No. |
Part Name |
Description |
Manufacturer |
901 |
TC1186-2.85VCT |
150mA CMOS LDOs with shutdown and ERROR output, output voltage 2.85 V |
Microchip |
902 |
TC1186-2.8VCT |
150mA CMOS LDOs with shutdown and ERROR output, output voltage 2.8 V |
Microchip |
903 |
TC1186-3.0VCT |
150mA CMOS LDOs with shutdown and ERROR output, output voltage 3.0 V |
Microchip |
904 |
TC1186-3.3VCT |
150mA CMOS LDOs with shutdown and ERROR output, output voltage 3.3 V |
Microchip |
905 |
TC1186-3.6VCT |
150mA CMOS LDOs with shutdown and ERROR output, output voltage 3.6 V |
Microchip |
906 |
TC1186-4.0VCT |
150mA CMOS LDOs with shutdown and ERROR output, output voltage 4.0 V |
Microchip |
907 |
TC1186-5.0VCT |
150mA CMOS LDOs with shutdown and ERROR output, output voltage 5.0 V |
Microchip |
908 |
TC2054-2.5VCTTR |
50mA, CMOS LDOs with shutdown and error output, 2.5V |
Microchip |
909 |
TC2055-1.8VCTTR |
100mA, CMOS LDOs with shutdown and error output, 1.8V |
Microchip |
910 |
TC2055-2.5VCTTR |
100mA, CMOS LDOs with shutdown and error output, 2.5V |
Microchip |
911 |
TC2186-2.5VCTTR |
150mA, CMOS LDOs with shutdown and error output, 2.5V |
Microchip |
912 |
TC7135 |
The TC7135 4-1/2 digit analog-to-digital converter (ADC) offers 50 ppm (1 part in 20,000)resolution with a maximum nonlinearity error of 1 count.An auto-zero cycle reduces zero error to below 10 µV and zero drift to 0.5 µV/° |
Microchip |
913 |
TC7135 |
The TC7135 4-1/2 digit analog-to-digital converter (ADC) offers 50 ppm (1 part in 20,000)resolution with a maximum nonlinearity error of 1 count.An auto-zero cycle reduces zero error to below 10 µV and zero drift to 0.5 µV/° |
Microchip |
914 |
TC7650 |
The TC7650 CMOS chopper-stabilized operational amplifier practically removes offset voltage error terms from system error calculations. The 5V maximum VOS specification, for example, represents a 15 times improvement over the industry-stan |
Microchip |
915 |
TC7650 |
The TC7650 CMOS chopper-stabilized operational amplifier practically removes offset voltage error terms from system error calculations. The 5V maximum VOS specification, for example, represents a 15 times improvement over the industry-stan |
Microchip |
916 |
TDA5709 |
Radial Error Signal Processor |
Philips |
917 |
TDA8809T |
Radial error signal processor for compact disc players |
Philips |
918 |
TIL5942 |
Current-Mode-Pwm Controller With Opto-Isolated Voltage Reference And Error AMP |
Texas Instruments |
919 |
TIL5942A |
Current-Mode-Pwm Controller with Opto-Isolated Voltage Reference and Error AMP |
Texas Instruments |
920 |
TIL5942ANFC |
Current-Mode-Pwm Controller with Opto-Isolated Voltage Reference and Error AMP |
Texas Instruments |
921 |
TIL5942ANFD |
Current-Mode-Pwm Controller with Opto-Isolated Voltage Reference and Error AMP |
Texas Instruments |
922 |
TIL5942NFC |
Current-Mode-Pwm Controller With Opto-Isolated Voltage Reference And Error AMP |
Texas Instruments |
923 |
TIL5942NFD |
Current-Mode-Pwm Controller With Opto-Isolated Voltage Reference And Error AMP |
Texas Instruments |
924 |
TK75002 |
ERROR SIGNAL ISOLATOR |
TOKO |
925 |
TK75002D |
ERROR SIGNAL ISOLATOR |
TOKO |
926 |
TK75002DIMG |
ERROR SIGNAL ISOLATOR |
TOKO |
927 |
TK75002DIMG/75002 |
ERROR SIGNAL ISOLATOR |
TOKO |
928 |
TL7705B |
Single Supply Voltage Supervisor ror 5V Systems with Programmable Time Delay |
Texas Instruments |
929 |
TL7705BCD |
Single Supply Voltage Supervisor ror 5V Systems with Programmable Time Delay |
Texas Instruments |
930 |
TL7705BCDR |
Single Supply Voltage Supervisor ror 5V Systems with Programmable Time Delay |
Texas Instruments |
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