CAPACITIVE UTERINE CONTRACTION SENSOR
First Claim
1. A capacitive sensor comprising:
- an insulating substrate;
a first electrode disposed on a first side of the substrate;
a second electrode positioned on the first side of the substrate in a spaced relation to the first electrode, at least part of the second electrode configured to move toward or away from the first electrode in response to a uterine contraction; and
a conductive standoff sandwiched between the substrate and the second electrode for maintaining the second electrode in spaced relation to the first electrode, the conductive standoff electrically coupled to the second electrode and electrically isolated from the first electrode; and
a conductive sheet on each side of the substrate, wherein;
the conductive sheets are electrically connected;
the first electrode is electrically isolated from the conductive sheet on the first side of the substrate; and
the second electrode is electrically connected to the conductive sheet on the first side of the substrate via the conductive standoff;
wherein the conductive sheets in combination with the second electrode and the conductive standoff are configured to form an electric shield substantially around the first electrode.
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Accused Products
Abstract
A capacitive uterine contraction sensor includes an insulating substrate, a first electrode disposed on one side of the substrate, and a second electrode positioned on the first side of the substrate in a spaced relation to the first electrode. The second electrode is configured to move toward or away from the first electrode. The sensor may also include a conductive standoff sandwiched between the substrate and the second electrode for maintaining the second electrode in spaced relation to the first electrode. The conductive standoff is electrically coupled to the second electrode and electrically isolated from the first electrode. Alternatively, the second electrode may include a spring mechanism used in conjunction with a standoff to maintain the second electrode in spaced relation to the first electrode. The spring mechanism is electrically isolated from the first electrode and enables the second electrode to move toward or away from the first electrode.
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Citations
9 Claims
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1. A capacitive sensor comprising:
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an insulating substrate; a first electrode disposed on a first side of the substrate; a second electrode positioned on the first side of the substrate in a spaced relation to the first electrode, at least part of the second electrode configured to move toward or away from the first electrode in response to a uterine contraction; and a conductive standoff sandwiched between the substrate and the second electrode for maintaining the second electrode in spaced relation to the first electrode, the conductive standoff electrically coupled to the second electrode and electrically isolated from the first electrode; and a conductive sheet on each side of the substrate, wherein; the conductive sheets are electrically connected; the first electrode is electrically isolated from the conductive sheet on the first side of the substrate; and the second electrode is electrically connected to the conductive sheet on the first side of the substrate via the conductive standoff; wherein the conductive sheets in combination with the second electrode and the conductive standoff are configured to form an electric shield substantially around the first electrode. - View Dependent Claims (2, 3)
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4. A capacitive sensor comprising:
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an insulating substrate; a first electrode disposed on a first side of the substrate, the first electrode defining a first hole; and a second electrode positioned on the first side of the substrate in a spaced relation to the first electrode, at least part of the second electrode configured to move toward or away from the first electrode, wherein; the second electrode defines a second hole; the second electrode includes a plurality of channels forming a spring mechanism in a body; a plurality of tabs extend from the body; and each tab is secured to the substrate via a standoff; and a load transfer button positioned on a side of the second electrode facing away from the first electrode, the load transfer button comprising a stem configured to pass through the second hole defined by the second electrode and at least partially through the first hole defined by the first electrode. - View Dependent Claims (5, 6, 7, 8, 9)
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Specification