Electronic – Understanding the NE5532’s opamp input impedance

operational-amplifier

So I was reading the datasheet of TI's NE5532 and I noticed something that I don't quite understand:

Chapter 7.5 (page 5) says that the NE5532 has an input resistance (I guess input impedance?) of 30kOhm to 300kOhm.
I don't really understand the internals of opamps but my initial thought was that this input resistance seems rather low for an opamp (most ones I've seen are 1MOhm – 1GOhm). From what I know opamps usually have a relatively high input impedance so that they do not affect the input signal by very much.

Chapter 9.1 (page 8) then shows an example circuit of a single ended to balanced converter (with bias) that looks like this:
enter image description here

As far as I understand 9.1.2.2 (page 9) then mentions that this particular circuit used 36kOhm (+-2%) resistors (R1-R4).

I have to questions which relate to that:

  • Doesn't the low input resistance of the NE5532 totally screw up the "voltage dividers" that are used to create the inverter and the bias voltage with these particular resistor values? The opamp's input resistance isn't even 10 times as large as the input impedance.
  • What exactly does input resistance mean? I understand how resistor networks and Kirchhoff's law work, but if I look at the opamp's schematic in 8.2 I don't really understand anything: What is this (possibly virtual) input resistor connected to? How does it affect my circuit and how can circuits like above work properly with such low input resistance? If the opamp would have a an input resistance, which is a magnitude higher than the impedance of the input signal, I wouldn't worry, but like that I totally don't know how things work.

Best Answer

The input resistance in the NE5532 is the differential input resistance and not the resistance from either input pin to a supply rail. That's why it barely affects the circuit because, the inputs are generally at the same voltage - negative feedback ensures that. If you want to know what effect the common mode impedances have on the target circuit you will have to make do with bias current specifications.

Modern chips will usually specify both differential and common-mode input impedances but the NE5532 isn't a modern chip in any sense of the word.