今天,Spectrum很高兴地宣布,我们的下一代超快AWG卡的发布。M5i.63xx系列来了!
Today Spectrum Instrumentation is pleased to announce the release of our next generation of ultrafast AWG cards. The M5i.63xx series is here!
双通道和单通道型号现已推出四款新板卡,输出速率最高可达10 GS/s,分辨率为16位,带宽最高可达2.5 GHz。这些AWG采用与我们破纪录的M5i.33xx系列数字化仪相同的架构,代表了PCIe AWG卡的世界首创,为波形频率生成和FIFO数据流速度设定了新标准。此外,它们允许工程师和科学家以前所未有的方式重现和操纵测试信号。这些卡标配2 GS板载大容量内存,8 GS可选,可以通过PCIe总线以高达10 GB/s的速率接收新数据。基于M5i平台,M5i.63xx产品还可以与Star-Hub一起使用,以创建更大的多通道(最多16个)系统。添加DPG选项,四个快速数字脉冲发生器可以与每个卡的模拟输出一起使用。这是一种完全独特的功能组合,为几乎无限的信号波形产生可能性打开了大门。因此,我们相信你会发现这些AWG可以用于非常广泛的应用。
Featuring four new product variants, dual and single channel models are now available offering output rates up to 10 GS/s, 16-bit resolution and bandwidths up to 2.5 GHz. Using the same architecture as our record breaking M5i.33xx series digitizers, these AWG’s represent a world first for PCIe AWG cards, setting new standards for waveform frequency generation and FIFO data streaming speed. Furthermore, they allow engineers and scientists to recreate and manipulate test signals like never before. The cards come with a massive 2 GS of on-board memory as standard, 8 GS optional, and can receive new data over the PCIe bus at rates up to 10 GB/s. Based on the M5i platform the M5i.63xx products can also be used with Star-Hub to create larger multi-channel (up to 16) systems. Add the DPG option and four fast digital pules generators can be used together with each cards analog outputs. It’s a totally unique combination of features that opens the door to almost limitless signal waveform generation possibilities. As such, we believe you will find these AWGs can be utilized in an exceedingly wide variety of applications.
例如,在通信中,使用超高频(UHF ),如电视、航空和卫星广播、无线或互联网。光学系统,其中部署了激光器和快速光电传感器。在核物理中,探测器从放射源产生纳秒脉冲。半导体市场需要GHz范围内的精确信号来激励和测试IC。或者,对于国防和民用航空部门,无线电波用于远程雷达和监视(例如,S波段无线电波的范围为2-4 GHz)。在所有这些应用中,新的AWG可以再现常见的快速信号和脉冲。因此,它们可以用来复制完整的系统前端,或替换关键元件,从而让设计人员和技术人员加快项目开发速度,提高性能。
For example, in communications, were ultra-high frequency (UHF) is used, such as TV, aerospace and satellite radio, wireless, or the internet. Optical systems, where lasers and fast photoelectric sensors are deployed. In nuclear physics where detectors produce nanosecond pulses from radioactive sources. In the semiconductor market where accurate and precise signals in the GHz range are needed to stimulate and test ICs. Or, for the defence and civil aviation sectors, where radio waves are used for long range radar and surveillance (e.g. S-band radio waves are in the 2-4 GHz in range). In all these applications the new AWG’s can reproduce the fast signals and pulses that are commonly found. As such, they can be used to replicate complete system front-ends, or replace key components, allowing designers and technicians to speed up their project development times and improve performance.
标签:used,GS,双通道,10G,GHz,up,xx,AWG From: https://blog.csdn.net/FPGA_ADDA/article/details/143201604