spice model for INA121 and CD4066??

4066 spice model

Please help me to have spice model for above to model

INA121 is an TI instrumenation opamp
CD4066 is a fairchild analog swich(quad)

hope i will get a quick reply..

thanks

cd4066 spice model

On 2001-11-02 06:55, TasmanDevil wrote:
Please help me to have spice model for above to model

INA121 is an TI instrumenation opamp
CD4066 is a fairchild analog swich(quad)

hope i will get a quick reply..

thanks

Click to expand...

Give me your E-mail,
I will send you.

ynhe

cd4066 spice

On 2001-11-02 06:55, TasmanDevil wrote:
Please help me to have spice model for above to model

INA121 is an TI instrumenation opamp
CD4066 is a fairchild analog swich(quad)

hope i will get a quick reply..

thanks

Click to expand...

Here is model of CD4066

**********
*SRC=CD4066B;CD4066B;Analog Switch;;
*SYM=CD4066B
.SUBCKT CD4066B 11 4 2 10 7
*Analog Switch In Out Control Vdd Vss
X1 2 6 10 7 INVERT
X2 6 1 10 7 INVERT
M1 14 6 7 7 CD4001BN
M7 11 6 14 10 CD4001BP
M3 11 1 14 14 CD4001BN
M4 11 1 4 14 CD4001BN
M8 11 6 4 10 CD4001BP
.MODEL CD4001BN NMOS (LEVEL=1 VTO=3.5 KP=3.2M GAMMA=3.97U
+ PHI=.75 LAMBDA=1.87M RD=23.2 RS=90.1 IS=31.2F PB=.8 MJ=.46
+ CBD=63.5P CBS=76.2P CGSO=93.6N CGDO=78N CGBO=128N)
.MODEL CD4001BP PMOS (LEVEL=1 VTO=-3.0 KP=2.4M GAMMA=3.97U
+ PHI=.75 LAMBDA=1.87M RD=21.2 RS=62.2 IS=31.2F PB=.8 MJ=.46
+ CBD=63.5P CBS=76.2P CGSO=93.6N CGDO=78N CGBO=128N)
.ENDS
.SUBCKT INVERT 1 2 3 4
* Inverter In Out Vcc Vss
M1 2 1 3 3 CD4049P
M2 2 1 4 4 CD4049N
.MODEL CD4049P PMOS (LEVEL=1 VTO=-2.9 KP=2M GAMMA=3.97U
+ PHI=.75 LAMBDA=1.87M RD=28.2 RS=45.2 IS=31.2F PB=.8 MJ=.46
+ CBD=21.2P CBS=25.4P CGSO=31.2N CGDO=26N CGBO=42.8N)
.MODEL CD4049N NMOS (LEVEL=1 VTO=2.1 KP=5M GAMMA=3.97U
+ PHI=.75 LAMBDA=1.87M RD=4.2 RS=4.2 IS=31.2F PB=.8 MJ=.46
+ CBD=21.2P CBS=25.4P CGSO=31.2N CGDO=26N CGBO=42.8N)
.ENDS
**********

ynhe

spice model 4066

On 2001-11-02 06:55, TasmanDevil wrote:
Please help me to have spice model for above to model

INA121 is an TI instrumenation opamp
CD4066 is a fairchild analog swich(quad)

hope i will get a quick reply..

thanks

Click to expand...

