![]() ![]() Several converters can be simultaneously installed by using the F-CHAS 12-slot 19" rack-mount chassis. Their compact size allows the converter to be easily installed in any narrow desktop location or used in a wall-mount format to save space. This flexibility in cabling allows network managers to put fiber cables anywhere within a network without changing the arrangement of copper based Gigabit segments. These Thor converters are completely transparent when installed so your network performs exactly the way it was previously, but now it can migrate both copper and fiber mediums. Now, migration or expansion of existing networks can be possible with minimum cost and complexity. AUTOSENSING PORTS Allows media converters to automatically recognize the current local network's speed and adjust its own setting accordingly. When Linux is booting in Genesys ZU board, we can see how the modem is identify correctly as USB device, with the product name MC7700 and the manufacturer Sierra Wireless Incorporated.The Thor Fiber F-GET-TR media converters were specifically designed to offer network designers the tools for migration from copper based Gigabit to fiber based Gigabit Ethernet. Media Converters Features SEAMLESS CONVERSION OF COPPER TO FIBER Connect 10/100/1000/10G Ethernet to fiber segments without using crossover cables. Finally, insert the SIM card in the socked in the bottom side of the Genesys ZU, and power up the board. For this test we will copy these 3 files to an SD card, and connect the jumper in the JP3 pin header in the SD position and insert the SD card. images/linux 3 files will be created, BOOT.bin, boot.scr and image.ub. Once the FSBL is downloaded, we can generate the Petalinux images for the Genesys ZU. In order to support all variants of the Genesys ZU (more info here), we have to change the FSBL generated by Petalinux, by FSBL modified by Digilent. petalinux-package -boot -fsbl zynqmp_fsbl.elf -fpga system.bit -u-boot In order to boot the Genesys ZU board from an SD card, we have to package the Petalinux build. That element is a wireless modem that support at east on of the available protocols.Īfter some time, the building is complete, and we will have all the needed files under the path. ![]() In order to connect any device to a WWAN we will need an element that act as a bridge between a digital protocol, and the WWAN protocol. So, can we connect a device like Zynq MPSOC to the WWAN using some of those protocols? there are not surprise at this point, the answer is obviously yes. This kind of devices are also connected to the WAN using different standards like 2G, 3G, LTE, 4G or the newest 5G. ![]() There are many cases where this connection is not available, the clearest example are the mobile phones, that are not connected physically to the network, but are connected via Wireless Wide Area Network. We have to notice that all of this is valid as long as we have access to the fiber optics network of our Internet Services Provider. Usually, we will need another device that acts as bridge between the Ethernet protocol and the fiber optics interface or whatever be the protocol we are using. Then, the ethernet interface will be connected to a router in order to connect the Local Area Network (LAN) that our device is connected to a WAN. In case we are using a Zynq MPSOC device, in order to communicate the device to the WAN we will need first an Ethernet PHY that implements a bridge between a digital protocol like Reduced Gigabit Media Independent Interface (RGMII), to the analog ethernet protocol. GigaBit ZX, LX to SX Media Converter Net Optics' Fiber Optic Mode. In general, we say we are going to connect our board to “Internet”, but technically, we are connecting our board to a Wide Area Network (WAN). T Taps, I Splitters Fiberoptic Attenuators Converters Cable Assemblies An Important. If we need to communicate our design to another device on the other side of the world, we will need to connect to a network to which all the devices we need are connected. ![]() All of these interfacesare valid to communicate different peripherals inside the board or near to it. If we take a look into the market, we can see cheap microcontrollers with UART, I2C, SPI, I2S and each one of these interfaces allow the connection to other devices. That the world is connected is something that everybody knows, but to achieve this we need devices that allow not only one interface, but some of them in order to be connected to any other device, in anyplace of the world. ![]()
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