No. |
Part Name |
Description |
Manufacturer |
2521 |
MAX6655 |
Dual Remote/Local Temperature Sensors and Four-Channel Voltage Monitors |
MAXIM - Dallas Semiconductor |
2522 |
MAX6655MEE |
Dual Remote/Local Temperature Sensors and Four-Channel Voltage Monitors |
MAXIM - Dallas Semiconductor |
2523 |
MAX6655MEE+ |
Dual Remote/Local Temperature Sensors and Four-Channel Voltage Monitors |
MAXIM - Dallas Semiconductor |
2524 |
MAX6656 |
Dual Remote/Local Temperature Sensors and Four-Channel Voltage Monitors |
MAXIM - Dallas Semiconductor |
2525 |
MAX6656MEE+ |
Dual Remote/Local Temperature Sensors and Four-Channel Voltage Monitors |
MAXIM - Dallas Semiconductor |
2526 |
MAX6656MEE+T |
Dual Remote/Local Temperature Sensors and Four-Channel Voltage Monitors |
MAXIM - Dallas Semiconductor |
2527 |
MAX6656MEE-T |
Dual Remote/Local Temperature Sensors and Four-Channel Voltage Monitors |
MAXIM - Dallas Semiconductor |
2528 |
MAX6656MEE-TG05 |
Dual Remote/Local Temperature Sensors and Four-Channel Voltage Monitors |
MAXIM - Dallas Semiconductor |
2529 |
MAX7326 |
I²C Port Expander with 12 Push-Pull Outputs and Four Inputs |
MAXIM - Dallas Semiconductor |
2530 |
MAX7326AEG+ |
I²C Port Expander with 12 Push-Pull Outputs and Four Inputs |
MAXIM - Dallas Semiconductor |
2531 |
MAX7326ATG+ |
I²C Port Expander with 12 Push-Pull Outputs and Four Inputs |
MAXIM - Dallas Semiconductor |
2532 |
MAX7326ATG+T |
I²C Port Expander with 12 Push-Pull Outputs and Four Inputs |
MAXIM - Dallas Semiconductor |
2533 |
MAX77650 |
Ultra-Low Power PMIC with 3-Output SIMO and Charger Optimized for Small Li+ Batteries |
MAXIM - Dallas Semiconductor |
2534 |
MAX77650AEWV+ |
Ultra-Low Power PMIC with 3-Output SIMO and Charger Optimized for Small Li+ Batteries |
MAXIM - Dallas Semiconductor |
2535 |
MAX77650AEWV+T |
Ultra-Low Power PMIC with 3-Output SIMO and Charger Optimized for Small Li+ Batteries |
MAXIM - Dallas Semiconductor |
2536 |
MAX77650EWV+ |
Ultra-Low Power PMIC with 3-Output SIMO and Charger Optimized for Small Li+ Batteries |
MAXIM - Dallas Semiconductor |
2537 |
MAX77650EWV+T |
Ultra-Low Power PMIC with 3-Output SIMO and Charger Optimized for Small Li+ Batteries |
MAXIM - Dallas Semiconductor |
2538 |
MAX77651 |
Ultra-Low Power PMIC with 3-Output SIMO and Charger Optimized for Small Li+ Batteries |
MAXIM - Dallas Semiconductor |
2539 |
MAX77651EWV+ |
Ultra-Low Power PMIC with 3-Output SIMO and Charger Optimized for Small Li+ Batteries |
MAXIM - Dallas Semiconductor |
2540 |
MAX77651EWV+T |
Ultra-Low Power PMIC with 3-Output SIMO and Charger Optimized for Small Li+ Batteries |
MAXIM - Dallas Semiconductor |
2541 |
MC33996 |
16-Output Switch with SPI ControlThe 33996 is a 16-output low-side switch with a 24-bit serial input control. It is designed for ... |
Freescale (Motorola) |
2542 |
MCH5800 |
THIN-FILM CHIP Inductor designed for use in UHF and microwave hybrid circuits for tuning and biasing applications |
Motorola |
2543 |
MCH5801 |
THIN-FILM CHIP Inductor designed for use in UHF and microwave hybrid circuits for tuning and biasing applications |
Motorola |
2544 |
MCH5802 |
THIN-FILM CHIP Inductor designed for use in UHF and microwave hybrid circuits for tuning and biasing applications |
Motorola |
2545 |
MCH5803 |
THIN-FILM CHIP Inductor designed for use in UHF and microwave hybrid circuits for tuning and biasing applications |
Motorola |
2546 |
MCH5804 |
THIN-FILM CHIP Inductor designed for use in UHF and microwave hybrid circuits for tuning and biasing applications |
Motorola |
2547 |
MCH5805 |
THIN-FILM CHIP Inductor designed for use in UHF and microwave hybrid circuits for tuning and biasing applications |
Motorola |
2548 |
MCP103 |
The MCP103 Series are CMOS voltage supervisors are well suited for many portable and consumer electrics applications due to the extremely ... |
Microchip |
2549 |
MCP111 |
The MCP111/112 Series are CMOS voltage detectors are well suited for portable, consumer electrics applications due to the extremely ... |
Microchip |
2550 |
MCP112 |
The MCP111/112 Series are CMOS voltage detectors are well suited for portable, consumer electrics applications due to the extremely ... |
Microchip |
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