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Contributes to Higher Efficiency of switched-mode power supply

Aggressive reduction of MOSFET switching loss

With the advent of an advanced information society, the amount of information handled every day has dramatically increased, and the increase in power consumed by data centers and information and communications equipment has become a problem on a global scale. Therefore, the demand of high-efficiency for switched-mode power supply (SMPS) that supply power to data centers and information and communications equipment has been increasing in recent years.

The loss of MOSFET in switched-mode power supply is roughly divided into on-time loss and on-off switchover loss, the new generation DTMOSVI 650 V series aims at improvement focusing on reduction of the switchover loss. Especially aiming the loss reduction by speed up the switching from ON to OFF, the new generation reduces the values of “drain-source On-resistance x gate-drain charge” by about 40 % compared with the previous generation ^{[Note 1]}. And this reduction allows the efficiency of switching power supplies to be improved by about 0.36 %^{[Note 2]}.
TOLL is a surface-mount package that has an approximately 27 % smaller footprint than the usual D2PAK package. It is also a 4-pin type package that allows Kelvin connection of its signal source terminal for the gate drive. This can reduce the influence by the inductance of the source wire in the package to bring out the high-speed switching performance of the MOSFETs, suppressing oscillation when switching.
Toshiba will continue expanding its product lineup to meet market trends and help improve the efficiency of power supplies.

[Note 1] the new generation DTMOSVI prepares several patterns of the product of “drain-source On-resistance x gate-drain charge” from 40mΩ×27nC to 210mΩ×7.1nC. It is possible to select the appropriate parts according to the application and design concept, including package variations.

[Note 2] As of July 2021, values measured by Toshiba (When TK040N65Z in the new series is compared with TK62N60X in the conventional series by using a PFC circuit with an output power of 2500 W)

Features

Applying new generation of “Super Junction Construction”
40% reduction of ”Drain-Source On-Resistance” x “Gate-Drain Charge”
Switched Mode Power Supply Library supporting selection of Power MOSFET depends on each topology
Useful application(1.6kW SMPS), reference design(500W SMPS), and other documents on the web.
Switched Mode Power Supply Library
Application(1.6kW SMPS)
Reference design(500W SMPS)

Recommended Product List

* The values mentioned in bracket under the product names are R_DS(ON)Max /I_DMax

Package					Qgd typ. (nC)
DFN8x8	TO-220SIS	TO-247	TO-247-4L	TOLL

8.0×8.0×0.85	10.0×15.0×4.5	15.94×20.95×5.02	15.94×20.95×5.0	9.9×11.68×2.3
TK210V65Z (0.21Ω/15A)	TK190A65Z (0.19Ω/15A)			TK190U65Z (0.19Ω/15A)	7.1
TK170V65Z (0.17Ω/18A)	TK155A65Z (0.155Ω/18A)			TK155U65Z (0.155Ω/18A)	8
TK125V65Z (0.125Ω/24A)	TK110A65Z (0.11Ω/24A)	TK110N65Z (0.11Ω/24A)	TK110Z65Z (0.11Ω/24A)	TK110U65Z (0.11Ω/24A)	11
TK099V65Z (0.099Ω/30A)	TK090A65Z (0.09Ω/30A)	TK090N65Z (0.09Ω/30A)	TK090Z65Z (0.09Ω/30A)	TK090U65Z (0.09Ω/30A)	12
		TK065N65Z (0.065Ω/38A)	TK065Z65Z (0.065Ω/38A)	TK065U65Z (0.065Ω/38A)	17
		TK040N65Z (0.04Ω/57A)	TK040Z65Z (0.04Ω/57A)		27