Difference between revisions of "USRP X Series Quick Start (Daughterboard Installation)"

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==Introduction==
+
==Application Note Number==
Application Note Number: AN-5501
+
'''AN-904'''
  
Authors: John Smith and Jane Smith
+
==Revision History==
 +
{| class="wikitable"
 +
!Date
 +
!Author
 +
!Details
 +
|-
 +
|style="text-align:center;"| 2016-05-01 
 +
|style="text-align:center;"| Neel Pandeya<br> Nate Temple
 +
|style="text-align:center;"| Initial creation
 +
|
 +
|-
 +
|style="text-align:center;"| 2020-Apr-27 
 +
|style="text-align:center;"| Jose Loera
 +
|style="text-align:center;"| Added section "UBX Daughterboard Installation Video" and link. Link also provided [https://drive.google.com/file/d/1cMMxuV_KZVrc5r-NOwNLI9JoaGM8aUIu/view?usp=sharing here] as well
 +
|}
  
Organization: Ettus Research
+
==Abstract==
 
+
This application note is a detailed step-by-step guide to install a daughterboard into the USRP X300/X310.  
Last Modified Date: 2016/04/15
+
 
+
Reference: https://www.ettus.com/content/files/kb/xseries-quick-start.pdf
+
  
 
==Overview==
 
==Overview==
This Quick Start is meant to show you how to put together your new X300/310. We will start at the point when you have yet to unpack the boxes and go all the way to being able to ping the device, performing a quick software probe to verify hardware components and finally running a simple FFT demo. This Quick Start does not cover the installation of software on the host computer.
+
This Quick Start is meant to show you how to put together your new X300/310. We will start at the point when you have yet to unpack the boxes and go all the way to being able to ping the device, performing a quick software probe to verify hardware components and finally running a simple FFT demo. This Quick Start does not cover the installation of software on the host computer. If you have not installed UHD/Gnuradio on your system, please reference the Building and Installing the USRP Open-Source Toolchain (UHD and GNU Radio) on [[Building and Installing the USRP Open-Source Toolchain (UHD and GNU Radio) on Linux|Linux]], [[Building and Installing the USRP Open-Source Toolchain (UHD and GNU Radio) on OS X|OS X]] and [[Building and Installing the USRP Open Source Toolchain (UHD and GNU Radio) on Windows|Windows]] Application Notes. You may also use the [[Live SDR Environment]] to perform the verification steps for your USRP. Detailed information on the [[Live SDR Environment]] is available at the [[Live SDR Environment Getting Started Guides]] page.
  
 
==Tools Required==
 
==Tools Required==
Line 18: Line 29:
  
 
==Pre-installed Software==
 
==Pre-installed Software==
* UHD Latest (http://code.ettus.com/redmine/ettus/projects/uhd/wiki)
+
* UHD Latest  
* GNU Radio (http://gnuradio.org/redmine/projects/gnuradio/wiki/InstallingGR)
+
* GNU Radio
  
 
==Box Contents==
 
==Box Contents==
Line 39: Line 50:
 
[[File:Xseries quickstart figure 2.png|700px|center]]
 
[[File:Xseries quickstart figure 2.png|700px|center]]
  
==Proper Handling==
+
==Proper Care and Handling==
Ettus Research recommends you perform the installation with no power to the USRP and using ESD equipment.
+
All Ettus Research products are individually tested before shipment. The USRP™ is guaranteed to be functional at the time it is received by the customer. Improper use or handling of the USRP™ can easily cause the device to become non-functional. Ettus Research recommends you perform the installation with no power to the USRP and using ESD equipment. Listed below are some examples of actions which can prevent damage to the unit:
 +
 
