summaryrefslogtreecommitdiff
path: root/Windows/spice/examples/xspice/pll/test_vco.cir
diff options
context:
space:
mode:
authorrahulp132020-02-28 11:38:58 +0530
committerrahulp132020-02-28 11:38:58 +0530
commit246319682f60293b132fca1ce6e24689c6682617 (patch)
tree6871b758a17869efecfd617f5513e31f9a933f4a /Windows/spice/examples/xspice/pll/test_vco.cir
parentd9ab84106cac311d953f344386fef1c1e2bca1cf (diff)
downloadeSim-246319682f60293b132fca1ce6e24689c6682617.tar.gz
eSim-246319682f60293b132fca1ce6e24689c6682617.tar.bz2
eSim-246319682f60293b132fca1ce6e24689c6682617.zip
initial commit
Diffstat (limited to 'Windows/spice/examples/xspice/pll/test_vco.cir')
-rw-r--r--Windows/spice/examples/xspice/pll/test_vco.cir158
1 files changed, 158 insertions, 0 deletions
diff --git a/Windows/spice/examples/xspice/pll/test_vco.cir b/Windows/spice/examples/xspice/pll/test_vco.cir
new file mode 100644
index 00000000..522eac00
--- /dev/null
+++ b/Windows/spice/examples/xspice/pll/test_vco.cir
@@ -0,0 +1,158 @@
+* Test of VCO: frequency versus control voltage
+* 7 stage Ring-Osc. made of gain cells BSIM3
+* P.-H. Hsieh, J. Maxey, C.-K. K. Yang, IEEE JSSC, Sept. 2009, pp. 2488 - 2495
+* alternatively use d_osc code model
+* measure frequency of R.O. by fft
+
+.param vcc=3.3
+.csparam simtime=500n
+
+vdd dd 0 dc 'vcc'
+vco cont 0 dc 2.5
+
+* vco
+* buf: analog out
+* d_digout: digital out
+* cont: analog control voltage
+* dd: analog supply voltage
+*.include vco_sub.cir
+*xvco buf d_digout cont dd ro_vco
+.include vco_sub_new.cir
+xvco buf d_digout cont dd d_osc_vco
+
+.option noacct
+
+.control
+set xtrtol=2
+set dt = $curplot
+set curplot = new
+set curplottitle = "Frequency versus voltage"
+set freq_volt = $curplot $ store its name to 'freq_volt'
+setplot $freq_volt
+let vcovec=vector(5)
+let foscvec=vector(5)
+setplot $dt
+alter vco 0.5
+tran 0.1n $&simtime 0
+let {$freq_volt}.vcovec[0]=v(cont)
+linearize buf
+fft buf
+* start meas at freq > 0 to skip large dc part
+meas sp fosc MAX_AT buf from=1e3 to=1e9
+let {$freq_volt}.foscvec[0]=fosc
+plot d_digout xlimit 140n 160n
+reset
+alter vco 1
+tran 0.1n $&simtime 0
+let {$freq_volt}.vcovec[1]=v(cont)
+linearize buf
+fft buf
+meas sp fosc MAX_AT buf from=1e3 to=1e9
+let {$freq_volt}.foscvec[1]=fosc
+plot d_digout xlimit 140n 160n
+reset
+alter vco 1.5
+tran 0.1n $&simtime 0
+let {$freq_volt}.vcovec[2]=v(cont)
+linearize buf
+fft buf
+meas sp fosc MAX_AT buf from=1e3 to=1e9
+let {$freq_volt}.foscvec[2]=fosc
+plot d_digout xlimit 140n 160n
+reset
+alter vco 2
+tran 0.1n $&simtime 0
+let {$freq_volt}.vcovec[3]=v(cont)
+linearize buf
+fft buf
+meas sp fosc MAX_AT buf from=1e3 to=1e9
