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========================================================================
UHD - USRP2 and USRP-N Series Application Notes
========================================================================
.. contents:: Table of Contents
------------------------------------------------------------------------
Load the images onto the SD card (USRP2 only)
------------------------------------------------------------------------
**Warning!**
Use the usrp2_card_burner.py with caution. If you specify the wrong device node,
you could overwrite your hard drive. Make sure that --dev= specifies the SD card.
**Warning!**
It is possible to use 3rd party SD cards with the USRP2.
However, certain types of SD cards will not interface with the CPLD:
* Cards can be SDHC, which is not a supported interface.
* Cards can have unexpected timing characteristics.
For these reasons, we recommend that you use the SD card that was supplied with the USRP2.
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Use the card burner tool (unix)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
::
sudo <prefix>/share/uhd/utils/usrp2_card_burner_gui.py
-- OR --
cd <prefix>/share/uhd/utils
sudo ./usrp2_card_burner.py --dev=/dev/sd<XXX> --fpga=<path_to_fpga_image>
sudo ./usrp2_card_burner.py --dev=/dev/sd<XXX> --fw=<path_to_firmware_image>
Use the *--list* option to get a list of possible raw devices.
The list result will filter out disk partitions and devices too large to be the sd card.
The list option has been implemented on Linux, Mac OS X, and Windows.
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Use the card burner tool (windows)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
::
<path_to_python.exe> <prefix>/share/uhd/utils/usrp2_card_burner_gui.py
------------------------------------------------------------------------
Load the images onto the on-board flash (USRP-N Series only)
------------------------------------------------------------------------
The USRP-N Series can be reprogrammed over the network
to update or change the firmware and FPGA images.
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Use the net burner tool (unix)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
::
cd <prefix>/share/uhd/utils
./usrp_n2xx_net_burner.py --ip=<ip address> --fw=<path for firmware image>
./usrp_n2xx_net_burner.py --ip=<ip address> --fpga=<path to FPGA image>
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Use the net burner tool (Windows)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
::
<path_to_python.exe> <prefix>/share/uhd/utils/usrp_n2xx_net_burner.py --ip=<ip address> --fw=<path for firmware image>
<path_to_python.exe> <prefix>/share/uhd/utils/usrp_n2xx_net_burner.py --ip=<ip address> --fpga=<path to FPGA image>
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Device recovery and bricking
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Its possible to put the device into an unusable state by loading bad images.
Fortunately, the USRP-N Series can be booted into a safe (read-only) image.
Once booted into the safe image, the user can once again load images onto the device.
To boot into the safe image, hold down the reset button while power-cycling the device.
The reset button is a pushbutton switch (S2) located inside the enclosure.
------------------------------------------------------------------------
Setup networking
------------------------------------------------------------------------
The USRP2 only supports gigabit ethernet,
and will not work with a 10/100 Mbps interface.
However, a 10/100 Mbps interface can be connected indirectly
to a USRP2 through a gigabit ethernet switch.
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Setup the host interface
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
The USRP2 communicates at the IP/UDP layer over the gigabit ethernet.
The default IP address of the USRP2 is **192.168.10.2**
You will need to configure the host's ethernet interface with a static IP address to enable communication.
An address of **192.168.10.1** and a subnet mask of **255.255.255.0** is recommended.
**Note:**
When using the UHD, if an IP address for the USRP2 is not specified,
the software will use UDP broadcast packets to locate the USRP2.
On some systems, the firewall will block UDP broadcast packets.
It is recommended that you change or disable your firewall settings.
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Multiple device configuration
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
For maximum throughput, one ethernet interface per USRP2 is recommended,
although multiple devices may be connected via a gigabit ethernet switch.
In any case, each ethernet interface should have its own subnet,
and the corresponding USRP2 device should be assigned an address in that subnet.
