PTAT电流

himawari · 发表于 2011-7-7 19:37:32

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本帖最后由 himawari 于 2011-7-7 20:51 编辑

未命名.bmp

请大家帮我看下这个仿真，无论怎么设置ＭＯＳ的长宽都还是在截止区，是不是应该调ＢＪＴ的参数，请大家教教我，谢谢拉．
.MODEL nmos NMOS (                               LEVEL = 49
+VERSION = 3.1          TNOM = 27          TOX    = 7.8E-9
+XJ    = 1E-7          NCH    = 2.2E17       VTH0 = 0.4730643
+K1    = 0.6129988    K2    = 7.542666E-4 K3    = 100
+K3B    = -10          W0    = 3.02827E-5    NLX    = 4.058176E-7
+DVT0W = 0             DVT1W = 0             DVT2W = 0
+DVT0 = 0.4689888    DVT1 = 0.2917777    DVT2 = -0.3
+U0    = 355.1321831 UA    = -8.40947E-10 UB    = 2.261637E-18
+UC    = 2.996492E-11 VSAT = 1.875162E5    A0    = 0.8883904
+AGS    = 0.1167968    B0    = 1.155842E-6 B1    = 5E-6
+KETA = 3.56905E-3    A1    = 0             A2    = 0.3740786
+RDSW = 1.131183E3    PRWG = -0.1100856    PRWB = -0.2
+WR    = 1             WINT = 1.481909E-7 LINT = 3.346531E-10
+XL    = -5E-8       XW    = 1.5E-7       DWG    = -4.274339E-9
+DWB    = 5.243879E-9 VOFF = -0.0876189    NFACTOR = 2.0725615
+CIT    = 0             CDSC = 2.4E-4       CDSCD = 0
+CDSCB = 0             ETA0 = 1             ETAB = -0.0732914
+DSUB = 0.7823743    PCLM = 1.676784    PDIBLC1 = 1.543456E-4
+PDIBLC2 = 4.733841E-3 PDIBLCB = 0.1          DROUT = 3.345392E-4
+PSCBE1  = 7.163825E8    PSCBE2  = 1E-3          PVAG = 3.072725E-3
+DELTA = 0.01          RSH    = 78.2          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 = 2.69E-10    CGSO = 2.69E-10    CGBO = 1E-12
+CJ    = 9.015359E-4 PB    = 0.8          MJ    = 0.3608969
+CJSW = 2.782744E-10 PBSW = 0.8          MJSW = 0.1801287
+CJSWG = 1.82E-10    PBSWG = 0.8          MJSWG = 0.1824357
+CF    = 0             PVTH0 = -0.05       PRDSW = -121.7614848
+PK2    = 4.477143E-5 WKETA = -1.015121E-3 LKETA = -0.0120304    )
.MODEL pmos PMOS (                               LEVEL = 49
+VERSION = 3.1          TNOM = 27          TOX    = 7.8E-9
+XJ    = 1E-7          NCH    = 8.52E16       VTH0 = -0.6954453
+K1    = 0.4304724    K2    = -0.0112912    K3    = 86.4300172
+K3B    = -5          W0    = 6.598922E-6 NLX    = 2.06513E-7
+DVT0W = 0             DVT1W = 0             DVT2W = 0
+DVT0 = 0.3128439    DVT1 = 0.8240817    DVT2 = -0.2517458
+U0    = 150.785921    UA    = 1E-10       UB    = 1.789607E-18
+UC    = -1.8798E-11 VSAT = 1.999188E5    A0    = 1.1641922
+AGS    = 0.3099053    B0    = 2.120097E-6 B1    = 5E-6
+KETA = -4.16221E-3 A1    = 4.218536E-3 A2    = 1
+RDSW = 3.913702E3    PRWG = -0.1079321    PRWB = -4.46657E-3
+WR    = 1             WINT = 1.500604E-7 LINT = 0
+XL    = -5E-8       XW    = 1.5E-7       DWG    = -1.858462E-8
+DWB    = 1.143752E-8 VOFF = -0.140743    NFACTOR = 2
+CIT    = 0             CDSC = 2.4E-4       CDSCD = 0
+CDSCB = 0             ETA0 = 0.032156    ETAB = 5.85316E-3
+DSUB = 0.2940371    PCLM = 4.7751455    PDIBLC1 = 2.143338E-3
+PDIBLC2 = -2.300289E-6 PDIBLCB = -6.805486E-4 DROUT = 2.413411E-4
+PSCBE1  = 7.927378E10 PSCBE2  = 5.007084E-10 PVAG = 15
+DELTA = 0.01          RSH    = 150.7       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 = 2.05E-10    CGSO = 2.05E-10    CGBO = 1E-12
+CJ    = 1.397158E-3 PB    = 0.99          MJ    = 0.5773462
+CJSW = 3.176388E-10 PBSW = 0.99          MJSW = 0.3570517
+CJSWG = 4.42E-11    PBSWG = 0.99          MJSWG = 0.3570517
+CF    = 0             PVTH0 = 0.0253723    PRDSW = -76.9871264
+PK2    = 2.04063E-3    WKETA = 4.61596E-3    LKETA = -8.540344E-3 )

