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Anyone Have Spice Model for LM134/334 ??

Anyone Have Spice Model for LM134/334 ??

Thanks!

...Jim Thompson

-- | James E.Thompson, P.E. | mens | | Analog Innovations, Inc. | et | | Analog/Mixed-Signal ASIC's and Discrete Systems | manus | | Phoenix, Arizona Voice:(480)460-2350 | | | E-mail Address at Website Fax:(480)460-2142 | Brass Rat | |

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| 1962 | I love to cook with wine. Sometimes I even put it in the food.

Reply to
Jim Thompson
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http://www.national.com/appinfo/amps/0,2175,815,00.html
Reply to
John Fields

On Sun, 03 Apr 2005 17:21:41 -0700, Jim Thompson wroth:

Probably not. The LM134 was designed so long ago that it was probably done the way God intended, with a pencil, pad of paper, and a slide rule.

Spice models are a crutch for the uninformed or unimaginative engineer.

Jim "8-)

Reply to
James Meyer

I hope that was a joke, or your completely out to lunch. Like, you try designing a 1000 transistor analogue i.c and expect that $100k mask set not to be toilet paper.

Kevin Aylward snipped-for-privacy@anasoft.co.uk

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SuperSpice, a very affordable Mixed-Mode Windows Simulator with Schematic Capture, Waveform Display, FFT's and Filter Design.

Reply to
Kevin Aylward

"Jim Thompson" schrieb im Newsbeitrag news: snipped-for-privacy@4ax.com...

Hello Jim, I have written a SPICE model for the LM334 some time ago. Therefore I simply copied the schematic from the datasheet and guessed the size and parameters of the transistors. I have never done measurements on a real LM334.

I have made some times ago a model for the members of the LTspice group. The model and a symbol can be only downloaded from here:

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Files > Lib > LM334 Current Source LM334.sub, LM334.asy

Best regards, Helmut Moderator of the LTspice Yahoo-group

Reply to
Helmut Sennewald

... snip ...

Here's an old list I got from Nat Semi, from 5" floppy,

  • Library of National Semiconductor Corp. BIPOLAR OP-AMP
  • Macromodels. Version 2.5
*
  • This library of macromodels is being supplied to users as
  • an aid to circuit designs. While it reflects reasonably
  • close similarity to the actual device in terms of
  • performance, it is not suggested as a replacement for
  • breadboarding. Simulation should be used as a supplement
  • to traditional lab testing.
*
  • Users should very carefully note the following factors
  • regarding these models:
*
  • -- Model performance in general will reflect typical
  • baseline specs for a given device, and certain aspects of
  • performance may not be modeled fully.
*
  • -- While reasonable care has been taken in their
  • preparation, we cannot be responsible for correct
  • application on any and all computer systems.
*
  • -- Model users are hereby notified that these models are
  • supplied "as is", with no direct or implied responsibility
  • on the part of National Semiconductor for their operation
  • within a customer circuit or system. Further, National
  • Semiconductor reserves the right to change these models
  • without prior notice.
*
  • -- In all cases, the current data sheet information for a
  • given real device is your final design guideline, and is
  • the only actual performance guarantee. For further
  • technical information, refer to individual device data
  • sheets.
*
  • Note: The current models presently do not simulate
  • temperature or noise effects.
*
  • Your feedback and suggestions on these (and future) models
  • will be appreciated.
*
  • Models developed by:
  • David Hindi
  • National Semiconductor For information on the models, contact:
  • 2900 Semiconductor Dr. Linear Applications
  • Santa Clara, CA 95052 (408) 721-3877
  • M/S C2500
  • FAX (408) 721-7321 For ordering information, contact:
  • Customer Response Center
  • (408) 721-4902
  • ---------------------------------------------------------
*////////////////////////////////////////////////////////// *LM118 OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM118 1 2 99 50 28 * *Features: *Internal frequency compensation *High bandwidth = 15MHz *Minimum slew rate = 50V/uS *Low bias current = 250nA *Wide supply range = +-5V to +-20V * ****************INPUT STAGE**************
  • IOS 2 1 6N
*^Input offset current R1 1 3 1.5MEG R2 3 2 1.5MEG I1 4 50 100U R3 99 5 517 R4 99 6 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=25 MHz C4 5 6 6.1569P * ***********COMMON MODE EFFECT***********
  • I2 99 50 4.9M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 4E-3 1 *Input offset voltage.^ R8 99 49 80.2K R9 49 50 80.2K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 2.63 D1 9 8 DX D2 10 9 DX V3 10 50 2.63 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 3.0967E-4 0 596.674E-3
*Fp1=115 Hz R5 98 9 9.6877G C3 98 9 1.4286P * ************POLE/ZERO STAGE************* * *Fp=300 KHz, Fz=600 KHz G2 98 13 9 49 1E-6 R10 98 13 1MEG R11 98 14 1MEG C6 14 13 2.6526E-13 * ***************POLE STAGE*************** * *Fp=55 MHz G3 98 15 13 49 1E-6 R12 98 15 1MEG C5 98 15 2.8937E-15 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=3 KHz G4 98 16 3 49 1E-8 L2 98 17 53.1M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 E1 99 23 99 15 1 R16 24 23 30 D5 26 24 DX V6 26 22 .63V R17 23 25 30 D6 25 27 DX V7 22 27 .63V C9 23 22 100P V5 22 21 0.2V D4 21 15 DX V4 20 22 0.2V D3 15 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=333.333)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM124 Low Power Quad OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM124 1 2 99 50 28 * *Features: *Eliminates need for dual supplies *Large DC voltage gain = 100dB *High bandwidth = 1MHz *Low input offset voltage = 2mV *Wide supply range = +-1.5V to +-16V * *NOTE: Model is for single device only and simulated
  • supply current is 1/4 of total device current.
  • Output crossover distortion with dual supplies
  • is not modeled.
* ****************INPUT STAGE**************
  • IOS 2 1 3N
*^Input offset current R1 1 3 500K R2 3 2 500K I1 99 4 100U R3 5 50 517 R4 6 50 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=1.2 MHz C4 5 6 128.27P * ***********COMMON MODE EFFECT***********
  • I2 99 50 75U
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 1E-3 1 *Input offset voltage.^ R8 99 49 60K R9 49 50 60K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.63 D1 9 8 DX D2 10 9 DX V3 10 50 0.635 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 9.8772E-4 0 .3459
*Fp1=7.86 Hz R5 98 9 101.2433MEG C3 98 9 200P * ***************POLE STAGE*************** * *Fp=2 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.9577E-14 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 5.6234E-8

