整个系统采用了8098微处理器作为主控单元。
The whole system has been used 8098 microprocessor as control unit.
因此论文采用了低功耗的数字信号处理器作为主控芯片,构成一种基于数字信号处理器的控制与选线系统。
So, the thesis adopts a type of low loss DSP processor as main controller which composing the control and fault feeder detection system based on DSP in order to deal with the question.
设计采用数字信号处理器(TMS320 LF 2407dsp)作为主控芯片,能提高控制系统的实时性和数据处理能力。
This design USES digital signal processor (TMS320LF2407 DSP) as a control chip, which helps the system to improve the real-time control capability and data processing capability.
主机采用STM 32f 103 V 8处理器为主控单元,实现仪器操控、无线收发、报警指示、远程控制及工作状态显示等功能。
The host processor main control unit using STM32F103V8 achieve instrument control, wireless transceivers, alarm indicator, remote control, and work status display.
设计了一种交流电机控制系统用于水处理过程控制,采用数字信号处理器TMS320LF 2407配合复杂可编程器件EPM 7256e构成主控系统,并对驱动模块进行设计。
The digital signal processor (DSP) TMS320LF2407 and the complex programmable logic device (CPLD) EPM7256E are used as the main control system and the drive module is also designed.
接口电路又包括与主控制器的PCI接口,与A/D转换器的接口和与协处理器的接口(HPI)。
The interface circuits include the PCI interface of the master controller, the interface of A/D converter and interface (HPI ) of the association processor.
以ARM7处理器(at91sam7s64)为主控芯片的嵌入式光伏MPPT控制方案,由太阳跟踪器和二维平面支架控制器组成。
A embedded PV MPPT control scheme is proposed with ARM7 processor (AT91SAM7S64) as the main control chip. The system consists of sun-tracking device and two-dimensional plane support controller.
硬件部分以针对嵌入式应用的S3C4510B微处理器作为主控制器,利用S3C4510B强大的网络功能和众多外设接口实现对现场设备的远程控制。
The hardware is based on S3C4510B as the main controller, which has powerful Internet function and many interfaces to remote control local equipment.
硬件方面,根据编组站工作环境的特殊要求,课题采用了ARM处理器作为主控制器,并采用单色LCD作为显示单元。
In terms of hardware, according to the special requirements of the working environment, the project use the ARM processor as the main controller, and use monochrome LCD.
控制电路采用微处理器AT89S52作为主控制芯片,矩阵按键和液晶显示构成操作平台,可设置射频信号的频率;
Console is based on micro control chip AT89S52, LCD and button matrix composition platform to set the frequency of the transmitted signals;
控制电路采用微处理器AT89S52作为主控制芯片,矩阵按键和液晶显示构成操作平台,可设置射频信号的频率;
Console is based on micro control chip AT89S52, LCD and button matrix composition platform to set the frequency of the transmitted signals;
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