Bipolar Stepper Motor Driver Board
The Bipolar Stepper Motor Driver Board comes designed to let the user operate bipolar stepper motors in full-, half-, quarter-and eight-step modes. This additional board comes equipped with a complete microstepping motor driver with an in-built A3967SLB translator. The accessory board also includes a fixed off-time current regulator, which is capable of operating in slow, fast, or mixed current-decay mode. This current-decay control scheme not only increases step accuracy but also results in less power consumption and much reduced audible motor noise.
The Bipolar Stepper Motor Driver Board, which is available as a stand-alone device, can also be connected to the microcontroller. For establishing the connection of the Bipolar Stepper Motor Driver to the microcontroller on the development system, the user needs to use a flat cable with regular IDC female connector. This female connector in turn should be connected to some development system
BlueTooth 2 Stick Board
Introduce wireless capability to your device using the BlueTooth 2 Stick. This add-on board features a fully integrated Bluetooth 2.1 module WT41 with exceptional radio performance. It offers a fantastic 1000 metres range between two WT41 Bluetooth modules and is known to be the world
Now easily communicate with wireless devices by adding Bluetooth capability using the new wireless solution: BlueTooth Stick. Designed to have an operating range of up to 100 metres, this BlueTooth Stick board features a high-performance RN-41 module with UART serial communication interface. The on-board RN-41 Bluetooth transceiver offers a set of amazing features, including high data rates, low power consumption, and frequency range of 2402 to 2480 MHz (i.e. 2.4 GHz). Easy and simple to use, the BlueTooth Stick Board is designed to operate using a 3.3V power supple voltage only. For use with 5V development systems, it is advisable to use voltage translators on communication lines.
BlueTooth Stick board is compatible with Microchip microcontroller families, like PIC16F, PIC18F, PIC24F/H, dsPIC33 and PIC32.
With such features, it acts as a perfect solution for wireless control and communication, which makes it an ideal choice for barcode scanners, measurement and monitoring systems, industrial sensors and controls, medical devices, cable replacement and many more.
The CAN-1 board is an accessory board that allows user to add CAN (Controller Area Network) connectivity to the design. Developed with integrated CAN support, the board features a high-speed MCP2551 CAN transceiver that works as the interface between a CAN protocol controller and the physical bus. It operates at speeds of up to 1 Mb/s and is suitable for 12V and 24V systems. The CAN-1 Board implements ISO-11898 standard physical layer requirements. It allows up to 112 nodes to be connected. The board can be connected into a development system via a female IDC10 connector. The DIP switch facilitates the user to choose which pins are used for RX/TX. The CAN-1 board is designed to operate using a 5V power supply only. When connecting to a 3.3V development system, careful use of voltage translators is advisable.
The CAN-1 board is an ideal option for industrial automation, home automation, automotive and mobile machine industry, and many more.
The CANSPI is an easy to use, compact accessory board that allows user to connect a CAN (Controller Area Network) bus to any microcontroller with Serial Peripheral Interface (SPI). The board employs both an MCP2515 CAN controller and an MCP2551 CAN transceiver. The MCP2515 circuit used as a CAN controller allows for data exchange with microcontrollers using a standard SPI communication interface. On the other hand, the transceiver MCP2551 chip provides necessary signal adjustments and allows the signals to be sent/received at a 1 Mb/s. The CANSPI board allows for transmitting and receiving both standard and extended data and remote frames.
It makes an ideal option for users looking to connect CAN to a microcontroller without integrated CAN support. Applications like, industrial automation, home automation as well as automotive and mobile machine industry are well-suited for CAN-SPI board.
Compact Flash Board
The Compact Flash Board is a compactly designed development board designed to be compatible with CompactFlash cards. It is used to connect a development board to any compact flash memory card using IDC10 connectors provided on flat cables. The CompactFlash Board uses a parallel communication interface to provide fast data transfer between the CF memory card and input/output pins of the microcontroller provided on the development system. This CF board enable user to create an interface to CF cards or PCMCIA cards in CompactFlash form. It provides complete PCMCIA-ATA functionality and compatibility.
Some prominent consumer electronics companies have also produced next-generation CF technology products for consumer market. The onboard LED indicator denotes the power status. It is designed to use a 5V power supply only.
Add 12-bit resolution digital-to-analog conversion to the development system using the DAC Board. Equipped with MCP4921 single-channel 12-bit DAC, this accessory board is intended for use with wide range of development boards and MCU device with 2x5 header. The digital-to-analog converter has an optional 2x buffered output and use serial SPI interface to communicate with the host microcontroller accessory board. The DIP switch enables the user to set which pins are used for MOSI and SCK. DAC Board also features on-board screw terminals to facilitate easy connections. It supports a wide range of power supply from 3.3V to 5V.
Designed for low noise performance and high accuracy, the DAC Board is an ideal choice for consumer and industrial applications where calibration or compensation of signals, such as temperature, pressure, and humidity, are necessary. It also makes an attractive choice for portable and battery-operated applications.
Digital Potentiometer Board
The Digital Potentiometer Board is an additional board that employs a MCP41010 single-channel, 8-bit digital potentiometer with 10k?
Convert an analog voltage signal into the appropriate 12-bit digital number using the EasyADC Board. The board features a MCP3204 12-bit Analog-to-Digital Converter (ADC) that is programmable to provide two pseudo-differential input pairs or four separate input channels. Designed for low-power consumption, EasyADC Board is compatible with all MikroElektronika
The EasyBee accessory board employs an Atmel ATZB-24-A2/B0 ZigBit module with dual-band chip antenna. Offered in a small footprint (13.5mm x 24mm), it comes with an impressive set of features. It offers simple wireless communication between a development system and a device. This 802.15.4 / ZigBee transceiver module, operating at 2.4 GHz, ensures exceptional radio performance and offers standard-based wireless connectivity for a wide range of applications. The EasyBee Board comes with a female IDC10 connector to plug it into a development system. It uses the serial UART interface for communication with the host microcontroller. The DIP switch enables the user to set which pins are used for RX/TX. On the side of the board, it has six connection pads that allow for direct access to UART pins RX, TX, RTS, and CTS. Capable of being used with a range of development systems, it is designed to operate using 3.3V or 5V power supply voltage.
The EasyBee Board is an ideal choice for building automation and monitoring, HVAC monitoring and control, inventory management, environmental monitoring, security, and many more.
Introduce wireless communication functionality for short distances while keeping the power consumption low using the EasyBee3 Board. The board features an IEEE 802.15.4-compliant radio transceiver module MRF24J40MA that operates in the 2.4 GHz frequency band. It also comes with an integrated PCB antenna, crystal, internal voltage regulator, and matching circuitry. EasyBee3 Board communicates with the host microcontroller through a SPI interface. The DIP switches SW1 and SW2 on the additional board can be used for SPI communication. It is compatible with the Microchip