Amplify AC signal using dual rail op amp

In summary, the individual is seeking help with amplifying the output of their hall effect current transducer. They have used a dual rail op-amp with a gain of 101 and simulated it successfully, but in practice, they are not getting the correct output. They have attached a photo of their hardware circuit and have checked for unintended grounds. They have also connected a 10k resistor at the output and are using a 24V regulated voltage adaptor to supply the voltage to LM7815 and LM7915. However, they have realized that they may have made a mistake in connecting the negative side of the negative rail supply, which may be the main cause for the op-amp not working. They have been advised to fix the power supply
  • #1
florenceooi
15
0
Hi !

I want to amplify the output of my hall effect current transducer ( CSLA2CD ). The output of my hall effect sensor is 15.6mVac. And I used a dual rail op - amp to amplify this small ac voltage which the gain is 101 ( as shown in the schematic below ). I tried to simulate using multisim, and it does show me the correct output. However, in practical, I can't get the correct output from op amp.

I attached the photo of my hardware circuit as well.

I built it exactly like the schematic. But I couldn't get the correct output as the simulation result.

Is there anything wrong with my circuit?

FYI, from what i measured, the output of hall sensor when the bulb is off, is around 0.5mVrms. and the output of hall sensor when the bulb is on, is around 15.6mVrms, which is very small.

I should get the output with 101 gain from op amp. But it doesn't work.

opamp.png


waveform.png


amplifier.jpg
 
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  • #2
And here is how I coil the Live wire through hall effect sensor current transducer.
bulb.jpg
 
  • #3
Forgot to mention. For the hardware part, the other pin of the 1uF at pin 6 of op amp is connected to multimeter to measure the output. ( it is not floating )
 
  • #4
Put a resistor to ground (10k or more would work) on the output side of your capacitor (so the resistor is in parallel with the voltmeter).

Also, double check that you don't have any unintended grounds. Make sure, for example, that the negative side of your negative rail supply isn't unintentionally grounded.
 
  • #5
I don't see any power (+/-) connections going to that IC on the breadboard...
 
  • #6
And when you do hook up +/- Vcc, be sure to decouple the rails to ground well with capacitors.
 
  • #7
uart said:
Put a resistor to ground (10k or more would work) on the output side of your capacitor (so the resistor is in parallel with the voltmeter).

Also, double check that you don't have any unintended grounds. Make sure, for example, that the negative side of your negative rail supply isn't unintentionally grounded.


Yes. I already connect a 10k resistor at the output.

I think I built the wrong +/-15V circuit. This is how my connection.

dual rail.jpg


I am using a 24V regulated voltage adaptor to supply the voltage to LM7815 and LM7915.
which means now the gnd from 7915 is supply to the input of 7815 and vice versa. This should be wrong right? I should have a common ground for both 7815 and 7915. So I assume that I have to use a Step down transformers to build Dual Regulated Power Supply +/-15v. Am I right?
 
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  • #8
Do you have a connection to this 24 volt adapter in any way to ground?
 
  • #9
No. the ground of adaptor has been connected to input of 7915. and the ground pin of 7915 is connected to the input of 7815, which means actually I just try to get the negative value by changing the polarity. Which I just realized that I did a huge mistake. Is this the main cause that my op amp doesn't work?
 
  • #10
berkeman said:
I don't see any power (+/-) connections going to that IC on the breadboard...

I did connect my circuit to GND and VCC exactly as shown in my schematic diagram.
 
  • #11
florenceooi said:
No. the ground of adaptor has been connected to input of 7915. and the ground pin of 7915 is connected to the input of 7815, which means actually I just try to get the negative value by changing the polarity. Which I just realized that I did a huge mistake. Is this the main cause that my op amp doesn't work?

Ok, without a diagram I'm not sure exactly what you've done there, but it doesn't sound very sensible. Not sure if I'm reading it correctly, but it sounds like you've made the two supplies in parallel (without any isolation) and then connected them in series. You definitely need to get the power supply sorted before any other aspect of the design can possibly work. Always measure that your DC levels are correct in any circuit as the first part of any fault finding exercise.
 
  • #12
uart said:
Ok, without a diagram I'm not sure exactly what you've done there, but it doesn't sound very sensible. Not sure if I'm reading it correctly, but it sounds like you've made the two supplies in parallel (without any isolation) and then connected them in series. You definitely need to get the power supply sorted before any other aspect of the design can possibly work. Always measure that your DC levels are correct in any circuit as the first part of any fault finding exercise.

I'm sorry. I posted the wrong image just now. Could you please check the post #7 again, that diagram shows my connection on building the dual-rail power supply. Thanks.
 
  • #13
Just had a look at post #7. There is no way that can work. That is the problem. If you want to make a split supply you need 3 leads coming from the actual power supply. You can cobble it and make your circuit work by forming a voltage divider out of the 24 volt supply using 2 470 ohm 1/2 watt resistors. The node formed between the 2 resistors will be your ground connection. This will work, but you cannot expect your circuit to deliver much current. It will amplify your signal and it will display nicely on the scope, but it is a compromise. The 470 ohm resistors will run a bit warm.
 
  • #14
florenceooi said:
I'm sorry. I posted the wrong image just now. Could you please check the post #7 again, that diagram shows my connection on building the dual-rail power supply. Thanks.

Ok yeah I can see the correct image now. Yes that circuit won't work as intended, you need to have the two grounds common.
 
  • #15
uart said:
Ok yeah I can see the correct image now. Yes that circuit won't work as intended, you need to have the two grounds common.

