Peripherals
Peripherals: Sensors Subsystem
32-bit DSP core @ 32 MHz, Supporting ARCv2 ISA and floating point unit, 8 KB instruction cache, 2-way associative, 8 KB DCCM
Peripherals: Pattern-Matching Accelerator
Hardware pattern recognition IP, 128 neurons with 128 components per neuron
Peripherals: Bosch BMI160 Inertial Measurement Unit
The BMI160 is a small, low-power, low-noise 16 bit Inertial Measurement Unit designed for use in mobile applications such as augmented reality or indoor navigation which require highly accurate, real-time sensor data.
Peripherals: Nordic nRF51822
Bluetooth Smart and 2.4GHz
The nRF51822 is a powerful, highly flexible multiprotocol SoC ideally suited for Bluetooth® Smart (previously called Bluetooth low energy) and 2.4GHz ultra low-power wireless applications. The nRF51822 is built around a 32-bit ARM® Cortex™ M0 CPU with 256kB/128kB flash + 32kB/16kB RAM for improved application performance. The embedded 2.4GHz transceiver supports both Bluetooth Smart and the Nordic Gazell 2.4 GHz protocol stack which is on air compatible with the nRF24L series products from Nordic Semiconductor.
USB Power Input
FPF2496
IntelliMAX™ 28 V, Over-Voltage, Over-Current Protection. Load Switch with Adjustable Current-Limit Control.
Barrel Power Input
Texas Instruments TPS62153RGT
3-17V 1A Step-Down Converter in 3x3 QFN Package The TPS6215X family is an easy to use synchronous step down DC-DC converter optimized for applications with high power density.
LM1117DTX-3.3 800-mA Low-Dropout Linear Regulator
LDO Voltage Regulators 800MA LDO LINEAR REG The LM1117 is a low dropout voltage regulator with a dropout of 1.2 V at 800 mA of load current.
Power Input Select
R3119N050A 36V Input Voltage Detector
R3119N Series are CMOS-based 36V input (absolute maximum ratings: 50V) voltage detector with high detector threshold accuracy and ultra-low supply current. Each of those ICs consists of a voltage reference unit, a comparator, resistors for detector threshold setting, an output driver and a hysteresis circuit.
I2C
Arduino 101
You will need to use 2 pull-up resistors (10k Ohm) between the SCL/SDA lines and 3.3V. The I2C lines on Quark SE Sensor Subsystem does not have internal pull-up, so external one is required. From Zephyr Samples Drivers Grove-Lcd Documentation
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