NSR10F40QNXT5G Datasheet, PDF(5/6 Page) ON Semiconductor

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NSR10F40QNXT5G Datasheet, PDF (5/6 Pages) ON Semiconductor – Schottky Diode Optimized

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NSR10F40QNXT5G

1.2

85Â°C

0.8

0.6

25Â°C

0.4

â30Â°C

0.2

0.1

0.2

0.3

0.4

0.5 0.6

REVERSE VOLTAGE (V)

Figure 6. Reverse Leakage Characteristics

Finally these diodes were placed in the same circuit at 25C

for 1 week of continuous operation. The screen shots below

in Figures 8 and 9 show the operation on the first day of

continuous operation and five days respectively.

1Eâ01

1Eâ03

1Eâ05

1Eâ07

85Â°C

25Â°C

1Eâ09

â30Â°C

1Eâ11

FORWARD VOLTAGE (V)

Figure 7. Forward Current Characterization

heavy load operation and 25Â°C. As seen in Figure 10 the

case only got to 29.2Â°C. This translates to less than 20mW

of total power dissipation.

Figure 8. NSR10F40QNXT5G on Day 1 at 255C

Figure 9. NSR10F40QNXT5G on Day 5 at 255C

To further evaluate the performance, a thermal camera

was used to take pictures of the NSR10F40QNXT5G during

Figure 10. Case Temperature of NSR10F40QNXT5G

in Operation at 255C, 150 mA 34 V Output

With a heavy load condition (up to 1.2 A) through the

NSR10F40QNXT5G on a minimum pad size the ambient

temperature can rise up to 145Â°C and not degrade the

performance. Using ON Semiconductorâs new ultra low

profile Wireless Boost Application Optimized Schottky

diodes will increase the overall efficiency and battery life

while reducing board size and cost associated with thermal

pads.

http://onsemi.com

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