* Rev. A, October, 2008
*////////////////////////////////////////////////////// 
* BEGIN MODEL LMH6734
*//////////////////////////////////////////////////////////////////////
* (C) National Semiconductor, Corporation.
* Models developed and under copyright by:
* National Semiconductor, Corporation.  
*/////////////////////////////////////////////////////////////////////
* Legal Notice:  
* The model may be copied, and distributed without any modifications;
* however, reselling or licensing the material is illegal.
* We reserve the right to make changes to the model without prior notice. 
* Pspice Models are provided "AS IS, WITH NO WARRANTY OF ANY KIND" 
*////////////////////////////////////////////////////////////////////
*
* PINOUT ORDER +IN -IN +V -V OUT
* PINOUT ORDER  2   1  15 13  14
.SUBCKT LMH6734 2 1 15 13 14
*
* BEGIN MODEL PROGRAMMING
*******************************
* AS SOME OF THE PARAMETERS OF THE PART CHANGE MORE
* BETWEEN OPERATION AT +-5 VOLTS VERSUS +5,0 VOLTS
* THAN THE MODEL CAN ACCOMODATE AUTOMATICALLY, THE
* LINES BELOW ALLOW THE MODEL TO BE SET UP FOR
* DIFFERENT SUPPLY VOLTAGES.
*******************************
* TO PROGRAM FOR SUPPLY VOLTAGE, COMMENT OUT THE GROUP
* OF STATEMENTS YOU DO NOT WANT TO USE. THE DEFAULT
* BELOW IS +5 -5 OPERATION.
********************************
* NOTE THAT BECAUSE THE MODEL FEATURES PSRR AND CMRR,
* VOS MOVES AROUND WITH SUPPLY VOLTAGE. THE VOS VALUES
* IN THE PROGRAMMING LINES ARE NOT ABSOLUTE VOS BUT
* RELATIVE VOS. THE DEFAULTS ARE THE DATA SHEET TYPICAL
* VALUES. YOU MAY ALSO ADJUST VOS TO A VALUE DIFFERENT
* THAN THE TYPICAL.
*********************************
* PROGRAMMING GROUP FOR +5 -5 OP
* BANDWIDTH
F1 53 48 V14 -1.25
* VOS
V14 56 57 0.355E-3
* TCVOS
E61 60 57 46 0 -0.69E-3
* SLEW
R40 53 45 104
* IB+
I19 28 0 16.7E-6
* IB-
I20 84 0 3.5E-6
* END GROUP FOR +5 -5 OP
*
* PROGRAMMING GROUP FOR +5  0 OP
* BANDWIDTH
*F1 53 48 V14 -1.15
* VOS
*V14 56 57 -1.860E-3
* TCVOS
*E61 60 57 46 0 -0.44E-3
* SLEW
*R40 53 45 248
* IB+
*I19 28 0 16.7E-6
* IB-
*I20 84 0 3.5E-6
* END GROUP FOR +5 0 OP
****************************************
* END MODEL PROGRAMMING
*////////////////////////////////////////////////////
* MODEL FEATURES INCLUDE BANDWIDTH VERSUS SELECTED GAIN,
* OUTPUT SWING, OUTPUT CURRENT THRU THE SUPPLY RAILS,
* OUTPUT CURRENT LIMIT, CLOSED LOOP GAIN WITH RL AND CL
* EFFECTS, SLEW RATE, OUTPUT IMPEDANCE, COMMON MODE
* REJECTION, POWER SUPPLY REJECTION WITH FREQ EFFECTS,
* INPUT VOLTAGE NOISE, INPUT CURRENT NOISE, INPUT BIAS
* CURRENT, INPUT COMMON MODE RANGE, INPUT OFFSET VOLTAGE
* WITH TEMPERATURE EFFECTS, AND QUIESCENT CURRENT VS
* VOLTAGE AND TEMPERATURE.
