Difference between revisions of "About USRP Bandwidths and Sampling Rates"

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!Details
 
!Details
 
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|-
|style="text-algin:center;"| 2016-05-01   
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|style="text-align:center;"| 2016-05-01   
|style="text-algin:center;"| Neel Pandeya<br> Nate Temple
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|style="text-align:center;"| Neel Pandeya<br> Nate Temple
|style="text-algin:center;"| Initial creation
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|style="text-align:center;"| Initial creation
 
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|}
  
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!DAC Processing Bandwidth (MS/s)
 
!DAC Processing Bandwidth (MS/s)
 
|-
 
|-
|[https://www.ettus.com/product/details/UB100D-BDL USRP B100]
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|64 MS/s
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|[https://www.ettus.com/product/details/USRP-B200mini USRP B200mini] / [https://www.ettus.com/product/details/USRP-B205mini-i USRP B205mini]
|128 MS/s
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|61.44 MS/s (simplex)
 +
|61.44 MS/s (simplex)
 
|-
 
|-
|[https://www.ettus.com/product/details/USRPPKG USRP 1]
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|64 MS/s
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|[https://www.ettus.com/product/details/UB200-KIT USRP B200] / [https://www.ettus.com/product/details/UB210-KIT USRP B210]
|128 MS/s
+
|61.44 MS/s (simplex)
|-
+
|61.44 MS/s (simplex)
|[https://www.ettus.com/product/details/E100-KIT USRP E100] / [https://www.ettus.com/product/details/E110-KIT E110]
+
|64 MS/s
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|128 MS/s
+
 
|-
 
|-
|[https://www.ettus.com/product/details/B200-KIT USRP B200] / [https://www.ettus.com/product/details/B210-KIT USRP B210]
+
 
 +
 
 +
|[https://www.ettus.com/product/details/E310-KIT USRP E310] / [https://www.ettus.com/product/details/USRP-E312 USRP E312]
 
|61.44 MS/s (simplex)
 
|61.44 MS/s (simplex)
 
|61.44 MS/s (simplex)
 
|61.44 MS/s (simplex)
 
|-
 
|-
|[https://www.ettus.com/product/details/N200-KIT USRP N200] / [https://www.ettus.com/product/details/N210-KIT USRP N210]
+
 
|100 MS/s
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|[https://www.ettus.com/product/details/UN200-KIT USRP N200] / [https://www.ettus.com/product/details/UN210-KIT USRP N210]
 
|100 MS/s
 
|100 MS/s
 +
|400 MS/s
 
|-
 
|-
 
|[https://www.ettus.com/product/details/X300-KIT USRP X300] / [https://www.ettus.com/product/details/X310-KIT USRP X310]
 
|[https://www.ettus.com/product/details/X300-KIT USRP X300] / [https://www.ettus.com/product/details/X310-KIT USRP X310]
 
|200 MS/s
 
|200 MS/s
|200 MS/s
+
|800 MS/s
 
|-
 
|-
 
|}
 
|}
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*Note: The actual streaming performance will depend on the processing capability of the host computer, the complexity of the application/DSP, and other factors.  This table merely represents the maximum theoretical throughput of each host interface.
 
*Note: The actual streaming performance will depend on the processing capability of the host computer, the complexity of the application/DSP, and other factors.  This table merely represents the maximum theoretical throughput of each host interface.
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{| class="wikitable" style="margin: auto;"
 
{| class="wikitable" style="margin: auto;"
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|-
 
|-
 
|USB 3.0
 
|USB 3.0
|B200/B210
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|B200/B210/B200mini/B205mini
 
|61.44
 
|61.44
 
|Half Duplex
 
|Half Duplex
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<center>'' * Caution: Use of wide bandwidth daughterboards with lower bandwidth USRP™ devices will result in aliasing.''</center>
  
*Caution: Use of wide bandwidth daughterboards with lower bandwidth USRP ™ devices will result in aliasing.
 
