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China Leading Software Radio Equipment and Solutions Provider Since 2012
4 Years
| Ask Lasest Price | |
| Brand Name : | Luowave |
| Model Number : | N310 |
| Price : | USD |
| Payment Terms : | T/T |
| Delivery Time : | Spot Goods or 30 Days |
| Supply Ability : | 1 Piece |
Ethernet port series USRP-LW N310
The USRP-LW N310 is a networked software-defined radio (SDR) that provides reliability and fault tolerance for deployment in large-scale and distributed wireless systems.
The USRP-LW N310 is one of the highest channel counts on the SDR market today, with a dual AD9371 RFIC transceiver on the RF front end that provides four transceiver channels in a half-width RU package. Each channel provides up to 100 MHz of instantaneous bandwidth and covers an extended frequency range of 10 MHz to 6 GHz. The baseband processor uses the Xilinx Zynq-7100 SoC to provide large user-programmable FPGAs for real-time and low-latency processing, as well as dual-core ARM CPUs for standalone operations. Supports 1 GbE, 10 GbE and Aurora interfaces via dual SPF+ ports, which can be implemented to the host PC or High-throughput IQ streams for FPGA coprocessors. The flexible synchronization architecture supports clock reference, PPS time reference, external LO input, and GPSDO, enabling high channel count MIMO systems. The USRP-LW N310 simplifies the control and management of radio networks by introducing the ability to perform tasks remotely, such as debugging, updating software, rebooting, factory reset, self-test, host PC/ARM debugging, and monitoring system health.
The USRP-LW N310 device kit includes: one USRP-LW N310 main unit, RJ45 Ethernet cable, SFP+ to RJ45 adapter, Micro-USB cable, MicroSD card, power supply.
Main features:
| • Reliable and fault-tolerant deployment | • AD9371 configurable clock reference frequency: 122.88MHz, 125MHz, 153.6 MHz |
| • Remote management capabilities | |
| • Frequency coverage from 10MHz to 6GHz | • 16 bit ADC, 14 bit DAC |
| • Instantaneous bandwidth of up to 100M per channel | • Dual SPF+ ports (Gigabit Ethernet, 10 Gigabit Ethernet, Aurora). |
| • Support 4 send 4 receipts at the same time | • Dual-core ARM Cortex-A9 CPU 800 MHz |
| • Transceiver filter banks | • Built-in Xilinx Zynq-7100 SoC FPGA |
| • Support external RX LO, TX LO input | • Supports external clock reference and PPS time reference |
| • RFNoC FPGA development framework | • Supports standalone (embedded) or host-based (network) operations |
| • 1 Type A USB host port | • UHD3.11.0 or later support |
| • Built-in custom linux | • 1 micro-USB port (serial console, JTAG) |
| • Support for GNU Radio |
Baseband processor:
The USRP-LW N310 baseband processor uses Xilinx's zynq-7100 SOC, which provides a rich set of programmable FPGAs for real-time demanding and low-latency processing as well as dual-core ARM CPU stand-alone operation. Users can deploy applications on pre-installed Linux embedded operating systems, or use high-speed interfaces such as Gigabit Ethernet Host, 10 Gigabit Ethernet.
synchronous:
The USRP-LW N310 has a flexible reference clock design architecture that supports external PPS, clock reference time reference, external LO input, and gpsdo, which facilitates high channel count MIMO Implementation of the system.
USRP-LW N310 technical data:
| Parameter category | numeric value | unit | Parameter category | numeric value | unit |
| reception | launch | ||||
| Number of channels | 4 | - | Number of channels | 4 | - |
| Independent tuning | 2 | - | Independent tuning | 2 | - |
| L0 shared pairs | 2 | - | L0 shared pairs | 2 | - |
| Gain range | -40 ~ 30 | dB | The gain range is 10MHz to 300MHz 300MHz~6GHz | -30 ~ 25 -30 ~ 20 | dB dB |
| Gain stepping | 1 | dB | |||
| Maximum input power | -15 | dBm | Gain stepping | 1 | dB |
| Filter bank | 10 ~ 430 430 ~ 600 600 ~ 1050 1050 ~ 1600 1600 ~ 2100 2100 ~ 2700 2700 ~ 6000 | MHz | Filter bank | 10 ~ 300 300 ~ 723.17 723.17 ~ 1623.17 1623.17 ~ 3323.17 3323.17 ~ 6000 | MHz |
| An external local oscillator frequency range can be input | 0.6 ~ 8 | GHz | An external local oscillator frequency range can be input | 0.6 ~ 8 | GHz |
| TX/RX switching time | 140 | μs | TX/RX switching time | 140 | μs |
| Conversion and clock performance | power | ||||
| Sample rate | 122.88,125,153.6 | MS/s | DC voltage input | 12,7 | V,A |
| ADC resolution | 16 | bits | power consumption | 50-80 | W |
| DAC resolution | 14 | bits | Physical properties | ||
Minimum frequency step 122.88MS/s 125MS/s 153.6MS/s | 7.32 7.45 9.15 | Hz Hz Hz | size | 425×220×45 | mm |
| GPSDO frequency stability is not locked | 0.1 | ppm | weight | 3.8 | kg |
| GPSDO PPS relative to UTC accuracy | <8 | ns | Operating environment requirements | ||
| GPSDO latency stability | <+/-50 3 25 | hours °C | Stable range of operation | 0 ~ 50 | °C |
| Storage temperature range | -40 ~ 70 | °C | |||
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