Author Topic: Coupling Capacitor in microphone preamplifier causing voltage drop  (Read 3208 times)

0 Members and 1 Guest are viewing this topic.

Offline tapasxploreTopic starter

  • Contributor
  • Posts: 23
  • Country: in
Hello everyone,

I am using OPA1664 a op-amp IC from TI. I have simulated low pass sallen key topology (dual power supply). Whenever microphone capacitor is connected with the op-amp input I am getting negaliable output in uV, but if I am removing the capacitor then voltage is 100 mV which is required.
Please view the attachement for more details, I am unable to insert images directly in the post.
Attachment details:
1) without cap
2) without cap DSO (both the images shows schematic and DSO output while capacitor is not placed.

3) with cap 
4) cap DSO (both the images shows schematic and DSO output while capacitor (C2) in placed, & hence voltage drop significantly)
5) How microphone will be attached in the circuit, showing coupling capacitor also C3
Please suggest any changes,

Regards,
« Last Edit: October 27, 2017, 07:54:08 pm by tapasxplore »
 

Online wraper

  • Supporter
  • ****
  • Posts: 17643
  • Country: lv
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #1 on: October 27, 2017, 07:50:24 pm »
If you use electret microphone, it needs power. Both circuits are incorrect if you connect microphone exactly as signal source on the circuit.



« Last Edit: October 27, 2017, 08:01:02 pm by wraper »
 

Offline tapasxploreTopic starter

  • Contributor
  • Posts: 23
  • Country: in
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #2 on: October 27, 2017, 07:57:27 pm »
Hi Wraper,

Yes, I will be using microphone as show by you. But in my post, I am using circuit simulating to produce output waveform using AC voltage source.
 

Online wraper

  • Supporter
  • ****
  • Posts: 17643
  • Country: lv
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #3 on: October 27, 2017, 08:01:42 pm »
I see that you attached mic connection pic. The issue is that you leave non inverting input completely floating. Opamp cannot work normally like this. Use some high resistance resistor (like 100k) and tie input after capacitor to ground.
« Last Edit: October 27, 2017, 08:08:07 pm by wraper »
 

Online Zero999

  • Super Contributor
  • ***
  • Posts: 19990
  • Country: gb
  • 0999
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #4 on: October 27, 2017, 10:28:34 pm »
As mentioned above, both inputs of the op-amp need to have a DC path to 0V, otherwise the bias currents will upset the DC operating point, causing it to behave unpredictably. It will be worse in real life than the simulator shows. According to the data sheed for the OPA1664, it has a bias current of 600nA. With the inverting input connected to 0V and the non-inverting input floating, at a higher undetermined voltage, the output will saturate at the positive rail.
http://www.ti.com/lit/ds/symlink/opa1662.pdf

Even with a 100k bias resistor, the output will still be biased at around 88mV, because the impedance seen at the two inputs will differ and have different voltages because of the bias currents.

To keep the output as close to 0V as possible, the impedance seen at both inputs should match as closely as possible. If the biasing resistor were 133k, then the input impedance seen by the +input would be 180k1. The values of R1 and R2 could be changed to 360k, making the impedance seen by the -input 180k, which is close enough.
 

Offline duak

  • Super Contributor
  • ***
  • Posts: 1048
  • Country: ca
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #5 on: October 27, 2017, 11:02:39 pm »
It also seems to me that on the schematic, V2 is reversed and is positive relative to circuit common.
 

Online wraper

  • Supporter
  • ****
  • Posts: 17643
  • Country: lv
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #6 on: October 27, 2017, 11:06:18 pm »
It also seems to me that on the schematic, V2 is reversed and is positive relative to circuit common.
It is a negative voltage source, so fine for simulation.
Quote
Even with a 100k bias resistor, the output will still be biased at around 88mV, because the impedance seen at the two inputs will differ and have different voltages because of the bias currents.
I did not check the datasheet. Yep, this opamp is not bias current compensated unlike most of modern opamps. So resistors should be selected accordingly.
« Last Edit: October 28, 2017, 10:35:28 am by wraper »
 

Offline vk6zgo

  • Super Contributor
  • ***
  • Posts: 7718
  • Country: au
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #7 on: October 28, 2017, 12:55:15 am »
It also seems to me that on the schematic, V2 is reversed and is positive relative to circuit common.
It is a negative voltage source, so fine for simulation.

This misuse of symbols is what I sorely hate with simulations.
If the designers are either too ignorant or too lazy to put a battery symbol the right way round, it casts doubt on the credibility of the whole thing.

Another classic stuff up which I see a lot is using a DC generator symbol for an ac source.

It's OK to say "fine for simulation", but if beginners see this sort of thing, they may use the incorrect symbols in real schematics, causing needless confusion.
 

Online Zero999

  • Super Contributor
  • ***
  • Posts: 19990
  • Country: gb
  • 0999
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #8 on: October 28, 2017, 08:44:28 am »
It also seems to me that on the schematic, V2 is reversed and is positive relative to circuit common.
It is a negative voltage source, so fine for simulation.

This misuse of symbols is what I sorely hate with simulations.
If the designers are either too ignorant or too lazy to put a battery symbol the right way round, it casts doubt on the credibility of the whole thing.
I don't see the issue with inverted battery symbol and negative value. To some beginners it might make it clearer it's a negative voltage source. In real life it might not even be a battery, but the output of a mains powered supply.

