm n-well standard cell CMOS technology. The proposed synthesizer was found to be 59% smaller in area than the reference design
Keywords :
CMOS logic circuits; direct digital synthesis; frequency hop communication; modems; spread spectrum communication; transceivers; 2.4 GHz; FSM; VHDL-implementation; absolutely periodic signals; compact architecture; control logic; digital frequency synthesizer; fast frequency hopping radio modem; fast frequency hopping transceiver; frequency control word input; highly compressed look-up table; periodical frequency synthesizer; phase accumulator; phase-to-amplitude conversion; pipeline stages; quadrature carrier signals; read-only memory compression; spread-spectrum techniques; standard cell CMOS technology; top-level architecture; CMOS technology; Digital filters; Frequency synthesizers; Low pass filters; Read only memory; Signal generators; Signal synthesis; Spread spectrum communication; Table lookup; Transceivers;
Journal_Title :
Circuits and Systems II: Analog and Digital Signal Processing, IEEE Transactions on
