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| promach:
I am trying to simulate a LNA circuit from the book "Design of CMOS RF Integrated Circuits and Systems" However, it is still not working. Any help ? mosfet_018.lib --- Code: ---* modified for use with LTSpice; DM 8/19/2008 * * 0.18u CMOS process * * NMOS transistor model name: NM * PMOS transistor model name: PM *----------------------------------------------------------------------- .subckt NM D G S B +params: W=10u L=1u M1 D G S B NM L={L} W={W} AS={1.1u*W} PS={2.2u+W} AD={1.1u*W} PD={2.2u+W} .ends * ---------------------------------------------------------------------- * NMOS transistor model * ---------------------------------------------------------------------- .MODEL NM NMOS LEVEL=49 * ---------------------------------------------------------------------- ************************* SIMULATION PARAMETERS ************************ * ---------------------------------------------------------------------- * format : LTspice * model : MOS BSIM3v3 * ---------------------------------------------------------------------- * TYPICAL MEAN CONDITION * ---------------------------------------------------------------------- +VERSION = 3.1 TNOM = 27 TOX = 4.1E-9 +XJ = 1E-7 NCH = 2.3549E17 VTH0 = 0.354505 +K1 = 0.5733393 K2 = 3.177172E-3 K3 = 27.3563303 +K3B = -10 W0 = 2.341477E-5 NLX = 1.906617E-7 +DVT0W = 0 DVT1W = 0 DVT2W = 0 +DVT0 = 1.6751718 DVT1 = 0.4282625 DVT2 = 0.036004 +U0 = 327.3736992 UA = -4.52726E-11 UB = 4.46532E-19 +UC = -4.74051E-11 VSAT = 8.785346E4 A0 = 1.6897405 +AGS = 0.2908676 B0 = -8.224961E-9 B1 = -1E-7 +KETA = 0.021238 A1 = 8.00349E-4 A2 = 1 +RDSW = 105 PRWG = 0.5 PRWB = -0.2 +WR = 1 WINT = 5e-9 LINT = 2.351737E-8 +DWG = 1.610448E-9 +DWB = -5.108595E-9 VOFF = -0.0652968 NFACTOR = 2.4901845 +CIT = 0 CDSC = 2.4E-4 CDSCD = 0 +CDSCB = 0 ETA0 = 0.0231564 ETAB = -0.058499 +DSUB = 0.9467118 PCLM = 0.8512348 PDIBLC1 = 0.0929526 +PDIBLC2 = 0.01 PDIBLCB = -0.1 DROUT = 0.5224026 +PSCBE1 = 7.979323E10 PSCBE2 = 1.522921E-9 PVAG = 0.01 +DELTA = 0.01 RSH = 6.8 MOBMOD = 1 +PRT = 0 UTE = -1.5 KT1 = -0.11 +KT1L = 0 KT2 = 0.022 UA1 = 4.31E-9 +UB1 = -7.61E-18 UC1 = -5.6E-11 AT = 3.3E4 +WL = 0 WLN = 1 WW = 0 +WWN = 1 WWL = 0 LL = 0 +LLN = 1 LW = 0 LWN = 1 +LWL = 0 CAPMOD = 2 XPART = 0.5 +CGDO = 7.7E-10 CGSO = 7.7E-10 CGBO = 1E-12 +CJ = 1.010083E-3 PB = 0.7344298 MJ = 0.3565066 +CJSW = 2.441707E-10 PBSW = 0.8005503 MJSW = 0.1327842 +CJSWG = 3.3E-10 PBSWG = 0.8005503 MJSWG = 0.1327842 +CF = 0 PVTH0 = 1.307195E-3 PRDSW = -5 +PK2 = -1.022757E-3 WKETA = -4.466285E-4 LKETA = -9.715157E-3 +PU0 = 12.2704847 PUA = 4.421816E-11 PUB = 0 +PVSAT = 1.707461E3 PETA0 = 1E-4 PKETA = 2.348777E-3 *----------------------------------------------------------------------- .subckt PM D G S B +params: W=10u L=1u M1 D G S B PM L={L} W={W} AS={1.1u*W} PS={2.2u+W} AD={1.1u*W} PD={2.2u+W} .ends * ---------------------------------------------------------------------- * PMOS transistor model * ---------------------------------------------------------------------- .MODEL PM PMOS LEVEL=49 * ---------------------------------------------------------------------- ************************* SIMULATION PARAMETERS ************************ * ---------------------------------------------------------------------- * format : LTSPICE * model : MOS BSIM3v3 * ---------------------------------------------------------------------- * TYPICAL MEAN CONDITION * ---------------------------------------------------------------------- +VERSION = 3.1 TNOM = 27 TOX = 4.1E-9 +XJ = 1E-7 NCH = 4.1589E17 VTH0 = -0.4120614 +K1 = 0.5590154 K2 = 0.0353896 K3 = 0 +K3B = 7.3774572 W0 = 1E-6 NLX = 1.103367E-7 +DVT0W = 0 DVT1W = 0 DVT2W = 0 +DVT0 = 0.4301522 DVT1 = 0.2156888 DVT2 = 0.1 +U0 = 128.7704538 UA = 1.908676E-9 UB = 1.686179E-21 +UC = -9.31329E-11 VSAT = 1.658944E5 A0 = 1.6076505 +AGS = 0.3740519 B0 = 1.711294E-6 B1 = 4.946873E-6 +KETA = 0.0210951 A1 = 0.0244939 A2 = 1 +RDSW = 127.0442882 PRWG = 0.5 PRWB = -0.5 +WR = 1 WINT = 5.928484E-10 LINT = 3.468805E-8 +DWG = -2.453074E-8 +DWB = 6.408778E-9 VOFF = -0.0974174 NFACTOR = 1.9740447 +CIT = 0 CDSC = 2.4E-4 CDSCD = 0 +CDSCB = 0 ETA0 = 0.1847491 ETAB = -0.2531172 +DSUB = 1.5 PCLM = 4.8842961 PDIBLC1 = 0.0156227 +PDIBLC2 = 0.1 PDIBLCB = -1E-3 DROUT = 0 +PSCBE1 = 1.733878E9 PSCBE2 = 5.002842E-10 PVAG = 15 +DELTA = 0.01 RSH = 7.7 MOBMOD = 1 +PRT = 0 UTE = -1.5 KT1 = -0.11 +KT1L = 0 KT2 = 0.022 UA1 = 4.31E-9 +UB1 = -7.61E-18 UC1 = -5.6E-11 AT = 3.3E4 +WL = 0 WLN = 1 WW = 0 +WWN = 1 WWL = 0 LL = 0 +LLN = 1 LW = 0 LWN = 1 +LWL = 0 CAPMOD = 2 XPART = 0.5 +CGDO = 7.11E-10 CGSO = 7.11E-10 CGBO = 1E-12 +CJ = 1.179334E-3 PB = 0.8545261 MJ = 0.4117753 +CJSW = 2.215877E-10 PBSW = 0.6162997 MJSW = 0.2678074 +CJSWG = 4.22E-10 PBSWG = 0.6162997 MJSWG = 0.2678074 +CF = 0 PVTH0 = 2.283319E-3 PRDSW = 5.6431992 +PK2 = 2.813503E-3 WKETA = 2.438158E-3 LKETA = -0.0116078 +PU0 = -2.2514581 PUA = -7.62392E-11 PUB = 4.502298E-24 +PVSAT = -50 PETA0 = 1E-4 PKETA = -1.047892E-4 * ---------------------------------------------------------------------- --- End code --- |
| duak:
I would start by changing the Vdd connection to Lbias to connect to a voltage source that does not saturate transistor M1. The transistor data sheet should show a typical value. |
| promach:
See the following LNA circuit with positive gain. However, I am bit concerned with the values of Cin and C3. Their values seem to affect the gain a lot |
| duak:
Do the MOSFETs have part numbers or are they devices that are part of some ASIC? Is Vdd the recomended voltage and quiescent current for these devices? Is this going to be used in a practical circuit? As a starting point I would set DC bias to be about half of Vdd. This should cause M1 and M2 to have the same drain to source voltage and allow both to run in the linear region. If Vbias is too high, M1 will try to conduct too much current, saturate and not operate in its linear region. You may have to adjust Vbias to find the highest gain. If this doesn't work, try increasing Vdd and repeat. I would also set Cd and C3 to zero as they affect AC gain. You can restore them after the DC operating conditions are properly set. I expect C3 set to 10p is way too high for 2.4 GHz. |
| promach:
I have added series input impedance (Rs) and the shunt output load impedance (RL). The LNA circuit still give negative gain. Could anyone help ? |
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