  
 
It is important to meet filtering and bandwidth requirements to avoid aliasing.  The extended bandwidth WBX-120, CBX-120 and SBX-120 daughterboards were design to work with USRP X300/X310 and any future products with sufficient ADC/DAC sample rates.  These boards are not compatible with devices that incorporate lower rate ADC/DAC below 200 MS/s.  See "Daughterboard Compatibility" for more information.
 
It is important to meet filtering and bandwidth requirements to avoid aliasing.  The extended bandwidth WBX-120, CBX-120 and SBX-120 daughterboards were design to work with USRP X300/X310 and any future products with sufficient ADC/DAC sample rates.  These boards are not compatible with devices that incorporate lower rate ADC/DAC below 200 MS/s.  See "Daughterboard Compatibility" for more information.

Latest revision as of 15:26, 16 May 2016

Application Note Number

AN-177

Revision History

Date Author Details
2016-05-01 Neel Pandeya
Nate Temple
Initial creation

Abstract

This AN provides insight into the topics of USRP architecture, system bandwidth, host interface throughput, and available sampling rates.

Overview

"What is the bandwidth of the USRP™ device?" is a commonly asked question. This document will provide some insight into the USRP ™ architecture, and how to calculate system bandwidth by analyzing the performance of each part of the signal chain. Common terms such as "analog bandwidth" and "host bandwidth" will be defined. This document requires basic understanding of the Nyquist-Shannon sampling theorem.

General USRP Architecture

While some characteristics and specifications vary from model to model, all USRP devices use the same general architecture. In many cases, the RF frontend, the mixers, filters, oscillators and amplifiers required to translate a signal from the RF domain and the complex baseband or IF signals. The baseband of IF signals are sampled by ADCs, and the digital samples are clocked into an FPGA. The stock FPGA image provides digital down-conversion, functionality, which includes fine-frequency tuning and several filters for decimation. After decimation, raw samples or other data are streamed to a host computer through the host interface. The reverse process applies to the transmit chain.

The bandwidth of the USRP device varies at each point in the signal chain. Three general types of bandwidth specifications are the analog bandwidth, the FPGA processing bandwidth, and host bandwidth. The system bandwidth is generally the minimum of the RF daughterboard, FPGA processing, and host bandwidth. Care should also be taken to avoid an analog bandwidth that is greater than the ADC/DAC sample rate of any device.


2920 simplified system diagram.gif

Analog Bandwidth

The analog bandwidth is the amount of useful bandwidth (3 dB) between the RF port and IF/baseband interface of an RF channel. Typically this bandwidth is set by IF or baseband filters on the daughterboard, which are designed to avoid aliasing when paired with a USRP motherboard with given ADC/DAC sample rates.

Daughterboard Frequency Coverage Analog Bandwidth
WBX-120 50 MHz - 2.2 GHz 120 MHz
SBX-120 400 MHz - 4.4 GHz 120 MHz
CBX-120 1.2 GHz - 6 GHz 120 MHz
UBX-160 10 MHz - 6 GHz 160 MHz
WBX 50 MHz - 2.2 GHz 40 MHz
SBX 400 MHz - 4.4 GHz 40 MHz
CBX 1.2 GHz - 6 GHz 40 MHz
UBX-40 10 MHz - 6 GHz 40 MHz
TVRX2 50 MHz - 860 MHz Configurable – 1.7 to 10 MHz
DBSRX2 800 MHz – 2.3 GHz Configurable – 8 to 80 MHz
BasicRX / BasicTX 1 – 250 MHz *Determined by ADC/DAC sample rates. External filter required.
LFRX / LFTX DC-30 MHz 30 MHz

FPGA Processing Bandwidth

The FPGA processing bandwidth is the sample rate provided by the ADCs and DACs on the USRP motherboard. This sets the hypothetical maximum digital bandwidth of a system based on the USRP. For example, the FPGA of the USRP X300/X310 sends and receives samples at 200 MS/s from the DACs and ADCs respectively. The stock FPGA design of all USRP devices include DSP chains that provide frequency shifting, decimation of received streams, and interpolated of transmit streams. These DSP chains operate at the specified FPGA processing bandwidth.