HERE IS MODEL OF INA121


**********
* INA121E = A1_121E + A2_121E + A3_121E OP AMPS + PRECISION RESISTOR NETWORK
* V.1 CREADTED BY JW 6/4/98
*
* |------------------------------------------------------------------------|
* | NOTICE: THE INFORMATION PROVIDED HEREIN IS BELIEVED TO BE RELIABLE; |
* | HOWEVER; BURR-BROWN ASSUMES NO RESPONSIBILITY FOR INACCURACIES OR |
* | OMISSIONS. BURR-BROWN ASSUMES NO RESPONSIBILITY FOR THE USE OF THIS |
* | INFORMATION, AND ALL USE OF SUCH INFORMATION SHALL BE ENTIRELY AT |
* | THE USER'S OWN RISK. NO PATENT RIGHTS OR LICENSES TO ANY OF THE |
* | CIRCUITS DESCRIBED HEREIN ARE IMPLIED OR GRANTED TO ANY THIRD PARTY. |
* | BURR-BROWN DOES NOT AUTHORIZE OR WARRANT ANY BURR-BROWN PRODUCT FOR |
* | USE IN LIFE-SUPPORT DEVICES AND/OR SYSTEMS. |
* |------------------------------------------------------------------------|
*
* |-------------------------------------------------------------|
* | This macro model is being supplied 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. |
* | |
* | Neither this library nor any part may be copied without |
* | the express written consent of Burr-Brown Corporation. |
* | |
* |-------------------------------------------------------------|
*
***** INA121E SUB-CIRCUIT
* CONNECTIONS: NON-INVERTING INPUT
* | INVERTING INPUT
* | | POSITIVE POWER SUPPLY
* | | | NEGATIVE POWER SUPPLY
* | | | | OUTPUT
* | | | | | REFERENCE
* | | | | | | GAIN SENSE 1
* | | | | | | | GAIN SENSE 2
* | | | | | | | |
.SUBCKT INA121E 1 2 3 4 5 8 9 10
*
***** A1_121E SUB-CIRCUIT
* CONNECTIONS: NON-INVERTING INPUT
* | INVERTING INPUT
* | | POSITIVE POWER SUPPLY
* | | | NEGATIVE POWER SUPPLY
* | | | | OUTPUT
* | | | | |
X1 15 17 3 4 11 A1_121E
*
***** A2_121E SUB-CIRCUIT
* CONNECTIONS: NON-INVERTING INPUT
* | INVERTING INPUT
* | | POSITIVE POWER SUPPLY
* | | | NEGATIVE POWER SUPPLY
* | | | | OUTPUT
* | | | | |
X2 15 16 3 4 12 A2_121E
*
***** A3_121E SUB-CIRCUIT
* CONNECTIONS: NON-INVERTING INPUT
* | INVERTING INPUT
* | | POSITIVE POWER SUPPLY
* | | | NEGATIVE POWER SUPPLY
* | | | | OUTPUT
* | | | | |
X3 14 13 3 4 5 A3_121E
*
CIN 13 14 4PF
C4 14 8 .50000E-12
CC1 17 11 11.00E-12
CC2 16 12 11.00E-12
CG1 9 0 11.500E-12
CG2 10 0 10.000E-12
*
R1 11 13 40.0000E3
R2 13 5 39.996E3
R3 12 14 40.0000E3
R4 14 8 40.0000E3
*
R1FB 9 11 25.0000E3
R2FB 10 12 25.0000E3
*
RCE 17 9 500E6
*
I1 3 16 DC 10.00E-6
I2 3 17 DC 10.00E-6
I3 10 4 DC 10.00E-6
I4 9 4 DC 10.00E-6
I5 3 21 DC 30.00E-6
I6 3 22 DC 30.00E-6
*
Q1 16 21 10 QX
Q2 17 22 9 QX
*
D1 17 15 DX
D2 16 15 DX
D12 15 17 DX
D22 15 16 DX
*
J1 4 31 21 JX
J2 4 33 22 JX
G11 31 4 POLY(2) (21,1) (4,1) 28E-12 3E-12 4.2E-12
G21 33 4 POLY(2) (22,2) (4,2) 28E-12 3E-12 4.2E-12
V1 3 15 DC 1.000
*
******************************
* *
* Additions for the INA121E *
* (Enhanced) macromodel *
* *
******************************
*************************
* *
* Anti-inversion clamps *
* *
*************************
* POS INPUT PROTECTION
RINP 1 30 10
J1P 31 32 30 jy 15x
J2P 32 32 30 jz 1x
D1P 31 3 dx
D2P 4 31 dx
* NEG INPUT PROTECTION
RINN 2 35 10
J1N 33 34 35 jy 15x
J2N 34 34 35 jz 1x
D1N 33 3 dx
D2N 4 33 dx
.MODEL DX D(IS=1.0E-24)
.MODEL QX NPN(IS=800.0E-18 BF=500)
.MODEL JX PJF(IS=1E-12 BETA=750.0E-6 VTO=-1)
.MODEL JY PJF(IS=800.0E-18 VTO=-1.2 BETA=10U LAMBDA=13M)
.MODEL JZ PJF(IS=800.0E-18 VTO=-1.2 BETA=1U LAMBDA=13M)
.ENDS

