DescriptionThe MTP5N20 is a kind of TMOS field effect transistor. It is N-channel enhancement-mode. The device is intended for high voltage, high speed power switching applications such as power switching regulators, converters, solenoid and relay drivers. There are some features as follows: (1)si...
MTP5N20: DescriptionThe MTP5N20 is a kind of TMOS field effect transistor. It is N-channel enhancement-mode. The device is intended for high voltage, high speed power switching applications such as power swi...
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The MTP5N20 is a kind of TMOS field effect transistor. It is N-channel enhancement-mode. The device is intended for high voltage, high speed power switching applications such as power switching regulators, converters, solenoid and relay drivers. There are some features as follows: (1)silicon gate for fast switching speeds: switching times specified at 100; (2)designer's data: IDSS, VDS(on), VGS(th) and SOA specified at elevated temperature; (3)rugged: SOA is power dissipation limited; (4)source-to-drain diode characterized for use with inductive loads.
What comes next is about the maximum ratings of MTP5N20: (1)drain-source voltage, VDSS: 200 V; (2)drain-gate voltage (RGS=1 M), VDGR: 200 V; (3)gate-source voltage, continuous, VGS: ±20 V; (4)gate-source voltage, non-repetitive (tp50s), VGSM: ±40 V; (5)drain current, continuous, ID: 5 A; (6)drain current, pulsed, IDM: 15 A; (7)total power dissipation, PD @ TC=25: 75 W; (8)operating and storage temperature range, TJ, TSTG: -65 to 150. Then is about the thermal characteristics of MTP5N20: (1)thermal resistance, junction to case, RJC: 1.67/W; (2)thermal resistance, junction to ambient, RJC: 62.5/W; (3)maximum lead temperature for soldering purpose, 1/8 " from case for 5 seconds, TL: 260.
The following is about the electrical characteristics of MTP5N20 (TC=25 unless otherwise noted): (1)drain-source breakdown voltage, V(BR)DSS: 200 V min at VGS=0, ID=0.25 mA; (2)zero gate voltage drain current, IDSS: 10A max at VDS=rated VDSS, VGS=0 and 100A max at VDS=rated VDSS, VGS=0, TJ=125; (3)gate-body leakage current, forward, IGSSF: 100 nA max at VGSF=20 V, VDS=0; (4)gate-body leakage current, reverse, IGSSR: 100 nA max at VGSR=20 V, VDS=0; (5)gate threshold voltage, VGS(th): 2 V min and 4.5 V max at VDS=VGS, ID=1 mA, TJ=100; (6)static drain-source on-resistance, RDS(on): 1.0 Ohms max at VGS=10 V, ID=1.25 A; (7)drain-source on-voltage, VGS(on): 6 V max at ID=5 A and 5 A max at ID=2.5 A, TJ=100; (8)forward transconductance, gFS: 1.5 mhos typ at VDS=15 V, ID=2.5 A.