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Arduino and CMake library for communicating with Analog Microelectronics AMS 6915 pressure transducers.

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License: MIT

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Ams6915

This library communicates with AMS-6915 pressure transducers and is compatible with Arduino and CMake build systems.

Description

The Analog Microelectronics AMS-6915 pressure transducers are fully signal conditioned, amplified, and temperature compensated over a temperature range of -25 to +85 C. These sensors generate data with high precision, high stability and low drift. Digital measurements are sampled with a 14 bit resolution. The AMS-6915 sensors are available in a wide variety of pressure ranges and in configurations suited for barometric, differential, and bidirectional differential measurement.

Usage

This library communicates with the AMS 6915 sensors using an I2C interface. The default I2C address for the AMS-6915 is 0x28; however, a USB starter kit may be purchased to enable programming additional addresses. Pressure and temperature data can be provided at rates of up to 2 kHz.

Installation

Arduino

Simply clone or download and extract the zipped library into your Arduino/libraries folder. The library is added as:

#include "ams6915.h"

An example Arduino executable is located in: examples/arduino/ams6915_example/ams6915_example.ino. Teensy 3.x, 4.x, and LC devices are used for testing under Arduino and this library should be compatible with other Arduino devices.

CMake

CMake is used to build this library, which is exported as a library target called ams6915. The header is added as:

#include "ams6915.h"

The library can be also be compiled stand-alone using the CMake idiom of creating a build directory and then, from within that directory issuing:

cmake .. -DMCU=MK66FX1M0
make

This will build the library and an example executable called ams5915_example. The example executable source file is located at examples/cmake/ams6915_example.cc. Notice that the cmake command includes a define specifying the microcontroller the code is being compiled for. This is required to correctly configure the code, CPU frequency, and compile/linker options. The available MCUs are:

  • MK20DX128
  • MK20DX256
  • MK64FX512
  • MK66FX1M0
  • MKL26Z64
  • IMXRT1062_T40
  • IMXRT1062_T41
  • IMXRT1062_MMOD

These are known to work with the same packages used in Teensy products. Also switching packages is known to work well, as long as it's only a package change.

Each target also has a _hex, for creating the hex file to upload to the microcontroller, and an _upload for using the Teensy CLI Uploader to flash the Teensy. Please note that the CMake build tooling is expected to be run under Linux or WSL, instructions for setting up your build environment can be found in our build-tools repo.

Namespace

This library is within the namespace bfs.

Ams6915

Ams6915() Default constructor, requires calling the Config method to setup the I2C bus, I2C address, and transducer type.

Ams6915(i2c_t3 *bus, const uint8_t addr, const Transducer type) Creates an Ams6915 object. A pointer to the I2C bus object is passed along with the I2C address of the sensor and the AMS-6915 transducer type. The enumerated transducer types are:

Sensor Name Enumerated Type Pressure Type Pressure Range
AMS 6915-0005-D AMS6915_0005_D differential / relative 0...500 Pa
AMS 6915-0010-D AMS6915_0010_D differential / relative 0...1000 Pa
AMS 6915-0025-D AMS6915_0025_D differential / relative 0...2500 Pa
AMS 6915-0050-D AMS6915_0050_D differential / relative 0...5000 Pa
AMS 6915-0100-D AMS6915_0100_D differential / relative 0...10000 Pa
AMS 6915-0200-D AMS6915_0200_D differential / relative 0...20000 Pa
AMS 6915-0350-D AMS6915_0350_D differential / relative 0...35000 Pa
AMS 6915-1000-D AMS6915_1000_D differential / relative 0...100000 Pa
AMS 6915-2000-D AMS6915_2000_D differential / relative 0...200000 Pa
AMS 6915-2500-D AMS6915_2500_D differential / relative 0...250000 Pa
AMS 6915-0200-G AMS6915_0200_G relative 0...20000 Pa
AMS 6915-0350-G AMS6915_0350_G relative 0...35000 Pa
AMS 6915-1000-G AMS6915_1000_G relative 0...100000 Pa
AMS 6915-2000-G AMS6915_2000_G relative 0...200000 Pa
AMS 6915-0002-D-B AMS6915_0002_D_B bidirectional differential -250...+250 Pa
AMS 6915-0005-D-B AMS6915_0005_D_B bidirectional differential -500...+500 Pa
AMS 6915-0010-D-B AMS6915_0010_D_B bidirectional differential -1000...+1000 Pa
AMS 6915-0025-D-B AMS6915_0025_D_B bidirectional differential -2500...+2500 Pa
AMS 6915-0050-D-B AMS6915_0050_D_B bidirectional differential -5000...+5000 Pa
AMS 6915-0100-D-B AMS6915_0100_D_B bidirectional differential -10000...+10000 Pa
AMS 6915-0200-D-B AMS6915_0200_D_B bidirectional differential -20000...+20000 Pa
AMS 6915-0350-D-B AMS6915_0350_D_B bidirectional differential -35000...+35000 Pa
AMS 6915-1000-D-B AMS6915_1000_D_B bidirectional differential -100000...+100000 Pa
AMS 6915-0500-A AMS6915_0500_A absolute 0...50000 Pa
AMS 6915-1000-A AMS6915_1000_A absolute 0...100000 Pa
AMS 6915-2000-A AMS6915_2000_A absolute 0...200000 Pa
AMS 6915-1200-B AMS6915_1200_B barometric 70000...120000 Pa

For example, the following code declares an AMS6915 object called ams with an AMS6915-1200-B sensor located on I2C bus 0 with an I2C address of 0x10:

bfs::Ams6915 ams(&Wire, 0x10, bfs::Ams6915::AMS6915_1200_B);

void Config(TwoWire *bus, const uint8_t addr, const Transducer type) This is required when using the default constructor and sets up the I2C bus, I2C address, and transducer type.

bool Begin() Initializes communication with the sensor and configures the sensor driver for the specified transducer. True is returned if communication is able to be established with the sensor and configuration completes successfully, otherwise, false is returned. The communication bus is not initialized within this library and must be initialized seperately; this enhances compatibility with other sensors that may on the same bus.

Wire.begin();
Wire.setClock(400000);
bool status = ams.Begin();
if (!status) {
  // ERROR
}

bool Read() Reads data from the AMS-6915 and stores the data in the Ams6915 object. Returns true if data is successfully read, otherwise, returns false.

/* Read the sensor data */
if (ams.Read()) {
}

float pres_pa() Returns the pressure data from the Ams6915 object in units of Pa.

float pressure = ams.pres_pa();

float die_temp_c Returns the die temperature of the sensor from the Ams6915 object in units of degrees C.

float temperature = ams.die_temp_c();

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Arduino and CMake library for communicating with Analog Microelectronics AMS 6915 pressure transducers.

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