[![Arduino CI](https://github.com/RobTillaart/A1301/workflows/Arduino%20CI/badge.svg)](https://github.com/marketplace/actions/arduino_ci) [![Arduino-lint](https://github.com/RobTillaart/A1301/actions/workflows/arduino-lint.yml/badge.svg)](https://github.com/RobTillaart/A1301/actions/workflows/arduino-lint.yml) [![JSON check](https://github.com/RobTillaart/A1301/actions/workflows/jsoncheck.yml/badge.svg)](https://github.com/RobTillaart/A1301/actions/workflows/jsoncheck.yml) [![License: MIT](https://img.shields.io/badge/license-MIT-green.svg)](https://github.com/RobTillaart/A1301/blob/master/LICENSE) [![GitHub release](https://img.shields.io/github/release/RobTillaart/A1301.svg?maxAge=3600)](https://github.com/RobTillaart/A1301/releases) # A1301 Arduino library for A1301 and A1302 magnetometer. ## Description The A1301 and A1302 are continuous-time, ratiometric, linear Hall-effect sensors. They are optimized to accurately provide a voltage output that is proportional to an applied magnetic field. These devices have a quiescent output voltage that is 50% of the supply voltage. Two output sensitivity options are provided: 2.5 mV/G typical for the A1301, and 1.3 mV/G typical for the A1302. (from datasheet) | sensor | sensitivity | support | |:---------|:---------------:|:---------:| | A1301 | 2.5 mV/Gauss | Y | | A1302 | 1.3 mV/Gauss | Y | | A1324 | 5.000 mV/Gauss | N | | A1325 | 3.125 mV/Gauss | N | | A1326 | 2.500 mV/Gauss | N | Other, more or less, compatible sensors are welcome. (see future) The library is experimental and need more testing. Feedback, issues and improvements are welcome, Please open an issue on GitHub. ## Connection ``` // always check datasheet. // PIN A1301 // =============== // 1 GND // 2 DATA // 3 VDD +5V ``` ## Interface #### Constructor - **HALL(uint8_t pin)** base class constructor. pin is the analogPin to read from. - **A1301(uint8_t pin)** constructor. - **A1302(uint8_t pin)** constructor. #### Configuration - **void begin(float voltage, uint16_t steps)** Sets the parameters voltage and number of steps of the internal ADC. Note this allows to update the voltage runtime. - **void setMidPoint(float midPoint)** the value of midPoint depends on the internal ADC. It is the value where there is no (zero) magnetic field. Note it does not need to be a whole value. This allows quite precise tuning. - **float getMidPoint()** returns the current midPoint. - **void setSensitivity(float sensitivity)** overrule default sensitivity. Use with care. - **float getSensitivity()** return current sensitivity. #### Read - **float raw(uint8_t times = 1)** raw analog measurement. - **float read(uint8_t times = 1)** raw measurement converted to Gauss. Can be positive (North) or negative (South). - **float readExt(float raw)** to be used with external ADC. Can be positive (North) or negative (South). #### Analyse - **boolean isNorth()** idem. - **boolean isSouth()** idem. - **float lastGauss()** returns last measurement in Gauss. - **float prevGauss()** returns previous measurement in Gauss. - **float Tesla(float Gauss)** convenience convertor. - **float mTesla(float Gauss)** convenience convertor. - **float uTesla(float Gauss)** convenience convertor. ## Operation The examples show the basic working of the functions. ## Future #### Must - improve documentation - buy hardware A1301 / A1302 / ... - test with hardware (again) #### Should - plotter example - unit tests #### Could - **boolean isSaturated()** - **float findZero()** how exactly. - printable interface - Possible compatible - HoneyWell - SS39ET/SS49E/SS59ET - HoneyWell - SS490 Series - add derived classes for - A1324/25/26 ? #### Won't