Part Number: LM4562 Hello,
a customer ordered 10 of the LM4562NA/NOPB at Mouser and came back with the following:
"In my design, I took into account the fact that at a voltage of +/-15 V, the power supply load is typically 10 mA and a maximum of…
Part Number: LM4562 Tool/software: In my customer's product,
the output noise becomes large in the noise measurement when the input terminal is opened.
The output noise becomes large in the amplifier circuit with GAIN=28dB and frequency characteristic…
Part Number: LM4562 Hey,
in the data sheet of LM4562 ( https://www.ti.com/lit/gpn/lm4562 ) on page 25 figure 113 "Inverting Aplifiers" +Vcc DC will be blocked by the decoupling capacitors C1 & C3. I don't think this is intended. Maybe ground and +Vcc…
Part Number: LM4562 Tool/software: The ancient AN-1651 application note is riddled with errors. Specifically, in Figure 6, the push-pull connected Q2 MOSFET is not linked to the output coupling capacitor C6, and the balancing potentiometer R11 is missing…
Part Number: LM4562 I have a problem with oscillation. This is a simple buffered volume control for a line stage audio pre amplifier.
Can anyone see the cause. I have played around with the feedback resistors. The gain should be quite low 4 x currently…
Part Number: LM4562 I have a question about the gain characteristics and p hase characteristics of a voltage follower circuit using LM4562. The simulation results do not match the measurement results. Can you think of any possible reasons for this discrepancy…
Part Number: LM4562 Hi, Experts,
I will use LM4562 as a voltage follower as proposed at the next thread I asked the question in. This is used for a circuit [next image] with up to 20MHz AC input/output, and I simulated to confirm whether or not oscillation…
Part Number: LM4562 I am considering a circuit using the LM4562 and have some questions I would like to ask about.
I am thinking of using it as a voltage follower with the settings in the image, but could you please explain about cases (A) and (B)?…
Part Number: LM4562 Hello. I have some doubts about the application note 1671 by Bob Pease. My question is not about how the test circuit from the app note works but how is he getting to the result of 0.08 ppm of distortion in his measurements, how did…
