Capacitive angular displacement transducer for remote meter reading
First Claim
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1. A capacitive angular displacement transducer producing a differential electrical output signal having a phase angle that varies linearly with the angular displacement of a shaft, comprising:
- a first stator plate divided into a plurality of electrically isolated excitation areas such that each excitation area has at most two adjacent excitation areas;
means impressing sinusoidal excitation voltages on said excitation areas, the phase of each impressed excitation voltage differing by a fixed and predetermined amount from that impressed on adjacent excitation areas;
a second stator plate;
and a rotor plate movable by said shaft coaxially mounted between said first and said second stator plates, said rotor plate having a first face parallel to and variably capacitively coupled with said excitation areas of said first stator plate, and a second face parallel to and capacitively coupled with said second stator plate, half of said first face having a first electrically conductive pattern such that said first pattern produces a first resultant voltage that is the vector sum of the voltages variably capacitively coupled to said first pattern due to said excitation voltages, said first resultant voltage having a constant peak amplitude and a phase angle that varies linearly with displacement of said rotor plate relative to said first stator plate, the other half of said first face having a second electrically conductive pattern that is the mirror image of said first conductive pattern, said second conductive pattern producing a second resultant voltage that is the vector sum of the voltages variably capacitively coupled to said second pattern due to said excitation voltages, said second resultant voltage equal to said first resultant voltage and of opposite polarity, said second face of said rotor plate having two annular conductive areas, one of said areas electrically connected to said first pattern, the other of said areas electrically connected to said second pattern, said second stator plate comprised of conductive areas forming a constant capacitive pickup with said two annular conductive areas of said second face of said rotor plate, said second stator plate producing a differential output signal responsive to said first and second resultant voltages, said differential output signal having a phase angle that varies linearly with the angular displacement of said shaft.
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Abstract
A capacitive angular displacement transducer having a rotor plate and a first and second stator plates is disclosed. The rotor plate is coaxially mounted between, and parallel to, the first and second stator plates. The first stator plate is divided into four excitation areas each being impressed with a sinusoidal excitation voltage having a different phase angle. The rotor plate has a first face having two conductive patterns. The two conductive patterns act as resolvers to produce resultant voltages from the vector addition of the voltages variably capacitively coupled thereon due to the excitation voltages. The rotor plate has a second face having two annular conductive areas electrically connected to the conductive patterns of the first rotor face. The second rotor face together with the second stator plate form a constant capacitive pickup for the resultant voltages produced by the two conductive patterns of the first rotor face.
60 Citations
6 Claims
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1. A capacitive angular displacement transducer producing a differential electrical output signal having a phase angle that varies linearly with the angular displacement of a shaft, comprising:
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a first stator plate divided into a plurality of electrically isolated excitation areas such that each excitation area has at most two adjacent excitation areas; means impressing sinusoidal excitation voltages on said excitation areas, the phase of each impressed excitation voltage differing by a fixed and predetermined amount from that impressed on adjacent excitation areas; a second stator plate; and a rotor plate movable by said shaft coaxially mounted between said first and said second stator plates, said rotor plate having a first face parallel to and variably capacitively coupled with said excitation areas of said first stator plate, and a second face parallel to and capacitively coupled with said second stator plate, half of said first face having a first electrically conductive pattern such that said first pattern produces a first resultant voltage that is the vector sum of the voltages variably capacitively coupled to said first pattern due to said excitation voltages, said first resultant voltage having a constant peak amplitude and a phase angle that varies linearly with displacement of said rotor plate relative to said first stator plate, the other half of said first face having a second electrically conductive pattern that is the mirror image of said first conductive pattern, said second conductive pattern producing a second resultant voltage that is the vector sum of the voltages variably capacitively coupled to said second pattern due to said excitation voltages, said second resultant voltage equal to said first resultant voltage and of opposite polarity, said second face of said rotor plate having two annular conductive areas, one of said areas electrically connected to said first pattern, the other of said areas electrically connected to said second pattern, said second stator plate comprised of conductive areas forming a constant capacitive pickup with said two annular conductive areas of said second face of said rotor plate, said second stator plate producing a differential output signal responsive to said first and second resultant voltages, said differential output signal having a phase angle that varies linearly with the angular displacement of said shaft. - View Dependent Claims (2, 3, 4)
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5. A capacitive angular displacement transducer producing a differential electrical output signal having a phase angle that varies linearly with the angular displacement of a shaft, comprising:
