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Interface Add-ons
Communications (Wired)
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A CAN transceiver board based on the MCP2551 for use with PIC
microcontrollers having on-chip CAN controller.
Use with MikroElektronika Easy-PIC5 development board or PIC-Ready
prototyping board.
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A CAN controller/transceiver board based on
the MCP2515 and MCP2551 that interfaces to microcontrollers by SPI.
Use with MikroElektronika EasyPIC5 development board or PIC-Ready
prototyping board.
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An Ethernet controller board based on the
ENC28J60 that interfaces
to microcontrollers by SPI.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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Connect your Ethernet-enabled prototype to Ethernet with
10/100-BaseT transformer and RJ45 connector.
Use with your own prototype circuit or solderless breadboard.
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Add Ethernet communications capabilities
to your prototype with this ENC28J60-based board.
Use with your own prototype circuit or solderless breadboard.
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Connect your prototype circuit to an ICD2
compatible programmer/debugger with this handy board.
Use with your own prototype circuit or solderless breadboard.
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A LIN transceiver board that connects to a
microcontroller's USART to give LIN connectivity.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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Connect your prototype to RS-232 with
MAX232N and 9-way female D-connector.
Use with your own prototype circuit or solderless breadboard.
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Connect your prototype to keyboard or mouse with PS/2
connector.
Use with your own prototype circuit or solderless breadboard.
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Easily connect your microcontroller-based
prototype to Ethernet via UART's TX and RX lines.
Use with your own prototype circuit or solderless breadboard.
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An RS-485 transceiver board that connects to
a microcontroller's USART to give RS-485 interface.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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Connect your USB-enabled prototype to USB
with this USB connector board.
Use with your own prototype circuit or solderless breadboard.
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Data Acquisition and Control
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A 4-channel 12-bit A/D board that interfaces to microcontrollers by SPI.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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Add four channels of 12-bit A/D to your
prototype circuit using SPI interface.
Use with your own prototype circuit or solderless breadboard.
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Control a bipolar stepper motor from your
development board with this driver board.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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A 12-bit D/A board that interfaces to microcontrollers by SPI.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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A 10kΩ digital potentiometer board that
interfaces to micro-controllers by SPI.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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A 4-channel 12-bit A/D board that interfaces to microcontrollers by SPI.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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Buffer analogue signals connected to your development board inputs using
unity gain operational amplifiers.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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Buffer analogue signals connected to your
prototype circuit using unity gain operational amplifiers.
Use with your own prototype circuit or solderless breadboard.
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Control high-power loads from your
development board with a ULN2804 Darlington array.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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Test and simulate analogue inputs with
ease using this eight potentiometer board.
Use with any MikroElektronika PIC,
dsPIC, AVR or 8051 development or
prototyping board.
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Add a digital to analogue converter to
your development project with this low-cost board based on an
R/2R network.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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Control two DC motors (4.8V to 30V DC, up
to 600mA) with this H-Bridge based driver board.
Use with Inex
microcontroller experiment boards or
with other development boards and your own circuits.
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Data Storage and Timekeeping
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Easily connect your develop-ment board to
Compact Flash data storage cards.
Use with any MikroElektronika PIC development board or PIC-Ready
prototyping board.
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An EEPROM memory board that interfaces to
microcontrollers by I2C.
Use with any MikroElektronika
PIC development board or PIC-Ready
prototyping board.
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Easily connect your develop-ment board to MMC/SD data storage cards.
Use with any MikroElektronika
PIC development board or PIC-Ready
prototyping board.
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Use MMC/SD data cards with your prototype
circuits.
Use with your own prototype circuit or solderless breadboard.
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Easily connect your
prototype to MMC/SD cards via UART's TX and RX lines.
Use with your own prototype circuit or solderless breadboard.
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A real-time clock board based on the
PCF8583 that interfaces to microcontrollers by I2C.
Use with any MikroElektronika
PIC development board or PIC-Ready
prototyping board.
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A real-time clock board based on the
DS1307 that interfaces to microcontrollers by I2C.
Use with any MikroElektronika PIC development board or PIC-Ready
prototyping board.
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Add a PCF8583-based real-time clock to your prototype
circuit with the RTC Proto.
Use with your own prototype circuit or solderless breadboard.
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Add a DS1307-based real-time clock to your prototype
circuit with the RTC2 Proto.
Use with your own prototype circuit or solderless breadboard.
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Display and User Input
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A blue backlit two line by 16 character LCD.
