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Tasmota/lib/libesp32/Berry/default/embedded/i2c_axp192.be

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#-------------------------------------------------------------
- Generic driver for AXP192 - solidified
-------------------------------------------------------------#
class AXP192 : I2C_Driver
def init()
super(self, I2C_Driver).init("AXP192", 0x34)
end
# Return True = Battery Exist
def battery_present()
if self.wire.read(self.addr, 0x01, 1) & 0x20 return true
else return false
end
end
# Input Power Status ???
def get_input_power_status()
return self.wire.read(self.addr, 0x00, 1)
end
# Battery Charging Status
def get_battery_chargin_status()
return self.wire.read(self.addr, 0x01, 1)
end
# AXP chip temperature in °C
def get_temp()
return self.read12(0x5E) * 0.1 - 144.7
end
def get_bat_power()
return self.read24(0x70) * 0.00055
end
def get_bat_voltage()
return self.read12(0x78) * 0.0011
end
def get_bat_current()
return (self.read13(0x7A) - self.read13(0x7C)) * 0.5
end
def get_bat_charge_current()
return self.read13(0x7A) * 0.5
end
def get_aps_voltage()
return self.read12(0x7E) * 0.0014
end
def get_vbus_voltage()
return self.read12(0x5A) * 0.0017
end
def get_vbus_current()
return self.read12(0x5C) * 0.375
end
# set LDO voltage
# ldo: 2/3
# voltage: (mV) 1800mV - 3300mV in 100mV steps
def set_ldo_voltage(ldo, voltage)
if voltage > 3300 voltage = 15
else voltage = (voltage / 100) - 18
end
if ldo == 2
self.write8(0x28, self.read8(0x28) & 0x0F | ((voltage & 0x0F) << 4))
end
if ldo == 3
self.write8(0x28, self.read8(0x28) & 0xF0 | (voltage & 0x0F))
end
end
# set DCDC enable, 1/2/3
def set_dcdc_enable(dcdc, state)
if dcdc == 1 self.write_bit(0x12, 0, state) end
if dcdc == 2 self.write_bit(0x12, 4, state) end
if dcdc == 3 self.write_bit(0x12, 1, state) end
end
# set LDO enable, 2/3 (LDO 1 is always on)
def set_ldo_enable(ldo, state)
if ldo == 2 self.write_bit(0x12, 2, state) end
if ldo == 3 self.write_bit(0x12, 3, state) end
end
# set GPIO output state 0/1/2 and 3/4
def write_gpio(gpio, state)
if gpio >= 0 && gpio <= 2
self.write_bit(0x94, gpio, state)
elif gpio >= 3 && gpio <= 4
self.write_bit(0x96, gpio - 3, state)
end
end
# Set voltage on DC-DC1/2/3
# dcdc: 1/2/3 (warning some C libs start at 0)
# voltage:
def set_dc_voltage(dcdc, voltage)
if dcdc < 1 || dcdc > 3 return end
var v
if voltage < 700 v = 0
elif voltage > 3500 v = 112
elif dcdc == 2 && voltage > 2275 v = 63 # dcdc2 is limited to 2.275V
else v = (voltage - 700) / 25
end
var addr = 0x26
if dcdc == 3 addr = 0x27
elif dcdc == 2 addr = 0x23
end
self.write8(addr, self.read8(addr) & 0x80 | (v & 0x7F))
end
# Set charging current
# 100mA = 0
# 190mA = 1
# 280mA = 2
# 360mA = 3
# 450mA = 4
# 550mA = 5
# 630mA = 6
# 700mA = 7
# 780mA = 8
# 880mA = 9
# 960mA = 10
# 1000mA = 11
# 1080mA = 12
# 1160mA = 13
# 1240mA = 14
# 1320mA = 15
def set_chg_current(current_code)
self.write8(0x33, self.read8(0x33) & 0xF0 | (current_code & 0x0F))
end
# // Low Volt Level 1, when APS Volt Output < 3.4496 V
# // Low Volt Level 2, when APS Volt Output < 3.3992 V, then this flag is SET (0x01)
# // Flag will reset once battery volt is charged above Low Volt Level 1
# // Note: now AXP192 have the Shutdown Voltage of 3.0V (B100) Def in REG 31H
def get_warning_level()
return self.read12(0x47) & 1
end
#- trigger a read every second -#
# def every_second()
# if !self.wire return nil end #- exit if not initialized -#
# end
#- display sensor value in the web UI -#
def web_sensor()
if !self.wire return nil end #- exit if not initialized -#
import string
var msg = string.format(
"{s}VBus Voltage{m}%.3f V{e}"..
"{s}VBus Current{m}%.1f mA{e}"..
"{s}Batt Voltage{m}%.3f V{e}"..
"{s}Batt Current{m}%.1f mA{e}"..
#"{s}Batt Power{m}%.3f{e}"..
"{s}Temp AXP{m}%.1f °C{e}",
self.get_vbus_voltage(), self.get_vbus_voltage(),
self.get_bat_voltage(), self.get_bat_current(),
#self.get_bat_power(),
self.get_temp()
)
tasmota.web_send_decimal(msg)
end
#- add sensor value to teleperiod -#
def json_append()
if !self.wire return nil end #- exit if not initialized -#
# import string
# var ax = int(self.accel[0] * 1000)
# var ay = int(self.accel[1] * 1000)
# var az = int(self.accel[2] * 1000)
# var msg = string.format(",\"MPU6886\":{\"AX\":%i,\"AY\":%i,\"AZ\":%i,\"GX\":%i,\"GY\":%i,\"GZ\":%i}",
# ax, ay, az, self.gyro[0], self.gyro[1], self.gyro[2])
# tasmota.response_append(msg)
end
end
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