No. |
Part Name |
Description |
Manufacturer |
961 |
TC1413NEPA |
The TC1413/1413N are 3A CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. ... |
Microchip |
962 |
TC1413NEUA |
The TC1413/1413N are 3A CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. ... |
Microchip |
963 |
TC1413NEUA713 |
The TC1413/1413N are 3A CMOS buffer/drivers. They will not latch up under any conditions within their power and voltage ratings. ... |
Microchip |
964 |
TC1426 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
965 |
TC1426 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
966 |
TC1426COA |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
967 |
TC1426COA713 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
968 |
TC1426CPA |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
969 |
TC1426CUA |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
970 |
TC1426CUA713 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
971 |
TC1427 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
972 |
TC1427 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
973 |
TC1427COA |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
974 |
TC1427COA713 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
975 |
TC1427CPA |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
976 |
TC1427CUA |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
977 |
TC1427CUA713 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
978 |
TC1428 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
979 |
TC1428 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
980 |
TC1428COA |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
981 |
TC1428COA713 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
982 |
TC1428CPA |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
983 |
TC1428CUA |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
984 |
TC1428CUA713 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. ... |
Microchip |
985 |
TC1682 |
Note:This product has become 'Obsolete' and is no longer offered as a viable device.The TC1682, TC1683 and TC1684 are CMOS charge pump converters that provide an inverted doubled output from a single positive supply. An on-board oscillator |
Microchip |
986 |
TC1683 |
Note:This product has become 'Obsolete' and is no longer offered as a viable device.The TC1682, TC1683 and TC1684 are CMOS charge pump converters that provide an inverted doubled output from a single positive supply. An on-board oscillator |
Microchip |
987 |
TC1684 |
Note:This product has become 'Obsolete' and is no longer offered as a viable device.The TC1682, TC1683 and TC1684 are CMOS charge pump converters that provide an inverted doubled output from a single positive supply. An on-board oscillator |
Microchip |
988 |
TC2014 |
The TC2014, TC2015, and TC2185 are high accuracy (typically ±0.4%) CMOS upgrades for older (bipolar) low dropout regulators such as the LP2980. Total supply current is typically 55�A (20 to 60 times lower than in bipolar regulators!). |
Microchip |
989 |
TC2014-1.8VCTTR |
The TC2014, TC2015, and TC2185 are high accuracy (typically ±0.4%) CMOS upgrades for older (bipolar) low dropout regulators ... |
Microchip |
990 |
TC2014-1.8VCTTR |
The TC2014, TC2015, and TC2185 are high accuracy (typically ±0.4%) CMOS upgrades for older (bipolar) low dropout regulators ... |
Microchip |
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