*  BipolarHB.asc
V1 In 0 {U_dc}
C1 In CapMid {C_dc}
C2 CapMid 0 {C_dc}
S1 SW In G_H SW MySwitch
S2 0 SW G_L 0 MySwitch
V3 G_H SW PULSE(0 1 0 10n 10n {D*T_sw} {T_sw})
V2 G_L 0 PULSE(0 1 {1/2*T_sw} 10n 10n {D*T_sw} {T_sw})
D1 SW In MyDiode
D2 0 SW MyDiode
L1 SW TR1 {L_s1}
L2 TR1 CapMid {L_m}
L3 TR2 0 {L_m*N_21*N_21}
L4 TR2 DBD {L_s2}
C3 DBD Gas {C_d}
C4 Gas 0 {C_g}
D3 Gas n_Vop MyDiode
D4 n_Von Gas MyDiode
D5 0 n_Vop MyDiode
D6 n_Von 0 MyDiode
V4 n_Vop n_Von {V_th}
*.model D D
*.lib C:\Users\xxxxx\AppData\Local\LTspice\lib\cmp\standard.dio
.model MySwitch SW(Ron=1m Roff=1MEG Vt=0.5 Vh=0.1)
.model MyDiode D(Vfwd=0.1 Ron=1m Roff=1MEG)
.param U_dc = 110
.param C_dc = 4u7
.param L_s1 = 1.46u
.param L_s2 = 4.75m
.param L_m = 324.9m
.param N_21 = 50
.param C_g = 10p
.param C_d = 42p
.param V_th = 1400
.param f_sw = 75k
.param T_sw = 1/f_sw
.param D = 0.2
.tran 0 {50*T_sw} {48*T_sw}
*.option reltol=1e-4 abstol=0.1p chgtol=1f vntol=0.1u gmin=0.1p
K1 L2 L3 1
*.backanno
.end