lf411.mod 2.97 KB
.SUBCKT LM411   1   2  99  50  28
*               |   |   |   |   |
*               |   |   |   |   '--- Output
*               |   |   |   '------- Negative power supply (ground)
*               |   |   '----------- Positive power supply
*               |   '--------------- Inverting input
*               '------------------- Non-inverting input
* Use the gSchem symbol opamp-3.sym (provided in the lib/sym directory)
*//////////////////////////////////////////////////////////////////////
* (C) National Semiconductor, Inc.
* Models developed and under copyright by:
* National Semiconductor, Inc.  
*/////////////////////////////////////////////////////////////////////
* Legal Notice: This material is intended for free software support.
* The file may be copied, and distributed; however, reselling the 
* material is illegal
*/////////////////////////////////////////////////////////////////////
* For ordering or technical information on these models, contact:
* National Semiconductor's Customer Response Center
*                 7:00 A.M.--7:00 P.M.  U.S. Central Time
*                                (800) 272-9959
* For Applications support, contact the Internet address:
*  amps-apps@galaxy.nsc.com
*/////////////////////////////////////////////////////////////////////
* LF411 Low Offset, Low Drift JFET Input Op-Amp Macro-model.
*
* Features :
*   Fast settling time (.01%) = 2uS
*   High bandwidth            = 3MHz
*   High slew rate            = 10V/uS
*   Low offset voltage        = 0.5mV
*   Low supply current        = 1.8mA
*
* Note : Input resistance (Rin) for these JFET op amps is 1TOhm. Rin
*        is modeled by assuming the option GMIN = 1TOhm. If a different
*        (non-default) GMIN value is needed, users may recalculate as
*        follows :
*          Rin = (R1 || GMIN+R2 || GMIN) where R1=R2,
*        to maintain a consistent Rin model.
*
****************INPUT STAGE************** 
*
IOS 2 1 25.0P
* Input offset current
CI1 1 0 3P
CI2 2 0 3P
R1 1 3 1E12
R2 3 2 1E12
I1 99 4 1.0M
J1 5 2 4 JX
J2 6 7 4 JX
R3 5 50 650
R4 6 50 650
*Fp2=28 MHZ
C4 5 6 4.372P 
*
***********COMMON MODE EFFECT***********
*
I2 99 50 800UA
* Quiescent supply current
EOS 7 1 POLY(1) 16 49 .8E-3 1
* Input offset voltage.
R8 99 49 80K
R9 49 50 80K
*
*********OUTPUT VOLTAGE LIMITING********
V2 99 8 2.13
D1 9 8 DX
D2 10 9 DX
V3 10 50 2.13
*
**************SECOND STAGE**************
*
EH 99 98 99 49 1
G1 98 9 5 6 20E-3
R5 98 9 10MEG
VA3 9 11 0
* Fp1 = 18HZ
C3 98 11 857.516P
*
***************POLE STAGE***************
*
* Fp = 30MHz
G3 98 15 9 49 1E-6
R12 98 15 1MEG
C5 98 15 5.305E-15
*
*********COMMON-MODE ZERO STAGE*********
*
G4 98 16 3 49 1E-8
L2 98 17 144.7M
R13 17 16 1K
*
**************OUTPUT STAGE**************
*
F6  99 50 VA7 1
F5  99 23 VA8 1
D5  21 23 DX
VA7 99 21 0
D6  23 99 DX
E1  99 26 99 15 1
VA8 26 27 0
R16 27 28 50
V5  28 25 0.646V
D4  25 15 DX
V4  24 28 0.646V
D3  15 24 DX
*
***************MODELS USED**************
*
.MODEL DX D(IS=1E-15)
.MODEL JX PJF(BETA=1.183E-3 VTO=-.65 IS=50E-12)
*
.ENDS