Microchip Technology Inc

Starter Kits

Hand-Build a gorgeous 3 dimensional RGB LED Cube as a lighted desktop piece of animated artwork.
Have you seen a 3 dimensional RBG LED Cube in action? Do you love the look of RGB LEDs and fine hand soldered wires? This kit provides a pre-assembled and programmed main PCB board, 125 RGB LEDs, solid wire and a PIR sensor which can be used to create your own 5x5x5 RGB LED Cube. This makes a great night light, table art or conversation piece for your office or home. Warning -> Your office mates, friends or neighbors will want you to build one once they see this in action.

Create your own Custom Scenes
Unleash your artistic creativity! The LED Cube firmware contains over 12 custom scenes which repeat every ~3 minutes. You can add your own scenes using MPLAB X and MPLAB XC32 and writing your own ANSII C based scenes using the cubeFunc() APIs. These simple APIs enable you to change colors, set/clear pixels, draw lines and letters and even rotate the currently displayed image for animation. The source code for the custom scenes is provided as an example.

Learn how MPLAB Harmony was used to create this LED Cube

MPLAB Harmony USB, UART, Timer, Output Compare and SPI drivers and PILIBs were used to create the firmware controlling the LED Cube. The source code and Master’s presentation show you how the Harmony APIs were used and integrated with the LED Cube display and update code.
The mTouch AR1100 Development Kit provides everything designers need to get started using AR1100 analog resistive touch controllers for a turnkey, cost effective touch solution. The kit includes the production ready AR1100BRD controller board, USB and Serial communication cables, a 5-wire 7” touch screen, and extra touch screen pinout adapter cables to quickly test most any manufacturer’s 4, 5, or 8 wire touch screen. A CD is also included with the full suite of AR1100 utilities and all the documentation for the chip and board options of the AR1100 touch screen controller.

chipKIT Starter Pak

Part Number: TCHIP003

Mature Product
The chipKIT™ Starter Pak contains everything you need to develop applications with the Arduino-compatible chipKIT platform. The Uno32 (TDGL002) includes an 80 MHz PIC32 processor with 128K Flash and 16K RAM. The Basic I/O shield (TDGL005) adds a variety of useful I/O devices such as buttons, switches, OLED graphic display, temp sensor, EEPROM, transistor outputs and more. A prototype shield kit from NKC Electronics is included, along with an innovative key that can be used to separate shields easily.

chipKIT boards work with a Multi-Platform IDE (MPIDE) and software framework that is compatible with most Arduino-based applications.

Curiosity HPC Development Board

Part Number: DM164136

20% Off - Use Coupon Code : CURIOSITY       Expires : 31-Dec-2017
Satisfy Your Curiosity
Your next embedded design idea has a new home. Curiosity is a cost-effective, fully integrated 8-bit development platform targeted at first-time users, Makers, and those seeking a feature-rich rapid prototyping board. Designed from the ground-up to take full advantage of Microchip's MPLAB X development environment, Curiosity includes an integrated programmer/debugger, and requires no additional hardware to get started.

Your Tool for Function Enablement
Curiosity HPC is the perfect platform to harness the power of modern 8-bit PIC® Microcontrollers. Its layout and external connections offer unparalleled access to the Core Independent Peripherals (CIPs) available on many newer 8-bit PIC MCUs. These CIPs enable the user to integrate various system functions onto a single MCU, simplifying the design and keeping system power consumption and BOM cost low.

Internet of Things Ready
Have an IoT design idea? Curiosity can make it real. Out of the box, the development board offers several options for user interface -including physical switches and an on-board potentiometer. A full complement of accessory boards is available via the MikroElectronika Mikrobus™ interface footprints.

Curiosity PIC32MX470 Development Board

Part Number: DM320103

Save 25% - Use Coupon Code : TP1729       Expires : 31-Oct-2017
The Curiosity PIC32 MX470 Development Board features PIC32MX Series (PIC32MX470512H) with a 120MHz CPU, 512KB Flash, 128KB RAM , Full Speed USB and multiple expansion options. It is an excellent development board for Audio, USB and Bluetooth® Applications.

The Curiosity Development Board includes an integrated programmer/debugger, excellent user experience options with Multiple LED’s, RGB LED and a switch. Each board provides two MikroBus® expansion sockets from MicroElektronika , I/O expansion header and a Microchip X32 header to enable customers seeking accelerated application prototype development.

