Zweiadrige ETH Click-Platine
Zweiadrige ETH Click-Platine
Key Features
- Leistungsstarker 10BASE-T1S Ethernet PHY, eine serielle Peripherieschnittstelle nach Industriestandard, gleichzeitige Übertragung von Sende- und Empfangspaketen, Statusunterbrechung, zwei Jumper zum Aktivieren der 100-Ω-Randterminierung, Wake-Up-Funktion, MAC-Adress-EEPROM, Reset und mehr
- Basierend auf dem LAN8651 – Single-Port 10BASE-T1S MAC-PHY Ethernet Controller mit SPI von Microchip
- Kann für die industrielle Steuerung, Prozess-/Fabrikautomatisierung, Sensor-/Aktornetzwerke mit hoher Bandbreite, Gebäudeautomatisierung und mehr verwendet werden
- mikroBUS: I2C-, SPI- und GPIO-Schnittstellen
Wir präsentieren das Two-Wire ETH Click Board™: Ihre Lösung für kostengünstige Ethernet-Konnektivität
Das Two-Wire ETH Click Board™ ist die kompakte Zusatzplatine, die Sie benötigen, um eine generische Schnittstelle zu vielen Drittanbieterprozessoren in 10BASE-T1S-Anwendungen zu erstellen. Mit dem LAN8651, einem stromsparenden Single-Port 10BASE-T1S MAC-PHY Ethernet Controller mit SPI von Microchip, können Sie jetzt problemlos auf 10BASE-T1S-Netzwerke zugreifen.
Durch die Kombination eines Media Access Controllers (MAC) und eines Ethernet PHY ermöglicht der LAN8651 kostengünstigen MCUs den Zugriff auf 10BASE-T1S-Netzwerke und ermöglicht so die Erstellung von Multidrop- und Point-to-Point-Netzwerktopologien. Durch die gleichzeitige Übertragung von Ethernet-Sende- und Empfangspaketen zwischen dem Stationscontroller und dem LAN8651 über eine schnelle serielle Peripherieschnittstelle (SPI) gemäß der Spezifikation der OPEN Alliance 10BASE-T1x MAC-PHY Serial Interface können Sie sicher sein, dass die Datenübertragung sowohl schnell als auch zuverlässig ist.
Aber das ist noch nicht alles – das Two-Wire ETH Click Board™ eignet sich für eine breite Palette funktionaler sicherheitsrelevanter Anwendungen, darunter industrielle Steuerung, Prozess-/Fabrikautomatisierung, Sensor-/Aktornetzwerke mit hoher Bandbreite, Gebäudeautomatisierung und mehr.
Vereinfachte Softwareentwicklung mit mikroSDK
Das Two-Wire ETH Click Board™ wird von einer mikroSDK-kompatiblen Bibliothek unterstützt, die Funktionen enthält, die die Softwareentwicklung vereinfachen. Mit diesem Click Board™ können Sie wertvolle Zeit und Ressourcen sparen und gleichzeitig sicherstellen, dass Ihr Projekt so schnell wie möglich einsatzbereit ist.
Darüber hinaus ist das Two-Wire ETH Click Board™ ein vollständig getestetes Produkt, das sofort auf einem System mit mikroBUS™-Buchse verwendet werden kann. Worauf also warten? Bestellen Sie Ihr Two-Wire ETH Click Board™ noch heute und profitieren Sie von kostengünstiger, zuverlässiger Ethernet-Konnektivität!
How Does The Two-Wire ETH Click Board™ Work?
The Two-Wire ETH Click Board™ is based on the LAN8651, a compact, low-power, single-port 10BASE-T1S MAC-PHY Ethernet Controller with SPI from Microchip designed according to the IEEE Std 802.3cg-2019 and OPEN Alliance TC-6 10BASE-T1x MAC-PHY Serial Interface specifications. The LAN8651 combines a Media Access Controller (MAC) and PHY to enable low-cost MCUs to access 10BASE-T1S networks. It provides 10Mbit/s half-duplex transmit and receive capability over a single balanced pair of conductors connected to the onboard Ethernet terminal. The LAN8651 also complies with industrial EMC and EMI requirements, making it suitable for functional safety-related applications.
