Hello Higa,
The TLV316 is closely affiliated with the OPA316 with fewer guaranteed limits.
Since the typicals are the same, the graphs for the OPA316 should still be valid. The OPA316 datasheet has the output “claw curve” on page 12 shown below: …
Hi Mandar,
If you can, please post the waveform that you observe.
I don't think you can operate OP37 at at gain of +2V/V as you've configured it. Datasheet shows Phase Margin of 71 deg. with Av= 5V/V.
So, I'd recommend you lower the gain setting…
Hi Lionel,
The LMC6482 TINA-TI macromodel does not have adequate input capacitance (~3pF) included. For that, the loop gain analysis I showed you earlier shows some strange behavior starting around 2-4 kHz which makes it look like phase margin is always…
Hi Steve,
Sounds like the NE5532 delivers the DC voltage to the Vc pin that sets the volume value / gain of the LM13700 and you've found out that the NE5532 output is "noisy" and the LM13700 can respond to that noise which then modulates your audio…
Hi Nitish,
To answer your questions:
a) I see that min/max specs have been specified for OP07D, but not for OP07C. Why is that so?
Response : The devices which conform to the limits (min / max) have been selected in production and cost more than…
Hi Laurent,
I'm not quite following what your supplies are! If your V- can be 5V, your V+ cannot be 0.5V because V+ has to be more positive that V-. Please explain again.
Regarding the LMV761 CM voltage range: Your input(s) can vary in voltage from…
Hi Antonio, The only small package (SOT23 or smaller) OPA device that can cover the supply voltage range is the LM321. I've not simulated with this device to see the result. For the 0.2V reference, I'd just use a zener biased off the supply voltage, or…
