Diagramme Scicos
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Diagramme de simulation d'un synthétiseur de fréquence fractionnaire accroché
//## LO
F_cpf = 20e6
T_cpf = 1/F_cpf
sig_ref = 3*%pi
//## VCO
Fo = 2.045e9
To = 1 / Fo
wo = 2*%pi * Fo
kv = 133e6
alpha = 6.91e9
beta2 = 0.15
j_vco = 75e3
closed = 1
//## DIVIDER
Fd = 2.50e9;
N = int(Fd/F_cpf)
//## DSM
DSM = 1
DZDSM = 0
nbit = 16
M = 2^nbit
K = 3013
dither = 1
DZ = 2*%pi*0.1/100
typ = 3 //int32
//## PFD & CP
Icp = 5e-3
Iup = Icp
Idown = Icp+100e-6
Ileak = 10e-6
Ileak_sig = 0*2/100
Th = 1e-9
//## LOOP FILTER
fn = F_cpf/290
phi = %pi/4
kv = kv*2*%pi
[tau1,tau,tau2] = calcul_3eme_ordre(fn,phi,kv,Icp,N)
s = poly(0,'s')
num = 1+tau1*s
den = tau*s*(1+tau2*s)
//## Custom components
C1=820e-12
C2=150e-12
R1=1500
Rvco=5e+3
Cvco=25e-12
//tau1=C2*R1
//tau=C2+C1
//tau2=R1*C1*C2/(C2+C1)
//tauvco=Rvco*Cvco
//## LINEAR MODEL
H = num/den //## loop filter
G = kv*Icp/(2*%pi)*num/(s*den) //##
GH = kv*Icp/(2*%pi)*num/(N*s*den) //##
kv = kv/(2*%pi)
//affiche_bode(1006,1e3,100e6,G,1+GH)
//## cont_frm
f11=cont_frm(num,den)
s11=syslin('c',f11.A,f11.B,f11.C)
//## tf2ss
f22=tf2ss(num/den,%eps)
s22=syslin('c',f22.A,f22.B,f22.C)
//## SPECTRUM ANALYSIS
winfft = 213
Tsampl = 1/100e6
nfft = 2048*512
onfft = nfft/4
aver = 16
//## SIMULATION EVENTS
Tacqui = 1e-5
Tfin = Tacqui + (nfft+aver*onfft)*Tsampl
Figure : Résultats des 'scopes'
Figure : Résultats des 'scopes'
A. Layec INRIA
