Part Number: SN74HCS541 Other Parts Discussed in Thread: SN74HCS240 Tool/software: Is there a similar device to the SN74HCS541 that has inverted outputs? Key features would be:
Octal
Schmitt Trigger Inputs
Inverting Outputs
Flow-Through package layo…
Part Number: SN74HCS541 Other Parts Discussed in Thread: SN74LV541A
We're looking p2p compatible with SN74HCS541 but the clamp diode structure is unidirection structure (Clamping diode between OUTPUT and INPUT to GND)
I know the SN74ABT541 is a p2p…
Those plots are from the SN74HCS541-Q1 datasheet. There are no similar plots for LVC devices, but the V OL /I OL specifications in the SN74LVC541A-Q1 datasheet should be enough to design your circuit.
Part Number: SN74HCS541 Other Parts Discussed in Thread: SN74HCS244 Hi Team,
Could you tell me why the pin numbers and functions defined by the chip are different from those of the recommended layout?
Part Number: SN74HCS541 Hi all
My customer has an industrial motor control application where they have to implement a safety feature called "safe torque off".
Here they are looking for a buffer where they can guarantee that the output will be…
Part Number: SN74HC541 Other Parts Discussed in Thread: SN74HCS541 Tool/software: Multiple failure is occurs due to short in this Buffer
Duration: Past 2years in different board with same application
failure rate: Multiple times
Note: power supply has…
A resistor between the TVS and the buffer would not protect against positive spikes because LVC inputs do not have clamping diodes to V CC . The TVS alone would be responsible for clamping the voltage to less than 6.5 V. If you want to clamp positive voltages…
More modern devices in the HCS family (SN74HCS125, SN74HCS138, SN74HCS541) are specified for 125 °C. The major difference from HC is that they have Schmitt-trigger inputs.