добавлены модели

2024-09-13 11:43:41 +03:00
commit 91c653dcb7
7 changed files with 426 additions and 0 deletions
--- a/BDTIC/SZMM3Z5V6ST1G.LIB
+++ b/BDTIC/SZMM3Z5V6ST1G.LIB
@ -0,0 +1,41 @@
+.SUBCKT szmm3z5v6st1g 2 1
+**************************************
+*      Model Generated by MODPEX     *
+*Copyright(c) Symmetry Design Systems*
+*         All Rights Reserved        *
+*    UNPUBLISHED LICENSED SOFTWARE   *
+*   Contains Proprietary Information *
+*      Which is The Property of      *
+*     SYMMETRY OR ITS LICENSORS      *
+*Commercial Use or Resale Restricted *
+*   by Symmetry License Agreement    *
+**************************************
+* Model generated on Feb 22, 12
+* MODEL FORMAT: PSpice
+*     anode cathode
+*node: 2      1
+*    Forward Section
+D1 2 1 MD1
+.MODEL MD1 D IS=1.98153e-10 N=1.6806 XTI=1 RS=2.2
+ CJO=1.7e-10 TT=2e-09
+*    Leakage Current
+R 1 2 MDR 2e+09	
+.MODEL MDR RES TC1=-0.0679198 TC2=0.00155388
+*    Breakdown
+IZG 4 2 0.0432
+R4 4 2 250
+D3 2 4 MD3
+.MODEL MD3 D IS=2.5e-12 N=0.476344 XTI=0 EG=0.1
+D2 5 4 MD2
+.MODEL MD2 D IS=2.5e-12 N=0.968597 XTI=0 EG=0.1
+EV1 1 5 6 0 1
+IBV 0 6 0.001
+RBV 6 0 MDRBV 5354.34
+.MODEL MDRBV RES TC1=0
+*-- PSpice DIODE MODEL DEFAULT PARAMETER
+*  VALUES ARE ASSUMED
+*IS=1E-14 RS=0 N=1 TT=0 CJO=0
+*VJ=1 M=0.5 EG=1.11 XTI=3 FC=0.5
+*KF=0 AF=1 BV=inf IBV=1e-3 TNOM=27
+.ENDS szmm3z5v6st1g
+
--- a/DIOTEC/MMSZ5232B.ckt
+++ b/DIOTEC/MMSZ5232B.ckt
@ -0,0 +1,41 @@
+* SPICE model Zener diodes ***MMSZ5232B***
+* Use the symbol file ***mmsz5232b.asy***
+*
+* (c) Diotec Semiconductor AG
+* www.diotec.com
+* 2022-01-26
+*
+*********************************************************
+* This model is for simulation purposes only. It does   *
+* not replace reviewing of the data sheet nor real life *
+* testing of the part inside the application.           *
+*********************************************************
+*
+.subckt MMSZ5232B  A  K  params: Vznom=5.6 Iztest=20m Vr=3 Ir=5u Rzj=11 Izmax=83m Cjo=220p
+
+* Above values are an example for the ***MMSZ5232B***. Using the
+* above symbol file allows for direct insertion of other values
+* according to these data sheet parameters:
+*
+* Vznom		Nominal zener voltage at 25<32>C = (Vzmin+Vzmax)/2
+* Iztest	Test current for Vz
+* Vr		Reverse voltage (minimum value)
+* Ir		Reverse current
+* Rzj		Dynamic resistance
+* Izmax		Max zener current
+* Cjo		Junction capacitance at 0V
+
+Dbr  INT  K  Zbr
+Df   A    K  Zf
+Dbl  INT  A  DIObl
+
+* Zener breakdown characteristic
+.model  Zbr  D(Is={Ir/10} N=2.0 Rs={Rzj} Bv={Vznom*(1+(temp-25)*0.001)} Ibv={Iztest} Eg=1.11 Xti=3 M=.33 diss={Vznom*Izmax})
+*
+* Forward characteristic
+.model  Zf  D(Is=100E-9 N=2.0 Rs=37m Cjo={Cjo} Eg=1.11 Xti=3 M=.33 Tt=800n)
+*
+* Internal blocking diode
+.model  DIObl  D(Ron=.1m)
+
+.ends
--- a/NEXPERIA/BZX384-C5V1.ckt
+++ b/NEXPERIA/BZX384-C5V1.ckt
@ -0,0 +1,70 @@
+*
+*******************************************
+*
+*BZX384-C5V1
+*
+*NXP Semiconductors
+*
+*Voltage regulator diode
+*
+*
+*
+*
+* 
+*VFmax = 1,1V @ IF = 100mA
+*IRmax = 2<>A  @ VR = 2V
+*
+*VZmax = 5,4V @ IZ = 5mA
+*
+*
+*
+*
+* 
+*
+*
+*Package pinning does not match Spice model pinning.
