help:0.13um CMOS prosess parameters

[sj_helen]

μncox 0.13um cmos

help
i am doing analog ic design using 0.13um CMOS prosess.
who can tell me the process parameters?
ex.
Vth,λn,λpµnCox,µpCox?

Thank you in advanced.
:?:

 

[jody]

0.13um cmos parameters

you may access www.mosis.org

 

[drabos]

cmos beta0

these parameters depend on the factory (TSMC, Jazz, XFAB, ST,...)
If you are using Cadence for the design, just search the main window (icfb, icms...) and click to the design kit menu or HIT kit utilities or something like that, and after documentation or design documentation and find the process parameters, usually that is the way to access to these informations.

 

[sj_helen]

cadence xti parameter

you may access www.mosis.org

I am doing hand caculation
Could u tell me how can i find the λn and λp from www.mosis.org?
I use cadence soft ware.

Added after 2 minutes:

these parameters depend on the factory (TSMC, Jazz, XFAB, ST,...)
If you are using Cadence for the design, just search the main window (icfb, icms...) and click to the design kit menu or HIT kit utilities or something like that, and after documentation or design documentation and find the process parameters, usually that is the way to access to these informations.

Thank u for your help.
I am using cadence for the design.
But i can not find the parameter as your steps.
Could u paste the parameter of them(λ,µncox,Vth) here???

 

[sj_helen]

spice parameters for 0.13 um technology

i just use the parameter to do the hand caculation
how can tell me the parameter in general

 

[Blackuni]

0.13 um cmos process parameters

Hi

u can get them in two ways

1. If you have model lib from foundry then it will have the details about BSIM version. Based on these you can refer BSIM documents to find the details of notation. but this is static

the second way is to use SPICE tools. A take a mos bias it based on your interest and print operating point results by doing .op

this will be dynamic

Hope it clears

let me know for more info

Thanks

 

[rfzheng]

vth for 0.13um cmos

using 0.13um to design analog circuit mybe a little luxury.

you may check the model and read chapter two of gray's book.
this will help you to understand more about model for your designing.

 

[satyasiva]

cmos + 0.13um + v threshold

goto tsmc home page...u can find model files...

 

[pravin_dwaramwar]

0.13 hspice model parameter dlc

plz find here with 0.13um NMOS SPICE Parametersv (normal one)

.model NMOS NMOS
+Level = 49
also let me know the details of ur ckt.
* Predictive Technology Model Beta Version
* 0.13um NMOS SPICE Parametersv (normal one)
*

.model NMOS NMOS
+Level = 49

+Lint = 2.5e-08 Tox = 3.3e-09
+Vth0 = 0.332 Rdsw = 200

+lmin=1.3e-7 lmax=1.3e-7 wmin=1.3e-7 wmax=1.0e-4 Tref=27.0 version =3.1
+Xj= 4.5000000E-08 Nch= 5.6000000E+17
+lln= 1.0000000 lwn= 0.00 wln= 0.00
+wwn= 1.0000000 ll= 0.00
+lw= 0.00 lwl= 0.00 wint= 0.00
+wl= 0.00 ww= 0.00 wwl= 0.00
+Mobmod= 1 binunit= 2 xl= 0
+xw= 0 binflag= 0
+Dwg= 0.00 Dwb= 0.00

+K1= 0.3661500 K2= 0.00
+K3= 0.00 Dvt0= 8.7500000 Dvt1= 0.7000000
+Dvt2= 5.0000000E-02 Dvt0w= 0.00 Dvt1w= 0.00
+Dvt2w= 0.00 Nlx= 3.5500000E-07 W0= 0.00
+K3b= 0.00 Ngate= 5.0000000E+20

+Vsat= 1.3500000E+05 Ua= -1.8000000E-09 Ub= 2.2000000E-18
+Uc= -2.9999999E-11 Prwb= 0.00
+Prwg= 0.00 Wr= 1.0000000 U0= 1.3400000E-02
+A0= 2.1199999 Keta= 4.0000000E-02 A1= 0.00
+A2= 0.9900000 Ags= -0.1000000 B0= 0.00
+B1= 0.00

+Voff= -7.9800000E-02 NFactor= 1.1000000 Cit= 0.00
+Cdsc= 0.00 Cdscb= 0.00 Cdscd= 0.00
+Eta0= 4.0000000E-02 Etab= 0.00 Dsub= 0.5200000

+Pclm= 0.1000000 Pdiblc1= 1.2000000E-02 Pdiblc2= 7.5000000E-03
+Pdiblcb= -1.3500000E-02 Drout= 0.2800000 Pscbe1= 8.6600000E+08
+Pscbe2= 1.0000000E-20 Pvag= -0.2800000 Delta= 1.0100000E-02
+Alpha0= 0.00 Beta0= 30.0000000

