2 unstable releases
Uses old Rust 2015
0.2.0 | May 11, 2019 |
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0.1.0 | Apr 28, 2019 |
#2276 in Embedded development
53KB
964 lines
Rust KXCJ9/KXCJB Ultra-Low-Power Tri-Axis Accelerometer Driver
This is a platform agnostic Rust driver for the KXCJ9 and KXCJB ultra-low-power
tri-axis accelerometers (up to +/-16g) using the embedded-hal
traits.
This driver allows you to:
- Enable/disable the device. See
enable()
. - Read the acceleration measurement. See
read()
. - Read the unscaled acceleration measurement. See
read_unscaled()
. - Set resolution. See
set_resolution()
. - Set output data rate. See
set_output_data_rate()
. - Set +/- G range. See
set_scale()
. - Read
WHO_AM_I
register. Seewho_am_i()
. - Perform a software reset. See
reset()
. - Run a communication self-test. See
communication_self_test()
. - Enable/disable MEMS self-test function. See
enable_mems_self_test()
. - Interrupt support:
- Enable/disable new acceleration data ready interrupt. See
enable_data_ready_interrupt()
. - Enable/disable and configure wake-up motion detected interrupt. See
enable_wake_up_interrupt()
. - Enable/disable physical interrupt pin. See
enable_interrupt_pin()
. - Set physical interrupt pin polarity. See
set_interrupt_pin_polarity()
. - Set physical interrupt pin latching behavior. See
set_interrupt_pin_latching()
. - Check if any interrupt has happened. See
has_interrupt_happened()
. - Clear interrupts. See
clear_interrupts()
. - Read interrupt source information. See
read_interrupt_info()
.
- Enable/disable new acceleration data ready interrupt. See
The devices
The KXCJ9 is a high-performance, ultra-low-power, tri-axis accelerometer designed for mobile applications. It offers our best power performance along with an embedded wake-up feature, Fast-mode I²C and up to 14-bit resolution. The KXCJ9 sensor offers improved shock, reflow, and temperature performance, and the ASIC has internal voltage regulators that allow operation from 1.8 V to 3.6 V within the specified product performance.
The KXCJB is the thinnest tri-axis accelerometer available on the market today. This ultra-thin 3x3x0.45mm low-power accelerometer is also one of our most full-featured products. The KXCJB offers up to 14-bit resolution for greater precision. User-selectable parameters include ± 2g, 4g or 8g ranges and Output Data Rates (ODR) with programmable low-pass filter. The KXCJB also features the Kionix XAC sense element, our most advanced sense element, for outstanding stability over temperature, shock and post-reflow performance.
The communication is done through an I2C bidirectional bus.
Datasheets:
Application Note:
Usage
To use this driver, import this crate and an embedded_hal
implementation,
then instantiate the appropriate device.
Please find additional examples using hardware in this repository: driver-examples
extern crate kxcj9;
extern crate linux_embedded_hal as hal;
use kxcj9::{Kxcj9, SlaveAddr};
fn main() {
let dev = hal::I2cdev::new("/dev/i2c-1").unwrap();
let address = SlaveAddr::default();
let mut sensor = Kxcj9::new_kxcj9_1018(dev, address);
sensor.enable().unwrap();
loop {
let acc = sensor.read().unwrap();
println!("X: {:2}, Y: {:2}, Z: {:2}", acc.x, acc.y, acc.z);
}
}
Support
For questions, issues, feature requests, and other changes, please file an issue in the github project.
License
Licensed under either of
- Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or http://opensource.org/licenses/MIT)
at your option.
Contributing
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.
Dependencies
~71KB