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Boards featuring communication technologies which require a physical connection; such as ethernet, USB, RS232, CAN, RS485 and LIN.
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Tip: | The filter on the left can be used to narrow down the number of items in this category. |
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ETH click is an accessory board in the mikroBus form factor. It features Microchip's ENC28J60; a 28-pin, 10BASE-T, stand alone Ethernet Controller - with on-board MAC & PHY, 8K Bytes of Buffer RAM and SPI serial interface. The chip supports programmable automatic retransmit on collision and automatic rejection of erroneous packets. The board includes a standard RJ-45 connector as well as transmit, receive and power LEDs. An on-board crystal oscillator ensures stable operation. The board is designed to use a 3.3V power supply only. |
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Microchip's ENC28J60 is a 28-pin, 10BASE-T stand alone Ethernet Controller with an on-board MAC & PHY, 8 Kbytes of Buffer RAM and SPI serial interface. With a small footprint package size the ENC28J60 minimizes complexity, board space and cost. Target applications include VoIP, Industrial Automation, Building Automation, Home Control, Security and Instrumentation.
An IDC10 cable is included with the board. |
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The Serial Ethernet 2 board features Microchip's ENC624J600 10/100 Base-T Ethernet controller with integrated MAC & PHY, hardware cryptographic security engines and factory preprogrammed unique MAC address. Communication is done via the industry standard Serial Peripheral Interface (SPI). The board can be operated at 3.3V or 5V.
An IDC10 cable is included with the board. |
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ETH Wiz click carries W5500, a 48-pin, 10/100 BASE-TX standalone ethernet controller with a hardwired TCP/IP Internet protocol offload engine, along with a standard RJ-45 connector. The W5500 module employs a variety of solutions to reduce the target MCU's memory load and enable a stable and secure Internet connection. High speed network communications are realized through an 80 MHz SPI interface. The module has 32KB of internal memory for TX/RX buffers. Reduced power consumption is achieved with Wake on LAN and power down modes. Automatic handshaking, retransmit on collision and automatic rejection of erroneous packets are also supported. |
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The Max232 board is used for establishing RS232 communication between a computer and devices powered by a 5V power supply. The board features a MAX232N (RS-232 transceiver) and female DB-9 connector. |
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The Max3232 Board is used for establishing RS232 communication between a computer and devices powered by a power supply between 3.0V and 5.5V. The board features a MAX3232 (RS-232 transceiver) and female DB9 connector. |
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RS232 click is a simple solution for adding RS232 connectivity to your design. RS232 is a serial communications standard mostly used for industrial machines, networking equipment and scientific instruments, as well as for computer peripherals. The board features a standard RS232 DB9 port and a MAX3232 IC, along with a mikroBUS host socket, three jumpers and a power indicator LED. RS232 click communicates with the target board via mikroBUS RX (RXD), TX (TXD), CS (RTS), and INT (CTS) lines. RS232 click is designed to use either a 3.3V or 5V power supply. |
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The RS232 communication standard is established back in the ‘60s, but thanks to its implementation on a wide range of devices - including PC motherboards, it gained a lot of popularity and it is still in use. Over time, this standard went through many revisions and the most recent revision is TIA-232-F (R2012). Although it was originally developed to connect teletypewriters and modems, nowadays it is used for serial communication between a wide array of different devices.
To implement the RS232 communication standard on the MCUs, it is necessary to convert the voltage levels to the levels acceptable for the modern MCUs. RS232 2 click performs full RS232 to UART signal conversion, allowing both 3.3V and 5V operation. Additionally, it features ±15 kV ESD protection for the RS-232 I/O pins. These attributes make this click a perfect solution for battery powered, hand-held and portable equipment, PDAs, palmtops, digital cameras, and other devices that still support the RS232 standard. |
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RS232 Isolator click is a fully isolated dual transceiver click, used to provide secure and easy UART to RS232 conversion, with the galvanic isolation. The digital input and output signals are transmitted across the isolation barrier by utilizing the Analog Devices proprietary iCoupler® technology - IC scale transformer windings couple the digital signals magnetically, from one side of the barrier to the other, providing the galvanic isolation and transfer rates up to 460Kbps.
