test_single_cell_ECM Namespace Reference

Variables
dictionary	options = {"number of rc elements": 1}
	model = pybamm.equivalent_circuit.Thevenin(options)
	params = slide_defaults.get_default_param()
	slide_OCV
	experiment
	sim = pybamm.Simulation(model, experiment=experiment)
	start_time = time.time()
	solution = sim.solve()
	end_time = time.time()
	t = solution["Time [s]"]
	V = solution["Terminal voltage [V]"]
	Tc = solution['Cell temperature [C]']

Variable Documentation

end_time

test_single_cell_ECM.end_time = time.time()

experiment

test_single_cell_ECM.experiment

Initial value:

=  pybamm.Experiment([
    "Discharge at 16 A for 30 minutes"])

model

test_single_cell_ECM.model = pybamm.equivalent_circuit.Thevenin(options)

options

dictionary test_single_cell_ECM.options = {"number of rc elements": 1}

params

test_single_cell_ECM.params = slide_defaults.get_default_param()

sim

test_single_cell_ECM.sim = pybamm.Simulation(model, experiment=experiment)

slide_OCV

test_single_cell_ECM.slide_OCV

Initial value:

=  np.genfromtxt(
    "../../results/PyBAMM_1_CC_Crate_Cell_SPM_cellData.csv", delimiter=",", skip_header=3)

solution

test_single_cell_ECM.solution = sim.solve()

start_time

test_single_cell_ECM.start_time = time.time()

t

test_single_cell_ECM.t = solution["Time [s]"]

Tc

test_single_cell_ECM.Tc = solution['Cell temperature [C]']

V

test_single_cell_ECM.V = solution["Terminal voltage [V]"]