Add oversampling and differential for g4

author: Chen Yuheng <[email protected]> 2024-07-11 10:33:43 +0800
committer: Chen Yuheng <[email protected]> 2024-07-11 10:33:43 +0800
commit: f01ffbcc12c40c68a57bc2daffdfad697bc28921 (patch)
tree: ca32b8dd65d7abeb050eebdf72e4b13b765c2438
parent: 6636a5835b27f82abea9000c9f3e93b4455b29c8 (diff)
4 files changed, 165 insertions, 0 deletions
diff --git a/embassy-stm32/src/adc/g4.rs b/embassy-stm32/src/adc/g4.rs
index c1e584f59..896a70578 100644
--- a/embassy-stm32/src/adc/g4.rs
+++ b/embassy-stm32/src/adc/g4.rs
@@ -1,4 +1,8 @@
 #[allow(unused)]
+#[cfg(stm32g4)]
+use pac::adc::vals::{Adcaldif, Difsel, Exten, Rovsm, Trovs};
+#[cfg(stm32h7)]
 use pac::adc::vals::{Adcaldif, Difsel, Exten};
 use pac::adccommon::vals::Presc;
@@ -228,6 +232,62 @@ impl<'d, T: Instance> Adc<'d, T> {
        Vbat {}
    }
+    /// Enable differential channel.
+    /// Caution:
+    /// : When configuring the channel “i” in differential input mode, its negative input voltage VINN[i]
+    /// is connected to another channel. As a consequence, this channel is no longer usable in
+    /// single-ended mode or in differential mode and must never be configured to be converted.
+    /// Some channels are shared between ADC1/ADC2/ADC3/ADC4/ADC5: this can make the
+    /// channel on the other ADC unusable. The only exception is when ADC master and the slave
+    /// operate in interleaved mode.
+    #[cfg(stm32g4)]
+    pub fn set_differential_channel(&mut self, ch: usize ,enable: bool) {
+        T::regs().cr().modify(|w| w.set_aden(false)); // disable adc
+        T::regs().difsel().modify(|w| {
+            w.set_difsel(ch, if enable { Difsel::DIFFERENTIAL } else { Difsel::SINGLEENDED });
+        });
+        T::regs().cr().modify(|w| w.set_aden(true));
+    }
+    #[cfg(stm32g4)]
+    pub fn set_differential(&mut self, channel: &mut impl AdcChannel<T>, enable: bool) {
+        self.set_differential_channel(channel.channel() as usize, enable);
+    }
+    /// Set oversampling shift.
+    #[cfg(stm32g4)]
+    pub fn set_oversampling_shift(&mut self, shift: u8) {
+        T::regs().cfgr2().modify(|reg| reg.set_ovss(shift));
+    }
+    /// Set oversampling ratio.
+    #[cfg(stm32g4)]
+    pub fn set_oversampling_ratio(&mut self, ratio: u8) {
+        T::regs().cfgr2().modify(|reg| reg.set_ovsr(ratio));
+    }
+    /// Enable oversampling in regular mode.
+    #[cfg(stm32g4)]
+    pub fn enable_regular_oversampling_mode(&mut self,mode:Rovsm,trig_mode:Trovs, enable: bool) {
+        T::regs().cfgr2().modify(|reg| reg.set_trovs(trig_mode)); 
+        T::regs().cfgr2().modify(|reg| reg.set_rovsm(mode));
+        T::regs().cfgr2().modify(|reg| reg.set_rovse(enable));
+    }
+    // Reads that are not implemented as INJECTED in "blocking_read"
+    // #[cfg(stm32g4)]
+    // pub fn enalble_injected_oversampling_mode(&mut self, enable: bool) {
+    //     T::regs().cfgr2().modify(|reg| reg.set_jovse(enable));
+    // }
+    // #[cfg(stm32g4)]
+    // pub fn enable_oversampling_regular_injected_mode(&mut self, enable: bool) {
+    //     // the regularoversampling mode is forced to resumed mode (ROVSM bit ignored),
+    //     T::regs().cfgr2().modify(|reg| reg.set_rovse(enable));
+    //     T::regs().cfgr2().modify(|reg| reg.set_jovse(enable));
+    // }
    /// Set the ADC sample time.
