Coil architecture for inductive sensors

What is claimed is: 1. An assembly for an inductive sensor, comprising: a winding structure comprising two slots; a transmitter coil divided into a first portion and a second portion, wherein each of first portion and the second portion comprises a number of turns less than a total number of turns of the transmitter coil; a first receiver coil; and a second receiver coil, wherein the first portion of the transmitter coil and all turns of the first receiver coil are co-located in a first slot of the two slots, and the second portion of the transmitter coil and all turns of the second receiver coil are co-located in a second slot of the two slots. 2. The assembly of claim 1 , wherein the winding structure comprises a bobbin having at least two slots, including the first slot and the second slot. 3. The assembly of claim 2 , wherein the bobbin comprises electrically conductive pins that protrude from a flange, and wherein the electrically conductive pins are configured to electrically connect to respective ends of the transmitter coil, the first receiver coil, and the second receiver coil. 4. The assembly of claim 1 , further comprising a sensing component configured to detect a change in a current induced on at least one of the first receiver coil or the second receiver coil by the transmitter coil. 5. The assembly of claim 4 , wherein the sensing component is configured to generate at least one of a discrete output or an analog output in response to detection of the change in the current. 6. The assembly of claim 1 , wherein the transmitter coil is further divided into a third portion comprising a number of turns less than a total number of turns of the transmitter coil, the assembly further comprises a third receiver coil, and the third portion of the transmitter coil and all turns of the third receiver coil are co-located in a third slot of the winding structure. 7. The assembly of claim 1 , wherein the first receiver coil is stacked on top of the first portion of the transmitter coil in the first slot. 8. The assembly of claim 1 , wherein the first portion of the transmitter coil is stacked on top of the first receiver coil in the first slot. 9. A method for arranging inductive coils of an inductive sensor, comprising: locating a first portion of a transmitter coil of the inductive sensor in a first slot of two slots of a winding structure, wherein the first portion of the transmitter coil comprises a first number of turns less than a total number of turns of the transmitter coil; locating a second portion of the transmitter coil in a second slot of the winding structure, wherein the second portion of the transmitter coil comprises a second number of turns less than the total number of turns of the transmitter coil; locating all turns of a first receiver coil of the inductive sensor in the first slot of the winding structure together with the first portion of the transmitter coil; and locating all turns of a second receiver coil of the inductive sensor in the second slot of the winding structure together with the second portion of the transmitter coil. 10. The method of claim 9 , wherein the locating the first portion of the transmitter coil, the locating the second portion of the transmitter coil, the locating all turns of the first receiver coil, and the locating all turns of the second receiver coil comprise locating on a multi-coil bobbin, and wherein the multi-coil bobbin is the winding structure. 11. The method of claim 9 , further comprising electrically connecting ends of the transmitter coil and at least one of the first receiver coil or the second receiver coil to electrically conductive pins that protrude from a flange of the winding structure. 12. The method of claim 9 , further comprising detecting a change in a current induced on at least one of the first receiver coil or the second receiver coil by the transmitter coil; and generating at least one of a discrete output or an analog output in response to the detecting. 13. An inductive sensor, comprising: a winding structure comprising two slots; a transmitter coil comprising a number of turns; a first receiver coil comprising a total number of turns that are wound in a first slot of the two slots; and a second receiver coil comprising a total number of turns that are wound in a second slot of the two slots, wherein a first subset of the number of turns of the transmitter coil are wound in the first slot, and a second subset of the number of turns of the transmitter coil are wound in the second slot. 14. The inductive sensor of claim 13 , wherein the winding structure is a multi-coil bobbin comprising the first slot and the second slot, and wherein the first slot and the second slot are defined by flanges located at respective ends of a spindle of the multi-coil bobbin and a dividing section located on the spindle between the flanges. 15. The inductive sensor of claim 14 , wherein the first receiver coil and the second receiver coil are physically separated by the dividing section. 16. The inductive sensor of claim 14 , wherein the first subset of the number of turns and the second subset of the number of turns are separated by the dividing section. 17. The inductive sensor of claim 13 , wherein the first subset of the number of turns and the second subset of the number of turns are equal in number or approximately equal in number. 18. The inductive sensor of claim 13 , wherein ends of the transmitter coil and ends of at least one of the first receiver coil or the second receiver coil are connected to electrically conductive pins projecting from one of the flanges. 19. The inductive sensor of claim 13 , further comprising a sensing component configured to detect changes in a current induced on at least one of the first receiver coil or the second receiver coil by the transmitter coil. 20. The inductive sensor of claim 19 , wherein the sensing component is configured to generate at least one of a discrete output or an analog output in response to a detected change in the current induced on at least one of the first receiver coil or the second receiver coil by the transmitter coil.