Part Number: LM101A-N Other Parts Discussed in Thread: LM148 , LM1558 I am analyzing an old design for robustness/possible improvements that uses the LM101A op-amp. The datasheet includes the Average Temperature Coefficient for the input offset voltage…
Part Number: LM101A-N Greetings,
I'm projecting an ECG testing equipment with variable output capacitance, I'm thinking about using a capacitor multiplier with a varactor and/or a digital potentiometer to simulate the variations in the parallel capacitance…
Other Parts Discussed in Thread: LM101A-N Hi,
Here is the description in LM101A-N datasheet:
Large capacitors on the input (greater than 0.1 μF) should be treated as a low source impedance and isolated with a resistor.
When the capacitor on the inp…
Other Parts Discussed in Thread: LM101AJAN , LM101A-N Hi all,
I am looking for an equivalent alternative to replace the old operational amplifier LM101AJ8 (CDIP package, 8 pins).
As option 1, I have found the LM101AJAN as best alternative. Orderable Device…
Other Parts Discussed in Thread: UA741 , NE5534 , LM118-N , LM101A-N Hello. I have an obsolete Nat. Semi. part UA702HMQB on a board designed decades ago. Today, I'm looking to replace this part for its function in a through-hole DIP or Can package. Can…
Hello,
Yes there is. The bandwidth changes because of the feed-forward capacitance added to the circuit. This is described in the LM101 product datasheet.
small signal rise time (tr) is equal to roughly 0.35 / (BW). So faster bandwidths result in faster…