#![no_std] #![no_main] #![feature(type_alias_impl_trait)] use defmt::*; use embassy_executor::Spawner; use embassy_nrf::pwm::{ Config, Prescaler, SequenceConfig, SequenceLoad, SequencePwm, SingleSequenceMode, SingleSequencer, }; use embassy_time::Timer; use {defmt_rtt as _, panic_probe as _}; // WS2812B LED light demonstration. Drives just one light. // The following reference on WS2812B may be of use: // https://cdn-shop.adafruit.com/datasheets/WS2812B.pdf. // This demo lights up a single LED in blue. It then proceeds // to pulsate the LED rapidly. // In the following declarations, setting the high bit tells the PWM // to reverse polarity, which is what the WS2812B expects. const T1H: u16 = 0x8000 | 13; // Duty = 13/20 ticks (0.8us/1.25us) for a 1 const T0H: u16 = 0x8000 | 7; // Duty 7/20 ticks (0.4us/1.25us) for a 0 const RES: u16 = 0x8000; // Provides data to a WS2812b (Neopixel) LED and makes it go blue. The data // line is assumed to be P1_05. #[embassy_executor::main] async fn main(_spawner: Spawner) { let p = embassy_nrf::init(Default::default()); let mut config = Config::default(); config.sequence_load = SequenceLoad::Common; config.prescaler = Prescaler::Div1; config.max_duty = 20; // 1.25us (1s / 16Mhz * 20) let mut pwm = unwrap!(SequencePwm::new_1ch(p.PWM0, p.P1_05, config)); // Declare the bits of 24 bits in a buffer we'll be // mutating later. let mut seq_words = [ T0H, T0H, T0H, T0H, T0H, T0H, T0H, T0H, // G T0H, T0H, T0H, T0H, T0H, T0H, T0H, T0H, // R T1H, T1H, T1H, T1H, T1H, T1H, T1H, T1H, // B RES, ]; let mut seq_config = SequenceConfig::default(); seq_config.end_delay = 799; // 50us (20 ticks * 40) - 1 tick because we've already got one RES; let mut color_bit = 16; let mut bit_value = T0H; loop { let sequences = SingleSequencer::new(&mut pwm, &seq_words, seq_config.clone()); unwrap!(sequences.start(SingleSequenceMode::Times(1))); Timer::after_millis(50).await; if bit_value == T0H { if color_bit == 20 { bit_value = T1H; } else { color_bit += 1; } } else { if color_bit == 16 { bit_value = T0H; } else { color_bit -= 1; } } drop(sequences); seq_words[color_bit] = bit_value; } }