MikroElektronika team has posted a tutorial project on constructing a voice controlled light project using their SpeakUP module, which is a speech recognition hardware board that can be configured to recognize over 200 different voice commands and have an on-board MCU to execute the commands instantly.
Let’s make – Voice Controlled Lights from mikroElektronika on Vimeo.
MikroElektronika, a Belgrade, Serbia-based company is well-known for producing quality software and hardware development tools for a wide range of microcontroller families, including PIC, AVR, and ARM processors. Their mikroC Pro for PIC has always been my favorite PIC compiler, and has been extensively used in my PIC tutorials and projects published on this website, for its ease of use and rich set of built-in library routines. Today, I am reviewing MikroElektronika’s EasyPIC v7, which is the latest PIC development board in their line of EasyPIC series. I would like to thank to Newark USA for providing the EasyPIC v7 board for completing this review.
EasyPIC v7 development board
MikroElektronika has just released EasyPIC v7, a latest edition to its successful EasyPIC series development boards for PIC microcontrollers.
” This is a very special day for us. We are excited and honored to present you with the new version of our famous brand – EasyPIC v7 is here!
We’ve asked ourselves what can we do to improve such an amazing board as EasyPIC6, and even if it seemed like a tough assignment, we have done some outstanding interventions in design and functionality, and made a new board no one can stay indifferent to.
For the first time in EasyPIC’s almost 10-year history, we’ve grouped PORT headers, LEDs and Buttons in an Input-Output groups, thus making them easier to use than ever before. We’ve equipped the boards with tri-state DIP switches, so placing pull-up or pull-down jumpers to desired pins is now just a matter of pushing the switch.”
“Ready for PIC“ is one of MikroElektronika‘s compact prototyping boards for 28 and 40 pin PIC microcontrollers. The board comes with PIC16F887 microcontroller which is preprogrammed with an UART bootloader firmware and thus eliminates the need of an external programmer. The on-board USB-UART module allows the serial data transfer between the PIC and a PC using an USB cable. It has also got a reasonable size prototyping area to add more functionalities to the board as required. These features make this board an ideal candidate for doing embedded projects that require PC interfacing. This article first reviews the basic features of the Ready for PIC board and then demonstrates how to write a PC application in Processing (an open source programming language) to communicate with the board through the on-board USB-UART module.
Ready for PIC board and PC interfacing using Processing
UNI-DS6 is an universal development board from mikroElektronika for experimenting with a wide range of microcontrollers including PIC, AVR, dsPIC, ARM, and 8051. I am going to use this board to educate myself about Microchip’s dsPIC Digital Signal Controllers (DSCs). The dsPIC DSCs are 16-bit high performance microcontrollers and more powerful than regular PIC devices. They are special because they combine the best features of microcontrollers with the computational capabilities of a Digital Signal Processor (DSP), and they are capable of doing complex mathematical operations involving Fourier transforms. I am going to describe briefly about the features of UNI-DS6 board first, and then will write the “Hello World” application to test the board with dsPIC30F6014A DSC.
UNI-DS6 Development Board from mikroElektronika