Expand development system capabilities by adding an 8K EEPROM memory accessory board to the device. The EEPROM Board comes with an integrated 24C08WP chip, which is a highly reliable, high-performance CMOS technology serial 8K EEPROM in DIP packaging. The 24C08WP EEPROM module works great for low-power, low-voltage applications. This additional board uses serial I2C communication to add 8K of EEPROM memory to the microcontroller. It uses a 2-wire serial interface that includes a bi-directional serial data bus synchronized by the clock. A female IDC10 connector is used to plug the EEPROM Board into a development system. Furthermore, the DIP switch enables the user to set which pins are used for SDA/SCL. The EEPROM Board has a power LED and address selection SMD jumpers.
With such features, this additional board makes an excellent choice for storing initialization and configuration data of the user device.
FRDM K64F Click Shield
An extension for Freescale's FRDM-K64F development platform, the FRDM-K64F click shield allows user to add more than 100 different types of click boards with the Kinetic MK64FN1M0VLL12 microcontroller. Designed to conform to the form factor of FRDM-K64F development system, the FRDM-K64F click shield comes with two mikroBUS host sockets for easy and quick interfacing with click boards. It also has a GND pin for the oscilloscope probe. The package has a single 1x10 header, 1x6 headers, and two 1x8 headers.
It also allows user to add a diverse range of functionality to your design ranging from GSM, GPS, Wi-Fi, ZigBee, Bluetooth, thunder detection, proximity, color sensing and many more.
FRDM KL46Z Click Shield
The FRDM-KL46Z click SHIELD is designed to bring click board connectivity to the popular Freescale
The IrDA Board is an accessory board that comes with MCP2155 IrDA standard protocol stack controller supporting DCE applications. Designed to implement IrDA standard wireless connectivity, this driver/controller is capable of handling PLUS bit encoding/decoding functionality for Data Communication Equipment (DCE) applications in one low pin count device. The MCP2155 driver sits between the UART and infrared optical transceiver. Another module, the TFDU4101 infrared transceiver module, is provided to aid fast infrared data communication. Compliant with the latest IrDA physical layer standard, this diode can send and receive data in the scope of over 1m at a rate of up to 115.3 kbit/s. The DIP switches on-board enable user to configure which pins on the IDC10 interface are used for RX/TX, and to enable or disable RTS, CTS, DTR, and DSR control lines. The clear silkscreen settings specify settings for it to be compatible with various development boards by mikroElektronika.
With such features, IrDA Board makes an ideal choice for wireless infrared communication with PC or other devices, remote controllers for home appliances, etc.
IrDA PROTO Board
Add wireless communication functionality using infrared waves to your device by using the IrDA PROTO Board. This additional board comes equipped with an MCP2155 IrDA driver that is used for implementing IrDA standard wireless connectivity. It also provides IrDA protocol handling PLUS bit encoding/decoding functionality for Data Communication Equipment (DCE) applications. It is placed between the UART and the infrared optical transceiver. The TFDU4101 diode aboard the IrDA PROTO Board is an infrared transceiver module. This module is designed to be compliant with the latest IrDA physical layer standard for fast infrared data communication.
The IrDA PROTO Board is an ideal choice for wireless infrared data communication with personal computers, remote controllers for home appliances, etc.
IrDA To PC Board
Introduce wireless functionality via infrared waves to your device with the IrDA-To-PC Board. The IrDA-To-PC board is a compact add-on board that features a fully-static infrared encoder/decoder MCP2120 placed between a TFDU4101 infrared optical transceiver module and a UART module. This MCP2120 chip converts data received from the transceiver module and send it to the microcontroller for further processing. The board also includes TFDU4101 diode and other electronics required for connecting your PC using IrDA communication easily. The IrDA to PC board is designed to communicate with a microcontroller through a serial communication UART. The board works well with IrDA 2 board and other devices supporting the same protocol. IrDA-To-PC board connects to a PC via a DB9 RS232 serial port. It operates using an external 8-16 AC/DC power supply.
The IrDA-To-PC board is an ideal choice for wireless infrared data communication between your PC and IrDA devices, for example - a handheld remotye control, or anything that uses an IR comunications, like home entertainment systems, etc.
Introduce an easy and compact solution for adding infrared communication functionality to the user design by using the IrDA2 Board. This board comes integrated with MCP2120 infrared encoder/decoder connected with the external crystal as well as TFDU4101 infrared transceiver module. The IR encoder/decoder is placed between the UART and infrared optical transceiver and performs modulation/demodulation in accordance with the IrDA standard. The infrared transceiver is module compliant to the latest IrDA physical layer standard, supporting IrDA speeds up to 115.2 kbit/s. High on performance and low cost, the IrDA2 Board encodes the data received from a standard UART and output as electrical pulses to the IR transceiver. This IR transceiver also receives data which it outputs as electrical pulses that the MCP2120 decodes, and then transmits the data through the MCP2120 UART communication interface. The user can configure pins to be used for RX/TX and set the MODE pin of the MCP2120 using the DIP switches. The IrDA2 Board is designed to use both 3.3V and 5V power supply.
It is an ideal choice for wireless infrared data communication with PC or other devices, remote controllers for home appliances and so on.
Connect a development system to LIN (Local Interconnect Network) using the LIN Board. The board has a MCP201 LIN transceiver with voltage regulator that supports baud rates up to 20 Kbaud. The transceiver facilitates a physical interface between an MCU and a LIN half-duplex bus. The board receives data from the development system via UART communication and converts it so that it can be sent further through the LIN network. The board also provides a half-duplex, bi-directional communication interface between a microcontroller and a serial network bus. It is used to convert CMOS/TTL logic levels to LIN logic level, and vice versa. It is designed to operate a 5V power supply only. This voltage can be used to power a device through another screw terminal. Using a third screw terminal, it connects to the LIN. The LIN features one master and up to 16 slave devices. It has jumpers, which are used to set master/slave mode and normal/alternate slope mode.
The LIN Board is an ideal choice for use in automotive and industrial applications.