X32 boards compatible with Curiosity Board are :

PIC32 Audio Codec Daughter Card - AK4642EN (AC320100)


The Board also includes the footprint for BM64 Bluetooth Module which is a Fully-certified, embedded 2.4 GHz Bluetooth® version 4.2 module that Supports Bluetooth BDR/EDR/BLE specification.


The Board is fully integrated with Microchip’s MPLAB® X IDE and into PIC32’s powerful software framework, MPLAB ® Harmony that a provides flexible and modular interface to application development, a rich set of inter-operable software stack (TCP-IP, USB) and easy to use features.

The boards and ecosystem have been designed to provide an excellent out of the box experience. Customers would be able to download and run example applications /projects instantly on the boards without the need to install the entire ecosystem. The demos have been developed to showcase PIC32 MCU features and application development ecosystem.

For downloadable projects: : Curiosity (32-Bit) Example Projects

The board offers expansion capabilities making it an excellent choice for a rapid prototyping board in Connectivity, IOT and general purpose applications.

To download the Demo Example Projects, click on Curiosity Demo Examples tab below:

Curiosity PIC32MZEF Development Board

Part Number: DM320104

20% Off - Use Coupon Code : CURIOSITY       Expires : 31-Dec-2017
The Curiosity PIC32 MZ EF Development Board is a fully integrated 32-bit development platform featuring the high performance PIC32MZ EF Series (PIC32MZ2048EFM) that has a 2MB Flash, 512KB RAM, integrated FPU, Crypto accelerator and excellent connectivity options.

The Curiosity Development Board includes an integrated programmer/debugger ,an on board Wi-Fi-N module MRF24WN0MA-I/RM100 and is fully integrated with Microchip’s MPLAB® X IDE.

Each board provides two MikroBus® expansion sockets from MicroElektronika and a Microchip X32 header to enable customers seeking accelerated application prototype development. Boards are fully integrated into PIC32’s powerful software framework, MPLAB ® Harmony that a provides flexible and modular interface to application development , a rich set of inter-operable software stack (TCP-IP,USB) and easy to use features.

X32 Boards compatible with Curiosity Board are :
PIC32 Audio Codec Daughter Card - AK4642EN (AC320100)

The boards and ecosystem have been designed to provide an excellent out of the box experience. Customers would be able to download and run example applications /projects instantly on the boards without the need to install the entire ecosystem. The demos have been developed to showcase PIC32 MCU features and application development ecosystem.

The board offers expansion capabilities making it an excellent choice for a rapid prototyping board in Connectivity, IOT and general purpose applications.

To download the Demo Example Projects, click on Curiosity Demo Examples tab below:
The dsPIC33E USB Starter Kit provides a low cost method for the development and testing of USB OTG, Host and Device applications on the 60 MIPS dsPIC33E DSC family. The board contains an on-board programming/debugger, standard A USB and micro A/B connectors, three user-programmable LEDs, three push button switches and an expansion header compatible with the Multimedia Expansion Board (DM320005) and I/O Expansion Board (DM320002). The starter kit comes preloaded with basic Communication Device Class (CDC) demonstration software.

Programming, Running and Debugging Applications

Use the following procedure for programming/debugging your application programs (the dsPIC33E Start Kit CDC USB Device Demo software available from the link below is mentioned here as an example):

  • Using MPLAB IDE, open the project C:\dsPIC33E PIC24E USB Starter Kit Demo\Firmware\ USB Device - CDC - Basic Demo - dsPIC33E USB Starter Kit.mcp. (This assumes that the demo was installed in the default location) 
  • Connect the starter kit to your PC using the provided USB mini-B to full-sized A cable. Note that the jumper in J5 should not be installed. 
  • Choose “Starter Kit On Board” as the debugger tool in MPLAB IDE by selecting Debugger > Select Tool> Starter Kit On Board. 
  • Choose the debug build configuration by selecting Project > Build Configuration > Debug. 
  • Build the project by selecting Project > Build All. 
  • Download the code into the starter kit by selecting Debugger > Program. 
  • Run the downloaded application software by selecting Debugger > Run. At this time LED2 on the starter kit should turn on. 
  • This demo allows the Starter Kit to appear as a serial (COM) port to the host. The instructions for this demo can be found at C:\dsPIC33E PIC24E USB Starter Kit Demo\Documentation\Getting Started\Getting Started - Running the Device - CDC - Basic Demo. See the Running the Demo section. 

