📄 el.lib
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r8 15 17 700
r9 1 4 1250
r10 15 16 40
r11 17 1 15
r12 10 19 10K
r13 14 22 20
c1 22 4 0.42pF
c2 22 19 1pF
d1 1 14 dcap
.model qn npn(bf=150 tf=0.05nS)
.model qp pnp(bf=90 tf=0.05nS)
.model dcap d(rs=200 cjo=1e-12 vj=0.8 tt=100e-9)
.ends
* EL2223 Macromodel
* Connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2223/EL 3 2 7 4 6
*
*Input stage
*
ie 37 4 2mA
r6 36 37 60
r7 38 37 60
rc1 7 30 75
rc2 7 39 75
q1 30 3 36 qn
q2 39 2 38 qna
ediff 33 0 39 30 7.25
rdiff 33 0 1Meg
*
* Compensation Section
*
ga 0 34 33 0 2.6m
rh 34 0 3Meg
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 25pF
rpb 42 43 50
cpb 43 0 15pF
*
* Output Stage
*
ios1 7 50 1.25mA
ios2 51 4 1.25mA
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
*
* Models
*
.model qn npn(is=800e-18 bf= 250 tf=0.2nS)
.model qna npn(is=864e-18 bf=300 tf=0.2nS)
.model qp pnp(is=800e-18 bf=60 tf=0.2nS)
.ends
*EL2224 Model
* connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2224/EL 3 2 7 4 6
*
*Input stage
*
ie 37 4 4.5mA
r6 36 37 75
r7 38 37 75
rc1 7 30 75
rc2 7 39 75
q1 30 3 36 qn
q2 39 2 38 qna
ediff 33 0 39 30 2.6
rdiff 33 0 1Meg
*
* Compensation Section
*
ga 0 34 33 0 3m
rh 34 0 1Meg
ch 34 0 15pF
rc 34 40 300
cc 40 0 1pF
*
* Poles
*
ep 41 0 40 0 1
rpa 41 42 75
cpa 42 0 3pF
rpb 42 43 50
cpb 43 0 3pF
*
* Output Stage
*
ios1 7 50 0.5mA
ios2 51 4 0.5mA
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
*
* Models
.model qn npn(is=800e-18 bf=350 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
*EL2232 Macromodel
* Revision A, March 1992
* Enhancements include PSRR, CMRR, and Slew Rate Limiting
* Connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2232/EL 3 2 8 4 1
*
* 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 1.2uA
iinm 2 0 5uA
*
* Slew Rate Limiting
*
h1 13 0 vis 600
r2 13 14 10
d1 14 0 dclamp
d2 0 14 dclamp
*
* High Frequency Pole
*
*e2 30 0 14 0 0.00166666666
e2 30 0 14 0 0.001
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 2Meg
cdp 18 0 2.5pF
*
* Output Stage
*
q1 4 18 19 qp
q2 8 18 20 qn
q3 8 19 21 qn
q4 4 20 22 qp
r7 21 1 5
r8 22 1 5
ios1 8 19 1mA
ios2 20 4 1mA
*
* Supply
*
ips 8 4 2mA
*
* Error Terms
*
ivos 0 23 2mA
vxx 23 0 0V
e4 24 0 1 0 1.0
e5 25 0 8 0 1.0
e6 26 0 4 0 1.0
r9 24 23 1.4K
r10 25 23 10K
r11 26 23 10K
*
* Models
*
.model qn npn(is=5e-15 bf=250 tf=0.1nS)
.model qp pnp(is=5e-15 bf=250 tf=0.1nS)
.model dclamp d(is=1e-30 ibv=10pA bv=0.8 n=4)
.ends
*EL2242 Model
* connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2242/EL 3 2 7 4 6
*
* Input stage
*
ie 7 37 84uA
r6 36 37 2.1K
r7 38 37 2.1K
rc1 4 30 6K
rc2 4 39 6K
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 175Meg
ch 34 0 5pF
rc 34 40 1K
cc 40 0 7pF
*
* Poles
*
ep 41 0 40 0 1
rpa 41 42 200
cpa 42 0 4pF
rpb 42 43 1K
cpb 43 0 2pF
*
* 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 1.8mA
*
* Models
*
.model qn npn(is=800e-18 bf=100 tf=0.2nS)
.model qpa pnp(is=864e-18 bf=120 tf=0.2nS)
.model qp pnp(is=800e-18 bf=50 tf=0.2nS)
.ends
*EL2243 Model Bode Plot
* connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2243/EL 3 2 7 4 6
*
* Input stage
*
ie 7 37 200uA
r6 36 37 1K
r7 38 37 1K
rc1 4 30 3K
rc2 4 39 3K
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 175Meg
ch 34 0 4pF
rc 34 40 1K
cc 40 0 4pF
*
* Poles
*
ep 41 0 40 0 1
rpa 41 42 1K
cpa 42 0 4pF
rpb 42 43 1K
cpb 43 0 2pF
*
* 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 1.5mA
*
* Models
*
.model qn npn(is=800e-18 bf=100 tf=0.2nS)
.model qpa pnp(is=864e-18 bf=150 tf=0.2nS)
.model qp pnp(is=800e-18 bf=125 tf=0.2nS)
.ends
* EL2244 Macromodel
* connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2244/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 1pF
rpb 42 43 200
cpb 43 0 1pF
*
* 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
* EL2245 Macromodel
* connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2245/EL 3 2 7 4 6
*
* Input stage
*
ie 7 37 1mA
r6 36 37 400
r7 38 37 400
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 1pF
rpb 42 43 200
cpb 43 0 1pF
*
* 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
*EL2252 Marcromodel
* Connections: +input
* | -input
* | | +V
* | | | -V
* | | | | HYS ___
* | | | | | TTL
* | | | | | | output
* | | | | | | |
* | | | | | | |
.subckt EL2252/EL 2 3 14 7 4 5 13
*
* Application Hints:
*
* Connect pin 4 to ground through 1000 Megohm resistor to inhibit
* Hysteresis; to invoke Hysteresis, connect pin 4 to V-.
