Figure 10 does not go down to 0 mA. But extrapolating the lines implies that the device can reach the ±2.75 V rails.
The datasheets of similar devices like the TLV9002/TLV9042/TLV9052 do show 0 mA, and have a voltage drop of 0 V at this point.
Part Number: LM358A Other Parts Discussed in Thread: LM358 , TLV9002 , TLV6002 , LMV612 , TLV8542 , TLV9052 , LMV358 , LMV358A Hi,
Please find the schematic, We are using LM358AD and giving 3.3V to Opamp IN+ pins, but we are getting 2.0V on output pins instead…
The current version of the LMV358 datasheet has different values, an no graphs.
When you enable CMRR in the search function , the TLV9002 or TLV9052 look promising.
Hi David,
We have quite a few of op amps that can be used as comparators. Most 5V devices can be used as comparators because they typically don't require the back to back diodes to clamp the differential input voltage. So, devices like the TLV9002, TLV9042…
Part Number: TLV9062 Other Parts Discussed in Thread: TINA-TI , TLV9052 , TLV9002 Hi Team,
A customer simulated a triangular wave generator in TINA-TI based on the circuit from SLAU508 document. Please refer to the waveform and schematic diagram below.…
Part Number: LMV822-N Other Parts Discussed in Thread: TLV9052 Hi Team,
Do we have LMV822D?
customer said they used LMV822D before but now can't find it in ti.com.
Is it EOF? What is the different between LMV822D and LMV822N?
Hello David,
Your simulation is working correctly, your limitation is your input common mode. From the datasheet, the input common mode only goes from 0-2.1 for a 3V supply. If you are looking to use the same circuit but a different amplifier, I believe…
The first step would be to confirm the TLV9052 is intended to work at the power supplies you are using. If it is not, then try modifying the power supplies to work with this part.
If it is, then please modify the simulation profile by invoking the "Autoconverge…
Part Number: TLV9062 Other Parts Discussed in Thread: TLV9052 Hello,
My customer needs >5V/us slew rate with TLV9062 when Vs=3.3V.
Datasheet says the slew rate (typ) is 6.5V/us @Vs=5V.
My customer is concerned that the slew rate might be proportional…