$ pip install ltspice- encoding : UTF8 / UTF16-LE
- format : Binary / Ascii
- extenstion : .raw / .fft
import ltspice
filepath = 'Your ltspice output file (.raw)'
l = ltspice.Ltspice(filepath)
l.parse() # Data loading sequence. It may take few minutes for huge file.
time = l.get_time()
V1 = l.get_data('V(N1)')
import ltspice
import matplotlib.pyplot as plt
import numpy as np
import os
l = ltspice.Ltspice(os.path.dirname(__file__)+'\\rc.raw')
# Make sure that the .raw file is located in the correct path
l.parse()
time = l.get_time()
V_source = l.get_data('V(source)')
V_cap = l.get_data('V(cap)')
plt.plot(time, V_source)
plt.plot(time, V_cap)
plt.show()
import ltspice
import matplotlib.pyplot as plt
import numpy as np
import os
l = ltspice.Ltspice(os.path.dirname(__file__)+'\\rectifier.raw')
# Make sure that the .raw file is located in the correct path
l.parse()
time = l.get_time()
V_source = l.get_data('V(source)')
V_cap_max = []
plt.plot(time, V_source)
for i in range(l.case_count): # Iteration in simulation cases
time = l.get_time(i)
# Case number starts from zero
# Each case has different time point numbers
V_cap = l.get_data('V(cap,pgnd)',i)
V_cap_max.append(max(V_cap))
plt.plot(time, V_cap)
print(V_cap_max)
plt.xlim((0, 1e-3))
plt.ylim((-15, 15))
plt.grid()
plt.show()$ [8.299080580472946, 7.855469107627869, 7.391375303268433, 6.944645524024963, 6.529755532741547]
If you want to find more usage examples, please check examples folder.