Use with any MikroElektronika development
or prototyping board.
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A blue backlit four line by 20 character
LCD.
Use with any MikroElektronika development
or prototyping board. See LCD adapters below.
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A blue backlit four line by 20 character
LCD with extra large characters.
Use with any MikroElektronika development
or prototyping board. See LCD adapters below.
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A blue backlit 128x64 dot graphic LCD.
Use with any MikroElektronika development
or prototyping board.
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A blue backlit 240x64 dot graphic LCD
based on Toshiba T6963C controller.
Use with any MikroElektronika development
or prototyping board. See 240x64 GLCD adapters below.
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A blue backlit 240x128 dot graphic LCD
based on Toshiba T6963C controller.
Use with any MikroElektronika development
or prototyping board.
See 240x128 GLCD adapters below.
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Parallel adapter for connecting LCD to
development board.
Use with any MikroElektronika development
or prototyping board.
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Parallel to serial (SPI) adapter for
connecting LCD to development board.
Use with any MikroElektronika development
or prototyping board.
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Parallel adapter for connecting 128x64
GLCD to development board.
Use with any MikroElektronika development
or prototyping board.
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Parallel to serial (SPI) adapter for
connecting 128x64 GLCD to development board.
Use with any MikroElektronika development
or prototyping board.
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Parallel adapter for connecting 240x64 GLCD to development board.
Use with any MikroElektronika development
or prototyping board.
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Parallel to serial (SPI) adapter for
connecting 240x64 GLCD to development board.
Use with any MikroElektronika development
or prototyping board.
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Parallel adapter for connecting 240x128
GLCD to development board.
Use with any MikroElektronika development
or prototyping board.
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Parallel to serial (SPI) adapter for
connecting 240x128 GLCD to development board.
Use with any MikroElektronika development
or prototyping board.
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A four-digit 7-segment display board with
SPI interface.
Use with any MikroElektronika PIC development board or PIC-Ready
prototyping board.
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An eight-digit 7-segment display board
with SPI interface.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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An eight-digit 7-segment display board
with SPI interface.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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An easy-to-use 240x128 graphic LCD with
touch-screen and RGB backlight. Interfaces by RS-232 or SPI.
Use with any development board or your own
prototype circuit.
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Connect a touch-screen to your prototype circuit easily with this handy board.
Use with your own prototype circuit or solderless breadboard.
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A touch-screen controller for use with
resistive type touch-screen overlay.
Use with any MikroElektronika PIC development board or PIC-Ready
prototyping board.
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A touch-screen controller for interfacing
resistive type touch-screen overlay to your own prototype circuits.
Use with your own prototype circuit or solderless breadboard.
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A self-adhesive resistive touch-screen
overlay for fitting to 128x64 graphic LCD.
Use with most
MikroElektronika development boards or with Touch-Screen
Controller boards.
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Provides eight latching on/off switches.
Configurable as active high or active-low.
Use with any MikroElektronika development
or prototyping board.
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A 16-button keypad arranged in a 4x4
matrix.
Use with any MikroElektronika development
or prototyping board.
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A bi-coloured LED that lights green for
logic '1' and red for logic '0'.
Use with Inex microcontroller experiment
boards and robot kits.
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A low-cost add-on board featuring a large
8mm red LED.
Use with Inex microcontroller experiment
boards and robot kits.
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A low-cost add-on board featuring a large
8mm yellow LED.
Use with Inex microcontroller experiment
boards and robot kits.
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A low-cost add-on board featuring a large
8mm green LED.
Use with Inex microcontroller experiment
boards and robot kits.
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A low-cost add-on board featuring a large
8mm blue LED.
Use with Inex microcontroller experiment
boards and robot kits.
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A low-cost add-on board featuring a large
8mm white LED.
Use with Inex microcontroller experiment
boards and robot kits.
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A low-cost pushbutton switch/touch sensor add-on board.
Use with Inex microcontroller experiment
boards and robot kits.
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Interfacing and Connectivity
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Provides 5mm screw terminals for an 8-bit
I/O port along with Vcc and ground.
Use with any MikroElektronika development
or prototyping board.
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Provides 2.54mm screw terminals for an
8-bit I/O port along with Vcc and ground.
Use with any MikroElektronika development
or prototyping board.
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A handy low-cost prototyping board that
plugs onto the five I/O expansion connectors of the EasyPIC5.
Use with MikroElektronika's
EasyPIC5 development board.