The dsPIC33EV 5V CAN-LIN starter Kit features the dsPIC33EV256GM106 Digital Signal Controller (DSC) for automotive and motor control applications. The Starter Kit contains serial data ports for CAN, LIN and SENT, a self-contained USB programming/debug interface, and an expansion footprint for flexibility in application hardware development. This board allows users to explore three popular automotive and industrial serial data formats (CAN, LIN and SENT). The PICkit On-Board (PKOB) USB programmer and debugger allows simple programming without the need for an additional hardware interface. No other external tools are required to program the device.
The Easy24-33 v6 Development System by MikroElektronika is a general purpose development system for low pin count PIC24 MCUs and dsPIC DSCs. It accepts over 60 microcontrollers in DIP packages from 14 to 28 pins, and has several useful peripherals on-board. Also supports optional ZigBee transceiver (not included). You can prototype many applications quickly with this versatile tool.
The Motor Control Starter Kit with mTouch Sensing is a complete hardware and software tool suite for evaluating Microchip’s ultra-low cost Motor Control Family dsPIC DSCs. It contains a single board with a BLDC motor, capacitive-touch sliders and a built-in debugger.

The PIC24E USB Starter Kit provides a low cost method for the development and testing of USB OTG, Host and Device applications on the 60 MIPS PIC24E MCU family. The board contains an on-board programming/debugger, standard A USB and micro A/B connectors, three user-programmable LEDs, three push button switches and an expansion header compatible with the Multimedia Expansion Board (DM320005) and I/O Expansion Board (DM320002). The starter kit comes preloaded with basic Communication Device Class (CDC) demonstration software.
The PIC24F Starter Kit contains everything needed to begin exploring the high performance and versatility of the PIC24F microcontroller family. This inexpensive kit includes an integrated in-circuit debugger and programmer, USB device and host connectors, tri color LED, capacitive touch pad and an OLED display. Menu driven demonstration software supports data logging, thumb drive, and graphics applications to test the PIC24F MCU.

Getting Started:
  • Connect the USB cable from the PC to the demo board, and interact with the custom demo application.
OR

  • MPLAB Start Kit for the PIC24F demo support is now distributed as part of the Legacy Microchip Application Libraries(v2013-06-15) : Legacy MLA .The link to the Legacy libraries can also be found in the Documents/Software section below. 
  • Once downloaded and installed, demos for this start kit include ‘PIC24F Starter Kit 1’ and nearly all USB related demo projects, please see the USB library release note for details.
    Older software distribution can be found in our archives.
The PIC24F Starter Kit includes integrated hardware debug and programmer circuitry to develop, program and test applications on the board’s PIC24F MCU device --all from the MPLAB graphical development environment. A USB connection to a host computer supplies communications and power to the board --no additional external power supply is needed.

Demos included:
  • Interactive, menu driven display using Parallel Master Port (PMP)
  • Capacitive touch sensing with the Charge Time Measurement Unit (CTMU)
  • Time and data display using the Real Time Clock and Calendar (RTCC)
  • RGB LED Control with three PWMs and Peripheral Pin Select (PPS)
  • USB Flash drive interface with USB embedded host peripheral
  • Real-time data graphing using the ADC and display multi-tasking
  • Real-time data capture using multi-tasking with USB embedded host


The PIC32 MX1/ MX2 Starter kit (DM320013) is a complete solution for exploring the low-cost, high-performance PIC32MX1/MX2 devices. This kit is perfect for development of basic user interfaces with mTouchTM buttons and high quality audio. The board is pre-loaded with demo code for an audio player. Simply download a free copy of MPLAB IDE and the demo code source from the web to jump start your development effort.
Designers of Serial EEPROM applications can enjoy the increased productivity, reduced time to market and rock-solid design that only a well thought out development system can provide. Microchip's MPLAB® Starter Kit for Serial Memory Products includes everything necessary to quickly develop a robust and reliable Serial EEPROM design, and greatly reduces the time required for system integration and hardware/software fine-tuning.