+kt1= -0.3400000 kt2= -5.2700000E-02 At= 0.00
+Ute= -1.2300000 Ua1= -8.6300000E-10 Ub1= 2.0000001E-18
+Uc1= 0.00 Kt1l= 4.0000000E-09 Prt= 0.00

+Cj= 0.0015 Mj= 0.7175511 Pb= 1.24859
+Cjsw= 2E-10 Mjsw= 0.3706993 Php= 0.7731149
+Cta= 9.290391E-04 Ctp= 7.456211E-04 Pta= 1.527748E-03
+Ptp= 1.56325E-03 JS=2.50E-08 JSW=4.00E-13
+N=1.0 Xti=3.0 Cgdo=2.75E-10
+Cgso=2.75E-10 Cgbo=0.0E+00 Capmod= 2
+NQSMOD= 0 Elm= 5 Xpart= 1
+Cgsl= 1.1155E-10 Cgdl= 1.1155E-10 Ckappa= 0.8912
+Cf= 1.113e-10 Clc= 5.475E-08 Cle= 6.46
+Dlc= 2E-08 Dwc= 0 Vfbcv= -1

*
* Predictive Technology Model Beta Version
* 0.13um PMOS SPICE Parametersv (normal one)
*

.model PMOS PMOS
+Level = 49

+Lint = 2.e-08 Tox = 3.3e-09
+Vth0 = -0.3499 Rdsw = 400

+lmin=1.3e-7 lmax=1.3e-7 wmin=1.3e-7 wmax=1.0e-4 Tref=27.0 version =3.1
+Xj= 4.5000000E-08 Nch= 6.8500000E+18
+lln= 0.00 lwn= 0.00 wln= 0.00
+wwn= 0.00 ll= 0.00
+lw= 0.00 lwl= 0.00 wint= 0.00
+wl= 0.00 ww= 0.00 wwl= 0.00
+Mobmod= 1 binunit= 2 xl= 0
+xw= 0 binflag= 0
+Dwg= 0.00 Dwb= 0.00

+K1= 0.4087000 K2= 0.00
+K3= 0.00 Dvt0= 5.0000000 Dvt1= 0.2600000
+Dvt2= -1.0000000E-02 Dvt0w= 0.00 Dvt1w= 0.00
+Dvt2w= 0.00 Nlx= 1.6500000E-07 W0= 0.00
+K3b= 0.00 Ngate= 5.0000000E+20

+Vsat= 1.0500000E+05 Ua= -1.4000000E-09 Ub= 1.9499999E-18
+Uc= -2.9999999E-11 Prwb= 0.00
+Prwg= 0.00 Wr= 1.0000000 U0= 5.2000000E-03
+A0= 2.1199999 Keta= 3.0300001E-02 A1= 0.00
+A2= 0.4000000 Ags= 0.1000000 B0= 0.00
+B1= 0.00

+Voff= -9.10000000E-02 NFactor= 0.1250000 Cit= 2.7999999E-03
+Cdsc= 0.00 Cdscb= 0.00 Cdscd= 0.00
+Eta0= 80.0000000 Etab= 0.00 Dsub= 1.8500000

+Pclm= 2.5000000 Pdiblc1= 4.8000000E-02 Pdiblc2= 5.0000000E-05
+Pdiblcb= 0.1432509 Drout= 9.0000000E-02 Pscbe1= 1.0000000E-20
+Pscbe2= 1.0000000E-20 Pvag= -6.0000000E-02 Delta= 1.0100000E-02
+Alpha0= 0.00 Beta0= 30.0000000

+kt1= -0.3400000 kt2= -5.2700000E-02 At= 0.00
+Ute= -1.2300000 Ua1= -8.6300000E-10 Ub1= 2.0000001E-18
+Uc1= 0.00 Kt1l= 4.0000000E-09 Prt= 0.00

+Cj= 0.0015 Mj= 0.7175511 Pb= 1.24859
+Cjsw= 2E-10 Mjsw= 0.3706993 Php= 0.7731149
+Cta= 9.290391E-04 Ctp= 7.456211E-04 Pta= 1.527748E-03
+Ptp= 1.56325E-03 JS=2.50E-08 JSW=4.00E-13
+N=1.0 Xti=3.0 Cgdo=2.75E-10
+Cgso=2.75E-10 Cgbo=0.0E+00 Capmod= 2
+NQSMOD= 0 Elm= 5 Xpart= 1
+Cgsl= 1.1155E-10 Cgdl= 1.1155E-10 Ckappa= 0.8912
+Cf= 1.113e-10 Clc= 5.475E-08 Cle= 6.46
+Dlc= 2E-08 Dwc= 0 Vfbcv= -1

 

