Part Number: SN74LV245A Hi Team,
The customer handled unused I/O as floating.
As a result of the review, the customer handled unused I/O as floating.
So, we connected B6,B5 which is floating in the input part to B4, and B1 to GND.
I connected A6 and A5…
Part Number: SN74LV245A Hi team,
Could you give me comment on following customer questions?
Q1. For the datasheet 11, it describes "to ensure the high-impedance state during power up and power down, /OE should be tied to Vcc through a pullup resister…
Part Number: SN74LV245A Other Parts Discussed in Thread: SN74AXC8T245 Dear Team,
Customer design with our SN74LV245A in VCC=2.5V/ IO=1.8V application.
I would like to double confirm with you if this application with out any issue or not. please let us…
Part Number: SN74LV245A I have a question about SN74LV245A. Data Sheet SN54LV245A, SN74LV245A SCLS3820-SEPTEMBER 1997-REVISED SEPTEMBER 2014 has the following description.
7.1 Absolute Maximum Ratings
Vi input voltage range Except I/O port(2) MIN -0…
Part Number: SN74LV245A Other Parts Discussed in Thread: SN74AUC245 Dear All,
I've gone through datasheet of IC Page number 12 Figure 5 shows typical application of IC which is 5 to 3.3V compatibility.
In my design My sensor Output is 1.5V to 2.2V…
Part Number: SN74LV244A Other Parts Discussed in Thread: SN74LV245A Hi team,
is it OK to pull up listed logic device with 5V when Vcc=3.3V?
Part Number: SN74AUP1G125 Other Parts Discussed in Thread: SN74LV245A , SN74AHC245 , SN74LXC1T45 Hi
Could you help suggest suitable product s
bidirectional single channel buffer
Vin max: 5.5V IOL: 40mA max.