Method and apparatus for detection sensor shielding
First Claim
1. A method for providing a capacitive label sensor having a reference electrode coupled to a first side of an opening in the sensor, a sensor electrode coupled to a second side of the opening such that an object passes between the reference electrode and the sensor electrode, and a shield electrode coupled to the second side of the opening, the shield electrode surrounds the sensor electrode on the plane of the second side of the opening as well as on the side opposite the reference electrode, the method comprising:
- electrically connecting the reference electrode to a system ground;
electrically connecting the sensor electrode to a first end of a first resistor and a first electronic driving circuit at a first connection, the first resistor is electrically coupled between the first connection and a supply voltage;
electrically connecting the shield electrode to a first end of a second resistor and a second electronic driving circuit at a second connection, the second resistor is electrically coupled between the second connection and the supply voltage; and
determining the edge of the object passing through the opening of the sensor by determining a change in capacitance between the reference electrode and the sensor electrode.
1 Assignment
0 Petitions
Accused Products
Abstract
A system and method are disclosed for shielding a capacitive sensor. The system and method drive the shield to the same potential as the sensor electrode being shielded to eliminate sensor interference due to mutual capacitance. An independently created signal is applied to the shield which matches the signal applied to the sensor electrode. Use of the independent driving signal allows the shield to maintain the same potential as the sensor electrode, especially during rapid transition of the sensor electrode'"'"'s potential.
83 Citations
15 Claims
-
1. A method for providing a capacitive label sensor having a reference electrode coupled to a first side of an opening in the sensor, a sensor electrode coupled to a second side of the opening such that an object passes between the reference electrode and the sensor electrode, and a shield electrode coupled to the second side of the opening, the shield electrode surrounds the sensor electrode on the plane of the second side of the opening as well as on the side opposite the reference electrode, the method comprising:
-
electrically connecting the reference electrode to a system ground;
electrically connecting the sensor electrode to a first end of a first resistor and a first electronic driving circuit at a first connection, the first resistor is electrically coupled between the first connection and a supply voltage;
electrically connecting the shield electrode to a first end of a second resistor and a second electronic driving circuit at a second connection, the second resistor is electrically coupled between the second connection and the supply voltage; and
determining the edge of the object passing through the opening of the sensor by determining a change in capacitance between the reference electrode and the sensor electrode. - View Dependent Claims (2, 3, 4, 5, 6, 7)
filtering the output signal using a low-pass filter to generate a capacitance signal; and
determining a change in capacitance between the reference electrode and the sensor electrode by determining a change in the capacitance signal greater than a threshold value.
-
-
7. The method according to claim 1, wherein a first RC time constant is created by the first resistor and a first capacitance between the reference electrode and the sensor electrode, and wherein a second RC time constant is created by the second resistor and a second capacitance between the reference electrode and the shield electrode, the method further comprising:
matching the second RC time constant with the first RC time constant to minimize a mutual capacitance between the sensor electrode and the shield electrode.
-
8. An apparatus for providing a capacitive label sensor for determining an edge of a label located on a label web, the sensor having an opening to permit a label and label web to pass within the opening, the opening having first and second sides on opposite faces of the opening, the apparatus comprising:
-
a reference electrode coupled to the first side of the opening, the reference electrode being electrically connected to the system ground;
a first electronic driving circuit for generating an output signal related to a measured capacitance within the opening;
a sensor electrode coupled to a second side and being electrically connected to a first electronic driving circuit at a first connection;
a first resistor electrically connected between the first connection and a supply voltage;
a second electronic driving circuit;
a shield electrode coupled to the second side of the opening and being electrically connected to the second electronic driving circuit at a second connection;
a second resistor electrically connected between the second connection and the supply voltage; and
a low pass filter circuit for generating a capacitance signal by filtering the output signal. - View Dependent Claims (9, 10, 11, 12, 13)
-
-
14. A system for providing a capacitive label sensor having a reference electrode coupled to a first side of an opening in the sensor, a sensor electrode coupled to a second side of the opening such that an object passes between the reference electrode and the sensor electrode, and a shield electrode coupled to the second side of.the opening, the shield electrode surrounds the sensor electrode on the plane of the second side of the opening, the system comprising:
-
means for electrically connecting the reference electrode to a system ground;
means for electrically connecting the sensor electrode to a first end of a first resistor and a first electronic driving circuit at a first connection, the first resistor is electrically coupled between the first connection and a supply voltage;
means for electrically connecting the shield electrode to a first end of a second resistor and a second electronic driving circuit at a second connection, the second resistor is electrically coupled between the second connection and the supply voltage;
means for determining the edge of the object passing through the opening of the sensor by determining a change in capacitance between the reference electrode and the sensor electrode;
means for filtering the output signal using a low-pass filter to generate a capacitance signal; and
means for determining a change in capacitance between the reference electrode and the sensor electrode by determining a change in the capacitance signal greater than a threshold value;
wherein the first electronic driving circuit is a first monostable multivibrator circuit having a clock signal input and generating an output signal;
the second electronic driving circuit is a second monostable multivibrator circuit having a clock signal input; and
the first and second monostable multivibrator circuit clock signal inputs are electrically coupled to a system clock signal. - View Dependent Claims (15)
-
Specification