kicad/spice/test/AD8038.sub

*AD8038 Macro-model
*Function:Amplifier
*
*Revision History:
*Rev.2.1 Jun 2015-ZZ
*Copyright 2015 by Analog Devices
*
*Refer to http://www.analog.com/Analog_Root/static/techSupport/designTools/spicemodels/license
*for License Statement. Use of this model indicates your acceptance
*of the terms and provisions in the License Staement.
*
*Tested on MultSIm, SiMetrix(NGSpice), PSpice
*
*Not modeled: Distortion, PSRR, Overload Recovery,
*             Shutdown Turn On/Turn Off time
*
*Parameters modeled include:
*   Vos, Ibias, Input CM limits and Typ output voltge swing over full supply range,
*   Open Loop Gain & Phase, Slew Rate, Output current limits, Voltage & Current Noise over temp,
*   Capacitive load drive, Quiescent and dynamic supply currents,
*   Shut Down pin functionality where applicable,
*   Single supply & offset supply functionality.
*
*Node Assignments
*               Non-Inverting Input
*               |   Inverting Input
*               |   |   Positive supply
*               |   |   |   Negative supply
*               |   |   |   |   Output
*               |   |   |   |   |   PD
*               |   |   |   |   |   |
.Subckt AD8038 100 101 102 103 104 106
*
***Power Supplies***
Rz1	102	1020	Rideal	1e-6
Rz2	103	1030	Rideal	1e-6
Ibias	1020	1030	dc	0.2e-3
DzPS	98	1020	diode
Iquies	1020	98	dc	0.8e-3
S1	98	1030	106	113	Switch
R1	1020	99	Rideal	1e7
R2	99	1030	Rideal	1e7
e1	111	110	1020	110	1
e2	110	112	110	1030	1
e3	110	0	99	0	1
*
*
***Inputs***
S2	1	100	106	113	Switch
S3	9	101	106	113	Switch
VOS	1	2	dc	500e-6
IbiasP	110	2	dc	0.4e-6
IbiasN	110	9	dc	0.4e-6
RinCMP	110	2	Rideal	20e6
RinCMN	9	110	Rideal	20e6
CinCMP	110	2	1e-12
CinCMN	9	110	1e-12
IOS	9	2	0.025e-6
RinDiff	9	2	Rideal	2e3
CinDiff	9	2	0.1e-12
*
*
***Non-Inverting Input with Clamp***
g1	3	110	110	2	0.001
RInP	3	110	Rideal	1e3
RX1	40	3	Rideal	0.001
DInP	40	41	diode
DInN	42	40	diode
VinP	111	41	dc	1.46
VinN	42	112	dc	1.46
*
*
***Vnoise***
hVn	6	5	Vmeas1	707.10678
Vmeas1	20	110	DC	0
Vvn	21	110	dc	0.65
Dvn	21	20	DVnoisy
hVn1	6	7	Vmeas2	707.10678
Vmeas2	22	110	dc	0
Vvn1	23	110	dc	0.65
Dvn1	23	22	DVnoisy
*
*
***Inoise***
FnIN	9	110	Vmeas3	0.7071068
Vmeas3	51	110	dc	0
VnIN	50	110	dc	0.65
DnIN	50	51	DINnoisy
FnIN1	110	9	Vmeas4	0.7071068
Vmeas4	53	110	dc	0
VnIN1	52	110	dc	0.65
DnIN1	52	53	DINnoisy
*
FnIP	2	110	Vmeas5	0.7071068
Vmeas5	31	110	dc	0
VnIP	30	110	dc	0.65
DnIP	30	31	DIPnoisy
