📄 elantec.lib
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* COPYRIGHT OF ELANTEC, INC.
*
*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 forerunner or 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 to keep the model as simple as possible thus
*minimizing computer running time. For example, PSRR and CMRR
*effects, parametric variation with temperature, operation under
*output short circuit conditions, and input noise sources are not
*included in the models.
*
*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 Elantec, Inc. for their operation
*within a customer circuit or system. Further, Elantec Inc.
*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.
*
*The Elantec Engineering staff is in the process of improving
*these models, and we welcome your comments and feedback.
*Inquiries should be made to:
*
* Applications Engineering Manager
* Elantec, Inc.
* 1996 Tarob Ct.
* Milpitas, CA 95035
*
*Voice Telephone: (800) 333-6314, ext. 311
*
*FAX: (408) 945-9305
*
*TELEX: 910-997-0649
*
* This is a support circuit for the ELH0101/EL macromodel
*
* lf156 Subcircuit
*
* Connections: +Input
* | -Input
* | | V+
* | | | V-
* | | | | Output
* | | | | |
.subckt lf156/EL 6 5 2 7 21
*
* Input Stage
*
vcm2 40 7 2
rd1 40 80 1.06K
rd2 40 90 1.06K
j1 80 102 12 jm1
j2 90 103 12 jm2
cin 5 6 4pF
rg1 5 102 2
rg2 6 103 2
*
* CM Clamp
*
dcm1 107 103 dm4
dcm2 105 107 dm4
vcmc 105 7 4V
ecmp 106 7 103 7 1
rcmp 107 106 10K
dcm3 109 102 dm4
dcm4 105 109 dm4
ecmn 108 2 102 2 1
rcmn 109 108 10K
*
c1 80 90 15pF
iss 2 12 0.48mA
gosit 2 12 90 80 2.4e-4
*
* Intermediate Stage
*
gcm 0 88 12 0 9.425e-9
ga 88 0 80 90 9.425e-4
r2 88 0 100K
c2 91 88 30pF
gb 91 0 88 0 28.6
ro2 91 0 74
*
* Output Stage
*
rso 91 21 1
ecl 18 0 91 21 20.69
gcl 0 88 20 0 1
rcl 20 0 1K
d1 18 20 dm1
d2 20 18 dm1
d3a 131 70 dm3
d3b 13 131 dm3
gpl 0 88 70 2 1
vc 13 21 3.1552V
rpla 2 70 10K
rplb 2 131 100K
d4a 60 141 dm3
d4b 141 14 dm3
gnl 0 88 60 7 1
ve 21 14 3.1552V
rnla 60 7 10K
rnlb 141 7 100K
ip 2 7 4.52mA
dsub 7 2 dm2
*
* Models
*
.model jm1 pjf (is=3.15e-11 beta=9.2528e-4 vto=-1.0)
.model jm2 pjf (is=2.85e-11 beta=9.2528e-4 vto=-0.999)
.model dm1 d (is=1.0e-15)
.model dm2 d (is=8.0e-16 bv=52.8)
.model dm3 d (is=1.0e-16)
.model dm4 d (is=1.0e-9)
.ends lf156/EL
*EL2020 Macromodel
* Revision A, March 1992
* Enhancements include PSRR, CMRR, and Slew Rate Limiting
* Connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2020/EL 3 2 7 4 6
*
* Input Stage
*
e1 10 0 3 0 1.0
vis 10 9 0V
h2 9 12 vxx 1.0
r1 2 11 50
l1 11 12 29nH
iinp 3 0 10uA
iinm 2 0 5uA
*
* Slew Rate Limiting
*
h1 13 0 vis 600
r2 13 14 1K
d1 14 0 dclamp
d2 0 14 dclamp
*
* High Frequency Pole
*
e2 30 0 14 0 0.00166666666
l5 30 17 1.5uH
c5 17 0 1pF
r5 17 0 500
*
* Transimpedance Stage
*
g1 0 18 17 0 1.0
rol 18 0 1Meg
cdp 18 0 5pF
*
* Output Stage
*
q1 4 18 19 qp
q2 7 18 20 qn
q3 7 19 21 qn
q4 4 20 22 qp
r7 21 6 4
r8 22 6 4
ios1 7 19 2.5mA
ios2 20 4 2.5mA
*
* Supply
*
ips 7 4 3mA
*
* Error Terms
*
ivos 0 23 5mA
vxx 23 0 0V
e4 24 0 3 0 1.0
e5 25 0 7 0 1.0
e6 26 0 4 0 1.0
r9 24 23 1K
r10 25 23 1K
r11 26 23 1K
*
* Models
*
.model qn npn(is=5e-15 bf=100 tf=0.2nS)
.model qp pnp(is=5e-15 bf=100 tf=0.2nS)
.model dclamp d(is=1e-30 ibv=0.266 bv=1.67 n=4)
.ends
*EL2028 Macromodel
* Connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2028/EL 5 4 11 6 10
*
*Input Stage
*
i1 37 6 2mA
r1 36 37 2K
r2 38 37 2K
r3 11 30 2K
r4 11 39 2K
q1 30 5 36 qn
q2 39 4 38 qna
e1 33 0 39 30 1
r5 33 0 1Meg
*
* Compensation Section
*
ga 0 34 33 0 1m
rh 34 0 80Meg
ch 34 0 5pF
rc 34 40 100
cc 40 0 1pF
*
* Poles
*
ep 41 0 40 0 1
r6 41 42 150
c1 42 0 10pF
r7 42 43 150
c2 43 0 10pF
*
* Output Stage
*
i2 11 50 1.25mA
i3 51 6 1.25mA
q3 6 43 50 qp
q4 11 43 51 qn
q5 11 50 52 qn
q6 6 51 53 qp
r8 52 10 5
r9 10 53 5
*
* Power Supply Current
*
ips 11 6 9mA
*
* Models
*
.model qn npn(is=800e-18 bf=2000 tf=0.1nS)
.model qna npn(is=824e-18 bf=2700 tf=0.1nS)
.model qp pnp(is=800e-18 bf=260 tf=0.1nS)
.ends
*EL2029 Macromodel
* Connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2029/EL 5 4 11 6 10
*
*Input Stage
*
i1 37 6 2mA
r1 36 37 800
r2 38 37 800
r3 11 30 800
r4 11 39 800
q1 30 5 36 qn
q2 39 4 38 qna
e1 33 0 39 30 1
r5 33 0 1Meg
*
* Compensation Section
*
ga 0 34 33 0 2m
rh 34 0 80Meg
ch 34 0 2pF
rc 34 40 100
cc 40 0 1pF
*
* Poles
*
ep 41 0 40 0 1
r6 41 42 150
c1 42 0 10pF
r7 42 43 150
c2 43 0 10pF
*
* Output Stage
*
i2 11 50 1.25mA
i3 51 6 1.25mA
q3 6 43 50 qp
q4 11 43 51 qn
q5 11 50 52 qn
q6 6 51 53 qp
r8 52 10 5
r9 10 53 5
*
* Power Supply Current
*
ips 11 6 9mA
*
* Models
*
.model qn npn(is=800e-18 bf=2000 tf=0.1nS)
.model qna npn(is=824e-18 bf=2700 tf=0.1nS)
.model qp pnp(is=800e-18 bf=260 tf=0.1nS)
.ends
*EL2030 Macromodel
* Revision A, March 1992
* Enhancements include PSRR, CMRR, and Slew Rate Limiting
* Connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2030/EL 3 2 7 4 6
*
* Input Stage
*
e1 10 0 3 0 1.0
vis 10 9 0V
h2 9 12 vxx 1.0
r1 2 11 50
l1 11 12 48nH
iinp 3 0 5uA
iinm 2 0 10uA
r12 3 0 2Meg
*
* Slew Rate Limiting
*
h1 13 0 vis 600
r2 13 14 1K
d1 14 0 dclamp
d2 0 14 dclamp
*
* High Frequency Pole
*
e2 30 0 14 0 0.00166666666
l3 30 17 0.5uH
c5 17 0 1pF
r5 17 0 500
*
* Transimpedance Stage
*
g1 0 18 17 0 1.0
rol 18 0 150K
cdp 18 0 2.8pF
*
* Output Stage
*
q1 4 18 19 qp
q2 7 18 20 qn
q3 7 19 21 qn
q4 4 20 22 qp
r7 21 6 4
r8 22 6 4
ios1 7 19 2.5mA
ios2 20 4 2.5mA
*
* Supply Current
*
ips 7 4 9mA
*
* Error Terms
*
ivos 0 23 5mA
vxx 23 0 0V
e4 24 0 3 0 1.0
e5 25 0 7 0 1.0
e6 26 0 4 0 1.0
r9 24 23 3K
r10 25 23 1K
r11 26 23 1K
*
* Models
*
.model qn npn(is=5e-15 bf=100 tf=0.1nS)
.model qp pnp(is=5e-15 bf=100 tf=0.1nS)
.model dclamp d(is=1e-30 ibv=0.266 bv=3.7 n=4)
.ends
*EL2038 Macromodel
* Connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2038/EL 1 14 10 3 8
*
*Input Stage
*
ie 37 3 2mA
r6 36 37 65
r7 38 37 65
rc1 10 30 75
rc2 10 39 75
q1 30 1 36 qn
q2 39 14 38 qna
ediff 33 0 39 30 7.25
rdiff 33 0 1Meg
*
* Compensation Section
*
ga 0 34 33 0 5.2m
rh 34 0 .525Meg
ch 34 0 0.5pF
rc 34 40 600
cc 40 0 4pF
*
* Poles
*
ep 41 0 40 0 1
rpa 41 42 75
cpa 42 0 17pF
rpb 42 43 50
cpb 43 0 10pF
*
* Output Stage
*
ios1 10 50 1.25mA
ios2 51 3 1.25mA
q3 3 43 50 qp
q4 10 43 51 qn
q5 10 50 52 qn
q6 3 51 53 qp
ros1 52 8 25
ros2 8 53 25
*
* Power Supply Current
*
ips 10 3 9.2mA
*
* Models
*
.model qn npn(is=800e-18 bf=200 tf=0.2nS)
.model qna npn(is=864e-18 bf=250 tf=0.2nS)
.model qp pnp(is=800e-18 bf=60 tf=0.2nS)
.ends
*EL2039 Macromodel
* Macromodel
* Connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2039/EL 1 14 10 3 8
*
*Input Stage
*
ie 37 3 1.7mA
r6 36 37 60
r7 38 37 60
rc1 10 30 75
rc2 10 39 75
q1 30 1 36 qn
q2 39 14 38 qna
ediff 33 0 39 30 7.25
rdiff 33 0 1Meg
*
* Compensation Section
*
ga 0 34 33 0 5.2m
rh 34 0 .525Meg
ch 34 0 1.5pF
rc 34 40 600
cc 40 0 7pF
*
* Poles
*
ep 41 0 40 0 1
rpa 41 42 75
cpa 42 0 7pF
rpb 42 43 50
cpb 43 0 3pF
*
* Output Stage
*
ios1 10 50 1.25mA
ios2 51 3 1.25mA
q3 3 43 50 qp
q4 10 43 51 qn
q5 10 50 52 qn
q6 3 51 53 qp
ros1 52 8 25
ros2 8 53 25
*
* Power Supply Current
*
ips 10 3 9.5mA
*
* Models
*
.model qn npn(is=800e-18 bf=170 tf=0.2nS)
.model qna npn(is=864e-18 bf=200 tf=0.2nS)
.model qp pnp(is=800e-18 bf=60 tf=0.2nS)
