Features

• Closed housing for 100BASE-T1 and 10BASE-T1L USB sticks
• Replacement for standard sub-shell
• Opening for seamless cable connection
• Including light pipe for LED
• 3D-printed

Features

• Closed housing for 100BASE-T1 and 10BASE-T1L USB sticks
• Replacement for standard sub-shell
• Opening for seamless cable connection
• Including light pipe for LED
• 3D-printed

Features

• Closed housing for 100BASE-T1 and 10BASE-T1L USB sticks
• Replacement for standard sub-shell
• Opening for seamless cable connection
• Including light pipe for LED
• 3D-printed

Features

• Closed housing for 100BASE-T1 and 10BASE-T1L USB sticks
• Replacement for standard sub-shell
• Opening for seamless cable connection
• Including light pipe for LED
• 3D-printed

A parallel cabel is used to connect the FC900701 Trigger Extension board and the USB sticks. For connection of external trigger signals the FC900701 Trigger Extension features simple to use screw terminals.

External trigger input events are timestamped in context with Ethernet traffic. Trigger output events are generated on detection of configurable EtherTypes.

Features

Hardware

• Support for external trigger input and output signals
• Screw terminals for seamless connection of trigger signals
• Parallel cable for connection to FC612 and FC631

Software/Firmware

• Trigger input events timestamped in context with Ethernet traffic
• Trigger output events generated on detection of configurable EtherTypes
• Python API to configure trigger input and output events

Applications

The FC900701 in combination with the FC612 USB 100BASE-T1 Stick Raw and FC631 USB 10BASE-T1L Stick Raw enables connection to embedded hardware platforms used to generate and receive dedicated trigger events. The following are example applications:

• Synchronize external trigger input events (e. g. CAN message trigger) to Ethernet traffic
• Generate trigger output event based on configurable EtherType
• Connect 100BASE-T1 or 10BASE-T1L device and GPIOs for realtime latency measurement
• Verify Precision Time Protocol (PTP) timestamping
• Use Wireshark to display 100BASE-T1 and 10BASE-T1L Ethernet and trigger input events

Requirements

• FibreCode FC612 USB 100BASE-T1 Stick Raw or FC631 USB 10BASE-T1L Stick Raw
• External hardware to generate and received trigger events

The FC900302 UTP Ethernet Cable has a length of 2 m and is providing on both ends cable sleeves for seamless connectivity to screw terminal blocks as provided on countless numbers of evaluation and custom printed circuit boards.

Features

• Cable type: FLR9Y
• Cable length: 2 m
• Cable head: Cable end sleeves
• Core: 0,35 mm²
• Core arrangement: 2 cores twistet together (Length of lay 13 mm)
• Color: green & white

The FC401 USB SMI/SPI Adapter provides an USB 2.0 interface and a SMI as well as SPI port. The USB interface is used for connectivity to a MS-Windows or Linux host PC. The SMI and SPI ports are used to realize a connection to evaluation and custom boards.

On the host PC the FC401 USB SMI/SPI Adapter is detected as Ethernet device. Flexible software APIs provide seamless access to Ethernet PHY transceiver internal registers via SMI and SPI interface.

Features

Hardware

• High-Speed USB 2.0 device interface
• USB 2.0 Micro-AB connector
• SMI and SPI connectivity via standard 2,54 mm 18-pin header
• NXP LPC4333 32-bit ARM Cortex-M4/M0 microcontroller
• USB powered
• Compact and modular design
• Incl. USB cable and colored fly-wires

Software/Firmware

• MS-Windows 10 and several Linux distributions are supported
• Common C-API and Python 3.x wrapper
• Software API to access Ethernet PHY transceivers and switches internal registers
• Python GUI to read and write register values via SMI and SPI
• Python and C++ sample applications

Applications

The USB interface of the FC401 USB SMI/SPI Adapter allows seamless connection to a broad variety of PCs, notebooks and embedded platforms. The USB control access via Broadway2-API enables the usage of USB hosts running MS-Windows as well as Linux operating systems.