L2 98 17 15.9M R13 17 16 1K

* **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 300U 1 E1 99 23 99 15 1 R16 24 23 17.5 D5 26 24 DX V6 26 22 .63V R17 23 25 17.5 D6 25 27 DX V7 22 27 .63V V5 22 21 0.27V D4 21 15 DX V4 20 22 0.27V D3 15 20 DX L3 22 28 500P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX PNP(BF=1.111E3)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM158 DUAL OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM158 1 2 99 50 28 * *Features: *Eliminates need for dual supplies *Large DC voltage gain = 100dB *High bandwidth = 1MHz *Low input offset voltage = 2mV *Wide supply range = +-1.5V to +-16V * *NOTE: Model is for single device only and simulated
  • supply current is 1/2 of total device current.
  • Output crossover distortion with dual supplies
  • is not modeled.
* ****************INPUT STAGE**************
  • IOS 2 1 5N
*^Input offset current R1 1 3 500K R2 3 2 500K I1 99 4 100U R3 5 50 517 R4 6 50 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=1.2 MHz C4 5 6 128.27P * ***********COMMON MODE EFFECT***********
  • I2 99 50 75U
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 2E-3 1 *Input offset voltage.^ R8 99 49 60K R9 49 50 60K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.63 D1 9 8 DX D2 10 9 DX V3 10 50 .635 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 9.8772E-4 0 .3459
*Fp1=7.86 Hz R5 98 9 101.2433MEG C3 98 9 200P * ***************POLE STAGE*************** * *Fp=2 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.9577E-14 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 5.6234E-8 L2 98 17 15.9M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 300U 1 E1 99 23 99 15 1 R16 24 23 17.5 D5 26 24 DX V6 26 22 .63V R17 23 25 17.5 D6 25 27 DX V7 22 27 .63V V5 22 21 0.27V D4 21 15 DX V4 20 22 0.27V D3 15 20 DX L3 22 28 500P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX PNP(BF=1.111E3)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM218 OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM218 1 2 99 50 28 * *Features: *Internal frequency compensation *High bandwidth = 15MHz *Minimum slew rate = 50V/uS *Low bias current = 250nA *Wide supply range = +-5V to +-20V * ****************INPUT STAGE**************
  • IOS 2 1 6N
*^Input offset current R1 1 3 1.5MEG R2 3 2 1.5MEG I1 4 50 100U R3 99 5 517 R4 99 6 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=25 MHz C4 5 6 6.1569P * ***********COMMON MODE EFFECT***********
  • I2 99 50 4.9M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 4E-3 1 *Input offset voltage.^ R8 99 49 80.2K R9 49 50 80.2K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 2.63 D1 9 8 DX D2 10 9 DX V3 10 50 2.63 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 3.0967E-4 0 596.674E-3
*Fp1=115 Hz R5 98 9 9.6877G C3 98 9 1.4286P * ************POLE/ZERO STAGE************* * *Fp=300 KHz, Fz=600 KHz G2 98 13 9 49 1E-6 R10 98 13 1MEG R11 98 14 1MEG C6 14 13 2.6526E-13 * ***************POLE STAGE*************** * *Fp=55 MHz G3 98 15 13 49 1E-6 R12 98 15 1MEG C5 98 15 2.8937E-15 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=3 KHz G4 98 16 3 49 1E-8 L2 98 17 53.1M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 E1 99 23 99 15 1 R16 24 23 30 D5 26 24 DX V6 26 22 .63V R17 23 25 30 D6 25 27 DX V7 22 27 .63V C9 23 22 100P V5 22 21 0.2V D4 21 15 DX V4 20 22 0.2V D3 15 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=333.333)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM224 Low Power Quad OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM224 1 2 99 50 28 * *Features: *Eliminates need for dual supplies *Large DC voltage gain = 100dB *High bandwidth = 1MHz *Low input offset voltage = 2mV *Wide supply range = +-1.5V to +-16V * *NOTE: Model is for single device only and simulated
  • supply current is 1/4 of total device current.
  • Output crossover distortion with dual supplies
  • is not modeled.
* ****************INPUT STAGE**************
  • IOS 2 1 3N
*^Input offset current R1 1 3 500K R2 3 2 500K I1 99 4 100U R3 5 50 517 R4 6 50 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=1.2 MHz C4 5 6 128.27P * ***********COMMON MODE EFFECT***********
  • I2 99 50 75U
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 2E-3 1 *Input offset voltage.^ R8 99 49 60K R9 49 50 60K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.63 D1 9 8 DX D2 10 9 DX V3 10 50 .635 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 9.8772E-4 0 .3459
*Fp1=7.86 Hz R5 98 9 101.2433MEG C3 98 9 200P * ***************POLE STAGE*************** * *Fp=2 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.9577E-14 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 5.6234E-8 L2 98 17 15.9M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 300U 1 E1 99 23 99 15 1 R16 24 23 17.5 D5 26 24 DX V6 26 22 .63V R17 23 25 17.5 D6 25 27 DX V7 22 27 .63V V5 22 21 0.27V D4 21 15 DX V4 20 22 0.27V D3 15 20 DX L3 22 28 500P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX PNP(BF=1.111E3)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM258 DUAL OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM258 1 2 99 50 28 * *Features: *Eliminates need for dual supplies *Large DC voltage gain = 100dB *High bandwidth = 1MHz *Low input offset voltage = 2mV *Wide supply range = +-1.5V to +-16V * *NOTE: Model is for single device only and simulated
  • supply current is 1/2 of total device current.
  • Output crossover distortion with dual supplies
  • is not modeled.
* ****************INPUT STAGE**************
  • IOS 2 1 5N
*^Input offset current R1 1 3 500K R2 3 2 500K I1 99 4 100U R3 5 50 517 R4 6 50 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=1.2 MHz C4 5 6 128.27P * ***********COMMON MODE EFFECT***********
  • I2 99 50 75U
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 2E-3 1 *Input offset voltage.^ R8 99 49 60K R9 49 50 60K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.63 D1 9 8 DX D2 10 9 DX V3 10 50 .635 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 9.8772E-4 0 .3459
