No. |
Part Name |
Description |
Manufacturer |
361 |
MCR729-5 |
Fast-switching, high-voltage silicon controlled rectifiers especially designed and characterized for radar, proximity fuse, beacon and similar pulse applications |
Motorola |
362 |
MCR729-6 |
Fast-switching, high-voltage silicon controlled rectifiers especially designed and characterized for radar, proximity fuse, beacon and similar pulse applications |
Motorola |
363 |
MCR729-7 |
Fast-switching, high-voltage silicon controlled rectifiers especially designed and characterized for radar, proximity fuse, beacon and similar pulse applications |
Motorola |
364 |
MCR729-8 |
Fast-switching, high-voltage silicon controlled rectifiers especially designed and characterized for radar, proximity fuse, beacon and similar pulse applications |
Motorola |
365 |
MCR729-9 |
Fast-switching, high-voltage silicon controlled rectifiers especially designed and characterized for radar, proximity fuse, beacon and similar pulse applications |
Motorola |
366 |
MCRF202 |
The MCRF202 is a passive Radio Frequency Identification (RFID) IC device with an external sensor Input that provides an RF interface for reading the contents of a user memory array. The MCRF202 is specially designed to detect the logic sta |
Microchip |
367 |
MD3250 |
Dual PNP silicon annular transistors, especially designed for low-level, differential amplifier applications |
Motorola |
368 |
MD3250A |
Dual PNP silicon annular transistors, especially designed for low-level, differential amplifier applications |
Motorola |
369 |
MD3250AF |
Dual PNP silicon annular transistors, especially designed for low-level, differential amplifier applications |
Motorola |
370 |
MD3250F |
Dual PNP silicon annular transistors, especially designed for low-level, differential amplifier applications |
Motorola |
371 |
MD3251 |
Dual PNP silicon annular transistors, especially designed for low-level, differential amplifier applications |
Motorola |
372 |
MD3251A |
Dual PNP silicon annular transistors, especially designed for low-level, differential amplifier applications |
Motorola |
373 |
MD3251AF |
Dual PNP silicon annular transistors, especially designed for low-level, differential amplifier applications |
Motorola |
374 |
MD3251F |
Dual PNP silicon annular transistors, especially designed for low-level, differential amplifier applications |
Motorola |
375 |
MH3ST2 |
A special Schmitt flip-flop |
Tesla Elektronicke |
376 |
MMC382 |
Binary/Decimal special divider for frequency synthesis |
Microelectronica |
377 |
MMC382 |
Special decade divider for frequency synthesiser |
Microelectronica |
378 |
MMC382E |
Binary/Decimal special divider for frequency synthesis |
Microelectronica |
379 |
MMC382F |
Binary/Decimal special divider for frequency synthesis |
Microelectronica |
380 |
MMC382G |
Binary/Decimal special divider for frequency synthesis |
Microelectronica |
381 |
MMC382H |
Binary/Decimal special divider for frequency synthesis |
Microelectronica |
382 |
MMC383 |
Binary/Decimal special divider for frequency synthesis |
Microelectronica |
383 |
MMC383 |
Special binary divider for frequency synthesiser |
Microelectronica |
384 |
MMC383E |
Binary/Decimal special divider for frequency synthesis |
Microelectronica |
385 |
MMC383F |
Binary/Decimal special divider for frequency synthesis |
Microelectronica |
386 |
MMC383G |
Binary/Decimal special divider for frequency synthesis |
Microelectronica |
387 |
MMC383H |
Binary/Decimal special divider for frequency synthesis |
Microelectronica |
388 |
MODEL 172 |
36,5mm Special Single-turn |
Vishay |
389 |
MODEL 202 |
44,5mm Special, Single-turn |
Vishay |
390 |
MODEL 802 |
46mm Special, Multi-turn |
Vishay |
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