11.1.10.1. BasicElement

This module implements SPICE circuit elements.

Warning

Some elements are partially implemented.

Warning

The API documentation generated by Sphinx is perfectible for this module. The source code can be more informative.

Note

It would be nice to have a useful and working documentation in the interactive environment.

The element’s parameters are internally implemented using class attributes and descriptors.

There are two types of parameters, positionals which are required and where the order mater, and optional parameters which are passed as keyword arguments.

Parameters are registered with more expressive and longer names than their Spice counterparts. For optional parameters, we can use both Spice and longer name for convenience.

See Ngspice documentation for details.

First letter

Element description

A

XSPICE code model

B

Behavioral (arbitrary) source

C

Capacitor

D

Diode

E

Voltage-controlled voltage source (VCVS)

F

Current-controlled current source (CCCs)

G

Voltage-controlled current source (VCCS)

H

Current-controlled voltage source (CCVS)

I

Current source

J

Junction field effect transistor (JFET)

K

Coupled (Mutual) Inductors

L

Inductor

M

Metal oxide field effect transistor (MOSFET)

N

Numerical device for GSS

O

Lossy transmission line

P

Coupled multiconductor line (CPL)

Q

Bipolar junction transistor (BJT)

R

Resistor

S

Switch (voltage-controlled)

T

Lossless transmission line

U

Uniformly distributed RC line

V

Voltage source

W

Switch (current-controlled)

X

Subcircuit

Y

Single lossy transmission line (TXL)

Z

Metal semiconductor field effect transistor (MESFET)

class PySpice.Spice.BasicElement.BehavioralCapacitor(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a behavioral capacitor.

Spice syntax:

CXXXXXXX n+ n- 'expression' <tc1=value> <tc2=value>
CXXXXXXX n+ n- C='expression' <tc1=value> <tc2=value>

Keyword Parameters:

Attributes:

ALIAS = 'BehavioralCapacitor'
PREFIX = 'C'

SPICE element prefix

capacitance_expression = None
tc1 = None
tc2 = None
class PySpice.Spice.BasicElement.BehavioralInductor(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a behavioral inductor.

Spice syntax:

LXXXXXXX n+ n- 'expression' <tc1=value> <tc2=value>
LXXXXXXX n+ n- L='expression' <tc1=value> <tc2=value>

Keyword Parameters:

Attributes:

ALIAS = 'BehavioralInductor'
PREFIX = 'L'

SPICE element prefix

inductance_expression = None
tc1 = None
tc2 = None
class PySpice.Spice.BasicElement.BehavioralResistor(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a behavioral resistor.

Spice syntax:

RXXXXXXX n+ n- 'expression' <tc1=value> <tc2=value>
Rxxxxxxx n+ n- R='expression' <tc1=value> <tc2=value>

Keyword Parameters:

Attributes:

ALIAS = 'BehavioralResistor'
PREFIX = 'R'

SPICE element prefix

resistance_expression = None
tc1 = None
tc2 = None
class PySpice.Spice.BasicElement.BehavioralSource(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a behavioral source.

Spice syntax:

BXXXXXXX n+ n- <i=expr> <v=expr> <tc1=value> <tc2=value> <temp=value> <dtemp=value>

Keyword Parameters:

Attributes:

ALIAS = 'B'
PREFIX = 'B'

SPICE element prefix

current_expression = None
device_temperature = None
tc1 = None
tc2 = None
temperature = None
voltage_expression = None
class PySpice.Spice.BasicElement.BipolarJunctionTransistor(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.Netlist.FixedPinElement

This class implements a bipolar junction transistor.

Spice syntax:

QXXXXXXX nc nb ne <ns> mname <area=val> <areac=val> <areab=val> <m=val> <off> <ic=vbe,vce> <temp=val> <dtemp=val>

Keyword Parameters:

Attributes:

ALIAS = 'Q'
LONG_ALIAS = 'BJT'
PINS = [<PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>]
PREFIX = 'Q'

SPICE element prefix

area = None
areab = None
areac = None
property base
property collector
device_temperature = None
property emitter
ic = None
model = None
multiplier = None
off = False
property substrate
temperature = None
class PySpice.Spice.BasicElement.Capacitor(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a capacitor.

