| No. |
Part Name |
Description |
Manufacturer |
| 361 |
AT24C16A |
2/4/8/16K, 2-Wire Bus Serial EEPROM. Utilizes different Array Protection compared to the AT24C02/04/08 |
Atmel |
| 362 |
BA723 |
βA723 Voltage stabilizer |
IPRS Baneasa |
| 363 |
BA723C |
βA723C Voltage stabilizer |
IPRS Baneasa |
| 364 |
BF1005 |
Silicon N-Channel MOSFET Tetrode (For low noise, high gain controlled input stages up to 1GHz Operating voltage 5V Integrated stabilized bias network) |
Siemens |
| 365 |
BF1005S |
Silicon N-Channel MOSFET Tetrode (For low noise, high gain controlled input stages up to 1GHz Operating voltage 5V Integrated stabilized bias network) |
Siemens |
| 366 |
BF1009 |
Silicon N-Channel MOSFET Tetrode (For low noise, high gain controlled input stages up to 1GHz Operating voltage 9 V Integrated stabilized bias network |
Siemens |
| 367 |
BF1012 |
Silicon N-Channel MOSFET Tetrode (For low noise, high gain controlled input stages up to 1GHz Operating voltage 12V Integrated stabilized bias network |
Siemens |
| 368 |
BF1012S |
Silicon N-Channel MOSFET Tetrode (For low noise, high gain controlled input stages up to 1GHz Operating voltage 5V Integrated stabilized bias network) |
Siemens |
| 369 |
BFR94 |
NPN resistance-stabilizer transistor in a SOT-48 capstan envelope, very low cross modulation, intermodulation and second harmonic distortion |
Philips |
| 370 |
BFR95 |
NPN resistance stabilized transistor in a TO-39 metal anvelope |
Philips |
| 371 |
BWD |
Aluminum Housed Wirewound Resistors, Anodized aluminum casing to utilize heat-sink effect, Self-protecting, Short circuit proof, Protection according to IP 54 |
Vishay |
| 372 |
CW20P |
CW20P-Type CW Tunable, Wavelength-Stabilized Laser Module |
Agere Systems |
| 373 |
CW22P21 |
CW20P-Type CW Tunable, Wavelength-Stabilized Laser Module |
Agere Systems |
| 374 |
CW22P31 |
CW20P-Type CW Tunable, Wavelength-Stabilized Laser Module |
Agere Systems |
| 375 |
CW22P41 |
CW20P-Type CW Tunable, Wavelength-Stabilized Laser Module |
Agere Systems |
| 376 |
CW22P51 |
CW20P-Type CW Tunable, Wavelength-Stabilized Laser Module |
Agere Systems |
| 377 |
CW22P61 |
CW20P-Type CW Tunable, Wavelength-Stabilized Laser Module |
Agere Systems |
| 378 |
CW22P871 |
CW20P-Type CW Tunable, Wavelength-Stabilized Laser Module |
Agere Systems |
| 379 |
CW22P881 |
CW20P-Type CW Tunable, Wavelength-Stabilized Laser Module |
Agere Systems |
| 380 |
CW22P891 |
CW20P-Type CW Tunable, Wavelength-Stabilized Laser Module |
Agere Systems |
| 381 |
CW22P901 |
CW20P-Type CW Tunable, Wavelength-Stabilized Laser Module |
Agere Systems |
| 382 |
CW22P911 |
CW20P-Type CW Tunable, Wavelength-Stabilized Laser Module |
Agere Systems |
| 383 |
DME150 |
150 W, 50 V all devices utilize the most advanced design and process technologies, there features provide the most consistent and reliable chip |
Acrian |
| 384 |
DME150-2 |
150 W, 50 V all devices utilize the most advanced design and process technologies, there features provide the most consistent and reliable chip |
Acrian |
| 385 |
DME150-3 |
150 W, 50 V all devices utilize the most advanced design and process technologies, there features provide the most consistent and reliable chip |
Acrian |
| 386 |
DME500 |
500 W, 50 V all devices utilize the most advanced design and process technologies, there features provide the most consistent and reliable chip |
Acrian |
| 387 |
DME500-2 |
500 W, 50 V all devices utilize the most advanced design and process technologies, there features provide the most consistent and reliable chip |
Acrian |
| 388 |
DME500-3 |
500 W, 50 V all devices utilize the most advanced design and process technologies, there features provide the most consistent and reliable chip |
Acrian |
| 389 |
DMEG250 |
250 W, 50 V all devices utilize the most advanced design and process technologies, there features provide the most consistent and reliable chip |
Acrian |
| 390 |
DMEG250-2 |
250 W, 50 V all devices utilize the most advanced design and process technologies, there features provide the most consistent and reliable chip |
Acrian |
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