Description

Silicon Carbide (SiC) MOSFET use a completely new technology that provide superior switching performance and higher reliability compared to Silicon. In addition, the low ON resistance and compact chip size ensure low capacitance and gate charge. Consequently, system benefits include highest efficiency, faster operating frequency, increased power density, reduced EMI, and reduced system size.

Features

● High Speed Switching with Low Capacitances

● High Blocking Voltage with Low RDS(on)

● 100% avalanche tested

● Maximum junction temperature of150°C

● ROHSCompliant

Application

● EVCharging

● DC‐ACInverters

● High Voltage DC/DCConverters

● Switch Mode PowerSupplies

● Power Factor CorrectionModules

● MotorDrives

Ordering Information

Part Number	Marking	Package	Packaging
TX45N1500MT3	TX45N1500MT3	TO‐247	Tube

Absolute Maximum Ratings(Tc=25℃)

Symbol	Parameter	Value	Unit
VDS	Drain-Source Voltage	1500	V
ID	Drain Current(continuous)at Tc=25℃	45	A
ID	Drain Current(continuous)at Tc=100℃	20	A
IDM	Drain Current (pulsed)	100	A
VGS	Gate-Source Voltage	-10/+20	V
PD	Power Dissipation TC= 25°C	198	W
TJ,Tstg	Junction and Storage Temperature Range	-55 to +150	℃

Symbol	Parameter	Test Conditions	Min.	Typ.	Max.	Unit
BVDS	Drain-source Breakdown Voltage	ID=250uA,VGS=0V	1500			V
IDSS	Zero Gate Voltage Drain Current	VDS=1500V, VGS=0V, TJ=25°C			100	uA
IGSS	Gate-body Leakage Current	VDS=0V ; VGS=10 to 20V			250	nA
VGS(th)	Gate Threshold Voltage	VDS= VGS,ID=5mA	2		4	V
RDS(on)	Static Drain-source On Resistance	VGS=18V, ID=20A		60	80	mΩ
RG	Gate Resistance	VGS=0V,f=1MHz		3		W

Electrical Characteristics(TJ= 25℃unless otherwise specified) Typical Performance‐Static

Symbol	Parameter	Test Conditions	Min.	Typ.	Max.
BVDS	Drain-source Breakdown Voltage	ID=250uA,VGS=0V	1500
IDSS	Zero Gate Voltage Drain Current	VDS=1500V, VGS=0V, TJ=25°C			100
IGSS	Gate-body Leakage Current	VDS=0V ; VGS=10 to 20V			250
VGS(th)	Gate Threshold Voltage	VDS= VGS,ID=5mA	2		4
RDS(on)	Static Drain-source On Resistance	VGS=18V, ID=20A		60	80
RG	Gate Resistance	VGS=0V,f=1MHz		3

Typical Performance‐Dynamic

Ciss	Input Capacitance	VDS=400V,f=1MHZ,VGS=0V	1678	pF
Coss	Output Capacitance		96	pF
Crss	Reverse Transfer Capacitance		10	pF
Qg	Total Gate Charge	VDS=800V,ID=20A,VGS=0~20V	86	nC
Qgs	Gate-source Charge		18	nC
Qgd	Gate-Drain Charge		20	nC
td(on)	Turn-on Delay Time	VDD=800V,ID=20A,VGS=-0V~20V, RG=0Ω,	18	ns
tr	Rise Time		22	ns
td(off)	Turn-off Delay Time		38	ns
tf	Fall Time		20	ns

Typical Performance‐Reverse Diode

Symbol	Parameter	Test Conditions	Min.	Typ.	Max.	Unit
VFSD	Forward Voltage	VGS=0V,IF=20A,TJ=25°C	2		5	V
VFSD	Forward Voltage	VGS=0V,IF=20A,TJ=150°C	2		5	V
trr	Reverse Recovery Time	VGS=0 V, IF=20 A, VR=800 V, di/dt=100 A/μs		29		ns
Qrr	Reverse Recovery Charge			238		nC
Irrm	Peak Reverse Recovery Current			15		A

Thermal Characteristics

Symbol	Parameter	Value.	Unit
RqJC	Thermal Resistance, Junction-to-Case	0.6	°C/W
RqJA	Thermal Resistance, Junction-to-Case	40	°C/W

The values are based on the junction-to case thermal impedance which is measured with the device mounted to a large heat sink assuming maximum junction temperature of Tj(max)=150℃

Package Drawing:

Dimensions（UNIT：mm）

SYMBDLS	DIMENSIONS IN MILLIMETERS			DIMENSIONS IN INCHES
SYMBDLS	MIN	NOM	MAX	MIN	NOM	MAX
A	4.90	5.00	5.10	0.193	0.197	0.201
A1	2.31	2.42	2.52	0.091	0.095	0.099
A2	1.90	2.00	2.10	0.075	0.079	0.083
b	1.16	1.22	1.27	0.046	0.048	0.050
b1	1.96	2.02	2.07	0.078	0.080	0.081
b2	2.00	2.10	2.20	0.079	0.083	0.087
b3	2.96	3.02	3.07	0.117	0.119	0.121
b4	3.00	3.10	3.20	0.118	0.122	0.126
C	0.59	0.62	0.66	0.023	0.024	0.026
D	20.90	21.00	21.10	0.823	0.827	0.831
D1	16.25	16.55	16.85	0.640	0.652	0.663
D2	5.00 TYP			0.197 TYP
D3	1.05	1.20	1.35	0.041	0.047	0.053
e	5.44 BSC				0.214 BSC
E	15.70	15.80	15.90	0.618	0.622	0.626
E1	13.06	13.26	13.50	0.514	0.522	0.530
E2	2.50 TYP				0.098 TYP
L	19.72	19.92	20.12	0.776	0.784	0.792
L1	——	——	4.30	——	——	0.169
Q	6.15 BSC			0.242BSC
Q1	5.60	5.80	6.00	0.220	0.228	0.236
ØP	3.55	3.60	3.70	0.140	0.142	0.146