Spice syntax:

CXXXXXXX n+ n- <value> <mname> <m=val> <scale=val> <temp=val> <dtemp=val> <ic=init_condition>

Keyword Parameters:

Attributes:

ALIAS = 'C'
PREFIX = 'C'

SPICE element prefix

capacitance = None
device_temperature = None
initial_condition = None
model = None
multiplier = None
scale = None
temperature = None
class PySpice.Spice.BasicElement.CoupledInductor(name, *args, **kwargs)[source]

Bases: PySpice.Spice.Netlist.AnyPinElement

This class implementss a coupled (mutual) inductors.

Spice syntax:

KXXXXXXX LYYYYYYY LZZZZZZZ value

Keyword Parameters:

Attributes:

ALIAS = 'K'
PREFIX = 'K'

SPICE element prefix

coupling_factor = None
inductor1 = None
inductor2 = None
class PySpice.Spice.BasicElement.CoupledMulticonductorLine(netlist, name, *nodes, **parameters)[source]

Bases: PySpice.Spice.Netlist.NPinElement

This class implements coupled multiconductor lines.

Spice syntax:

PXXXXXXX NI1 NI2 ... NIX GND1 NO1 NO2 ... NOX GND2 model <len=length>

Attributes:

model

length

alias len length of the line in meters

Note

As opposite to Spice, the model is specified before the nodes so as to act as *args.

ALIAS = 'P'
PREFIX = 'P'

SPICE element prefix

length = None
model = None
class PySpice.Spice.BasicElement.CurrentControlledCurrentSource(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a linear current-controlled current sources (CCCS).

Spice syntax:

FXXXXXXX n+ n- vname value <m=val>

Keyword Parameters:

multiplier

alias m

Attributes:

ALIAS = 'F'
LONG_ALIAS = 'CCCS'
PREFIX = 'F'

SPICE element prefix

current_gain = None
multiplier = None
source = None
class PySpice.Spice.BasicElement.CurrentControlledSwitch(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a current controlled switch.

Spice syntax:

WYYYYYYY n+ n- vname model <on> <off>

Keyword Parameters:

Attributes:

ALIAS = 'W'
LONG_ALIAS = 'CCS'
PREFIX = 'W'

SPICE element prefix

initial_state = None
model = None
source = None
class PySpice.Spice.BasicElement.CurrentControlledVoltageSource(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a linear current-controlled voltage sources (CCVS).

Spice syntax:

HXXXXXXX n+ n- vname value

Keyword Parameters:

Attributes:

ALIAS = 'H'
LONG_ALIAS = 'CCVS'
PREFIX = 'H'

SPICE element prefix

source = None
transresistance = None
class PySpice.Spice.BasicElement.CurrentSource(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements an independent sources for current.

Spice syntax:

IYYYYYYY n+ n- <<dc> dc/tran value> <ac <acmag <acphase>>> <distof1 <f1mag <f1phase>>> <distof2 <f2mag <f2phase>>>

Keyword Parameters:

Attributes:

ALIAS = 'I'
PREFIX = 'I'

SPICE element prefix

dc_value = None
class PySpice.Spice.BasicElement.Diode(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.Netlist.FixedPinElement

This class implements a junction diode.

Spice syntax:

DXXXXXXX n+ n- mname <area=val> <m=val> <pj=val> <off> <ic=vd> <temp=val> <dtemp=val>

Keyword Parameters:

Attributes:

ALIAS = 'D'
PINS = [<PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>]
PREFIX = 'D'

SPICE element prefix

property anode
area = None
property cathode
device_temperature = None
ic = None
property minus
model = None
multiplier = None
off = False
pj = None
property plus
temperature = None
class PySpice.Spice.BasicElement.DipoleElement(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.Netlist.FixedPinElement

This class implements a base class for dipole element.

PINS = [<PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>]
property minus
property plus
class PySpice.Spice.BasicElement.GSSElement[source]

Bases: PySpice.Spice.Netlist.NPinElement

This class implements GSS device.

Warning

Not implemented

ALIAS = 'N'
PREFIX = 'N'

SPICE element prefix

class PySpice.Spice.BasicElement.Inductor(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements an inductor.