.model PBJT pnp
+level = 1
+is    = 1.0982e-17
+bf    = 100
+nf    = 1.007
+vaf    = 188.5529
+ikf    = 2.9138e-04
+ise    = 4.4775e-16
+ne    = 1.672
+br    = 8.9525e-03
+nr    = 1.0138
+var    = 16.297
+ikr    = 2.50e-04
+isc    = 2.0329e-13
+nc    = 1.592
+rb    = 0
+irb    = 1.60e-04
+rbm    = 0
+re    = 0
+rc    = 0
+xti    = 4.8129
+eg    = 1.1502
+cje = 2.1155e-14
+vje = 8.3140e-01
+mje = 4.7169e-01
+tvje = 1.8766e-03
+cte = 1.1810e-03
+tf    = 1.00e-10
+xtf    = 1.0
+vtf    = 10.0
+itf    = 0.1
+cjc = 1.4063e-14
+vjc = 7.5000e-01
+mjc = 2.4000e-01
+tvjc = 3.0000e-03
+ctc = 1.0000e-05
+xcjc    = 0.5
+fc    = 0.75
+cjs    = 0.00
+vjs    = 0.75
+mjs    = 0.5
+tr    = 0.00
+ptf    = 0.00
+kf    = 0.00
+af    = 1.0
+cbcp    = 0.00
+cbep    = 0.00
+ccsp    = 0.00
+nkf    = 0.4795
+tref    = 25.0
+tlev    = 0
+tlevc = 1
+xtb    = 1.792
q1 1 0 0 PBJT
q2 6 0 0 PBJT m=8
m1 2 2 1 0 nmos w=6u l=2u
m2 3 2 7 0 nmos w=6u l=2u
m3 2 3 vdd vdd pmos w=15 l=2u
m4 3 3 vdd vdd pmos w=15 l=2u
m5 6 3 vdd vdd pmos w=3u l=2u
r1 5 4 4.3k
vdd vdd 0 dc 3.3v
.op
.dc vdd 0 3.3v 0.1
.dc  temp -20 100 5
.print i(m5)
.end

artofsleep · 发表于 2011-7-7 20:41:52

贴个电路吧

artofsleep · 发表于 2011-7-7 21:08:41

netlist 跟电路不对应啊，比如图上有2个R，netlist只有r1

himawari · 发表于 2011-7-7 21:25:17

那个无所谓啊，我看的是输出电流

dyjguilin · 发表于 2011-7-7 21:33:01

两种解释：
1. M1~M4组成的电路为与电源无关的偏置，其中M2带负载，这种电路具有稳定的非零偏置点条件为M2的宽长比大于M1，具体原理看参见拉扎为书第11章（page 311）
2. 假设电路有PTAT电流，根据电路架构，应该有结论VX=VY 并且 I1=I2，由于BJT的Vbe与I为exp形曲线，当I1=I2时，Vbe，Q1=Vbe,Q2，那么有VX=Vbe,Q1， VY=Vbe,Q2+I2*R，根据VX=VY，可知，R=0；从上述推理可知，该电路没有非零偏置点

