Systems and methods for a solenoid having a permanent magnet

We claim: 1. A solenoid, comprising: a housing; a pole piece; an end plate formed with or coupled to the housing; a wire coil arranged within the housing; a permanent magnet arranged between the pole piece and the end plate; an armature configured to selectively move between a first position and a second position in response to a current applied to the wire coil; and a pin coupled to the armature, wherein the pole piece includes a bearing protrusion that extends axially from the end plate and that includes a bearing surface that slidably receives the pin, wherein the pole piece includes a thin-walled portion that extends through the permanent magnet and is dimensioned so that magnetic flux generated by the permanent magnet saturates in the thin-walled portion. 2. The solenoid of claim 1 , wherein the permanent magnet is arranged axially between the pole piece and the end plate. 3. The solenoid of claim 1 , wherein the permanent magnet is axially charged. 4. A solenoid, comprising: a housing; a pole piece; an end plate formed with or coupled to the housing; a wire coil arranged within the housing; a permanent magnet arranged between the pole piece and the end plate; an armature configured to move between a first position and a second position in response to a current applied to the wire coil; a pin coupled to the armature, wherein the pole piece includes a bearing protrusion that extends axially from the end plate and that includes a bearing surface that slidably receives the pin; and a spring configured to bias the armature, wherein when the wire coil is de-energized, the armature is maintained in at least one of the first position and the second position, and wherein the first position is configured to be maintained by the spring and the second position is configured to be maintained by magnetic attraction between the armature and the permanent magnet through engagement between the armature and the pole piece, wherein the pole piece includes a thin-walled portion that extends through the permanent magnet and is dimensioned so that magnetic flux generated by the permanent magnet saturates in the thin-walled portion. 5. The solenoid of claim 4 , wherein the spring is biased between the armature and the pole piece. 6. The solenoid of claim 5 , wherein the pole piece includes an armature surface and a spring surface, and wherein the armature surface is axially separated from the spring surface and the spring is in engagement with the spring surface. 7. The solenoid of claim 4 , wherein the permanent magnet is arranged axially between the pole piece and the end plate, and wherein the permanent magnet is axially charged. 8. A solenoid, comprising: a housing; a pole piece; an end plate formed with or coupled to the housing; a wire coil arranged within the housing; a permanent magnet arranged axially between the pole piece and the end plate; an armature configured to move between a first position and a second position in response to a current applied to the wire coil; a pin coupled to the armature, wherein the pole piece or the end plate includes a bearing protrusion that extends axially away from an exterior surface of the end plate and includes a bearing surface that is configured to slidably receive the pin; and an armature tube that movably receives the armature, wherein the pole piece includes a thin-walled portion that extends through the permanent magnet and is dimensioned so that magnetic flux generated by the permanent magnet saturates in the thin-walled portion. 9. The solenoid of claim 1 , further comprising a spring biased between the armature and the pole piece, wherein, when the wire coil is de-energized, the armature is maintained in at least one of the first position and the second position, and wherein the first position is configured to be maintained by the spring and the second position is configured to be maintained by magnetic attraction between the armature and the permanent magnet through engagement between the armature and the pole piece. 10. The solenoid of claim 1 , wherein the permanent magnet is arranged axially between the pole piece and the end plate, and wherein the permanent magnet is axially charged. 11. The solenoid of claim 1 , wherein the thin-walled portion is configured to retain the permanent magnet on the end plate. 12. The solenoid of claim 1 , wherein the thin-walled portion defines a radial recess to further reduce a radial cross section at the thin-walled portion. 13. The solenoid of claim 12 , wherein the radial recess is provided on a radially inner surface of the thin-walled portion. 14. The solenoid of claim 4 , wherein the thin-walled portion is configured to retain the permanent magnet on the end plate. 15. The solenoid of claim 8 , the solenoid further comprising a spring configured to bias the armature, wherein when the wire coil is de-energized, the armature is maintained in at least one of the first position and the second position, and wherein the first position is configured to be maintained by the spring and the second position is configured to be maintained by magnetic attraction between the armature and the permanent magnet through engagement between the armature and the pole piece. 16. The solenoid of claim 8 , wherein the thin-walled portion is configured to retain the permanent magnet on the end plate. 17. The solenoid of claim 8 , wherein the thin-walled portion defines a radial recess to further reduce a radial cross section at the thin-walled portion. 18. The solenoid of claim 17 , wherein the radial recess is provided on a radially inner surface of the thin-walled portion.