Hi,
I would like to know the common mode voltage range of ADA4522-2. I am using this as a buffer. The supply voltage to the Op-Amp is ±5 V and my input would be near to 5V( assume 4.9V). What can be my possible output value.?
Thanks in advance.
ADA4522-2
Recommended for New Designs
The ADA4522-1 / ADA4522-2 / ADA4522-4 are single/dual/quad
channel, zero drift op amps with low noise and power, ground
sensing inputs, and rail-to-rail...
Datasheet
ADA4522-2 on Analog.com
Hi,
I would like to know the common mode voltage range of ADA4522-2. I am using this as a buffer. The supply voltage to the Op-Amp is ±5 V and my input would be near to 5V( assume 4.9V). What can be my possible output value.?
Thanks in advance.
Hi Ashok,
I would follow harry's recommendation regarding the C4 as well as the tolerance and tempco of the R3 since it directly affects the accuracy of your current source.
I checked the AD8572 and it is also up to 5.5V supply voltage only. Its newer version is the one that I suggest to you which is the ADA4528.
There is no so much pros and cons for deciding of having a dual or single supply voltage in terms of performance.
Note that the opamps doesn't have a ground pin. It doesn't know where the ground is. It only knows where each pin is in relation to other pins. Therefore it doesn't care if you are using single, dual, symmetric or asymmetric supply as long as the you keep the inputs and outputs within the specified input/output voltage range.
Best regards,
Emman
Hi Ashok,
I would follow harry's recommendation regarding the C4 as well as the tolerance and tempco of the R3 since it directly affects the accuracy of your current source.
I checked the AD8572 and it is also up to 5.5V supply voltage only. Its newer version is the one that I suggest to you which is the ADA4528.
There is no so much pros and cons for deciding of having a dual or single supply voltage in terms of performance.
Note that the opamps doesn't have a ground pin. It doesn't know where the ground is. It only knows where each pin is in relation to other pins. Therefore it doesn't care if you are using single, dual, symmetric or asymmetric supply as long as the you keep the inputs and outputs within the specified input/output voltage range.
Best regards,
Emman