FnIP1	110	2	Vmeas6	0.7071068
Vmeas6	33	110	dc	0
VnIP1	32	110	dc	0.65
DnIP1	32	33	DIPnoisy
*
*
***CMRR***
RcmrrP	3	10	Rideal	1e12
RcmrrN	10	9	Rideal	1e12
g10	11	110	10	110	-1e-10
Lcmrr	11	12	1e-12
Rcmrr	12	110	Rideal	1e3
e4	5	3	11	110	1
*
*
***Power Down***
VPD	111	80	dc	4.5
VPD1	81	0	dc	2
RPD	111	106	Rideal	1e6
ePD	80	113	82	0	1
RDP1	82	0	Rideal	1e3
CPD	82	0	1e-10
S5	81	82	83	113	Switch
CDP1	83	0	1e-12
RPD2	106	83	1e6
*
*
***Feedback Pin***
*RF	105	104	Rideal	0.001
*
*
***VFB Stage***
g200	200	110	7	9	1
R200	200	110	Rideal	250
DzSlewP	201	200	DzSlewP
DzSlewN	201	110	DzSlewN
*
*
***Dominant Pole at 48 Hz***
g210	210	110	200	110	3.8149e-6
R210	210	110	Rideal	3.32e6
C210	210	110	1e-012
*
*
***Output Voltage Clamp-1***
RX2	60	210	Rideal	0.001
DzVoutP	61	60	DzVoutP
DzVoutN	60	62	DzVoutN
DVoutP	61	63	diode
DVoutN	64	62	diode
VoutP	65	63	dc	5.839
VoutN	64	66	dc	5.839
e60	65	110	111	110	1.05
e61	66	110	112	110	1.05
*
*
***Pole at 800MHz***
g220	220	110	210	110	0.001
R220	220	110	Rideal	1000
C220	220	110	0.1989e-12
*
***Pole at 900MHz***
g230	230	110	220	110	0.001
R230	230	110	Rideal	1000
C230	230	110	0.1768e-12
*
***Pole at 1200MHz***
g240	240	110	230	110	0.001
R240	240	110	Rideal	1000
C240	240	110	0.1326e-12
*
***Zero at 1800MHz***
g245	245	110	240	110	0.001
R245	245	246	Rideal	1000
L245	246	110	0.0884e-6
*
***Buffer***
g250	250	110	245	110	0.001
R250	250	110	Rideal	1000
*
***Buffer***
g255	255	110	250	110	0.001
R255	255	110	Rideal	1000
*
***Buffer***
g260	260	110	255	110	0.001
R260	260	110	Rideal	1000
*
***Buffer***
g265	265	110	260	110	0.001
R265	265	110	Rideal	1000
*
***Buffer***
g270	270	110	265	110	0.001
R270	270	110	Rideal	1000
*
***Buffer***
e280	280	110	270	110	1
R280	280	285	Rideal	10
*
***Peak: f=160MHz, Zeta=0.7, Gain=1.2dB***
e290	290	110	285	110	1
R290	290	292	Rideal	10
L290	290	291	7.105e-9
C290	291	292	139.26e-12
R291	292	110	Rideal	67.498
e295	295	110	292	110	1.1482
*
*
***Output Stage***
g300	300	110	295	110	0.001
R300	300	110	Rideal	1000
e301	301	110	300	110	1
Rout	302	303	Rideal	 33
Lout	303	310	 4.6e-9
Cout	310	110	 1e-12
*
*
***Output Current Limit***
H1	301	304	Vsense1	100
Vsense1	301	302	dc	0
VIoutP	305	304	dc	15.336
VIoutN	304	306	dc	19.336
DIoutP	307	305	diode
DIoutN	306	307	diode
Rx3	307	300	Rideal	0.001
*
*
***Output Clamp-2***
VoutP1	111	73	dc	1.685
VoutN1	74	112	dc	1.685
DVoutP1	75	73	diode
DVoutN1	74	75	diode
RX4	75	310	Rideal	0.001
*
*
***Supply Currents***
FIoVcc	314	110	Vmeas8	1
