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.
Haptic Click Board
Bring tactile feedback back to your hardware design with the Haptic click, featuring the DRV2605 IC, a driver for ERM (Eccentric Rotating Mass) and LRA (Linear Resonant Actuator) vibration motors. The DRV2605 module incorporates an extensive library with over 100 licensed haptic effects. These consist of audio-to-vibe feature, where the motor vibrates in tune with the lower frequency range of an audio input. A 3.5mm audio jack is also integrated into the board to use this functionality. The board also has screw terminals for secure connection to the ERM and LRA motors. Haptic click communicates with the target microcontroller using the MikroBUS I2C (SCL, SDA), EN (in place of CS) and PWM pins. It uses a 3.3V or 5V power supply. The extensive range of effects also implies that the resources of the host MCU aren
HDC1000 Click Board
The HDC1000 Click Board from MikroEis another humidity (and temperature) measurement solution that carries the TI
Heart Rate 3 Click Board
The Heart rate 3 Click Board™ is a mikroBUS add-on board whose functionality is determined by two components: an OSRAM’s SFH7050 pulse oximetry and heart rate monitoring module, and a TI AFE4404 (analog-front-end) IC specialized for bio-sensing.
Heart Rate 4 Click Board
The Heart Rate 4 Click Board is based on the Maxim MAX30101 high-sensitivity pulse oximeter and heart-rate sensor. The click is designed to run on either 3.3V or 5V power supply.
It communicates with the target MCU over I2C interface, with additional functionality provided by INT pin on the MikroBUSline.
Heart Rate 5 Click Board
The Heart Rate 5 Click Board is the optical biosensor Click board™ which can be used for the heart-rate monitoring (HRM), as well as the peripheral capillary oxygen saturation monitoring (SpO2). This Click board™ employs a very sensitive analog front-end IC with high dynamic range, which ensures accurate and reliable readings. This analog front-end IC is coupled with the optical front end, which consists of the top-of-the-class integrated BIOFY® sensor, which features two green LEDs, one red LED, one infrared LED, and two photodiodes (PD), offering very accurate HRM and SpO2 readings.
Heart Rate 7 Click Board
The Heart Rate 7 click is an optical biosensor Click board™ which can be used for heart-rate monitoring (HRM). This Click board™ employs a very sensitive analog front-end IC with high dynamic range, which ensures accurate and reliable readings. This analog front-end IC is coupled with the optical front end, which consists of a sensitive photo-diode (PD) and two high brightness green LEDs. The photo-diode is the most sensitive to a visible light spectrum, offering reasonably high current output compared to other, standard type PD elements used so far, thus providing very accurate HRM readings.
Heart Rate Click Board
The Heart Rate Click Board is based on the Maxim MAX30100 integrated pulse oximetry and heart-rate sensor.
It's an optical sensor that derives its readings from emitting two wavelengths of light from two LEDs...
HexiWear is an award-winning rapid prototyping tool for IoT applications. The Hexiwear module interfaces via Bluetooth an any IOS or Android device. It is supplied with a wrist-strap for use as a wearable or can be used alone as part of an IoT control system, such as a home heating controller or part of an industrial controller.
Furthermore, Hexiwear can be connected via the optional Docking Station to over 260 different off-the-shelf Click Boards, adding such functionality as 3G mobile network connectivity, WiFi, gas sensors, touch-screen displays etc. You are just limited by your imagination.
Hexiwear Battery Pack
The Hexiwear Battery Pack will keep your favourite IoT development kit charged. You can add any functionality with the on-board MikroBUS™ socket.
Add sensors, transceivers, speech recognition modules and more. No more cables and worrying if the battery on it will last the day.
Note: The picture may include the Hexiwear and Click Board. Theses are not included with the Hexiwear Battery Pack.