Part Number: SN74LVC1G07 Hi Team,
1. Could please explain what is Vload? How it becomes 2*VCC?
2. In our design we are using VCC as 5V. Since RL is 500ohm. Will it work if we give 10K pull up in the input?
Vinput = 5x(500/1500) = 1.6V <3.5V
Part Number: SN74LVC1G07-Q1 Hi TI Team,
We have found that the buffer is misbehaving in one of our boards. The output is 0-1V low-high, and the input is 0-5V. In this particular buffer even when the input is not given there is a voltage similar to output…
Part Number: SN74LVC1G07 I am using SN74LVC1G07 in my design. The VCC given is 1.8V. I have used 3.3V as the pull-up voltage for the output pin i.e. Pin number 4 which is a open drain output. Is the pull-up voltage of 3.3V fine for the design?
Part Number: SN74LVC1G07 Other Parts Discussed in Thread: SN74HCS21 , SN74HCS08 , SN74LVC08A Hi
I have a question about SN74LVC1G07.
VCC(3V3_PEX) voltage level with impact output (Y) voltage level?
If Tri_REG_PG use 3.3V is ok? thanks!
Jeff
Part Number: SN74LVC1G07 Other Parts Discussed in Thread: SN74LVC1G34 Hi, Logic team
I would like to know the slew rate of output signal from the characteristics in the datasheet. Because the post-stage circuit has a slew rate specification for the input…
Part Number: SN74LVC1G07 Dear Sir or Madam,
I am writing to know the terminal finish of SN74LVC1G07DBVTG4 if it is NiPdAu or NiAu. Please could you tell me the thickness of Au.
Thanks in advance.
Best Regards,
Kaoutar Ben Kaddour
Part Number: SN74LVC1G07 Dear Sir or Madam,
I am writing to know the terminal finish of SN74LVC1G07DBVRG4 if it is NiPdAu or NiAu. Please could you tell me the thickness of Au.
Thanks in advance.
Best Regards,
Kaoutar Ben Kaddour
Part Number: SN74LVC1G07-Q1 Other Parts Discussed in Thread: SN74LVC1G125-Q1 , SN74LVC1G126-Q1 Hi team,
There are two problems in customers using SN74LVC1G07-Q1 as reset driver device for EMMC. The front stage is a pin of the SOC chip, and the latter stage…
Part Number: SN74LVC1G07
Hi team,
Customer asked me on, why are ther 2 Iol numbers spec'ed under the same 3V Vcc condition?
This seems also to be the case in datasheets of Diodes and Onsemi.