No. |
Part Name |
Description |
Manufacturer |
15451 |
TB28F800B5B90 |
SMART 5 BOOT BLOCK FLASH MEMORY FAMILY 2, 4, 8 MBIT |
Intel |
15452 |
TB28F800B5T90 |
SMART 5 BOOT BLOCK FLASH MEMORY FAMILY 2, 4, 8 MBIT |
Intel |
15453 |
TB28F800BV-B60 |
2-MBIT SmartVoltage BOOT BLOCK FLASH MEMORY FAMILY |
Intel |
15454 |
TB28F800BV-B80 |
2-MBIT SmartVoltage BOOT BLOCK FLASH MEMORY FAMILY |
Intel |
15455 |
TB28F800BV-T60 |
2-MBIT SmartVoltage BOOT BLOCK FLASH MEMORY FAMILY |
Intel |
15456 |
TB28F800BV-T80 |
2-MBIT SmartVoltage BOOT BLOCK FLASH MEMORY FAMILY |
Intel |
15457 |
TB28F800BVB90 |
8-MBIT (512K X 16, 1024K X 8) SmartVoltage BOOT BLOCK FLASH MEMORY FAMILY |
Intel |
15458 |
TB28F800BVT90 |
8-MBIT (512K X 16, 1024K X 8) SmartVoltage BOOT BLOCK FLASH MEMORY FAMILY |
Intel |
15459 |
TB28F800CV-B60 |
2-MBIT SmartVoltage BOOT BLOCK FLASH MEMORY FAMILY |
Intel |
15460 |
TB28F800CV-B80 |
2-MBIT SmartVoltage BOOT BLOCK FLASH MEMORY FAMILY |
Intel |
15461 |
TB28F800CV-T60 |
2-MBIT SmartVoltage BOOT BLOCK FLASH MEMORY FAMILY |
Intel |
15462 |
TB28F800CV-T80 |
2-MBIT SmartVoltage BOOT BLOCK FLASH MEMORY FAMILY |
Intel |
15463 |
TC110 |
The TC110 is a step-up (Boost) switching controller that furnishes output currents as high as 300 mA while delivering a typical efficiency of 84%. The TC110 normally operates in pulse width modulation mode (PWM), but automatically switches |
Microchip |
15464 |
TC110301ECTTR |
The TC110 is a step-up (Boost) switching controller that furnishes output currents as high as 300 mA while delivering a typical efficiency ... |
Microchip |
15465 |
TC110303ECTTR |
The TC110 is a step-up (Boost) switching controller that furnishes output currents as high as 300 mA while delivering a typical efficiency ... |
Microchip |
15466 |
TC110331ECTTR |
The TC110 is a step-up (Boost) switching controller that furnishes output currents as high as 300 mA while delivering a typical efficiency ... |
Microchip |
15467 |
TC110333ECTTR |
The TC110 is a step-up (Boost) switching controller that furnishes output currents as high as 300 mA while delivering a typical efficiency ... |
Microchip |
15468 |
TC110501ECTTR |
The TC110 is a step-up (Boost) switching controller that furnishes output currents as high as 300 mA while delivering a typical efficiency ... |
Microchip |
15469 |
TC110503ECTTR |
The TC110 is a step-up (Boost) switching controller that furnishes output currents as high as 300 mA while delivering a typical efficiency ... |
Microchip |
15470 |
TC1142 |
The TC1142 generates a regulated negative voltage from –3V to –5V at 20 mA from an input of 2.5V to 5.5V, using only three external capacitors. Other boost/buck switching regulators must use an inductor, which is larger and rad |
Microchip |
15471 |
TC1142-3.0EUATR |
Inductorless -2x boost/buck regulator, 3.0V |
Microchip |
15472 |
TC1142-30EUA |
Inductorless -2x Boost/Buck Regulator |
Microchip |
15473 |
TC1142-40EUA |
Inductorless -2x Boost/Buck Regulator |
Microchip |
15474 |
TC1142-5.0EUATR |
Inductorless -2x boost/buck regulator, 5.0V |
Microchip |
15475 |
TC1142-50EUA |
Inductorless -2x Boost/Buck Regulator |
Microchip |
15476 |
TC125 |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical efficiencies above 80%. These devices employ pulse frequency modulation (PFM) for minimum supply current at l |
Microchip |
15477 |
TC125301ECTTR |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical ... |
Microchip |
15478 |
TC125331ECTTR |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical ... |
Microchip |
15479 |
TC125501ECTTR |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical ... |
Microchip |
15480 |
TC126 |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical efficiencies above 80%. These devices employ pulse frequency modulation (PFM) for minimum supply current at l |
Microchip |
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