No. |
Part Name |
Description |
Manufacturer |
31 |
MAX8555A |
Low-Cost, High-Reliability, 0.5V to 3.3V ORing MOSFET Controllers |
MAXIM - Dallas Semiconductor |
32 |
MAX8555AETB |
Low-Cost, High-Reliability, 0.5V to 3.3V ORing MOSFET Controllers |
MAXIM - Dallas Semiconductor |
33 |
MAX8555AETB+ |
Low-Cost, High-Reliability, 0.5V to 3.3V ORing MOSFET Controllers |
MAXIM - Dallas Semiconductor |
34 |
MAX8555AEUB |
Low-Cost, High-Reliability, 0.5V to 3.3V ORing MOSFET Controllers |
MAXIM - Dallas Semiconductor |
35 |
MAX8555AEUB+ |
Low-Cost, High-Reliability, 0.5V to 3.3V ORing MOSFET Controllers |
MAXIM - Dallas Semiconductor |
36 |
MAX8555AEUB+T |
Low-Cost, High-Reliability, 0.5V to 3.3V ORing MOSFET Controllers |
MAXIM - Dallas Semiconductor |
37 |
MAX8555AEUB-T |
Low-Cost, High-Reliability, 0.5V to 3.3V ORing MOSFET Controllers |
MAXIM - Dallas Semiconductor |
38 |
MAX8555ETB |
Low-Cost, High-Reliability, 0.5V to 3.3V ORing MOSFET Controllers |
MAXIM - Dallas Semiconductor |
39 |
MAX8555EUB |
Low-Cost, High-Reliability, 0.5V to 3.3V ORing MOSFET Controllers |
MAXIM - Dallas Semiconductor |
40 |
MAX8555EUB+ |
Low-Cost, High-Reliability, 0.5V to 3.3V ORing MOSFET Controllers |
MAXIM - Dallas Semiconductor |
41 |
MF431ST |
0.5V general purpose LED, for datacom, telecom and general purpose applications |
Mitel Semiconductor |
42 |
MF699ST |
0.5V WDM duplex device, for datacom, telecom and general purpose applications |
Mitel Semiconductor |
43 |
MF799ST |
0.5V WDM duplex device, for datacom, telecom and general purpose applications |
Mitel Semiconductor |
44 |
P6KE13 |
Diode TVS Single Uni-Dir 10.5V 600W Automotive 2-Pin DO-15 |
New Jersey Semiconductor |
45 |
P6KE13C |
Diode TVS Single Bi-Dir 10.5V 600W 2-Pin DO-15 |
New Jersey Semiconductor |
46 |
P6KE24A |
Diode TVS Single Uni-Dir 20.5V 600W 2-Pin DO-15 |
New Jersey Semiconductor |
47 |
P6KE24ARL |
Diode TVS Single Uni-Dir 20.5V 600W 2-Pin Case 017AA-01 T/R |
New Jersey Semiconductor |
48 |
P6KE24CA |
Diode TVS Single Bi-Dir 20.5V 600W 2-Pin DO-15 T/R |
New Jersey Semiconductor |
49 |
SB320 |
20V/3A/0.5V Schottky Rectifier |
Fairchild Semiconductor |
50 |
TC1410 |
The TC1410/1410N are 0.5V CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. They are not subject to damage when up to 5V of noise spiking of either polarity occurs on the ground pin. T |
Microchip |
51 |
TC1410COA |
The TC1410/1410N are 0.5V CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. ... |
Microchip |
52 |
TC1410COA713 |
The TC1410/1410N are 0.5V CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. ... |
Microchip |
53 |
TC1410CPA |
The TC1410/1410N are 0.5V CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. ... |
Microchip |
54 |
TC1410EOA |
The TC1410/1410N are 0.5V CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. ... |
Microchip |
55 |
TC1410EOA713 |
The TC1410/1410N are 0.5V CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. ... |
Microchip |
56 |
TC1410EPA |
The TC1410/1410N are 0.5V CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. ... |
Microchip |
57 |
TC1410EUA |
The TC1410/1410N are 0.5V CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. ... |
Microchip |
58 |
TC1410EUA713 |
The TC1410/1410N are 0.5V CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. ... |
Microchip |
59 |
TC1410N |
The TC1410/1410N are 0.5V CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. They are not subject to damage when up to 5V of noise spiking of either polarity occurs on the ground pin. T |
Microchip |
60 |
TC1410NCOA |
The TC1410/1410N are 0.5V CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. ... |
Microchip |
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