ardupilot/libraries/AP_Scripting/applets/BattEstimate.lua

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--[[
battery state of charge (SOC) estimator based on resting voltage
See Tools/scripts/battery_fit.py for a tool to calculate the coefficients from a log
--]]
local MAV_SEVERITY = {EMERGENCY=0, ALERT=1, CRITICAL=2, ERROR=3, WARNING=4, NOTICE=5, INFO=6, DEBUG=7}
local PARAM_TABLE_KEY = 14
local PARAM_TABLE_PREFIX = "BATT_SOC"
-- bind a parameter to a variable
function bind_param(name)
local p = Parameter()
assert(p:init(name), string.format('could not find %s parameter', name))
return p
end
-- add a parameter and bind it to a variable
function bind_add_param(name, idx, default_value)
assert(param:add_param(PARAM_TABLE_KEY, idx, name, default_value), string.format('could not add param %s', name))
return bind_param(PARAM_TABLE_PREFIX .. name)
end
-- setup quicktune specific parameters
assert(param:add_table(PARAM_TABLE_KEY, PARAM_TABLE_PREFIX, 32), 'could not add param table')
--[[
// @Param: BATT_SOC_COUNT
// @DisplayName: Count of SOC estimators
// @Description: Number of battery SOC estimators
// @Range: 0 4
// @User: Standard
--]]
local BATT_SOC_COUNT = bind_add_param('_COUNT', 1, 0)
if BATT_SOC_COUNT:get() <= 0 then
return
end
--[[
// @Param: BATT_SOC1_IDX
// @DisplayName: Battery estimator index
// @Description: Battery estimator index
// @Range: 0 4
// @User: Standard
--]]
--[[
// @Param: BATT_SOC1_NCELL
// @DisplayName: Battery estimator cell count
// @Description: Battery estimator cell count
// @Range: 0 48
// @User: Standard
--]]
--[[
// @Param: BATT_SOC1_C1
// @DisplayName: Battery estimator coefficient1
// @Description: Battery estimator coefficient1
// @Range: 100 200
// @User: Standard
--]]
--[[
// @Param: BATT_SOC1_C2
// @DisplayName: Battery estimator coefficient2
// @Description: Battery estimator coefficient2
// @Range: 2 5
// @User: Standard
--]]
--[[
// @Param: BATT_SOC1_C3
// @DisplayName: Battery estimator coefficient3
// @Description: Battery estimator coefficient3
// @Range: 0.01 0.5
// @User: Standard
--]]
--[[
// @Param: BATT_SOC2_IDX
// @DisplayName: Battery estimator index
// @Description: Battery estimator index
// @Range: 0 4
// @User: Standard
--]]
--[[
// @Param: BATT_SOC2_NCELL
// @DisplayName: Battery estimator cell count
// @Description: Battery estimator cell count
// @Range: 0 48
// @User: Standard
--]]
--[[
// @Param: BATT_SOC2_C1
// @DisplayName: Battery estimator coefficient1
// @Description: Battery estimator coefficient1
// @Range: 100 200
// @User: Standard
--]]
--[[
// @Param: BATT_SOC2_C2
// @DisplayName: Battery estimator coefficient2
// @Description: Battery estimator coefficient2
// @Range: 2 5
// @User: Standard
--]]
--[[
// @Param: BATT_SOC2_C3
// @DisplayName: Battery estimator coefficient3
// @Description: Battery estimator coefficient3
// @Range: 0.01 0.5
// @User: Standard
--]]
--[[
// @Param: BATT_SOC3_IDX
// @DisplayName: Battery estimator index
// @Description: Battery estimator index
// @Range: 0 4
// @User: Standard
--]]
--[[
// @Param: BATT_SOC3_NCELL
// @DisplayName: Battery estimator cell count
// @Description: Battery estimator cell count
// @Range: 0 48
// @User: Standard
--]]
--[[
// @Param: BATT_SOC3_C1
// @DisplayName: Battery estimator coefficient1
