Thermistor flow path

What is claimed is: 1. A fluid pump comprising: a pump element in communication with an inlet and an outlet, wherein rotation of the pump element generates an inward suction at the inlet and outward pressure at the outlet that cooperatively moves a fluid through a fluid path, the pump element having a stator and a rotor within a housing; an accessory fluid path in communication with the inlet and the fluid path, wherein an inlet orifice directs a portion of the fluid through the accessory fluid path, the accessory fluid path having a low-restriction return path that provides a continuous flow of the fluid through the accessory fluid path and to an outlet orifice during operation of the pump element; and a circuit board housing having a contoured portion that aligns with one side of an outer wall, the circuit board housing having a printed circuit board (PCB) with a thermistor in communication with the contoured portion of the circuit board housing and the accessory fluid path, wherein: the inlet orifice and the contoured portion are positioned at opposing ends of the housing; the continuous flow is directed between the contoured portion and the outlet orifice between the rotor and the outer wall; the low-restriction return path between the contoured portion and the outlet orifice is configured to maintain a temperature of the continuous flow of the fluid within the contoured portion of the accessory fluid path to be similar to a temperature of the fluid in the fluid path. 2. The fluid pump of claim 1 , wherein the thermistor is positioned in communication with the contoured portion to simultaneously monitor, in real time, the temperature of the continuous flow of the fluid in the accessory fluid path and the temperature of the fluid in the fluid path. 3. The fluid pump of claim 1 , wherein the inlet orifice directs the portion of the fluid from the inlet to a central channel of the pump element, wherein the central channel extends through a drive shaft of the rotor. 4. The fluid pump of claim 3 , wherein the central channel of the drive shaft extends from the inlet orifice and to the contoured portion of the circuit board housing. 5. The fluid pump of claim 1 , wherein the outlet orifice is aligned with a diverging portion of the inlet orifice. 6. The fluid pump of claim 5 , wherein a diverting portion of the inlet orifice diverts the portion of the fluid into the accessory fluid path before reaching the pump element. 7. The fluid pump of claim 1 , wherein the outlet orifice and the pump element receive an excess flow of the fluid from the accessory fluid path and direct the excess flow of the fluid to the outlet through the fluid path. 8. The fluid pump of claim 1 , wherein the operation of the pump element moves the fluid through a plurality of flow paths, wherein the plurality of flow paths comprise the fluid path and the accessory fluid path. 9. The fluid pump of claim 8 , wherein the plurality of flow paths each move the fluid to the outlet. 10. The fluid pump of claim 1 , wherein the thermistor is disposed within the contoured portion of the circuit board housing. 11. The fluid pump of claim 1 , wherein the inlet orifice and the outlet orifice are each positioned proximate the pump element, and wherein the outlet orifice and the pump element regulates a flow of the fluid into the fluid path and regulates the flow of the fluid into the accessory fluid path. 12. The fluid pump of claim 1 , wherein the pump element is a positive displacement pump. 13. A fluid pump comprising: a pump element in communication with a fluid path, the pump element including a rotor and a stator within a housing; and an inlet orifice in communication with the pump element, wherein the pump element and the inlet orifice direct a primary flow of a fluid to an outlet and an excess flow of the fluid into an accessory fluid path having a portion that extends between the rotor and an outer wall of the housing, and a circuit board housing having a contoured portion that aligns with one side of the outer wall; wherein the accessory fluid path includes a low-restriction return path that moves the excess flow of the fluid as a continuous flow through the accessory fluid path and toward an outlet orifice; the low-restriction return path is configured to maintain a temperature of the excess flow of the fluid in the contoured portion of the accessory fluid path to be similar to a temperature of the primary flow of the fluid; and a thermistor is positioned in communication with the contoured portion to simultaneously monitor, in real time, the temperature of the excess flow of the fluid in the accessory fluid path and the temperature of the primary flow of the fluid in the fluid path. 14. The fluid pump of claim 13 , wherein the inlet orifice directs a portion of the fluid from an inlet to a central channel of the pump element, wherein the central channel extends through a drive shaft of the rotor to the contoured portion of the circuit board housing. 15. The fluid pump of claim 14 , wherein the outlet orifice is aligned with a diverting portion of the inlet orifice that diverts the portion of the fluid into the accessory fluid path before reaching the pump element. 16. The fluid pump of claim 13 , wherein the outlet orifice and the pump element receive accessory fluid from the accessory fluid path and direct the accessory fluid to the outlet through the fluid path. 17. The fluid pump of claim 13 , wherein the pump element generates an inward suction at an inlet of the fluid path and at the outlet orifice of the accessory fluid path, and wherein the pump element generates an outward pressure at the outlet of the fluid path. 18. A fluid pump comprising: a stator and rotor in electromagnetic communication and disposed within a housing; a pump element attached to a first end of a drive shaft of the rotor; and an inlet orifice in communication with the pump element that diverts a primary flow of a fluid to an outlet and an excess flow of the fluid through the inlet orifice and into an accessory fluid path; an outlet orifice in communication with the pump element, the outlet orifice directing excess fluid from the accessory fluid path to a primary fluid path; and a circuit board housing positioned at a second end of the drive shaft that opposes the first end, the circuit board housing having a contoured portion that aligns with one side of an outer wall of the housing; wherein the accessory fluid path directs the excess flow of the fluid along a linear path directly from the inlet orifice to the contoured portion; the accessory fluid path includes a low-restriction return path that moves the excess flow of the fluid as a continuous flow through the accessory fluid path and toward the outlet orifice; the low-restriction return path is configured to maintain a temperature of the excess flow of the fluid in the contoured portion of the accessory fluid path to be similar to a temperature of the primary flow of the fluid; and a thermistor is positioned in communication with the contoured portion to simultaneously monitor, in real time, the temperature of the excess flow of the fluid in the accessory fluid path and the temperature of the primary flow of the fluid in a fluid path. 19. The fluid pump of claim 18 , wherein the outlet orifice is aligned with a diverting portion of the inlet orifice that diverts the excess fluid into the accessory fluid path before reaching the pump element, and wherein the outlet orifice and the pump element receive accessory fluid f