The low power design of an 80c51 embedded microprocessor core is presented in this paper.
介绍了一种80c51嵌入式微处理器内核的低功耗设计方法。
Most embedded systems have been applied in a single approach to embedded microprocessor core, with some monitoring, servo, pointing device with a certain function.
目前大多数嵌入式系统处于单独应用方式,以嵌入式微处理器为核心,与一些监测、伺服、指示设备配合实现一定的功能。
The circuit design and amelioration are based on HHARM2410_K2 development board using ARM9 embedded microprocessor S3C2410A as the core.
课题以arm 9嵌入式微处理器s3c 2410a为核心,基于HHARM 2410 - K2开发板进行电路设计与改进。
The 32-bit ARM embedded microprocessor, LPC2104, is selected as the core of hardware experiment circuit board, and the designing of hardware circuit is given.
在硬件方面,本文设计了一个基于32位ARM微处理器LPC 2104的硬件实验平台,并结合嵌入式系统远程监控的需要,给出了硬件电路的整体设计原理和实现方法。
This thesis studies the architecture of the 32 bit ARM series microprocessor which is widely applied in embedded systems, and briefly introduces some typical SOC chips based on ARM core.
文章从微处理器设计者的角度出发,对在嵌入式系统当中应用广泛的32位ARM微处理器系列的体系结构作了研究和探讨,简要介绍了3种当前市场上流行的、典型的基于ARM的SOC芯片。
Embedded microprocessor and real-time operating system are two core technologies of an embedded system.
嵌入式微处理器和嵌入式实时操作系统是嵌入式系统的两大核心技术。
The power consumption reduction is one of the core techniques in designing the portable intelligence instruments based on embedded microprocessor unit (EMPU).
在嵌入式便携智能仪器的设计中,降低功耗是其核心技术之一。
The power consumption reduction is one of the core techniques in designing the portable intelligence instruments based on embedded microprocessor unit (EMPU).
在嵌入式便携智能仪器的设计中,降低功耗是其核心技术之一。
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