*Fp1=7.86 Hz R5 98 9 101.2433MEG C3 98 9 200P * ***************POLE STAGE*************** * *Fp=2 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.9577E-14 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 5.6234E-8 L2 98 17 15.9M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 300U 1 E1 99 23 99 15 1 R16 24 23 17.5 D5 26 24 DX V6 26 22 .63V R17 23 25 17.5 D6 25 27 DX V7 22 27 .63V V5 22 21 0.27V D4 21 15 DX V4 20 22 0.27V D3 15 20 DX L3 22 28 500P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX PNP(BF=1.111E3)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM318 OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM318 1 2 99 50 28 * *Features: *Internal frequency compensation *High bandwidth = 15MHz *Minimum slew rate = 50V/uS *Low bias current = 250nA *Wide supply range = +-5V to +-20V * ****************INPUT STAGE**************
  • IOS 2 1 30N
*^Input offset current R1 1 3 1.5MEG R2 3 2 1.5MEG I1 4 50 100U R3 99 5 517 R4 99 6 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=25 MHz C4 5 6 6.1569P * ***********COMMON MODE EFFECT***********
  • I2 99 50 4.9M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 4E-3 1 *Input offset voltage.^ R8 99 49 80.2K R9 49 50 80.2K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 2.63 D1 9 8 DX D2 10 9 DX V3 10 50 2.63 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 3.0967E-4 0 596.674E-3
*Fp1=115 Hz R5 98 9 9.6877G C3 98 9 1.4286P * ************POLE/ZERO STAGE************* * *Fp=300 KHz, Fz=600 KHz G2 98 13 9 49 1E-6 R10 98 13 1MEG R11 98 14 1MEG C6 14 13 2.6526E-13 * ***************POLE STAGE*************** * *Fp=55 MHz G3 98 15 13 49 1E-6 R12 98 15 1MEG C5 98 15 2.8937E-15 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=3 KHz G4 98 16 3 49 1E-8 L2 98 17 53.1M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 E1 99 23 99 15 1 R16 24 23 30 D5 26 24 DX V6 26 22 .63V R17 23 25 30 D6 25 27 DX V7 22 27 .63V C9 23 22 100P V5 22 21 0.2V D4 21 15 DX V4 20 22 0.2V D3 15 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=333.333)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM324 Low Power Quad OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM324 1 2 99 50 28 * *Features: *Eliminates need for dual supplies *Large DC voltage gain = 100dB *High bandwidth = 1MHz *Low input offset voltage = 2mV *Wide supply range = +-1.5V to +-16V * *NOTE: Model is for single device only and simulated
  • supply current is 1/4 of total device current.
  • Output crossover distortion with dual supplies
  • is not modeled.
* ****************INPUT STAGE**************
  • IOS 2 1 5N
*^Input offset current R1 1 3 500K R2 3 2 500K I1 99 4 100U R3 5 50 517 R4 6 50 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=1.2 MHz C4 5 6 128.27P * ***********COMMON MODE EFFECT***********
  • I2 99 50 75U
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 2E-3 1 *Input offset voltage.^ R8 99 49 60K R9 49 50 60K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.63 D1 9 8 DX D2 10 9 DX V3 10 50 .635 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 9.8772E-4 0 .3459
*Fp1=7.86 Hz R5 98 9 101.2433MEG C3 98 9 200P * ***************POLE STAGE*************** * *Fp=2 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.9577E-14 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 5.6234E-8 L2 98 17 15.9M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 300U 1 E1 99 23 99 15 1 R16 24 23 17.5 D5 26 24 DX V6 26 22 .63V R17 23 25 17.5 D6 25 27 DX V7 22 27 .63V V5 22 21 0.27V D4 21 15 DX V4 20 22 0.27V D3 15 20 DX L3 22 28 500P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX PNP(BF=1.111E3)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM358 DUAL OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM358 1 2 99 50 28 * *Features: *Eliminates need for dual supplies *Large DC voltage gain = 100dB *High bandwidth = 1MHz *Low input offset voltage = 2mV *Wide supply range = +-1.5V to +-16V * *NOTE: Model is for single device only and simulated
  • supply current is 1/2 of total device current.
  • Output crossover distortion with dual supplies
  • is not modeled.
* ****************INPUT STAGE**************
  • IOS 2 1 5N
*^Input offset current R1 1 3 500K R2 3 2 500K I1 99 4 100U R3 5 50 517 R4 6 50 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=1.2 MHz C4 5 6 128.27P * ***********COMMON MODE EFFECT***********
  • I2 99 50 75U
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 2E-3 1 *Input offset voltage.^ R8 99 49 60K R9 49 50 60K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.63 D1 9 8 DX D2 10 9 DX V3 10 50 .635 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 9.8772E-4 0 .3459
*Fp1=7.86 Hz R5 98 9 101.2433MEG C3 98 9 200P * ***************POLE STAGE*************** * *Fp=2 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.9577E-14 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 5.6234E-8 L2 98 17 15.9M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 300U 1 E1 99 23 99 15 1 R16 24 23 17.5 D5 26 24 DX V6 26 22 .63V R17 23 25 17.5 D6 25 27 DX V7 22 27 .63V V5 22 21 0.27V D4 21 15 DX V4 20 22 0.27V D3 15 20 DX L3 22 28 500P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX PNP(BF=1.111E3)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM607/LM607A/LM607B OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM607 1 2 99 50 28 * *Features: *Low Vos = 25 uV *High gain = 134 dB *High unity gain freq. = 1.8MHz *High slew rate = .7V/uS *Wide supply range = +-3V to +-18V * *NOTE: Noise is not modeled. * ****************INPUT STAGE**************
  • IOS 2 1 500P
*^Input offset current R1 1 3 1MEG R2 3 2 1MEG I1 4 50 100U R3 5 99 517 R4 6 99 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=14 MHz C4 5 6 10.994P * ***********COMMON MODE EFFECT***********
  • I2 99 50 900UA
