********************************************************************************
* UnitedSiC G4 750V-5mohm SiC Cascode Spice Circuit Model v1.0
* Copyright 2022 United Silicon Carbide, Inc.
*
*
* The model does not include all possible conditions and effects, 
* in particular it doesn't include: 
*	Self heating
*	leakage current in blocking state
*	Drain to source breakdown is notional only
*
********************************************************************************

*** UG4SC075005L8S ***
*.subckt UJ4SC075005L8S nd ng ns nss
.subckt UG4SC075005L8S nd ng ns njg
Ld	nd	nd1		3n
Lmd	ns1	nd2		1p 
*Ljg	ng1	ns3		1n
Ljg	ng1	njg		1n
Lmg	ng	ng2 		10n 
Lms	ns2	ns3		0.8n
Ls	ns3	ns		2n 
xj1	nd1	ng1	ns1	jfet_G4_750V_Ron params: Ron=4m Rgon=0.8 Rgoff=0.8
xm1	nd2	ng2	ns2	mfet201a
Lss ns2 nss     10n
.ends
 
*** 750V JFETs ***
.subckt jfet_G4_750V_Ron d g s params: Ron=0 Rgon=0 Rgoff=0
.param Ron1={Ron}
.param Rgon1={Rgon}
.param Rgoff1={Rgoff}
.param a= {10m/{Ron1}}
*X1 di gi s jfet_G4_750V params: ascale={a}
*XCgs gi s Cgs_G4_750V params: acgs={a}
*XCgd gi di Cgd_G4_750V params: acgd={a}				
X1 di g s jfet_G4_750V params: ascale={a}
XCgs g s Cgs_G4_750V params: acgs={a}
XCgd g di Cgd_G4_750V params: acgd={a}				
Rd d di Rtemp {7m/{a}}
.MODEL Rtemp RES (TC1=6.060e-3, TC2=3.2e-5)
*GRg g gi value={if(v(g,gi)>0,v(g,gi)/{Rgon1},v(g,gi)/{Rgoff1})}
.ends jfet_G4_750V_Ron

.subckt jfet_G4_750V d g s Params: ascale=0
.param Fc1=0.5
.param Pb1=3.25
.param M1=0.5
.param Vd0=400
.param Vg0=25
.param gos={0.228*{ascale}}
.param gfs={191.0*{ascale}}
.param f=1.763
.param vth=-6

.param cgs1={0.918n*{ascale}}
.param cgd1={0.136n*{ascale}}

.param bt={({f}*{gfs}+2*{gos}*{Vd0}/{vth})/2/(-{vth})}
.param lamd={1*{gos}/{bt}/{vth}/{vth}}
.param cgs0={pwr((1+{Vg0}/{Pb1}),{M1})*{cgs1}}
.param cgd0={pwr((1+{Vd0}/{Pb1}),{M1})*{cgd1}}

J1 d g s jfet_750
Dgs g s Dgs_iv
Dgd g d Dgd_iv
Rgs  g s 1Meg
Rgd  g  d 10Meg

.MODEL jfet_750 NJF(
+ Beta={{bt}} BetaTce=-0.5 Vto={vth} VtoTc=-3e-3 lambda={lamd}
+ Is=1e-60 
+ Cgs={cgs0} Cgd={cgd0} Fc={Fc1} Pb={Pb1}
+ M={M1})

.MODEL Dgs_iv D (CJO=0 BV=120 IS=1e-50 ISR=1e-50 Eg=3.5 Rs=0)
.MODEL Dgd_iv D (CJO=0 BV=900 IBV=1m IS=1e-50 ISR=1e-50 Eg=3.5 Rs={18.9m/{ascale}})																				   
.ends jfet_G4_750V

* Cgs network	
.subckt Cgs_G4_750V g s params: acgs=0
.param c0=1n
.param vsgmin=-2
.param vsgmax=15
.param a1={1.2*3n*{acgs}}
.param b1=0.1
.func Qgs1(u) {- {a1} / {b1} *(exp(- {b1} *u)-1)}  