Thanks a lot ! I will try to get a step down transformers and rebuild the dual rail power supply.
Meanwhile, I'm trying to build a darlington pair to amplify the ac signal. Can Darlington pair amplify small Vac? From my understanding, the darlington transistor amplify current that pass through base right? Then how do I amplify the VAC from hall effect output, I don't even know what is the current of the output??
 
  • #16
Don't bother until you get a proper power supply. Otherwise it's like building a house on a foundation made of spaghetti.
 
  • #17
Averagesupernova said:
Don't bother until you get a proper power supply. Otherwise it's like building a house on a foundation made of spaghetti.

Agreed. A better short-term goal would be to get the 741 opamp circuit working with two 9V batteries as the +/- voltage sources...

And please do connect wires to the +/- power supply inputs of the opamp on the breadboard... :smile:
 
  • #18
Averagesupernova said:
Just had a look at post #7. There is no way that can work. That is the problem. If you want to make a split supply you need 3 leads coming from the actual power supply. You can cobble it and make your circuit work by forming a voltage divider out of the 24 volt supply using 2 470 ohm 1/2 watt resistors. The node formed between the 2 resistors will be your ground connection. This will work, but you cannot expect your circuit to deliver much current. It will amplify your signal and it will display nicely on the scope, but it is a compromise. The 470 ohm resistors will run a bit warm.

Something like this? So you mean the node between the 2 resistors will be my ground connection right? which means i have to connect all my capacitors to the node between these resistors? Am i right?


supply.jpg
 
  • #19
I did not read through all the posts. From reading your original post and the pictures. You use too high resistance. You want gain of 101, use 10K feedback and 100Ω instead of 1M and 10K. You are using a breadboard, with high resistance, you are going to see strange things because of wires in the air, no ground plane and parasitic capacitance.

Also put a 0.1uF cap between pin 4 and 7 to give some filtering.

Also, You have gain of 100, the frequency response of the op-amp is reduced by about 100. If you use an op-amp with 1MHz GBW, you only get 10KHz! Make sure you opamp is fast enough.
 
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  • #20
Think about it, your rails are 30v apart, while you input 24v. Not going to work. The input to your regulators is 12v so you will not be able to get 15v out. You need a lower voltage regulator.
 
  • #21
yungman said:
I did not read through all the posts. From reading your original post and the pictures. You use too high resistance. You want gain of 101, use 10K feedback and 100Ω instead of 1M and 10K. You are using a breadboard, with high resistance, you are going to see strange things because of wires in the air, no ground plane and parasitic capacitance.

Also put a 0.1uF cap between pin 4 and 7 to give some filtering.

Also, You have gain of 100, the frequency response of the op-amp is reduced by about 100. If you use an op-amp with 1MHz GBW, you only get 10KHz! Make sure you opamp is fast enough.

Thanks for the advices :)

yes. the op amp that I'm using has only 1Mhz gain bandwidth products. This is bad right? If I amplify my signal twice? Is it better? Each amplifier with the gain of 10?
 
  • #22
Integral said:
Think about it, your rails are 30v apart, while you input 24v. Not going to work. The input to your regulators is 12v so you will not be able to get 15v out. You need a lower voltage regulator.

Thanks for pointing out the mistake. I did not realize bout it. I will correct it :D
 
  • #23
florenceooi said:
Thanks for the advices :)

yes. the op amp that I'm using has only 1Mhz gain bandwidth products. This is bad right? If I amplify my signal twice? Is it better? Each amplifier with the gain of 10?

It depend on your signal BW. If the signal bandwidth is over 10KHz, it's not going to work. What is the highest frequency component of the signal?

Remember I am just making some common sense observation and ask question.

Yes, I never make it a habit to have a single stage opamp to have gain of 100. But that don't mean it's not going to work. I just don't do 100 per stage.
 
  • #24
florenceooi said:
Something like this? So you mean the node between the 2 resistors will be my ground connection right? which means i have to connect all my capacitors to the node between these resistors? Am i right?


View attachment 49744

The drawing you show don't work exactly, the total voltage you have is 24v, you can't get +/-15V out. But you don't need +/-15V. you don't even need regulators. You can try single supply of +24V and 0V. Bias pin 3 to +12V by a voltage divider. You are AC coupling to input and output so you don't even need to worry about the DC offset.

But I won't be surprise your circuit will work as the regulator might follow. You might get +/-10V from the two regulator and the opamp is powered by say +/-10V instead of +/-15V. It'll work, you just clip at +/-10V instead of +/-15V.
 
  • #25
Hi Guys ! Thanks for all the helps and advices ! I've fixed my dual rail power supply! My op amp can works finally. Thank You! ^^)
 

1. What is a dual rail op amp?

A dual rail op amp is an operational amplifier that has two power supply rails instead of just one. This allows for the amplification of both positive and negative AC signals.

2. Why would I need to amplify an AC signal using a dual rail op amp?

Amplifying an AC signal using a dual rail op amp allows for increased signal strength and can help to eliminate noise or distortion in the signal. It is commonly used in audio equipment, signal processing, and other electronic devices.

3. How do I connect a dual rail op amp to my circuit?

The dual rail op amp will have two power supply pins, one for the positive rail and one for the negative rail. These should be connected to the appropriate voltage sources. The input signal should be connected to the non-inverting input pin and the output signal can be taken from the output pin.

4. What are the benefits of using a dual rail op amp over a single rail op amp?

A dual rail op amp allows for amplification of both positive and negative signals, which can improve the overall quality and strength of the signal. It also allows for a wider range of input and output voltages, making it more versatile in different circuit designs.

5. Are there any precautions I should take when using a dual rail op amp?

It is important to make sure that the power supply voltages are within the recommended range for the op amp. It is also recommended to use decoupling capacitors to reduce noise in the circuit. Additionally, proper grounding techniques should be used to avoid ground loops and interference.

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