No. |
Part Name |
Description |
Manufacturer |
1 |
2N5016 |
UHF Power Generation Using RF Power Transistor - Application Note |
RCA Solid State |
2 |
2N5470 |
UHF Power Generation Using RF Power Transistor - Application Note |
RCA Solid State |
3 |
2N5919 |
UHF Power Generation Using RF Power Transistor - Application Note |
RCA Solid State |
4 |
AN-215 |
RF small signal design using admittance parameters - Application Note |
Motorola |
5 |
AN-215A |
Application Note - RF small signal design using two-port parameters |
Motorola |
6 |
AN-261 |
Transistor logarithmic conversion using an integrated operational amplifier - Application Note |
Motorola |
7 |
AN-3755 |
UHF Power Generation Using RF Power Transistor - Application Note |
RCA Solid State |
8 |
AN-419 |
Application Note - UHF amplifier design using data sheet design curves |
Motorola |
9 |
AN1016 |
ST6 - NOTES ON USING THE ST623XB/ST628XB UART |
SGS Thomson Microelectronics |
10 |
AN1116 |
CHANGING FROM THE ST95P08 TO THE M95080 IN YOUR APPLICATION USING A SIMPLE SOFTWARE RECOGNITION METHOD |
SGS Thomson Microelectronics |
11 |
AN1161 |
POWER-UP, RESET AND BROWN-OUT CONSIDERATIONS WHEN USING FLASH MEMORIES |
SGS Thomson Microelectronics |
12 |
AN1317 |
NON ISOLATED POWER SUPPLIES IN BUCK AND INVERTER CONFIGURATION USING VIPER20 DEVICE |
SGS Thomson Microelectronics |
13 |
AN1342 |
IMPLEMENTING ADDRESS RESOLUTION USING M70X0 NETWORK SEARCH ENGINE TECHNOLOGY IN MULTI-GIGABIT IP NETWORK INTERFACES |
SGS Thomson Microelectronics |
14 |
AN1376 |
25W QUASI-RESONANT FLYBACK CONVERTER FOR SET-TOP BOX APPLICATION USING THE L6565 |
SGS Thomson Microelectronics |
15 |
AN140 |
1 Gb/s Fiber Optic Transmitter Design using Xicor Digitally Controlled Potentiometers (XDCPs) |
Xicor |
16 |
AN1436 |
CHANGING FROM THE ST95010/ST95020 TO THE M95010/M95020 IN YOUR APPLICATION USING A SIMPLE RECOGNITION METHOD |
SGS Thomson Microelectronics |
17 |
AN1523 |
11W FLYBACK CONVERTER FOR AUXILIARY POWER SUPPLY APPLICATION USING THE L6590 |
SGS Thomson Microelectronics |
18 |
AN841 |
ST6 - A CLOCK DESIGN USING THE ST6-REALIZER |
SGS Thomson Microelectronics |
19 |
EB105 |
Application Note - A 30 Watt, 800MHz amplifier design using MRF844 |
Motorola |
20 |
EVL150W-ADP-SR |
12 V - 150 W resonant converter with synchronous rectification using the L6563H, L6599A, and SRK2000 |
ST Microelectronics |
21 |
EVLALTAIR900-M1 |
Double output SMPS for power line application using ALTAIR04-900 primary controller |
ST Microelectronics |
22 |
IRDC3622D |
Dual Output DC-DC Reference Design Using Dual Synchronous Buck Controller |
International Rectifier |
23 |
IRDC3622S |
Current Sharing DC-DC Reference Design Using Dual Synchronous Buck Controller |
International Rectifier |
24 |
IRDC3629 |
Reference Design Using the IR3629 which is a PWM controller designed for high performance synchronous Buck DC/DC applications. |
International Rectifier |
25 |
IRDC3629A |
Reference Design Using the IR3629A which is a PWM controller designed for high performance synchronous Buck DC/DC applications. |
International Rectifier |
26 |
NVP3000 |
ASIC Solution for 1-channel DVR application using HDD |
etc |
27 |
RPY51 |
Infrared photoconductive detector, indium antimonide detector for 77K operation using liquid N2 or miniature Joule-Thompson coolers |
Mullard |
28 |
RPY52 |
Infrared photoconductive detector, indium antimonide detector for 77K operation using liquid N2 or miniature Joule-Thompson coolers |
Mullard |
29 |
RPY56 |
Infrared photoconductive detector, indium antimonide detector for 77K operation using liquid N2 or miniature Joule-Thompson coolers |
Mullard |
30 |
STEVAL-ISA143V1 |
12 V - 150 W resonant converter with synchronous rectification using the L6563H, L6699 and SRK2000 |
ST Microelectronics |
| | | |