Added Diode component with standard and verilog model (diode, led, zener)

This commit is contained in:
2026-06-30 17:24:07 +02:00
parent c0c3de344a
commit 51f17e5c2d
17 changed files with 1012 additions and 0 deletions
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// (setq tab-width 4)
// kelle ez ? :: decl diode_va_ModelNetlistFmt = "%43?global %;model %t diode_va %b%r%8?%29?%:%30?%p %:%k%?[%1i]%;=%p %;%;%;%e%e";
create_item(
"mr_diode", // name
"PN junction diode", // label
"D", // prefix
0, // attributes
NULL, // priority
NULL, // icon
standard_dialog, // dialog name
"", // dialog data
CmpModelNetlistFmt, // netlist format
"Diode", // netlist data
ComponentAnnotFmt, // display format string
NULL, // symbol name (not used since 2011)
NULL, // artwork type (not used since 2011)
NULL, // artwork data (not used since 2011)
ITEM_PRIMITIVE_EX, // extra attributes
// ------------------------------------------------------------------------
// Model
// ------------------------------------------------------------------------
create_parm
(
"Model",
"Model instance name",
0,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","va_diode")
),
// ------------------------------------------------------------------------
// Area
// ------------------------------------------------------------------------
create_parm
(
"Area",
"Scaling factor",
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","1.0")
),
// ------------------------------------------------------------------------
// Is
// ------------------------------------------------------------------------
create_parm
(
"Is",
"Saturation current",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
CURRENT_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Tnom
// ------------------------------------------------------------------------
create_parm
(
"Tnom",
"Nominal temperature",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
TEMPERATURE_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Rs
// ------------------------------------------------------------------------
create_parm
(
"Rs",
"Ohmic resistance",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
RESISTANCE_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// N
// ------------------------------------------------------------------------
create_parm
(
"N",
"Emission coefficient, (default: 1.0)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Tt
// ------------------------------------------------------------------------
create_parm
(
"Tt",
"Transit time",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
TIME_UNIT,
prm("StdForm","0.0")
),
// ------------------------------------------------------------------------
// Cjo
// ------------------------------------------------------------------------
create_parm
(
"Cjo",
"Junction capacitance",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
CAPACITANCE_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Vj
// ------------------------------------------------------------------------
create_parm
(
"Vj",
"Junction potential, (default: 1.0)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
VOLTAGE_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// M
// ------------------------------------------------------------------------
create_parm
(
"M",
"Grading coefficient, (default: 0.5)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Eg
// ------------------------------------------------------------------------
create_parm
(
"Eg",
"Activation energy, (default: 1.1)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Xti
// ------------------------------------------------------------------------
create_parm
(
"Xti",
"Is temperature exponent (default: 3.3)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Af
// ------------------------------------------------------------------------
create_parm
(
"Af",
"Flicker noise exponent (default: 1.0)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Kf
// ------------------------------------------------------------------------
create_parm
(
"Kf",
"Flicker noise coefficient (default: 0.0)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Fc
// ------------------------------------------------------------------------
create_parm
