Design and memory optimization of hybrid gate diffusion input numerical controlled oscillator

G. R. Reddy, Chitra Perumal, Prakash Kodali, Bodapati Venkata Rajanna
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引用次数: 1

Abstract

The numerically controlled oscillator (NCO) is one of the digital oscillator signal generators. It can generate the clocked, synchronous, discrete waveform, and generally sinusoidal. Often NCOs care utilized in the combinations of digital to analog converter (DAC) at the outputs for creating direct digital synthesizer (DDS). The network on chips (NOCs) are utilized in various communication systems that are fully digital or mixed signals such as synthesis of arbitrary wave, precise control for sonar systems or phased array radar, digital down/up converters, all the digital phase locked loops (PLLs) for cellular and personal communication system (PCS) base stations and drivers for acoustic or optical transmissions and multilevel phase shift keying/frequency shift keying (PSK/FSK) modulators or demodulators (modem). The basic architecture of NCO will be enhanced and improved with less hardware for facilitating complete system level support to various sorts of modulation with minimum FPGA resources. In this paper design and memory optimization of hybrid gate diffusion input (GDI) numerically controlled oscillator based on field programmable gate array (FPGA) is implemented. compared with NCO based 8-bit microchip, memory optimization of hybrid GDI numerically controlled oscillator based on FPGA gives effective outcome in terms of delay, metal-oxide-semiconductor field-effect transistors (MOSFET’s) and nodes.
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混合门扩散输入数控振荡器的设计与存储优化
数控振荡器(NCO)是数字振荡器信号发生器的一种。它可以产生时钟,同步,离散波形,一般正弦。通常,NCOs被用于在输出端组合数模转换器(DAC)以创建直接数字合成器(DDS)。片上网络(noc)用于各种全数字或混合信号的通信系统,如任意波的合成,声纳系统或相控阵雷达的精确控制,数字下/上转换器,蜂窝和个人通信系统(PCS)基站的所有数字锁相环(pll)和声学或光学传输的驱动器以及多电平移相键控/移频键控(PSK/FSK)调制器或解调器(调制解调器)。NCO的基本架构将以更少的硬件得到增强和改进,以便用最少的FPGA资源实现对各种调制的完整系统级支持。本文实现了基于现场可编程门阵列(FPGA)的混合门扩散输入(GDI)数控振荡器的设计和内存优化。与基于NCO的8位微芯片相比,基于FPGA的混合GDI数控振荡器的内存优化在时延、金属氧化物半导体场效应晶体管(MOSFET)和节点方面都取得了较好的效果。
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