No. |
Part Name |
Description |
Manufacturer |
721 |
MM1385JN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
722 |
MM1385KN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
723 |
MM1385LN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
724 |
MM1385MN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
725 |
MM1385NN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
726 |
MM1385PN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
727 |
MM1385RN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
728 |
MM1385SN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
729 |
MM1385TN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
730 |
MM1385UN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
731 |
MM1385VN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
732 |
MM1385WN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
733 |
MM1385XN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
734 |
MM1385YN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
735 |
MM1385ZN |
Microminiature low-power consumption low-saturation regulator |
Mitsumi Electric |
736 |
MPC821PWR |
MPC821 Power Consumption |
Motorola |
737 |
MPC823PWR |
MPC823 Power Consumption |
Motorola |
738 |
MSD6150 |
Silicon epitaxial dual diode designed for consumer applications |
Motorola |
739 |
PCA8885TS |
Capacitive 8-channel touch and proximity sensor with auto-calibration and very low power consumption |
NXP Semiconductors |
740 |
PD-16A040 |
16 Character, 16 Segment Alphanumeric Display with .400"" [10.16mm] High Characters, 50 Foot Lamberts Brightness, Designed for Multiplexed Operation, Edgeboard Connection, Low Power Consumption |
Vishay |
741 |
PIC18F1220 |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption as low as 0.1 microamps in standby mode and a wide operating voltage range from 2- to 5.5-volts which ma |
Microchip |
742 |
PIC18F1220-E/ML |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
743 |
PIC18F1220-E/P |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
744 |
PIC18F1220-E/SO |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
745 |
PIC18F1220-E/SS |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
746 |
PIC18F1220-I/ML |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
747 |
PIC18F1220-I/P |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
748 |
PIC18F1220-I/SO |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
749 |
PIC18F1220-I/SS |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
750 |
PIC18F1220T-I/ML |
This microcontroller has nanoWatt Technology, which features six enhanced power-managed "software controlled" modes, power consumption ... |
Microchip |
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