This thesis introduces the design of I/O module taking RTD module as an example.
本文以热电阻模块为例,介绍了I/O模块的设计开发。
The I/O module was also designed to provide high-level instruction set, which greatly simplified the I/O operation of RF IC cards.
模块设计有用户高级读写指令,极大地简化了应用系统对射频卡的操作;
The hardware chapter introduces the external memory module and video I/O module, programs video-driver for the DM642 by using CSL, discuss the applications of interrupt and direct memory access (DMA).
在硬件设计主要介绍系统组成中的外部存储器模块与视频输入输出模块,介绍了使用片上支持库编写DM642中视频驱动程序的方法,以及编写过程中DM642中断和直接存储器存取(DMA)的应用;
The -o option applies to linking programs. It names thrcob as the executable module and generates it by linking thrcob.o.
o选项用于链接程序,它将thrcob指定为可执行模块,并通过将thrcob . o、subd . o和sube . o链接在一起生成该模块。
subd.o and sube.o. If the -o option is not used, the name of the executable module defaults to thrcob.out.
如果没有使用-o选项,那么可执行模块的名称默认为 thrcob.out。
The overall hardware design scheme is performed, such as DSP 3. 3V power, voltage and current sampling module, IGBT driving circuit, I/O signal processor, fault detection module and COM circuit etc.
对系统硬件设计的DSP 3.3V电源的获取、电压电流采样模块、IGBT驱动、一般I/O信号的处理、故障监测和串口通信电路进行了研究分析。
Whether to use standard O/S services, or put some code into the kernel (e. g. in a custom driver, kernel module, or VxD)
是否使用标准的操作系统服务,还是把一些代码放入内核中(如自定义驱动,内核模块。
The SCM part mainly reads the I/O port, performs data processing, data conversion, control of the display part and displays the result on the digital LED module.
单片机部分对数据进行处理,完成数据的读取、运算、数据类型转化、循环扫描显示控制等功能,并将待测信号的相位差显示在八段数码管上。
The SCM part mainly reads the I/O port, performs data processing, data conversion, control of the display part and displays the result on the digital LED module.
单片机部分对数据进行处理,完成数据的读取、运算、数据类型转化、循环扫描显示控制等功能,并将待测信号的相位差显示在八段数码管上。
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