f221e2f8a4
So... waking up once per second turns out to be a dumb idea because it
regresses the stop watch and HRS tools (which now also only wake up once
per second).
Undo this change but sprinkle a few more micropython.native decorations
on methods used on the wakeup path to minimise power.
Fixes: fb18705b9b ("manager/rtc: Experimental power saving technique")
Signed-off-by: Daniel Thompson <daniel@redfelineninja.org.uk>
75 lines
2.4 KiB
Python
75 lines
2.4 KiB
Python
# SPDX-License-Identifier: LGPL-3.0-or-later
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# Copyright (C) 2020 Daniel Thompson
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"""Generic lithium ion battery driver
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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"""
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import micropython
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from machine import Pin, ADC
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class Battery(object):
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"""Generic lithium ion battery driver.
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.. automethod:: __init__
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"""
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def __init__(self, battery, charging, power=None):
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"""Specify the pins used to provide battery status.
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:param Pin battery: The ADC-capable pin that can be used to measure
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battery voltage.
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:param Pin charging: A pin (or Signal) that reports the charger status.
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:param Pin power: A pin (or Signal) that reports whether the device
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has external power, defaults to None (which means
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use the charging pin for power reporting too).
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"""
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self._battery = ADC(battery)
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self._charging = charging
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self._power = power
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@micropython.native
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def charging(self):
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"""Get the charging state of the battery.
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:returns: True if the battery is charging, False otherwise.
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"""
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return self._charging.value()
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def power(self):
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"""Check whether the device has external power.
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:returns: True if the device has an external power source, False
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otherwise.
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"""
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if self._power:
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return self._power.value()
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return self._charging.value()
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def voltage_mv(self):
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"""Read the battery voltage.
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Assumes a 50/50 voltage divider and a 3.3v power supply
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:returns: Battery voltage, in millivolts.
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"""
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raw = self._battery.read_u16()
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return (2 * 3300 * raw) // 65535
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def level(self):
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"""Estimate the battery level.
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The current the estimation approach is extremely simple. It is assumes
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the discharge from 4v to 3.5v is roughly linear and 4v is 100% and
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that 3.5v is 5%. Below 3.5v the voltage will start to drop pretty
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sharply to we will drop from 5% to 0% pretty fast... but we'll
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live with that for now.
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:returns: Estimate battery level in percent.
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"""
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mv = self.voltage_mv()
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level = ((19 * mv) // 100) - 660
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if level > 100:
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return 100
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if level < 0:
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return 0
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return level
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