The standard 18-pin header in combination with colored fly-wires enables connectivity to SMI and SPI ports of evaluation and custom boards to access Ethernet PHY transceivers and switches.

The FC401 USB SMI/SPI Adapter can be used for the following use cases:

• Seamless access to evaluation boards and custom boards via SMI and SPI interface
• Access to Ethernet PHY transceivers and switches via SMI and SPI interface
• Configuration and verification of Ethernet PHYs and switches
• Setup and control test-modes, loopback-modes etc. of Ethernet PHY transceivers and switches
• Verification of custom designed PHY and switch boards using FC401 in combination with FC6xx as link-partners

Requirements

• MS-Windows 10 or Linux host platform (e.g. PC, Laptop, Raspberry Pi)
• USB 2.0 host port

The FC631 USB 10BASE-T1L Stick Raw functions as full-featured Layer2 receiver and transmitter in an industrial Single Pair Ethernet network. In comparison to the standard FC621 USB 10BASE-T1L Stick the FC631 USB 10BASE-T1L Stick Raw is not installed as network device on the Host PC, but comes with an API (Broadway2 C-API) to get full access to Layer2 raw data on a 10BASE-T1L industrial Single Pair Ethernet network.

The FC631 can be used for the analysis, simulation, test and validation of industrial Ethernet networks. Flexible software APIs feature full access to Analog Devices ADIN1100 PHY internal registers. This enables cable testing and network diagnosis.

Features

Hardware

• Analog Devices ADIN1100 10BASE-T1L PHY
• 10BASE-T1L physical interface with UTP connector
• NXP LPC4333 32-bit ARM Cortex-M4/M0 microcontroller
• High-Speed USB 2.0 device interface with Type-A connector
• Network Master/Slave configuration via hardware switch
• USB powered
• Compact and modular design

Software/Firmware

• MS-Windows and Linux compatible
• USB Bulk data In/Out to Ethernet Layer2
• Powerful and flexible API for ADIN1100 SMI access
• Common C-API and Python wrapper
• Python abstraction class for ADIN1100 MDIO register
• Python and C++ sample applications
• Firmware update via USB

Applications

The USB interface of the FC631 USB 10BASE-T1L Stick Raw allows seamless connection to a broad variety of PCs, notebooks and embedded platforms. This enables the FC631 USB 10BASE-T1L Stick Raw for the following use cases:

• MS-Windows and Linux PC used as raw protocol analyzer for 10BASE-T1L networks
• Reception of raw Ethernet frames incl. 64-bit timestamp and sequence counter
• Decoding of ethernet raw frames with Python pypacker to ICMP, UDP/TCP-IP ..
• Transmission of Ethernet data supporting access to MAC, VLAN and raw data section
• Point-to-Point industrial Ethernet network connection using two USB 10BASE-T1L Sticks Raw
• Evaluation of Analog Devices ADIN1100 10BASE-T1L PHY chip with full access to MDIO registers
• 10BASE-T1L cable testing and network diagnosis
• Simulation of multiple nodes on industrial Ethernet switch designs
• Industrial Ethernet network simulation and demonstration

Requirements

• MS-Windows 10 or Linux host platform (e.g. PC, Laptop, Raspberry Pi)
• USB 2.0 host port

The FC621 USB 10BASE-T1L Stick functions as seamless media converter between a standard USB 2.0 interface and a 10BASE-T1L industrial Single Pair Ethernet network. On Windows and Linux host PCs the FC621 USB 10BASE-T1L Stick is detected as standard Ethernet device.

Flexible software APIs feature full access to Analog Devices ADIN1100 PHY internal registers. This enables cable testing and network diagnosis.

