| No. |
Part Name |
Description |
Manufacturer |
| 1 |
24LC21A |
The 24LC21A is a 128 x 8-bit dual-mode Serial Electrically Erasable PROM designed to meet the plug-and-play requirements of today’s advanced monitors. The 24LC21A represents a simple, low-cost route to meeting the stringent standards |
Microchip |
| 2 |
24LCS21 |
The 24LCS21 is a 128 x 8-bit dual-mode Serial Electrically Erasable PROM designed to meet the plug-and-play requirements of today’s advanced monitors. The 24LCS21 represents a simple, low-cost route to meeting the stringent standards |
Microchip |
| 3 |
AN1287 |
DRIVING THE VB409 WHEN A TRANSFORMER IS PRESENT |
SGS Thomson Microelectronics |
| 4 |
BLW95 |
HF Power NPN Transistor, presents excellent performance as a linear amplifier in SSB applications |
Philips |
| 5 |
BQ24010 |
bqTINY(TM) Linear, 1-cell (4.2V) Li-Ion Charger w/ 1-A FET, AC Present and Temp. Sense in QFN/MLP-10 |
Texas Instruments |
| 6 |
BQ24010DRCR |
bqTINY(TM) Linear, 1-cell (4.2V) Li-Ion Charger w/ 1-A FET, AC Present and Temp. Sense in QFN/MLP-10 |
Texas Instruments |
| 7 |
BQ24010DRCRG4 |
bqTINY(TM) Linear, 1-cell (4.2V) Li-Ion Charger w/ 1-A FET, AC Present and Temp. Sense in QFN/MLP-10 |
Texas Instruments |
| 8 |
BQ24012 |
bqTINY(TM) Linear, 1-cell (4.2V) Li-Ion Charger w/ 1-A FET, AC Present & Charge Enable in QFN/MLP-10 |
Texas Instruments |
| 9 |
BQ24012DRCR |
bqTINY(TM) Linear, 1-cell (4.2V) Li-Ion Charger w/ 1-A FET, AC Present & Charge Enable in QFN/MLP-10 |
Texas Instruments |
| 10 |
BQ24012DRCRG4 |
bqTINY(TM) Linear, 1-cell (4.2V) Li-Ion Charger w/ 1-A FET, AC Present & Charge Enable in QFN/MLP-10 |
Texas Instruments |
| 11 |
BQ24027 |
bqTINY-II Dual Input USB/AC Adpater 1-Cell Li-Ion Charger w/Charge Enable & AC Present, No Taper |
Texas Instruments |
| 12 |
BQ24027DRCR |
bqTINY-II Dual Input USB/AC Adpater 1-Cell Li-Ion Charger w/Charge Enable & AC Present, No Taper 10-VSON -40 to 85 |
Texas Instruments |
| 13 |
BQ24080 |
1-cell Li-Ion Charger w/ 1-A FET, AC Present and Charge Enable |
Texas Instruments |
| 14 |
BQ24080DRCR |
1-cell Li-Ion Charger w/ 1-A FET, AC Present and Charge Enable 10-VSON -40 to 85 |
Texas Instruments |
| 15 |
BQ24080DRCRG4 |
1-cell Li-Ion Charger w/ 1-A FET, AC Present and Charge Enable 10-VSON -40 to 85 |
Texas Instruments |
| 16 |
BQ24080DRCT |
1-cell Li-Ion Charger w/ 1-A FET, AC Present and Charge Enable 10-VSON -40 to 85 |
Texas Instruments |
| 17 |
BQ24080DRCTG4 |
1-cell Li-Ion Charger w/ 1-A FET, AC Present and Charge Enable 10-VSON -40 to 85 |
Texas Instruments |
| 18 |
PACKAGES |
A Complete presentation of CML's Package Styles (plus Despatch Packaging) in One PDF File Tape and Reel info updated |
CONSUMER MICROCIRCUITS LIMITED |
| 19 |
PRESENTATION |
AMD�s Next Generation Microprocessor Architecture |
Advanced Micro Devices |
| 20 |
SC5388 |
5-11V 5-mode present equalizer IC |
Silan Semiconductors |
| 21 |
SC5388S |
5-11V 5-mode present equalizer IC |
Silan Semiconductors |
| 22 |
SC5389 |
5-9V 5-mode present equalizer IC with bass booster & 3D effects |
Silan Semiconductors |
| 23 |
SC5389S |
5-9V 5-mode present equalizer IC with bass booster & 3D effects |
Silan Semiconductors |
| 24 |
TC1016 |
The TC1016 is a high accuracy (typically ±0.5%) CMOS upgrade for bipolar low dropout regulators. It is offered in an SC-70 package, which represents 50% reduced footprint vs. the widely used SOT-23 package.Designed specifically for ba |
Microchip |
| 25 |
TC1017 |
The TC1017 is a high accuracy (typically �0.5%) CMOS upgrade for bipolar low dropout regulators. It is offered in an SC-70 package, which represents 50% reduced footprint vs. the widely used SOT-23 package.Designed specifically for battery |
Microchip |
| 26 |
TC7650 |
The TC7650 CMOS chopper-stabilized operational amplifier practically removes offset voltage error terms from system error calculations. The 5V maximum VOS specification, for example, represents a 15 times improvement over the industry-stan |
Microchip |
| 27 |
TC7652 |
The TC7652 is a lower noise version of the TC7650, sacrificing some input specifications (bias current and bandwidth)to achieve a 10x reduction in noise.All the other benefits of the chopper technique are present,i.e.freedom from offset ad |
Microchip |
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