The Multimedia Expansion Board (MEB) provides PIC32 Starter Kit,dsPIC33E USB Starter Kit or PIC24E USB Starter Kit users with an integrated-yet flexible-solution for the development of high-impact user interfaces. The board comes with a 3.2 color TFT touch-screen QVGA display, an onboard FCC-certified W-iFi® module, a 24-bit stereo audio code, a three-axis accelerometer, a joystick and a microSD®®™ memory card slot. Simply connect any DM320001, DM320003-2, DM320004, DM330012 and DM240012 Starter Kit to the MEB and you're ready to develop, program and debug code for the user interface features. Demo software for the MEB can be downloaded using the links below and is also contained within the Microchip Application Library, including software for the joystick, accelerometer, CPLD and more.

Connect
  • Attach any PIC32, dsPIC33E or PIC24E Starter Kit (required)
  • Power via USB through the starter kit, or external 9V supply
View
  • Fast High Color Images
  • Localized Fonts
  • Visual Prompts and buttons
Listen
  • 24-bit Stereo Audio
  • Speex Voice Playback
  • MP3 Music
Interact
  • Touch Screen Buttons
  • 8 position Joystick with Fire button
  • 3 Axis Orientation / Acceleration
Network
  • FCC Certified Wi-Fi™
  • 10/100 Ethernet via PIC32 Ethernet Starter Kit
This is a kit consisting of (5) PIC10F206 SOT-23 devices, (5) pin scramble boards and DIP pins. Once assembled, this will make the SOT-23 look like a standard 8p DIP and can be used directly in standard development tool sockets. Note that the PIC10F 8p DIP pin-out is family specific and differs from the standard 8p DIP pin-out. This kit is NOT intended for production applications and should be used only as a method of early evaluation.
Showcasing PIC24F “GC” Family with High Resolution Analog, LCD, and USB

Visit the eXtreme Low Power design center

The MPLAB Starter Kit for PIC24F Intelligent.Integrated.Analog is a comprehensive development kit featuring the PIC24F “GC” family of 16-bit microcontrollers. This family features advanced integrated analog which reduces BOM cost, lowers noise, and has faster throughput.

The board features an analog header, allowing clean analog signals to be accessed, preserving signal integrity. To complement the header, the board also features on-board sensors such as light sensor, potentiometer, microphone, temperature, and capacitive touch.

The custom LCD display features a 296 dot-matrix array for text display, and 17 special icons. The text display area features scrolling information displays for several of the included demos. Controlling the display are three mTouch™ navigation touch pads.

Additional features include USB Host and Device support, RF expandability, audio output via headphone jack, and on-board debugger/programmer.

PIC24FJ256GA7 Curiosity Development Board

Part Number: DM240016

20% Off - Use Coupon Code : CURIOSITY       Expires : 31-Dec-2017
The PIC24FJ256GA7 Curiosity Development Board is a cost-effective, fully integrated 16-bit development platform targeted at first-time users, makers, and those seeking a feature-rich rapid prototyping board. Designed from the ground-up to take full advantage of Microchip’s MPLAB® X IDE and MPLAB Xpress Cloud-based IDE, the board includes an integrated programmer/debugger and requires no additional hardware, making it a perfect starting point to explore the latest low-cost and eXtreme Low Power (XLP) 16-bit PIC24FJ256GA705 family of Microcontrollers.

The PIC24FJ256GA7 Curiosity Board enables easy and faster adoption of low-cost XLP 16-bit PIC24FJ256GA705 family of microcontrollers. PIC24FJ256GA705 microcontroller featuring up to 256KB of ECC flash and 16KB of RAM, is ideally suited for low power general purpose applications. The layout and external connections of PIC24FJ256GA7 Curiosity board offer unparalleled access to the Core Independent Peripherals (CIPs) such as CLC, MCCP and DMA. These CIPs enable the user to integrate various system functions onto a single MCU, simplifying the design and keeping system power consumption and BOM cost low.

Crafted for Cloud-Based Development
The PIC24FJ256GA7 Curiosity Development Board offers seamless integration with the Microchip software tool chain, including the MPLAB Xpress Cloud-based IDE, XC16 compiler and MPLAB Code Configurator for easy set-up and prototyping.

Internet of Things (IoT) Ready
Have an IoT design in mind? The PIC24FJ256GA7 Curiosity Board can help turn your IoT design idea into reality. The board can enable applications with low power, low pin count and small footprint requirements as in IoT sensor nodes. Out of the box, the board offers several options for user interface—including switches, RGB LED, User LEDs and analog potentiometer. In addition, wireless connectivity can easily be added using 2 mikroBUS™ interfaces and wireless connectivity click boards™. A full complement of accessory boards is available via the MikroElectronika mikroBUS™ interfaces.

