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# Rust ADS1x1x ultra-small, low-power analog-to-digital converters (ADC) Driver
[](https://crates.io/crates/ads1x1x)
[](https://docs.rs/ads1x1x)
[](https://travis-ci.org/eldruin/ads1x1x-rs)
[](https://coveralls.io/r/eldruin/ads1x1x-rs?branch=master)
This is a platform agnostic Rust driver for the ADS1013, ADS1014, ADS1015,
ADS1113, ADS1114, ADS1115, ADS1018 and ADS1118 ultra-small, low-power
analog-to-digital converters (ADC), based on the [`embedded-hal`] traits.
[`embedded-hal`]: https://github.com/rust-embedded/embedded-hal
This driver allows you to:
- Set the operating mode to one-shot or continuous. See: `into_continuous()`.
- Make a measurement in one-shot mode. See: `read()`.
- Set the data rate. See: `set_data_rate()`.
- Set the low and high thresholds. See: `set_high_threshold()`.
- Set the comparator mode. See: `set_comparator_mode()`.
- Set the comparator polarity. See: `set_comparator_polarity()`.
- Set the comparator latching. See: `set_comparator_latching()`.
## The devices
The devices are precision, low power, 12/16-bit analog-to-digital
converters (ADC) that provide all features necessary to measure the most
common sensor signals in an ultra-small package. Depending on the device,
these integrate a programmable gain amplifier (PGA), voltage reference,
oscillator and high-accuracy temperature sensor.
The devices can perform conversions at data rates up to 3300 samples per
second (SPS). The PGA offers input ranges from ±256 mV to ±6.144 V,
allowing both large and small signals to be measured with high resolution.
An input multiplexer (MUX) allows to measure two differential or four
single-ended inputs. The high-accuracy temperature sensor can be used for
system-level temperature monitoring or cold-junction compensation for
thermocouples.
The devices operate either in continuous-conversion mode, or in a
single-shot mode that automatically powers down after a conversion.
Single-shot mode significantly reduces current consumption during idle
periods. Data are transferred through a I2C or SPI.
Here is a comparison of the caracteristics of the devices:
| Device | Resolution | Sample Rate | Channels | Interface | Multi-channel | Features |
|---------|------------|--------------|----------|-----------|---------------|------------------------------|
| ADS1013 | 12-bit | Max 3300 SPS | 1 | I2C | N/A | |
| ADS1014 | 12-bit | Max 3300 SPS | 1 | I2C | N/A | Comparator, PGA |
| ADS1015 | 12-bit | Max 3300 SPS | 4 | I2C | Multiplexed | Comparator, PGA |
| ADS1018 | 12-bit | Max 3300 SPS | 4 | SPI | Multiplexed | Comparator, PGA, Temp sensor |
| ADS1113 | 16-bit | Max 860 SPS | 1 | I2C | N/A | |
| ADS1114 | 16-bit | Max 860 SPS | 1 | I2C | N/A | Comparator, PGA |
| ADS1115 | 16-bit | Max 860 SPS | 4 | I2C | Multiplexed | Comparator, PGA |
| ADS1118 | 16-bit | Max 860 SPS | 4 | SPI | Multiplexed | Comparator, PGA, Temp sensor |
Datasheets:
- [ADS101x](http://www.ti.com/lit/ds/symlink/ads1015.pdf)
- [ADS1018](http://www.ti.com/lit/ds/symlink/ads1018.pdf)
- [ADS111x](http://www.ti.com/lit/ds/symlink/ads1115.pdf)
- [ADS1118](http://www.ti.com/lit/ds/symlink/ads1118.pdf)
## Usage
To use this driver, import this crate and an `embedded_hal` implementation,
then instantiate the appropriate device.
In the following examples an instance of the device ADS1013 will be created
as an example. Other devices can be created with similar methods like:
`Ads1x1x::new_ads1114(...)`.
```rust
extern crate embedded_hal;
use embedded_hal::adc::OneShot;
extern crate linux_embedded_hal;
#[macro_use(block)]
extern crate nb;
extern crate ads1x1x;
use linux_embedded_hal::I2cdev;
use ads1x1x::{ Ads1x1x, SlaveAddr, channel };
fn main() {
let dev = I2cdev::new("/dev/i2c-1").unwrap();
let mut adc = Ads1x1x::new_ads1013(dev, SlaveAddr::default());
let measurement = block!(adc.read(&mut channel::DifferentialA0A1)).unwrap();
println!("Measurement: {}", measurement);
let dev = adc.destroy_ads1013(); // get I2C device back
}
```
## License
Licensed under either of
* Apache License, Version 2.0 ([LICENSE-APACHE](LICENSE-APACHE) or
http://www.apache.org/licenses/LICENSE-2.0)
* MIT license ([LICENSE-MIT](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.
|
