SPICE MODEL of SSM3K116TU (Professional+BDP Model) in SPICE PARK

Device Modeling Report

COMPONENTS: Power MOSFET (Professional)
PART NUMBER: SSM3K116TU
MANUFACTURER: TOSHIBA
Body Diode (Professional) / ESD Protection Diode

Bee Technologies Inc.

All Rights Reserved Copyright (c) Bee Technologies Inc. 2008

MOSFET MODEL

Pspice model
Model description
parameter
LEVEL
L Channel Length
W Channel Width
KP Transconductance
RS Source Ohmic Resistance
RD Ohmic Drain Resistance
VTO Zero-bias Threshold Voltage
RDS Drain-Source Shunt Resistance
TOX Gate Oxide Thickness
CGSO Zero-bias Gate-Source Capacitance
CGDO Zero-bias Gate-Drain Capacitance
CBD Zero-bias Bulk-Drain Junction Capacitance
MJ Bulk Junction Grading Coefficient
PB Bulk Junction Potential
FC Bulk Junction Forward-bias Capacitance Coefficient
RG Gate Ohmic Resistance
IS Bulk Junction Saturation Current
N Bulk Junction Emission Coefficient
RB Bulk Series Resistance
PHI Surface Inversion Potential
GAMMA Body-effect Parameter
DELTA Width effect on Threshold Voltage
ETA Static Feedback on Threshold Voltage
THETA Modility Modulation
KAPPA Saturation Field Factor
VMAX Maximum Drift Velocity of Carriers
XJ Metallurgical Junction Depth
UO Surface Mobility


Transconductance Characteristic

Circuit Simulation Result

10
Measurement
Simulation

8

6
gfs

4

2

0
0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 1.8 2
ID : Drain Current A

Comparison table

gfs
Id(A) Error(%)
Measurement Simulation
0.010 0.350 0.340 -2.857
0.020 0.700 0.686 -2.000
0.050 1.100 1.130 2.727
0.100 1.580 1.598 1.139
0.200 2.200 2.240 1.818
0.500 3.500 3.480 -0.571
1.000 4.880 4.850 -0.615
2.000 6.700 6.730 0.448


Vgs-Id Characteristic

Circuit Simulation result

10A

1.0A

100mA

10mA
0V 2.0V 3.0V
I(V3)
V_V2

Evaluation circuit

V3

0Vdc

U1
SSM3K116TU

Vv ariable

10Vdc 3Vdc

V2

0


Comparison Graph


10.000
Measurement
Simulation

1.000
ID : Drain Current A

0.100

0.010
0.00 1.00 2.00 3.00
VGS : Gate to Source Voltage V
Simulation Result

VGS(V)
ID(A) Error (%)
0.010 0.968 0.976 0.826
0.020 1.008 0.995 -1.290
0.050 1.066 1.034 -3.002
0.100 1.120 1.078 -3.750
0.200 1.180 1.138 -3.559
0.500 1.290 1.267 -1.783
1.000 1.415 1.410 -0.353
2.000 1.600 1.612 0.750


Rds(on) Characteristic

1.0A

0.8A

0.6A

0.4A

0.2A

0A
0V 10mV 20mV 30mV 40mV 50mV 60mV 70mV 80mV 90mV
I(V3)
V_VDS

Evaluation circuit

V3

0Vdc

U1
SSM3K116TU

VDS

10Vdc 0Vdc

VGS

0

Simulation Result

ID=0.5A, VGS=4.5V Measurement Simulation Error (%)
R DS (on) () 75.000 75.095 0.127


Gate Charge Characteristic

20V

18V

16V

14V

12V

10V

8V

6V

4V

2V

0V
0 1n 2n 3n 4n 5n 6n 7n 8n 9n 10n
V(W1:3)
Time*1mS

Evaluation circuit

V2

0Vdc

Dbreak

D1
PER = 1000u I2
PW = 600u W1 U1 2Adc
TF = 10n + SSM3K116TU
TR = 10n
-
TD = 0
I2 = 1m W
I1 IOFF = 0.1mA V1
I1 = 0 ION = 0uA 20Vdc