+let {$freq_volt}.foscvec[3]=fosc
+plot d_digout xlimit 140n 160n
+reset
+alter vco 2.5
+tran 0.1n $&simtime 0
+let {$freq_volt}.vcovec[4]=v(cont)
+linearize buf
+fft buf
+meas sp fosc MAX_AT buf from=1e3 to=1e9
+let {$freq_volt}.foscvec[4]=fosc
+plot d_digout xlimit 140n 160n
+plot tran1.buf tran3.buf tran5.buf tran7.buf tran9.buf xlimit 140n 160n
+plot mag(sp2.buf) mag(sp4.buf) mag(sp6.buf) mag(sp8.buf) mag(sp10.buf) xlimit 100e6 1100e6
+setplot $freq_volt
+settype frequency foscvec
+settype voltage vcovec
+plot foscvec vs vcovec
+print vcovec foscvec
+rusage
+.endc
+
+*model = bsim3v3
+*Berkeley Spice Compatibility
+* Lmin= .35 Lmax= 20 Wmin= .6 Wmax= 20
+.model N1 NMOS
+*+version = 3.2.4
++version = 3.3.0
++Level= 8
++Tnom=27.0
++Nch= 2.498E+17 Tox=9E-09 Xj=1.00000E-07
++Lint=9.36e-8 Wint=1.47e-7
++Vth0= .6322 K1= .756 K2= -3.83e-2 K3= -2.612
++Dvt0= 2.812 Dvt1= 0.462 Dvt2=-9.17e-2
++Nlx= 3.52291E-08 W0= 1.163e-6
++K3b= 2.233
++Vsat= 86301.58 Ua= 6.47e-9 Ub= 4.23e-18 Uc=-4.706281E-11
++Rdsw= 650 U0= 388.3203 wr=1
++A0= .3496967 Ags=.1 B0=0.546 B1= 1
++ Dwg = -6.0E-09 Dwb = -3.56E-09 Prwb = -.213
++Keta=-3.605872E-02 A1= 2.778747E-02 A2= .9
++Voff=-6.735529E-02 NFactor= 1.139926 Cit= 1.622527E-04
++Cdsc=-2.147181E-05
++Cdscb= 0 Dvt0w = 0 Dvt1w = 0 Dvt2w = 0
++ Cdscd = 0 Prwg = 0
++Eta0= 1.0281729E-02 Etab=-5.042203E-03
++Dsub= .31871233
++Pclm= 1.114846 Pdiblc1= 2.45357E-03 Pdiblc2= 6.406289E-03
++Drout= .31871233 Pscbe1= 5000000 Pscbe2= 5E-09 Pdiblcb = -.234
++Pvag= 0 delta=0.01
++ Wl = 0 Ww = -1.420242E-09 Wwl = 0
++ Wln = 0 Wwn = .2613948 Ll = 1.300902E-10
++ Lw = 0 Lwl = 0 Lln = .316394
++ Lwn = 0
++kt1=-.3 kt2=-.051
++At= 22400
++Ute=-1.48
++Ua1= 3.31E-10 Ub1= 2.61E-19 Uc1= -3.42e-10
++Kt1l=0 Prt=764.3
+
+.model P1 PMOS
+*+version = 3.2.4
++version = 3.3.0
++Level= 8
++Tnom=27.0
++Nch= 3.533024E+17 Tox=9E-09 Xj=1.00000E-07
++Lint=6.23e-8 Wint=1.22e-7
++Vth0=-.6732829 K1= .8362093 K2=-8.606622E-02 K3= 1.82
++Dvt0= 1.903801 Dvt1= .5333922 Dvt2=-.1862677
++Nlx= 1.28e-8 W0= 2.1e-6
++K3b= -0.24 Prwg=-0.001 Prwb=-0.323
++Vsat= 103503.2 Ua= 1.39995E-09 Ub= 1.e-19 Uc=-2.73e-11
++ Rdsw= 460 U0= 138.7609
++A0= .4716551 Ags=0.12
++Keta=-1.871516E-03 A1= .3417965 A2= 0.83
++Voff=-.074182 NFactor= 1.54389 Cit=-1.015667E-03
++Cdsc= 8.937517E-04
++Cdscb= 1.45e-4 Cdscd=1.04e-4
++ Dvt0w=0.232 Dvt1w=4.5e6 Dvt2w=-0.0023
++Eta0= 6.024776E-02 Etab=-4.64593E-03
++Dsub= .23222404
++Pclm= .989 Pdiblc1= 2.07418E-02 Pdiblc2= 1.33813E-3
++Drout= .3222404 Pscbe1= 118000 Pscbe2= 1E-09
++Pvag= 0
++kt1= -0.25 kt2= -0.032 prt=64.5
++At= 33000
++Ute= -1.5
++Ua1= 4.312e-9 Ub1= 6.65e-19 Uc1= 0
++Kt1l=0
+
+.end