    pub fn set_sample_time(&mut self, sample_time: SampleTime) {
        self.sample_time = sample_time;
diff --git a/embassy-stm32/src/adc/mod.rs b/embassy-stm32/src/adc/mod.rs
index 7a7d7cd8e..b530bb4c8 100644
--- a/embassy-stm32/src/adc/mod.rs
+++ b/embassy-stm32/src/adc/mod.rs
@@ -26,6 +26,7 @@ use embassy_sync::waitqueue::AtomicWaker;
 #[cfg(not(any(adc_f1, adc_f3_v2)))]
 pub use crate::pac::adc::vals::Res as Resolution;
 pub use crate::pac::adc::vals::SampleTime;
+pub use crate::pac::adc::vals ;
 use crate::peripherals;
 dma_trait!(RxDma, Instance);
diff --git a/examples/stm32g4/src/bin/adc_differential.rs b/examples/stm32g4/src/bin/adc_differential.rs
new file mode 100644
index 000000000..78d071d45
--- /dev/null
+++ b/examples/stm32g4/src/bin/adc_differential.rs
@@ -0,0 +1,47 @@
+//! adc differential mode example
+//!
+//! This example uses adc1 in differential mode
+//! p:pa0 n:pa1
+#![no_std]
+#![no_main]
+use defmt::*;
+use embassy_executor::Spawner;
+use embassy_stm32::adc::{Adc, SampleTime};
+use embassy_stm32::Config;
+use embassy_time::Timer;
+use {defmt_rtt as _, panic_probe as _};
+#[embassy_executor::main]
+async fn main(_spawner: Spawner) {
+    let mut config = Config::default();
+    {
+        use embassy_stm32::rcc::*;
+        config.rcc.pll = Some(Pll {
+            source: PllSource::HSI,
+            prediv: PllPreDiv::DIV4,
+            mul: PllMul::MUL85,
+            divp: None,
+            divq: None,
+            // Main system clock at 170 MHz
+            divr: Some(PllRDiv::DIV2),
+        });
+        config.rcc.mux.adc12sel = mux::Adcsel::SYS;
+        config.rcc.sys = Sysclk::PLL1_R;
+    }
+    let mut p = embassy_stm32::init(config);
+    let mut adc = Adc::new(p.ADC1);
+    adc.set_sample_time(SampleTime::CYCLES247_5);
+    adc.set_differential(&mut p.PA0, true); //p:pa0,n:pa1
+    // can also use
+    // adc.set_differential_channel(1, true);
+    info!("adc initialized");
+    loop {
+        let measured = adc.blocking_read(&mut p.PA0);
+        info!("data: {}", measured);
+        Timer::after_millis(500).await;
+    }
+}
diff --git a/examples/stm32g4/src/bin/adc_oversampling.rs b/examples/stm32g4/src/bin/adc_oversampling.rs
new file mode 100644
index 000000000..d31eb20f8
--- /dev/null
+++ b/examples/stm32g4/src/bin/adc_oversampling.rs
@@ -0,0 +1,57 @@
+//! adc oversampling example
+//!
