Part Number: LMV7271 Hi Experts,
Good day.
Client is looking at using an LMV7271 SMD to drive a 5VDC 250ma load but not sure if this is the correct part.
Do you have any suggestions/circuit implementations to drive this with such amount of current?
Thanks…
Part Number: LMV7271 Other Parts Discussed in Thread: TLV7031 , TLV7011 , TLV1805 Hi team,
May I have your help to check why there is a glitch in output when IN+ and V+ is rising from 0V but IN- keep low as 0V?
V+ is 3.3V supply, IN+ is resistor divider…
Other Parts Discussed in Thread: LMV7271 , TINA-TI Hola,
We used LMV7271 as our new design of hysteresis circuit as below:
Vin = 36V --> Vout : low
Vin = 39V --> Vout : high
And the calculated result as below:
But the actual result after we testing…
Hola,
We used LMV7271 as our new design of hysteresis circuit as below:
Vin = 36V --> Vout : low
Vin = 39V --> Vout : high
And the calculated result as below:
But the actual result after we testing become as below:
Vin = 31V --> Vout : low
Vin =…
Other Parts Discussed in Thread: LMV7271 , LMV7272 , LMV7239 Hello,
Our customer are very interested in LMV7271 because the datasheet describes
" They all have bipolar inputs for improved noise performance, and CMOS outputs for rail-to-rail output swing…
Hello Samer,
Why is the 3.3V level needed? The LMV7271 is a 1.8V rail comparator so if you need 3.3V, the LM2903B can potentially be used.
Regards,
Aaron
Part Number: LMV7275 Other Parts Discussed in Thread: LMV7272 , LMV7271 , hello All,
can anyone please let me know the max output short circuit current for the part LMV7275MF? also what will be the worst case output voltage VOH & VOL for this part ? the…
Part Number: TPS610981 Other Parts Discussed in Thread: TINA-TI , LMV7271 , , TPS61098 Tool/software: TINA-TI or Spice Models Hello sir, I am trying to simulate one of reference design from TI named as " Getting power from earphone jack" but I was unable…
Part Number: TLV1702-Q1 Other Parts Discussed in Thread: LMV7271 Hi,
Planning to use IC TLV1702-Q1 as a analog voltage comparator. Moreover, we have variable reference adjustment (i.e. from 0.5V to 10V & -0.5V to -10V ).
Question is, How shall I adjust…