Part Number: SN74LV367
Hi,
I was using 8-channel SN74LVC244APW in my earlier design. Few of the signals are removed and now I am planning to use 6-channel JTAG buffer SN74LV367ADR. Kindly confirm whether SN74LV367ADR is correct selection as replacement…
Part Number: SN74AHC367 Hi Team,
In one of my customer's system, Input signal to SN74AHC367 sometimes violates its absolute maximum ratings due to undershoot caused by parasitic L and high SR edge output of connected device. There is no pad to populate…
To convert 5 V to 3.3 V, you can use any buffer with overvoltage-tolerant inputs, such as the SN74AHC367. To convert 3.3 V to 5 V, you can use any buffer with TTL-compatible inputs, such as the SN74AHCT367.
(8-bit devices like the SN74AHC541/SN74AHCT541…
The minimum recommended supply voltage is 3 V. Below that, correct operation is not guaranteed. (And CD4000 devices are optimized for high voltages like 20 V.)
To disable the outputs during power up/down, use a device with /OE like the SN74AHC367.
Hi John,
Since this is a repeater (buffer), you do not need the SN74LV4T125 device. This device can be used as a buffer, however, primarily it is used as translation device.
I would recommend using SN74LVC125A which is quad buffer or SN74AHC367 which…
The following devices have TTL inputs, for up translation:
LVxT
AHCT
1x
SN74LV1T34, SN74LV1T125
SN74AHCT1G125
4x
SN74LV4T125
SN74AHCT125
6x
SN74AHCT367
8x
SN74AHCT541
16x
SN74AHCT16244, SN74AHCT16541
The following devices have 5V-tolerant…