+*Package: SOD323
+*
+*Package Pin 1: Cathode 
+*Package Pin 2: Anode
+*
+*
+*
+*Extraction date (week/year): 01/2016
+*Simulator: SPICE2
+*
+*******************************************
+*#
+.SUBCKT BZX384-C5V1 1 2     
+ R1 1 2 1E+009   
+ D1 1 2  
+ + DIODE1
+ D2 3 1  
+ + DIODE2
+ VZ 2 3 0.0001   
+*
+*The resistor R1, the diode D2    
+*and VZ do not reflect  
+*physical devices but improve 
+*only modeling in the reverse 
+*mode of operation.
+*
+  .MODEL DIODE1 D 
+ + IS = 1E-015   
+ + N = 1.035     
+ + BV = 5.3      
+ + IBV = 0.005   
+ + RS = 0.32     
+ + CJO = 1.21E-010       
+ + VJ = 0.8      
+ + M = 0.355     
+ + FC = 0.5      
+ + TT = 0
+ + EG = 1.1      
+ + XTI = 3       
+ .MODEL DIODE2 D 
+ + IS = 1E-009   
+ + N = 12.8      
+ + RS = 0.001    
+ .ENDS                
+*
--- a/NEXPERIA/BZX384-C5V6.mdl
+++ b/NEXPERIA/BZX384-C5V6.mdl
@ -0,0 +1,50 @@
+*
+*******************************************
+*
+*BZX384-C5V6
+*
+*NXP Semiconductors
+*
+*Voltage regulator diode
+*
+*
+*
+*
+* 
+*
+*IR    = 1<>A   @ VR   = 2V
+*IZSM  = 6A    @ tp   = 100<30>s
+*VZmax = 6V0   @ IZ   = 5mA
+*
+*
+*
+*
+* 
+*
+*
+*Package pinning does not match Spice model pinning.
+*Package: SOD323
+*
+*Package Pin 1: Cathode 
+*Package Pin 2: Anode
+*
+*
+*
+*
+*Simulator: PSPICE
+*
+*******************************************
+*#
+.MODEL BZX384-C5V6 D
+ IS = 1.033E-15
+ N = 1.001
+ BV = 5.6
+ IBV = 0.005
+ RS = 0.387
+ CJO = 1.961E-10
+ VJ = 0.9187
+ M = 0.423
+ FC = 0.5
+*##
+*
+
--- a/NEXPERIA/BZX84-C5V1.mdl
+++ b/NEXPERIA/BZX84-C5V1.mdl
@ -0,0 +1,41 @@
+***********************************************************
+*
+* BZX84-C5V1
+*
+* Nexperia
+*
+* Voltage regulator diodes
+* VFmax = 0,9V    @ IF = 10mA
+* IRmax = 2µA     @ VR = 2V
+* VZmax = 5,4V    @ IZ = 5mA
+* IZSM  = 6A      @ tp = 100µs
+*
+*
+*
+* Package pinning does not match Spice model pinning.