0

Simulation Result

VDD=20V,ID=2A
Measurement Simulation Error (%)
,VGS=10V
Qgs(nc) 0.400 0.401 0.250
Qgd(nc) 1.800 1.807 0.389
Qg(nc) 7.000 7.009 0.129


Capacitance Characteristic

Measurement
Simulation

Simulation Result

Cbd(pF)
VDS(V) Error(%)
0.100 34.000 34.005 0.015
0.200 33.300 33.250 -0.150
0.500 31.200 31.160 -0.128
1.000 27.900 28.060 0.573
2.000 23.200 23.080 -0.517
5.000 14.000 13.995 -0.036
10.000 7.300 7.350 0.685
20.000 3.000 2.998 -0.067


Switching Time Characteristic


20.0V

17.5V

15.0V

12.5V

10.0V

7.5V

5.0V

2.5V

0V
1.92us 1.96us 2.00us 2.04us 2.08us 2.12us
V(2)*4 V(3)
Time
Evaluation circuit

3 L2

50nH

U1
SSM3K116TU
RL
L1 2
40
V1 = 0
5nH
V2 = 2.5 V2 VDD
TD = 2u R2 10Vdc
TR = 6n
TF = 7n 4.7
PW = 1u
PER = 10u

0

Simulation Result

ID=0.25A, VDD=10V
Measurement Simulation Error(%)
VGS=2.5V
Ton(ns) 9.000 8.997 -0.033


Output Characteristic

5.0A

10V
4.0A 4.5V

2.5V

3.0A 1.8V

2.0A

1.6V

1.0A
1.4V

VGS=1.2V
0A
0V 1V 2V 3V 4V 5V 6V 7V 8V 9V 10V
I(Vdsense)
V_Vvariable

Evaluation circuit

Vdsense

0Vdc

U1
SSM3K116TU

Vv ariable

10Vdc
0Vdc

Vstep

0


Output Characteristic Reference


Forward Current Characteristic


10A

1.0A

100mA

10mA
0V 0.2V 0.4V 0.6V 0.8V 1.0V
I(R1)
V_V1

Evaluation Circuit

R1

0.01m

V1
0Vdc
SSM3K116TU
U1

0


Comparison Graph


10.00
Measurement
Simulation
Drain reverse current IDR(A)

1.00

0.10

0.01
0 0.2 0.4 0.6 0.8 1

Source: Drain voltage VSD(V)

Simulation Result

VDS(V) VDS(V)
IDR(A) %Error
0.010 0.480 0.481 0.208
0.020 0.510 0.509 -0.196
0.050 0.550 0.549 -0.182
0.100 0.580 0.585 0.862
0.200 0.630 0.629 -0.159
0.500 0.700 0.695 -0.714
1.000 0.750 0.754 0.533
2.000 0.820 0.821 0.122


Reverse Recovery Characteristic


400mA

0A

-400mA
10.06us 10.08us 10.10us 10.12us 10.14us 10.16us
I(R1)
Time

Evaluation Circuit

R1

50

V1 = -9.5v V1
V2 = 10.5v U1
TD = 97n DSSM3K116TU
TR = 1ns
TF = 4ns
PW = 10us
PER = 100us

0

Compare Measurement vs. Simulation

Measurement Simulation Error (%)
Trj(ns) 4.200 4.227 0.643
trb(ns) 6.400 6.370 -0.477
trr(ns) 10.600 10.597 -0.028


Reverse Recovery Characteristic Reference

Trj=4.2(ns)
Trb=6.4(ns)
Conditions:Ifwd=lrev=0.2(A),Rl=50

Example

Relation between trj and trb


Zener Voltage Characteristic


10uA

9uA

8uA

7uA

6uA

5uA

4uA

3uA

2uA

1uA

0A
0V 2V 4V 6V 8V 10V 12V 14V 16V 18V 20V
I(R1)
V_V1

Evaluation Circuit

R1

0.01m

V1
0Vdc U1
SSM3K116TU
R2

100MEG

0


Zener Voltage Characteristic Reference


SPICE MODEL of SSM3K116TU (Professional+BDP Model) in SPICE PARK

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