wiki:Hardware/bDomains/cSandboxes/dSB4

Version 45 (modified by jack1999, 5 days ago) ( diff )

SB4

As shown in Figure 1, sandbox 4 consists of 10 nodes and two LTE and two WiMAX basestations and corresponding BS controllers. To prevent interference, each node is housed in Ramsey Electronics RF enclosure that provides 80 dB of isolation. Each of the 9 nodes is equipped with a pair of WiFi devices: one Atheros 5000X mini-PCI card and one Intel 6250 mini-PCIe 802.11/802.16. The antenna ports of the WiFi adapter in each node are attenuated (-15dB) and connected to a power combiner (-6dB) before being fed through the enclosure access port to the outside SMA connector which is wired to one of the input/output ports of the RF Transceiver Test System from JFW Industries. Four nodes are also equipped with USRP B205mini-i SDR devices with their TX/RX and RX2 ports selectively connectable to the attenuator matrix as shown in the diagram below. This configuration enables fairly tight control of RF attenuation between the nodes. The topology (including pairwise attenuation between ports and selection switches for WiFi/SDR) is controlled through the OMF based Instrumentation AM.

SB4 Photo

As can be seen in the figure above, there are a total of nine (9) input/output ports on the transceiver test system. By default, the ports are connected to the nodes' WiFi adapters. Alternatively, the SDR of node1-3, node1-4, node1-5, and node1-6 can be connected to the matrix in place of the WiFi adapters. The selection of devices attached to ports 1 through 8 is controlled by the selDevice command of the Instrumentation AM service.

RF Test System Port Default Device Alternative Device
1 node1-1 WiFi node1-3 SDR TX/RX
2 node1-2 WiFi node1-3 SDR RX2
3 node1-3 WiFi node1-4 SDR TX/RX
4 node1-4 WiFi node1-4 SDR RX2
5 node1-5 WiFi node1-5 SDR TX/RX
6 node1-6 WiFi node1-5 SDR RX2
7 node1-7 WiFi node1-6 SDR TX/RX
8 node1-8 WiFi node1-6 SDR RX2
9 node1-9 WiFi

This configuration creates two distinct set of RF paths that are used to create various topologies. The state of the switches is also reflected in the "SB4 Topology" that is available of the main portal page.

View topology here: https://www.orbit-lab.org/cPanel/controlPanel/start

Node to Node RF Path

s12 parameters taken with Agilent ENA RF Network Analyzer E5070; instrument dynamic range of 110 dB limits the accuracy of large attenuation results.

SB4 RF path enclosure-to-enclosure

SB4 path A transfer - 2.4 GHz SB4 path A transfer - 2.5 GHz SB4 path A transfer - 5.2 GHz

Node to WiMAX basestation RF Path

SB4 RF path enclosure-to-basestation

SB4 path B transfer - 2.5 GHz

Attachments (10)

  • IMG_0376.jpg (154.3 KB ) - added by seskar 13 years ago. SB4 Photo
  • SB4-Equiv-WiFi.jpg (27.4 KB ) - added by seskar 13 years ago. SB4 RF path enclosure-to-enclosure
  • S12-A-24.jpg (142.8 KB ) - added by seskar 13 years ago. SB4 path A transfer - 2.4 GHz
  • S12-A-25.jpg (166.3 KB ) - added by seskar 13 years ago. SB4 path A transfer - 2.5 GHz
  • S12-A-52.jpg (150.0 KB ) - added by seskar 13 years ago. SB4 path A transfer - 5.2 GHz
  • S12-B-25.jpg (113.7 KB ) - added by seskar 13 years ago. SB4 path B transfer - 2.5 GHz
  • SB4-Equiv-WiMAX.jpg (20.3 KB ) - added by seskar 13 years ago. SB4 RF path enclosure-to-basestation
  • SB4.jpg (124.4 KB ) - added by seskar 9 years ago. SB4 Block Diagram
  • 50PMA-012_specsheet.pdf (22.1 KB ) - added by jkol 5 years ago.
  • SB4.png (207.8 KB ) - added by jkol 5 years ago.

Download all attachments as: .zip

Note: See TracWiki for help on using the wiki.