*
G2 28 0 20 21 1E-3
G7 26 0 82 83 0.7E-3
G10 28 0 94 0 2.78E-2
G11 26 0 95 0 1.82E-2
E4 26 27 24 25 0.47
E59 27 84 93 0 0.47
Q17 13 16 17 QOP
Q21 15 18 17 QON
D5 19 15 DD
D6 13 19 DD
D7 20 0 DIP
D8 21 0 DIP
I8 0 20 0.1E-3
I9 0 21 0.1E-3
E2 22 0 13 0 1
E3 23 0 15 0 1
D9 24 0 DVN
D10 25 0 DVN
I10 0 24 0.1E-3
I11 0 25 0.1E-3
R22 13 15 5.4E3
E5 29 0 23 0 1
E6 30 0 22 0 1
E7 31 0 32 0 1
R30 29 33 1E3
R31 30 34 1E3
R32 31 35 1E4
R33 0 33 1
R34 0 34 1
R35 0 35 1
E10 36 28 35 0 1E-6
R36 37 32 1E3
R37 32 38 1E3
C6 29 33 1E-9
C7 30 34 1E-9
C8 31 35 1E-12
E11 39 36 34 0 -0.01
E12 40 39 33 0 0.01
Q22 22 41 18 QDP
Q23 23 41 16 QDN
R38 42 43 10
R39 42 41 10
C9 43 42 16E-12
C10 41 42 5E-12
E15 44 45 46 0 1
E16 45 47 46 0 1
E17 48 42 45 42 1
D11 49 23 DD
D12 22 50 DD
V11 47 50 1.67
V12 49 44 1.67
I15 0 51 1E-3
D13 51 0 DD
V13 46 51 -0.71465
C11 45 42 1.4E-12
D14 52 53 DD
D15 53 54 DD
R41 42 53 150E3
E18 55 0 40 0 0.9991
R42 55 56 30
R43 17 58 3.7
G3 43 42 45 42 0.1
G4 41 42 43 42 0.1
C14 17 0 0.2E-12
L1 58 19 4E-9
R45 58 19 400
E20 52 48 46 0 1
E21 54 48 46 0 -1
L2 59 60 0.5E-9
R46 59 60 50
G5 23 18 61 0 2E-3
G6 16 22 61 0 2E-3
E47 62 45 61 0 30
E48 63 0 61 0 -30
V48 64 63 15
V49 65 62 -15
R126 62 0 1E12
R127 63 0 1E12
M40 0 65 45 66 PSW L=1.5U W=150U
M41 45 64 0 67 NSW L=1.5U W=150U
R128 66 0 1E12
R129 67 0 1E12
E49 38 0 28 0 1
E50 37 0 26 0 1
C15 26 0 0.7E-12
C16 40 0 0.7E-12
C17 26 40 0.15E-12
E51 68 59 69 0 30
E52 70 26 69 0 -30
V50 71 70 15
V51 72 68 -15
R130 68 0 1E12
R131 70 0 1E12
M42 26 72 59 73 PSW L=1.5U W=150U
M43 59 71 26 74 NSW L=1.5U W=150U
R132 73 0 1E12
R133 74 0 1E12
E53 75 0 61 0 -1
V52 69 75 1
E54 76 19 69 0 30
E55 77 14 69 0 -30
V54 78 77 15
V55 79 76 -15
R136 76 0 1E12
R137 77 0 1E12
M44 14 79 19 80 PSW L=1.5U W=1500U
M45 19 78 14 81 NSW L=1.5U W=1500U
R138 80 0 1E12
R139 81 0 1E12
D16 82 0 DIN
D17 83 0 DIN
I17 0 82 0.1E-3
I18 0 83 0.1E-3
E56 85 28 69 0 30
E57 86 2 69 0 -30
V56 87 86 15
V57 88 85 -15
R141 85 0 1E12
R142 86 0 1E12
M46 2 88 28 89 PSW L=1.5U W=150U
M47 28 87 2 90 NSW L=1.5U W=150U
R143 89 0 1E12
R144 90 0 1E12
R145 40 32 1E6
C18 59 0 0.3E-12
C19 2 0 0.1P
R146 39 40 1E9
R147 36 39 1E9
R148 28 36 1E9
R149 27 26 1E9
R150 45 44 1E9
R151 47 45 1E9
R152 48 42 1E12
R153 42 52 1E12
R154 42 54 1E12
C24 14 0 0.1E-12
G8 15 13 61 0 2.72E-3
R166 0 69 1E9
R167 0 46 1E12
J1 26 91 26 JC
J2 28 91 28 JC
J3 92 26 92 JC
J4 92 28 92 JC
V61 23 92 1.75
V62 91 22 1.75
C25 84 14 20E-15
R168 84 14 327
I23 15 13 1E-6
R169 1 84 327
R170 84 27 1E9
R171 0 93 138
R172 0 93 138
E60 42 22 23 22 0.5
R173 57 60 1E9
V64 61 0 1
R174 0 61 1E9
R175 0 75 1E9
R176 0 84 1E12
R179 0 94 100
R180 0 94 100
R181 0 95 100
R182 0 95 100
.MODEL QON NPN VAF=150 BF=110 IKF=0.45 RE=0.5 RC=0.5
.MODEL QOP PNP VAF=150 BF=110 IKF=0.45 RE=0.5 RC=0.5
.MODEL QDP PNP
.MODEL QDN NPN
.MODEL JC NJF RS=1000 IS=1E-18
.MODEL DD D
.MODEL DC D IS=5.002E-16
.MODEL DVN D KF=1E-15
.MODEL DIN D KF=2E-13
.MODEL DIP D KF=2E-13
.MODEL PSW PMOS KP=200U VTO=-7.5 IS=1E-18
.MODEL NSW NMOS KP=200U VTO=7.5 IS=1E-18
.MODEL QSW NPN
.MODEL NEN NMOS KP=200U VTO=0.5 IS=1E-18
.ENDS
* END MODEL LMH6734