Vmeas8	310	311	dc	0
R314	110	314	Rideal	1e9
DzOVcc	110	314	diode
DOVcc	102	314	diode
RX5	311	312	Rideal	0.001
FIoVee	315	110	Vmeas9	1
Vmeas9	312	313	dc	0
R315	315	110	Rideal	1e9
DzOVee	315	110	diode
DOVee	315	103	diode
*
*
***Output Switch***
S4	104	313	106	113	Switch
*
*
*** Common Models ***
.model	diode	d(bv=100)
.model	Switch	vswitch(Von=2.005,Voff=1.995,ron=0.001,roff=1e6)
.model	DzVoutP	D(BV=4.3)
.model	DzVoutN	D(BV=4.3)
.model	DzSlewP	D(BV=111.881)
.model	DzSlewN	D(BV=111.881)
.model	DVnoisy	D(IS=2.29e-15 KF=2.13e-15)
.model	DINnoisy	D(IS=1.03e-17 KF=1.07e-14)
.model	DIPnoisy	D(IS=1.03e-17 KF=1.07e-14)
.model	Rideal	res(T_ABS=-273)
*
.ends
misc local modifications 2022-04-08 21:49:19 -06:00			`*AD8038 Macro-model`
			`*Function:Amplifier`
			`*`
			`*Revision History:`
			`*Rev.2.1 Jun 2015-ZZ`
			`*Copyright 2015 by Analog Devices`
			`*`
			`*Refer to http://www.analog.com/Analog_Root/static/techSupport/designTools/spicemodels/license`
			`*for License Statement. Use of this model indicates your acceptance`
			`*of the terms and provisions in the License Staement.`
			`*`
			`*Tested on MultSIm, SiMetrix(NGSpice), PSpice`
			`*`
			`*Not modeled: Distortion, PSRR, Overload Recovery,`
			`* Shutdown Turn On/Turn Off time`
			`*`
			`*Parameters modeled include:`
			`* Vos, Ibias, Input CM limits and Typ output voltge swing over full supply range,`
			`* Open Loop Gain & Phase, Slew Rate, Output current limits, Voltage & Current Noise over temp,`
			`* Capacitive load drive, Quiescent and dynamic supply currents,`
			`* Shut Down pin functionality where applicable,`
			`* Single supply & offset supply functionality.`
			`*`
			`*Node Assignments`
			`* Non-Inverting Input`
			`* \| Inverting Input`
			`* \| \| Positive supply`
			`* \| \| \| Negative supply`
			`* \| \| \| \| Output`
			`* \| \| \| \| \| PD`
			`* \| \| \| \| \| \|`
			`.Subckt AD8038 100 101 102 103 104 106`
			`*`
			`*Power Supplies*`
			`Rz1 102 1020 Rideal 1e-6`
			`Rz2 103 1030 Rideal 1e-6`
			`Ibias 1020 1030 dc 0.2e-3`
			`DzPS 98 1020 diode`
			`Iquies 1020 98 dc 0.8e-3`
			`S1 98 1030 106 113 Switch`
			`R1 1020 99 Rideal 1e7`
			`R2 99 1030 Rideal 1e7`
			`e1 111 110 1020 110 1`
			`e2 110 112 110 1030 1`
			`e3 110 0 99 0 1`
			`*`
			`*`
			`*Inputs*`
			`S2 1 100 106 113 Switch`
			`S3 9 101 106 113 Switch`
			`VOS 1 2 dc 500e-6`
			`IbiasP 110 2 dc 0.4e-6`
			`IbiasN 110 9 dc 0.4e-6`