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Easily connect your develop-ment board to
solderless breadboard.
Use with any MikroElektronika development
or prototyping board.
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Allows test equipment and add-on board to
be connected to I/O port simultaneously.
Use with any MikroElektronika development
or prototyping board.
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A 10-way ribbon cable fitted with IDC
connectors at each end for easy expansion.
Use with any MikroElektronika development
or prototyping board.
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Connects to microcontroller using SPI to
provide 16 additional digital I/O lines.
Use with any MikroElektronika PIC, dsPIC, AVR or 8051 development
or prototyping board.
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Connect to your prototype circuit easily and
quickly using eight high quality
screw-terminal connectors.
Use with your own prototype circuit or solderless breadboard.
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Connect to your prototype circuit easily and
quickly using two high quality
screw-terminal connectors.
Use with your own prototype circuit or solderless breadboard.
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Reconfigure the I/O lines of an 8-bit port
using jumpers.
Use with any MikroElektronika development
or prototyping board.
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Reconfigure the I/O lines of an 8-bit port
using jumpers. A further jumper allows for selection of input
voltage source.
Use with any MikroElektronika development
or prototyping board.
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Reconfigure the I/O lines of two 8-bit
ports using jumpers. A further jumper allows for selection of
input voltage source.
Use with any MikroElektronika development
or prototyping board.
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Reconfigure the I/O lines of two 8-bit
ports using jumpers. A configurable LCD/GLCD header is also
provided.
Use with any MikroElektronika development
or prototyping board.
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A handy solder pad prototyping board for
implementing your own add-on circuits.
Use with any MikroElektronika development
or prototyping board.
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Power Supply and Conversion
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Produces a regulated 3.3V output from an
input voltage of 5V.
Use with your own prototype circuit or solderless breadboard.
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Produces both 5V and 3.3V regulated outputs from an AC
or DC input voltage between 8 and 16V.
Use with your own prototype circuit or solderless breadboard.
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Allows 5V I/O devices to be connected to a
3.3V development board.
Use with MikroElektronika
LV18FJ and LV24-33A 3.3V development boards.
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Allows 3.3V I/O devices to be connected to
a 5V development board.
Use with any MikroElektronika
5V development
or prototyping board.
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Sensors
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A temperature sensor with a digital output
using 1-wire bus.
Fits to most
MikroElektronika development boards.
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Outputs a pulse train or square wave with
frequency directly proportional to light intensity.
Use with any MikroElektronika PIC development board or PIC-Ready
prototyping board.
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Outputs a pulse train or square wave with
frequency directly proportional to light intensity.
Use with any MikroElektronika PIC development board or PIC-Ready
prototyping board.
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Detects changes in infrared radiation as
occurs when a person enters its range.
Use with any development or prototyping
board or your own circuit.
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A three-axis accelerometer board based on the
ADXL330.
Use with any development or prototyping
board or your own circuit.
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An infrared distance sensor with range of
between 4 and 30cm.
Use with Inex
microcontroller experiment boards and robot kits.
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An infrared distance sensor with range of
between 10 and 80cm.
Use with Inex
microcontroller experiment boards and robot kits.
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A touch/bump sensor that can also be used
as a pushbutton switch.
Use with Inex
microcontroller experiment boards and robot kits.
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A low-cost light sensor add-on board.
Use with Inex
microcontroller experiment boards and robot kits.
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An infrared reflector based on the
TCRT5000L.
Use with Inex
microcontroller experiment boards and robot kits.
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An infrared reflector based on the
QRD1114.
Use with Inex
microcontroller experiment boards and robot kits.
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A sensor module that outputs a variable
voltage depending on an object's colour.
Use with Inex
microcontroller experiment boards and robot kits.
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An LDR-based light sensor board.
Use with Inex
microcontroller experiment boards and robot kits.
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Detect magnetic fields with this low-cost
add-on board.
Use with Inex
microcontroller experiment boards and robot kits.
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A low-cost metal detector add-on board.
Use with Inex
microcontroller experiment boards and robot kits.
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Detect infrared and candle light with this
photo transistor add-on board.
Use with Inex
microcontroller experiment boards and robot kits.
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Use as a potentiometer control or to make
angular measurements.
Use with Inex
microcontroller experiment boards and robot kits.
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Use as a potentiometer control or to make
angular measurements.
Use with Inex
microcontroller experiment boards and robot kits.
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Measure resistances with this add-on
board.