RS232 Isolator click can be used for galvanic isolation of RS232 signals, whenever there is a need for that kind of isolation - operating in harsh environments where electrostatic discharges (ESD) can occur, when the RS232 cable is plugged in and out frequently, and generally - wherever the sensitive part of the RS232 controller logic circuitry needs to be protected. |
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RS232 SPI click is based around the MAX3100, a universal universal asynchronous receiver transmitter (UART) - the first UART specifically optimized for small microcontroller-based systems, from Maxim Integrated. Because of the features contained in its modules, the RS232 SPI click can be used for handheld instruments, small networks in HVAC or Building control, UART in SPI systems, battery-powered systems, PDAs, notebooks and many more.
RS232 SPI Click board™ is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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The USB UART Board features a USB to serial UART interface FT232R that simplifies USB to serial designs and reduces external component count by fully integrating an external EEPROM, USB termination resistors and a clock circuit requiring no external crystal, into the device. |
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The USB UART 2 Board is a prototype board that features a USB-to-UART serial converter MCP2200 which enables USB connectivity for prototype devices that have a UART interface. The board also features a USB Connector. |
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USB UART Click is an accessory board in the mikroBUS form factor. It is a compact and easy solution for adding serial UART communication via USB to your project. It features the FT232RL USB-to-UART interface module as well as a USB MINI B connector. The board is powered with 5V, but is designed to use 3.3V or 5V I/O levels (selectable via an SMD jumper). The board also features power, Rx and Tx LEDs. |
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USB UART 2 click provides USB isolation and carries the ADUM4160BRWZ USB port isolator. The click is designed to run on either 3.3V or 5V power supply. It communicates with the target microcontroller over UART interface, with additional functionality provided the following pins on the mikroBUS™ line: RST, CS, PWM, INT. |
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USB UART 3 click is a versatile and feature-rich USB to UART interface from Silicon Labs. It uses CP2102N which is a part of their USBXpress™ family. These devices are designed to quickly add a USB 2.0 full-speed compliant UART interface for custom applications, by eliminating firmware complexity and reducing development time. The Click board™ requires appropriate drivers to be installed in the host OS, in order to support the virtual COM port functionality. Once installed, this device offers amazing connectivity options, up to 3 Mbaud, a very low number of external components, simplified setup of the advanced options via the GUI-based configurator (if required), out-of-the-box functionality with the royalty-free virtual COM port drivers, provided by the Silicon Labs. |
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The FT230X Dongle is a breakout board for the FT230X USB to UART converter from FTDI Chip, but with a USB Type A Male connector instead of the usual Type B Female connectors found on most breakout boards of this type. This board has been designed for embedded applications (such as Raspberry Pi and BeagleBone Black) where more UARTS are required than what the embedded board is usually able to provide. The FT230X Dongle plugs straight into the USB port, eliminating the need for an extra USB cable. All relevant pins of the FT230X IC are exposed, and Power / Rx / Tx LEDs are also included on the board. |
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USB SPI Click is an accessory board in the mikroBUS form factor. It is a compact and easy solution for adding SPI serial communication via USB. It features the MCP2210 USB-to-SPI protocol converter with GPIO as well as USB MINI B connector. USB SPI click communicates with target board via SPI interface as a master device. An SMD jumper is available for selecting whether board will be operating on a 3.3V or 5V power supply. |
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USB I2C click carries an MCP2221 USB-to-UART/I2C converter. The chip supports full-speed USB (12 Mb/s), I2C with up to 400 kHz clock rates and UART baud rates between 300 and 115200. The board communicates with the target MCU through mikroBUS UART (RX, TX) or I2C (SCL, SDA) interfaces. In addition to mikroBUS, the edges of the board are lined with additional GPIO and I2C pins. It can operate on 3.3V or 5V logic levels. |
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FTDI Click features the FT2232H dual high speed USB 2.0 to UART/I2C/SPI serial interface converter. It includes a DA converter and EEPROM as well. The entire USB protocol is handled on the chip (FTDI USB drivers are required), making this board ideal for various USB applications. FTDI Click communicates with the target board via mikroBUS SPI (MOSI, MISO, SCK, CS), I2C (SDA, SCL), UART (Tx, Rx), RST, PWM, AN and INT lines. The board can be powered via USB or via mikroBUS socket. A green LED indicates the presence of power supply. |
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The CAN-1 Board is an accessory board designed to be used with microcontrollers that have CAN support. It has the MCP2551 CAN transceiver. Use the IDC10 to connect the CAN-1 board to a MCU, thus enabling it to access the CAN network. |