			`RinCMP 110 2 Rideal 20e6`
			`RinCMN 9 110 Rideal 20e6`
			`CinCMP 110 2 1e-12`
			`CinCMN 9 110 1e-12`
			`IOS 9 2 0.025e-6`
			`RinDiff 9 2 Rideal 2e3`
			`CinDiff 9 2 0.1e-12`
			`*`
			`*`
			`*Non-Inverting Input with Clamp*`
			`g1 3 110 110 2 0.001`
			`RInP 3 110 Rideal 1e3`
			`RX1 40 3 Rideal 0.001`
			`DInP 40 41 diode`
			`DInN 42 40 diode`
			`VinP 111 41 dc 1.46`
			`VinN 42 112 dc 1.46`
			`*`
			`*`
			`*Vnoise*`
			`hVn 6 5 Vmeas1 707.10678`
			`Vmeas1 20 110 DC 0`
			`Vvn 21 110 dc 0.65`
			`Dvn 21 20 DVnoisy`
			`hVn1 6 7 Vmeas2 707.10678`
			`Vmeas2 22 110 dc 0`
			`Vvn1 23 110 dc 0.65`
			`Dvn1 23 22 DVnoisy`
			`*`
			`*`
			`*Inoise*`
			`FnIN 9 110 Vmeas3 0.7071068`
			`Vmeas3 51 110 dc 0`
			`VnIN 50 110 dc 0.65`
			`DnIN 50 51 DINnoisy`
			`FnIN1 110 9 Vmeas4 0.7071068`
			`Vmeas4 53 110 dc 0`
			`VnIN1 52 110 dc 0.65`
			`DnIN1 52 53 DINnoisy`
			`*`
			`FnIP 2 110 Vmeas5 0.7071068`
			`Vmeas5 31 110 dc 0`
			`VnIP 30 110 dc 0.65`
			`DnIP 30 31 DIPnoisy`
			`FnIP1 110 2 Vmeas6 0.7071068`
			`Vmeas6 33 110 dc 0`
			`VnIP1 32 110 dc 0.65`
			`DnIP1 32 33 DIPnoisy`
			`*`
			`*`
			`*CMRR*`
			`RcmrrP 3 10 Rideal 1e12`
			`RcmrrN 10 9 Rideal 1e12`
			`g10 11 110 10 110 -1e-10`
			`Lcmrr 11 12 1e-12`
			`Rcmrr 12 110 Rideal 1e3`
			`e4 5 3 11 110 1`
			`*`
			`*`
			`*Power Down*`
			`VPD 111 80 dc 4.5`
			`VPD1 81 0 dc 2`
			`RPD 111 106 Rideal 1e6`
			`ePD 80 113 82 0 1`
			`RDP1 82 0 Rideal 1e3`
			`CPD 82 0 1e-10`
			`S5 81 82 83 113 Switch`
			`CDP1 83 0 1e-12`
			`RPD2 106 83 1e6`
			`*`
			`*`
			`*Feedback Pin*`
			`*RF 105 104 Rideal 0.001`
			`*`
			`*`
			`*VFB Stage*`
			`g200 200 110 7 9 1`
			`R200 200 110 Rideal 250`
			`DzSlewP 201 200 DzSlewP`
			`DzSlewN 201 110 DzSlewN`
			`*`
			`*`
			`*Dominant Pole at 48 Hz*`
			`g210 210 110 200 110 3.8149e-6`
			`R210 210 110 Rideal 3.32e6`
			`C210 210 110 1e-012`
			`*`
			`*`
			`*Output Voltage Clamp-1*`
			`RX2 60 210 Rideal 0.001`
			`DzVoutP 61 60 DzVoutP`
			`DzVoutN 60 62 DzVoutN`
			`DVoutP 61 63 diode`
			`DVoutN 64 62 diode`
			`VoutP 65 63 dc 5.839`
			`VoutN 64 66 dc 5.839`
			`e60 65 110 111 110 1.05`
			`e61 66 110 112 110 1.05`
			`*`
			`*`
			`*Pole at 800MHz*`
			`g220 220 110 210 110 0.001`
			`R220 220 110 Rideal 1000`
			`C220 220 110 0.1989e-12`
			`*`
			`*Pole at 900MHz*`
			`g230 230 110 220 110 0.001`
			`R230 230 110 Rideal 1000`
			`C230 230 110 0.1768e-12`
			`*`