Use with Inex
microcontroller experiment boards and robot kits.
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Use as a variable resistor control or to
make distance measurements.
Use with Inex
microcontroller experiment boards and robot kits.
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Detect sound levels with this low-cost
add-on board.
Use with Inex
microcontroller experiment boards and robot kits.
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Measure temperature with this low-cost
add-on board.
Use with Inex
microcontroller experiment boards and robot kits.
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An advanced temperature sensor module
supplied with waterproof probe.
Use with Inex
microcontroller experiment boards and robot kits.
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A low-cost tilt sensor add-on board.
Use with Inex
microcontroller experiment boards and robot kits.
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Sound and Audio
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An audio amplifier board for use with your
prototype circuits. Based on the LM386.
Use with your own prototype circuit or solderless breadboard.
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Add MP3 to your prototype circuit. Based
on VLSI Solution's VS100k MPEG layer 3 audio decoder.
Use with your own prototype circuit or solderless breadboard.
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A microphone board with LM386-based audio
amplifier for use with your prototype circuits.
Use with your own prototype circuit or solderless breadboard.
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Add MP3 capabilities to your development
board. Also features MMC/SD card slot.
Use with any MikroElektronika PIC development board or PIC-Ready
prototyping board.
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A low-cost piezo sounder add-on board.
Use with Inex
microcontroller experiment boards and robot kits.
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Wireless Communications
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Connect your own circuit or prototype to wireless network using
Bluetooth 2.0 compliant module.
Use with any development or prototyping
board or your own circuit.
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Connect your development board to wireless network using
Bluetooth 2.0 compliant module.
Use with any MikroElektronika PIC, dsPIC, AVR, 8051
or ARM development
or prototyping board.
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Connect your prototype to GSM/GPRS network using
Siemens MC55 module.
Use with any development or prototyping
board or your own circuit.
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Connect your development board to wireless
network using ZigBit module with dual chip antenna.
Use with any MikroElektronika PIC, dsPIC, AVR
or 8051 development or prototyping board.
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Send data from your development board wirelessly to a PC by infrared.
Use with any MikroElektronika PIC, dsPIC, AVR
or 8051 development or prototyping board.
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Facilitates wireless RS-232 communications
by infrared between two development boards.
Use with any MikroElektronika PIC, dsPIC, AVR
or 8051 development or prototyping board.
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Send data from your prototype circuit
wirelessly to a PC by infrared.
Use with your own prototype circuit or solderless breadboard.
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Add RFid to your development board. For use with 125kHz transponders.
Use with any MikroElektronika PIC development board or PIC-Ready
prototyping board.
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Learn about and develop GPS
applications with this LEA-5S GPS/GALILEO module based
add-on board.
Use with any MikroElektronika PIC, dsPIC, AVR
or 8051 development or prototyping board.
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Learn about and develop GSM/ GPRS
applications with a number of popular GSM/GPRS modules.
Use with MikroElektronika Easy-PIC5 development board.
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Connect your prototype to wireless network
using ZigBit module with dual chip antenna.
Use with your own prototype circuit or solderless breadboard.
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An infrared remote control for use with
the ZX-IRM 38kHz infrared receiver module.
Use with Inex
microcontroller experiment boards and robot kits.
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An infrared LED that can be used in
conjunction with the ZX-IRM 38kHz infrared receiver module.
Use with Inex
microcontroller experiment boards and robot kits.
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An infrared receiver that can be used with
the ER-4 remote control or ZX-IrLED infrared LED board.
Use with Inex
microcontroller experiment boards and robot kits.
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Easily add Bluetooth capabilities to your
project by simply connecting to a UART's RX and TX lines.
Use with Inex
microcontroller experiment boards and robot kits, or with other
development boards and your own circuits.
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- High-quality products at great prices, all backed by one-year
warranty.
- Most products held in stock for same-day
dispatch.
- Secure online ordering or order by phone on 0845 226 9451.
- Fast insured UK delivery.
- Worldwide delivery by insured airmail post or DHL.
- 14-day money-back guarantee:
if any product fails to meet your expectations then return it
for a full refund.
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Paltronix Limited, Unit 405 Solent Business Centre,
Millbrook Road West, Southampton, SO15 0HW, United Kingdom
Tel: +44 (0)845 226 9451 | Fax: +44 (0)845 226 9452 | Email: sales@paltronix.com | Web: www.paltronix.com
Copyright © 2009 Paltronix Limited
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