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 15E-6 1 *Input offset voltage.^ R8 99 49 2MEG R9 49 50 2MEG * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.83 D1 9 8 DX D2 10 9 DX V3 10 50 1.83 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 5 6 2E-3
*Fp1=.14 Hz R5 98 9 5.116G C3 98 9 222.222P * ************POLE/ZERO STAGE************* * *Fp=500 KHz, Fz=800 KHz G2 98 13 9 49 1E-6 R10 98 13 1MEG R11 98 14 1.666MEG C5 14 13 1.194E-13 * ***************POLE STAGE*************** * *Fp=14 MHz G3 98 15 13 49 1E-6 R12 98 15 1MEG C6 98 15 1.1368E-14 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=200 Hz G4 98 16 3 49 1E-10 L2 98 17 795.8M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 80U 1 E1 99 23 99 15 1 R16 24 23 50 D5 26 24 DX V6 26 22 0.65V R17 23 25 50 D6 25 27 DX V7 22 27 0.65V V5 22 21 0.145V D4 21 15 DX V4 20 22 0.145V D3 15 20 DX L3 22 28 500P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=5.0E4)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM627 PRECISION OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM627 1 2 99 50 28 * *Features: *Low Vos = 25 uV *High gain = 134 dB *High unity gain freq. = 14 MHz *High slew rate = 4.5V/uS *Wide supply range = +-3.5V to +-18V * *NOTE: Noise is not modeled. * ****************INPUT STAGE**************
  • IOS 2 1 2N
*^Input offset current R1 1 3 10G R2 3 2 10G I1 4 50 100U R3 5 99 517 R4 6 99 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=25.3 MHz C4 5 6 6.084P * ***********COMMON MODE EFFECT***********
  • I2 99 50 2.9MA
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 15E-6 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.83 D1 9 8 DX D2 10 9 DX V3 10 50 1.83 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 5 6 2.1E-3
*Fp1=1.49 Hz R5 98 9 4.807G C3 98 9 22.2222P * ************POLE/ZERO STAGE************* * *Fp=300 KHz, Fz=1 MHz G2 98 13 9 49 1E-6 R10 98 13 1MEG R11 98 14 428.571K C5 14 13 3.7136E-13 * ***************POLE STAGE*************** * *Fp=30 MHz G3 98 15 13 49 1E-6 R12 98 15 1MEG C6 98 15 5.305E-15 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=300 Hz G4 98 16 3 49 1E-10 L2 98 17 530.5M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 220U 1 E1 99 23 99 15 1 R16 24 23 50 D5 26 24 DX V6 26 22 0.63V R17 23 25 50 D6 25 27 DX V7 22 27 0.63V V5 22 21 1.4V D4 21 15 DX V4 20 22 1.4V D3 15 20 DX L3 22 28 500P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=1.6667E4)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM637 PRECISION OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM637 1 2 99 50 28 * *Features: *Low Vos = 25 uV *High gain = 134 dB *High unity gain freq. = 65 MHz *High slew rate = 14V/uS *Wide supply range = +-3.5V to +-18V * *NOTE: Noise is not modeled. * ****************INPUT STAGE**************
  • IOS 2 1 2N
*^Input offset current R1 1 3 10G R2 3 2 10G I1 4 50 100U R3 5 99 517 R4 6 99 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=50 MHz C4 5 6 3.0784P * ***********COMMON MODE EFFECT***********
  • I2 99 50 2.9MA
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 15E-6 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.83 D1 9 8 DX D2 10 9 DX V3 10 50 1.83 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 5 6 3.7E-3 F1 9 98 POLY(1) VA3 0 0 0 9.24E7
*Fp1=10 Hz R5 98 9 2.7056G C3 98 11 5.8824P VA3 9 11 0 * ************POLE/ZERO STAGE************* * *Fp=300 KHz, Fz=450 KHz G2 98 13 9 49 1E-6 R10 98 13 1MEG R11 98 14 2MEG C6 14 13 1.768E-13 * ***************POLE STAGE**************** * *Fp=50 MHz G3 98 15 13 49 1E-6 R12 98 15 1MEG C5 98 15 3.1831E-15 * ***************POLE STAGE**************** * *Fp=80 MHz G5 98 18 15 49 1E-6 R14 98 18 1MEG C7 98 18 1.9894E-15 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=2 KHz G4 98 16 3 49 1E-10 L2 98 17 79.6M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 E1 99 23 99 18 1 R16 24 23 50 D5 26 24 DX V6 26 22 0.61V R17 23 25 50 D6 25 27 DX V7 22 27 0.61V V5 22 21 1.4V D4 21 18 DX V4 20 22 1.4V D3 18 20 DX L3 22 28 .02U RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=1.67E4)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM741/A/C/E OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM741 1 2 99 50 28 * *Features: *Improved performance over industry standards *Plug-in replacement for LM709,LM201,MC1439,748 *Input and output overload protection * ****************INPUT STAGE**************
  • IOS 2 1 20N
*^Input offset current R1 1 3 250K R2 3 2 250K I1 4 50 100U R3 5 99 517 R4 6 99 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=2.55 MHz C4 5 6 60.3614P * ***********COMMON MODE EFFECT***********
  • I2 99 50 1.6MA
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 1E-3 1 *Input offset voltage.^ R8 99 49 40K R9 49 50 40K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.63 D1 9 8 DX D2 10 9 DX V3 10 50 1.63 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 5 6 2.1E-3
*Fp1=5 Hz R5 98 9 95.493MEG C3 98 9 333.33P * ***************POLE STAGE*************** * *Fp=30 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 5.3052E-15 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=300 Hz G4 98 16 3 49 3.1623E-8 L2 98 17 530.5M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 450U 1 E1 99 23 99 15 1 R16 24 23 25 D5 26 24 DX V6 26 22 0.65V R17 23 25 25 D6 25 27 DX V7 22 27 0.65V V5 22 21 0.18V D4 21 15 DX V4 20 22 0.18V D3 15 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=625)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM2902 QUAD OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM2902 1 2 99 50 28 * *Features: *Eliminates need for dual supplies *Large DC voltage gain = 100dB *High bandwidth = 1MHz *Low input offset voltage = 2mV *Wide supply range = +-1.5V to +-16V * *NOTE: Model is for single device only and simulated
  • supply current is 1/4 of total device current.
  • Output crossover distortion with dual supplies
  • is not modeled.
* ****************INPUT STAGE**************
  • IOS 2 1 5N
*^Input offset current R1 1 3 500K R2 3 2 500K I1 99 4 100U R3 5 50 517 R4 6 50 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=1.2 MHz C4 5 6 128.27P * ***********COMMON MODE EFFECT***********