+//! This example uses adc oversampling to achieve 16bit data
+#![no_std]
+#![no_main]
+use defmt::*;
+use embassy_executor::Spawner;
+use embassy_stm32::adc::vals::{Rovsm, Trovs};
+use embassy_stm32::adc::{Adc, SampleTime};
+use embassy_stm32::Config;
+use embassy_time::Timer;
+use {defmt_rtt as _, panic_probe as _};
+#[embassy_executor::main]
+async fn main(_spawner: Spawner) {
+    let mut config = Config::default();
+    {
+        use embassy_stm32::rcc::*;
+        config.rcc.pll = Some(Pll {
+            source: PllSource::HSI,
+            prediv: PllPreDiv::DIV4,
+            mul: PllMul::MUL85,
+            divp: None,
+            divq: None,
+            // Main system clock at 170 MHz
+            divr: Some(PllRDiv::DIV2),
+        });
+        config.rcc.mux.adc12sel = mux::Adcsel::SYS;
+        config.rcc.sys = Sysclk::PLL1_R;
+    }
+    let mut p = embassy_stm32::init(config);
+    let mut adc = Adc::new(p.ADC1);
+    adc.set_sample_time(SampleTime::CYCLES6_5);
+    // From https://www.st.com/resource/en/reference_manual/rm0440-stm32g4-series-advanced-armbased-32bit-mcus-stmicroelectronics.pdf
+    // page652 Oversampler
+    // Table 172. Maximum output results vs N and M. Grayed values indicates truncation
+    // 0x00 oversampling ratio X2
+    // 0x01 oversampling ratio X4
+    // 0x02 oversampling ratio X8
+    // 0x03 oversampling ratio X16
+    // 0x04 oversampling ratio X32
+    // 0x05 oversampling ratio X64
+    // 0x06 oversampling ratio X128
+    // 0x07 oversampling ratio X256
+    adc.set_oversampling_ratio(0x03); // ratio X3
+    adc.set_oversampling_shift(0b0000); // no shift
+    adc.enable_regular_oversampling_mode(Rovsm::RESUMED, Trovs::AUTOMATIC, true);
+    loop {
+        let measured = adc.blocking_read(&mut p.PA0);
+        info!("data: 0x{:X}", measured); //max 0xFFF0 -> 65520
+        Timer::after_millis(500).await;
+    }
+}
author	Chen Yuheng <[email protected]>	2024-07-11 10:33:43 +0800
committer	Chen Yuheng <[email protected]>	2024-07-11 10:33:43 +0800
commit	f01ffbcc12c40c68a57bc2daffdfad697bc28921 (patch)
tree	ca32b8dd65d7abeb050eebdf72e4b13b765c2438
parent	6636a5835b27f82abea9000c9f3e93b4455b29c8 (diff)

diff --git a/embassy-stm32/src/adc/g4.rs b/embassy-stm32/src/adc/g4.rs index c1e584f59..896a70578 100644 --- a/embassy-stm32/src/adc/g4.rs +++ b/embassy-stm32/src/adc/g4.rs
@@ -1,4 +1,8 @@
1	#[allow(unused)]	1	#[allow(unused)]
		2
		3	#[cfg(stm32g4)]
		4	use pac::adc::vals::{Adcaldif, Difsel, Exten, Rovsm, Trovs};
		5	#[cfg(stm32h7)]
2	use pac::adc::vals::{Adcaldif, Difsel, Exten};	6	use pac::adc::vals::{Adcaldif, Difsel, Exten};
3	use pac::adccommon::vals::Presc;	7	use pac::adccommon::vals::Presc;
4		8
@@ -228,6 +232,62 @@ impl<'d, T: Instance> Adc<'d, T> {
228	Vbat {}	232	Vbat {}
229	}	233	}
230		234
		235	/// Enable differential channel.
		236	/// Caution:
		237	/// : When configuring the channel “i” in differential input mode, its negative input voltage VINN[i]
		238	/// is connected to another channel. As a consequence, this channel is no longer usable in
		239	/// single-ended mode or in differential mode and must never be configured to be converted.
		240	/// Some channels are shared between ADC1/ADC2/ADC3/ADC4/ADC5: this can make the
		241	/// channel on the other ADC unusable. The only exception is when ADC master and the slave
		242	/// operate in interleaved mode.
		243	#[cfg(stm32g4)]
		244	pub fn set_differential_channel(&mut self, ch: usize ,enable: bool) {
		245	T::regs().cr().modify(\|w\| w.set_aden(false)); // disable adc
		246	T::regs().difsel().modify(\|w\| {
		247	w.set_difsel(ch, if enable { Difsel::DIFFERENTIAL } else { Difsel::SINGLEENDED });
		248	});
		249	T::regs().cr().modify(\|w\| w.set_aden(true));
		250	}
		251
		252	#[cfg(stm32g4)]
		253	pub fn set_differential(&mut self, channel: &mut impl AdcChannel<T>, enable: bool) {
		254	self.set_differential_channel(channel.channel() as usize, enable);
		255	}
		256
		257	/// Set oversampling shift.