Example:
**Configuration for USRP2 device 0:**
* Ethernet interface IPv4 address: 192.168.10.1
* Ethernet interface subnet mask: 255.255.255.0
* USRP2 device IPv4 address: 192.168.10.2
**Configuration for USRP2 device 1:**
* Ethernet interface IPv4 address: 192.168.20.1
* Ethernet interface subnet mask: 255.255.255.0
* USRP2 device IPv4 address: 192.168.20.2
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Change the USRP2's IP address
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
You may need to change the USRP2's IP address for several reasons:
* to satisfy your particular network configuration
* to use multiple USRP2s on the same host computer
* to set a known IP address into USRP2 (in case you forgot)
**Method 1:**
To change the USRP2's IP address
you must know the current address of the USRP2,
and the network must be setup properly as described above.
Run the following commands:
::
cd <prefix>/share/uhd/utils
./usrp_burn_mb_eeprom --args=<optional device args> --key=ip-addr --val=192.168.10.3
**Method 2 (Linux Only):**
This method assumes that you do not know the IP address of your USRP2.
It uses raw ethernet packets to bypass the IP/UDP layer to communicate with the USRP2.
Run the following commands:
::
cd <prefix>/share/uhd/utils
sudo ./usrp2_recovery.py --ifc=eth0 --new-ip=192.168.10.3
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Debugging networking problems
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
**Disable the firewall:**
If uhd_find_devices gives you nothing
but uhd_find_devices --args addr=192.168.10.2 yeilds a discovered device,
then your firewall may be blocking replies to UDP broadcast packets.
**Ping the USRP2:**
The USRP2 will reply to icmp echo requests.
::
ping 192.168.10.2
**Monitor the USRP2:**
You can read the serial port on the rear of the USRP2
to get debug verbose from the embedded microcontroller.
Use a standard USB to 3.3v-level serial converter at 230400 baud.
The microcontroller prints useful information about IP addresses,
MAC addresses, control packets, and fast-path settings.
**Monitor the host network traffic:**
Use wireshark to monitor packets sent to and received from the USRP2.
------------------------------------------------------------------------
Addressing the device
------------------------------------------------------------------------
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Single device configuration
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
A USRP2 can be identified though its IPv4 address or resolvable hostname.
The USRP2 device is referenced through the "addr" key in the device address.
Use this addressing scheme with the *simple_usrp* interface.
The device address string representation for a USRP2 with IPv4 address 192.168.10.2
::
addr=192.168.10.2
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Soft-MIMO configuration
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
In a soft-mimo configuration, each USRP2 must have a unique IPv4 address (per computer)
and be attached to its own dedicated network port.
The value for the addr key is a white-space separated list
of IPv4 addresses or resolvable hostnames.
The first address in the list will represent channel 0,
the second channel 1, and so on...
Use this addressing scheme with the *multi_usrp* interface.
The device address string representation for 2 USRP2s with IPv4 addresses 192.168.10.2 and 192.168.20.2
::
addr=192.168.10.2 192.168.20.2
------------------------------------------------------------------------
Hardware setup notes
------------------------------------------------------------------------
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Front panel LEDs
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
The LEDs on the front panel can be useful in debugging hardware and software issues.
The LEDs reveal the following about the state of the device:
* **LED A:** transmitting
* **LED B:** undocumented
* **LED C:** receiving
* **LED D:** firmware loaded
* **LED E:** reference lock
* **LED F:** CPLD loaded
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Ref Clock - 10MHz
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Using an external 10MHz reference clock, square wave will offer the best phase
noise performance, but sinusoid is acceptable. The reference clock requires the following power level:
* **USRP2** 5 to 15dBm
* **N2XX** 0 to 15dBm
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
PPS - Pulse Per Second
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Using a PPS signal for timestamp synchronization requires a square wave signal with the following amplitude:
* **USRP2** 5Vpp
* **N2XX** 3.3 to 5Vpp
Test the PPS input with the following app:
* <args> are device address arguments (optional if only one USRP is on your machine)
::
cd <prefix>/share/uhd/examples
./test_pps_input --args=<args>
|