(
"Fc",
"Forward bias junction parm (default: 0.5)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Bv
// ------------------------------------------------------------------------
create_parm
(
"Bv",
"Reverse breakdown voltage (default: 1e99)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
VOLTAGE_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Ibv
// ------------------------------------------------------------------------
create_parm
(
"IBv",
"Reverse breakdown current (default: 1 mA)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
CURRENT_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// _M
// ------------------------------------------------------------------------
create_parm
(
"_M",
"Number of devices in parallel, (default: 1)",
PARM_NO_DISPLAY,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
)
);
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// (setq tab-width 4)
// kelle ez ? :: decl diode_va_ModelNetlistFmt = "%43?global %;model %t diode_va %b%r%8?%29?%:%30?%p %:%k%?[%1i]%;=%p %;%;%;%e%e";
create_item(
"mr_diode_zener", // name
"Zener diode", // label
"D", // prefix
0, // attributes
NULL, // priority
NULL, // icon
standard_dialog, // dialog name
"", // dialog data
CmpModelNetlistFmt, // netlist format
"Diode", // netlist data
ComponentAnnotFmt, // display format string
NULL, // symbol name (not used since 2011)
NULL, // artwork type (not used since 2011)
NULL, // artwork data (not used since 2011)
ITEM_PRIMITIVE_EX, // extra attributes
// ------------------------------------------------------------------------
// Model
// ------------------------------------------------------------------------
create_parm
(
"Model",
"Model instance name",
0,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","va_diode")
),
// ------------------------------------------------------------------------
// Area
// ------------------------------------------------------------------------
create_parm
(
"Area",
"Scaling factor",
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","1.0")
),
// ------------------------------------------------------------------------
// Is
// ------------------------------------------------------------------------
create_parm
(
"Is",
"Saturation current",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
CURRENT_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Tnom
// ------------------------------------------------------------------------
create_parm
(
"Tnom",
"Nominal temperature",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
TEMPERATURE_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Rs
// ------------------------------------------------------------------------
create_parm
(
"Rs",
"Ohmic resistance",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
RESISTANCE_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// N
// ------------------------------------------------------------------------
create_parm
(
"N",
"Emission coefficient, (default: 1.0)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Tt
// ------------------------------------------------------------------------
create_parm
(
"Tt",
"Transit time",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
TIME_UNIT,
prm("StdForm","0.0")
),
// ------------------------------------------------------------------------
// Cjo
// ------------------------------------------------------------------------
create_parm
(
"Cjo",
"Junction capacitance",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
CAPACITANCE_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Vj
// ------------------------------------------------------------------------
create_parm
(
"Vj",
"Junction potential, (default: 1.0)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
VOLTAGE_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// M
// ------------------------------------------------------------------------
create_parm
(
"M",
"Grading coefficient, (default: 0.5)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Eg
// ------------------------------------------------------------------------
create_parm
(
"Eg",
"Activation energy, (default: 1.1)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Xti