		258	#[cfg(stm32g4)]
		259	pub fn set_oversampling_shift(&mut self, shift: u8) {
		260	T::regs().cfgr2().modify(\|reg\| reg.set_ovss(shift));
		261	}
		262
		263	/// Set oversampling ratio.
		264	#[cfg(stm32g4)]
		265	pub fn set_oversampling_ratio(&mut self, ratio: u8) {
		266	T::regs().cfgr2().modify(\|reg\| reg.set_ovsr(ratio));
		267	}
		268
		269	/// Enable oversampling in regular mode.
		270	#[cfg(stm32g4)]
		271	pub fn enable_regular_oversampling_mode(&mut self,mode:Rovsm,trig_mode:Trovs, enable: bool) {
		272	T::regs().cfgr2().modify(\|reg\| reg.set_trovs(trig_mode));
		273	T::regs().cfgr2().modify(\|reg\| reg.set_rovsm(mode));
		274	T::regs().cfgr2().modify(\|reg\| reg.set_rovse(enable));
		275	}
		276
		277	// Reads that are not implemented as INJECTED in "blocking_read"
		278	// #[cfg(stm32g4)]
		279	// pub fn enalble_injected_oversampling_mode(&mut self, enable: bool) {
		280	// T::regs().cfgr2().modify(\|reg\| reg.set_jovse(enable));
		281	// }
		282
		283	// #[cfg(stm32g4)]
		284	// pub fn enable_oversampling_regular_injected_mode(&mut self, enable: bool) {
		285	// // the regularoversampling mode is forced to resumed mode (ROVSM bit ignored),
		286	// T::regs().cfgr2().modify(\|reg\| reg.set_rovse(enable));
		287	// T::regs().cfgr2().modify(\|reg\| reg.set_jovse(enable));
		288	// }
		289
		290
231	/// Set the ADC sample time.	291	/// Set the ADC sample time.
232	pub fn set_sample_time(&mut self, sample_time: SampleTime) {	292	pub fn set_sample_time(&mut self, sample_time: SampleTime) {
233	self.sample_time = sample_time;	293	self.sample_time = sample_time;


diff --git a/embassy-stm32/src/adc/mod.rs b/embassy-stm32/src/adc/mod.rs index 7a7d7cd8e..b530bb4c8 100644 --- a/embassy-stm32/src/adc/mod.rs +++ b/embassy-stm32/src/adc/mod.rs
@@ -26,6 +26,7 @@ use embassy_sync::waitqueue::AtomicWaker;
26	#[cfg(not(any(adc_f1, adc_f3_v2)))]	26	#[cfg(not(any(adc_f1, adc_f3_v2)))]
27	pub use crate::pac::adc::vals::Res as Resolution;	27	pub use crate::pac::adc::vals::Res as Resolution;
28	pub use crate::pac::adc::vals::SampleTime;	28	pub use crate::pac::adc::vals::SampleTime;
		29	pub use crate::pac::adc::vals ;
29	use crate::peripherals;	30	use crate::peripherals;
30		31
31	dma_trait!(RxDma, Instance);	32	dma_trait!(RxDma, Instance);


diff --git a/examples/stm32g4/src/bin/adc_differential.rs b/examples/stm32g4/src/bin/adc_differential.rs new file mode 100644 index 000000000..78d071d45 --- /dev/null +++ b/examples/stm32g4/src/bin/adc_differential.rs
@@ -0,0 +1,47 @@
		1	//! adc differential mode example
		2	//!
