Description
The NI USRP-2945, with Part Number 785263-01, is a robust Software Defined Radio Device that boasts a substantial 1,024 Megabytes of onboard DRAM and 4 input channels, enabling efficient data handling and multiple channel processing.
It operates over a broad frequency range from 10 MHz to 6 GHz, with each channel providing a bandwidth of up to 80 MHz, suitable for a wide array of radio frequencies. At its core lies a Kintex-7 410T FPGA, which provides significant processing power for complex radio applications.
The device includes 2 RF channels, 1 JTAG connector, 1 PCIe port, and 2 Ethernet ports, offering versatile connectivity options for various system configurations.
With a maximum input power of +10 dBm, the device can handle robust signal levels, and its 14-bit ADC resolution, along with an SFDR of 88 dB, ensures high-fidelity signal conversion for precise measurements and analysis.
Despite its capabilities, the USRP-2945 maintains a maximum power consumption of 44 watts and requires a 9 to 16 VDC, Class 2 or LPS power supply, making it an energy-efficient option for long-term deployment.
It is designed to operate within an operating temperature range of 23 °C ± 5 °C, which ensures stable performance in controlled environments.
| Feature | Specification |
|---|---|
| Part Number | 785263-01 |
| Onboard DRAM | 1,024 Megabytes |
| Input Channels | 4 |
| Frequency Range | 10 MHz–6 GHz |
| Bandwidth per Channel | 80 MHz |
| FPGA | Kintex-7 410T |
| RF Channels | 2 |
| JTAG Connector | 1 |
| PCIe Port | 1 |
| Ethernet Ports | 2 |
| Maximum Input Power | +10 dBm |
| ADC Resolution | 14-bit |
| ADC SFDR | 88 dB |
| Power Consumption | 44 watts (maximum) |
| Power Supply Requirement | 9 to 16 VDC, Class 2 or LPS |
| Operating Temperature Range | 23 °C ± 5 °C |
Question 1: What is the maximum bandwidth that each channel of the NI USRP-2945 can provide, and what is the significance of its onboard Kintex-7 410T FPGA in radio applications?
Answer 1: Each channel of the NI USRP-2945 can provide a maximum bandwidth of up to 80 MHz, and the onboard Kintex-7 410T FPGA is significant in radio applications because it offers substantial processing power to handle complex algorithms and tasks required for high-performance radio frequency (RF) applications.
Question 2: What is the power consumption and operating temperature range of the NI USRP-2945, and what type of power supply does it require for its operation?
Answer 2: The NI USRP-2945, with Part Number 785263-01, features 1,024 Megabytes of onboard DRAM, 4 input channels, and supports a broad frequency range from 10 MHz to 6 GHz, while offering connectivity options that include 2 RF channels, 1 JTAG connector, 1 PCIe port, and 2 Ethernet ports.
Question 3: What is the maximum bandwidth per channel that the NI USRP-2945, identified by Part Number 785263-01, can provide, and what is its relevance in handling a wide range of radio frequencies?
Answer 3: The NI USRP-2945, with Part Number 785263-01, can provide a maximum bandwidth of up to 80 MHz per channel, which is relevant for handling a wide range of radio frequencies as it allows for efficient processing and analysis of signals within a broad spectrum, from 10 MHz to 6 GHz.
Question 4: What are the detailed specifications and connectivity options of the NI USRP-2945, with Part Number 785263-01, in terms of its onboard memory, input channels, and supported frequency range?
Answer 4: The maximum bandwidth available per channel on the NI USRP-2945 is 80 MHz.
Question 5: What is the maximum bandwidth available per channel on the NI USRP-2945, which operates within a frequency range of 10 MHz to 6 GHz?
Answer 5: The NI USRP-2945 has a maximum power consumption of 44 watts, operates within a temperature range of 23 °C ± 5 °C, and requires a 9 to 16 VDC, Class 2 or LPS power supply for its operation.