 +
*Never allow metal objects to touch the circuit board while powered.
 +
*Always properly terminate the transmit port with an antenna or 50Ω load.
 +
*Always handle the board with proper anti-static methods.
 +
*Never allow the board to directly or indirectly come into contact with any voltage spikes.
 +
*Never allow any water, or condensing moisture, to come into contact with the boards.
 +
*Always use caution with FPGA, firmware, or software modifications.
 +
{|
 +
|style="padding-left:10px; padding-right:10px; padding-bottom:10px;" |[[File:Caution.png|24px|center]]
 +
|style="padding-left:10px; padding-right:10px; padding-bottom:10px;" |Never apply more than -15 dBm of power into any RF input.
 +
|-
 +
|style="padding-left:10px; padding-right:10px; padding-bottom:10px;" |[[File:Caution.png|24px|center]]
 +
|style="padding-left:10px; padding-right:10px; padding-bottom:10px;" |Always use at least 30dB attenuation if operating in loopback configuration
 +
|-
 +
|}
  
 
==Installation Process==
 
==Installation Process==
Line 136: Line 162:
  
 
===Step 15===
 
===Step 15===
Assuming you have properly installed the UHD driver (http://code.ettus.com/redmine/ettus/projects/uhd/wiki) you can now run this command in a terminal/command window: $ uhd_usrp_probe. This will tell you about the hardware inside of your USRP. The output will look like the following:
+
Assuming you have properly installed the UHD driver you can now run this command in a terminal/command window:
  
<code>
+
    $ uhd_usrp_probe
$ uhd_usrp_probe  
+
linux; GNU C++ version 4.8.4; Boost_105400; UHD_003.010.git-202-g9e0861e1
+
  
-- X300 initialization sequence...
+
This will tell you about the hardware inside of your USRP. The output will look like the following:
-- Determining maximum frame size... 1472 bytes.
+
 
-- Setup basic communication...
+
    $ uhd_usrp_probe
-- Loading values from EEPROM...
+
    linux; GNU C++ version 4.8.4; Boost_105400; UHD_003.010.git-202-g9e0861e1
-- Setup RF frontend clocking...
+
   