// ------------------------------------------------------------------------
create_parm
(
"Xti",
"Is temperature exponent (default: 3.3)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Af
// ------------------------------------------------------------------------
create_parm
(
"Af",
"Flicker noise exponent (default: 1.0)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Kf
// ------------------------------------------------------------------------
create_parm
(
"Kf",
"Flicker noise coefficient (default: 0.0)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Fc
// ------------------------------------------------------------------------
create_parm
(
"Fc",
"Forward bias junction parm (default: 0.5)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Bv
// ------------------------------------------------------------------------
create_parm
(
"Bv",
"Reverse breakdown voltage (default: 1e99)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
VOLTAGE_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// Ibv
// ------------------------------------------------------------------------
create_parm
(
"IBv",
"Reverse breakdown current (default: 1 mA)",
PARM_NO_DISPLAY |
PARM_OPTIMIZABLE |
PARM_STATISTICAL,
"StdFileFormSet",
CURRENT_UNIT,
prm("StdForm","")
),
// ------------------------------------------------------------------------
// _M
// ------------------------------------------------------------------------
create_parm
(
"_M",
"Number of devices in parallel, (default: 1)",
PARM_NO_DISPLAY,
"StdFileFormSet",
UNITLESS_UNIT,
prm("StdForm","")
)
);
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; 1N4148
;
model D1N4148 Diode \
Is = 2.682n \
N = 1.836 \
Rs = 0.5664 \
Xti = 3 \
Eg = 1.11 \
Cjo = 4p \
M = 0.3333 \
Vj = 0.5 \
Fc = 0.5 \
Bv = 100 \
Ibv = 100u
; Tt = 11.54n
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;*====================
;*LED Pinout: 1=A, 2=K
;*====================
; ---------------------------------------------------------
; Typ INFRARED GaAs LED: Vf=1.2V Vr=5V If=40mA trr=3uS
; ---------------------------------------------------------
model DLED0 Diode \
IS = 93.5p RS = 84m N = 2.63 \
BV = 5 IBV = 10u CJO = 2.97p \
VJ = 0.75 M = 0.333 TT = 4.32u
; ---------------------------------------------------------
; Typ RED GaAs LED: Vf=1.7V Vr=4V If=40mA trr=3uS
; ---------------------------------------------------------
model DLED1 Diode \
IS = 93.2p RS = 42m N = 3.73 \
BV = 4 IBV = 10u CJO = 2.97p \
VJ = 0.75 M = 0.333 TT = 4.32u
; ---------------------------------------------------------
; Typ RED,GREEN,YELLOW,AMBER GaAs LED: Vf=2.1V Vr=4V If=40mA trr=3uS
; ---------------------------------------------------------
model DLED2 Diode \
IS = 93.1p RS = 42m N = 4.61 \
BV = 4 IBV = 10u CJO = 2.97p \
VJ = 0.75 M = 0.333 TT = 4.32u
; ---------------------------------------------------------
; Typ BLUE SiC LED: Vf=3.4V Vr=5V If=40mA trr=3uS
; ---------------------------------------------------------
model DLED3 Diode \
IS = 93.1p RS = 42m N = 7.47 \
BV = 5 IBV = 30u CJO = 2.97p \
VJ = 0.75 M = 0.333 TT = 4.32u
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; Motorola MUR820 TO220AC
;
model MUR820_ON Diode \
IS = 3.30803e-08 \
RS = 0.01 \
N = 1.63481 \
EG = 1.00822 \
XTI = 4 \
BV = 200 \
IBV = 0.00005 \
CJO = 3.16981e-10 \
VJ = 0.437823 \
M = 0.40704 \
FC = 0.5 \
TT = 4.43935e-08 \
KF = 0 \
AF = 1
+17
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; Motorola MUR830 TO220AC
;
model MUR830 Diode \
Is = 1.026p \
Rs = 36.34m \
Ikf = 17.71m \
N = 1 \
Xti = 10 \
Eg = 1.11 \
Cjo = 367p \
M = 0.4068 \
Vj = 0.75 \
Fc = 0.5 \
Isr = 32.31n \
Nr = 2 \
Tt = 123.3n
+17
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; Motorola MUR840 TO220AC
;
model MUR840 Diode \
Is = 1.026p \
Rs = 36.34m \
Ikf = 17.71m \
N = 1 \
Xti = 10 \
Eg = 1.11 \
Cjo = 367p \
M = 0.4068 \
Vj = 0.75 \
Fc = 0.5 \
Isr = 132.1n \
Nr = 2 \
Tt = 123.3n
+17
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; Motorola MUR850 TO220AC
;
model MUR850 Diode \
Is = 853.7f \
Rs = 41.35m \
Ikf = 21.56m \
N = 1 \
Xti = 3 \
Eg = 1.11 \
Cjo = 367p \
M = 0.4068 \
Vj = 0.75 \
Fc = 0.5 \
Isr = 85.16n \
Nr = 2 \
Tt = 123.3n
+17
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; Motorola MUR860 TO220AC
