Journal of Microelectronics and Solid State Devices

In this paper, an implementation of 16-bit QAM is performed where there is a high use of Digital Video Broadcasting Cable (DVB-C), as there is increase in the usage the bandwidth requirement for each user is mutually increasing. Due to this, there is spectral congestion caused and drastic improvements have been taken in the field of communications. QAM multilevel modulation can offer an attractive solution to current bandwidth restriction in microcellular networks. The conventional method of QAM synthesis is analog. In this paper, an attempt has been taken for the experimental synthesis of 16-bit QAM by using the principle of Direct Digital Synthesis (DDS) with the help of Digital Signal Processor (DSP) TMS320C6713. The synthesized QAM signal has been generated by writing a program in the C-source file of Code Composer Studio (CCStudio) Integrated Development Environment (IDE). Experimental results for 16-bit QAM modulating sequence demodulating sequence are included.

Turner CL. Recursive discrete-time

sinusoidal oscillators. IEEE Signal

Processing Mag. 2003; 20(3): 103–111p.

Cordesses L. Direct digital synthesis: A

tool for periodic wave generation (Part 1).

IEEE Signal Processing Mag. 2004; 21(4):

–54p.

Code Composer Studio Getting Started

Guide, Literature Number: SPRU509C,

November 2001. TPS 2O14 - 5:55:07 PM

/172006.

Prasad SS, Sanyal SK. A novel technique

for the generation of good quality tunable

sinusoid based on dds using digital signal

processor. In Proc. of 2nd IEEE

International Conference on Information

& Communication Technologies: From

Theory to Applications, ICTTA'06,

Damascus, Syria. 2006; 1: 717–718p.

Sampei S, Kamio Y, Sasaoka H. Field

experiments on pilot symbol aided 16-

QAM modems for land mobile

communications. In Proc. IEEE VTC.

; 2: 852–855.

Vankka J, Kosunen M, Sanchis I, et al. A

multicarrier QAM modulator. IEEE Trans.

Circuits Syst. II. 2000; 47(1): 1–10p.

Zhihong L, Greg W. TMS320TCI6618-

TI’s high-performance LTE physical layer

solution. Texas Instruments. 2011.

Magrabi SAR. Development of a DSP

prototype on QPSK modulator and

demodulator using code composer studio

for radio communication system. STM

Journals in Recent Trends in Sensor

Research and Technology. 2014; 1(2): 7–

p.