-- Radio 1x clock:200
+
    -- X300 initialization sequence...
-- Detecting internal GPSDO.... No GPSDO found
+
    -- Determining maximum frame size... 1472 bytes.
-- Initialize Radio0 control...
+
    -- Setup basic communication...
-- Performing register loopback test... pass
+
    -- Loading values from EEPROM...
-- Initialize Radio1 control...
+
    -- Setup RF frontend clocking...
-- Performing register loopback test... pass
+
    -- Radio 1x clock:200
  _____________________________________________________
+
    -- Detecting internal GPSDO.... No GPSDO found
/
+
    -- Initialize Radio0 control...
|      Device: X-Series Device
+
    -- Performing register loopback test... pass
|    _____________________________________________________
+
    -- Initialize Radio1 control...
|    /
+
    -- Performing register loopback test... pass
|  |      Mboard: X300
+
      _____________________________________________________
|  |  revision: 7
+
    /
|  |  revision_compat: 7
+
    |      Device: X-Series Device
|  |  product: 30518
+
    |    _____________________________________________________
|  |  mac-addr0: ff:ff:ff:ff:ff:ff
+
    |    /
|  |  mac-addr1: ff:ff:ff:ff:ff:ff
+
    |  |      Mboard: X300
|  |  gateway: 255.255.255.255
+
    |  |  revision: 7
|  |  ip-addr0: 255.255.255.255
+
    |  |  revision_compat: 7
|  |  subnet0: 255.255.255.255
+
    |  |  product: 30518
|  |  ip-addr1: 255.255.255.255
+
    |  |  mac-addr0: ff:ff:ff:ff:ff:ff
|  |  subnet1: 255.255.255.255
+
    |  |  mac-addr1: ff:ff:ff:ff:ff:ff
|  |  ip-addr2: 255.255.255.255
+
    |  |  gateway: 255.255.255.255
|  |  subnet2: 255.255.255.255
+
    |  |  ip-addr0: 255.255.255.255
|  |  ip-addr3: 255.255.255.255
+
    |  |  subnet0: 255.255.255.255
|  |  subnet3: 255.255.255.255
+
    |  |  ip-addr1: 255.255.255.255
|  |  serial: FFFFFFF
+
    |  |  subnet1: 255.255.255.255
|  |  FW Version: 4.0
+
    |  |  ip-addr2: 255.255.255.255
|  |  FPGA Version: 20.0
+
    |  |  subnet2: 255.255.255.255
|  |   
+
    |  |  ip-addr3: 255.255.255.255
|  |  Time sources: internal, external, gpsdo
+
    |  |  subnet3: 255.255.255.255
|  |  Clock sources: internal, external, gpsdo
+
    |  |  serial: FFFFFFF
|  |  Sensors: ref_locked
+
    |  |  FW Version: 4.0
|  |    _____________________________________________________
+
    |  |  FPGA Version: 20.0
|  |    /
+
    |  |   
|  |  |      RX DSP: 0
+
    |  |  Time sources: internal, external, gpsdo
|  |  |  Freq range: -100.000 to 100.000 MHz
+
    |  |  Clock sources: internal, external, gpsdo
|  |    _____________________________________________________
+
    |  |  Sensors: ref_locked
|  |    /
+
    |  |    _____________________________________________________
|  |  |      RX DSP: 1
+
    |  |    /
|  |  |  Freq range: -100.000 to 100.000 MHz
+
    |  |  |      RX DSP: 0
|  |    _____________________________________________________
+
    |  |  |  Freq range: -100.000 to 100.000 MHz
|  |    /
+
    |  |    _____________________________________________________
|  |  |      RX Dboard: A
+
    |  |    /
|  |  |  ID: SBX (0x0054)
+
    |  |  |      RX DSP: 1
|  |  |  Serial: F4D0A1
+
    |  |  |  Freq range: -100.000 to 100.000 MHz
|  |  |    _____________________________________________________
+
    |  |    _____________________________________________________
|  |  |    /
+
    |  |    /
|  |  |  |      RX Frontend: 0
+
    |  |  |      RX Dboard: A
