3 unstable releases
0.2.1 | May 14, 2020 |
---|---|
0.2.0 | May 2, 2020 |
0.1.0 | May 1, 2020 |
#1090 in Embedded development
34KB
670 lines
Rust interface to the SPI LS7366
Quadrature encoder buffer.
The full features of the chip have been implemented as per the docsheet, and are exposed by this driver.
This driver should work for any concrete embedded_hal::blocking::spi
implementation.
Testing was done against a Dual LS7366R buffer chip On a RPi Model 4B.
Bonus Feature!
as of v0.2.0 the library is built with no_std
.
See documentation for full driver details.
Building the quickstart:
The quickstart is desinged against rppal
, and is intended to be run on a RPi.
That said, it should be trivial enough to swap out the rppal
elements for any other implementation.4B
cargo build --target=armv7-unknown-linux-gnueabihf --example quickstart
lib.rs
:
LS7366 Buffer encoder interface using embedded_hal
.
This driver should work with any SPI interface as long as it implements
the blocking embedded_hal
SPI traits
.
The library is built with no_std
.
Examples
Bare-minimum boilerplate to read from the buffer:
use ls7366::Ls7366;
// --- snip ---
#
#
#
// Construct a driver instance from the SPI interface, using default chip configurations.
let mut spi_driver = Ls7366::new(some_hal_spi_object).unwrap();
// Loop and read the counter.
loop {
let result = spi_driver.get_count().unwrap();
sleep(Duration::from_secs(1));
println!("read data:= {:?}", result);
}
// --- snip ---
Advanced configuration
The LS7366 has two registers dedicated to configuring the chip's various functions:
Mdr0
and Mdr1
.
Configuring the chip can be accomplished by writing into these two registers.
Manually configuring these registers is not required when using Ls7366::new
.
- Build an instance of
Mdr0
andMdr1
with the desired configuration. - Write these instances into the relevant registers.
use ls7366::mdr0::{QuadCountMode, CycleCountMode, FilterClockDivisionFactor,IndexMode, Mdr0};
use ls7366::mdr1::{CounterMode, Mdr1};
use ls7366::{Ls7366, Target, Encodable};
use embedded_hal_mock::spi::Mock;
use embedded_hal_mock::spi::Transaction as SpiTransaction;
// --- snip ---
let mdr0_configuration = Mdr0{
quad_count_mode: QuadCountMode::Quad2x,
filter_clock : FilterClockDivisionFactor::Two,
index_mode: IndexMode::ClearCntr,
cycle_count_mode: CycleCountMode::SingleCycle,
is_index_inverted: false
};
let mdr1_configuration = Mdr1{
counter_mode: CounterMode::Byte3,
// --- Snip ---
# disable_counting:true,
# flag_on_bw: false,
# flag_on_idx: false,
# flag_on_cmp: false,
# flag_on_cy: false,
};
driver.write_register(Target::Mdr0, &[mdr0_configuration.encode()]).unwrap();
driver.write_register(Target::Mdr1, &[mdr1_configuration.encode()]).unwrap();
Dependencies
~120KB