This is a package for interacting with MELCloud and Mitsubishi Electric devices. It's still a little rough around the edges and the documentation is non-existent.
The goals for this package are:
- To control and automate devices, not to configure them.
- Handle device capabilities behind the scenes.
- Make the different device types behave in predictable way.
There are built-in rate limits and debouncing for most of the methods
with the exception of the Device
update
method.
- Initialize devices for each account only once during application runtime.
- Make sure the
update
calls for eachDevice
are rate limited. A 60 second update interval is a good starting point. Going much faster will exceed the expected load for MELCloud and can potentially cause availability issues. - Make absolutely sure the
update
calls are rate limited.
- Air-to-air heat pumps (DeviceType=0)
- Air-to-water heat pumps (DeviceType=1)
- Energy Recovery Ventilators (DeviceType=3)
Reads access only locally cached state. Call device.update()
to
fetch the latest state.
Available properties:
name
mac
serial
units
- model info of related units.temp_unit
last_seen
power
daily_energy_consumed
wifi_signal
Other properties are available through _
prefixed state objects if
one has the time to go through the source.
room_temperature
target_temperature
target_temperature_step
target_temperature_min
target_temperature_max
operation_mode
- available
operation_modes
fan_speed
- available
fan_speeds
vane_horizontal
- available
vane_horizontal_positions
vane_vertical
- available
vane_vertical_positions
total_energy_consumed
in kWh. See notes below.
tank_temperature
target_tank_temperature
tank_temperature_min
tank_temperature_max
outside_temperature
zones
name
status
room_temperature
target_temperature
status
operation_mode
- available
operation_modes
room_temperature
outdoor_temperature
- available
fan_speeds
fan_speed
actual_supply_fan_speed
actual_exhaust_fan_speed
- available
ventilation_modes
ventilation_mode
actual_ventilation_mode
total_energy_consumed
wifi_signal
presets
error_code
core_maintenance_required
filter_maintenance_required
night_purge_mode
room_co2_level
The energy consumption reading is a little strange. The API returns a value of 1.8e6 for my unit. Judging by the scale the unit is either kJ or Wh. However, neither of them quite fits.
- Total reading in kJ matches better what I would expect based on the energy reports in MELCloud.
- In Wh the reading is 3-5 times greater than what I would expect, but the reading is increasing at a rate that seems to match energy reports in MELCloud.
Here are couple of readings with monthly reported usage as reference:
- 2020-01-04T23:42:00+02:00 - 1820400, 28.5 kWh
- 2020-01-05T09:44:00+02:00 - 1821300, 29.4 kWh
- 2020-01-05T10:49:00+02:00 - 1821500, 29.6 kWh
I'd say it's pretty clear that it is Wh and the total reading is not
reflective of unit lifetime energy consumption. total_energy_consumed
converts Wh to kWh.
Writes are applied after a debounce and update the local state once completed. The physical device does not register the changes immediately due to the 60 second polling interval.
Writable properties are:
power
target_temperature
operation_mode
fan_speed
vane_horizontal
vane_vertical
There's weird behavior associated with the horizontal vane swing. Toggling it on will also toggle vertical swing on and the horizontal swing has to be disabled before vertical vanes can be adjusted to any other position. This behavior can be replicated using the MELCloud user inteface.
target_tank_temperature
operation_mode
zone_1_target_temperature
zone_2_target_tempeature
Zone target temperatures can also be set via the Zone
object
returned by zones
property on AtwDevice
.
ventilation_mode
fan_speed
import aiohttp
import asyncio
import pymelcloud
async def main():
async with aiohttp.ClientSession() as session:
# call the login method with the session
token = await pymelcloud.login("my@example.com", "mysecretpassword", session=session)
# lookup the device
devices = await pymelcloud.get_devices(token, session=session)
device = devices[pymelcloud.DEVICE_TYPE_ATW][0]
# perform logic on the device
await device.update()
print(device.name)
await session.close()
loop = asyncio.get_event_loop()
loop.run_until_complete(main())