1.High-speed LVDS data transmission is one of the most important applications, and is also the main performance of GAP gateway system.
数据高速传输是LVDS最重要的应用之一,也是GAP网闸系统的主要性能指标。
2.The circuit of the invention adopts an LVDS technique for realizing the reliability and real-time property of driving signal transmission.
本发明的电路采用了LVDS技术,实现了驱动信号传输的可靠性和实时性。
3.To solve limited bandwidth problem of LVDS transmission, this dissertation used the Gigabit Ethernet transmission.
为解决LVDS传输方式带宽有限的问题,本文提出采用千兆以太网传输方式。
4.The ADC automatically multiplies the sample rate clock for the appropriate LVDS serial data rate.
为获得合适的LVDS串行数据速率该ADC会自动倍乘采样速率时钟。
5.The LVDS image acquisition card PCI-1424 is employed to carry out the high-speed image data acquisition.
利用LVDS图像采集卡PCI-1424对下位机传来的高速图像数据进行采集;
6.The digital outputs are LVDS compatible and support both twos complement and offset binary format.
数字输出为LVDS兼容,支持二进制补码和偏移二进制两种格式。
7.The ADC output data can be routed directly to the two external 14-bit output ports.
ADC输出数据可以直接路由至两个外部14位输出端口,这些输出可以设置为1.8VCMOS或LVDS。
8.LVDS technology in the GAP system has good application prospects.
LVDS技术在GAP网闸系统中具有良好应用前景。
9.The use of LVDS technology solves the problem of speed bottleneck of GAP gateway system data "ferry" .
利用LVDS技术解决GAP网闸系统数据“摆渡”的速度瓶颈问题。
10.LVDS is a small amplitude differential signal technology, the rate can reach several hundred Mbps or even higher;
LVDS是一种小振幅差分信号技术,使用这种技术传输速率可以达到数百兆,甚至更高;