Evaluation of the quality of electrode contact with a skin surface
First Claim
Patent Images
1. An electrode contact quality evaluation device configured to evaluate a connection between at least one electrode and a skin surface, the electrode contact quality evaluation device comprising:
- a current source that generates a test current;
an injection electrode selection circuit that supplies the test current to a selected injection electrode through a selected injection lead;
a driven return circuit that generates a return current having opposite polarity to the test current;
a return electrode selection circuit that supplies the return current to a selected return electrode through a selected return lead;
a sense electrode selection circuit that supplies a signal obtained from one or more selected sense electrodes through one or more selected sense leads, to the driven return circuit;
differential measurement circuitry that measures differences between signals present at the injection lead and the one or more sense leads and between signals present at the one or more sense leads and the return lead; and
a processing device that evaluates the differences and generates an output representing a quality of at least one connection between at least one of the electrodes and the skin surface.
6 Assignments
0 Petitions
Accused Products
Abstract
An instrument that utilizes body contact electrodes evaluates the quality of the connections made between the electrodes and the body. An electrode contact quality evaluation circuit performs the quality evaluation, such as by determining contact impedances for the electrodes. The corresponding contact quality of each electrode is conveyed to the user.
24 Citations
8 Claims
-
1. An electrode contact quality evaluation device configured to evaluate a connection between at least one electrode and a skin surface, the electrode contact quality evaluation device comprising:
-
a current source that generates a test current; an injection electrode selection circuit that supplies the test current to a selected injection electrode through a selected injection lead; a driven return circuit that generates a return current having opposite polarity to the test current; a return electrode selection circuit that supplies the return current to a selected return electrode through a selected return lead; a sense electrode selection circuit that supplies a signal obtained from one or more selected sense electrodes through one or more selected sense leads, to the driven return circuit; differential measurement circuitry that measures differences between signals present at the injection lead and the one or more sense leads and between signals present at the one or more sense leads and the return lead; and a processing device that evaluates the differences and generates an output representing a quality of at least one connection between at least one of the electrodes and the skin surface. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A method of evaluating the quality of electrode contact with a skin surface, the method comprising:
-
checking for and determining that at least three electrodes are in physical contact with a skin surface using electrode contact detection circuitry; evaluating and determining a quality of an electrical connection between at least one of the electrodes and the skin surface using electrode contact quality evaluation circuitry, the evaluating and determining including; selecting at least one of the electrodes as an injection electrode, at least another of the electrodes as a sense electrode, and at least another of the electrodes as a return electrode; applying a test signal to the injection electrode; applying a return signal of opposite polarity to the return electrode; determining a voltage drop of the test signal and of the return signal; and computing at least one contact impedance for one of the injection electrode or the return electrode; and inhibiting instrument operations if the quality of the electrical connection is determined to be insufficient. - View Dependent Claims (8)
-
Specification