|  |  |  |  Name: SBXv3 RX
+
    |  |  |  ID: SBX (0x0054)
|  |  |  |  Antennas: TX/RX, RX2, CAL
+
    |  |  |  Serial: FFFFFF
|  |  |  |  Sensors: lo_locked
+
    |  |  |    _____________________________________________________
|  |  |  |  Freq range: 400.000 to 4400.000 MHz
+
    |  |  |    /
|  |  |  |  Gain range PGA0: 0.0 to 31.5 step 0.5 dB
+
    |  |  |  |      RX Frontend: 0
|  |  |  |  Bandwidth range: 40000000.0 to 40000000.0 step 0.0 Hz
+
    |  |  |  |  Name: SBXv3 RX
|  |  |  |  Connection Type: IQ
+
    |  |  |  |  Antennas: TX/RX, RX2, CAL
|  |  |  |  Uses LO offset: No
+
    |  |  |  |  Sensors: lo_locked
|  |  |    _____________________________________________________
+
    |  |  |  |  Freq range: 400.000 to 4400.000 MHz
|  |  |    /
+
    |  |  |  |  Gain range PGA0: 0.0 to 31.5 step 0.5 dB
|  |  |  |      RX Codec: A
+
    |  |  |  |  Bandwidth range: 40000000.0 to 40000000.0 step 0.0 Hz
|  |  |  |  Name: ads62p48
+
    |  |  |  |  Connection Type: IQ
|  |  |  |  Gain range digital: 0.0 to 6.0 step 0.5 dB
+
    |  |  |  |  Uses LO offset: No
|  |    _____________________________________________________
+
    |  |  |    _____________________________________________________
|  |    /
+
    |  |  |    /
|  |  |      RX Dboard: B
+
    |  |  |  |      RX Codec: A
|  |  |  ID: SBX (0x0054)
+
    |  |  |  |  Name: ads62p48
|  |  |  Serial: FFFFFF
+
    |  |  |  |  Gain range digital: 0.0 to 6.0 step 0.5 dB
|  |  |    _____________________________________________________
+
    |  |    _____________________________________________________
|  |  |    /
+
    |  |    /
|  |  |  |      RX Frontend: 0
+
    |  |  |      RX Dboard: B
|  |  |  |  Name: SBXv3 RX
+
    |  |  |  ID: SBX (0x0054)
|  |  |  |  Antennas: TX/RX, RX2, CAL
+
    |  |  |  Serial: FFFFFF
|  |  |  |  Sensors: lo_locked
+
    |  |  |    _____________________________________________________
|  |  |  |  Freq range: 400.000 to 4400.000 MHz
+
    |  |  |    /
|  |  |  |  Gain range PGA0: 0.0 to 31.5 step 0.5 dB
+
    |  |  |  |      RX Frontend: 0
|  |  |  |  Bandwidth range: 40000000.0 to 40000000.0 step 0.0 Hz
+
    |  |  |  |  Name: SBXv3 RX
|  |  |  |  Connection Type: IQ
+
    |  |  |  |  Antennas: TX/RX, RX2, CAL
|  |  |  |  Uses LO offset: No
+
    |  |  |  |  Sensors: lo_locked
|  |  |    _____________________________________________________
+
    |  |  |  |  Freq range: 400.000 to 4400.000 MHz
|  |  |    /
+
    |  |  |  |  Gain range PGA0: 0.0 to 31.5 step 0.5 dB
|  |  |  |      RX Codec: B
+
    |  |  |  |  Bandwidth range: 40000000.0 to 40000000.0 step 0.0 Hz
|  |  |  |  Name: ads62p48
+
    |  |  |  |  Connection Type: IQ
|  |  |  |  Gain range digital: 0.0 to 6.0 step 0.5 dB
+
    |  |  |  |  Uses LO offset: No
|  |    _____________________________________________________
+
    |  |  |    _____________________________________________________
|  |    /
+
    |  |  |    /
|  |  |      TX DSP: 0
+
    |  |  |  |      RX Codec: B
|  |  |  Freq range: -100.000 to 100.000 MHz
+
    |  |  |  |  Name: ads62p48
|  |    _____________________________________________________
+
    |  |  |  |  Gain range digital: 0.0 to 6.0 step 0.5 dB
|  |    /
+
    |  |    _____________________________________________________
|  |  |      TX DSP: 1
+
    |  |    /
|  |  |  Freq range: -100.000 to 100.000 MHz
+
    |  |  |      TX DSP: 0
|  |    _____________________________________________________