Spice syntax:

LYYYYYYY n+ n- <value> <mname> <nt=val> <m=val> <scale=val> <temp=val> <dtemp=val> <ic=init_condition>

Keyword Parameters:

nt

multiplier

alias m

scale

temperature

alias temp

device_temperature

alias dtemp

initial_condition

alias ic

Attributes:

ALIAS = 'L'
PREFIX = 'L'

SPICE element prefix

device_temperature = None
inductance = None
initial_condition = None
model = None
multiplier = None
nt = None
scale = None
temperature = None
class PySpice.Spice.BasicElement.JfetElement(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.Netlist.FixedPinElement

PINS = [<PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>]
property drain
property gate
property source
class PySpice.Spice.BasicElement.JunctionFieldEffectTransistor(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.JfetElement

This class implements a bipolar junction transistor.

Spice syntax:

JXXXXXXX nd ng ns mname <area> <off> <ic=vds,vgs> <temp=t>

Keyword Parameters:

Attributes:

ALIAS = 'J'
LONG_ALIAS = 'JFET'
PREFIX = 'J'

SPICE element prefix

area = None
ic = None
model = None
multiplier = None
off = False
temperature = None
class PySpice.Spice.BasicElement.LosslessTransmissionLine(name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.TwoPortElement

This class implements a lossless transmission line.

Spice syntax:

TXXXXXXX N1 N2 N3 N4 Z0=VALUE <TD=VALUE> <F=FREQ <NL=NRMLEN>> <IC=V1, I1, V2, I2>

where TD or F, NL must be specified.

Keyword Parameters:

impedance

alias:Z0 is the characteristic impedance

time_delay

alias:TD is the transmission delay

frequency

alias:F

normalized_length

alias:NL

Attributes:

The transmission delay, td, may be specified directly (as td=10ns, for example). Alternatively, a frequency f may be given, together with nl, the normalized electrical length of the transmission line with respect to the wavelength in the line at the frequency f. If a frequency is specified but nl is omitted, 0.25 is assumed (that is, the frequency is assumed to be the quarter-wave frequency). Note that although both forms for expressing the line length are indicated as optional, one of the two must be specified.

Note: Either time_delay or frequency must be given.

ALIAS = 'TransmissionLine'
PREFIX = 'T'

SPICE element prefix

frequency = None
impedance = 50
normalized_length = None
time_delay = None
class PySpice.Spice.BasicElement.LossyTransmission(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.TwoPortElement

This class implements lossy transmission lines.

Spice syntax:

OXXXXXXX n1 n2 n3 n4 model

Attributes:

Note

As opposite to Spice, the model is specified before the nodes so as to act as *args.

ALIAS = 'O'
PREFIX = 'O'

SPICE element prefix

model = None
class PySpice.Spice.BasicElement.Mesfet(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.JfetElement

This class implements a Metal Semiconductor Field Effect Transistor.

Spice syntax:

ZXXXXXXX nd ng ns mname <area> <off> <ic=vds,vgs>

Keyword Parameters:

Attributes:

ALIAS = 'Z'
LONG_ALIAS = 'MESFET'
PREFIX = 'Z'

SPICE element prefix

area = None
ic = None
model = None
multiplier = None
off = False
class PySpice.Spice.BasicElement.Mosfet(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.Netlist.FixedPinElement

This class implements a Metal Oxide Field Effect Transistor.

Spice syntax:

MXXXXXXX nd ng ns nb mname <m=val> <l=val> <w=val>
+ <ad=val> <as=val> <pd=val> <ps=val> <nrd=val>
+ <nrs=val> <off> <ic=vds,vgs,vbs> <temp=t>

Keyword Parameters:

model

multiplier

alias m

length

alias l

width

alias w

nfin

only for Xyce

drain_area

alias ad

source_area

alias as

drain_perimeter

alias pd

source_perimeter

alias ps

drain_number_square

alias nrd

source_number_square

alias nrs

off

ic

temperature

alias temp

Attributes:

ALIAS = 'M'
LONG_ALIAS = 'MOSFET'
PINS = [<PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>]
PREFIX = 'M'

SPICE element prefix

property bulk
property drain
drain_area = None
drain_number_square = None
drain_perimeter = None
property gate
ic = None
length = None
model = None
multiplier = None
nfin = None
off = False
property source
source_area = None
source_number_square = None
source_perimeter = None
property substrate
temperature = None
width = None
class PySpice.Spice.BasicElement.NonLinearCurrentSource(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a non-linear current sources.