.ends
*EL2040 Macromodel
* Connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2040/EL 5 4 11 6 10
*
*Input Stage
*
ie 37 6 1.3mA
r6 36 37 60
r7 38 37 60
rc1 11 30 75
rc2 11 39 75
q1 30 5 36 qn
q2 39 4 38 qna
ediff 33 0 39 30 7.25
rdiff 33 0 1Meg
*
* Compensation Section
*
ga 0 34 33 0 5.2m
rh 34 0 .525Meg
ch 34 0 1.5pF
rc 34 40 600
cc 40 0 7pF
*
* Poles
*
ep 41 0 40 0 1
rpa 41 42 75
cpa 42 0 7pF
rpb 42 43 50
cpb 43 0 3pF
*
* Output Stage
*
ios1 11 50 1.25mA
ios2 51 6 1.25mA
q3 6 43 50 qp
q4 11 43 51 qn
q5 11 50 52 qn
q6 6 51 53 qp
ros1 52 10 25
ros2 10 53 25
*
* Power Supply Current
*
ips 11 6 9.5mA
*
* Models
*
.model qn npn(is=800e-18 bf=130 tf=0.2nS)
.model qna npn(is=864e-18 bf=150 tf=0.2nS)
.model qp pnp(is=800e-18 bf=60 tf=0.2nS)
.ends
*EL2041 Model
* connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2041/EL 5 4 11 6 10
*
* Input stage
*
ie 37 6 3.7mA
r6 36 37 75
r7 38 37 75
rc1 11 30 75
rc2 11 39 75
q1 30 5 36 qn
q2 39 4 38 qna
ediff 33 0 39 30 3
rdiff 33 0 1Meg
*
* Compensation Section
*
ga 0 34 33 0 5.2m
rh 34 0 1Meg
ch 34 0 16pF
rc 34 40 300
cc 40 0 1.5pF
*
* Poles
*
ep 41 0 40 0 1
rpa 41 42 75
cpa 42 0 2pF
rpb 42 43 50
cpb 43 0 3pF
*
* Output Stage
*
ios1 11 50 1.25mA
ios2 51 6 1.25mA
q3 6 43 50 qp
q4 11 43 51 qn
q5 11 50 52 qn
q6 6 51 53 qp
ros1 52 10 25
ros2 10 53 25
*
* Power Supply Current
*
ips 11 6 6.5mA
*
* Models
*
.model qn npn(is=800e-18 bf=340 tf=0.2nS)
.model qna npn(is=864e-18 bf=400 tf=0.2nS)
.model qp pnp(is=800e-18 bf=60 tf=0.2nS)
.ends
*EL2044 Model
* connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2044/EL 3 2 7 4 6
*
* Input stage
*
ie 7 37 1mA
r6 36 37 800
r7 38 37 800
rc1 4 30 850
rc2 4 39 850
q1 30 3 36 qp
q2 39 2 38 qpa
ediff 33 0 39 30 1.0
rdiff 33 0 1Meg
*
* Compensation Section
*
ga 0 34 33 0 1m
rh 34 0 2Meg
ch 34 0 1.3pF
rc 34 40 1K
cc 40 0 1pF
*
* Poles
*
ep 41 0 40 0 1
rpa 41 42 200
cpa 42 0 2pF
rpb 42 43 200
cpb 43 0 1.5pF
*
* Output Stage
*
ios1 7 50 1.0mA
ios2 51 4 1.0mA
q3 4 43 50 qp
q4 7 43 51 qn
q5 7 50 52 qn
q6 4 51 53 qp
ros1 52 6 25
ros2 6 53 25
*
* Power Supply Current
*
ips 7 4 2.7mA
*
* Models
*
.model qn npn(is=800e-18 bf=200 tf=0.2nS)
.model qpa pnp(is=864e-18 bf=100 tf=0.2nS)
.model qp pnp(is=800e-18 bf=125 tf=0.2nS)
.ends
*EL2045 Model
* connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2045/EL 3 2 7 4 6
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