Features

Hardware

• Analog Devices ADIN1100 10BASE-T1L PHY
• 10BASE-T1L physical interface with UTP connector
• NXP LPC4333 32-bit ARM Cortex-M4/M0 microcontroller
• High-Speed USB 2.0 device interface with Type-A connector
• Network Master/Slave configuration via hardware switch
• USB powered
• Compact and modular design

Software/Firmware

• MS-Windows and Linux compatible
• Standard Ethernet Network device on host PC
• USB CDC/ECM driver for MS-Windows
• Powerful and flexible API for ADIN1100 SMI access
• Common C-API and Python wrapper
• Python abstraction class for ADIN1100 MDIO register
• Firmware update via USB

Applications

The USB interface of the FC621 USB 10BASE-T1L Stick allows seamless connection to a broad variety of PCs, notebooks and embedded platforms. The USB Control and CDC/ECM profiles enable the usage of USB hosts running MS-Windows as well as Linux operating systems. This enables the USB 10BASE-T1L Stick for the following applications:

• Standard Ethernet network device supporting 10BASE-T1L pyhsical interface
• MS-Windows and Linux PC used as protocol analyzer (Wireshark) for 10BASE-T1L networks
• Point-to-Point industrial Ethernet network connection using two USB 10BASE-T1L Sticks
• Evaluation of Analog Devices ADIN1100 10BASE-T1L PHY chip with full access to MDIO registers
• 10BASE-T1L cable testing and network diagnosis
• Simulation of multiple nodes on industrial Ethernet switch designs
• Industrial Ethernet network simulation and demonstration

Requirements

• MS-Windows 10 or Linux host platform (e.g. PC, Laptop, Raspberry Pi)
• USB 2.0 host port

The FC612 USB 100BASE-T1 Stick Raw functions as full-featured Layer2 receiver and transmitter on a 100BASE-T1 automotive Single Pair Ethernet network. In comparison to the standard FC602 USB 100BASE-T1 Stick the FC612 USB 100BASE-T1 Stick Raw is not installed as network device on the Host PC, but comes with an API (Broadway2 C-API) to get full access to Layer2 raw data on a 100BASE-T1 automotive network.

The FC612 can be used for the analysis, simulation, test and validation of automotive Ethernet networks. Flexible software APIs feature full access to NXP TJA1101 PHY internal registers. This enables cable testing and network diagnosis.

Features

Hardware

• NXP TJA1101 100BASE-T1 PHY with full support for Sleep/Wake-up (TC10 compliant)
• OABR/BroadR-Reach/100BASE-T1 physical interface with UTP connector
• NXP LPC4333 32-bit ARM Cortex-M4/M0 microcontroller
• High-Speed USB 2.0 device interface with Type-A connector
• Network Master/Slave configuration via hardware switch
• USB powered
• Compact and modular design

Software/Firmware

• MS-Windows and Linux compatible
• USB Bulk data In/Out to Ethernet Layer2
• Powerful and flexible API for TJA1101 SMI access
• Common C-API and Python wrapper
• Python abstraction class for TJA1101 MDIO register
• Python and C++ sample applications
• Python GUI-Application to control and view TJA1101B settings,
  e. g. Master/Slave, TestModes, Loopback-Modes, Sleep/Wake-up (TC10 compliant), SQI, …
• Firmware update via USB

Applications

The USB interface of the FC612 USB 100BASE-T1 Stick Raw allows seamless connection to a broad variety of PCs, notebooks and embedded platforms. This enables the FC612 USB 100BASE-T1 Stick Raw for the following use cases:

• MS-Windows and Linux PC used as raw protocol analyzer for 100BASE-T1 networks
• Reception of raw Ethernet frames incl. 64-bit timestamp and sequence counter
• Decoding of ethernet raw frames with Python pypacker to ICMP, UDP/TCP-IP ..
• Transmission of Ethernet data supporting access to MAC, VLAN and raw data section
• AVB/TSN network testing
• Point-to-Point automotive Ethernet 100BASE-T1 network connection using two USB 100BASE-T1 Sticks Raw
• Evaluation of NXP TJA1101 100BASE-T1 PHY chip with full access to SMI registers
• Automotive Ethernet network simulation and demonstration

Requirements

• MS-Windows 10 or Linux host platform (e.g. PC, Laptop, Raspberry Pi)
• USB 2.0 host port