Description

Xiner IGBT adopts international leading trench structure + field cut-off technology (Trench + FS) to reasonably optimize device current density The best saturation turn-on voltage drop (Vce(sat)) and turn-off loss (Eoff) balance are obtained. Perfect for electromagnetic heating, motor drive, industrial power supply and other applications. The core IGBT breakdown voltage ensures sufficient redundancy, high electrical parameter consistency and robust reliability. It also has a high short-circuit current capability.

Features and Benefits:

  • Low saturation conduction voltage drop;
  • Low switching loss;
  • High short circuit current tolerance;
  • High parameter consistency;
  • High input impedance;
  • Positive temperature coefficient, suitable for parallel use.
IGBT Discretes
Parameters
Product Name Package Build-in Vce
(max)
Ic
(max)
Ic
(max)
Icpuls
(max)
Short-
Circuit
(uS)
Tvj VGE
(th)(typ)
VCE
(sat)(typ)
Vf
Diode @25℃ @25℃ @100℃ (℃) (Vge=15V)  (Typ)
XNM4N60T TO-252 Yes 600 8 4 12 5 -40~+ 175 6 2.4 1.4
XNM6N60T TO-252 Yes 600 12 6 18 5 -40~+ 175 6 1.7 1.4
XNA6N60T TO-263 Yes 600 12 6 18 5 -40~+ 175 6 1.7 1.4
XNF6N60T TO-220F Yes 600 12 6 18 5 -40~+ 175 6 1.7 1.4
XNA15N60T TO-263 Yes 600 30 15 45 5 -40~+ 175 5.8 1.7 1.5
XNF15N60T TO-220F Yes 600 30 15 45 5 -40~+ 175 5.8 1.7 1.5
XNT15N60T TO-220 Yes 600 30 15 45 5 -40~+ 175 5.8 1.7 1.5
XNT15N60TI IITO-220 Yes 600 30 15 45 5 -40~+ 175 5.8 1.7 1.5
XNA20N60T TO-263 Yes 600 40 20 60 10 -40~+ 175 5.4 1.65 1.5
XNA20N65T TO-263 Yes 650 40 20 60 10 -40~+ 175 5.4 1.65 1.5
XNF20N60T TO-220F Yes 600 40 20 60 10 -40~+ 175 5.4 1.65 1.5
XNT20N60T TO-220 Yes 600 40 20 60 10 -40~+ 175 5.4 1.65 1.5
XNS20N60T TO-247 Yes 600 40 20 60 10 -40~+ 175 5.4 1.65 1.5
XNT24N60TI IITO-220 Yes 600 48 24 72 10 -40~+ 175 5.2 1.85 1.7
XNA30N60T TO-263 Yes 600 60 30 90 5 -40~+ 175 5 1.7 1.6
XNA30N65T TO-263 Yes 650 60 30 90 5 -40~+ 175 5 1.7 1.6
XNF30N60T TO-220F Yes 600 60 30 90 5 -40~+ 175 5 1.7 1.6
XNT30N60T TO-220 Yes 600 60 30 90 5 -40~+ 175 5 1.7 1.6
XNS30N60T TO-247 Yes 600 60 30 90 5 -40~+ 175 5 1.7 1.6
XNS40N60T TO-247 Yes 600 80 40 120 10 -40~+ 175 5.6 1.8 1.6
XNS40N65T TO-247 Yes 650 80 40 120 _ -40~+ 175 5.5 1.65 1.6
XNS40N60TH TO-247 Yes 600 80 40 120 _ -40~+ 175 5.5 1.65 1.7
XNP40N60TH TO-3P Yes 600 80 40 120 _ -40~+ 175 5.5 1.65 1.7
XNQ40N65TFH3 TO-3PF Yes 650 80 40 120 5 -40~+ 175 5.3 1.85 1.5
XNP50N60T TO-3P Yes 600 90 50 150 5 -40~+ 175 5.1 1.9 1.45
XNS50N60T TO-247 Yes 600 90 50 150 5 -40~+ 175 5.1 1.9 1.45
XNS50N65T TO-247 Yes 650 90 50 150 5 -40~+ 175 5.1 1.9 1.45
XNS50N65TB TO-247 NO 650 90 50 150 5 -40~+ 175 5.1 1.9 NO
XNS50N65TB3 TO-247 NO 650 90 50 150 _ -40~+ 175 4 1..35 NO
XNS60N65TM TO-247 Yes 650 90 60 180 10 -40~+ 175 6 1.75 1.75
XNS75N65TF3 TO-247 Yes 650 90 75 300 _ -40~+ 175 4.3 1.35 1.6
XNS75N65TL3 TO-247 Yes 650 90 75 300 _ -40~+ 175 5 1.15 1.6
XNS80N65T TO-247 Yes 650 90 80 300 _ -40~+ 175 5.2 1.5 1.6
XNS80N65TSH3 TO-247 Yes 650 90 80 300 _ -40~+ 175 4.3 1.4 1.6
XNU120A65TL3 TO-247Plus Yes 650 160 120 480 5 -40~+ 175 5.1 1.65 1.8
XNS15N120T TO-247 Yes 1200 30 15 45 10 -40~+ 175 5.5 2 2
XNT15N120T TO-220AB Yes 1200 30 15 45 10 -40~+ 175 6.2 2.5 2.3
XNP15N120T TO-3P Yes 1200 30 15 45 10 -40~+ 175 5.8 2.1 2
XNS25N120T TO-247 Yes 1200 50 25 75 10 -40~+ 175 6.2 1.75 2.1
XNS25N135T TO-247 Yes 1350 50 25 75 10 -40~+ 175 5.2 1.9 2.1
SP25N135T TO-3P Yes 1350 50 25 75 10 -40~+ 175 5.2 1.9 2.1
XNP25N135T TO-3P Yes 1350 50 25 75 10 -40~+ 175 5.2 1.9 2.1
XNP25N135TI IITO-3P Yes 1350 50 25 75 10 -40~+ 175 5.2 1.9 2.1
XNP25N135TR TO-3P Yes 1350 50 25 75 10 -40~+ 175 5.8 1.8 2.1
XNS40N120T TO-247 Yes 1200 80 40 160 10 -40~+ 175 5.9 1.7 1.65
XNS40N120T TO-247 Yes 1200 80 40 160 10 -40~+ 175 6 1.8 1.7
XNS40N120TH TO-247 Yes 1200 80 40 160 _ -40~+ 175 5.8 2 2.15
XNL40N120T TO-264 Yes 1200 80 40 120 10 -40~+ 175 5.8 2 2.15
XNS50N120T TO-247 Yes 1200 100 50 200 10 -40~+ 175 5.8 1.7 2.1
XNU75N120TH TO-247Plus Yes 1200 100 75 300 10 -40~+ 175 5.7 1.95 2.1
XNU75N120TF2 TO-247Plus Yes 1200 100 75 300 _ -40~+ 175 5.4 1.85 2.3
XNS40N180TR TO-247 Yes 1800 80 40 120 5 -40~+ 175 5.2 2.1 1.7