			`*Pole at 1200MHz*`
			`g240 240 110 230 110 0.001`
			`R240 240 110 Rideal 1000`
			`C240 240 110 0.1326e-12`
			`*`
			`*Zero at 1800MHz*`
			`g245 245 110 240 110 0.001`
			`R245 245 246 Rideal 1000`
			`L245 246 110 0.0884e-6`
			`*`
			`*Buffer*`
			`g250 250 110 245 110 0.001`
			`R250 250 110 Rideal 1000`
			`*`
			`*Buffer*`
			`g255 255 110 250 110 0.001`
			`R255 255 110 Rideal 1000`
			`*`
			`*Buffer*`
			`g260 260 110 255 110 0.001`
			`R260 260 110 Rideal 1000`
			`*`
			`*Buffer*`
			`g265 265 110 260 110 0.001`
			`R265 265 110 Rideal 1000`
			`*`
			`*Buffer*`
			`g270 270 110 265 110 0.001`
			`R270 270 110 Rideal 1000`
			`*`
			`*Buffer*`
			`e280 280 110 270 110 1`
			`R280 280 285 Rideal 10`
			`*`
			`*Peak: f=160MHz, Zeta=0.7, Gain=1.2dB*`
			`e290 290 110 285 110 1`
			`R290 290 292 Rideal 10`
			`L290 290 291 7.105e-9`
			`C290 291 292 139.26e-12`
			`R291 292 110 Rideal 67.498`
			`e295 295 110 292 110 1.1482`
			`*`
			`*`
			`*Output Stage*`
			`g300 300 110 295 110 0.001`
			`R300 300 110 Rideal 1000`
			`e301 301 110 300 110 1`
			`Rout 302 303 Rideal 33`
			`Lout 303 310 4.6e-9`
			`Cout 310 110 1e-12`
			`*`
			`*`
			`*Output Current Limit*`
			`H1 301 304 Vsense1 100`
			`Vsense1 301 302 dc 0`
			`VIoutP 305 304 dc 15.336`
			`VIoutN 304 306 dc 19.336`
			`DIoutP 307 305 diode`
			`DIoutN 306 307 diode`
			`Rx3 307 300 Rideal 0.001`
			`*`
			`*`
			`*Output Clamp-2*`
			`VoutP1 111 73 dc 1.685`
			`VoutN1 74 112 dc 1.685`
			`DVoutP1 75 73 diode`
			`DVoutN1 74 75 diode`
			`RX4 75 310 Rideal 0.001`
			`*`
			`*`
			`*Supply Currents*`
			`FIoVcc 314 110 Vmeas8 1`
			`Vmeas8 310 311 dc 0`
			`R314 110 314 Rideal 1e9`
			`DzOVcc 110 314 diode`
			`DOVcc 102 314 diode`
			`RX5 311 312 Rideal 0.001`
			`FIoVee 315 110 Vmeas9 1`
			`Vmeas9 312 313 dc 0`
			`R315 315 110 Rideal 1e9`
			`DzOVee 315 110 diode`
			`DOVee 315 103 diode`
			`*`
			`*`
			`*Output Switch*`
			`S4 104 313 106 113 Switch`
			`*`
			`*`
			`* Common Models *`
			`.model diode d(bv=100)`
			`.model Switch vswitch(Von=2.005,Voff=1.995,ron=0.001,roff=1e6)`
			`.model DzVoutP D(BV=4.3)`
			`.model DzVoutN D(BV=4.3)`
			`.model DzSlewP D(BV=111.881)`
			`.model DzSlewN D(BV=111.881)`
			`.model DVnoisy D(IS=2.29e-15 KF=2.13e-15)`
			`.model DINnoisy D(IS=1.03e-17 KF=1.07e-14)`
			`.model DIPnoisy D(IS=1.03e-17 KF=1.07e-14)`
			`.model Rideal res(T_ABS=-273)`
			`*`
			`.ends`