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You can see the details by clicking link in the first column in the table below
|supply voltage||1||6 - 16V|
|hMotor||6||Port for DC motors with encoder interface|
|hSensor||5||Port for Sensors|
|USB host||1 (2*)||USB host port|
|USB device||1||USB device port (FTDI)|
|SD card||1||microSD card connector|
|hDBG||1||Hardware programmer/debugger port|
|hExt||2||Extension port - 9*GPIO, UART, SPI, I2C, ADC, EXTI|
|Wi-Fi||1*||Wi-Fi transmitter available with Intel(R) Edison module|
|Bluetooth 4.0||1*||Bluetooth transmitter available with Intel(R) Edison module|
|LED||4||Power LED + 3 programmable LEDs|
|Buttons||3||ON/OFF button + 2 programmable buttons|
* only with Intel(R) Edison module
Before powering the RoboCORE you should know something about power supply input.
The RoboCORE input voltage (VIN) must be in the range 6 - 16 V. The recommended input voltage range is 7 - 15V. The power connector is a standard DC 5.5/2.1 (centre-positive) type.
The RoboCORE power supply input has overvoltage (>16V), reverse-polarity and overcurrent protection.
You can supply the RoboCORE with:
RoboCORE cannot be supplied from the USB port of your laptop. Why? This is a robotic controller and has motor drivers on its board. Motors cannot be supplied from USB due to the current and voltage requirements. To avoid the risk of damaging the USB port we decided to supply RoboCORE separately. RoboCORE is designed to be programmed wirelessly and USB connection is not the basic way to program or supply the controller.
How much current does it need? This strongly depends on the robot configuration. A RoboCORE without any devices connected needs up to 80mA (180mA with Intel® Edison). When you connect certain motors, current peaks can reach several amperes. The average current should not exceed 4 A, otherwise the overcurrent protection will be triggered and unexpected resets will occur. Remember this when you are designing your robot.
RoboCORE has two internal voltage regulators. The input voltage VIN is converted to 5 V by a switching regulator, and then to 3.3 V by a linear voltage regulator. Be aware of the current limits – the total current must not exceed 2 A through the 5 V line and 800 mA through the 3.3 V line. We will also remind you about power limitations in the description of individual interfaces.