Warning

Partially implemented

Spice syntax:

Gxxx n+ n- value={expr}
Gxxx n1 n2 TABLE {expression}=(x0,y0) (x1,y1) (x2,y2)
Gxxx n+ n- ( POLY (nd) ) nc1+ nc1- ( nc2+ nc2- ... ) p0 ( p1 ... )
Laplace

Keyword Parameters:

Attributes:

ALIAS = 'NonLinearCurrentSource'
PREFIX = 'G'

SPICE element prefix

transconductance = None
class PySpice.Spice.BasicElement.NonLinearVoltageSource(name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a non-linear voltage source.

Warning

Partially implemented

Spice syntax:

Exxx n+ n- vol='expr'
Exxx n+ n- value={expr}
Exxx n1 n2 TABLE {expression}=(x0,y0) (x1,y1) (x2,y2)
Exxx n+ n- ( POLY (nd) ) nc1+ nc1- ( nc2+ nc2- ... ) p0 ( p1 ... )
Laplace

Keyword Parameters:

Attributes:

ALIAS = 'NonLinearVoltageSource'
PREFIX = 'E'

SPICE element prefix

VALID_KWARGS = ('expression', 'table')
class PySpice.Spice.BasicElement.Resistor(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a resistor.

Spice syntax:

RXXXXXXX n+ n- value <ac=val> <m=val> <scale=val> <temp=val> <dtemp=val> <noisy=0|1>

Keyword Parameters:

ac

multiplier

alias m

scale

temperature

alias temp

device_temperature

alias dtemp

noisy

Attributes:

ALIAS = 'R'
PREFIX = 'R'

SPICE element prefix

ac = None
device_temperature = None
multiplier = None
noisy = None
resistance = None
scale = None
temperature = None
class PySpice.Spice.BasicElement.SemiconductorCapacitor(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a semiconductor capacitor.

Spice syntax:

CXXXXXXX n+ n- <value> <mname> <l=length> <w=width> <m=val> <scale=val> <temp=val> <dtemp=val> <ic=init_condition>

Keyword Parameters:

model

length

alias l

width

alias w

multiplier

alias m

scale

temperature

alias temp

device_temperature

alias dtemp

initial_condition

alias ic

Attributes:

ALIAS = 'SemiconductorCapacitor'
PREFIX = 'C'

SPICE element prefix

capacitance = None
device_temperature = None
initial_condition = None
length = None
model = None
multiplier = None
scale = None
temperature = None
width = None
class PySpice.Spice.BasicElement.SemiconductorResistor(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements a Semiconductor resistor.

Spice syntax:

RXXXXXXX n+ n- <value> <mname> <l=length> <w=width> <temp=val> <dtemp=val> m=<val> <ac=val> <scale=val> <noisy=0|1>

Keyword Parameters:

model

length

alias l

width

alias w

temperature

alias temp

device_temperature

alias dtemp

multiplier

alias m

ac

scale

noisy

Attributes:

ALIAS = 'SemiconductorResistor'
PREFIX = 'R'

SPICE element prefix

ac = None
device_temperature = None
length = None
model = None
multiplier = None
noisy = None
resistance = None
scale = None
temperature = None
width = None
class PySpice.Spice.BasicElement.SingleLossyTransmissionLine(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.TwoPortElement

This class implements single lossy transmission lines.

Spice syntax:

YXXXXXXX N1 0 N2 0 model <len=length>

Attributes:

model

length

alias len length of the line in meters

Note

As opposite to Spice, the model is specified before the nodes so as to act as *args.

ALIAS = 'Y'
PREFIX = 'Y'

SPICE element prefix

length = None
model = None
class PySpice.Spice.BasicElement.SubCircuitElement(netlist, name, subcircuit_name, *nodes, **parameters)[source]

Bases: PySpice.Spice.Netlist.NPinElement

This class implements a sub-circuit.

Spice syntax:

XYYYYYY node1 node2 ... subcircuit_name parameter1=value1 ...

Attributes:

Note

As opposite to Spice, the circuit’s name is specified before the nodes so as to act as *args.

