.title KiCad schematic
.save all
.probe alli
.tran 1u 10m

BI1 /ibehavioral GND I=sin(2*pi*10000*time) 
R23 /irandexp GND 100 
R22 /irandnormal GND 100 
R21 /iranduniform GND 100 
R20 /iburstnoise GND 100 
R24 /ibehavioral GND 100 
IBURSTNOISE1 /iburstnoise GND TRNOISE( 0 0 0 0 1 1m 1m ) 
IRANDUNIFORM1 /iranduniform GND TRRANDOM( 1 1u 1m -2 0 ) 
IRANDNORMAL1 /irandnormal GND TRRANDOM( 2 1u 0 1m 1 ) 
IRANDEXP1 /irandexp GND TRRANDOM( 3 1u 0 1m 1 ) 
VPINKNOISE1 /vpinknoise GND TRNOISE( 0 1u 1 1m 0 0 0 ) 
VWHITENOISE1 /vwhitenoise GND TRNOISE( 1m 1u 0 0 0 0 0 ) 
R6 /vwhitenoise GND 100 
VPWL1 /vpwl GND PWL( 0 0 1m 1 2m 0 3m 500m 4m 0 ) 
VEXP1 /vexp GND EXP( 0 1 1m 500u 2m 500u ) 
R7 /vpinknoise GND 100 
R5 /vpwl GND 100 
R4 /vexp GND 100 
R13 /iwhitenoise GND 100 
R12 /ipwl GND 100 
IPWL1 /ipwl GND PWL( 0 0 1m 1 2m 0 3m 500m 4m 0 ) 
IWHITENOISE1 /iwhitenoise GND TRNOISE( 1m 1u 0 0 0 0 0 ) 
R11 /iexp GND 100 
IEXP1 /iexp GND EXP( 0 1 1m 500u 2m 500u ) 
R14 /ipinknoise GND 100 
IPINKNOISE1 /ipinknoise GND TRNOISE( 0 1u 1 1m 0 0 0 ) 
R18 /vrandexp GND 100 
R19 /vbehavioral GND 100 
R15 /vburstnoise GND 100 
R16 /vranduniform GND 100 
VRANDUNIFORM1 /vranduniform GND TRRANDOM( 1 1u 1m -2 0 ) 
BV1 /vbehavioral GND V=sin(2*pi*10000*time) 
R17 /vrandnormal GND 100 
VRANDNORMAL1 /vrandnormal GND TRRANDOM( 2 1u 0 1m 1 ) 
VBURSTNOISE1 /vburstnoise GND TRNOISE( 0 0 0 0 1 1m 1m ) 
VRANDEXP1 /vrandexp GND TRRANDOM( 3 1u 0 1m 1 ) 
R8 /idc GND 100 
R9 /isin GND 100 
IPULSE1 /ipulse GND PULSE( 0 1 1m 1u 1u 1m 2m ) 
R10 /ipulse GND 100 
IDC1 /idc GND 1 
ISIN1 /isin GND SIN( 0 1 1k 1m ) 
VPULSE1 /vpulse GND PULSE( 0 1 1m 1u 1u 1m 2m ) 
R3 /vpulse GND 100 
R2 /vsin GND 100 
VSIN1 /vsin GND SIN( 0 1 1k 1m ) 
VDC1 /vdc GND 1 
R1 /vdc GND 100 
.end