Dimensions:
2 x 1.7 x 0.7mm
Maximum Continuous Drain Current:
9.5 A
Transistor Material:
Si
Width:
1.7mm
Transistor Configuration:
Single
Maximum Drain Source Voltage:
20 V
Maximum Gate Threshold Voltage:
1V
Package Type:
UF
Number of Elements per Chip:
1
Maximum Operating Temperature:
+150 °C
Typical Gate Charge @ Vgs:
15 nC @ 4.5 V
Channel Type:
P
Typical Input Capacitance @ Vds:
1100 pF@ -10 V
Length:
1.7mm
Pin Count:
6
Typical Turn-Off Delay Time:
207 ns
Mounting Type:
Surface Mount
Channel Mode:
Enhancement
Maximum Power Dissipation:
1 W
Series:
SSM6
Maximum Gate Source Voltage:
±8 V
Height:
0.7mm
Typical Turn-On Delay Time:
40 ns
Minimum Operating Temperature:
-55 °C
Maximum Drain Source Resistance:
72.3 mΩ
This is P-channel MOSFET 9.5 A 20 V SSM6 6-Pin UF manufactured by Toshiba. The manufacturer part number is SSM6J409TU(TE85L,F. The given dimensions of the product include 2 x 1.7 x 0.7mm. While 9.5 a of maximum continuous drain current. The transistor is manufactured from highly durable si material. Furthermore, the product is 1.7mm wide. The product offers single transistor configuration. It has a maximum of 20 v drain source voltage. The product carries 1v of maximum gate threshold voltage. The package is a sort of uf. It consists of 1 elements per chip. It has a maximum operating temperature of +150 °c. With a typical gate charge at Vgs includes 15 nc @ 4.5 v. The product is available in [Cannel Type] channel. Its typical input capacitance @ Vds is 1100 pf@ -10 v . Its accurate length is 1.7mm. It contains 6 pins. Whereas, its typical turn-off delay time is about 207 ns . The product is available in surface mount configuration. The product carries enhancement channel mode. Provides up to 1 w maximum power dissipation. The product ssm6, is a highly preferred choice for users. It features a maximum gate source voltage of ±8 v. In addition, the height is 0.7mm. In addition, it has a typical 40 ns turn-on delay time . Whereas, the minimum operating temperature of the product is -55 °c. It provides up to 72.3 mω maximum drain source resistance.
Reviews
Don’t hesitate to ask questions for better clarification.