.param a2={0*{acgs}}
.param b2=0.5
.param c2=8.7
				
.func Qgs2(u) 
+	{if(abs(u)<{vsgmax},
+	{a2}*u + {a2}*(-{b2})*log(cosh((u-{c2})/-{b2}))
+	-{a2}*(-{b2})*log(cosh(-{c2}/-{b2})), 
+	{a2}*{vsgmax} + {a2}*(-{b2})*log(cosh(({vsgmax}-{c2})/-{b2}))
+	-{a2}*(-{b2})*log(cosh(-{c2}/-{b2})))} 
				
E1 s m1 value={v(s,g)-Qgs1(v(s,g))/{c0}}
C01 m1 g {c0}
E2 s m2 value={v(s,g)-Qgs2(limit(v(s,g),-{vsgmax},{vsgmax}))/{c0}}
C02 m2 g {c0}

.ends Cgs_G4_750V

* Cgd network
.subckt Cgd_G4_750V g d params:acgd=0

.param c0=1n

.param a1={1.2*0.5n*{acgd}}
.param b1=2
.param c1=14
.param vdgmax1=50

.func Qgd1(u) 
+	{if(abs(u)<{vdgmax1},
+	{a1}*u + {a1}*(-{b1})*log(cosh((u-{c1})/-{b1}))
+	-{a1}*(-{b1})*log(cosh(-{c1}/-{b1})), 
+	{a1}*{vdgmax1} + {a1}*(-{b1})*log(cosh(({vdgmax1}-{c1})/-{b1}))
+	-{a1}*(-{b1})*log(cosh(-{c1}/-{b1})))} 

.param a2={0*{acgd}}
.param b2=0.5
.param c2=6
.param vdgmax2=15

.func Qgd2(u) 
+	{if(abs(u)<{vdgmax2},
+	(-1)*({a2}*u + {a2}*(-{b2})*log(cosh((u-{c2})/-{b2}))
+	-{a2}*(-{b2})*log(cosh(-{c2}/-{b2}))), 
+	(-1)*({a2}*{vdgmax2} + {a2}*(-{b2})*log(cosh(({vdgmax2}-{c2})/-{b2}))
+	-{a2}*(-{b2})*log(cosh(-{c2}/-{b2}))))}


E1 d m1 value={v(d,g)-Qgd1(limit(v(d,g),-{vdgmax1},+{vdgmax1}))/{c0}}
C01 m1 g {c0}
E2 d m2 value={v(d,g)-Qgd2(limit(v(d,g),-{vdgmax2},+{vdgmax2}))/{c0}}
C02 m2 g {c0}

.ends Cgd_G4_750V
*** Si MOS Model ***
.SUBCKT	mfet201a	 4 1 2	
							
*Gate-->1  Drain-->4  Src-->2									
					 
.param Ascale=		8.055							
***Ascale used to scale the active area of the mosfet.It could be any positive data									
M1  3 5 9 9 NMOS W={	{Ascale}*	2	}	L=	0.00000033		
M2  9 5 9 3 PMOS W={	{Ascale}*	1.5	}	L=	0.00000036
Ld 4 7 0.1p									
Ls 9 2 0.1p 									
Lg 1 8 0.1p 												
R1 7 3 RTEMP {		0.007	/	{Ascale}	}	
RG 8 5 	0.7	
CGS 5 9	{	5.6e-10	*	{Ascale}	}				
DBD 9 3     DBD									
									
**************************************************************************************************************
.MODEL  NMOS       NMOS  (LEVEL  = 3 									
+ TOX    = 		6.00E-08							
+ NSUB   = 		3.8E+17							
+ VTO=		5.5						
+ THETA  = 		0							
+ kp= 		1.788E-05							
+ TPG = 1  )									
**************************************************************************************************************
.MODEL  PMOS       PMOS  (LEVEL  = 3 	
+ TOX    = 		6.00E-08	
+ NSUB   = 		4.8E+16		
+ TPG = -1  )	
**************************************************************************************************************
.MODEL DBD D (CJO={			{Ascale}	*	2.6E-10	}			
+ VJ= 	0.7								
+ M= 	0.5								
+ RS= 	{0.007/	{Ascale}	}						
+ IS= { {AScale} *		1.706E-12	}						
+ TT= 	8.00E-09								
+ BV= 	35								
+ IBV= 	0.00025	)							
**************************************************************************************************************
.MODEL RTEMP RES (TC1=3E-3)									
.ENDS


*** End of File ***