  • Note: Users that customize the FPGA may incorporate their own, custom DSP functionality. Given the large number of design factors involved in FPGA design, these specifications do not guarantee that custom DSP functions will run at the full rate.
USRP ™ Model ADC Processing Bandwidth (MS/s) DAC Processing Bandwidth (MS/s)
USRP B200mini / USRP B205mini 61.44 MS/s (simplex) 61.44 MS/s (simplex)
USRP B200 / USRP B210 61.44 MS/s (simplex) 61.44 MS/s (simplex)
USRP E310 / USRP E312 61.44 MS/s (simplex) 61.44 MS/s (simplex)
USRP N200 / USRP N210 100 MS/s 400 MS/s
USRP X300 / USRP X310 200 MS/s 800 MS/s

Host Bandwidth

The host interface allows data to stream between the FPGA of a USRP device, and a host PC. Most applications stream I/Q data to and from the USRP device. A summary of the various interface options that are available with the USRP product line are shown below. The host sample rate with 16-bit I&Q samples are shown. Most USRP models also provide to option to stream 8-bit samples, effectively doubling the host-bandwidth in terms of samples/second.

In this context, "full duplex" means that the interface can stream in both directions at the specified rates simultaneously. Some interfaces, such as USB 3.0, do not provide separate data paths for transmit and receive data, but reuse a single transport in a "half duplex" mode. In this case, the total interface bandwidth would be shared between the transmit and receive functions of a USRP.

  • Note: The actual streaming performance will depend on the processing capability of the host computer, the complexity of the application/DSP, and other factors. This table merely represents the maximum theoretical throughput of each host interface.


Interface USRP ™ Devices Host Sample Rate (MS/s @ 16-bit I/Q) Half/Full Duplex
USB 2.0 USRP ™ 1, B100 8 Half Duplex
USB 3.0 B200/B210/B200mini/B205mini 61.44 Half Duplex
Gigabit Ethernet N200/N210 25 Full Duplex
10 Gigabit Ethernet X300/X310 200 Full Duplex
PCI-Express (4-lane PCIe Card) X300/X310 200 Full Duplex
PCI-Express (1-lane ExpressCard) X300/X310 50 Full Duplex
OMAP GPMC E100/E110 4 Half Duplex
* Caution: Use of wide bandwidth daughterboards with lower bandwidth USRP™ devices will result in aliasing.


It is important to meet filtering and bandwidth requirements to avoid aliasing. The extended bandwidth WBX-120, CBX-120 and SBX-120 daughterboards were design to work with USRP X300/X310 and any future products with sufficient ADC/DAC sample rates. These boards are not compatible with devices that incorporate lower rate ADC/DAC below 200 MS/s. See "Daughterboard Compatibility" for more information.

How do I calculate the bandwidth of my USRP-based system?

The bandwidth of the USRP-based system depends on the specific implementation and functional allocation.

  • Example 1:A system that uses a USRP X300/X310 with a 10 GigE interface, a fully host-based application, and a 40 MHz daughterboard will provide a usable bandwidth of 40 MHz. The limit is set by the daughterboard.
  • Example 2: A system that uses a USRP N200/N210 with a 1 GigE interface, a fully host-based application that requires 16-bit samples, and a 40 MHz daughterboard will provide a useable bandwidth of ~20 MHz. The limit is set by the host interface – 1 GigE can stream up to 25 MS/s, which translates to ~20 MHz of usable bandwidth.
  • Example 3: A system that uses a USRP X300/X310 with a 1 GigE interface for command/control, full FPGA processing of the rx/tx steams, and a 120 MHz daughterboard may provide usable bandwidth up to 120 MHz. The FPGA can process samples at 200 MS/s. The daughterboard is the limiting factor.