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  • SN74LVC1G58: Thermal information

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    Part Number: SN74LVC1G58 Team, my customer is asking about thermal information for SN74LVC1G58DBVR I cannot find it in the datasheet. Can you please provide? Best regards
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  • SN74LVC1G58: input inpededance in unpowered condition

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    Part Number: SN74LVC1G58 Hi, according to the datasheet the absolut max input voltage VI is -0.1 to 6.5V and VO even in unpowered state is allowed in teh same range. Does this mean that any logic level below 6.5V would not damage the device even if…
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  • RE: SN74LVC1G58: Spice models availability

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    Hi Philippe, I've went ahead and updated the model for accuracy, and attached it below. 7026.SN74LVC1G58.CIR 1462.SN74LVC1G58 Testbench.TSC Thanks! Chad Crosby

  • SN74LVC1G58: Does this part have full Schmitt trigger inputs?

    TI Thinks Resolved
    Part Number: SN74LVC1G58 I'm looking through the datasheet and I see a few things that support this device has Schmitt trigger inputs, however I'm only seeing one single statement that reads "because of Schmitt Action..." Looking through the Schmitt…

  • SN74LVC1G58: VT+ threshold range on 5V vcc

    Answer Suggested
    Part Number: SN74LVC1G58 Other Parts Discussed in Thread: SN74AHCT1G125 Hi Sirs, Sorry to bother you. As title, we would like know SN74LVC1G58 VT+ threshold range on 5V vcc . Because the test voltage only show 4.5v and 5.5v on datasheet page 5.…

  • SN74LVC1G17: Recommendation for inverting device, instead of non-inverting

    Answer Suggested
    Part Number: SN74LVC1G17 Other Parts Discussed in Thread: SN74LVC1G14 , SN74LVC1G58 Tool/software: Hello experts, May I ask, what is the part number of SN74LVC1G17DBVR, but as a inverting device? My customer is currently designing with SN74LVC1G17DBVR…
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  • SN74LV393A: Request to suggest a hardware counter circuit that counts both positive and negative edges of a signal.

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    Part Number: SN74LV393A Other Parts Discussed in Thread: TIDA-00580 , SN74AHC123A , SN74LVC1G32 , SN74LVC1G58 Tool/software: Hi there, I'm looking for a hardware counter circuit that counts both positive and negative edges of a signal. The circuit will…
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  • RE: SN74HCS86: Max input frequency

    Resolved
    The bottleneck is the output switching speed. For a 50 pF load, it's 9 MHz at 2 V, 22.5 MHz at 4.5 V, and 32.5 MHz at 6 V. The SN74LVC1G58 would be faster (87.5 MHz at 3.3 V, 100 MHz at 5 V). A simple RC circuit might suffice:

  • SN74AHC1G00: SN74AHC1G00 design problem

    TI Thinks Resolved
    Part Number: SN74AHC1G00 Other Parts Discussed in Thread: SN74LVC1G58 , TINA-TI Hi team, Please check my circuit. If it is normal, there should be an oscillation at R25. but ... Please help to analyze it. Best regards,

  • RE: Buffer with adjustable delay time

    See the falling edge detector in section 4.2.2.2 of Designing With the SN74LVC1G123 Monostable Multivibrator . Combine the output with the input with an OR gate. Alternativelly, you can use an RC delay at one input of a Schmitt-trigger OR gate (e.g…

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