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The CAN SPI click board is an accessory board in the mikroBus form factor. It is the best solution to add CAN connectivity to your microcontroller with SPI interface. The board features either the SN65HVD230 (3.3V) or MCP2551 (5V) CAN transciever circuit which provides a CAN serial communication physical layer, in accordance with the ISO 11898 standard. It is designed for operation in especially-harsh environments; and features cross-wire protection, loss-of-ground and over-voltage protection, over-temperature protection, as well as wide common-mode range. |
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The CANSPI Board is an accessory board that includes the MCP2515 CAN controller and MCP2551 transceiver. It is capable of transmitting and receiving both standard and extended data and remote frames. The CAN controller also has two acceptance masks and six acceptance filters that are used to filter out unwanted messages, thus reducing the host MCUs overhead. It can be used with all devices that have SPI support. The board is designed to run on 5V only. |
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CAN Isolator click provides isolated CAN communication. It carries the ADM3053 signal and power isolated CAN transceiver with an integrated isolated DC-to-DC converter. The click is designed to run on either 3.3V or 5V power supply. CAN Isolator click communicates with the target microcontroller over UART interface. |
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CAN FD Click is a add-on board based on TLE9252V CAN network transceiver, designed for HS CAN networks up to 5 Mbit/s in automotive and industrial applications. As an interface between the physical bus layer and the CAN protocol controller, the TLE9252V drives the signals to the bus and protects the microcontroller against interferences generated within the network. Given all the features its components offer, the CAN FD Click is best used for for infotainment applications, cluster modules, radar applications and HVAC.
CAN FD Click board™ is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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CAN FD 2 Click is a HS CAN transceiver add on board, suitable for evaluation of TLE9255W CAN network transceiver from Infineon. The transceiver itself drives the signals to the CAN bus and protects the microcontroller from interference generated within the CAN network. Based on the high symmetry of the CANH and CANL signals, the TLE9255W provides a very low level of electromagnetic emission within a wide frequency range, allowing the operation of the TLE9255W without a common mode choke in automotive and industrial applications.
CAN FD 2 Click board™ is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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CAN FD 3 Click is a add-on board based on TLE9251V CAN network transceiver, designed for HS CAN networks up to 5 Mbit/s in automotive and industrial applications. As an interface between the physical bus layer and the CAN protocol controller, the TLE9251V drives the signals to the bus and protects the microcontroller against interferences generated within the network. Given all the features its components offer, the CAN FD Click is best used for for infotainment applications, gateway modules, body control modules (BCM) or engine control units (ECUs).
CAN FD 3 Click board™ is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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MCP25625 click is a mikroBUS add-on board carrying a Microchip CAN controller with an integrated transceiver. It meets the automotive requirement for high speed operation (up to 1 Mb/s).
Named after the main chip, MCP25625 click also has a RS232 port, which is a standard connector for CAN communications. Additionally, the two CAN wires (CANL and CANH) can also be connected directly through two pins on the right edge of the board.
The click communicates with the target MCU through the SPI interface - although there are additional options that take the load off the target board MCU. To that end, all 16 mikroBUS pins are connected. There's a clock output, a Request To Send, an Interrupt, standby, reset and more. MCP25625 click can work with both 3.3V or 5V logic levels. |
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MCP2542 click is a mikroBUS add-on board with a Microchip CAN FD Transceiver with Wake-Up Pattern. The physical layer is compliant with CAN 2.0 and CAN with Flexible Data Rate (CAN FD). It is designed specifically for high-speed CAN FD applications with communication speeds of up to 8 Mbps. Longer than usual BUS lengths are supported thanks to the improved maximum propagation delay.
The board has a standard RS232 port for CAN communications.
MCP2542 click communicates with the target board MCU through mikroBUS UART interface with an additional StandBy pin (STBY, in place of default mikroBUS AN pin). Two additional pairs of pins on the right edge of the board offer separate UART connection as well as a CAN interface.
The board is designed to use either a 3.3V or 5V power supply. |
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MCP2518FD click is a complete CAN solution, which can be used as a control node in a CAN network. The Click board™ is used to provide the microcontroller (MCU) with unrestricted access to the CAN network bus. MCP2518FD click is equipped with both the control logic and the physical interface ICs. MCP2518FD click provides a reliable high-speed CAN interface to the MCU, providing multiple operating modes (CAN 2.0, CAN FD, Listen Only mode, Sleep and Low Power mode…), CAN bit stream processing (decoding and encoding of the CAN messages, error handling…), TX prioritizing, RX filtering, FIFO buffer, interrupt engine, and more.
