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Hi Keigo,
Yes I have made a ticket for this to be added, however, I do not have a timeline for you. It will probably be grouped in the next batch of datsheet changes.
Part Number: CD74ACT541 Hi team,
My customer might use this device with a input signal that contains some sharp pulse noise.
So, could you tell us the maximum pulse width that this device doesn't recognizes as HIGH signal
Regards,
Ohashi
Part Number: CD74ACT541 Do you have space radiation data for CD74ACT541M?
If not, could you provide the die area? This would be used to
predict the susceptibility of the part to radiation.
Thanks,
Carolyn Sleeper
Other Parts Discussed in Thread: CD74ACT541 Hi,
Could I connect the output of CD74ACT541 directly to a TTL input with out any pull up or pull down resistors? If not, what are the recommended values for them?
Thanks.
To be able to handle 3.3 V input signals with a 5 V supply, you need a device with TTL-compatible inputs, e.g., SN74AHCT541, SN74LV541AT, or CD74ACT541.
5 V is larger than 3.6 V. The electrical characteristics will not be guaranteed; in particular, the input switching thresholds will be wrong for TTL signals.
Possible replacements are the SN74HCT541, CD74HCT541, SN74LV541AT, or CD74ACT541.
All '541 devices have the same pinout.
There is no device with exactly the same electrical characteristics, but CD74ACT541 might be the nearest. What characteristics do you actually need?
Thank you Clemens. Since the current is the same whether I build my own driver out of discrete MOSFETs or use the CD74ACT541, might there be a consideration for the package size? Would the large package size of the CD74ACT541 have more inductance in…
Other Parts Discussed in Thread: CD74ACT541 , LM5112 , UCC27511 Thanks, I didn't know I could label multiple correct answers. I'll look through the thread and do that.
I don't want to make this the thread that never ends, but I came across a possible…
Other Parts Discussed in Thread: SN74ACT244 , CD74ACT541 I am working on a project that utilizes many 74HC165 and 74HC595 (operating at 5volts as I/O expanders (utilizing SPI from the processor).
I want to distribute six identical 10MHz SPI clocks. I am…