ALIAS = 'X'
PREFIX = 'X'

SPICE element prefix

copy_to(netlist)[source]
format_spice_parameters()[source]

Return the formatted list of parameters.

subcircuit_name = None
class PySpice.Spice.BasicElement.TwoPortElement(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.Netlist.FixedPinElement

This class implements a base class for two-port element.

PINS = [<PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>]
property input_minus
property input_plus
property output_minus
property output_plus
class PySpice.Spice.BasicElement.UniformDistributedRCLine(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.Netlist.FixedPinElement

This class implements uniform distributed RC lines.

Spice syntax:

UXXXXXXX n1 n2 n3 model l=length <n=number_of_lumps>

Attributes:

model

length

alias l length of the RC line in meters

number_of_lumps

alias n

Note

As opposite to Spice, the model is specified before the nodes so as to act as *args.

ALIAS = 'U'
PINS = [<PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>, <PySpice.Spice.Netlist.PinDefinition object>]
PREFIX = 'U'

SPICE element prefix

property capacitance_node
property input
length = None
model = None
number_of_lumps = None
property output
class PySpice.Spice.BasicElement.VoltageControlledCurrentSource(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.TwoPortElement

This class implements a linear voltage-controlled current sources (VCCS).

Spice syntax:

Gxxx n+ n- nc+ nc- value <m=val>

Keyword Parameters:

multiplier

alias m

Attributes:

ALIAS = 'VCCS'
PREFIX = 'G'

SPICE element prefix

multiplier = None
transconductance = None
class PySpice.Spice.BasicElement.VoltageControlledSwitch(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.TwoPortElement

This class implements a voltage controlled switch.

Spice syntax:

SXXXXXXX n+ n- nc+ nc- model <on> <off>

Keyword Parameters:

Attributes:

ALIAS = 'S'
LONG_ALIAS = 'VCS'
PREFIX = 'S'

SPICE element prefix

initial_state = None
model = None
class PySpice.Spice.BasicElement.VoltageControlledVoltageSource(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.TwoPortElement

This class implements a linear voltage-controlled voltage sources (VCVS).

Spice syntax:

EXXXXXXX n+ n- nc+ nc- value

Keyword Parameters:

Attributes:

ALIAS = 'VCVS'
PREFIX = 'E'

SPICE element prefix

voltage_gain = None
class PySpice.Spice.BasicElement.VoltageSource(netlist, name, *args, **kwargs)[source]

Bases: PySpice.Spice.BasicElement.DipoleElement

This class implements an independent sources for voltage.

Spice syntax:

VXXXXXXX n+ n- <<dc> dc/tran value> <ac <acmag <acphase>>> <distof1 <f1mag <f1phase>>> <distof2 <f2mag <f2phase>>>

Keyword Parameters:

Attributes:

ALIAS = 'V'
PREFIX = 'V'

SPICE element prefix

dc_value = None
class PySpice.Spice.BasicElement.XSpiceElement(netlist, name, *nodes, **parameters)[source]

Bases: PySpice.Spice.Netlist.NPinElement

This class implements a sub-circuit.

Spice syntax:

AXXXXXXX <%v ,%i ,%vd ,%id ,%g,%gd ,%h,%hd , or %d>
+ <[> <~><%v ,%i ,%vd ,%id ,%g,%gd ,%h,%hd , or %d>
+ <NIN1 or +NIN1 -NIN1 or "null">
+ <~>...< NIN2 .. <]> >
+ <%v ,%i ,%vd ,%id ,%g,%gd ,%h,%hd ,%d or %vnam >
+ <[> <~><%v ,%i ,%vd ,%id ,%g,%gd ,%h,%hd ,
or %d>< NOUT1 or +NOUT1 -NOUT1 >
+ <~>...< NOUT2 .. <]>>
+ MODELNAME

. MODEL MODELNAME MODELTYPE
+ <( PARAMNAME1 = <[> VAL1 <VAL2 ... <]>> PARAMNAME2 ..>)>

Attributes:

Note

As opposite to Spice, the model is specified before the nodes so as to act as *args.

Warning

Partially implemented.

ALIAS = 'A'
PREFIX = 'A'

SPICE element prefix

model = None