MCP2518FD click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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MCP2517FD click serves as a CAN connector. It carries a DB9 9-pin connector, as well as ATA6563 high-speed CAN transceiver. The click is designed to run on either 3.3V or 5V power supply. It communicates with the target microcontroller through SPI interface, with additional functionality provided by the following pins on the mikroBUS™ socket: AN, PWM, INT, CS, SCK, MISO, MOSI, TX and RX. |
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ATA6563 click carries the ATA6563 high-speed CAN transceiver. The click is designed to run on a 5V power supply. Use the VIO SEL jumper for selecting the 3.3V or 5V logic level.
It communicates with the target microcontroller over UART interface, with additional functionality provided by the AN pin on the mikroBUS™ line. |
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ATA6570 click is an automotive diagnostic tool that allows CAN bus interfacing, in a series of click boards™ aimed towards automotive diagnostics. The click carries the ATA6570, a high-speed CAN transceiver that interfaces a Controller Area Network (CAN) protocol controller and the physical two-wire CAN bus. This IC has some unique features that make it a perfect choice for any embedded CAN application.
It supports both CAN and CAN FD protocol types, partial networking, local and remote wake up, an SPI interface for internal registers configuration, and it features six operating modes as well as the undervoltage and overtemperature protection. The power consumption is taken to a minimum, as the ATA6570 can power down the entire system until a valid wake-up frame is received - even on a busy CAN bus. The car battery supply pin and the CAN bus pins are protected from various interferences and voltage instabilities, typically observed in automotive systems. ATA6570 click provides you with a robust and reliable CAN bus interface. |
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OBDII click offers a unique opportunity to tap into the car diagnostic systems. It features the STN1110 Multiprotocol OBD to UART Interface, developed by the ScanTool technologies. This click can be used for the communication with the Electronic Control Unit (ECU) of a vehicle, via several different OBD II diagnostic protocols such as CAN, K LINE, L LINE and J1850. The STN1110 IC is used to process requests sent by the MCU via the UART interface and return back the responses from the ECU network nodes |
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RS485 Click is an accessory board in mikroBus form factor. The on-board SN65HVD12 (3.3V) or ADM485 (5V) differential line transceiver is suitable for high speed bidirectional data communication on multipoint bus transmission lines. It is designed for balanced data transmission and complies with EIA standards RS-485 and RS-422. This transceiver features a differential line driver and differential line receiver. |
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RS485 2 click carries the MAX3471 half-duplex transceiver intended for lithium battery-powered RS-485/RS-422 applications.
The click is designed to run on either 3.3V or 5V power supply. It communicates with the target microcontroller over UART interface with additional functionality provided by the following pins on the mikroBUS™ line: PWM, CS. |
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RS485 3 click uses SN65HVD31DR from Texas Instruments, a tri-state differential line driver and differential input line receiver. The click is intended to be used as UART to RS422/RS485 communication interface. It is suited for transmitting smaller blocks of data over long distances, using the four-wire bus, allowing for full-duplex communication.
It can be used as a transceiver between UART interface and RS422/RS485 communication bus. RS485 3 click can be used for controlling various building automation systems, light controllers, sensors and many small embedded devices that can all share the same bus, which can stretch up to 254 nodes and up to 1200m in length. |
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RS485 4 Click offers an UART to RS485 signal conversion, featuring the ADM2795E specialized IC with the complete galvanic isolation. Digital input and output signals are transmitted across the isolation barrier by using the ICoupler®, an IC scale transformer technology, which allows signals to be magnetically coupled across the isolation barrier within the IC, providing galvanic isolation for up to 5KV and data transfer rates up to 2.5Mbps. The ADM2795E is designed as a very robust and reliable UART to RS485 transceiver, allowing it to be used in very harsh industrial or other noisy environments.
RS485 4 Click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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RS485 6 Click offers a half-duplex RS-485 communication with integrated surge protection, which can be used as an interface between the TTL level UART and the RS485 communication bus. It is based on THVD1429DT, a transceiver from Texas Instruments with signaling rate of up to 20 Mbps. This device features a wide common-mode voltage range from 3.3V to 5V, which makes it suitable for multi-point applications over long cable runs and noisy areas thanks to the integrated transient voltage suppressor (TVS) diodes in. This device and type of network is perfectly suitable for wireless infrastructure, building automation, HVAC systems or factory automation, and many more.