- a first stator plate divided into four electrically isolated excitation areas such that each excitation area has at most two adjacent excitation areas;
means impressing sinusoidal excitation voltages on said excitation areas, the phase of each impressed excitation voltage differing by ninety electrical degrees from that impressed on adjacent excitation areas;
a second stator plate; and
a rotor plate movable by said shaft coaxially mounted between said first and said second stator plates, said rotor plate having a first face parallel to and variably capacitively coupled with said excitation areas of said first stator plate, and a second face parallel to and capacitively coupled with said second stator plate, half of said first face having a first electrically conductive pattern having a differential area with respect to angular displacement that is proportional to the sine of the angular displacement from 0°
to 180° and
having a differential area that is zero from 180°
to 360°
, said first pattern producing a first resultant voltage this is the vector sum of the voltages variably capacitively coupled to said first pattern due to said excitation voltages, said first resultant voltage having a constant peak amplitude and a phase angle that varies linearly with displacement of said rotor plate relative to said first stator plate, the other half of said first face having a second electrically conductive pattern having a differential area with respect to angular displacement that is proportional to the sine of the angular displacement from 180°
to 360° and
having a differential area that is zero from 0°
to 180°
, said second pattern producing a second resultant voltage that is the vector sum of the voltages variably capacitively coupled to said second pattern due to said excitation voltages, said second resultant voltage equal to said first resultant voltage and of opposite polarity, said second face of said rotor plate having two concentric annular conductive areas, one of said areas electrically connected to said first pattern, the other of said areas electrically connected to said second pattern, said second stator plate comprised of conductive areas in a mirror image configuration of said second face of said rotor plate, said second stator plate producing a differential output signal responsive to said first and second resultant voltages, said differential output signal having a phase angle that varies linearly with the angular displacement of said shaft.
- a first stator plate divided into four electrically isolated excitation areas such that each excitation area has at most two adjacent excitation areas;
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6. A watt hour meter register having a plurality of dial pointers each movable by a shaft, and wherein each shaft carries a capacitive angular displacement transducer producing a differential electrical output signal having a phase angle that vares linearly with the angular displacement of said shaft, each capacitive angular displacement transducer comprising:
- a first stator plate divided into a plurality of electrically isolated excitation areas such that each excitation area has at most two adjacent excitation areas;
means impressing sinusoidal excitation voltages on said excitation areas, the phase of each impressed excitation voltage differing by a fixed and predetermined amount from that impressed on adjacent excitation areas;
a second stator plate; and
a rotor plate movable by said shaft coaxially mounted between said first and said second stator plates, said rotor plate having a first face parallel to and variably capacitively coupled with said excitation areas of said first stator plate, and a second face parallel to and capacitively coupled with said second stator plate, half of said first face having a first electrically conductive pattern such that said first pattern produces a first resultant voltage that is the vector sum of the voltages variably capacitively coupled to said first pattern due to said excitation voltages, said first resultant voltage having a constant peak amplitude and a phase angle that varies linearly with displacement of said rotor plate relative to said first stator plate, the other half of said first face having a second electrically conductive pattern that is the mirror image of said first conductive pattern, said second conductive pattern producing a second resultant voltage that is the vector sum of the voltages variably capacitively coupled to said second pattern due to said excitation voltages, said second resultant voltage equal to said first resultant voltage and of opposite polarity, said second face of said rotor plate having two annular conductive areas, one of said areas electrically connected to said first pattern, the other of said areas electrically connected to said second pattern, said second stator plate comprised of conductive areas forming a constant capacitive pickup with said two annular conductive areas of said second face of said rotor plate, said second stator plate producing a differential output signal responsive to said first and second resultant voltages, said differential output signal having a phase angle that varies linearly with the angular displacement of said shaft.
- a first stator plate divided into a plurality of electrically isolated excitation areas such that each excitation area has at most two adjacent excitation areas;
Specification
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Current AssigneeABB Power T&D Limited (ABB Limited)
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Original AssigneeWestinghouse Electric Company LLC (Brookfield Asset Management Incorporated)
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InventorsJohnson, Richard A., Vercellotti, Leonard C.
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Primary Examiner(s)Caldwell, Sr., John W.
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Assistant Examiner(s)Groody, James J.
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Application NumberUS06/010,565Time in Patent Office669 DaysField of Search340/177 R, 340/200, 340/347 MS, 340/180, 340/310 A, 340/347 P, 340/347 AD, 340/347 M, 324/60 C, 324/61 R, 323/93, 318/662US Class Current324/660CPC Class CodesG01D 5/2412 by varying overlapG08C 19/38 using dynamo-electric devic...
