8.4.6. Voltage Multiplier¶
#r# This example depicts a voltage multiplier using diodes and capacitors. To go further, you can
#r# read this `page <http://en.wikipedia.org/wiki/Voltage_multiplier>`_ on Wikipedia.
####################################################################################################
import matplotlib.pyplot as plt
####################################################################################################
import PySpice.Logging.Logging as Logging
logger = Logging.setup_logging()
####################################################################################################
from PySpice.Doc.ExampleTools import find_libraries
from PySpice.Probe.Plot import plot
from PySpice.Spice.Library import SpiceLibrary
from PySpice.Spice.Netlist import Circuit
from PySpice.Unit import *
####################################################################################################
libraries_path = find_libraries()
spice_library = SpiceLibrary(libraries_path)
####################################################################################################
#f# circuit_macros('voltage-multiplier-circuit.m4')
circuit = Circuit('Voltage Multiplier')
circuit.include(spice_library['1N4148'])
source = circuit.SinusoidalVoltageSource('input', 'in', circuit.gnd, amplitude=10@u_V, frequency=50@u_Hz)
multiplier = 5
for i in range(multiplier):
if i:
top_node = i - 1
else:
top_node = 'in'
midlle_node, bottom_node = i + 1, i
circuit.C(i, top_node, midlle_node, 1@u_mF)
circuit.X(i, '1N4148', midlle_node, bottom_node)
circuit.R(1, multiplier, multiplier+1, 1@u_MΩ)
simulator = circuit.simulator(temperature=25, nominal_temperature=25)
analysis = simulator.transient(step_time=source.period/200, end_time=source.period*20)
####################################################################################################
figure, ax = plt.subplots(figsize=(20, 10))
ax.set_title('Voltage Multiplier')
ax.set_xlabel('Time [s]')
ax.set_ylabel('Voltage [V]')
ax.grid()
# Fixme: axis vs axe ...
ax.plot(analysis['in'])
for i in range(1, multiplier+1):
y = analysis[str(i)]
if i & 1: # for odd multiplier the ground is permuted
y -= analysis['in']
ax.plot(y)
# ax.axhline(-multiplier*source.amplitude)
ax.set_ylim(float(-multiplier*1.1*source.amplitude), float(1.1*source.amplitude))
ax.legend(['input'] + ['*' + str(i) for i in range(1, multiplier+1)] ,
loc=(.2,.8))
plt.tight_layout()
plt.show()
#f# save_figure('figure', 'voltage-multiplier.png')
This example depicts a voltage multiplier using diodes and capacitors. To go further, you can read this page on Wikipedia.
import matplotlib.pyplot as plt
import PySpice.Logging.Logging as Logging
logger = Logging.setup_logging()
from PySpice.Doc.ExampleTools import find_libraries
from PySpice.Probe.Plot import plot
from PySpice.Spice.Library import SpiceLibrary
from PySpice.Spice.Netlist import Circuit
from PySpice.Unit import *
libraries_path = find_libraries()
spice_library = SpiceLibrary(libraries_path)
circuit = Circuit('Voltage Multiplier')
circuit.include(spice_library['1N4148'])
source = circuit.SinusoidalVoltageSource('input', 'in', circuit.gnd, amplitude=10@u_V, frequency=50@u_Hz)
multiplier = 5
for i in range(multiplier):
if i:
top_node = i - 1
else:
top_node = 'in'
midlle_node, bottom_node = i + 1, i
circuit.C(i, top_node, midlle_node, 1@u_mF)
circuit.X(i, '1N4148', midlle_node, bottom_node)
circuit.R(1, multiplier, multiplier+1, 1@u_MΩ)
simulator = circuit.simulator(temperature=25, nominal_temperature=25)
analysis = simulator.transient(step_time=source.period/200, end_time=source.period*20)
figure, ax = plt.subplots(figsize=(20, 10))
ax.set_title('Voltage Multiplier')
ax.set_xlabel('Time [s]')
ax.set_ylabel('Voltage [V]')
ax.grid()
# Fixme: axis vs axe ...
ax.plot(analysis['in'])
for i in range(1, multiplier+1):
y = analysis[str(i)]
if i & 1: # for odd multiplier the ground is permuted
y -= analysis['in']
ax.plot(y)
# ax.axhline(-multiplier*source.amplitude)
ax.set_ylim(float(-multiplier*1.1*source.amplitude), float(1.1*source.amplitude))
ax.legend(['input'] + ['*' + str(i) for i in range(1, multiplier+1)] ,
loc=(.2,.8))
plt.tight_layout()
plt.show()
