程序设计基于中断服务和总线分时复用方式,实时更新各个电机的速度和方向。
The program design is based on bus time sharing and interrupt servicing. It can renew the speeds and the directions of every motor at real time.
LC大部分输入采用分时复用技术,输出采用矩阵输出的方法,大大减少了I/O点数。
Most of inputs of PLC use time-sharing multiplexing technology and outputs use matrix outputs, which greatly reduce I/O points.
针对需要交换多种类型信息的要求,设计了传输协议,实现在通讯信道中的多种信息分时复用传输。
A transmission protocol is designed against the requirement of exchanging more types information, the time division multiplex transmission in communication channel is realized too.
通过分时复用关键的运算功能模块,该结构同时可以对两行数据进行处理,硬件的利用率达到100%。
The hardware utilization is speeded up to 100% by processing two independent data streams together using shared arithmetic functional blocks.
在分析了炮身后坐的运动特点,讨论了光斑定位测量法各部分构成的基础上,提出了分时复用的测量思路。
After analyzing the movement characteristic of recoil and discussing the parts of facular-orientation measurement system, time-sharing project has been proposed.
该芯片采用了改进的直接数字频率合成算法、流水线结构与ROM分时复用技术,保证了芯片的高性能和速度,节省了芯片面积。
A modified direct digital frequency synthesis (DDS), pipelined structure, and time-sharing ROM are adopted in the chip, for saving chip area and ensuring high performance and speed.
小灵通使用TDMA(分时多址)/(时分复用)作为其接入无线网络的方法,且声讯编码以自适应差分脉冲编码调制方式调制,速率为每秒32千比特。
PHS uses TDMA/TDD for its radio channel access method, and 32 kbit/s ADPCM for its voice codec.
小灵通使用TDMA(分时多址)/(时分复用)作为其接入无线网络的方法,且声讯编码以自适应差分脉冲编码调制方式调制,速率为每秒32千比特。
PHS uses TDMA/TDD for its radio channel access method, and 32 kbit/s ADPCM for its voice codec.
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