// @Description: Battery estimator coefficient1
// @Range: 100 200
// @User: Standard
--]]
--[[
// @Param: BATT_SOC3_C2
// @DisplayName: Battery estimator coefficient2
// @Description: Battery estimator coefficient2
// @Range: 2 5
// @User: Standard
--]]
--[[
// @Param: BATT_SOC3_C3
// @DisplayName: Battery estimator coefficient3
// @Description: Battery estimator coefficient3
// @Range: 0.01 0.5
// @User: Standard
--]]
--[[
// @Param: BATT_SOC4_IDX
// @DisplayName: Battery estimator index
// @Description: Battery estimator index
// @Range: 0 4
// @User: Standard
--]]
--[[
// @Param: BATT_SOC4_NCELL
// @DisplayName: Battery estimator cell count
// @Description: Battery estimator cell count
// @Range: 0 48
// @User: Standard
--]]
--[[
// @Param: BATT_SOC4_C1
// @DisplayName: Battery estimator coefficient1
// @Description: Battery estimator coefficient1
// @Range: 100 200
// @User: Standard
--]]
--[[
// @Param: BATT_SOC4_C2
// @DisplayName: Battery estimator coefficient2
// @Description: Battery estimator coefficient2
// @Range: 2 5
// @User: Standard
--]]
--[[
// @Param: BATT_SOC4_C3
// @DisplayName: Battery estimator coefficient3
// @Description: Battery estimator coefficient3
// @Range: 0.01 0.5
// @User: Standard
--]]
local params = {}
local last_armed_ms = 0
--[[
add parameters for an estimator
--]]
function add_estimator(i)
id = string.format("%u_", i)
pidx = 2+(i-1)*5
params[i] = {}
params[i]['IDX'] = bind_add_param(id .. "IDX", pidx+0, 0)
params[i]['NCELL'] = bind_add_param(id .. "NCELL", pidx+1, 0)
params[i]['C1'] = bind_add_param(id .. "C1", pidx+2, 111.56)
params[i]['C2'] = bind_add_param(id .. "C2", pidx+3, 3.65)
params[i]['C3'] = bind_add_param(id .. "C3", pidx+4, 0.205)
end
local count = math.floor(BATT_SOC_COUNT:get())
for i = 1, count do
add_estimator(i)
end
local function constrain(v, vmin, vmax)
return math.max(math.min(v, vmax), vmin)
end
--[[
simple model of state of charge versus resting voltage.
With thanks to Roho for the form of the equation
https://electronics.stackexchange.com/questions/435837/calculate-battery-percentage-on-lipo-battery
--]]
local function SOC_model(cell_volt, c1, c2, c3)
local p0 = 80.0
local soc = c1*(1.0-1.0/(1+(cell_volt/c2)^p0)^c3)
return constrain(soc, 0, 100)
end
--[[
update one estimator
--]]
local function update_estimator(i)
local idx = math.floor(params[i]['IDX']:get())
local ncell = math.floor(params[i]['NCELL']:get())
if idx <= 0 or ncell <= 0 then
return
end
local C1 = params[i]['C1']:get()
local C2 = params[i]['C2']:get()
local C3 = params[i]['C3']:get()
local num_batts = battery:num_instances()
if idx > num_batts then
return
end
local voltR = battery:voltage_resting_estimate(idx-1)
local soc = SOC_model(voltR/ncell, C1, C2, C3)
battery:reset_remaining(idx-1, soc)
end
--[[
main update function, called at 1Hz
--]]
function update()
local now_ms = millis()
if arming:is_armed() then
last_armed_ms = now_ms
return update, 1000
end
-- don't update for 10s after disarm, to get logging of charge recovery
if now_ms - last_armed_ms < 10000 then
return update, 1000
end
for i = 1, #params do
update_estimator(i)
end
return update, 1000
end
gcs:send_text(MAV_SEVERITY.INFO, string.format("Loaded BattEstimate for %u batteries", #params))
-- start running update loop
return update, 1000