Model |
Manufacturers |
lot number |
encapsulation |
illustrate |
DS34RT5110TSQE |
NXP |
10+ |
48-LLP |
DVI, HDMI input equalization and output de-emphasis retimer |
DS22EV5110SQ |
NXP |
10+ |
LLP |
DVI, HDMI Extended Reach Equalizer with Retimer and Output De-Emphasis |
DS22EV5110SQX |
NXP |
11+ |
SO |
DVI, HDMI extension for equalization and retimer |
DS22EV5110SQE |
NXP |
11+ |
QFN48 |
DVI, HDMI extension for equalization and retimer |
LMP7717MAE |
NXP |
10+ |
SOP8 |
88 MHz, precision, low noise, 1.8V CMOS input, decompensated operational amplifier |
LMP7717MF |
NXP |
11+ |
SOT23-5 |
88 MHz, precision, low noise, 1.8V CMOS input, decompensated operational amplifier |
LMP7717MFX |
NXP |
11+ |
SOT23-5 |
88 MHz, precision, low noise, 1.8V CMOS input, decompensated operational amplifier |
LMP7717MA |
NXP |
11+ |
SMDDIP |
88 MHz, precision, low noise, 1.8V CMOS input, decompensated operational amplifier |
LMP7717MFE |
NXP |
11+ |
SOT23 |
88 MHz, precision, low noise, 1.8V CMOS input, decompensated operational amplifier |
LMP7717MAX |
NXP |
09+ |
SOP |
88 MHz, precision, low noise, 1.8V CMOS input, decompensated series operational amplifiers |
BZV55-B7V5 |
NXP |
11+ |
LL34 |
0.5W regulator tube |
LMP7718MAE |
NXP |
09+ |
SOP |
88 MHz, precision, low noise, 1.8V CMOS input, decompensated operational amplifier |
LMP7718MME |
NXP |
11+ |
MSOP-8 |
88 MHz, precision, low noise, 1.8V CMOS input, decompensated operational amplifier |
LMP7718MAX |
NXP |
11+ |
DIPSOP |
88 MHz, precision, low noise, 1.8V CMOS input, decompensated operational amplifier |
LMP7718MA |
NXP |
11+ |
SOP-8 |
88 MHz, precision, low noise, 1.8V CMOS input, decompensated operational amplifier |
LMP7718MMX |
NXP |
10+ |
MSOP8 |
88 MHz, precision, low noise, 1.8V CMOS input, decompensated operational amplifier |
LMP7721MAX |
NXP |
10+ |
SOP |
Current precision amplifier |
LMP7721MAE |
NXP |
10+ |
SOP |
Current precision amplifier |
LMV641MA |
NXP |
09+ |
SOP-8 |
12V, low power amplifier at 10 MHz |
LMV641MGX |
NXP |
11+ |
SC70-5 |
12V, low power amplifier at 10 MHz |