[sj_helen]

tox for 0.13 um cmos

which is λn and λp in this table?
and which is Φf in this table?

plz find here with 0.13um NMOS SPICE Parametersv (normal one)

.model NMOS NMOS
+Level = 49
also let me know the details of ur ckt.
* Predictive Technology Model Beta Version
* 0.13um NMOS SPICE Parametersv (normal one)
*

.model NMOS NMOS
+Level = 49

+Lint = 2.5e-08 Tox = 3.3e-09
+Vth0 = 0.332 Rdsw = 200

+lmin=1.3e-7 lmax=1.3e-7 wmin=1.3e-7 wmax=1.0e-4 Tref=27.0 version =3.1
+Xj= 4.5000000E-08 Nch= 5.6000000E+17
+lln= 1.0000000 lwn= 0.00 wln= 0.00
+wwn= 1.0000000 ll= 0.00
+lw= 0.00 lwl= 0.00 wint= 0.00
+wl= 0.00 ww= 0.00 wwl= 0.00
+Mobmod= 1 binunit= 2 xl= 0
+xw= 0 binflag= 0
+Dwg= 0.00 Dwb= 0.00

+K1= 0.3661500 K2= 0.00
+K3= 0.00 Dvt0= 8.7500000 Dvt1= 0.7000000
+Dvt2= 5.0000000E-02 Dvt0w= 0.00 Dvt1w= 0.00
+Dvt2w= 0.00 Nlx= 3.5500000E-07 W0= 0.00
+K3b= 0.00 Ngate= 5.0000000E+20

+Vsat= 1.3500000E+05 Ua= -1.8000000E-09 Ub= 2.2000000E-18
+Uc= -2.9999999E-11 Prwb= 0.00
+Prwg= 0.00 Wr= 1.0000000 U0= 1.3400000E-02
+A0= 2.1199999 Keta= 4.0000000E-02 A1= 0.00
+A2= 0.9900000 Ags= -0.1000000 B0= 0.00
+B1= 0.00

+Voff= -7.9800000E-02 NFactor= 1.1000000 Cit= 0.00
+Cdsc= 0.00 Cdscb= 0.00 Cdscd= 0.00
+Eta0= 4.0000000E-02 Etab= 0.00 Dsub= 0.5200000

+Pclm= 0.1000000 Pdiblc1= 1.2000000E-02 Pdiblc2= 7.5000000E-03
+Pdiblcb= -1.3500000E-02 Drout= 0.2800000 Pscbe1= 8.6600000E+08
+Pscbe2= 1.0000000E-20 Pvag= -0.2800000 Delta= 1.0100000E-02
+Alpha0= 0.00 Beta0= 30.0000000

+kt1= -0.3400000 kt2= -5.2700000E-02 At= 0.00
+Ute= -1.2300000 Ua1= -8.6300000E-10 Ub1= 2.0000001E-18
+Uc1= 0.00 Kt1l= 4.0000000E-09 Prt= 0.00

+Cj= 0.0015 Mj= 0.7175511 Pb= 1.24859
+Cjsw= 2E-10 Mjsw= 0.3706993 Php= 0.7731149
+Cta= 9.290391E-04 Ctp= 7.456211E-04 Pta= 1.527748E-03
+Ptp= 1.56325E-03 JS=2.50E-08 JSW=4.00E-13
+N=1.0 Xti=3.0 Cgdo=2.75E-10
+Cgso=2.75E-10 Cgbo=0.0E+00 Capmod= 2
+NQSMOD= 0 Elm= 5 Xpart= 1
+Cgsl= 1.1155E-10 Cgdl= 1.1155E-10 Ckappa= 0.8912
+Cf= 1.113e-10 Clc= 5.475E-08 Cle= 6.46
+Dlc= 2E-08 Dwc= 0 Vfbcv= -1

*
* Predictive Technology Model Beta Version
* 0.13um PMOS SPICE Parametersv (normal one)
*

.model PMOS PMOS
+Level = 49

+Lint = 2.e-08 Tox = 3.3e-09
+Vth0 = -0.3499 Rdsw = 400

+lmin=1.3e-7 lmax=1.3e-7 wmin=1.3e-7 wmax=1.0e-4 Tref=27.0 version =3.1
+Xj= 4.5000000E-08 Nch= 6.8500000E+18
+lln= 0.00 lwn= 0.00 wln= 0.00
+wwn= 0.00 ll= 0.00
+lw= 0.00 lwl= 0.00 wint= 0.00
+wl= 0.00 ww= 0.00 wwl= 0.00
+Mobmod= 1 binunit= 2 xl= 0
+xw= 0 binflag= 0
+Dwg= 0.00 Dwb= 0.00

