Hi Vladimir,
To answer your questions:
1. Use at 16.3MHz: At 16.3MHz, you'd be pretty close to the performance you're currently getting at 10MHz. If the propagation delay (and its skew) is acceptable in your application, then you'd be ok with using…
Hello Jason,
Sorry about the late response as I did not see your post earlier.
I could not understand the formula you are referring to. I've also moved your post to the Precision Amplifier group for better support.
Regards,
Hooman
Hi Niels,
So, your concern is nearly all related to the load capacitance working with your pull-up resistor (4.k or 560ohm).
From your scope photos estimated RC time constants (~400ns for 4.7k pull-up), I'd say that you have 80pF total load that your…
Hi Art,
I can confirm that I get the same convergence issue you are seeing.
I know that you can let the transient analysis complete if you select "Zero Initial Value", as shown:
However, I cannot tell you the underlying cause?
Regards, …
Hi Lionel,
The output current of the LMV393 is going to vary from part-to-part and with process variation. The Typical (84mA) is the most likely value, but you could get devices which can only deliver the Min value (10mA) at room temperature. I know…
Hi Vladimir,
I've moved your post to the Logic Forum to see if the TI Logic devices experts / Forum users see any problem with device reliability / damage with the waveform you've shown on the Inverter or Flip-Flop input / output pins?
As I noted…
Hi Kenneth,
In the lower circuit, you've tied the Vee (V-) pin to +2.5V instead of -2.5V.
Could this be the cause for incorrect plot for N2?
Regards,
Hooman
