BIGAVR6 is a development system that supports a wide range of 64- and 100-pin AVR MCUs.
Very fast, on-board USB 2.0 programmer with a simplified driver installation.
MMC/SD cards enable you to add mass storage support to your prototype device.
On-board High-Speed CANTransceiver MCP2551.
BIGAVR6 features an on-boardTouch Screen controller with a Touch Panel connector.
Double RS-232 communication with a PC or a microcontroller is performed via DB9 connectors.
System can be configured by means of DIPswitches. Each DIP switch configures one part of the system.
Digital thermometerDS1820 measures temperature from -55°C to 125°C. It is connected to the system via socket.
Potentiometer is used for testing multiple A/D conversions. Inputs can be configured via jumpers.
USB or external power supply source is selected by moving a jumper.Power supply switchturns the system on/off.
Serial EEPROM 24AA01 can store up to 1Kbit of data and uses I2C communication.
All pins are connected to the IDC10 connectors for further expansion.
86 LEDs (Light Emitting Diodes) are used to indicate the logic state of all MCU pins.
86 push buttons are used to excite microcontroller digital inputs. These buttons are connected to all microcontroller pins.
DIP switch is used to separate port pins from pull-up or pull down resistors.
LCD can be connected to the board via the on-board connector that is also connected to MCU pins.
LCD Contrast Potentiometer is used for adjusting LCD Contrast.
Touch Screen can be connected to the board via the Touch screen connector. There is also a Touch Screen controller.
External power supplycan be DC or AC. On-board jumper is used for selecting external power supply.
USB connector with LED indication for microcontrollers with USB facilities.
Graphic LCD 128x64 can be easily connected to the board via the on-board connector that is linked to MCU pins.
All pins are marked on the back of the board. These marks provide basic information on the pins.
Voltage level to be applied when a button is pressed (GND or +5V) is selected via the on-board jumper.
CAN module is used for communication with other microcontrollers.
Reset circuit is used to reset the microcontroller. It is connected to theMCLR pin of the microcontroller.
GLCD Contrast Potentiometer is used for adjusting GLCD Contrast.
Real-Time Clock (RTC) DS1307 with a battery supply is used to keep track of the current time.
On-board connectors are used for programming with External programmer.
JTAG port supports in-circuit debugging and firmware programming.
MMC\SD card slotenables you to use MMC\SD memory cards easily.
Voltage reference used for A/D converter can be VCC (5V) or 4.096 V.
On-board LCD and GLCD holders ensure proper display placement.
On-board USB 2.0 programmer AVRprog2 doesn't use bootloader or any similar software for programming. The whole AVR memory and all pins are available to you. This is a fast USB AVR InSystem programmer ideal for your future projects. Our latest AVRprog2 Programmer is driven and powered by a single USB port on a PC. No additional AC power adapter is needed. The programmer is recognized by Windows, which simplifies the driver installation. The programmer board is specifically designed for In-Circuit Serial Programming (ICSP). The External Programmer and JTAG can be connected and used with the BIGAVR6 development system.
Drivers for the on-board programmer are Microsoft® Windows® XP, Windows® Vista and Windows® 7 certified. The Windows certificate is a proof that the programmer supports mentioned Windows operating systems and is immediately recognized by the system, which guarantees correct Plug and Play functionality. Driver certification provides users with a wide range of benefits such as stable functioning, the ability to install and delete drivers without rebooting and compatibility with future versions of Windows.
The BIGAVR6 development system supports a wide range of AVR MCUs. Newly released AVR microcontrollers will be supported by a new version of AVRFlash software that is updated regularly. Here is a list of microcontrollers supported by the BIGAVR6 development system:
AVR MICROCONTROLLER FAMILY | ||||||||
---|---|---|---|---|---|---|---|---|
AT90CAN128 | AT90CAN32 | AT90CAN64 | AT90USB1286 | AT90USB1287 | ||||
AT90USB646 | AT90USB647 | ATmega103 | ATmega128 | ATmega1280 | ||||
ATmega1281 | ATmega2560 | ATmega2561 | ATmega325 | ATmega3250 | ||||
ATmega3250P | ATmega325P | ATmega329 | ATmega3290 | ATmega3290P | ||||
ATmega329P | ATmega32U6 | ATmega64 | ATmega640 | ATmega645 | ||||
ATmega6450 | ATmega649 | ATmega6490 |
Examples provided with this development system will show you how to connect AVR microcontrollers with other peripheral components and how to develop your prototype device easily. Each example contains a detailed description of the relevant program including comments. All these examples can be downloaded from this page as well.
The BIGAVR6 development tool is packed in the protective box along with the relevant documentation and product CD. This box is very resistant to all kinds of damages and shocks. Note: Touch Screen, Pencil, DS1820, LCD, GLCD, MMC/SD card and Serial Cable are not included in the price. The package contains:
Accessory Boards were designed to allow students or engineers to easily exercise and explore the capabilities of the various microcontrollers with peripheral devices such as: ADC, DAC, CAN, Ethernet, IrDA, MP3, RS485 and many more. Click on the image below to find accessory boards that suits your needs. Note: Accessory Boards are sold separately.