Visit our Curiosity Design Center for more information on the Curiosity platform.
The PIC32 Bluetooth Starter Kit is a low-cost Bluetooth development platform featuring the PIC32MX270F256D MCU. This kit features a HCI-based Bluetooth radio, pushbuttons, Cree high-output multi-color LED, standard single-color LEDs, accelerometer, temperature sensor and GPIO for rapid development of Bluetooth Serial Port Profile (SPP), USB and General Purpose applications.

The Starter kit offers an Android App, Demo code and Bluetooth Serial Port Profile stack for free to get you started.
The PIC32 MCU on the Starter kit executes Microchips’ Free Bluetooth SPP stack & Demo Code to perform full-duplex data transmission over the Bluetooth link to showcase:
• Color Mixing of Cree High Output Multi Color LED
• Temperature Display

Daughter cards compatible with PIC32 Bluetooth Starter Kit :
PIC32 Audio Codec Daughter Card - AK4642EN (AC320100)
PIC32 Audio DAC Daughter Board - AK4384VT (AC320032-2)


For more information on the demonstration of the PIC32 Bluetooth Starter Kit please click on the video below
PIC32 Bluetooth Starter Kit Demonstration Video

To get started quickly, download “PIC32 Bluetooth Starter Kit Quick Start Package” from the Documents below.

FOR SOURCE CODE on the Demo and Android Application please see the Software Development Kit (SDK) located in the
<install-dir>/apps/bluetooth/data_temp_sens_rgb folder within your installation
of MPLAB® Harmony, which includes embedded source, Android source, and the Bluetooth
binary library and also the Board Support Package (BSPs).

The Android App is also available on the Google play
PIC32 BTSK Android App on Google play
The PIC32 Ethernet Starter Kit II provides the easiest and lowest-cost method to experience 10/100 Ethernet development with PIC32 microcontrollers. Combined with Microchip’s free TCP/IP software, this kit gets your project running quickly. The PIC32 microcontroller has an available CAN 2 0b peripheral and USB host/device/OTG. This starter kit features a socket that can accommodate various 10/100 Ethernet transceiver (RJ-45) PHY Daughter Boards for prototyping and development.

Ethernet PHY Daughter Boards compatible with PIC32 Ethernet Starter Kit II are listed below
LAN8720A PHY Daughter Board (AC320004-3)
LAN9303 PHY Switch Daughter Board (AC320004-4)

FOR DEMONSTRATION SOFTWARE, PLEASE VISIT MPLAB HARMONY SOFTWARE FRAMEWORK

The PIC32 Starter Kit provides the easiest and lowest cost method to experience the PIC32 microcontroller for the first time. From the over 35 source code examples to the getting started project, users quickly learn Microchip's 32-bit family of microcontrollers and development tools. The kit includes everything needed to write, program, debug, and execute code on a high performance PIC32 microcontroller.

The PIC32 USB starter kit – III provides the user with an easy and cost effective option to experience the USB, mTouch and SPI/I2S functionality of the new PIC32MX3/MX4 microcontrollers. The board comes equipped with everything that is needed including Microchip’s free USB software to develop USB embedded host/device/OTG applications.

The PIC32 USB starter kit - III has the same form factor and expansion connector as the PIC32 starter kits enabling it to connect with other PIC32 expansion boards.

For the latest demonstration software and Board Support Packages, Please Visit http://www.microchip.com/harmony

The PIC32MX1/2/5 Starter Kit provides the user with an easy and cost effective option to experience the USB and CAN functionality of the new PIC32MX1/2/5 family of microcontrollers. The board features a 50MHz/83DMIPS PIC32MX570F512L MCU with 512 KB Flash, 64KB RAM, USB Device/Host/OTG, CAN 2.0B, 48 Channel ADC, Analog Comparators, SPI Ports and UARTs. The starter kit has an onboard high-speed CAN transceiver which serves as an interface between a CAN protocol controller and the physical two wire bus. It also comes equipped with an onboard DB9 connector to interface with the CAN2.0B based applications.

For Demonstration Software and Board Support Packages, Please Visit http://www.microchip.com/harmony
The PIC32MZ Embedded Connectivity with Floating Point Unit (EF) Family Starter
Kit (DM320007 for non-Crypto development or DM320007-C for Crypto
development) provides a low-cost method for the development and testing of USB
and Ethernet-based applications with PIC32MZ EF family devices.

