No. |
Part Name |
Description |
Manufacturer |
601 |
R1LP0408C |
Wide Temperature Range Version 4 M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
602 |
R1LP0408CSB-5SI |
Wide Temperature Range Version 4 M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
603 |
R1LP0408CSB-7LI |
Wide Temperature Range Version 4 M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
604 |
R1LP0408CSC-5SI |
Wide Temperature Range Version 4 M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
605 |
R1LP0408CSC-7LI |
Wide Temperature Range Version 4 M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
606 |
R1LP0408CSP-5SI |
Wide Temperature Range Version 4 M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
607 |
R1LP0408CSP-7LI |
Wide Temperature Range Version 4 M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
608 |
R1LV0408CSA-5SI |
Wide Temperature Range Version 4M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
609 |
R1LV0408CSA-7LI |
Wide Temperature Range Version 4M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
610 |
R1LV0408CSB-5SI |
Wide Temperature Range Version 4M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
611 |
R1LV0408CSB-7LI |
Wide Temperature Range Version 4M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
612 |
R1LV0408CSP-5SI |
Wide Temperature Range Version 4M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
613 |
REJ03C0098_R1LV0408C |
Wide Temperature Range Version 4M SRAM (512-kword 8-bit) |
Hitachi Semiconductor |
614 |
SR1620C |
Schottky barrier rectifier. Max recurrent peak reverse voltage 20V, max RMS voltage 14V, max DC blocking voltage 20V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
615 |
SR1630C |
Schottky barrier rectifier. Max recurrent peak reverse voltage 30V, max RMS voltage 21V, max DC blocking voltage 30V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
616 |
SR1635C |
Schottky barrier rectifier. Max recurrent peak reverse voltage 35V, max RMS voltage 25V, max DC blocking voltage 35V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
617 |
SR1640C |
Schottky barrier rectifier. Max recurrent peak reverse voltage 40V, max RMS voltage 28V, max DC blocking voltage 40V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
618 |
SR1645CS |
Schottky barrier rectifier. Max recurrent peak reverse voltage 45V, max RMS voltage 32V, max DC blocking voltage 45V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
619 |
SR1650C |
Schottky barrier rectifier. Max recurrent peak reverse voltage 50V, max RMS voltage 35V, max DC blocking voltage 50V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
620 |
SR1660C |
Schottky barrier rectifier. Max recurrent peak reverse voltage 60V, max RMS voltage 42V, max DC blocking voltage 60V. Max average forward recftified current 16.0A at derating case temperature |
Rectron Semiconductor |
621 |
STEVAL-IFS017V1 |
Multiple-device temperature sensor and RTC demonstration board based on the STM32 |
ST Microelectronics |
622 |
STTS2002 |
2.3 V memory module temperature sensor with a 2 Kb SPD EEPROM |
ST Microelectronics |
623 |
STTS2002B2DN3F |
2.3 V memory module temperature sensor with a 2 Kb SPD EEPROM |
ST Microelectronics |
624 |
STTS2004 |
2.2 V memory module temperature sensor with a 4 Kb SPD EEPROM |
ST Microelectronics |
625 |
STTS2004B2DN3F |
2.2 V memory module temperature sensor with a 4 Kb SPD EEPROM |
ST Microelectronics |
626 |
STTS3000 |
2.3 V memory module temperature sensor |
ST Microelectronics |
627 |
STTS3000B2DN3F |
2.3 V memory module temperature sensor |
ST Microelectronics |
628 |
SVR12A |
Silicon Voltage Reference Diode temperature compensated 12.6V |
Transitron Electronic |
629 |
SVR12B |
Silicon Voltage Reference Diode temperature compensated 12.6V |
Transitron Electronic |
630 |
SVR12C |
Silicon Voltage Reference Diode temperature compensated 12.6V |
Transitron Electronic |
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