Exemplo n.º 1
0
bounds = {
    "R1": [0, 1000],
    "Q1": [0, 1e-2],
    "alpha1": [0.1, 0.9],
    "R2": [0, 1000],
    "W1": [1, 200]
}
true_params = {"R1": 10, "Q1": 0.001, "alpha1": 0.8}
param_names = ["R1", "Q1", "alpha1"]
sim = EIS_genetics()
normaliser = EIS(circuit=ZARC,
                 parameter_bounds=bounds,
                 parameter_names=param_names,
                 test=True,
                 fitting=True)
sim1 = normaliser.simulate([true_params[x] for x in param_names], omegas)
fig, ax = plt.subplots(1, 2)
sim.plot_data(sim.dict_simulation(ZARC, omegas, [],
                                  [true_params[x] for x in param_names],
                                  param_names),
              ax[1],
              label="Analytic frequency simulation")
num_oscillations = 3
time_start = 0
sampling_rate = 200


def cpe1(denom, i, charge_array, time_array, dt):
    total = 0
    if i != 0:
        time_array = np.flip(time_array)
Exemplo n.º 2
0
for R3 in [10, 50, 100, 150, 200, 250]:
    for i in range(0, len(frequencies)):
        params = {
            "R1": 10,
            "R3": R3,
            "C2": 1e-3,
            "R2": 250,
            "Q1": 2e-3,
            "omega": frequencies[i],
            "C1": 1e-6,
            "W1": 40,
            "alpha1": 1
        }
        #spectra[0][i]=gamry_randles(**params)
        start = time.time()
        spectra[1][i] = test.simulate(**params)
        times[1] = time.time() - start
    print(times)
    #plt.plot(np.real(spectra[0,:]), -np.imag(spectra[0,:]), label="hard")
    ax[0, -1].plot(np.real(spectra[1, :]), -np.imag(spectra[1, :]), label=R3)
    ax[0, -1].scatter(
        np.real(spectra[1, :])[0::8], -np.imag(spectra[1, :])[0::8])
    plt.legend()
ax[0, -1].set_title("R3")
for C2 in [1e-6, 1e-5, 1e-4, 1e-3, 1e-2, 1e-1]:
    for i in range(0, len(frequencies)):
        params = {
            "R1": 10,
            "R3": 100,
            "C2": C2,
            "R2": 250,