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Radio Module (2x2)
SX-PCEAC2
The SX-PCEAC2 is powered by Qualcomm Atheros radio chip, the QCA6174-5, which features 2x2 wave 2 MU-MIMO technology. It is a dual-band 802.11 a/b/g/n/ac module with Bluetooth support which is designed for devices that require wireless connectivity in a small form factor combined with high performance with throughputs reaching up to 867Mbps.
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2.4 And 5GHz Handheld Wi-Fi Tester
*Supports 802.11 a/b/g/n and 2.4 / 5GHz frequency bands.*Quickly troubleshoot Wi-Fi problems using the 7” Inch colour touch screen*Screen resolution 800 x 480 (WVGA)*monitor intermittent line problems up to 20 days with the xDSL Histogram feature*One button configurable test / Automatic test script performs the following Tests:**Noise**WiFi Channel Utilisation**Access point login,**Ping Test**HTTP Download Test*Rapid Testing - Reports and statistics displayed in typically less than 3 minutes*Stores over 1000 Test reports in PDF Format*USB port for additional storage options
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Wi-Fi 4/5/6/6E Modules
AIW 100 Series
Advantech provides 802.11 ax/ac/a/b/g/n and BT 5.X modules with mini PCI-E/ M.2 form factors and Windows 10/Linux/Chrome OS support.
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Serial/Ethernet to Wi-Fi Module
SX-590-1402
The SX-590-1402 is Silex’s latest FIPS 140-2 high-performance Serial/Ethernet to Wi-Fi module that provides connectivity for low-power portable devices to 802.11 wireless local area networks (WLANS).
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Serial/Ethernet to Wi-Fi Module
SX-590
The SX-590 is Silex’s latest fifth generation high-performance Serial/Ethernet to Wi-Fi module that provides connectivity for low-power portable devices to 802.11 wireless local area networks (WLANS).
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Day/Night IP Surveillance Camera
ENVIROMUX-IPCAM-N
View and control the camera from the ENVIROMUX web interface, the camera web interface, included software, or with a compatible cell phone. With the ENVIROMUX-2D/5D/16D, a triggered snapshot can be forwarded in alert e-mails. A snapshot can be triggered by any programmed event (motion detection, door open/close, glass break, smoke, liquid detection, etc.). Image sensor: 1/4" progressive scan CMOS sensor. Video Streaming: simultaneous Motion JPEG and MPEG-4. Frame rate: 30fps at 640x480 (VGA) resolution. Lens: F2.0, 4.3 mm (0.17 in), 12 infrared LEDs for night vision. RJ45 connector. Wireless models: wireless IEEE 802.11 b/g up to 54 Mbps. Regulatory approvals: CE, FCC, RoHS.
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USRP Software Defined Radio Stand-Alone Device
The USRP Software Defined Radio Stand-Alone Device consists of an onboard processor, FPGA, and RF front end. You can program this device using either LabVIEW Communications System Design Suite or an open-source software workflow, depending on the operating system you choose. You can provision the device with NI Linux Real-Time, Linux Fedora, or Linux Ubuntu real-time operating systems. The USRP Software Defined Radio Stand-Alone Device enables you to prototype a range of advanced research applications such as stand-alone LTE or 802.11 device emulation; Medium Access Control (MAC) algorithm development; multiple input, multiple output (MIMO); heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding.The registered trademark Linux® is used pursuant to a sublicense from LMI, the exclusive licensee of Linus Torvalds, owner of the mark on a worldwide basis.
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2.4 & 5 GHz Spectrum Analyzer
WiPry 5x
Transform a smartphone or tablet into a dual band spectrum analyzer (2.4 & 5 GHz). This perfectly portable tool is the ideal solution for field techs and wireless professionals. Android & iOS Supported. Scan & Troubleshoot Wi-Fi •SSID’s / RSSI •802.11 & ZigBee.
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Channel Load Generator
802.11p
Qosmotec Software Solutions GmbH
When many cars are equipped with 802.11p communication technology, high traffic density will also cause significant load on the radio channel. From normal wireless communication systems it is a known problem, that many users can cause a complete breakdown of the network. Car-to-X communication technology tries to protect itself against those kind of breakdown by a carrier sensing mechanism: Each communication device has to check first, if the radio channel is busy. In that case, it waits for a random delay to avoid packet collision on the radio channel, which causes a loss of both collided packets.
