MicroElektronika (mikroE) is a dynamic forward thinking embedded systems development tools company with its headquarters in Belgrade.
MikroElekronika (MikroE) has chosen the Debug Store in the UK as their dedicated distributor of development tools.
The company is unique by producing complete development tool suites; ranging from compilers, debuggers, development platforms and training materials for a wide range of microcontroller families including ARM Cortex, AVR, PIC, PIC32, dsPIC and FT90x architectures. Support is also directly available for a huge range of peripheral devices including displays, video cameras, temperature probes and multi-axis gyroscopes and accelerometers by the provision of low-cost Click Modules. Their objective is to make the transition for the developer to a new architecture as simple and efficient as possible. It achieves this by providing software library support and working examples for all supported interfaces and development systems.
MikroElektronika (mikroE) have been chosen as the development tool company of choice by many major semiconductor manufacturers as they appreciate the use of mikroE tools will speed up development of new projects. They are recognised third-party development partners of companies such as Atmel, Cypress, Microchip, STMicroelectronics, Texas Instruments and official consultants to others including NXP.
Introduce RS232 connectivity to the device using the highly-economic MAX232 Board. It is an interface add-on board designed to connect the built-in MAX232 circuit to a prototype board. An essential for establishing RS232 communication, the MAX232 chip is a dual driver/receiver that includes a capacitive voltage generator to supply TIA/EIA-232-F voltage levels. Each receiver converts TIA/EIA-232-F inputs 1.0-?
Add high-quality, stable yet affordable solution for adding RS232 connectivity to the device with the MAX3232. The MAX3232 Board is small-sized add-on board that acts as an interface between a microcontroller and RS232 devices, such as PC
MCP16331 Click Board
The MCP16331 Click Board functions as a buck-boost voltage regulator, a switching regulator topology that combines principles of the buck conversion (step-down) and the boost conversion (step-up). A buck converter outputs voltage that is smaller than the input voltage (steps down the input voltage). A boost converter outputs voltage that is greater than the input voltage (steps up the input voltage). By combining these two topologies, MCP16331 click is able to output a regulated DC voltage, which can be set in the code, for input voltage both greater and less than the output voltage.
MCP16331 INV Click Board
The MCP16331 INV Click Board works as a buck-boost voltage regulator, a switching regulator topology that combines principles of the buck conversion (step-down) and the boost conversion (step-up). A buck converter outputs voltage that is smaller than the input voltage (steps down the input voltage). A boost converter outputs voltage that is greater than the input voltage (steps up the input voltage). By combining these two topologies, MCP16331 INV click is able to output a regulated DC voltage, which can be set in the code, for input voltage both greater and less than the output voltage.
MCP1664 Click Board
The MCP1664 Click Board contains 4 high-power white LEDs. It carries the MCP1664, a high-voltage step-up LED driver from Microchip.
MCP1664 click is designed to run on either 3.3V or 5V power supply. It communicates with the target board microcontroller over the PWM pin on the MikroBUSline.
MCP2517FD Click Board
The MCP2517FD Click Board is a complete CAN solution which carries the MCP2517FD CAN FD controller and ATA6563 high-speed CAN transceiver from Microchip, as well as a DB9 9-pin connector.
The click requires both 3.3V and 5V power supply. It communicates with the target microcontroller through the SPI interface, with additional functionality provided by the following pins on the MikroBUS socket: AN, PWM, INT, TX and RX.
MCP2542 Click Board
The MCP2542 Click Board is the CAN bus transceiver, which allows TTL/CMOS level signals typically found on MCUs, to be used for the communication via the CAN bus, which uses the higher voltage levels and differential signals. In addition, this Click board protects the sensitive MCU part of the device from excessive voltage spikes and electrostatic discharges (ESD), typically observed in automotive systems, where the CAN communication is extensively used. This Click board uses the MCP2542WFD, a CAN FD transceiver, which offers robust CAN bus interface, with ESD protection up to ?13 kV, permanent dominant detection on TXD and CAN bus, battery short circuit and electrical transients suppression on the CAN bus, thermal protection, and more.
MCP25625 Click Board | CAN Bus Controller
MCP25625 CAN Bus Controller Click Board.
MCP73213 Click Board
The MCP73213 Click Board carries the MCP73213 dual-cell Li-Ion/Li-Polymer battery charge management controller with input overvoltage protection from Microchip. The click is designed to run on either 3.3V or 5V power supply. It communicates with the target microcontroller over SPI.
MCP73871 Click Board
The MCP73871 Click Board is a fully integrated solution for system power delivery and Li-Po/Li-Ion battery charge management. The click features many Li-Po/Li-Ion battery charging optimizations, used to maximize the battery life. Some of the MCP73871 click features include constant current and voltage charging algorithms, over-voltage protection, automatic end of charge control, automatic recharge feature, preconditioning for depleted cells and thermal management.