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.
GSM/GNSS Click Board
The GSM/GNSS Click Board combines GPS/GLONASS location tracking with GSM module capability for mobile communication. The click features Quectel's MC60 quad-band module.
GSM/GNSS Click runs on either 3.3V or 5V power supply and communicates with the target MCU over UART interface, and the following MikroBUSpins: AN, RST, PWM, INT.
GSM2 Click Board
The GSM 2 Click Board from MikroE is introduced as a new and improved solution for adding GSM/GPRS communication layer to your design. One of the most popular click boards from MikroElektronika, GSM2 click is ideal for wireless mobile connectivity.
GSM3 Click Board
The GSM 3 Click Board from MikroE is the latest offering in the range of click boards with GSM modules. Intended to deepen user
GSR Click Board
The GSR Click Board can be used to measure the electrodermal activity (EDA) of the human body, also known as the galvanic skin response (GSR). EDA is actually the property of the human body that causes continuous variation in the electrical characteristics of the skin. EDA monitoring is usually combined with the monitoring of the heart rate, respiratory rate, and blood pressure, giving a complete insight into some of the parameters of the autonomous nervous systems of the human body.
GYRO Click Board
Introduce motion control to your design with the MikroElektronika
H-Bridge 2 Click Board
The H-Bridge 2 Click Board can be used to drive a motor by utilizing a specific configuration of the output stage MOSFETs, known as the H-bridge. This configuration enables H-Bridge 2 click to drive a motor with up to 1.2A and 15V, providing control of the speed and direction, as well as the dynamic (rheostatic) braking capability. The Click board™ uses a monolithic H-bridge IC, which implements a set of features that provide trouble-free operation of the connected motor, such as the undervoltage detection, shoot-through current protection, efficient output stage MOSFETs with low RDSON, level shifted output for an external MOSFET control and more.
Hall Current 2 Click Board
The Hall current 2 click is a very accurate current measurement Click board™, which relies on the Hall effect. Its most distinctive feature is a very low series resistance of only 1.2mΩ, making this device a nearly-perfect ampere meter. The maximum current which can be measured with the Hall current 2 ranges from -12A to +12A, with optimized precision. The measurement is thermally compensated and conditioned by the integrated sections of the hall sensor IC. The result is available via the I2C interface of the high precision, 12 bit AD converter, as well as in the analog form, from the analog pin of the microBUS™, directly from the Hall effect current sensor IC. This click board does not require any current sensing resistors.
Hall Current Click Board
The Hall Current Click Board is a measurement add-on board intended to measure the current utilizing the Hall Effect. The board features a high-precision galvanically isolated TLI4970-D050T4 magnetic digital current sensor in a tiny footprint. The Hall current click board is equipped with two EXTreme ZPower connectors (IP- and IP+) to connect a conducting wire. Split the conducting wire and connect the ends to the two connectors. The current rail is galvanically isolated from the interface to the microcontroller to keep the surrounding circuitry safe. The sensor detects the strength of the current, then sends the measurement data to the target MCU through MikroBUS SPI (SDO, SCK and CS) lines.
Hall current click is based on contact-free measurement principle, which causes no additional power loss and makes it perfectly suited for high efficiency systems. It is designed to use a 3.3V power supply only. The board is an ideal choice for photovoltaic and general purpose inverters, power supplies (SMPS), battery chargers, lighting applications, and electrical drives.
Hall Switch Click Board
The Hall Switch click is a magnetic field activated dual-relay Click board™. Hall Switch click has two high-quality relays, which are activated by the Hall-effect sensor: when the north pole magnetic field is introduced to the sensor, one of the relays will be activated; when the south pole magnetic field is introduced to the sensor, the other relay will be activated. Two high-quality compact relays allow switching of high voltages - up to 220V, so they can cut or establish a connection on the main side of the circuit.
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