The integrated PHY of the LAN8651 allows for creating both multidrop and point-to-point network topologies, with up to at least 15m in length for a point-to-point network. The multidrop mode supports up to at least 8 PHYs connected to a common mixing segment of up to at least 25m in length. The ability to connect multiple PHYs to a common mixing segment reduces weight and implementation costs by reducing cabling and switch ports.
The LAN8651 integrated Ethernet MAC communicates with the host MCU through a standard Serial Peripheral Interface (SPI) supporting high clock speed up to 25MHz. Ethernet data transfer as well as command/status commands are performed over a single, serial interface. The serial interface allows of both transmit and receive packets simultaneously between the station controller and the LAN8651. Packets are typically stored within the LAN8651 before being forwarded to either the station MCU or the network. Alternatively, packets may be transferred in a cut-through mode, with minimal buffering, for applications needing reduced latency. In addition to the Ethernet terminal mentioned above, this board has two jumper settings for enabling 100Ω edge termination at the ends of a 10BASE-T1S segment. Both jumpers must be populated to allow edge termination.
Alongside SPI pins of the mikroBUS™ socket, this Click board™ also has a multi-function interrupt IRQ pin, GPIO interface on IO0 and IOX, and a general reset signal to reset the LAN8651. In addition to hardware reset, the possibility of a Power-On reset is also provided, achieved using the MIC2790. It also has a Wake-Up function, accomplished by the WI pin or the WI button, and an additional INH indicator set to a low logic state in Sleep mode or a high state when PHY determines a qualified Wake-Up condition. To make identification as simple as possible, this board also has an additional EEPROM memory, the AT24MAC402, accessible via the I2C interface.
The Two-Wire ETH Click Board™ can only be operated with a 3.3V logic voltage level. The board must perform appropriate logic voltage level conversion before using MCUs with different logic levels. However, the Click board™ comes equipped with a library containing functions and an example code that can be used as a reference for further development.
SPECIFICATIONS
Type | Ethernet |
Applications | Can be used for industrial control, process/factory automation, sensor/actuator networks operating at high bandwidth, building automation, and more |
On-board modules | LAN8651 - single-port 10BASE-T1S MAC-PHY Ethernet Controller with SPI from Microchip |
Key Features | High-performance 10BASE-T1S Ethernet PHY, an industry-standard serial peripheral interface, simultaneous transfer of transmit and receive packets, status interrupt, two jumpers for enabling 100Ω edge termination, Wake-Up feature, MAC address EEPROM, reset, and more |
Interface | GPIO,I2C,SPI |
Compatibility | mikroBUS |
Click board size | M (42.9 x 25.4 mm) |
Input Voltage | 3.3V |
PINOUT DIAGRAM
This table shows how the pinout of the Two-Wire ETH Click Board™ corresponds to the pinout on the mikroBUS™ socket (the latter shown in the two middle columns).