RS485 6 Click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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The RS485 Board includes the ADM485 differential line transceiver that is designed for balanced data transmission and complies with EIA standards RS-485 and RS-422. This board comes with many examples and can be easily connected via an IDC10 connector. It is desgined to work on 5V only. |
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RS485 Isolator 2 Click features ADM2867E a 5.7 kV rms signal and power isolated full duplex RS-485 transceiver. The device also features cable invert pins, allowing the user to quickly correct reversed cable connection on A, B, Y, and Z bus pins while maintaining receiver full receiver fail-safe performance. This full duplex device allows for independent cable inversion of the driver and receiver for additional flexibility with high speed 25 Mbps data rate.
RS485 Isolator 2 Click board™ is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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MCP2003B click is a mikroBUS add-on board with a bi-directional LIN transceiver.
It's a physical interface to automotive and industrial LIN systems, in accordance to the LIN Bus Specifications Revision 2.2, SAE J2602 and ISO 17987. This standard requires that all nodes in the system are to be connected through a LIN bus. Up to 15 slave devices can be connected to a single master.
The click has three onboard screw terminals for connecting the transceiver to a LIN network (three wires: LIN, VBB and GND).
MCP2003B click communicates with the target board MCU through the mikroBUS UART interface (RXD, TXD), with additional functionality provided by the VRENDIV and LWAKE pins. Extra pins for LWAKE, CS, and TX and RX are also available above the mikroBUS.
The board is designed to use a 3.3V power supply only. |
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ATA663211 click carries an Atmel LIN transceiver IC designed to handle low-speed data communication in vehicles and in industrial applications with electrically harsh environments. The LIN connection is established by attaching wires to the onboard screw terminals. |
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ATA663254 click is a fully integrated LIN transceiver device with an integrated 5V LDO voltage regulator. The combination of voltage regulator and bus transceiver makes it possible to develop simple but powerful slave nodes in LIN bus systems. The integrated LDO can be used to provide power to the host MCU so that no additional voltage regulators are required, only the power supply connected to the LIN connector is needed. ATA663254 click features the undervoltage protection, short-circuit protection, TXD time-out timer and its LIN physical layer complies with LIN 2.0, 2.1, 2.2, 2.2A and SAEJ2602-2 standard specifications.
These features make ATA663254 click a perfect solution for realizing small and portable LIN based networks that are commonly used in automotive applications for communicating with the vehicle sensor peripherals, but also for any application where robust and interference-free communication up to 20Kbps is needed. |
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The LIN Board is a full-featured board for LIN bus. It includes a LIN bus transceiver MCP201 providing a physical interface between a microcontroller and LIN half-duplex bus. It is intended for use in automotive and industrial applications. |
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4-20mA T Click is an add-on board in mikroBUS form factor. It's a compact and easy solution for adding an industry standard 4-to-20mA current loop communication protocol to your design. It features the ADuM1411 quad-chanel digital isolator, MCP4921 12-bit DAC as well as the XTR116 4-20mA current loop transmitter. The board communicates with the microcontroller via three SPI lines (SDI, SCK and CS). The board can be used with either a 3.3V or 5V power supply. An LED indicates the presence of power supply to the board. |
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4-20mA R Click is an add-on board in mikroBUS form factor which serves as a receiver in a 4-20mA current loop standard. It features INA196 current shunt monitor, MCP3201 12-bit ADC as well as the TPS61041 DC/DC boost converter. It receives output current (4-20mA) from the transmitter and converts it into a voltage (0.4-2V). This voltage is converted into a 12-bit data signal in the MCP3201 A/D converter and sent via mikroBUS SPI lines. Together with 4-20mA T Click this board forms a complete 4-to-20mA current loop standard. It is designed to use either a 3.3V or 5V power supply. |