Ethernet PHY Daughter Boards compatible with PIC32MZ EF Starter Kit are listed below
LAN8720A PHY Daughter Board (AC320004-3)
LAN9303 PHY Switch Daughter Board (AC320004-4)

FOR DEMONSTRATION SOFTWARE and Board Support Packages, PLEASE VISIT MPLAB HARMONY SOFTWARE FRAMEWORK

This starter kit can also be used with Multimedia Expansion Board II

PICkit 3 Debug Express

Part Number: DV164131

No Longer Available

The PICkit 3 allows debugging and programming of PIC(R) and dsPIC(R) Flash microcontrollers using the powerful graphical user interface of the MPLAB Integrated Development Environment (IDE), and it does this all at a most affordable price point. This kit includes the 44-pin demo board with a PIC18F45K20 microcontroller and a USB cable.

Microchips FREE MPLAB X IDE software and the FREE Edition of the MPLAB XC C Compiler for a complete code development environment is available via free download on microchip.com


Newer version development tools are available now. Please consider Curiosity Development Board (DM164137) or Explorer 8 Development Board (DM160228) for new designs
The PICkit Serial Analyzer is a low-cost USB-based tool used to direct communication between a PC and an external serial device.

The kit comes complete with hardware (supporting I2C™, SMBus, SPI and USART protocols), an easy-to-use GUI (to configure and display communications) and a target demonstration board for out-of-the-box functionality. For more advanced users a DLL is also included as an API for developing custom software.

The PICkit Serial Analyzer simplifies the chore of managing serial communication with a device under test. The Windows® user interface (provided) configures the hardware and ‘scripts’ communication with the target device. Scripts created within the software GUI are saved to an internal library for future use. Once created, scripts can be conveniently assigned to push buttons or simply executed directly from the library index. All communication data and events are posted to a transaction window in a readable format.

Example custom GUI(s) are provided to demonstrate use of the DLL in each of the supported serial protocols. The examples come as projects for Visual Basic 2005 Express (free download from Microsoft®).

PICkit Serial Analyzer software uses Microsoft® .NET Framework. The installation process will automatically download .NET from the internet if not present.


The Serial Memory Single-Wire Evaluation Kit is an easy-to-use interactive
user tool to demonstrate the best in class features, functionality, and low power
operation of the AT21CS Series Serial EEPROM devices. The Evaluation
kit is for engineers, developers, and decision makers to allow for fast system
prototyping using the Single-Wire protocol. The easy to use utility is
required to setup the Graphical User Interface (GUI) firmware, hardware, and
its functions.
EasyPIC™ 7 is the latest version of this popular development tool from MikroElektronika (MIKROE-798). Now with dual power supplies (3.3V and 5V) it supports over 250 different PIC MCUs. EasyPIC 7 accepts DIP packages from 8 to 40 pins and comes with a PIC18F45K22 installed.
EasyPIC Fusion™ v7  (MIKROE-1285) is a general purpose development board that supports 16-bit and 32-bit MCUs in high pin-count packages. This bundle includes the dsPIC33EP512MU810 MCU with 512K Flash and 52K RAM.
PIC clicker is an amazingly compact starter development kit bringing the innovative mikroBUS™ host socket to your favorite microcontroller. Enhance it further by connecting the Click board of your choice. It comes preprogrammed with a fast USB HID bootloader. Just upload your firmware, and Clicker becomes a working device. This little board features all you need to get started: a PIC18F47J53 microcontroller, a USB connector, two LEDs and push buttons, a reset button, a programmer connector, and headers for interfacing with external electronics.

MikroElektronika is a trusted 3rd Party Tool provider
ADC click is an add-on board in the mikroBUS™ form factor. It includes a 12-bit Analog-to-Digital Converter (ADC) MCP3204 device that features 50k samples/second, 4 input channels, and low-power consumption (500nA typical standby, 2µA max). In addition, this board uses the industry-standard SPI communication interface. It is small in size and features convenient screw terminals for easier connections. By default, the board is set to use 3.3V of power. However, to use it with 5V systems, just place the PWR SEL SMD jumper in the 5V position.

