|Bandwidth:||40 Mhz||Frequency Range:||10MHz-6GHz|
|FPGA:||The XC7K410T||Daughterboards:||UBX-LW 40MHz|
|Data Storage:||1GB DDR3||Interface:||1/10 Gigabit Port, PCIE|
USRP Software Defined Radio 40MHz,
2954 USRP 40MHz,
PCIE USRP 2954
The USRP-LW 2954 is a high-performance, scalable software-defined radio (SDR) platform for designing and deploying next-generation wireless communication systems. It consists of one USRP-LW X310 and two UBX-LW 40MHz RF daughter boards
The USRP-LW 2954 hardware architecture combines two expanded bandwidth daughter board slots with a bandwidth of up to 40M from 10MHz to 6GHz. And it features multiple high-speed interfaces to choose from (PCIe, Gigabit/10 Gigabit Ethernet ports), as well as a resource-rich, user-programmable Kintex-7 FPGA. In addition, the USRP-LW 2954 uses an open source cross-platform UHD driver, with a large number of development frameworks, compatible reference architectures, and open source projects.
As the digital processing core of the USRP-LW 2954 the XC7K410T FPGA provides high-speed connectivity between all major components. Includes RF front end, host interface, and DDR3 memory. The default FPGA provides all UHDs for controlling digital downconversion and digital upconversion, fine frequency tuning, and some other DSP function blocks. Users can take advantage of the spare space of the resource-rich Kintex-7 FPGA, plus the RFNoC development framework supported by USRP, to develop and implement their own DSP processing modules.
The USRP-LW 2954 offers a variety of high-speed interfaces to choose from. On the panel of the device, the Gigabit Ethernet port is one of the simplest and most commonly used ways to connect. For applications with extended bandwidth and low latency, such as PHY/MAC studies, the USRP-LW 2954 provides an efficient bus interface PCIe x4 for this deterministic operation. When the application uses network recording or multi-node processing, 10 Gigabit port is the best choice.
The USRP-LW 2954 includes many additional features that will help some other wireless applications. For example, in FPGA design, the 1GB DDR3 on the motherboard can be used as data buffering and data storage. The internal GPSDO provides high-precision frequency reference when synchronized to the GPS system with a synchronization delay of less than 50ns. Allows the user to control external components such as amplifiers and switches through the GPIO interface, support inputs such as event triggers, and observe debug signals. The USRP-LW 2954 also includes an internal JTAG adapter that allows developers to easily load and debug new FPGA images.
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