Propeller blade angle feedback arrangement and method

The invention claimed is: 1. A blade angle feedback ring assembly for an aircraft propeller, the propeller rotatable about a longitudinal axis and having an adjustable blade angle, the assembly comprising: a feedback ring coupled to the propeller to rotate with the propeller and to move along the longitudinal axis with adjustment of the blade angle, the feedback ring having a plurality of position markers spaced around a circumference thereof; a plurality of rods coupled to the feedback ring and extending along a direction substantially parallel to the longitudinal axis, the plurality of rods configured to support the feedback ring for longitudinal sliding movement along the longitudinal axis with adjustment of the blade angle; at least one sensor configured to detect, as the feedback ring rotates about the longitudinal axis, passage of the plurality of position markers to provide feedback on the blade angle; and at least one shielding element provided between the feedback ring and the propeller, the at least one shielding element configured to shield the feedback ring from electromagnetism. 2. The feedback ring assembly of claim 1 , wherein the at least one shielding element comprises the plurality of rods being made from a non-conductive material. 3. The feedback ring assembly of claim 1 , wherein the feedback ring comprises a plurality of threaded inserts spaced around a circumference of the feedback ring and each configured to receive therein a given one of the plurality of rods, the at least one shielding element comprising the plurality of threaded inserts being made from a non-conductive material. 4. The feedback ring assembly of claim 3 , wherein the plurality of threaded inserts are made from a ceramic material. 5. The feedback ring assembly of claim 1 , wherein the at least one shielding element comprises the feedback ring being made from a non-conductive material. 6. The feedback ring assembly of claim 5 , wherein the feedback ring is made from a non-conductive polymer. 7. The feedback ring assembly of claim 1 , wherein the plurality of position markers is oriented at an angle relative to one another and relative to the longitudinal axis, the feedback ring further comprising a metallic inner ring configured to receive the plurality of rods therein and an outer ring configured to encapsulate the plurality of position markers, the at least one shielding element comprising the outer ring being made from a non-conductive material. 8. The feedback ring assembly of claim 7 , wherein the outer ring is made from a non-conductive polymer. 9. The feedback ring assembly of claim 1 , wherein the plurality of position markers is oriented at an angle relative to one another and relative to the longitudinal axis, the feedback ring further comprising a metallic inner ring configured to receive the plurality of rods therein and a metallic outer ring configured to support the plurality of position markers thereon, the at least one shielding element comprising a separating layer disposed between the inner ring and the outer ring, the separating layer made from a non-conductive material. 10. The feedback ring assembly of claim 1 , wherein the at least one shielding element comprises an insulator coating applied on the feedback ring for increasing a dielectric resistance of an air gap between the feedback ring and the at least one sensor. 11. The feedback ring assembly of claim 1 , wherein the at least one shielding element comprises an insulator coating applied on the at least one sensor for increasing a dielectric resistance of an air gap between the feedback ring and the at least one sensor. 12. The feedback ring assembly of claim 1 , wherein the feedback ring has first and second opposing faces and defines a root surface that extends and is circumscribed by the first and second faces, the plurality of position markers oriented at an angle relative to one another and relative to the longitudinal axis and extending away from the root surface, the at least one shielding element comprising a magnetic field blocking nano-plating applied on the root surface. 13. The feedback ring assembly of claim 1 , wherein the feedback ring has first and second opposing faces and defines a root surface that extends and is circumscribed by the first and second faces, the plurality of position markers oriented at an angle relative to one another and relative to the longitudinal axis and extending away from the root surface, the at least one shielding element comprising a coating applied on the root surface, the coating made of a material having resistivity to becoming magnetized. 14. The feedback ring assembly of claim 1 , wherein the at least one shielding element comprises the feedback ring being made from a material having resistivity to becoming magnetized. 15. An aircraft propeller system comprising: a propeller rotatable about a longitudinal axis and having blades with adjustable blade angle; a feedback ring coupled to the propeller to rotate with the propeller and to move along the longitudinal axis with adjustment of the blade angle, the feedback ring having a plurality of position markers spaced around a circumference thereof; a plurality of rods coupled to the feedback ring and extending along a direction substantially parallel to the longitudinal axis, the plurality of rods configured to support the feedback ring for longitudinal sliding movement along the longitudinal axis with adjustment of the blade angle; at least one sensor configured to detect, as the feedback ring rotates about the longitudinal axis, passage of the plurality of position markers to provide feedback on the blade angle; and at least one shielding element provided between the feedback ring and the propeller, the at least one shielding element configured to shield the feedback ring from electromagnetism. 16. The aircraft propeller system of claim 15 , wherein the at least one shielding element comprises the plurality of rods being made from a non-conductive material. 17. The aircraft propeller system of claim 15 , wherein the feedback ring comprises a plurality of threaded inserts spaced around a circumference of the feedback ring and each configured to receive therein a given one of the plurality of rods, the at least one shielding element comprising the plurality of threaded inserts being made from a non-conductive material. 18. The aircraft propeller system 15 , wherein the at least one shielding element comprises the feedback ring being made from a non-conductive material. 19. The aircraft propeller system of claim 15 , wherein the plurality of position markers is oriented at an angle relative to one another and relative to the longitudinal axis, the feedback ring further comprising a metallic inner ring configured to receive the plurality of rods therein and an outer ring configured to encapsulate the plurality of position markers, the at least one shielding element comprising the outer ring being made from a non-conductive material. 20. The aircraft propeller system of claim 15 , wherein the plurality of position markers is oriented at an angle relative to one another and relative to the longitudinal axis, the feedback ring further comprising a metallic inner ring configured to receive the plurality of rods therein and a metallic outer ring configured to support the plurality of position markers thereon, the at least one shielding element comprising a separating layer disposed between the inner ring and the outer ring, the separating layer made from a non-conductive