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Fiber Opt click is a compact and easy solution for adding fiber-optic communication to your design. It features IF-D91 fiber-optic photodiode, IF-E97 fiber-optic LED diode as well as two operational amplifiers. Provided plastic optic connectors feature an internal micro-lens and a precision-molded PBT housing to ensure efficient optical coupling with plastic fiber cable. Data rates of up to 512 Kbps can be achieved. The Fiber Opt Click communicates with the target MCU via UART interface or directly through the GPIO pins depending on the position of the J1 and J2 SMD jumpers. UART position is set by default. |
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I2C Isolator click carries ISO1540, a low-power, bidirectional isolator compatible with I2C interfaces. On the board, the Texas Instruments chip is connected to two sets of I2C pins, one on the mikroBUS connector (SDA, SCL), the other on the upper edge of the board (SCL2, SDL2). ISO1540 uses a silicon dioxide barrier that separates the logic input and output buffers. Bidirectional isolators based on TI's Capacitive Isolation technology have many advantages over opto-couplers (performance, size, power consumption etc.). When used together with isolated power supplies, they block high voltages, isolate grounds, and prevent interference from from noise currents. |
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I2C 1-Wire click carries DS2482, a "bridge device" that performs bidirectional conversions between I2C masters and 1-Wire slave devices. These can be EEPROM chips, temperature sensors and similar devices that have momentary high source current modes. I2C 1-Wire click enables any host with I2C to generate properly timed 1-Wire waveforms to its slave devices. The I2C interface (mikroBUSâ„¢ SCL and SDA pins) supports both standard I2C (100kHz max) and fast (400kHz) communication speeds. In addition to the mikroBUS socket, I2C 1-Wire click has an 8-channel pinout (each pin an independently operated 1-Wire I/O). The board is designed to use either a 3.3V or 5V power supply. |
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I2C to SPi Click is an all-in-one solution which allows serving as an interface between a standard I2C-bus of a microcontroller and an SPi bus, which allows the microcontroller to communicate directly with SPi devices through its I2C-bus. It is equipped with the stacking headers, so it can be easily connected. By offering an I2C-bus slave-transmitter or slave-receiver and an SPi master, this Click board™ controls all the SPi bus-specific sequences, protocol, and timing. It also has its own internal oscillator, and it supports the SPi chip select output that may be configured as GPIO when not used.
I2C to SPi Click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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I2C MUX Click is an quad bidirectional translating I2C and SMBus switch with reset function, intended for applications with I2C slave address conflicts (multiple, identical temp sensors). It features a quad bidirectional translating switch controlled via the I2C bus, labeled as TCA9546A from Texas Instruments. Click has three address jumpers, allowing up to eight TCA9546A devices on the same bus. I2C MUX click allows voltage translation between 1.8V, 2.5V, 3.3V, and 5V buses, and also supports hot insertion. The TCA9546A can work on a 0 - 400 kHz clock frequency range and is ideal for communication with numerous devices that share the identical slave address on the same bus.
I2C MUX Click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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1-Wire I2C click carries the DS28E17 1-Wire-to-I2C master bridge from Maxim Integrated. The click runs on a 3.3V power supply.
It communicates with the target microcontroller over 1-Wire® protocol, using the following pins on the mikroBUS™ line: AN, PWM, RST. |
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SPI Isolator click carries the ADuM4154 5kV digital isolator optimized for a serial peripheral interface (SPI). The click is designed to run on either 3.3V or 5V power supply. It communicates with the target microcontroller over SPI interface. |
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Communicate with up to four USB devices with the USB Wizard.
USB Wizard is an evaluation and demonstration platform featuring the USB4604 USB 2.0 4-Port hub controller. The board has four USB 2.0 downstream ports with individual port power control and overcurrent sense (OCS). |
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BroadR-Reach click brings the industry grade communication standard to the mikroBUS™, which is built to be used in an Ethernet-based open network. The click board is equipped with the BCM54811 Transceiver from Broadcom Limited, which is used to provide the hardware PHY layer for the network, and the W3150A+ from WizNet, a hardware LSI protocol stack, that provides an easy and low-cost solution for high-speed Internet connectivity for digital devices by allowing simple installation of TCP/IP stack in the hardware.