解决方法：修改网表，加大M2宽长比，务必保证M2宽长比大于M1宽长比

himawari · 发表于 2011-7-7 21:44:38

谢谢楼上，我现在就去试试，还有想问问ＢＪＴ有需要调整的参数什么的吗？还有ＰＮＰ的模型没问题吧，我是用的tsmc035工艺

dyjguilin · 发表于 2011-7-7 22:02:40

谢谢楼上，我现在就去试试，还有想问问ＢＪＴ有需要调整的参数什么的吗？还有ＰＮＰ的模型没问题吧，我是用 ...
himawari 发表于 2011-7-7 21:44

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PNP的模型应该还好
如果是网上下载的一般都还能用
不过level=1基本上只能仿真PNP本身
有些PNP的模型会附带有寄生的BJT模型，在仿真漏电的时候和饱和的时候比较准确

himawari · 发表于 2011-7-7 23:06:32

我加了个启动电路后Ｍ１～Ｍ４都在饱和区了，但问题是I1不等 I2，subckt
element  0:ms2    0:ms3    0:m1    0:m2    0:m3    0:m4
model 0:cmosn 0:cmosn 0:cmosp 0:cmosp 0:cmosn 0:cmosn
region    Linear    Cutoff Saturati Saturati Saturati Saturati
  id       1.8110m 9.4658n -670.9874u -707.7647u  670.9874u  707.7553u
  ibs       0.       0.       0.       0.       0.       0.
  ibd       0.       0.       0.       0.       0.       0.
  vgs       3.8779 255.8578m -1.4608 -1.4608    1.0647    1.1968
  vds    255.8578m 1.9017 -1.4608 -5.5983    5.2022    1.1968
  vbs       0.       0.       0.       0.    -836.9606m -704.9079m
  vth    396.9978m  394.7592m -396.6578m -392.2850m  611.2485m  584.5114m
  vdsat    3.5445 33.0013m -830.0189m -833.5606m  360.4754m  469.2796m
  vod       3.4809  -138.9014m -1.0642 -1.0686 453.4539m  612.2437m
  beta    2.2221m  446.4001u 1.5058m 1.5072m 7.3531m 4.5882m
  gam eff  576.7999m  576.1427m  530.7678m  530.7678m  575.9592m  576.0443m
  gm       0.    245.6912n 1.1336m 1.1687m 2.6748m 2.1081m
  gds       6.8541m  830.0623p 10.8416u 8.5942u 9.2924u 12.4827u
  gmb    323.8627u 76.1138n  400.7434u  407.3719u  567.1733u  470.5713u
  cdtot 319.6411f 2.5602f 39.1422f 38.8061f 42.6531f 27.4250f
  cgtot 730.0629f 18.4159f  737.0476f  736.6577f  744.7557f  478.3115f
  cstot 165.6529f 3.0059f  399.9598f  398.2655f  380.6537f  245.2594f
  cbtot 171.9375f 12.7379f  187.4853f  187.9369f  153.7285f 99.9063f
  cgs    387.2755f 3.3558f  687.0519f  683.2093f  672.0755f  433.3995f
  cgd    343.9679f 2.5494f 38.8007f 38.4037f 42.3319f 27.2460f
所以结果电流只在一段温度范围内是正温度系数的，现在该怎么调呢，请求指教？

twfly · 发表于 2011-7-7 23:27:53

这个这个不就是每个书上的经典电路么。。。

dyjguilin · 发表于 2011-7-8 09:37:09

我加了个启动电路后Ｍ１～Ｍ４都在饱和区了，但问题是I1不等 I2，subckt ...
himawari 发表于 2011-7-7 23:06

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1. 从仿真角度说，这个电路不加启动电路也应该有非零的仿真结果
2. 观察启动电路在启动后又没有关掉，换句话说，电路在正常工作时，启动电路应该是不工作的，估计这是I1不等于I2的原因，否则按照电路架构，M3和M4为镜像，工作在饱和区的话电流就应该相等
3. 贴个启动电路上来哦

[求助] PTAT电流

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