+* Package: SOT23
+*
+* Package Pin 1: Anode
+* Package Pin 2: Not Connected
+* Package Pin 3: Cathode
+*
+*
+* Extraction date (week/year): #
+* Simulator: PSPICE
+*
+***********************************************************
+*
+.MODEL BZX84-C5V1 D
+ IS=2.6665E-18
+ N=.82284
+ RS=.51617
+ IKF=11.760E-3
+ CJO=232.29E-12
+ M=.35004
+ VJ=.79587
+ ISR=150.40E-12
+ BV=5.1760
+ IBV=.10454
+ TT=43.858E-9
+.ENDS
+*
--- a/NEXPERIA/BZX84-C5V6.mdl
+++ b/NEXPERIA/BZX84-C5V6.mdl
@ -0,0 +1,41 @@
+***********************************************************
+*
+* BZX84-C5V6
+*
+* Nexperia
+*
+* Voltage regulator diodes
+* VFmax = 0,9V    @ IF = 10mA
+* IRmax = 1µA     @ VR = 2V
+* VZmax = 6V      @ IZ = 5mA
+* IZSM  = 6A      @ tp = 100µs
+*
+*
+*
+* Package pinning does not match Spice model pinning.
+* Package: SOT23
+*
+* Package Pin 1: Anode
+* Package Pin 2: Not Connected
+* Package Pin 3: Cathode
+*
+*
+* Extraction date (week/year): #
+* Simulator: PSPICE
+*
+***********************************************************
+*
+.MODEL BZX84-C5V6 D
+ IS=2.6665E-18
+ N=.82284
+ RS=.51617
+ IKF=11.760E-3
+ CJO=137.10E-12
+ M=.34532
+ VJ=.72637
+ ISR=1.2666E-9
+ BV=5.7078
+ IBV=.35715
+ TT=78.483E-9
+.ENDS
+*
--- a/TL431A.lib
+++ b/TL431A.lib
@ -0,0 +1,142 @@
+* TL431A_models.lib
+* Models have been edited for LTspice syntax, but are otherwise per originals
+
+* Model developed by analogspiceman
+**************************************************
+.subckt TL431AS A K R ; Anode Kathode Reference
+D1 R K Dc
+R1 A R 1.3e6 tc1=3m
+G1 A 5 R 4 1
+C1 5 A 1n Rpar=600
+D2 7 R Dc
+D3 7 4 Dn
+R2 7 4 950k
+R3 6 5 600k
+D4 A 6 Di
+C2 K 6 40p Rser=5k Rpar=1e6
+G2 K 7 6 A 95m
+D5 A 7 2V5
+D6 7 A Dk
+C3 7 A 50p
+D7 A K Dc
+.model Dc d Ron=10 Vfwd=0.65 Vrev=36 Epsilon=50m
+.model Dn d Is=1p Kf=0p2 Cjo=0p3
+.model Di d Ron=10m epsilon=1m
+.model Dk d Ron=5k7 Vfwd=0.8 Epsilon=0.5
+.model 2V5 d Ron=27m Vfwd=0.6 Epsilon=10m Vrev={Vr} revEpsilon=10m
+.param Vr=2.5+dt*(95u-dt*2u6) dt=temp-10
+.ends TL431AS
+
+* Model developed by Eugene Dvoskin
+**************************************************
+.subckt TL431ED A K R ; Anode Kathode Reference
+Q1  K  R  5 0 QN_ED
+Q7  3  3  1 0 QP_ED
+D1  A  4      D_ED
+Q8  4  3  2 0 QP_ED
+R4  5  9      3k28
+R2  9 12      2k4
+R3  9 10      7k2
+R1 14  A      800
+R5  6 11      4k
+R7  K  1      800
+R8  K  2      800
+R6 13 12      1k
+R9  8  7      150
+R10 8  A      10k
+D2  A  K      D_ED
+C1  K  4      10p
+C2 10 11      20p
+Q2 12 12  A 0 QN_ED area=1.2
+Q3 10 12 14 0 QN_ED area=2.2
+Q5 11 10  A 0 QN_ED
+Q9  K  4  7 0 QN_ED
+Q10 K  8  A 0 QN_ED area=5
+Q4  3  5  6 0 QN_ED
+Q6  4 13  A 0 QN_ED area=0.5
+Q11 4  4  R 0 QN_ED
+.model QN_ED npn(Bf=140 Cje=1p Cjc=2p Rb=40 Vaf=80 Var=50 Kf=3.2e-16 Af=1)
+.model QP_ED pnp(Bf= 60 Cje=1p Cjc=3p Rb=80 Vaf=70 Var=40)
+.model D_ED d(Rs=5 Cjo=4p)
+.ends TL431ED
+
+* Model developed by Helmut Sennewald 6/27/2004
+* This TL431 model has been developed from the schematic in the datasheet.