+K1= 0.4087000 K2= 0.00
+K3= 0.00 Dvt0= 5.0000000 Dvt1= 0.2600000
+Dvt2= -1.0000000E-02 Dvt0w= 0.00 Dvt1w= 0.00
+Dvt2w= 0.00 Nlx= 1.6500000E-07 W0= 0.00
+K3b= 0.00 Ngate= 5.0000000E+20

+Vsat= 1.0500000E+05 Ua= -1.4000000E-09 Ub= 1.9499999E-18
+Uc= -2.9999999E-11 Prwb= 0.00
+Prwg= 0.00 Wr= 1.0000000 U0= 5.2000000E-03
+A0= 2.1199999 Keta= 3.0300001E-02 A1= 0.00
+A2= 0.4000000 Ags= 0.1000000 B0= 0.00
+B1= 0.00

+Voff= -9.10000000E-02 NFactor= 0.1250000 Cit= 2.7999999E-03
+Cdsc= 0.00 Cdscb= 0.00 Cdscd= 0.00
+Eta0= 80.0000000 Etab= 0.00 Dsub= 1.8500000

+Pclm= 2.5000000 Pdiblc1= 4.8000000E-02 Pdiblc2= 5.0000000E-05
+Pdiblcb= 0.1432509 Drout= 9.0000000E-02 Pscbe1= 1.0000000E-20
+Pscbe2= 1.0000000E-20 Pvag= -6.0000000E-02 Delta= 1.0100000E-02
+Alpha0= 0.00 Beta0= 30.0000000

+kt1= -0.3400000 kt2= -5.2700000E-02 At= 0.00
+Ute= -1.2300000 Ua1= -8.6300000E-10 Ub1= 2.0000001E-18
+Uc1= 0.00 Kt1l= 4.0000000E-09 Prt= 0.00

+Cj= 0.0015 Mj= 0.7175511 Pb= 1.24859
+Cjsw= 2E-10 Mjsw= 0.3706993 Php= 0.7731149
+Cta= 9.290391E-04 Ctp= 7.456211E-04 Pta= 1.527748E-03
+Ptp= 1.56325E-03 JS=2.50E-08 JSW=4.00E-13
+N=1.0 Xti=3.0 Cgdo=2.75E-10
+Cgso=2.75E-10 Cgbo=0.0E+00 Capmod= 2
+NQSMOD= 0 Elm= 5 Xpart= 1
+Cgsl= 1.1155E-10 Cgdl= 1.1155E-10 Ckappa= 0.8912
+Cf= 1.113e-10 Clc= 5.475E-08 Cle= 6.46
+Dlc= 2E-08 Dwc= 0 Vfbcv= -1

 

[yjkwon57]

0.13 um design kit documentation

Hi~~

They are not process parameters, but, device model parameters. It is hard to calculate them in hand. Therefore, you will make and use a simple C program. Usually, they are calculated using test devices specially designed for this purpose.

 

[satyasiva]

u can calculte directly...in model file these parameters are all defined

 

[ambreesh]

Hi,

You would have to calculate the value of CLM from plots.

Get the Id Vs Vds transfer characteristic for the MOS. Use the claculator function in ADE and chop the curve so that you have curve for saturation region.
Extrapolate the lines to X axis and get the early volatge value. Inverse of that would give you CLM value.
You can you equation of line to do the same calculation.

Hope it help. If you need more help kindly get back.
As for Φf take an approximate value of 0.7 (hope you want to use it for the body effect equation for threshold calculation)

 

[najhannur]

Hi,

You would have to calculate the value of CLM from plots.

Get the Id Vs Vds transfer characteristic for the MOS. Use the claculator function in ADE and chop the curve so that you have curve for saturation region.
Extrapolate the lines to X axis and get the early volatge value. Inverse of that would give you CLM value.
You can you equation of line to do the same calculation.

Hope it help. If you need more help kindly get back.
As for Φf take an approximate value of 0.7 (hope you want to use it for the body effect equation for threshold calculation)

Maybe I can use this as well..
I am looking the simplest way to get the model parameter..
Thank for the idea..

 

[abhisheksbox]

with the featuer size u also need to tell us abt the level on which u r workin as level1 level3 or level8 , level13 or level49.

 

[karim365]

this file full parameter for 0.13um

 

[karim365]

this file full parameter for 0.13um

 

[altug]

Hello,

does anyone know the Cox of 0.13 um cmos and unCox product

thanks

 

[brjaiswal]

Cox = εox/Tox

 

[Oveis.Gharan]

Have you ever see the MOSFET Model output template in HSPICE?
Please see the HSPICE Help "hspice_mosmod.pdf". It shows you under "MOSFET Output Templates" subsection how measure a parameters like W,L, Vth, Cox, ... of a transistor in a simulation and its condition.
I think this is witch you have sought till now.
Best Regards.