Driver: Power Management¶
1 功能概述¶
本例程演示通过 Zephyr Power Management (PM) 机制进出低功耗的方法。
2 环境要求¶
PAN1080 EVB 一块
电流计(本文使用电流可视化测量设备 PPK2 [Nordic Power Profiler Kit II] 进行演示)
USB-TypeC 线一条(用于供电和查看串口打印 Log)
硬件接线:
使用 USB 线,将 PC USB 与 EVB USB-TypeC(USB->UART)相连
根据 EVB 核心板芯片的封装不同,使用杜邦线将 EVB 底板上的:
TX0 与 P00 相连, RX0 与 P01 相连(若 EVB 板芯片为 QFN32 或 LQFP64 封装)
TX0 与 P30 相连, RX0 与 P31 相连(若 EVB 板芯片为 QFN48 封装)
PC 软件: 串口调试助手(UartAssist)或终端工具(SecureCRT),波特率921600
3 编译和烧录¶
例程位置:zephyr\samples_panchip\drivers\pm
使用 ZAL 工具可以对其进行编译、烧录、打开 VS Code 调试等操作。关于 ZAL 工具的详细介绍请参考:Zephyr APP Launcher 工具介绍。
4 演示说明¶
程序烧录完成后,从串口工具中看到如下的打印信息:
Try to load HW calibration data.. DONE. - Chip Type : 0x80 - Chip CP Version : None - Chip FT Version : 5 - Chip MAC Address : D0000C0293CA - Chip Flash UID : 31373237300A29494330FFFFFFFFFFFF - Chip Flash Size : 1024 KB *** Booting Zephyr OS build zephyr-v2.7.0-1347-g4073b5da347f *** Reset Reason: NVIC System Reset. Sleep 100ms to enter zephyr pm cpu-idle state.. Waked up from zephyr cpu-idle state. Sleep 300ms to enter zephyr pm runtime-idle state.. Waked up from zephyr runtime-idle state. Sleep 600ms to enter zephyr pm suspend-to-idle state.. Waked up from zephyr suspend-to-idle state. Sleep 900ms to enter zephyr pm suspend-to-ram state.. Try to load HW calibration data.. DONE. - Chip Type : 0x80 - Chip CP Version : None - Chip FT Version : 5 - Chip MAC Address : D0000C0293CA - Chip Flash UID : 31373237300A29494330FFFFFFFFFFFF - Chip Flash Size : 1024 KB *** Booting Zephyr OS build zephyr-v2.7.0-1347-g4073b5da347f *** Reset Reason: Waked up from zephyr suspend-to-ram state. Sleep 1600ms to enter zephyr pm soft-off state..
由上述 Log 可得知以下信息:
第一次芯片 Reset 原因为 NVIC System Reset,这是因为本次芯片是程序烧录后由 JLink 触发的软件 Reset
接着系统进入持续 100ms 的
cpu-idle
状态,此状态对应芯片的 Sleep 模式从
cpu-dle
状态唤醒后,系统又进入持续 300ms 的runtime-idle
状态,此状态同样对应芯片的 Sleep 模式从
runtime-dle
状态唤醒后,系统又进入持续 600ms 的suspend-to-idle
状态,此状态对应芯片的 DeepSleep 模式从
suspend-to-dle
状态唤醒后,系统又进入持续 900ms 的suspend-to-ram
状态,此状态对应芯片的 Standby M1 (with SRAM Retention) 模式从
suspend-to-ram
状态唤醒后,系统复位,此次 Reset 原因显示为 Waked up from zephyr suspend-to-ram state然后芯片进入了持续 1600ms(实际上是无限时间)的
soft-off
状态,此状态对应芯片的 Standby M0 模式,只能通过 GPIO P56 引脚唤醒
按一下 EVB 底板上的 WKUP (P56) 按键,由串口打印信息可知触发了芯片唤醒:
Try to load HW calibration data.. DONE. - Chip Type : 0x80 - Chip CP Version : None - Chip FT Version : 5 - Chip MAC Address : D0000C0293CA - Chip Flash UID : 31373237300A29494330FFFFFFFFFFFF - Chip Flash Size : 1024 KB *** Booting Zephyr OS build zephyr-v2.7.0-1347-g4073b5da347f *** Reset Reason: Waked up from zephyr soft-off state. Sleep 100ms to enter zephyr pm cpu-idle state.. Waked up from zephyr cpu-idle state. Sleep 300ms to enter zephyr pm runtime-idle state.. Waked up from zephyr runtime-idle state. Sleep 600ms to enter zephyr pm suspend-to-idle state.. Waked up from zephyr suspend-to-idle state. Sleep 900ms to enter zephyr pm suspend-to-ram state.. Try to load HW calibration data.. DONE. - Chip Type : 0x80 - Chip CP Version : None - Chip FT Version : 5 - Chip MAC Address : D0000C0293CA - Chip Flash UID : 31373237300A29494330FFFFFFFFFFFF - Chip Flash Size : 1024 KB *** Booting Zephyr OS build zephyr-v2.7.0-1347-g4073b5da347f *** Reset Reason: Waked up from zephyr suspend-to-ram state. Sleep 1600ms to enter zephyr pm soft-off state..
由上述 Log 可得知以下信息:
本次芯片 Reset 原因为 Waked up from zephyr soft-off state.
接着芯片重复进入各个低功耗模式,最终再次停在
soft-off
状态等待下一次 P56 按键唤醒
5 开发者说明¶
5.2 进入低功耗的时机¶
&cpu0 {
cpu-power-states = <&state0 &state1 &state2 &state3>;
};
&state0 {
compatible = "zephyr,power-state";
power-state-name = "runtime-idle";
min-residency-us = <200000>;
exit-latency-us = <32>;
};
&state1 {
compatible = "zephyr,power-state";
power-state-name = "suspend-to-idle";
min-residency-us = <500000>;
exit-latency-us = <32>;
};
&state2 {
compatible = "zephyr,power-state";
power-state-name = "suspend-to-ram";
min-residency-us = <800000>;
exit-latency-us = <32>;
};
&state3 {
compatible = "zephyr,power-state";
power-state-name = "soft-off";
min-residency-us = <1500000>;
exit-latency-us = <32>;
};
以该参数来说明:
cpu0 有四种低功耗状态,分别为
state0:
runtime-idle
(sleep mode)state1:
suspend-to-idle
(deepsleep mode)state2:
suspend-to-ram
(standby mode1)state3:
soft-off
(standby mode0)
如果idle时间满足以下条件:
if (time_to_next_scheduled_event >= (state.min_residency_us + state.exit_latency))) {
return state
}
则进入相应的state。
6 RAM/Flash资源使用情况¶
Memory region Used Size Region Size %age Used
FLASH: 19792 B 384 KB 5.03%
SRAM: 6944 B 64 KB 10.60%