SK100EL14WU Datasheet| ITEM | SYMBOL | RATING | UNIT | | Supply Voltage (1) | VDD (Note l) | -0.3 t0 7O | V | | Supply Voltage (2) | VLC2, VLC3, VLC5 (Note l, 2) | VDD-12.0 to VDD+0.3 | V | | Input Voltage | VIN (Note l) | -0.3 to VDD+0.3 | V | | Operating Temperature | Topr | - 20 t0 75 | oC | | Storage Temperature | Tstg | -55 t0 125 | aC | | | | |
SK100EL14WU Price| | SB( | )2(- - | | | r l l -aBOBO | | | | | | f | | | l l | | | | | |j | j | | SB( | I )50-SB060 | | | | | - l l | | | | l l l l T IJ-ca u | | | | i | | l | | | Pulse Width = 300u S | | | | | | | | 1% Duty Cycle IIII | | | | | | | | |
SK100EL14WU on stock GROUNDING In order for the design to turn the load off properly, the IXDN402 must be able to drain this l.5A of current into an adequate grounding system. There are three paths for returning current that need to be considered: Path #1 is between the IXDN402 and its load. Path2 is between the IXDN402 and its power supply. Path #3 is between the IXDN402 and whateverlogic is driving it. All three of these paths should be as low in resistance and inductance as possible, and thus as short as practical. In addition, every effort should be made to keep these three ground paths distinctly separate. Otherwise, the returning ground current from the load may develop a voltage that would have a detrimental effect on the logic line driving the IXDN402. | TA = +25'C, VIN = 15V. free three outputs loaded M *15 I | running, | | | k | | | | I - | | | | | | | |
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