| No. |
Part Name |
Description |
Manufacturer |
| 2011 |
T4107B |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2012 |
T4107D |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2013 |
T4116B |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2014 |
T4116D |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2015 |
T4117B |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2016 |
T4117D |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2017 |
T4706B |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2018 |
T4706D |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2019 |
T6406B |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2020 |
T6406D |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2021 |
T6406M |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2022 |
T6407B |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2023 |
T6407D |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2024 |
T6407M |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2025 |
T6416B |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2026 |
T6416D |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2027 |
T6416M |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2028 |
T6417B |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2029 |
T6417D |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2030 |
T6417M |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| 2031 |
TAS5424C-Q1 |
4-Channel Automotive Digital Amplifiers with differential input delivering 28W/Ch into 4Ohm 44-HSSOP -40 to 105 |
Texas Instruments |
| 2032 |
TAS5424CTDKDRQ1 |
4-Channel Automotive Digital Amplifiers with differential input delivering 28W/Ch into 4Ohm 44-HSSOP -40 to 105 |
Texas Instruments |
| 2033 |
TAS5424CTDKERQ1 |
4-Channel Automotive Digital Amplifiers with differential input delivering 28W/Ch into 4Ohm 44-HSSOP -40 to 105 |
Texas Instruments |
| 2034 |
TC105 |
The TC105 is a step-down (Buck) switching controller that furnishes output currents of up to 1A (max) whiledelivering a typical efficiency of 92%. The TC105 normally operates in pulse width modulation mode (PWM), but automatically switches |
Microchip |
| 2035 |
TC105303ECTTR |
The TC105 is a step-down (Buck) switching controller that furnishes output currents of up to 1A (max) while delivering a typical ... |
Microchip |
| 2036 |
TC105333ECTTR |
The TC105 is a step-down (Buck) switching controller that furnishes output currents of up to 1A (max) while delivering a typical ... |
Microchip |
| 2037 |
TC105503ECTTR |
The TC105 is a step-down (Buck) switching controller that furnishes output currents of up to 1A (max) while delivering a typical ... |
Microchip |
| 2038 |
TC110 |
The TC110 is a step-up (Boost) switching controller that furnishes output currents as high as 300 mA while delivering a typical efficiency of 84%. The TC110 normally operates in pulse width modulation mode (PWM), but automatically switches |
Microchip |
| 2039 |
TC110301ECTTR |
The TC110 is a step-up (Boost) switching controller that furnishes output currents as high as 300 mA while delivering a typical efficiency ... |
Microchip |
| 2040 |
TC110303ECTTR |
The TC110 is a step-up (Boost) switching controller that furnishes output currents as high as 300 mA while delivering a typical efficiency ... |
Microchip |
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