Electronic – Understanding load cell and instrumentation amplifier

instrumentation-amplifierload cell

I want to build a weight scale with 0.1 gram resolution. But I have some problems in my initial stage.

I am using a load cell with sensitivity of 1mV/V and excitation voltage of 3 V.

  1. With no weight, the load cell output shows -0.089 mV and with full load (500gms) it shows 2.895 mV. Is -0.089 mV the noise of my load cell? If so, how could I solve this problem? Why is my load cell mot showing an output of 3mV for 3 V of supply?

  2. I have connected the load cell to IN amp (PMI AMP04FP) with a gain of 100, with no load, I get an output of 3.203 mV and with full load I am getting an output of 278 mV.
    Why is the IN amp showing an output of 3.203 mV? Is it the offset voltage? If so how could I solve the problem? Why am I getting 278mV instead of 300mV?

    I have gone through the basics. But couldn't get my mind clear because of a lot of information in a small time. I know that my questions are basic and need some reading. I would be glad if someone could explain me what is happening and how to proceed. I am willing to learn. So, any kind of help (links, books etc) is appreciated.

Schematic

Best Answer

Presumably your sensitivity of 3mV/V is with a 500 gramme load. and given that there is a small offset of -0.089 mV and this rises thru zero mV to 2.895 mV, there is a change of 2.984 mV - that's quite close to 3mV and, as always with mechanical-electrical devices you need to make a calibration adjustment. In other words the sensitivity of the device is nominally 3 mV per volt and 2.984 mV represents a small (and acceptable) error of 0.53%.

An In-amp is also subject to errors both in gain and offset. 3.203 mV offset represents an input offset of 0.032mV. Realistically, the error from the in-amp is adding to the natural loadcell error of -0.089mV and making it +0.032mV i.e. the in-amp input offset error is 0.057mV.

The device you have chosen has a maximum input offset error of 0.3mV at ambient temperature conditions so this error is well within specification for the device.

As for the output not being 300mV but 278mV this is usually due to the tolerance on the resistor that sets the gain. It should be also noted that the gain accuracy for this device (assuming a perfect gain-set resistor) is +/-0.75%.

Other factors that can contribute to problems are layout, power supply levels, inaccuracies in your meter/measurement device etc...