  • I2 99 50 75U
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 2E-3 1 *Input offset voltage.^ R8 99 49 60K R9 49 50 60K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.63 D1 9 8 DX D2 10 9 DX V3 10 50 .635 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 9.8772E-4 0 .3459
*Fp1=7.86 Hz R5 98 9 101.2433MEG C3 98 9 200P * ***************POLE STAGE*************** * *Fp=2 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.9577E-14 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 5.6234E-8 L2 98 17 15.9M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 300U 1 E1 99 23 99 15 1 R16 24 23 17.5 D5 26 24 DX V6 26 22 .63V R17 23 25 17.5 D6 25 27 DX V7 22 27 .63V V5 22 21 0.27V D4 21 15 DX V4 20 22 0.27V D3 15 20 DX L3 22 28 500P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX PNP(BF=1.111E3)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM2904 DUAL OPERATIONAL AMPLIFIER MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM2904 1 2 99 50 28 * *Features: *Eliminates need for dual supplies *Large DC voltage gain = 100dB *High bandwidth = 1MHz *Low input offset voltage = 2mV *Wide supply range = +-1.5V to +-16V * *NOTE: Model is for single device only and simulated
  • supply current is 1/2 of total device current.
  • Output crossover distortion with dual supplies
  • is not modeled.
* ****************INPUT STAGE**************
  • IOS 2 1 5N
*^Input offset current R1 1 3 500K R2 3 2 500K I1 99 4 100U R3 5 50 517 R4 6 50 517 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=1.2 MHz C4 5 6 128.27P * ***********COMMON MODE EFFECT***********
  • I2 99 50 75U
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 2E-3 1 *Input offset voltage.^ R8 99 49 60K R9 49 50 60K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.63 D1 9 8 DX D2 10 9 DX V3 10 50 .635 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 9.8772E-4 0 .3459
*Fp1=7.86 Hz R5 98 9 101.2433MEG C3 98 9 200P * ***************POLE STAGE*************** * *Fp=2 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.9577E-14 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 5.6234E-8 L2 98 17 15.9M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 300U 1 E1 99 23 99 15 1 R16 24 23 17.5 D5 26 24 DX V6 26 22 .63V R17 23 25 17.5 D6 25 27 DX V7 22 27 .63V V5 22 21 0.27V D4 21 15 DX V4 20 22 0.27V D3 15 20 DX L3 22 28 500P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX PNP(BF=1.111E3)
  • ..ENDS
*////////////////////////////////////////////////////////// *LH4161 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LH4161 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 50MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 1.5P CI2 2 0 1.5P R1 1 3 162.5K R2 3 2 162.5K I1 4 50 1M R3 99 5 651.7 R4 99 6 651.7 Q1 5 2 45 QX Q2 6 7 46 QX R43 45 4 600 R44 46 4 600 *Fp2=200 MHz C4 5 6 6.1054E-13 * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 .5E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.335 D1 9 8 DX D2 10 9 DX V3 10 50 2.155 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(1) VA1 0 0 0 20 G1 98 9 POLY(1) 5 6 0 2.9E-3 0 5.062E-4
*Fp1=23.52 KHz R5 98 9 1MEG C3 98 9 6.7668P * ***************POLE STAGE*************** * *Fp=203 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.84E-16 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=200 KHz G4 98 16 3 49 1.9952E-8 L2 98 17 795.77U R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 15 1 R16 24 23 10 D5 26 24 DY V6 26 22 .63V R17 23 25 10 D6 25 27 DY C9 23 22 500P V7 22 27 .63V V5 22 21 .63V D4 21 15 DX V4 20 22 .63V D3 15 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL DY D(IS=1E-25) ..MODEL QX NPN(BF=250)
  • ..ENDS
*////////////////////////////////////////////////////////// *LH4162 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LH4162 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 50MHz *High slew rate = 300V/uS * *NOTE: Model is for single device only and simulated
  • supply current is 1/2 of total device current.
* ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 1.5P CI2 2 0 1.5P R1 1 3 162.5K R2 3 2 162.5K I1 4 50 1M R3 99 5 651.7 R4 99 6 651.7 Q1 5 2 45 QX Q2 6 7 46 QX R43 45 4 600 R44 46 4 600 *Fp2=200 MHz C4 5 6 6.1054E-13 * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 5E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.335 D1 9 8 DX D2 10 9 DX V3 10 50 2.155 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(1) VA1 0 0 0 20 G1 98 9 POLY(1) 5 6 0 2.9E-3 0 5.062E-4
*Fp1=23.52 KHz R5 98 9 1MEG C3 98 9 6.7668P * ***************POLE STAGE*************** * *Fp=203 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.84E-16 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=200 KHz G4 98 16 3 49 1.9952E-8 L2 98 17 795.77U R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 15 1 R16 24 23 10 D5 26 24 DY V6 26 22 .63V R17 23 25 10 D6 25 27 DY C9 23 22 500P V7 22 27 .63V V5 22 21 .63V D4 21 15 DX V4 20 22 .63V D3 15 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL DY D(IS=1E-25) ..MODEL QX NPN(BF=250)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6118/A Fast Settling Dual OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6118 1 2 99 50 28 * *Features: *Low offset voltage = .2mV *High bandwidth = 17MHz *Slew rate (Av=-1) = 140V/uS * *NOTE: Model is for single device only and simulated
  • supply current is 1/2 of total device current.
* ****************INPUT STAGE**************
  • IOS 2 1 20N
*^Input offset current CI1 1 0 2.5P CI2 2 0 2.5P R1 1 3 3.125G R2 3 2 3.125G I1 99 4 40U R43 45 4 1.25K R44 46 4 1.25K Q1 5 2 45 QX Q2 6 7 46 QX R3 50 5 2.54K R4 50 6 2.54K *Fp2=30 MHz C4 5 6 1.0433P * ***********COMMON MODE EFFECT***********
  • I2 99 50 2.71M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 .2E-3 1 *Input offset voltage.^ R8 99 49 71.4K R9 49 50 71.4K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 2.63 D1 9 8 DX D2 10 9 DX V3 10 50 2.63 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 5E-3 0 5.056