I wouldn't recommended powering the OPA1664 from two 1.5V batteries because it's not specified for operation below +/-1.5V and it doesn't give any headroom for the voltage dropping, as the batteries discharge. Use four AA cells or three and a rail splitter to give +/-3V  or +/-2.25V, respectively.

Quote
Another classic stuff up which I see a lot is using a DC generator symbol for an ac source.
I did that with LTSpice, until fairly recently, when I discovered the AC generator symbol. I don't see the problem because it's blindingly obvious it's AC because of the text.

Quote
It's OK to say "fine for simulation", but if beginners see this sort of thing, they may use the incorrect symbols in real schematics, causing needless confusion.
Depends on how bad it is. I've seen J-FET and MOSFET symbols being confused, which I agree is bad. Another one of my pet hates is to just use a box symbol for something like an op-amp, especially for a dual or quad op-amp package, because it makes the circuit harder to understand.
 

Offline tapasxploreTopic starter

  • Contributor
  • Posts: 23
  • Country: in
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #9 on: October 28, 2017, 04:27:50 pm »
Hi all (especially wraper, Hero999, vk6zgo),

I did the simulation again with the multiple feedback topology and I am getting the output even with the microphone coupling capacitor (without placing additional resistor).  Below I have attached pictures of both schematic and output waveform.

Regards,
Tapas
 
 

Online Zero999

  • Super Contributor
  • ***
  • Posts: 19990
  • Country: gb
  • 0999
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #10 on: October 28, 2017, 04:53:00 pm »
Hi all (especially wraper, Hero999, vk6zgo),

I did the simulation again with the multiple feedback topology and I am getting the output even with the microphone coupling capacitor (without placing additional resistor).  Below I have attached pictures of both schematic and output waveform.

Regards,
Tapas
That looks good to me. The outputs now both have a DC path to 0V. If the remaining offset is an issue, add a resistor in series, equal to R6 + R2, with the on-inverting input.
 

Offline tapasxploreTopic starter

  • Contributor
  • Posts: 23
  • Country: in
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #11 on: October 28, 2017, 05:23:57 pm »


Hi all (especially wraper, Hero999, vk6zgo),

I did the simulation again with the multiple feedback topology and I am getting the output even with the microphone coupling capacitor (without placing additional resistor).  Below I have attached pictures of both schematic and output waveform.

Regards,
Tapas
The outputs now both have a DC path to 0V.


I understand that non-inverting op-amp has DC path to 0, but how come inverting terminal has DC path to 0, as there is no ground connected directly or indirectly to inverting terminal.

Regards,
 

Offline Audioguru

  • Super Contributor
  • ***
  • Posts: 1507
  • Country: ca
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #12 on: October 28, 2017, 05:29:35 pm »
The inverting opamp amplifier in the inverting lowpass filter circuit (it is not a multiple feedback bandpass filter) has its (+) input at 0V which is its DC input reference voltage. The inverting input of the circuit has negative feedback from the output of the opamp so it does not need a bias resistor to 0V because its DC gain is 1 (its DC output is the same as its DC (+) input. 
 

Online Zero999

  • Super Contributor
  • ***
  • Posts: 19990
  • Country: gb
  • 0999
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #13 on: October 28, 2017, 06:06:21 pm »


Hi all (especially wraper, Hero999, vk6zgo),

I did the simulation again with the multiple feedback topology and I am getting the output even with the microphone coupling capacitor (without placing additional resistor).  Below I have attached pictures of both schematic and output waveform.

Regards,
Tapas
The outputs now both have a DC path to 0V.


I understand that non-inverting op-amp has DC path to 0, but how come inverting terminal has DC path to 0, as there is no ground connected directly or indirectly to inverting terminal.

Regards,
Don't forget, for the purposes of biasing the op-amp, only the steady state, DC conditions are important. The output sits near 0V, so can be considered to be ground, at DC. The inverting input is connected to the output, via R6, in series with R2.

In reality, both inputs will be within the op-amp's voltage offset rating (0.5 to 1.5mV), around 0V and the output voltage will be equal to, the bias current multiplied, by the difference in impedance seen by the inputs. The impedance seen at the non-inverting input is 0R and 18k44 is seen at the inverting input, a difference of -18k44, so given a typical bias current of 600nA, that's -18k44×600nA = -11mV.

As mentioned above, the output can be taken closer to 0V by adding a resistor equal to R6 + R2 between the non-inverting input and 0V. 18k would be near enough. There's no point in getting it perfect, since the voltage and bias current offsets will dominate.
« Last Edit: October 28, 2017, 06:09:55 pm by Hero999 »
 

Offline tapasxploreTopic starter

  • Contributor
  • Posts: 23
  • Country: in
Re: Coupling Capacitor in microphone preamplifier causing voltage drop
« Reply #14 on: October 28, 2017, 08:01:47 pm »
Hi,

Do I have to care about input bias current for the case of OPA1664 as typical value is 600nA I think which is pretty high. I think I have to connect resistor of appropriate value in the non inverting terminal to offset offset voltage .

Regards,

 


Share me

Digg  Facebook  SlashDot  Delicious  Technorati  Twitter  Google  Yahoo
Smf