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.
LED Flash Click Board
The LED Flash Click Board functions as a high power LED photographic flash lamp, and carries the CAT3224 flash LED driver. The click is designed to run on a 5V power supply. It communicates with the target microcontroller over the following pins on the MikroBUSline: AN, RST, PWM, and INT.
LEM Click Board
The LEM Click Board features the LTS 6-NP current transducer and MCP3201 ADC converter.
The click can measure AC and DC current with exceptional speed, up to 200 KHz. LEM click is designed to run on either 3.3V or 5V power supply. It communicates with the target microcontroller over SPI interface, or directly with analog output.
Li-Polymer Battery 3.7V 190mAh
Li-Polymer Battery 3.7V 190mAh - power your device.
Light Click Board
With the Light Click Board, Mikroelektronika introduces a compact and easy solution to add light measurement to your design. Carrying a PD15-22CTR8 PIN photodiode, this measurement add-on board lets the user effectively measure ambient light intensity and provides a signal (analog or digital) to the target board microcontroller.
Moulded in water clear plastic with depictive silk screen markings, PD1522CTR8 is a high photo sensitivity PIN photodiode that is ideal for high speed photo detector, copier, game machine, etc. The click board also includes MAX6106 voltage reference and MCP3201 ADC with SPI communication interface. Light click communicates with the main board MCU through SPI (MISO, SCK, CS) and AN lines. It is designed to use either 3.3V or 5V power supply.
Light ranger 2 Click Board
The LightRanger 2 Click Board is based on the VL53L0X IC from STMicroelectronics, the word's smallest Time-of-Flight ranging and gesture detector sensor. The click is designed to run on either 3.3V or 5V power supply.
LightRanger 2 click communicates with the target microcontroller over I2C interface and the following pins on the MikroBUSline: RST, INT.
LightHz Click Board
The MikroE LightHz Click Board is an easy and compact solution to add light-to-frequency conversion functionality to your project. This add-on board features a TSL230BR programmable light-to-frequency converter, which provides high-resolution conversion of light intensity to frequency without requiring external components. All inputs and the output are TTL compatible, and allows for direct two-way communication with a microcontroller for programming and output interface. The output can be either a pulse train or a square wave (50% duty cycle) with frequency directly proportional to light intensity. It has programmable sensitivity and full-scale output frequency. The device sensitivity is selectable between Power Down, 1x, 10x and 100x. The full-scale output frequency can be scaled by one of four preset values: 1, 2, 10 and 100. The device sensitivity and frequency scaling can be determined by the microcontroller, or selected using available SMD jumpers. It is designed to operate on 3.3V by default, however, the user can select 5V power supply through a voltage-selection SMD jumper.
LightRanger Click Board
The LightRanger Click Board is a proximity sensor carrying ST’s VL6180X IC. This chip is based on ST’s patented FlightSense technology...
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.
LIN HALL Click Board
Introduce a linear Hall sensor to your design with the LIN HALL Click Board. The board includes a Melexis MLX90242 linear Hall sensor IC along with an MCP3201 12-bit ADC. LIN HALL click outputs a signal that is linearly proportional to the flux density of a magnetic field it is exposed to. A north pole magnet field will increase the output, while a south pole field decreases it. Using the MikroBUS SPI lines (CS,
SCK, MISO), LIN HALL click communicates with the target board microcontroller. It uses either a 3.3V or 5V power supply (default is 3.3V).
The linear Hall sensors are used to infer the linear or rotary position of a target object, provided there is a magnet attached, or something to disturb an existing magnetic field. It is an ideal choice to measure strength of different magnets or measure distance of a magnet from the sensor.