Based on USB2.0 and DSP technologies, the paper designs a high-speed data acquisition and processing system.
基于USB2.0和DSP技术,本文设计了一套高速数据采集处理系统。
DSP technologies have applied in every field of digital signal processing because of its parallel multiplier, pipeline structure and fast On-Chip memory.
数字信号处理(dsp)具有并行的硬件乘法器、流水线结构以及快速的片内存储器等资源,其技术广泛地应用于数字信号处理的各个领域。
On analyzing the application of the real-time information procession system, this paper describes a Multi-DSP procession system and expatiate the key technologies in hardware and software design.
文章在分析实时信息处理系统应用需求的基础上,描述了一种多dsp处理系统结构,并阐述其软硬件设计中的关键技术。
In this design many technologies such as DSP, low bit-rate speech compression, channel multiplexing, Flash Memory and communication with modem through se rial port are used.
设计中采用了DSP、低比特率语音压缩编解码、信道复用、快闪存储、串口和调制解调器通信等技术。
The DSP-based excitation controller adopts many advanced technologies, such as alternating current sampling, digital pulse and FFT etc.
文中提出的这种基于DSP的励磁控制器采用了许多先进技术,如交流采样、数字脉冲、FFT等。
Many of digital circuit technologies are adopted in the hardware circuit design, such as DSP technology, DDS technology, digital potentiometer technology and so on.
在装置硬件电路设计上,大量采用了数字电路技术,如DSP技术、DDS技术、数字电位器技术等。
Therefore, more and more analog signal processing technologies are being replaced by the DSP technology.
因此,越来越多的模拟信号处理技术正在被数字技术所取代。
The key technologies are algorithms 'transplantation and optimization on DSP, as well as the embedded applications.
本文的关键技术在于算法的DSP移植和优化以及嵌入式应用设计。
In the design, we mainly used DSP and EDA technologies.
在系统设计上,主要应用了“DSP”和“EDA”两大技术。
The paper discusses the techniques to develop power quality network monitoring devices by using the technologies in DSP.
利用数字信号处理技术,对电能质量监测网络端点原型进行了研究。
The paper discusses the techniques to develop power quality network monitoring devices by using the technologies in DSP.
利用数字信号处理技术,对电能质量监测网络端点原型进行了研究。
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