;
model MUR860 Diode \
Is = 853.7f \
Rs = 41.35m \
Ikf = 21.56m \
N = 1 \
Xti = 3 \
Eg = 1.11 \
Cjo = 367p \
M = 0.4068 \
Vj = 0.75 \
Fc = 0.5 \
Isr = 217.5n \
Nr = 2 \
Tt = 123.3n
+20
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; Motorola MURS110
;
; src: onsemi
;
model MURS110 Diode \
IS = 1.0e-15 \
RS = 0.057964 \
N = 0.790242 \
EG = 1.04345 \
XTI = 0.5 \
BV = 100 \
IBV = 0.000002 \
CJO = 1.06518e-10 \
VJ = 0.4 \
M = 0.626202 \
FC = 0.5 \
TT = 4.43935e-08 \
KF = 0.0 \
AF = 1.0
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; ===================================================
; Motorola Zener Diodes (OnSemi)
; 1=A
; 2=K
; ===================================================
; ---------------------------------------------------
; 1N746
; Motorola 3.3V 500mW Si Zener pkg:DO-13 1,2
; Bv = 3.025
; ---------------------------------------------------
model D1N746 Diode \
IS = 1E-11 RS = 13.65 N = 1.27 \
TT = 5E-8 CJO = 5.826E-10 VJ = 0.75 \
M = 0.33 BV = 3.027 IBV = 0.01
; ---------------------------------------------------
; 1N747
; Motorola 3.6V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N747 Diode \
IS = 1E-11 RS = 12.8 N = 1.27 \
TT = 5E-8 CJO = 5.422E-10 VJ = 0.75 \
M = 0.33 BV = 3.344 IBV = 0.01
; ---------------------------------------------------
; 1N748
; Motorola 3.9V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N748 Diode \
IS = 1E-11 RS = 11.84 N = 1.27 \
TT = 5E-8 CJO = 5.076E-10 VJ = 0.75 \
M = 0.33 BV = 3.663 IBV = 0.01
; ---------------------------------------------------
; 1N749
; Motorola 4.3V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N749 Diode \
IS = 1E-11 RS = 10.47 N = 1.27 \
TT = 5E-8 CJO = 4.683E-10 VJ = 0.75 \
M = 0.33 BV = 4.091 IBV = 0.01
; ---------------------------------------------------
; 1N750
; Motorola 4.7V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N750 Diode \
IS = 1E-11 RS = 9.066 N = 1.27 \
TT = 5E-8 CJO = 4.351E-10 VJ =0.75 \
M = 0.33 BV = 4.519 IBV=0.01
; ---------------------------------------------------
; 1N751
; Motorola 5.1V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N751 Diode \
IS = 1E-11 RS = 7.708 N = 1.27 \
TT = 5E-8 CJO = 4.068E-10 VJ = 0.75 \
M = 0.33 BV = 4.946 IBV = 0.01
; ---------------------------------------------------
; 1N752
; Motorola 5.6V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N752 Diode \
IS = 1E-11 RS = 6.168 N = 1.27 \
TT = 5E-8 CJO = 3.766E-10 VJ = 0.75 \
M = 0.33 BV = 5.477 IBV = 0.01
; ---------------------------------------------------
; 1N753
; Motorola 6.2V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N753 Diode \
IS = 1E-11 RS = 4.685 N = 1.27 \
TT = 5E-8 CJO = 3.463E-10 VJ = 0.75 \
M = 0.33 BV = 6.106 IBV = 0.01
; ---------------------------------------------------
; 1N754
; Motorola 6.8V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N754 Diode \
IS = 1E-11 RS = 3.721 N = 1.27 \
TT = 5E-8 CJO = 3.209E-10 VJ = 0.75 \
M = 0.33 BV = 6.726 IBV=0.01
; ---------------------------------------------------
; 1N755
; Motorola 7.5V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N755 Diode \
IS = 1E-11 RS = 3.359 N = 1.27 \
TT = 5E-8 CJO = 2.959E-10 VJ = 0.75 \
M = 0.33 BV = 7.433 IBV = 0.01
; ---------------------------------------------------
; 1N756
; Motorola 8.2V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N756 Diode \
IS = 1E-11 RS = 3.858 N = 1.27 \
TT = 5E-8 CJO = 2.749E-10 VJ = 0.75 \
M = 0.33 BV = 8.123 IBV = 0.01
; ---------------------------------------------------
; 1N757
; Motorola 9.1V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N757 Diode \
IS = 1E-11 RS = 5.672 N = 1.27 \
TT = 5E-8 CJO = 2.523E-10 VJ = 0.75 \
M = 0.33 BV = 8.987 IBV = 0.01
; ---------------------------------------------------
; 1N758
; Motorola 10V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N758 Diode \
IS = 1E-11 RS = 8.483 N = 1.27 \
TT = 5E-8 CJO = 2.334E-10 VJ = 0.75 \
M = 0.33 BV = 9.83 IBV = 0.01
; ---------------------------------------------------
; 1N759
; Motorola 12V 500mW Si Zener pkg:DO-35 1,2
; ---------------------------------------------------
model D1N759 Diode \
IS = 1E-11 RS = 14.95 N = 1.27 \
TT = 5E-8 CJO = 2.008E-10 VJ = 0.75 \
M = 0.33 BV = 11.7 IBV = 0.01