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 Emman,
Thanks for the reply.
Actually my supply voltage would be a ±5V. This is a constant current circuit. You can use the below link for the circuit. This circuit was facing some issues on the precision and so on. So i thought of replacing the Op-amp(previously i was using uA747) with a better precision one. I am using a regulator to stabilize my input. Currently the input is ±15V. I am regulating it to ±5V. This is the reason i said my supply voltage would be ±5V.
Moreover, from the circuit in the link, I am planning to use a buffer at the output for measuring the output voltage. So i needed a precise, low offset opamp. I came across Op-amps and finally selected ADA4522-2,since i am using the same IC for both the Op-Amps.
I saw ADA4528, but in this Op-Amp the supply voltage is only from ±1 to ±2.75 which cannot be used for my application.
Please let me know whether i went wrong anywhere.
https://www.physics.byu.edu/faculty/petersonb/phys240/ConstantCurrentSource.pdf
Hi Emman,
Thanks for the reply.
Actually my supply voltage would be a ±5V. This is a constant current circuit. You can use the below link for the circuit. This circuit was facing some issues on the precision and so on. So i thought of replacing the Op-amp(previously i was using uA747) with a better precision one. I am using a regulator to stabilize my input. Currently the input is ±15V. I am regulating it to ±5V. This is the reason i said my supply voltage would be ±5V.
Moreover, from the circuit in the link, I am planning to use a buffer at the output for measuring the output voltage. So i needed a precise, low offset opamp. I came across Op-amps and finally selected ADA4522-2,since i am using the same IC for both the Op-Amps.
I saw ADA4528, but in this Op-Amp the supply voltage is only from ±1 to ±2.75 which cannot be used for my application.
Please let me know whether i went wrong anywhere.
https://www.physics.byu.edu/faculty/petersonb/phys240/ConstantCurrentSource.pdf