No. |
Part Name |
Description |
Manufacturer |
91 |
MAX3019EUP |
+1.2 to +3.6 V, 100 Mbps, 0.1 mA, 8-channel level translator |
MAXIM - Dallas Semiconductor |
92 |
MAX3020EBP-T |
+1.2 to +3.6 V, 100 Mbps, 0.1 mA, 8-channel level translator |
MAXIM - Dallas Semiconductor |
93 |
MAX3020EGP |
+1.2 to +3.6 V, 100 Mbps, 0.1 mA, 8-channel level translator |
MAXIM - Dallas Semiconductor |
94 |
MAX3020EUP |
+1.2 to +3.6 V, 100 Mbps, 0.1 mA, 8-channel level translator |
MAXIM - Dallas Semiconductor |
95 |
MAX3021EBP-T |
+1.2 to +3.6 V, 100 Mbps, 0.1 mA, 8-channel level translator |
MAXIM - Dallas Semiconductor |
96 |
MAX3021EGP |
+1.2 to +3.6 V, 100 Mbps, 0.1 mA, 8-channel level translator |
MAXIM - Dallas Semiconductor |
97 |
MAX3021EUP |
+1.2 to +3.6 V, 100 Mbps, 0.1 mA, 8-channel level translator |
MAXIM - Dallas Semiconductor |
98 |
MAX3022EBP-T |
+1.2 to +3.6 V, 100 Mbps, 0.1 mA, 8-channel level translator |
MAXIM - Dallas Semiconductor |
99 |
MAX3022EGP |
+1.2 to +3.6 V, 100 Mbps, 0.1 mA, 8-channel level translator |
MAXIM - Dallas Semiconductor |
100 |
MAX3022EUP |
+1.2 to +3.6 V, 100 Mbps, 0.1 mA, 8-channel level translator |
MAXIM - Dallas Semiconductor |
101 |
NCS2530 |
Triple 1.1 mA 200 MHz Current Feedback Op Amp with Enable Feature |
ON Semiconductor |
102 |
NCS2530DTB |
Triple 1.1 mA 200 MHz Current Feedback Op Amp with Enable Feature |
ON Semiconductor |
103 |
NCS2530DTBR2 |
Triple 1.1 mA 200 MHz Current Feedback Op Amp with Enable Feature |
ON Semiconductor |
104 |
NCV896530 |
2.1 MHz Low Voltage Dual Output Buck Converter |
ON Semiconductor |
105 |
NVD5863NL |
Power MOSFET, 60 V, 82 A, 7.1 mΩ, Single N-Channel |
ON Semiconductor |
106 |
P5DF081X0 |
MIFARE SAM AV2 or AV2.6, PCM1.1 module |
NXP Semiconductors |
107 |
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 |
108 |
PIC18F1320 |
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 |
109 |
PSMN012-60YS |
N-channel LFPAK 60 V, 11.1 mΩ standard level MOSFET |
Nexperia |
110 |
PSMN012-60YS |
N-channel LFPAK 60 V, 11.1 mΩ standard level MOSFET |
NXP Semiconductors |
111 |
PSMN020-30MLC |
N-channel 30 V 18.1 mΩ logic level MOSFET in LFPAK33 using TrenchMOS Technology |
Nexperia |
112 |
PSMN020-30MLC |
N-channel 30 V 18.1 mΩ logic level MOSFET in LFPAK33 using TrenchMOS Technology |
NXP Semiconductors |
113 |
PSMN1R0-40ULD |
N-channel 40 V, 1.1 mΩ, 280 A logic level MOSFET in SOT1023A enhanced package for UL2595, using NextPower-S3 Schottky-Plus technology |
Nexperia |
114 |
PSMN1R0-40YLD |
N-channel 40 V, 1.1 mΩ, 280 A logic level MOSFET in LFPAK56 using NextPower-S3 Schottky-Plus technology |
Nexperia |
115 |
PSMN2R0-25MLD |
N-channel 25 V, 2.1 mΩ logic level MOSFET in LFPAK33 using NextPowerS3 Technology |
Nexperia |
116 |
PSMN2R0-30BL |
N-channel 30 V 2.1 mΩ logic level MOSFET in D2PAK |
Nexperia |
117 |
PSMN2R0-30BL |
N-channel 30 V 2.1 mΩ logic level MOSFET in D2PAK |
NXP Semiconductors |
118 |
PSMN2R0-30PL |
N-channel 30 V 2.1 mΩ logic level MOSFET |
Nexperia |
119 |
PSMN2R0-30PL |
N-channel 30 V 2.1 mΩ logic level MOSFET |
NXP Semiconductors |
120 |
PSMN2R0-40YLD |
N-channel 40 V, 2.1 mΩ, 120 A logic level MOSFET in LFPAK56 using NextPower-S3 Schottky-Plus technology |
Nexperia |
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