*
* Connect pin 5 to ground to invoke TTL Voh; pin 5 may left open
* for CMOS Voh.
*
* To faciltate .OP, set itl1 = 200, itl2 = 200, set node 27 to 13.8
* volts, and node 30 to -12 volts. As an example, if you called your
* subckt x1, then the following statement should be added to your deck:
*
* .NODESET V(x1.27)=13.8 V(x1.30)=-12
*
*Input Stage
*
i1 22 7 1.7mA
r1 14 20 300
r2 14 21 300
q1 20 2 22 qn
q2 21 3 22 qn
q3 20 26 23 qn
q4 21 25 23 qn
q13 25 27 20 qp
q14 26 27 21 qp
v1 14 27 1.2v
r3 23 24 1.4K
d1 24 4 ds
r4 25 33 700
r5 26 33 700
q16 33 33 34 qn
q17 34 34 37 qn
v4 37 7 1.2v
*
* 2nd Stage
*
i2 30 7 3mA
i3 14 28 1.5mA
q7 0 35 28 qp
v2 44 0 1.2V
s1 44 35 5 0 swa
s2 45 35 5 0 swb
rsw 14 5 10K
v3 45 0 2.5v
q5 0 26 30 qn
q6 28 25 30 qn
d3 0 28 ds
*
* Output Stage
*
i4 14 38 1mA
q8 38 38 39 qn
q9 32 32 39 qp
q10 7 28 32 qp
q11 14 38 40 qn 2
q12 7 28 13 qp 2
r6 40 13 50
c1 28 0 3pF
*
* Models
*
.model qn npn(is=2e-15 bf=120 tf=0.2nS cje=0.2pF cjc=0.2pF ccs=0.2pF)
.model qp pnp(is=0.6e-15 bf=60 tf=0.2nS cje=0.5pF cjc=0.3pF ccs=0.2pF)
.model ds d(is=3e-12 tt=0.05nS eg=0.72V vj=0.58)
.model swa vswitch(von=0v voff=2.5v)
.model swb vswitch(von=2.5 voff= 0v)
.ends
*
* EL2260 Macromodel
* Revision A, March 1993
* AC characteristics used Cin- (pin 2) = 1 pF; Rf = 560 ohms
* Connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2260/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 11 130
l1 11 12 25nH
iinp 3 0 0.5uA
iinm 2 0 5uA
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 0.43uH
c5 17 0 0.27pF
r5 17 0 500
*
* Transimpedance Stage
*
g1 0 18 17 0 1.0
rol 18 0 2Meg
cdp 18 0 2.285pF
*
* 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 2mA
ios2 20 4 2mA
*
* Supply Current
*
ips 7 4 2mA
*
* Error Terms
*
ivos 0 23 2mA
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 23 562
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=2.24 n=4)
.ends
*
*EL2423 Macromodel
* Connections: +input
* | -input
* | | +Vsupply
* | | | -Vsupply
* | | | | output
* | | | | |
.subckt EL2423/EL 3 2 7 4 6
*
*Input stage
*
ie 37 4 2mA
r6 36 37 60
r7 38 37 60
rc1 7 30 75
rc2 7 39 75
q1 30 3 36 qn
q2 39 2 38 qna
ediff 33 0 39 30 7.25
rdiff 33 0 1Meg
*
* Compensation Section
*
ga 0 34 33 0 2.6m
rh 34 0 3Meg
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 25pF
rpb 42 43 50
cpb 43 0 15pF
*
* Output Stage
*
ios1 7 50 1.25mA
ios2 51 4 1.25mA
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
*
* Models
*
.model qn npn(is=800e-18 bf=250 tf=0.2nS)
.model qna npn(is=864e-18 bf=300 tf=0.2nS)
.model qp pnp(is=800e-18 bf=60 tf=0.2nS)
.ends
*EL2424 Model
* connections: +input
* | -input
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