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 power…
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…
Part Number: SN74LVC1G58 Other Parts Discussed in Thread: SN74LVC1G08 Hi,
I would like to simulate a design around SN74LVC1G58, but I haven't found the spice model.
IBIS modelling is not enough for my purpose.
I've seen these two comments from the…
SN74LVC1G14
If you want to use the same part and configure the device with a jumper or solder bridge instead, use the SN74LVC1G58 (when In0 = In1 = low, Y = In2; when In0 = In1 = high, Y = NOT In2).
Route the input to the /A and B inputs of two multivibrators (e.g., SN74AHC123A), and combine their outputs with an OR gate (e.g., SN74LVC1G32). This results in a positive pulse for each edge.
Alternatively, route the signal to both inputs of a Schmitt…
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.
Our spec…
Your circuit should oscillate as shown, so long as Pin 1 of U8 is high -- however this type of oscillator is known to be unstable under some conditions. Most modern designs either use a Schmitt-trigger based oscillator or a triple inverter oscillator…
Other Parts Discussed in Thread: SN74AUP1G58 , SN74LVC1G58 , SN74LVC1G11 Hi team,
Do we have a deice that:
1. If we input a signal, it can output 2 inverting signal.
2. It has short circuit protection function which means if the load is too heavy, it can detect…
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:
