No. |
Part Name |
Description |
Manufacturer |
5611 |
Q62702-C2156 |
NPN Silicon Double Transistors (To be used as a current mirror Good thermal coupling and VBE matching) |
Siemens |
5612 |
Q62702-C2157 |
NPN Silicon Double Transistors (To be used as a current mirror Good thermal coupling and VBE matching) |
Siemens |
5613 |
Q62702-C2158 |
PNP Silicon Double Transistors (To be used as a current mirror Good thermal coupling and VBE matching) |
Siemens |
5614 |
Q62702-C2159 |
PNP Silicon Double Transistors (To be used as a current mirror Good thermal coupling and VBE matching) |
Siemens |
5615 |
Q62702-C2160 |
PNP Silicon Double Transistors (To be used as a current mirror Good thermal coupling and VBE matching) |
Siemens |
5616 |
RE030 |
RE030 is a dual mode Low Drop Out (LDO) voltage regulator macrocell with programmable output voltage ranging from 1.75V to 2.1V, rated for loads up to 180 mA in full power mode and 5 mA in low power mode. It is designed to be integrated wi |
Atmel |
5617 |
S-MX2 |
Microwave mixer, intended to be used in marine radar receiver, doppler radar mixer applications |
TOSHIBA |
5618 |
SN74184 |
BCD TO BINARY AND BINARY TO BCD CONVERTERS |
Texas Instruments |
5619 |
SN74184 |
BCD TO BINARY AND BINARY TO BCD CONVERTERS |
Texas Instruments |
5620 |
STEVAL-ISV008V1 |
300 W PV converter demonstration board to be integrated into a photovoltaic panel based on the SPV1020 |
ST Microelectronics |
5621 |
STEVAL-ISV018V1 |
300 W PV converter to be integrated into a photovoltaic panel based on SPV1020 and bypass diodes SPV1001N30 and SPV1001N40 |
ST Microelectronics |
5622 |
STEVAL-MKI009V1 |
LIS3LV02DL adapter board designed to be plugged into a standard DIL 20 socket |
ST Microelectronics |
5623 |
STEVAL-MKI084V1 |
LPY430AL adapter board designed to be plugged into a standard DIL24 socket |
ST Microelectronics |
5624 |
STEVAL-MKI097V1 |
LPR430AL adapter board designed to be plugged into a standard DIL24 socket |
ST Microelectronics |
5625 |
STEVAL-MKI106V1 |
LSM303DLHC adapter board designed to be plugged into a standard DIL24 socket |
ST Microelectronics |
5626 |
STEVAL-MKI124V1 |
L3GD20, LSM303DLHC and LPS331AP 10-axis module designed to be plugged into a standard DIL 24 socket |
ST Microelectronics |
5627 |
STM3210CPRIM-D |
EvoPrimer components to build your own EvoPrimer for easy evaluation and development with STM32 and STM8 MCUs |
ST Microelectronics |
5628 |
STM3210GPRIM-D |
EvoPrimer components to build your own EvoPrimer for easy evaluation and development with STM32 and STM8 MCUs |
ST Microelectronics |
5629 |
STM3240GPRIM-D |
EvoPrimer components to build your own EvoPrimer for easy evaluation and development with STM32 and STM8 MCUs |
ST Microelectronics |
5630 |
STM3242IPRIM-D |
EvoPrimer components to build your own EvoPrimer for easy evaluation and development with STM32 and STM8 MCUs |
ST Microelectronics |
5631 |
STM32L15PRIM-D |
EvoPrimer components to build your own EvoPrimer for easy evaluation and development with STM32 and STM8 MCUs |
ST Microelectronics |
5632 |
STM8L1526PRIM-D |
EvoPrimer components to build your own EvoPrimer for easy evaluation and development with STM32 and STM8 MCUs |
ST Microelectronics |
5633 |
STMPRIMER |
EvoPrimer components to build your own EvoPrimer for easy evaluation and development with STM32 and STM8 MCUs |
ST Microelectronics |
5634 |
STMPRIMER-BASE |
EvoPrimer components to build your own EvoPrimer for easy evaluation and development with STM32 and STM8 MCUs |
ST Microelectronics |
5635 |
STMPRIMER-EXT |
EvoPrimer components to build your own EvoPrimer for easy evaluation and development with STM32 and STM8 MCUs |
ST Microelectronics |
5636 |
STMPRIMER-PROTO |
EvoPrimer components to build your own EvoPrimer for easy evaluation and development with STM32 and STM8 MCUs |
ST Microelectronics |
5637 |
TA2026 |
UNBLANCED TO BALANCES SIGNAL CONVERTER |
TOSHIBA |
5638 |
TA2026F |
Unbalanced To Balances Signal Converter |
TOSHIBA |
5639 |
TA2026SN |
Unbalanced To Balances Signal Converter |
TOSHIBA |
5640 |
TC4403 |
The TC4403 is a modified version of the TC4425 driver, intended to drive floating or isolated loads requiring high-current pulses. The load is intended to be connected between the outputs without other reference to supply or ground. Then, |
Microchip |
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