No. |
Part Name |
Description |
Manufacturer |
1981 |
LM2614ATLX |
400mA Sub-Miniature Adjustable DC-DC Converter Optimized for RF Power Amplifiers |
National Semiconductor |
1982 |
LM2614BTL |
400mA Sub-Miniature Adjustable DC-DC Converter Optimized for RF Power Amplifiers |
National Semiconductor |
1983 |
LM2614BTLX |
400mA Sub-Miniature Adjustable DC-DC Converter Optimized for RF Power Amplifiers |
National Semiconductor |
1984 |
LM2630MTC-ADJ |
Synchronous Step-Down Voltage Regulator [Not recommended for new designs] |
National Semiconductor |
1985 |
LM2630MTCX-ADJ |
Synchronous Step-Down Voltage Regulator [Not recommended for new designs] |
National Semiconductor |
1986 |
LM2631MTC-ADJ |
Synchronous Step-Down Voltage Regulator [Not recommended for new designs] |
National Semiconductor |
1987 |
LM2631MTCX-ADJ |
Synchronous Step-Down Voltage Regulator [Not recommended for new designs] |
National Semiconductor |
1988 |
LM2635M |
5-Bit Programmable Synchronous Buck Regulator Controller [Not recommended for new designs] |
National Semiconductor |
1989 |
LM2635MX |
5-Bit Programmable Synchronous Buck Regulator Controller [Not recommended for new designs] |
National Semiconductor |
1990 |
LM4130AIM5-2.5 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
1991 |
LM4130AIM5-4.1 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
1992 |
LM4130AIM5X-2.5 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
1993 |
LM4130AIM5X-4.1 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
1994 |
LM4130BIM5-2.5 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
1995 |
LM4130BIM5-4.1 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
1996 |
LM4130BIM5X-2.5 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
1997 |
LM4130BIM5X-4.1 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
1998 |
LM4130CIM5-2.5 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
1999 |
LM4130CIM5-4.1 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
2000 |
LM4130CIM5X-2.5 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
2001 |
LM4130CIM5X-4.1 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
2002 |
LM4130DIM5-2.5 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
2003 |
LM4130DIM5-4.1 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
2004 |
LM4130DIM5X-2.5 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
2005 |
LM4130DIM5X-4.1 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
2006 |
LM4130EIM5-2.5 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
2007 |
LM4130EIM5-4.1 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
2008 |
LM4130EIM5X-2.5 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
2009 |
LM4130EIM5X-4.1 |
Precision Micropower Low Dropout Voltage Reference <BR>[Not recommended for new designs] |
National Semiconductor |
2010 |
LMF |
Conductive Plastic Motion Transducer Elements, Reduced Bulk, Designed for Easy Integration, High Accuracy, Long Life, Simple and Flexible Mounting, Essentially Infinite Resolution |
Vishay |
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