+* It agrees with most of the test circuits and covers Tempco, C-load stability,
+* AC gain, reverse diode, noise, transient, Zout.
+**************************************************
+.subckt TL431AH A K R ; Anode Kathode Reference
+Q1  3  2 1 0 NPN1 2.7
+Q2  2  2 A 0 NPN1 1
+R1  1  A 800 TC1=350u ; This TC1 does the trick for the total tempco
+R2  4  2 2k4
+R3  4  3 7k2
+R4  5  4 3k28
+Q3  6  3 A 0 NPN1 1
+R5  7  6 4k
+Q4 10  5 7 0 NPN1 1
+Q5  K  R 5 0 NPN1 1
+R6  2 12 1k
+Q6 11 12 A 0 NPN1 0.2
+Q9  K 11 13 0 NPN1 2
+Q10 K 14 A 0 NPN1 10
+R10 14 A 10k
+R9 13 14 150
+R7  K  8 800
+Q7 10 10 8 0 PNP1 1
+Q8 11 10 9 0 PNP1 1
+D2  A  K D1
+D1  A 11 D3
+R8  K  9 800
+C1  K 11 20p
+C2  6  3 20p
+D3 11  R D2
+* adjust output voltage with Is
+.MODEL NPN1 npn(Is= 8f Bf=100 Vaf=100 Tf=0n5 IKF=10m Kf=1e-16 Af=1 Rb=50 Re=10)
+.MODEL PNP1 pnp(Is=10f Bf= 50 Vaf= 50 Tf=10n IKF= 2m Kf=1e-16 Af=1)
+.MODEL D1 d(Is=0p1 Rs=10 Cjo=20p)
+.MODEL D2 d(Is=0p1 Rs=10 Cjo= 2p Bv=5 Ibv=10u)
+.MODEL D3 d(Is=0p1 Rs=10 Cjo= 2p)
+.ends TL431AH
+
+* Released by: Analog eLab Design Center, Texas Instruments Inc.
+* Part: TL431
+* Date: 12/14/2009
+* Model Type: Transient and AC
+**************************************************
+.subckt TL431A A K R ; Anode Kathode Reference
+V1  1 A 2.495
+R1  A 2 15.6
+C1  2 A 0u5
+R2  2 3 100
+C2  3 4 80n
+R3  4 A 10
+GB1 A 8 Value = {if(V(3,A)<0, 1.73*V(3,A)-1u, -1u)}
+D1  5 8 Dclamp
+D2  K 8 Dclamp
+V4  5 A 2
+G1  A 2 1 R 0.11
+.model Dclamp d (Is=13n5 Rs=25m N=1.59 Cjo=45p Vj=0.75 M=302m Tt=50n4 Bv=34 Ibv=1m)
+.ends TL431A
+
+**************************************************
+* TL431 MACROMODEL 3-26-92
+* REV N/A DBB
+**************************************************
+.subckt TL431X A K R ; Anode Kathode Reference
+V1  3 4 1.4
+I1  A 1 1m
+R1  R A 1.2e6
+R2  1 A Rmod 2495
+R3  2 4 0.2
+D1  K 3 Dmod1
+D2  A K Dmod1
+D3  A 4 Dmod2
+E1  2 A Poly(2) (1,A) (R,A) 0 710 -710
+.model Rmod res (TC1=14u TC2=-1u)
+.model Dmod1 d (Rs=0.3)
+.model Dmod2 d (Rs=1u)
+.ends TL431X
+
+
+