No. |
Part Name |
Description |
Manufacturer |
31 |
LT3465AES6#TRMPBF |
1.2MHz White LED Step-Up Converters with Built-In Schottky in ThinSOT |
Linear Technology |
32 |
LT3465AES6#TRPBF |
1.2MHz White LED Step-Up Converters with Built-In Schottky in ThinSOT |
Linear Technology |
33 |
LT3465ES6 |
1.2MHz/2.4MHz White LED Step-Up Converters with Built-In Schottky in ThinSOT |
Linear Technology |
34 |
LT3465ES6#PBF |
1.2MHz White LED Step-Up Converters with Built-In Schottky in ThinSOT |
Linear Technology |
35 |
LT3465ES6#TR |
1.2MHz White LED Step-Up Converters with Built-In Schottky in ThinSOT |
Linear Technology |
36 |
LT3465ES6#TRM |
1.2MHz White LED Step-Up Converters with Built-In Schottky in ThinSOT |
Linear Technology |
37 |
LT3465ES6#TRMPBF |
1.2MHz White LED Step-Up Converters with Built-In Schottky in ThinSOT |
Linear Technology |
38 |
LT3465ES6#TRPBF |
1.2MHz White LED Step-Up Converters with Built-In Schottky in ThinSOT |
Linear Technology |
39 |
LT3593 |
1MHz White LED Driver with Output Disconnect and One Pin Current Programming |
Linear Technology |
40 |
LT3593EDC#PBF |
1MHz White LED Driver with Output Disconnect and One Pin Current Programming |
Linear Technology |
41 |
LT3593EDC#TRMPBF |
1MHz White LED Driver with Output Disconnect and One Pin Current Programming |
Linear Technology |
42 |
LT3593EDC#TRPBF |
1MHz White LED Driver with Output Disconnect and One Pin Current Programming |
Linear Technology |
43 |
LT3593ES6#TRMPBF |
1MHz White LED Driver with Output Disconnect and One Pin Current Programming |
Linear Technology |
44 |
LT3593ES6#TRPBF |
1MHz White LED Driver with Output Disconnect and One Pin Current Programming |
Linear Technology |
45 |
LTM9013 |
300MHz Wideband Receiver |
Linear Technology |
46 |
LTM9013CY-AA#PBF |
300MHz Wideband Receiver |
Linear Technology |
47 |
LTM9013IY-AA#PBF |
300MHz Wideband Receiver |
Linear Technology |
48 |
MAX435 |
250MHz Wideband Transconductance Amplifier with Differential Output |
MAXIM - Dallas Semiconductor |
49 |
MAX435CSD+ |
250MHz Wideband Transconductance Amplifier with Differential Output |
MAXIM - Dallas Semiconductor |
50 |
MAX435ESD+ |
250MHz Wideband Transconductance Amplifier with Differential Output |
MAXIM - Dallas Semiconductor |
51 |
MAX435ESD+T |
250MHz Wideband Transconductance Amplifier with Differential Output |
MAXIM - Dallas Semiconductor |
52 |
MAX436 |
250MHz Wideband Transconductance Amplifier with Differential Output |
MAXIM - Dallas Semiconductor |
53 |
MAX436CSD+ |
250MHz Wideband Transconductance Amplifier with Differential Output |
MAXIM - Dallas Semiconductor |
54 |
MAX436CSD+T |
250MHz Wideband Transconductance Amplifier with Differential Output |
MAXIM - Dallas Semiconductor |
55 |
MAX436ESD+ |
250MHz Wideband Transconductance Amplifier with Differential Output |
MAXIM - Dallas Semiconductor |
56 |
MAX436ESD-T |
250MHz Wideband Transconductance Amplifier with Differential Output |
MAXIM - Dallas Semiconductor |
57 |
MCP6001 |
The MCP6001 is a single general purpose op amp offering rail to rail input & output over the 1.8 to 5.5V operating range. This amplifier has a typical GBWP of 1 MHz with typical quiescent current of 100 microamperes. The MCP6001 is ava |
Microchip |
58 |
MCP6002 |
The MCP6002 is a dual general purpose op amp offering rail to rail input & output over the 1.8 to 5.5V operating range. This amplifier has a typical GBWP of 1 MHz with typical quiescent current of 100 microamperes. The MCP6002 is avail |
Microchip |
59 |
MCP6004 |
The MCP6004 is a quad general purpose op amp offering rail-to-rail input and output over the 1.8 to 5.5V operating range. This amplifier has a typical GBWP of 1 MHz with typical quiescent current of 100 microamperes. The MCP6004 is availab |
Microchip |
60 |
MCP601 |
The MCP601 operational amplifier (op amp) has a gain bandwidth product of 2.8 MHz with low typical operating current of 230 �A and an offset voltage that is less than 2 mV. The MCP601 uses Microchip's advanced CMOS technology, which provid |
Microchip |
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