+
    |  |  |  Freq range: -100.000 to 100.000 MHz
|  |    /
+
    |  |    _____________________________________________________
|  |  |      TX Dboard: A
+
    |  |    /
|  |  |  ID: SBX (0x0055)
+
    |  |  |      TX DSP: 1
|  |  |  Serial: F4D0A1
+
    |  |  |  Freq range: -100.000 to 100.000 MHz
|  |  |    _____________________________________________________
+
    |  |    _____________________________________________________
|  |  |    /
+
    |  |    /
|  |  |  |      TX Frontend: 0
+
    |  |  |      TX Dboard: A
|  |  |  |  Name: SBXv3 TX
+
    |  |  |  ID: SBX (0x0055)
|  |  |  |  Antennas: TX/RX, CAL
+
    |  |  |  Serial: FFFFFF
|  |  |  |  Sensors: lo_locked
+
    |  |  |    _____________________________________________________
|  |  |  |  Freq range: 400.000 to 4400.000 MHz
+
    |  |  |    /
|  |  |  |  Gain range PGA0: 0.0 to 31.5 step 0.5 dB
+
    |  |  |  |      TX Frontend: 0
|  |  |  |  Bandwidth range: 40000000.0 to 40000000.0 step 0.0 Hz
+
    |  |  |  |  Name: SBXv3 TX
|  |  |  |  Connection Type: QI
+
    |  |  |  |  Antennas: TX/RX, CAL
|  |  |  |  Uses LO offset: No
+
    |  |  |  |  Sensors: lo_locked
|  |  |    _____________________________________________________
+
    |  |  |  |  Freq range: 400.000 to 4400.000 MHz
|  |  |    /
+
    |  |  |  |  Gain range PGA0: 0.0 to 31.5 step 0.5 dB
|  |  |  |      TX Codec: A
+
    |  |  |  |  Bandwidth range: 40000000.0 to 40000000.0 step 0.0 Hz
|  |  |  |  Name: ad9146
+
    |  |  |  |  Connection Type: QI
|  |  |  |  Gain Elements: None
+
    |  |  |  |  Uses LO offset: No
|  |    _____________________________________________________
+
    |  |  |    _____________________________________________________
|  |    /
+
    |  |  |    /
|  |  |      TX Dboard: B
+
    |  |  |  |      TX Codec: A
|  |  |  ID: SBX (0x0055)
+
    |  |  |  |  Name: ad9146
|  |  |  Serial: FFFFFF
+
    |  |  |  |  Gain Elements: None
|  |  |    _____________________________________________________
+
    |  |    _____________________________________________________
|  |  |    /
+
    |  |    /
|  |  |  |      TX Frontend: 0
+
    |  |  |      TX Dboard: B
|  |  |  |  Name: SBXv3 TX
+
    |  |  |  ID: SBX (0x0055)
|  |  |  |  Antennas: TX/RX, CAL
+
    |  |  |  Serial: FFFFFF
|  |  |  |  Sensors: lo_locked
+
    |  |  |    _____________________________________________________
|  |  |  |  Freq range: 400.000 to 4400.000 MHz
+
    |  |  |    /
|  |  |  |  Gain range PGA0: 0.0 to 31.5 step 0.5 dB
+
    |  |  |  |      TX Frontend: 0
|  |  |  |  Bandwidth range: 40000000.0 to 40000000.0 step 0.0 Hz
+
    |  |  |  |  Name: SBXv3 TX
|  |  |  |  Connection Type: QI
+
    |  |  |  |  Antennas: TX/RX, CAL
|  |  |  |  Uses LO offset: No
+
    |  |  |  |  Sensors: lo_locked
|  |  |    _____________________________________________________
+
    |  |  |  |  Freq range: 400.000 to 4400.000 MHz
|  |  |    /
+
    |  |  |  |  Gain range PGA0: 0.0 to 31.5 step 0.5 dB
|  |  |  |      TX Codec: B
+
    |  |  |  |  Bandwidth range: 40000000.0 to 40000000.0 step 0.0 Hz
|  |  |  |  Name: ad9146
+
    |  |  |  |  Connection Type: QI
|  |  |  |  Gain Elements: None
+
    |  |  |  |  Uses LO offset: No
</code>
+
    |  |  |    _____________________________________________________
 +
    |  |  |    /
 +
    |  |  |  |      TX Codec: B
 +
    |  |  |  |  Name: ad9146
 +
    |  |  |  |  Gain Elements: None
 +
 
