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Registered Member #190
Joined: Fri Feb 17 2006, 12:00AM
Location:
Posts: 1567
I have seen the basic circuit for a differential op amp and one for gain. Can I simply take a non-inverting opamp setup and have Va and Vb for inputs, so the output is the gain times (Va-Vb)? Or, does Vb have to be set to ground for the non-inverting style?
Registered Member #190
Joined: Fri Feb 17 2006, 12:00AM
Location:
Posts: 1567
Thanks. I did see this. I was curious if I could just change the ground to my Vb. I have just tried this and it does not seem to work. Thus, I will use the setup you have referenced.
Registered Member #72
Joined: Thu Feb 09 2006, 08:29AM
Location: UK St. Albans
Posts: 1659
Sulaiman wrote ...
The common way to achieve what you want is this
Your circuit will give Av.(Va-Vb) PLUS Va ...
i.e. if Va = Vb, the output will be Va (=Vb) ... NOT Av(Va-Vb) = 0
I've captured the drawing at that link and very slightly redrawn it
to show the symmetry and emphasise what it is doing. The op-amp will work to keep both its inputs at the same voltage. That means that as the top pair and bottom pair of resistors have the same ratio, the *difference* between the output terminals will be -g times the difference between the input terminals. Now you can put the output ref terminal to where you like. Often it goes to ground and you have a floating to single-ended (that is - referenced to ground) converter. You could also regard the circuit as adding the output reference to -g * the input difference to give the output voltage. Note that the ratio g can be bigger or smaller than 1.
Just my halfpen'orth anyway. I can never remember configurations, so whenever I come to want to use any sort of differential amplifier, I first draw this symmetrical form, then move it around until it does what I want.
Registered Member #190
Joined: Fri Feb 17 2006, 12:00AM
Location:
Posts: 1567
I've gotten most of my opamp to work but I am having one issue. What I have so far:
I made a constant current source of about 1ma using an NPN and opamp. I use this so the voltage drop on the RTD is linear with the change in resistance. I made a three wire hook-up for an op amp to eliminate the lead resistance. Both of these units work and I have a voltage drop on the RTD of about 0.1mv at room temperature.
The problem I am having is putting this through a non-inverting opamp for gain. My rails are 5v and 0. My R2 and R1 values are 5k and 100R. I would expect a gain of 50 (1+R2/R1) which my MC3403 should do. The gain on the datasheet is 20 minimum; 200 typical V/mv. Yet, the most voltage I get out is about 3.74v. If I use R1 = 5k and R2 = 200R, my gain works. For Vin of 0.12v I get a little over 3v.
I would expect to get close to 5v with my initial R values. Am I asking the opamp to do something it can't do with these supply voltages? I get the same issue if I use +5/-5v on the rails. How close to the upper rail voltage can I get my input signal if I keep upping the gain?
Registered Member #72
Joined: Thu Feb 09 2006, 08:29AM
Location: UK St. Albans
Posts: 1659
There's a lot to be said for reading *all* of the datasheet. 3.74v under those conditions (driving a heavier load than the data sheet quotes maximum output voltage at - remember the feedback has to be driven as well as any explicit load) is a bit more than the datasheet says is typical, and is way more than is guaranteed. MC3403 does not have a R2R output. Use more supply volts, or a R2R amplifier.
You quote the gain as 20 min 200 typical. Those gain figures are for +/- 15v supplies, the +5v supply figures are 10 min, 200 typ. Not that the difference will be noticable in your application, but, make sure you read the right bits of the data sheet.
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