* A1_121E operational amplifier "macromodel" subcircuit
* created using Parts release 8.0 on 05/28/98 at 13:16
* Parts is a MicroSim product.
*
* connections: non-inverting input
* | inverting input
* | | positive power supply
* | | | negative power supply
* | | | | output
* | | | | |
.subckt A1_121E 1 2 3 4 5
*
c1 11 12 2.8868E-12
c2 6 7 10.000E-12
css 10 99 1.0000E-30
dc 5 53 dy
de 54 5 dy
dlp 90 91 dx
dln 92 90 dx
dp 4 3 dx
egnd 99 0 poly(2) (3,0) (4,0) 0 .5 .5
fb 7 99 poly(5) vb vc ve vlp vln 0 17.684E6 -1E3 1E3 18E6 -18E6
ga 6 0 11 12 1.2566E-3
gcm 0 6 10 99 12.566E-9
iss 3 10 dc 12.000E-6
hlim 90 0 vlim 1K
j1 11 2 10 jx1
j2 12 1 10 jx2
r2 6 9 100.00E3
rd1 4 11 795.77
rd2 4 12 795.77
ro1 8 5 1
ro2 7 99 9
rp 3 4 3E6
rss 10 99 16.667E6
vb 9 0 dc 0
vc 3 53 dc 1.6621
ve 54 4 dc 1.0621
vlim 7 8 dc 0
vlp 91 0 dc 5
vln 0 92 dc 5
******************************
* *
* Additions for the INA121E *
* (Enhanced) macromodel *
* A1_121E sub-circuit *
* *
******************************
* OUTPUT SUPPLY MIRROR
FQ3 0 20 POLY(1) VLIM 0 1
DQ1 20 21 DX
DQ2 22 20 DX
VQ1 21 0 0
VQ2 22 0 0
FQ1 3 0 POLY(1) VQ1 70u 1
FQ2 0 4 POLY(1) VQ2 70u -1
.model dx D(Is=800.00E-18)
.model dy D(Is=800.00E-18 Rs=1m Cjo=10p)
.model jx1 PJF(Is=1.5000E-12 Beta=.13159 Vto=-1)
.model jx2 PJF(Is=1.5000E-12 Beta=.13159 Vto=-1)
.ends

