What is the significance of phase inversion in an operational amplifier?

  • Thread starter Thread starter Hyperspace2
  • Start date Start date
AI Thread Summary
Phase inversion in operational amplifiers occurs when a signal is fed into the inverting input, resulting in an output that is 180 degrees out of phase with the input. This means that when the input voltage increases, the output voltage decreases, similar to a pulley system where one side's movement inversely affects the other. Observing this phase difference requires using an oscilloscope, as individual signals may appear similar in shape and frequency but differ in phase when compared side by side. The confusion often arises because both signals are AC, leading to a misconception that they are the same. Understanding this concept is crucial for applications involving operational amplifiers.
Hyperspace2
Messages
84
Reaction score
1
In inverting operational amplifier when the signal is sent in -(minus) side then the signal is inverted at output. what does that mean? Whether it starts from postive half cycle or negative half cycle , it is an ac. I don't think it will make physical differences. I am so confused. Anyone can help. Advance thanks.
 
Last edited:
Engineering news on Phys.org
http://en.wikipedia.org/wiki/Operational_amplifier_applications#Differential_amplifier

300px-Op-Amp_Differential_Amplifier.svg.png
 
Consider it a pulley.
If you pull the rope downwards then the other side goes upwards. And vice versa.

So it means when the input voltage rises, the output voltage will lower.
 
nivaOne said:
Consider it a pulley.
If you pull the rope downwards then the other side goes upwards. And vice versa.

So it means when the input voltage rises, the output voltage will lower.

I wasn't talking about that . I was talking about following phrases


"A signal fed into the + input (non-inverting) will produce an output signal that is in phase with the input signal. A signal fed into the - input (inverting) will produce an output signal that is 180 degrees out of phase with the input signal"

I was just trying to ask what is the differences between the input signal and the output signal that is 180 degrees out of phase of the input signal. I see them same ,because anyway they are the ac signal .
 
Hyperspace2 said:
I wasn't talking about that . I was talking about following phrases


"A signal fed into the + input (non-inverting) will produce an output signal that is in phase with the input signal. A signal fed into the - input (inverting) will produce an output signal that is 180 degrees out of phase with the input signal"

I was just trying to ask what is the differences between the input signal and the output signal that is 180 degrees out of phase of the input signal. I see them same ,because anyway they are the ac signal .

Hi,
If you look at each signal individually, you would only see signals with the same shape and frequency.
But if you would use an oscilloscope, you would see the difference.
 
If you look at your signals with a single channel oscilloscope then you will not see any 'inversion' - the scope will trigger the same way whatever phase of signal you give it and your "arc signal" will look the same, (or perhaps a different amplitude). You will only be aware of a phase difference if you show input signal (to trigger the scope with) on one channel and look at the two output signals, in turn, on the other channel. One will be in phase with the input and the other will be the other way up - in antiphase.
 

Thread 'How might electronics be different if AC voltage was 72V at 45 Hz?'

Hey guys. I have a question related to electricity and alternating current. Say an alien fictional society developed electricity, and settled on a standard like 73V AC current at 46 Hz. How would appliances be designed, and what impact would the lower frequency and voltage have on transformers, wiring, TVs, computers, LEDs, motors, and heating, assuming the laws of physics and technology are the same as on Earth?
View full post »

Thread 'Why does the amperage go real high if there is a low voltage short?'

I used to be an HVAC technician. One time I had a service call in which there was no power to the thermostat. The thermostat did not have power because the fuse in the air handler was blown. The fuse in the air handler was blown because there was a low voltage short. The rubber coating on one of the thermostat wires was chewed off by a rodent. The exposed metal in the thermostat wire was touching the metal cabinet of the air handler. This was a low voltage short. This low voltage...
View full post »
Thread 'Electromagnet magnetic field issue'

Thread 'Electromagnet magnetic field issue'

Hi Guys We are a bunch a mechanical engineers trying to build a simple electromagnet. Our design is based on a very similar magnet. However, our version is about 10 times less magnetic and we are wondering why. Our coil has exactly same length, same number of layers and turns. What is possibly wrong? PIN and bracket are made of iron and are in electrical contact, exactly like the reference design. Any help will be appreciated. Thanks. edit: even same wire diameter and coil was wounded by a...
View full post »

Similar threads

Cannot lock reference signal on lock-in amplifier
Replies
5
Views
2K
Self excited induction generators and grid connected solar inverters?
Replies
9
Views
2K
Can LCL Filter Convert AC to DC for Half Bridge Section?
Replies
39
Views
4K
Window Comparator: Understanding the Output Behavior and Common Errors
Replies
5
Views
3K
Trouble with getting AM receiver to work
Replies
29
Views
4K
Amplitude modulation and amplifier efficiency
Replies
3
Views
6K
Amplify Very Weak AC Signal Using Op-Amps
Replies
5
Views
8K
Amplifying AC Signal: LM358 Op-Amp Circuit for Full AC Signal Amplification
Replies
3
Views
6K
What are the internal mechanisms of the 741 Operational Amplifier?
Replies
8
Views
4K
"Ground" and "Center Tapped" Power Transformer Secondary in guitar amp
Replies
6
Views
4K

Hot Threads

Recent Insights

Back
Top