Notes | Pin | Pin | Notes | ||||
---|---|---|---|---|---|---|---|
Sleep/Wake Indicator | INH | 1 | AN | PWM | 16 | WI | Wake In |
Reset | RST | 2 | RST | INT | 15 | IRQ | Interrupt |
SPI Chip Select | CS | 3 | CS | RX | 14 | IO0 | General-Purpose I/O |
SPI Clock | SCK | 4 | SCK | TX | 13 | IOX | General- Purpose I/O |
SPI Data OUT | SDO | 5 | MISO | SCL | 12 | SCL | I2C Clock |
SPI Data IN | SDI | 6 | MOSI | SDA | 11 | SDA | I2C Data |
Power Supply | 3.3V | 7 | 3.3V | 5V | 10 | NC | |
Ground | GND | 8 | GND | GND | 9 | GND | Ground |
ONBOARD SETTINGS AND INDICATORS
Label | Name | Default | Description |
---|---|---|---|
LD1 | PWR | - | Power LED Indicator |
LD2 | CS | - | CS Assertion LED Indicator |
J1 | J1 TERM | Populated | 100Ω Edge Termination Jumper |
J2 | J2 TERM | Populated | 100Ω Edge Termination Jumper |
T2 | WI | - | Wake-Up Button |
TWO-WIRE ETH CLICK ELECTRICAL SPECIFICATIONS
Description | Min | Typ | Max | Unit |
---|---|---|---|---|
Supply Voltage | - | 3.3 | - | V |
PHY Speed | - | 10 | - | Mbit/s |
Software Support
MikroElektronika does not currently provide software support for the Two-Wire ETH Click Board™ in the form of libraries, functions, or example code. The software support is provided by our development partner on this project Microchip. Please visit the Microchips LAN8651 product page or Github repository to get protocol driver support for this IC.
Software Support
MikroElektronika does not currently provide software support for the Two-Wire ETH Click Board™ in the form of libraries, functions, or example code. The software support is provided by our development partner on this project Microchip. Please visit the Microchips LAN8651 product page or Github repository to get protocol driver support for this IC.
Zweiadrige ETH Click-Platine
Frequently Asked Questions
Ask a Question-
Is the Two-Wire ETH Click Board™ tested before delivery?
Yes, the Two-Wire ETH Click Board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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How does the Two-Wire ETH Click Board™ simplify software development?
The Two-Wire ETH Click Board™ is supported by a mikroSDK-compliant library, which includes functions that simplify software development. With this Click board™, you can save valuable time and resources while ensuring that your project is up and running as quickly as possible.
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What is the advantage of using the Two-Wire ETH Click Board™ for Ethernet connectivity?
The Two-Wire ETH Click Board™ provides low-cost and reliable Ethernet connectivity. With the LAN8651, data transfer is fast and reliable, and the Click board™ is suitable for a wide range of functional safety-related applications.
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What is the advantage of using the Two-Wire ETH Click Board™ for Ethernet connectivity?
The Two-Wire ETH Click Board™ provides low-cost and reliable Ethernet connectivity. With the LAN8651, data transfer is fast and reliable, and the Click board™ is suitable for a wide range of functional safety-related applications.
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What are the applications of the Two-Wire ETH Click Board™?
The Two-Wire ETH Click Board™ is suitable for a wide range of functional safety-related applications, including industrial control, process/factory automation, sensor/actuator networks operating at high bandwidth, building automation, and more.
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What is 10BASE-T1S?
10BASE-T1S is a type of Ethernet networking technology that allows for data communication at a speed of 10 megabits per second (Mbps) over a single twisted pair cable. It is designed for use in automotive and industrial environments, where traditional Ethernet cabling is not practical or suitable. The "10" in the name refers to the maximum data transfer rate of 10 Mbps, while "BASE" indicates that the technology uses baseband signaling, where the entire bandwidth of the cable is used for a single signal. "T1" refers to the use of twisted pair cable, while "S" stands for "single", meaning that only one twisted pair is used for transmission and reception. 10BASE-T1S is a newer variant of the 10BASE-T1 technology, with the added benefit of being able to operate over longer distances and with better noise immunity. It is also more power-efficient than other Ethernet technologies, making it well-suited for use in battery-powered devices.
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What is the LAN8651?
The LAN8651 is a low-power single-port 10BASE-T1S MAC-PHY Ethernet Controller with SPI from Microchip. It combines a Media Access Controller (MAC) and an Ethernet PHY, which enables low-cost MCUs to access 10BASE-T1S networks.
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What is the Two-Wire ETH Click Board™?
The Two-Wire ETH Click Board™ is a compact add-on board that provides a generic interface to many third-party processors in 10BASE-T1S applications. It enables low-cost MCUs to access 10BASE-T1S networks, allowing for the creation of both multidrop and point-to-point network topologies.