BroadR-Reach® point-to-point Ethernet PHY technology was developed by Broadcom Limited. BroadR-Reach® technology is a robust Ethernet physical layer interface, designed for use in noisy environments and harsh conditions, such as in industrial networking applications. This technology allows multiple systems to simultaneously access information over the unshielded single twisted pair cable, reducing connectivity costs and cabling weight. As such, it offers a great alternative to older, rather limited standards used so far, and enables faster data rates to be transferred over the existing cable networks. |
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UART 1-Wire click is used to convert standard UART or RS232 signals into 1-Wire® signals. Apart from other features such as the slew rate control for larger 1-Wire® busses, selectable data rate, an accurate self-calibrating time base, ESD protection and more, the main feature of the UART 1-Wire® click, is that it manages all the sensitive signal timings involved in 1-Wire® communication, allowing rapid development of UART to 1-Wire® applications. It can automatically convert a single character from the UART bus into eight 1-Wire® time slots, thereby increasing the data throughput significantly, while reducing the microcontroller workload.
UART 1-Wire click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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UART I2C/SPI Click is an all-in-one solution which allows ESD-protected RS-232 connectivity to any embedded application while bridging the UART and I2C/SPI interfaces at the same time. It is equipped with the DE-9 connector, so it can be easily connected. By offering true RS-232 interface, auto hardware flow control using CTS an RTS, auto software control by programmable Xon/Xoff characters, Line-Break generation and detection, programmable special character detection, and more, this Click board™ is an ideal solution to be used in a wide range of applications that require RS-232 support.
UART I2C/SPI click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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The UART Mux click is a Click board™ that switches the UART pins (RX and TX) from the mikroBUS™ to one of the four available outputs. It employs the SN74LV4052A, a Dual 4-Channel Multiplexer and Demultiplexer from Texas Instruments. It is designed for 2-V to 5.5-V VCC operation. Some of the typical applications for the SN74LV4052A include signal gating, chopping, modulation or demodulation (modem), and signal multiplexing for analog-to-digital and digital-to-analog conversion systems, which makes it ideal for multiplexing the UART pins from the mikroBUS™ to the multiple outputs.
The UART Mux click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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FT Click is a compact smart transceiver add-on board that helps you add a Free Topology (FT) interface to any host board with the mikroBUS™ socket. Leveraging FT, the most reliable and easiest-to-scale wired communications media, FT Click lets you network sensors and devices to create IoT solutions for automation and control networks that are easier to develop, integrate and install. This Click board™ supports full communication stacks for LON® and BACnet FT, as well as FTMQ (MQTT like messaging format) on board to simplify integration of BACnet, LON or custom IoT networks over twisted pair wire. FT Click is ideal for markets including smart buildings, cities, machines, agriculture, manufacturing, transportation and many more where wireless communications do not provide the required reliability and scale.
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SPI Extend Click is a compact add-on board for applications that require extending the SPI communication bus over a long distance. This board features the LTC4332, an SPI slave extender device, from Analog Devices. Using a ±60V fault protected differential transceiver, the LTC4332 can transmit SPI data, including an interrupt signal, up to 2MHz over two twisted-pair cables. The extended common-mode range and high common-mode rejection on the differential link provide tolerance to large ground differences between nodes. This Click board™ also provides a control interface using a separate slave select for configuration and fault monitoring. All these features make SPI Extend Click an excellent choice for various applications that require extending the SPI bus over a long distance, such as industrial control, sensor installations, lighting and sound system control, and more.
SPI Extend Click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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I2C Extend Click is a compact add-on board for applications that require extending the I2C communication bus over a long distance. This board features the LTC4331 - an I2C slave device extender over a rugged differential link, from Analog Devices. It is a point-to-point SMBus compatible I2C slave device extender, designed for operation in high noise industrial environments while supporting up to 1MHz serial clock, ±40kV ESD protection on link pins, selectable link baud rates and more. All these features make I2C Extend Click an excellent choice for various applications that require extending the I2C bus over a long distance, such as sensor installations, industrial control, lighting system control, sound system control, etc.
I2C Extend Click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.
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EtherCAT Click is a compact add-on board that provides a cost-effective solution for realizing EtherCAT device solutions on various processors over the SPI interface. This board features the LAN9252, a 2-port EtherCAT device controller with dual integrated Ethernet PHYs from Microchip Technology. Each PHY contains a full-duplex 100BASE-TX transceiver and supports 100Mbps operation. The LAN9252 supports HP Auto-MDIX, allowing the use of direct connects or cross-over LAN cables. It communicates with MCU via a synchronous device SPI/SQI interface and can operate in Digital I/O Mode, where signals can be controlled or monitored by the EtherCAT Master. This Click board™ is suitable for industrial control, process/factory automation, hydraulic and pneumatic valve systems, power, and many more.
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