The communication way for traditional laser equipment mainly uses parallel interface, novel communication technology has been applied widely due to the enhancement of technology.
传统的激光设备通讯方式主要采用并行接口,而随着技术的增强,新的通讯技术得到了广泛应用。
For communication among parallel print port of PC and multiple single-chips, interface is divided into data, state and control groups respectively controlled by each register.
PC并行打印口与多台下位单片机的通讯,将接口分成数据、状态、控制三组,由其寄存器分别控制。
Parallel interface is usually adopted in the applications of data acquisition that need close -range data transfer and fast communication, such as CCD and video data acquisition.
在要求传输距离近,通信速度快的数据采集应用中,如CCD、视频数据采集,往往采用并行接口方式。
This, combined with the flexible interface and powerful communication capability of TMS320C40 , made the system be easily configured as SIMD, MIMD parallel and pipeline structures.
电路采用可变结构帧存形式,与两片TMS320C40灵活的外部接口及强大的通信能力相结合,使系统可方便地组织成SIMD、MIMD等并行处理结构及流水处理结构;
This system was equipped two sets of communication interface with PC, the serial and parallel interface, select one of them according to the experiment condition and convenience.
该系统配备了两套与PC机的通信接口,即并口和串口通信。以实验条件和方便为宜选择其一。
It presents the principle chart of the interface for 16 bits parallel data communication.
给出了实现1 6位数据并行通讯的接口原理图。
The system can insure the conversion between the Serial Communication and network interface, and finite samples multi-channel parallel collection, and real-time display and data conservation function.
该系统实现串口通信与网络接口的转化,有限点多通道并行采集,实时显示及数据保存功能。
The experimental results prove that this 16 Bit parallel data communication interface attains the performance index and accomplishes the task of c...
通过实际运行证明该16位并行输入输出接口通讯电路达到了设计指标,圆满完成了配合整个控制系统的任务。
Large electric interface range and serial and parallel communication are optional.
电气接口适应范围大,串行、并行两种通讯方式可选。
The whole system can be divided into four sub-systems, which are user interface sub-system, communication sub-system, server managing sub-system, and distributed and parallel executing sub-system.
根据功能可以把该系统划分为四个组成部分:用户接口子系统、通信子系统、服务器管理子系统和执行子系统。
Due to lack of data and address parallel bus on TMS320F2808, the two DSPexchange data by means of communication through SPI interface.
由于采用的TMS320F 2808不具备数据总线与地址总线,两个DSP之间采用SPI串行通讯的方式实现数据交换。
Due to lack of data and address parallel bus on TMS320F2808, the two DSPexchange data by means of communication through SPI interface.
由于采用的TMS320F 2808不具备数据总线与地址总线,两个DSP之间采用SPI串行通讯的方式实现数据交换。
应用推荐