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.
IR Gesture Click Board
The IR Gesture Click Board is a mikroBUS add-on board that enables contactless gesture recognition, along with ambient light and proximity sensing capabilities with the APDS-9960 IC.
IR Grid 2 Click Board
IR Grid 2 click is a thermal imaging sensor. It has an array of 768 very sensitive factory calibrated IR elements (pixels), arranged in 32 rows of 24 pixels. Each one of them is measuring an object temperature up to 300˚C within its local Field of View (FOV). The MLX90640 IR sensor used on this Click board™ has just four pins, and it is mounted inside of the industry standard TO39 package. It is equipped with 2Kbit of EEPROM for storing the compensation and calibration parameters. The MLX90640 IR sensor array IC has I2C compatible digital interface, allowing it to be interfaced with a wide range of different MCUs. The sensor used on this Click board™ offers a summed field of view of 55˚x32˚. The sensor can output up to 64 frames per second (FPS).
IR Grid 3 Click Board
IR Grid 3 click is a thermal imaging sensor. It has an array of 768 very sensitive, factory calibrated IR elements (pixels), arranged in 32 rows of 24 pixels, each measuring an object temperature up to 300˚C within its local Field of View (FOV). The MLX90640-BAA IR sensor used on this Click board™ has only four pins, and it is mounted inside of the industry standard TO39 package. The Click board™ comes as a fully tested and approved prototype, making it a reliable device ready to use on the development board. The full package also includes the mikroSDK™ software and a library with all the functions.
The click board™ is suitable for a wide range of applications, including thermal scanners, precise contactless thermal measurement, thermal leaks in homes, industrial temperature control of moving parts, other types of heated object localization, human presence, and similar applications that require accurate contactless thermal measurement, or thermal imaging.
IR Grid Click Board
IR Grid click is a thermal imaging sensor. It has an array of 64 very sensitive factory calibrated IR elements (pixels), arranged in 4 rows of 16 pixels, each measuring an object temperature up to 300˚C within its local Field of View (FOV). The MLX90621BAD IR sensor used on this Click board™ has only four pins, and it is mounted inside of the industry standard TO39 package. It is equipped with 2Kbit of EEPROM for storing the compensation and calibration parameters. The MLX90621BAD IR sensor array IC has I2C compatible digital interface, allowing it to be interfaced with a wide range of different MCUs. The sensor used on this Click board™ offers 40˚ x 10˚ FOV. The sensor can output up to 512 frames per second (FPS).
IR REFLECT Click Board
The IR Reflect Click Board carries a GP2S700HCP reflective photo-interrupter and an on-board potentiometer. On this type of photo-interrupter the infrared emitter and receiver are facing the same direction.
IR Sense 2 Click Board
The IR Sense 2 Click Board is the infrared sensor Click board, designed to be used for the short range IR sensing applications. Unlike other pyroelectric sensors, it is able to sense environmental heat changes up to 1m, even through the glass. IR Sense 2 click is perfectly suited for human presence detection, so it can be used in many human presence detection applications. A programmable interrupt engine simplifies the software development and saves MCU cycles, that would be otherwise wasted on polling. The ability to sense IR through the glass allows an unconstrained design of the final product.
IR Sense Click Board
The IR Sense Click Board utilises the AK9750 quantum-type IR sensor. The click is designed to run on a 3.3V power supply.
It communicates with the target microcontroller over I2C interface, with additional functionality provided by the INT pin on the MikroBUS line.
IrDA 3 Click Board
The IrDA 3 Click Board is an intelligent IR transceiver device that can both send and receive UART commands via the IR interface. IrDA 3 click features both the IR transceiver and the encoder/decoder IC, used to convert the UART data and send or receive it in IrDA? compatible format. IrDA 3 click also has an onboard clock generator for the fastest possible UART performance of 115,200 bps, so it does not need an additional clock signal to be generated by the MCU.
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.
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.