 +
==UBX daughterboard Installation Video==
 +
The following link is a video of the steps to install the UBX daughterboard. The procedure is similar to what is outlined above.
 +
 
 +
*[https://drive.google.com/file/d/1cMMxuV_KZVrc5r-NOwNLI9JoaGM8aUIu/view?usp=sharing Video: UBX Installation into a USRP X-series device.]
  
 
==UHD FFT==
 
==UHD FFT==
Line 291: Line 324:
 
2.From the terminal/command window:  
 
2.From the terminal/command window:  
  
     $ uhd_fft
+
     $ uhd_fft --ant RX2
  
 
[[File:Xseries quickstart figure 27.png|700px|center]]
 
[[File:Xseries quickstart figure 27.png|700px|center]]
Line 297: Line 330:
 
[[File:Xseries quickstart figure 28.png|700px|center]]
 
[[File:Xseries quickstart figure 28.png|700px|center]]
  
 
+
==Success==
 
+
Congratulations! You have successfully setup and verified your new USRP X300/X310. A more detailed verification guide is at the [[Verifying the Operation of the USRP Using UHD and GNU Radio]] application note. For additional step-by-step guides to using your USRP X300/X310, see the [[Application Notes]] section of the [https://kb.ettus.com Ettus Research Knowledge Base].
 
+
 
+
[[Category:Application Notes and White Papers]]
+

Latest revision as of 13:51, 28 April 2020

Application Note Number

AN-904

Revision History

Date Author Details
2016-05-01 Neel Pandeya
Nate Temple
Initial creation
2020-Apr-27 Jose Loera Added section "UBX Daughterboard Installation Video" and link. Link also provided here as well

Abstract

This application note is a detailed step-by-step guide to install a daughterboard into the USRP X300/X310.