		3	//! This example uses adc1 in differential mode
		4	//! p:pa0 n:pa1
		5
		6	#![no_std]
		7	#![no_main]
		8
		9	use defmt::*;
		10	use embassy_executor::Spawner;
		11	use embassy_stm32::adc::{Adc, SampleTime};
		12	use embassy_stm32::Config;
		13	use embassy_time::Timer;
		14	use {defmt_rtt as _, panic_probe as _};
		15
		16	#[embassy_executor::main]
		17	async fn main(_spawner: Spawner) {
		18	let mut config = Config::default();
		19	{
		20	use embassy_stm32::rcc::*;
		21	config.rcc.pll = Some(Pll {
		22	source: PllSource::HSI,
		23	prediv: PllPreDiv::DIV4,
		24	mul: PllMul::MUL85,
		25	divp: None,
		26	divq: None,
		27	// Main system clock at 170 MHz
		28	divr: Some(PllRDiv::DIV2),
		29	});
		30	config.rcc.mux.adc12sel = mux::Adcsel::SYS;
		31	config.rcc.sys = Sysclk::PLL1_R;
		32	}
		33	let mut p = embassy_stm32::init(config);
		34
		35	let mut adc = Adc::new(p.ADC1);
		36	adc.set_sample_time(SampleTime::CYCLES247_5);
		37	adc.set_differential(&mut p.PA0, true); //p:pa0,n:pa1
		38
		39	// can also use
		40	// adc.set_differential_channel(1, true);
		41	info!("adc initialized");
		42	loop {
		43	let measured = adc.blocking_read(&mut p.PA0);
		44	info!("data: {}", measured);
		45	Timer::after_millis(500).await;
		46	}
		47	}


diff --git a/examples/stm32g4/src/bin/adc_oversampling.rs b/examples/stm32g4/src/bin/adc_oversampling.rs new file mode 100644 index 000000000..d31eb20f8 --- /dev/null +++ b/examples/stm32g4/src/bin/adc_oversampling.rs
@@ -0,0 +1,57 @@
		1	//! adc oversampling example
		2	//!
		3	//! This example uses adc oversampling to achieve 16bit data
		4
		5	#![no_std]
		6	#![no_main]
		7
		8	use defmt::*;
		9	use embassy_executor::Spawner;
		10	use embassy_stm32::adc::vals::{Rovsm, Trovs};
		11	use embassy_stm32::adc::{Adc, SampleTime};
		12	use embassy_stm32::Config;
		13	use embassy_time::Timer;
		14	use {defmt_rtt as _, panic_probe as _};
		15
		16	#[embassy_executor::main]
		17	async fn main(_spawner: Spawner) {
		18	let mut config = Config::default();
		19	{
		20	use embassy_stm32::rcc::*;
		21	config.rcc.pll = Some(Pll {
		22	source: PllSource::HSI,
		23	prediv: PllPreDiv::DIV4,
		24	mul: PllMul::MUL85,
		25	divp: None,
		26	divq: None,
		27	// Main system clock at 170 MHz
		28	divr: Some(PllRDiv::DIV2),
		29	});
		30	config.rcc.mux.adc12sel = mux::Adcsel::SYS;
		31	config.rcc.sys = Sysclk::PLL1_R;
		32	}
		33	let mut p = embassy_stm32::init(config);
		34
		35	let mut adc = Adc::new(p.ADC1);
		36	adc.set_sample_time(SampleTime::CYCLES6_5);
		37	// From https://www.st.com/resource/en/reference_manual/rm0440-stm32g4-series-advanced-armbased-32bit-mcus-stmicroelectronics.pdf
		38	// page652 Oversampler
		39	// Table 172. Maximum output results vs N and M. Grayed values indicates truncation
		40	// 0x00 oversampling ratio X2
		41	// 0x01 oversampling ratio X4
		42	// 0x02 oversampling ratio X8
		43	// 0x03 oversampling ratio X16
		44	// 0x04 oversampling ratio X32
		45	// 0x05 oversampling ratio X64
		46	// 0x06 oversampling ratio X128
		47	// 0x07 oversampling ratio X256
		48	adc.set_oversampling_ratio(0x03); // ratio X3
		49	adc.set_oversampling_shift(0b0000); // no shift
		50	adc.enable_regular_oversampling_mode(Rovsm::RESUMED, Trovs::AUTOMATIC, true);
		51
		52	loop {
		53	let measured = adc.blocking_read(&mut p.PA0);
		54	info!("data: 0x{:X}", measured); //max 0xFFF0 -> 65520
		55	Timer::after_millis(500).await;
		56	}
		57	}