Note: mikroBUS is an expansion board format used on several development boards from MikroElektronika, including TMIK013, TMIK016, TMIK017, TMIK021, TMIK022, and TMIK023.

MikroElektronika is a trusted 3rd Party Tool provider

DIGIPOT Click is an add-on board in the mikroBUS™ form factor. It features a single-channel, digital potentiometer device (MCP4161) with 8-bit resolution (256 wiper steps) and the industry-standard SPI serial interface. The resistance value of the digital potentiometer goes up to 10 kΩ. This board features outstanding AC/DC characteristics and low-power consumption. It can be used in audio equipment, servo-motor control, battery charging and control, LCD contrast control, programmable filters, and more.

Note: mikroBUS is an expansion board format used on several development boards from MikroElektronika, including TMIK013, TMIK016, TMIK017, TMIK021, TMIK022, and TMIK023.

MikroElektronika is a trusted 3rd Party Tool provider
DAC Click is an add-on board in the mikroBUS™ form factor. It includes a 12-bit, Digital-to-Analog Converter device (MCP4921) that features an optional 2x buffered output and SPI interface. The board provides high accuracy and low-noise performance for industrial applications where calibration or compensation of signals such as temperature, pressure, and humidity are required. The board is set to use the 3.3V power supply by default. You may solder the PWR SEL SMD jumper to the 5V position for use with 5V systems.

Note: mikroBUS is an expansion board format used on several development boards from MikroElektronika, including TMIK013, TMIK016, TMIK017, TMIK021, TMIK022, and TMIK023.

MikroElektronika is a trusted 3rd Party Tool provider
GSM Click is an add-on board in the mikroBUS™ form factor. It is a perfect solution for adding a GSM/GPRS communication layer to your device. It features a Telit GL865-QUAD GSM/GPRS module which supports the GSM/GPRS 850/900/1800/1900 MHz Quad-band frequency. The board contains the TXB0106, a 6-bit bidirectional voltage-level translator, as well as a SIM-card socket. GSM Click communicates with the target microcontroller via seven mikroBUS™ lines RX, TX, INT, PWM, CS, RST and AN. The board can use either 3.3V or 5V of power. The LED diode indicates the presence of the power supply.

Note: mikroBUS is an expansion board format used on several development boards from MikroElektronika, including TMIK013, TMIK016, TMIK017, TMIK021, TMIK022, and TMIK023.

MikroElektronika is a trusted 3rd Party Tool provider
GPS Click is an add-on board in the mikroBus™ form factor. Its a compact solution for adding GPS functionality to your device. It features the LEA-6S, high-performance u-blox 6 positioning engine. The board can interface with a microcontroller via UART or I2C, or data can be acquired using the PC application via USB. The board features a connector that is compatible with active and passive antennas. It can operate on 3.3V of power only.

Note: mikroBUS is an expansion board format used on several development boards from MikroElektronika, including TMIK013, TMIK016, TMIK017, TMIK021, TMIK022, and TMIK023.

MikroElektronika is a trusted 3rd Party Tool provider
RELAY Click is an add-on board in the mikroBus™ form factor. The board features two G6D1AASI-5DC power relay modules, screw terminals for connecting external loads up to 5A, 250V AC/30V DC, and on-board transistors to drive the relays.

Note: mikroBUS is an expansion board format used on several development boards from MikroElektronika, including TMIK013, TMIK016, TMIK017, TMIK021, TMIK022, and TMIK023.

MikroElektronika is a trusted 3rd Party Tool provider

The J-Link BASE Debug Probe is a USB powered in-circuit debugger supporting PIC32 devices. Supercharge any IDE with this fast debugger. The included SEGGER Flash download technology achieves a performance so fast, it's very close to the maximum speed possible. The debug experience is further improved with a 1MBytes/s download speed to RAM. These speeds are achieved when working under any of the many IDEs which have integrated support for the SEGGER J-Link family, including the MPLAB X IDE. So don't take our word for it; order one today, and find that J-Link is a great tool for flash programming and debugging in development and production environments. 

  • USB Interface
  • 2-wire JTAG Support
  • 4-wire JTAG Support
  • Up to 1.0 MBytes/sec Download Speed to RAM
  • No ROM Monitor/Debug Executive
  • Download to Flash
  • MPLAB X IDE Support
  • GDB Server
  • SDK Available
  • Unlimited breakpoints in flash memory
  • Supports JTAG chains with multiple devices