Overview

This Quick Start is meant to show you how to put together your new X300/310. We will start at the point when you have yet to unpack the boxes and go all the way to being able to ping the device, performing a quick software probe to verify hardware components and finally running a simple FFT demo. This Quick Start does not cover the installation of software on the host computer. If you have not installed UHD/Gnuradio on your system, please reference the Building and Installing the USRP Open-Source Toolchain (UHD and GNU Radio) on Linux, OS X and Windows Application Notes. You may also use the Live SDR Environment to perform the verification steps for your USRP. Detailed information on the Live SDR Environment is available at the Live SDR Environment Getting Started Guides page.

Tools Required

  • Philips Screwdriver
  • 5/16” wrench

Pre-installed Software

  • UHD Latest
  • GNU Radio

Box Contents

USRP Box

  • 1 x USRP X300/X310
  • 1 x SFP Adapter for 1 GigE
  • 1 x Power Supply and US Cord
  • 1 x USB 2.0 JTAG Debug Cable
  • 1 x Gigabit Ethernet Cable
  • 4 x SMA-Bulkhead Cables
  • 16 x Daughterboard Screws

Daughterboard Boxes

  • 2 x SBX Daughterboards

Antenna Boxes

  • One or more Antennas
Xseries quickstart figure 1.png
Xseries quickstart figure 2.png

Proper Care and Handling

All Ettus Research products are individually tested before shipment. The USRP™ is guaranteed to be functional at the time it is received by the customer. Improper use or handling of the USRP™ can easily cause the device to become non-functional. Ettus Research recommends you perform the installation with no power to the USRP and using ESD equipment. Listed below are some examples of actions which can prevent damage to the unit:

  • Never allow metal objects to touch the circuit board while powered.
  • Always properly terminate the transmit port with an antenna or 50Ω load.
  • Always handle the board with proper anti-static methods.
  • Never allow the board to directly or indirectly come into contact with any voltage spikes.
  • Never allow any water, or condensing moisture, to come into contact with the boards.
  • Always use caution with FPGA, firmware, or software modifications.
Caution.png
Never apply more than -15 dBm of power into any RF input.
Caution.png
Always use at least 30dB attenuation if operating in loopback configuration

Installation Process

Step 1

Unscrew the 2 screws on the top of the USRP and remove cover. (Lift up about 15 degrees and wiggle back as there is a flange on the front part of the cover)

Xseries quickstart figure 3.png
Xseries quickstart figure 4.png
Xseries quickstart figure 5.png

Step 2

Line up the 8 screw holes on the Daughterboard with the USRP Motherboard standoffs (they only go one way).

Xseries quickstart figure 6.png
Xseries quickstart figure 7.png

Step 3

After you have aligned the Daughterboard correctly you can press the Daughterboard on to the connectors below them (you will feel them snap into place).

Xseries quickstart figure 8.png
Xseries quickstart figure 9.png

Step 4

Put 8 of the screws provided in the daughterboard

Xseries quickstart figure 10.png

Step 5

Repeat steps 2- 4 for the second Daughterboard

Step 6

It is recommended to connect the bulkhead cables one at a time to avoid confusion. The Daughterboards and front panel of the X300/310 are clearly labeled as to which cable goes where.

Xseries quickstart figure 11.png
Xseries quickstart figure 12.png
Xseries quickstart figure 13.png
Xseries quickstart figure 14.png
Xseries quickstart figure 15.png
Xseries quickstart figure 16.png

Step 7

Repeat step 6 for the other bulkhead cables

Xseries quickstart figure 17.png
Xseries quickstart figure 18.png

Step 8

Install USRP cover with screws

Xseries quickstart figure 19.png

Step 9

Connect the SFP 1 GigE adapter into USRP SFP port 0

Xseries quickstart figure 20.png
Xseries quickstart figure 21.png

Step 10

Connect the Gigabit Ethernet cable and power cord provided

Xseries quickstart figure 22.png

Step 11

Attach any Antennas you may have purchased

Xseries quickstart figure 23.png

Step 12

On the computer(host) you plan to use to connect to the USRP set the Ethernet adapter to have an IP address of 192.168.10.1 with a subnet mask of 255.255.255.0. Connect the other end of the Gigabit Ethernet cable to your computer.

