use stm32h7xx_hal::time::MegaHertz; /// The ADC setup time is the number of seconds after the CSn line goes low before the serial clock /// may begin. This is used for performing the internal ADC conversion. pub const ADC_SETUP_TIME: f32 = 220e-9; /// The maximum DAC/ADC serial clock line frequency. This is a hardware limit. pub const ADC_DAC_SCK_MAX: MegaHertz = MegaHertz(50); /// The optimal counting frequency of the hardware timers used for timestamping and sampling. pub const TIMER_FREQUENCY: MegaHertz = MegaHertz(100); /// The QSPI frequency for communicating with the pounder DDS. pub const POUNDER_QSPI_FREQUENCY: MegaHertz = MegaHertz(100); /// The delay after initiating a QSPI transfer before asserting the IO_Update for the pounder DDS. // Pounder Profile writes are up to 16 bytes, with 2 cycles required per byte, coming out to a // total of 32 QSPI clock cycles. The QSPI is configured for 100MHz, so this comes out to an offset // of 320 ns. We use 400 ns to be safe. pub const POUNDER_IO_UPDATE_DELAY: f32 = 400e-9; /// The duration to assert IO_Update for the pounder DDS. // IO_Update should be latched for 4 SYNC_CLK cycles after the QSPI profile write. With pounder // SYNC_CLK running at 100MHz (1/4 of the pounder reference clock of 500MHz), this corresponds to // 32ns. To accomodate rounding errors, we use 50ns instead. pub const POUNDER_IO_UPDATE_DURATION: f32 = 50e-9; /// The DDS reference clock frequency in MHz. pub const DDS_REF_CLK: MegaHertz = MegaHertz(100); /// The multiplier used for the DDS reference clock PLL. pub const DDS_MULTIPLIER: u8 = 5; /// The DDS system clock frequency after the internal PLL multiplication. #[allow(dead_code)] pub const DDS_SYSTEM_CLK: MegaHertz = MegaHertz(DDS_REF_CLK.0 * DDS_MULTIPLIER as u32); /// The divider from the DDS system clock to the SYNC_CLK output (sync-clk is always 1/4 of sysclk). #[allow(dead_code)] pub const DDS_SYNC_CLK_DIV: u8 = 4; /// The maximum ADC/DAC sample processing buffer size. pub const MAX_SAMPLE_BUFFER_SIZE: usize = 32; pub type SampleBuffer = [u16; MAX_SAMPLE_BUFFER_SIZE];