*Fp1=38.24 Hz R5 98 9 100MEG C3 98 9 41.62P * ***************POLE STAGE*************** * *Fp=110 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 1.4469E-15 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=6 KHz G4 98 16 3 49 1E-8 L2 98 17 26.526M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 E1 99 23 99 15 1 R16 24 23 10 D5 26 24 DY V6 26 22 .63V R17 23 25 10 D6 25 27 DY C9 23 22 .001U V7 22 27 .63V V5 22 21 .63V D4 21 15 DX V4 20 22 .63V D3 15 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL DY D(IS=1E-25) ..MODEL QX PNP(BF=100)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6161 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6161 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 50MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 1.5P CI2 2 0 1.5P R1 1 3 162.5K R2 3 2 162.5K I1 4 50 1M R3 99 5 651.7 R4 99 6 651.7 Q1 5 2 45 QX Q2 6 7 46 QX R43 45 4 600 R44 46 4 600 *Fp2=200 MHz C4 5 6 6.1054E-13 * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 5E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.335 D1 9 8 DX D2 10 9 DX V3 10 50 2.155 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(1) VA1 0 0 0 20 G1 98 9 POLY(1) 5 6 0 2.9E-3 0 5.062E-4
*Fp1=23.52 KHz R5 98 9 1MEG C3 98 9 6.7668P * ***************POLE STAGE*************** * *Fp=203 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.84E-16 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=200 KHz G4 98 16 3 49 1.9952E-8 L2 98 17 795.77U R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 15 1 R16 24 23 10 D5 26 24 DY V6 26 22 .63V R17 23 25 10 D6 25 27 DY C9 23 22 500P V7 22 27 .63V V5 22 21 .63V D4 21 15 DX V4 20 22 .63V D3 15 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL DY D(IS=1E-25) ..MODEL QX NPN(BF=250)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6162 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6162 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 100MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 2P CI2 2 0 2P R1 1 3 90K R2 3 2 90K I1 4 50 1M R3 99 5 351.7 R4 99 6 351.7 Q1 5 2 45 QX Q2 6 7 46 QX R43 45 4 300 R44 46 4 300 *Fp2=230 MHz C4 5 6 9.8376E-13 * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 3E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.43 D1 9 8 DX D2 10 9 DX V3 10 50 2.23 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(1) VA1 0 0 0 .85 G1 98 9 POLY(1) 5 6 0 6.5E-3 0 8.646E-3
*Fp1=17.935 KHz R5 98 9 1MEG C3 98 9 8.874P * ***************POLE STAGE*************** * *Fp=230 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 6.9198E-16 * ***************POLE STAGE*************** * *Fp=250 MHz G5 98 18 15 49 1E-6 R15 98 18 1MEG C6 98 18 6.3662E-16 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 1E-8 L2 98 17 15.915E-3 R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 18 1 R16 24 23 10 D5 26 24 DX V6 26 22 .63V R17 23 25 10 D6 25 27 DX C9 23 22 200P V7 22 27 .63V V5 22 21 .23V D4 21 18 DX V4 20 22 .23V D3 18 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=227.3)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6164 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6164 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 175MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 3P CI2 2 0 3P R1 1 3 50K R2 3 2 50K I1 4 50 1M R3 99 5 201.7 R4 99 6 201.7 Q1 5 2 45 QX Q2 6 7 46 QX R43 45 4 150 R44 46 4 150 *Fp2=190 MHz C4 5 6 2.0765P * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 2E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.43 D1 9 8 DX D2 10 9 DX V3 10 50 2.23 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(1) VA1 0 0 0 3.4 G1 98 9 POLY(1) 5 6 0 9.0E-3 0 10.6E-3
*Fp1=25.1 KHz R5 98 9 1MEG C3 98 9 6.3408P * ***************POLE STAGE*************** * *Fp=190 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 8.3766E-16 * ***************POLE STAGE*************** * *Fp=203 MHz G5 98 18 15 49 1E-6 R15 98 18 1MEG C6 98 18 7.8401E-16 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=3 KHz G4 98 16 3 49 5.6234E-9 L2 98 17 53.052E-3 R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 18 1 R16 24 23 10 D5 26 24 DX V6 26 22 .63V R17 23 25 10 D6 25 27 DX C9 23 22 500P V7 22 27 .63V V5 22 21 .23V D4 21 18 DX V4 20 22 .23V D3 18 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=200)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6165 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6165 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 725MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 6P CI2 2 0 6P R1 1 3 10K R2 3 2 10K I1 4 50 1M R3 99 5 51.7 R4 99 6 51.7 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=120 MHz C4 5 6 12.827P * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 1E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.43 D1 9 8 DX D2 10 9 DX V3 10 50 2.23 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(2) VA1 VA3 0 0 0 0 0 0 4.25 0 0 4.978143E5 G1 98 9 POLY(1) 5 6 0 38.0E-3
*Fp1=25.1 KHz R5 98 9 1MEG VA3 9 11 0 C3 98 11 3.897P * ***************POLE STAGE*************** * *Fp=120 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 1.3263E-15 * ***************POLE STAGE*************** * *Fp=124 MHz G5 98 18 15 49 1E-6 R15 98 18 1MEG C6 98 18 1.2835E-15 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 7.94328E-9 L2 98 17 15.915E-3 R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 18 1 R16 24 23 10 D5 26 24 DX V6 26 22 .63V R17 23 25 10 D6 25 27 DX C9 23 22 500P V7 22 27 .63V V5 22 21 .25V D4 21 18 DX V4 20 22 .25V D3 18 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=200)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6218/A Fast Settling Dual OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6218 1 2 99 50 28 * *Features: *Low offset voltage = .2mV *High bandwidth = 17MHz *Slew rate (Av=-1) = 140V/uS * *NOTE: Model is for single device only and simulated