* A2_121E operational amplifier "macromodel" subcircuit
* created using Parts release 8.0 on 05/28/98 at 13:16
* Parts is a MicroSim product.
*
* connections: non-inverting input
* | inverting input
* | | positive power supply
* | | | negative power supply
* | | | | output
* | | | | |
.subckt A2_121E 1 2 3 4 5
*
c1 11 12 2.8868E-12
c2 6 7 10.000E-12
css 10 99 1.0000E-30
dc 5 53 dy
de 54 5 dy
dlp 90 91 dx
dln 92 90 dx
dp 4 3 dx
egnd 99 0 poly(2) (3,0) (4,0) 0 .5 .5
fb 7 99 poly(5) vb vc ve vlp vln 0 17.684E6 -1E3 1E3 18E6 -18E6
ga 6 0 11 12 1.2566E-3
gcm 0 6 10 99 12.566E-9
iss 3 10 dc 12.000E-6
hlim 90 0 vlim 1K
j1 11 2 10 jx1
j2 12 1 10 jx2
r2 6 9 100.00E3
rd1 4 11 795.77
rd2 4 12 795.77
ro1 8 5 1
ro2 7 99 9
rp 3 4 3E6
rss 10 99 16.667E6
vb 9 0 dc 0
vc 3 53 dc 1.6621
ve 54 4 dc 1.0621
vlim 7 8 dc 0
vlp 91 0 dc 5
vln 0 92 dc 5
******************************
* *
* Additions for the INA121E *
* (Enhanced) macromodel *
* A2_121E sub-circuit *
* *
******************************
* OUTPUT SUPPLY MIRROR
FQ3 0 20 POLY(1) VLIM 0 1
DQ1 20 21 DX
DQ2 22 20 DX
VQ1 21 0 0
VQ2 22 0 0
FQ1 3 0 POLY(1) VQ1 70u 1
FQ2 0 4 POLY(1) VQ2 70u -1
.model dx D(Is=800.00E-18)
.model dy D(Is=800.00E-18 Rs=1m Cjo=10p)
.model jx1 PJF(Is=1.5000E-12 Beta=.13159 Vto=-1)
.model jx2 PJF(Is=1.5000E-12 Beta=.13159 Vto=-1)
.ends

* A3_121E operational amplifier "macromodel" subcircuit
* created using Parts release 8.0 on 05/28/98 at 13:18
* Parts is a MicroSim product.
*
* connections: non-inverting input
* | inverting input
* | | positive power supply
* | | | negative power supply
* | | | | output
* | | | | |
.subckt A3_121E 1 2 3 4 5
*
c1 11 12 1.6246E-12
c2 6 7 10.000E-12
cee 10 99 714.29E-15
dc 5 53 dy
de 54 5 dy
dlp 90 91 dx
dln 92 90 dx
dp 4 3 dx
egnd 99 0 poly(2) (3,0) (4,0) 0 .5 .5
fb 7 99 poly(5) vb vc ve vlp vln 0 1.3263E9 -1E3 1E3 1E9 -1E9
ga 6 0 11 12 50.265E-6
gcm 0 6 10 99 502.65E-12
iee 3 10 dc 7.5400E-6
hlim 90 0 vlim 1K
q1 11 2 13 qx1
q2 12 1 14 qx2
r2 6 9 100.00E3
rc1 4 11 19.894E3
rc2 4 12 19.894E3
re1 13 10 12.928E3
re2 14 10 12.928E3
ree 10 99 26.525E6
ro1 8 5 1
ro2 7 99 9
rp 3 4 3E6
vb 9 0 dc 0
vc 3 53 dc 1.6905
ve 54 4 dc 1.0905
vlim 7 8 dc 0
vlp 91 0 dc 15
vln 0 92 dc 15
******************************
* *
* Additions for the INA121E *
* (Enhanced) macromodel *
* A3_121E sub-circuit *
* *
******************************
*OUTPUT SUPPLY MIRROR
FQ3 0 20 POLY(1) VLIM 0 1
DQ1 20 21 DX
DQ2 22 20 DX
VQ1 21 0 0
VQ2 22 0 0
FQ1 3 0 POLY(1) VQ1 150U 1
FQ2 0 4 POLY(1) VQ2 150U -1
.model dx D(Is=800.00E-18)
.model dy D(Is=800.00E-18 Rs=1m Cjo=10p)
.model qx1 PNP(Is=800.00E-18 Bf=187.50)
.model qx2 PNP(Is=800.00E-18 Bf=187.50)
.ends
*********

pspice analog switch

thank you very much, could you tell me is there any source we could get it in future because my brain only works with HDL codes, and iam not good at spice and analog..

4066 spice

These models are in some spice software libraries or some IC supplier's data CD.

ynhe

People, can I get the lib-file or cir file?
I need schematic build with this element.(I mean cd4066)
I have not any exp in converting source to schematic.