Title :
Bit-precision requirements on the A/D converter in a QAM receiver
Author :
Guan, Zhi-Yuan ; Hulyalkar, Samir N.
Author_Institution :
Philips Lab., Briarcliff Manor, NY, USA
Abstract :
An analog-to-digital (A/D) converter at a quadrature-amplitude modulation (QAM) receiver introduces quantization noise which is assumed to be independent of the random Gaussian noise introduced in the transmission path. Hence, the effective carrier-to-noise ratio threshold is smaller than what is calculated by assuming random-noise performance. A method for calculating the quantization noise power with a given bit-precision for an A/D converter is described. This involves the calculations of the peak-to-average ratio of the QAM scheme of interest. This analysis can then be used to determine the bit-precision requirements of the A/D converter, which has a direct correlation to the cost of a QAM receiver. For 64-QAM operation with the given parameters, a 9 bit A/D converter is shown to offer the best trade-off between performance and cost
Keywords :
amplitude modulation; analogue-digital conversion; random noise; receivers; 64-QAM operation; 9 bit; A/D converter; QAM receiver; carrier-to-noise ratio threshold; quadrature-amplitude modulation; quantization noise; random-noise performance; transmission path; Band pass filters; Data communication; Ear; Hafnium; Interpolation; PSNR; Quadrature amplitude modulation; Quantization; Signal processing; Transmitters;
Journal_Title :
Consumer Electronics, IEEE Transactions on