  • supply current is 1/2 of total device current.
* ****************INPUT STAGE**************
  • IOS 2 1 20N
*^Input offset current CI1 1 0 2.5P CI2 2 0 2.5P R1 1 3 3.125G R2 3 2 3.125G I1 99 4 40U R43 45 4 1.25K R44 46 4 1.25K Q1 5 2 45 QX Q2 6 7 46 QX R3 50 5 2.54K R4 50 6 2.54K *Fp2=30 MHz C4 5 6 1.0433P * ***********COMMON MODE EFFECT***********
  • I2 99 50 2.71M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 .2E-3 1 *Input offset voltage.^ R8 99 49 71.4K R9 49 50 71.4K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 2.63 D1 9 8 DX D2 10 9 DX V3 10 50 2.63 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 G1 98 9 POLY(1) 5 6 0 5E-3 0 5.056
*Fp1=38.24 Hz R5 98 9 100MEG C3 98 9 41.62P * ***************POLE STAGE*************** * *Fp=110 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 1.4469E-15 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=6 KHz G4 98 16 3 49 1E-8 L2 98 17 26.526M R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 E1 99 23 99 15 1 R16 24 23 10 D5 26 24 DY V6 26 22 .63V R17 23 25 10 D6 25 27 DY C9 23 22 .001U V7 22 27 .63V V5 22 21 .63V D4 21 15 DX V4 20 22 .63V D3 15 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL DY D(IS=1E-25) ..MODEL QX PNP(BF=100)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6261 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6261 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 50MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 1.5P CI2 2 0 1.5P R1 1 3 162.5K R2 3 2 162.5K I1 4 50 1M R3 99 5 651.7 R4 99 6 651.7 Q1 5 2 45 QX Q2 6 7 46 QX R43 45 4 600 R44 46 4 600 *Fp2=200 MHz C4 5 6 6.1054E-13 * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 5E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.335 D1 9 8 DX D2 10 9 DX V3 10 50 2.155 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(1) VA1 0 0 0 20 G1 98 9 POLY(1) 5 6 0 2.9E-3 0 5.062E-4
*Fp1=23.52 KHz R5 98 9 1MEG C3 98 9 6.7668P * ***************POLE STAGE*************** * *Fp=203 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.84E-16 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=200 KHz G4 98 16 3 49 1.9952E-8 L2 98 17 795.77U R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 15 1 R16 24 23 10 D5 26 24 DY V6 26 22 .63V R17 23 25 10 D6 25 27 DY C9 23 22 500P V7 22 27 .63V V5 22 21 .63V D4 21 15 DX V4 20 22 .63V D3 15 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL DY D(IS=1E-25) ..MODEL QX NPN(BF=250)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6262 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6262 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 100MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 2P CI2 2 0 2P R1 1 3 90K R2 3 2 90K I1 4 50 1M R3 99 5 351.7 R4 99 6 351.7 Q1 5 2 45 QX Q2 6 7 46 QX R43 45 4 300 R44 46 4 300 *Fp2=230 MHz C4 5 6 9.8376E-13 * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 3E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.43 D1 9 8 DX D2 10 9 DX V3 10 50 2.23 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(1) VA1 0 0 0 .85 G1 98 9 POLY(1) 5 6 0 6.5E-3 0 8.646E-3
*Fp1=17.935 KHz R5 98 9 1MEG C3 98 9 8.874P * ***************POLE STAGE*************** * *Fp=230 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 6.9198E-16 * ***************POLE STAGE*************** * *Fp=250 MHz G5 98 18 15 49 1E-6 R15 98 18 1MEG C6 98 18 6.3662E-16 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 1E-8 L2 98 17 15.915E-3 R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 18 1 R16 24 23 10 D5 26 24 DX V6 26 22 .63V R17 23 25 10 D6 25 27 DX C9 23 22 200P V7 22 27 .63V V5 22 21 .23V D4 21 18 DX V4 20 22 .23V D3 18 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=227.3)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6264 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6264 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 175MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 3P CI2 2 0 3P R1 1 3 50K R2 3 2 50K I1 4 50 1M R3 99 5 201.7 R4 99 6 201.7 Q1 5 2 45 QX Q2 6 7 46 QX R43 45 4 150 R44 46 4 150 *Fp2=190 MHz C4 5 6 2.0765P * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 2E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.43 D1 9 8 DX D2 10 9 DX V3 10 50 2.23 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(1) VA1 0 0 0 3.4 G1 98 9 POLY(1) 5 6 0 9.0E-3 0 10.6E-3
*Fp1=25.1 KHz R5 98 9 1MEG C3 98 9 6.3408P * ***************POLE STAGE*************** * *Fp=190 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 8.3766E-16 * ***************POLE STAGE*************** * *Fp=203 MHz G5 98 18 15 49 1E-6 R15 98 18 1MEG C6 98 18 7.8401E-16 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=3 KHz G4 98 16 3 49 5.6234E-9 L2 98 17 53.052E-3 R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 18 1 R16 24 23 10 D5 26 24 DX V6 26 22 .63V R17 23 25 10 D6 25 27 DX C9 23 22 500P V7 22 27 .63V V5 22 21 .23V D4 21 18 DX V4 20 22 .23V D3 18 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=200)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6265 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6265 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 725MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 6P CI2 2 0 6P R1 1 3 10K R2 3 2 10K I1 4 50 1M R3 99 5 51.7 R4 99 6 51.7 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=120 MHz C4 5 6 12.827P * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 1E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.43 D1 9 8 DX D2 10 9 DX V3 10 50 2.23 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(2) VA1 VA3 0 0 0 0 0 0 4.25 0 0 4.978143E5 G1 98 9 POLY(1) 5 6 0 38.0E-3