Xseries quickstart figure 24.png

Step 13

Power on the USRP (button on the front right of the USRP)

Step 14

Ping the device from host computer:

   $ ping 192.168.10.2
Xseries quickstart figure 25.png

Step 15

Assuming you have properly installed the UHD driver you can now run this command in a terminal/command window:

   $ uhd_usrp_probe

This will tell you about the hardware inside of your USRP. The output will look like the following:

   $ uhd_usrp_probe 
   linux; GNU C++ version 4.8.4; Boost_105400; UHD_003.010.git-202-g9e0861e1
   
   -- X300 initialization sequence...
   -- Determining maximum frame size... 1472 bytes.
   -- Setup basic communication...
   -- Loading values from EEPROM...
   -- Setup RF frontend clocking...
   -- Radio 1x clock:200
   -- Detecting internal GPSDO.... No GPSDO found
   -- Initialize Radio0 control...
   -- Performing register loopback test... pass
   -- Initialize Radio1 control...
   -- Performing register loopback test... pass
     _____________________________________________________
    /
   |       Device: X-Series Device
   |     _____________________________________________________
   |    /
   |   |       Mboard: X300
   |   |   revision: 7
   |   |   revision_compat: 7
   |   |   product: 30518
   |   |   mac-addr0: ff:ff:ff:ff:ff:ff
   |   |   mac-addr1: ff:ff:ff:ff:ff:ff
   |   |   gateway: 255.255.255.255
   |   |   ip-addr0: 255.255.255.255
   |   |   subnet0: 255.255.255.255
   |   |   ip-addr1: 255.255.255.255
   |   |   subnet1: 255.255.255.255
   |   |   ip-addr2: 255.255.255.255
   |   |   subnet2: 255.255.255.255
   |   |   ip-addr3: 255.255.255.255
   |   |   subnet3: 255.255.255.255
   |   |   serial: FFFFFFF
   |   |   FW Version: 4.0
   |   |   FPGA Version: 20.0
   |   |   
   |   |   Time sources: internal, external, gpsdo
   |   |   Clock sources: internal, external, gpsdo
   |   |   Sensors: ref_locked
   |   |     _____________________________________________________
   |   |    /
   |   |   |       RX DSP: 0
   |   |   |   Freq range: -100.000 to 100.000 MHz
   |   |     _____________________________________________________
   |   |    /
   |   |   |       RX DSP: 1
   |   |   |   Freq range: -100.000 to 100.000 MHz
   |   |     _____________________________________________________
   |   |    /
   |   |   |       RX Dboard: A
   |   |   |   ID: SBX (0x0054)
   |   |   |   Serial: FFFFFF
   |   |   |     _____________________________________________________
   |   |   |    /
   |   |   |   |       RX Frontend: 0
   |   |   |   |   Name: SBXv3 RX
   |   |   |   |   Antennas: TX/RX, RX2, CAL
   |   |   |   |   Sensors: lo_locked
   |   |   |   |   Freq range: 400.000 to 4400.000 MHz
   |   |   |   |   Gain range PGA0: 0.0 to 31.5 step 0.5 dB
   |   |   |   |   Bandwidth range: 40000000.0 to 40000000.0 step 0.0 Hz
   |   |   |   |   Connection Type: IQ
   |   |   |   |   Uses LO offset: No
   |   |   |     _____________________________________________________
   |   |   |    /
   |   |   |   |       RX Codec: A
   |   |   |   |   Name: ads62p48
   |   |   |   |   Gain range digital: 0.0 to 6.0 step 0.5 dB
   |   |     _____________________________________________________
   |   |    /
   |   |   |       RX Dboard: B
   |   |   |   ID: SBX (0x0054)
   |   |   |   Serial: FFFFFF
   |   |   |     _____________________________________________________
   |   |   |    /
   |   |   |   |       RX Frontend: 0
   |   |   |   |   Name: SBXv3 RX
   |   |   |   |   Antennas: TX/RX, RX2, CAL
   |   |   |   |   Sensors: lo_locked
   |   |   |   |   Freq range: 400.000 to 4400.000 MHz
   |   |   |   |   Gain range PGA0: 0.0 to 31.5 step 0.5 dB
   |   |   |   |   Bandwidth range: 40000000.0 to 40000000.0 step 0.0 Hz
   |   |   |   |   Connection Type: IQ
   |   |   |   |   Uses LO offset: No
   |   |   |     _____________________________________________________
   |   |   |    /
   |   |   |   |       RX Codec: B
   |   |   |   |   Name: ads62p48
   |   |   |   |   Gain range digital: 0.0 to 6.0 step 0.5 dB
   |   |     _____________________________________________________
   |   |    /
   |   |   |       TX DSP: 0
   |   |   |   Freq range: -100.000 to 100.000 MHz
   |   |     _____________________________________________________
   |   |    /
   |   |   |       TX DSP: 1
   |   |   |   Freq range: -100.000 to 100.000 MHz
   |   |     _____________________________________________________
   |   |    /
   |   |   |       TX Dboard: A
   |   |   |   ID: SBX (0x0055)
   |   |   |   Serial: FFFFFF
   |   |   |     _____________________________________________________
   |   |   |    /
   |   |   |   |       TX Frontend: 0
   |   |   |   |   Name: SBXv3 TX
   |   |   |   |   Antennas: TX/RX, CAL
   |   |   |   |   Sensors: lo_locked
   |   |   |   |   Freq range: 400.000 to 4400.000 MHz
   |   |   |   |   Gain range PGA0: 0.0 to 31.5 step 0.5 dB
   |   |   |   |   Bandwidth range: 40000000.0 to 40000000.0 step 0.0 Hz
   |   |   |   |   Connection Type: QI
   |   |   |   |   Uses LO offset: No
   |   |   |     _____________________________________________________
   |   |   |    /
   |   |   |   |       TX Codec: A
   |   |   |   |   Name: ad9146
   |   |   |   |   Gain Elements: None
   |   |     _____________________________________________________
   |   |    /
   |   |   |       TX Dboard: B
   |   |   |   ID: SBX (0x0055)
   |   |   |   Serial: FFFFFF
   |   |   |     _____________________________________________________
   |   |   |    /
   |   |   |   |       TX Frontend: 0
   |   |   |   |   Name: SBXv3 TX
   |   |   |   |   Antennas: TX/RX, CAL
   |   |   |   |   Sensors: lo_locked
   |   |   |   |   Freq range: 400.000 to 4400.000 MHz
   |   |   |   |   Gain range PGA0: 0.0 to 31.5 step 0.5 dB
   |   |   |   |   Bandwidth range: 40000000.0 to 40000000.0 step 0.0 Hz
   |   |   |   |   Connection Type: QI
   |   |   |   |   Uses LO offset: No
   |   |   |     _____________________________________________________
   |   |   |    /
   |   |   |   |       TX Codec: B
   |   |   |   |   Name: ad9146
   |   |   |   |   Gain Elements: None

UBX daughterboard Installation Video

The following link is a video of the steps to install the UBX daughterboard. The procedure is similar to what is outlined above.

UHD FFT

Try the UHD_FFT demo that comes with GNU Radio

1. Connect one antenna to RX2 on the left Daughterboard (Daughterboard A)

Xseries quickstart figure 26.png

2.From the terminal/command window:

   $ uhd_fft --ant RX2
Xseries quickstart figure 27.png
Xseries quickstart figure 28.png

Success

Congratulations! You have successfully setup and verified your new USRP X300/X310. A more detailed verification guide is at the Verifying the Operation of the USRP Using UHD and GNU Radio application note. For additional step-by-step guides to using your USRP X300/X310, see the Application Notes section of the Ettus Research Knowledge Base.