| No. |
Part Name |
Description |
Manufacturer |
| 151 |
AIC1573CS |
5-bit DAC, Synchronous PWM Power Regulator with Simple PWM Power Regulator, LDO And Linear Controller |
Analog Integrations Corporation |
| 152 |
AIC1580 |
Simple PWM Power Regulator with Shutdown |
Analog Integrations Corporation |
| 153 |
AIC1580CN |
Simple PWM Power Regulator with Shutdown |
Analog Integrations Corporation |
| 154 |
AIC1580CS |
Simple PWM Power Regulator with Shutdown |
Analog Integrations Corporation |
| 155 |
AIC1580L |
Simple PWM Power Regulator with Shutdown |
Analog Integrations Corporation |
| 156 |
AIC1580LCN |
Simple PWM Power Regulator with Shutdown |
Analog Integrations Corporation |
| 157 |
AIC1580LCS |
Simple PWM Power Regulator with Shutdown |
Analog Integrations Corporation |
| 158 |
AM79C987 |
Hardware Implemented Management Information Base (HIMIB) Device |
Advanced Micro Devices |
| 159 |
AM79C987JC |
Hardware Implemented Management Information Base (HIMIB) Device |
Advanced Micro Devices |
| 160 |
AM79C987JCB |
Hardware Implemented Management Information Base (HIMIB) Device |
Advanced Micro Devices |
| 161 |
AN-459 |
A simple technique for extending OP AMP power bandwidth - Application Note |
Motorola |
| 162 |
AN-53 |
Implementing an RC5051 DC-DC Converter on Pentium II Motherboards |
Fairchild Semiconductor |
| 163 |
AN1045 |
ST7 - S/W IMPLEMENTATION OF I2C BUS MASTER |
SGS Thomson Microelectronics |
| 164 |
AN1078 |
ST7 PWM DUTY CYCLE SWITCH IMPLEMENTING TRUE 0% & 100% DUTY CYCLE |
SGS Thomson Microelectronics |
| 165 |
AN1116 |
CHANGING FROM THE ST95P08 TO THE M95080 IN YOUR APPLICATION USING A SIMPLE SOFTWARE RECOGNITION METHOD |
SGS Thomson Microelectronics |
| 166 |
AN1180 |
USB - USING THE ST7263 KIT TO IMPLEMENT A USB GAME PAD |
SGS Thomson Microelectronics |
| 167 |
AN1216 |
IMPLEMENTING A PERIODIC ALARM WITH TIMEKEEPER |
SGS Thomson Microelectronics |
| 168 |
AN1221 |
A SIMPLE METHOD TO DRIVE A TRIAC WITH ST52X420 DIRECTLY FROM THE MAIN |
SGS Thomson Microelectronics |
| 169 |
AN1342 |
IMPLEMENTING ADDRESS RESOLUTION USING M70X0 NETWORK SEARCH ENGINE TECHNOLOGY IN MULTI-GIGABIT IP NETWORK INTERFACES |
SGS Thomson Microelectronics |
| 170 |
AN1436 |
CHANGING FROM THE ST95010/ST95020 TO THE M95010/M95020 IN YOUR APPLICATION USING A SIMPLE RECOGNITION METHOD |
SGS Thomson Microelectronics |
| 171 |
AN1501 |
ST6 - SIMPLE MICROCONTROLLED BALLAST |
SGS Thomson Microelectronics |
| 172 |
AN1537 |
A SIMPLE TRICK ENHANCES L5991 STANDBY FUNCTION |
SGS Thomson Microelectronics |
| 173 |
AN187 |
Using the EP72/7312 to Implement a Softmodem |
Cirrus Logic |
| 174 |
AN731 |
Simple Solution for Dynamically Programming the Output Voltage of DC-DC Converters |
Vishay |
| 175 |
AN810 |
A Simple Solution for Switching Multiple Power Sources in Notebook Computers |
Vishay |
| 176 |
AN86 |
Guidelines for Implementing Low-Cost Ethernet on the Motherboard |
Cirrus Logic |
| 177 |
AN912 |
MCUS - A SIMPLE GUIDE TO DEVELOPMENT TOOLS |
SGS Thomson Microelectronics |
| 178 |
AN980 |
ST7 - KEYPAD DECODING TECHNIQUES, IMPLEMENTING WAKE-UP ON KEYSTROKE |
SGS Thomson Microelectronics |
| 179 |
AT697E |
The AT697E is a highly-integrated, high-performance 32-bit RISC embedded processor implementing the SPARC architecture V8 specification. The implementation is based on the European Space Agency (ESA) LEON2 fault tolerant model. |
Atmel |
| 180 |
AT697E |
The AT697E is a highly-integrated, high-performance 32-bit RISC embedded processor implementing the SPARC architecture V8 specification. The implementation is based on the European Space Agency (ESA) LEON2 fault tolerant model. |
Atmel |
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