*Fp1=25.1 KHz R5 98 9 1MEG VA3 9 11 0 C3 98 11 3.897P * ***************POLE STAGE*************** * *Fp=120 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 1.3263E-15 * ***************POLE STAGE*************** * *Fp=124 MHz G5 98 18 15 49 1E-6 R15 98 18 1MEG C6 98 18 1.2835E-15 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 7.94328E-9 L2 98 17 15.915E-3 R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 18 1 R16 24 23 10 D5 26 24 DX V6 26 22 .63V R17 23 25 10 D6 25 27 DX C9 23 22 500P V7 22 27 .63V V5 22 21 .25V D4 21 18 DX V4 20 22 .25V D3 18 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=200)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6361 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6361 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 50MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 1.5P CI2 2 0 1.5P R1 1 3 162.5K R2 3 2 162.5K I1 4 50 1M R3 99 5 651.7 R4 99 6 651.7 Q1 5 2 45 QX Q2 6 7 46 QX R43 45 4 600 R44 46 4 600 *Fp2=200 MHz C4 5 6 6.1054E-13 * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 5E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.335 D1 9 8 DX D2 10 9 DX V3 10 50 2.155 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(1) VA1 0 0 0 20 G1 98 9 POLY(1) 5 6 0 2.9E-3 0 5.062E-4
*Fp1=23.52 KHz R5 98 9 1MEG C3 98 9 6.7668P * ***************POLE STAGE*************** * *Fp=203 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 7.84E-16 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=200 KHz G4 98 16 3 49 1.9952E-8 L2 98 17 795.77U R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 15 1 R16 24 23 10 D5 26 24 DY V6 26 22 .63V R17 23 25 10 D6 25 27 DY C9 23 22 500P V7 22 27 .63V V5 22 21 .63V D4 21 15 DX V4 20 22 .63V D3 15 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL DY D(IS=1E-25) ..MODEL QX NPN(BF=250)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6362 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6362 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 100MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 2P CI2 2 0 2P R1 1 3 90K R2 3 2 90K I1 4 50 1M R3 99 5 351.7 R4 99 6 351.7 Q1 5 2 45 QX Q2 6 7 46 QX R43 45 4 300 R44 46 4 300 *Fp2=230 MHz C4 5 6 9.8376E-13 * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 3E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.43 D1 9 8 DX D2 10 9 DX V3 10 50 2.23 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(1) VA1 0 0 0 .85 G1 98 9 POLY(1) 5 6 0 6.5E-3 0 8.646E-3
*Fp1=17.935 KHz R5 98 9 1MEG C3 98 9 8.874P * ***************POLE STAGE*************** * *Fp=230 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 6.9198E-16 * ***************POLE STAGE*************** * *Fp=250 MHz G5 98 18 15 49 1E-6 R15 98 18 1MEG C6 98 18 6.3662E-16 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 1E-8 L2 98 17 15.915E-3 R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 18 1 R16 24 23 10 D5 26 24 DX V6 26 22 .63V R17 23 25 10 D6 25 27 DX C9 23 22 200P V7 22 27 .63V V5 22 21 .23V D4 21 18 DX V4 20 22 .23V D3 18 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=227.3)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6364 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6364 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 175MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 3P CI2 2 0 3P R1 1 3 50K R2 3 2 50K I1 4 50 1M R3 99 5 201.7 R4 99 6 201.7 Q1 5 2 45 QX Q2 6 7 46 QX R43 45 4 150 R44 46 4 150 *Fp2=190 MHz C4 5 6 2.0765P * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 2E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.43 D1 9 8 DX D2 10 9 DX V3 10 50 2.23 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(1) VA1 0 0 0 3.4 G1 98 9 POLY(1) 5 6 0 9.0E-3 0 10.6E-3
*Fp1=25.1 KHz R5 98 9 1MEG C3 98 9 6.3408P * ***************POLE STAGE*************** * *Fp=190 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 8.3766E-16 * ***************POLE STAGE*************** * *Fp=203 MHz G5 98 18 15 49 1E-6 R15 98 18 1MEG C6 98 18 7.8401E-16 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=3 KHz G4 98 16 3 49 5.6234E-9 L2 98 17 53.052E-3 R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 18 1 R16 24 23 10 D5 26 24 DX V6 26 22 .63V R17 23 25 10 D6 25 27 DX C9 23 22 500P V7 22 27 .63V V5 22 21 .23V D4 21 18 DX V4 20 22 .23V D3 18 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=200)
  • ..ENDS
*////////////////////////////////////////////////////////// *LM6365 High Speed OP-AMP MACRO-MODEL *////////////////////////////////////////////////////////// *
  • connections: non-inverting input
  • | inverting input
  • | | positive power supply
  • | | | negative power supply
  • | | | | output
  • | | | | |
  • | | | | |
..SUBCKT LM6365 1 2 99 50 28 * *Features: *Low supply current = 5mA *High bandwidth = 725MHz *High slew rate = 300V/uS * ****************INPUT STAGE**************
  • IOS 2 1 150N
*^Input offset current CI1 1 0 6P CI2 2 0 6P R1 1 3 10K R2 3 2 10K I1 4 50 1M R3 99 5 51.7 R4 99 6 51.7 Q1 5 2 4 QX Q2 6 7 4 QX *Fp2=120 MHz C4 5 6 12.827P * ***********COMMON MODE EFFECT***********
  • I2 99 50 4M
*^Quiescent supply current EOS 7 1 POLY(1) 16 49 1E-3 1 *Input offset voltage.^ R8 99 49 80K R9 49 50 80K * *********OUTPUT VOLTAGE LIMITING******** V2 99 8 1.43 D1 9 8 DX D2 10 9 DX V3 10 50 2.23 * **************SECOND STAGE**************
  • EH 99 98 99 49 1 F1 9 98 POLY(2) VA1 VA3 0 0 0 0 0 0 4.25 0 0 4.978143E5 G1 98 9 POLY(1) 5 6 0 38.0E-3
*Fp1=25.1 KHz R5 98 9 1MEG VA3 9 11 0 C3 98 11 3.897P * ***************POLE STAGE*************** * *Fp=120 MHz G3 98 15 9 49 1E-6 R12 98 15 1MEG C5 98 15 1.3263E-15 * ***************POLE STAGE*************** * *Fp=124 MHz G5 98 18 15 49 1E-6 R15 98 18 1MEG C6 98 18 1.2835E-15 * *********COMMON-MODE ZERO STAGE********* * *Fpcm=10 KHz G4 98 16 3 49 7.94328E-9 L2 98 17 15.915E-3 R13 17 16 1K * **************OUTPUT STAGE**************
  • F6 50 99 POLY(1) V6 200U 1 VA1 99 93 0 E1 93 23 99 18 1 R16 24 23 10 D5 26 24 DX V6 26 22 .63V R17 23 25 10 D6 25 27 DX C9 23 22 500P V7 22 27 .63V V5 22 21 .25V D4 21 18 DX V4 20 22 .25V D3 18 20 DX L3 22 28 100P RL3 22 28 100K
* ***************MODELS USED**************
  • ..MODEL DX D(IS=1E-15) ..MODEL QX NPN(BF=200)
  • ..ENDS
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