When reading through the datasheet of the ADS1298 (an analog Front-End for Biopotential Measurements) I noticed the schematic on page 42 (see below):
It is possible to select or deselect the positive and negative input of each channel with corresponding configuration bits (RLDxP and RLDxN).
I have two questions regarding this flexibilty:
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RLD is used to reduce the CM noise with negative feedback of the CM signal to the patient. This typically requires me to sum both the negative and the positive input, otherwise I would not only feed back the CM part, but also parts of my signal.
So why would it be useful to select only the negative or only the positive input of a signal? TI offering an additional register to make this possible suggests to me that there probably is a use case for this. -
I guess it does not make sense to switch different inputs to the RLD amp between my measurements (reading all 8 channels at 2kSPS), because this feedback loop has some settling time and I want to keep this loop running stable. So I assume the typical application will be to set the RLD config once and than keep it running like that for the most time (unless something happens, like the detection of a loose electrode). This means I won't use Ch1 inputs for the RLD when measuring Ch1 and Ch2 inputs when measuring Ch2 and so on.
Do I typically simply use all my input channels by closing all switches or would I choose one input channel and only use that for all the measurements?
In case this is depending on the application: I want to build a wristband with 8 EMG electrodes, but I would assume this to be similar for ECG or EEG.
Best Answer
Good questions! In addition to the common-mode noise reduction, the amplitude of the common mode voltage must remain small in order for the programmable gain amplifiers to operate at high gains without saturating the input stage. Using a single input from one of the differential input pairs is less ideal, but is still effective because of the low-pass filter being applied to the right-leg drive signal and the fact that the inputs are still differential. Certainly, closing all of the switches in use gives the best result assuming that you have good connections everywhere.
The purpose of the feature is to provide the ability to de-select individual inputs in the event that there is a loose connection. Because of the high impedance of the amplifier inputs, an open connection on an input channel, if used to determine the RLD signal, would float and likely interject enough noise and offset to drive all of the differential channels out of their operating range. The device can detect a loose electrode, allowing you to eliminate its contribution to the RLD drive signal, thus maintaining common mode rejection and preserving the performance of the remaining electrodes. Choosing a single electrode or electrode pair makes the performance completely dependent on the connection quality of the specific electrode(s) you have chosen. As an alternate approach to address intermittent or bad connections, you could use this feature to allow the operator to switch between electrode pairs for RLD generation, selecting one which gives the desired result. The operator could then easily find the loose or intermittent electrode.
Good luck!