Electronic pressure relief in pumps

What is claimed is: 1. An aftertreatment system comprising; a selective catalytic reduction system including a catalyst for reducing constituents of an exhaust gas; a reductant storage tank; a reductant insertion assembly fluidly coupled to the reductant storage tank and the selective catalytic reduction system, the reductant insertion assembly comprising a pump and a dosing valve fluidly coupled to the pump; a sensing circuitry configured to sense parameters from which a torque generated by the pump is determinable; and a controller communicatively coupled to the reductant insertion assembly and the sensing circuitry, the controller configured to: initialize the pump so as to pressurize a reductant in the pump, open the dosing valve, thereby inserting the reductant into the selective catalytic reduction system, determine the torque generated by the pump based on the parameters sensed by the sensing circuitry, the torque being indicative of an operating pressure of the pump, and in response to the torque exceeding a threshold, stop the pump. 2. The aftertreatment system of claim 1 , wherein the controller is configured to adjust the threshold based on a value of an operating signal. 3. The aftertreatment system of claim 2 , wherein the controller is configured to adjust the threshold based on an operating temperature of the pump. 4. The aftertreatment system of claim 1 , wherein the reductant insertion assembly does not include a pressure relief valve. 5. The aftertreatment system of claim 1 , wherein the sensing circuitry comprises a rotor position sensor and an acceleration sensor. 6. An aftertreatment system comprising; a selective catalytic reduction system including a catalyst for reducing constituents of an exhaust gas; a reductant storage tank; a reductant insertion assembly fluidly coupled to the reductant storage tank and the selective catalytic reduction system, the reductant insertion assembly comprising a pump and a dosing valve fluidly coupled to the pump; a sensing circuitry configured to sense parameters from which a torque generated by the pump is determinable; and a controller communicatively coupled to the reductant insertion assembly and the sensing circuitry, the controller configured to: initialize the pump so as to pressurize a reductant in the pump, open the dosing valve, thereby inserting the reductant into the selective catalytic reduction system, determine the torque generated by the pump based on the parameters sensed by the sensing circuitry, the torque being indicative of an operating pressure of the pump, in response to the torque exceeding a threshold, stop the pump; and activate the dosing valve while the pump is stopped, the activating allowing the reductant to be inserted into the selective catalytic reduction system through the dosing valve while the pump is stopped. 7. The aftertreatment system of claim 6 , wherein the controller is further configured to restart the pump in response to the torque falling below the threshold. 8. An aftertreatment system comprising; a selective catalytic reduction system including a catalyst for reducing constituents of an exhaust gas; a reductant storage tank; a reductant insertion assembly fluidly coupled to the reductant storage tank and the selective catalytic reduction system, the reductant insertion assembly comprising a pump and a dosing valve fluidly coupled to the pump; a sensing circuitry configured to sense parameters from which a torque generated by the pump is determinable; and a controller communicatively coupled to the reductant insertion assembly and the sensing circuitry, the controller configured to: initialize the pump so as to pressurize a reductant in the pump, open the dosing valve, thereby inserting the reductant into the selective catalytic reduction system, determine the torque generated by the pump based on the parameters sensed by the sensing circuitry, determine a current value of a current consumed by the pump based on the determined torque generated by the pump, the current value being indicative of an operating pressure of the pump, and in response to the current value exceeding a predetermined threshold current value, stop the pump. 9. A reductant insertion assembly comprising: a pump; a dosing valve fluid coupled to the pump; a sensing circuitry configured to sense parameters from which a torque generated by the pump is determinable; and a controller communicatively coupled to the pump and the sensing circuitry, the controller configured to: initialize the pump so as to pressurize a reductant in the pump, open the dosing valve, thereby expelling a reductant therethrough, determine the torque generated by the pump based on the parameters sensed by the sensing circuitry, the torque being indicative of an operating pressure of the pump, and in response to the torque exceeding the threshold, stop the pump. 10. The reductant insertion assembly of claim 9 , wherein the controller is configured to adjust the threshold based on a value of an operating signal of the pump. 11. The reductant insertion assembly of claim 9 , wherein the controller is configured to adjust the threshold based on an operating temperature of the pump. 12. A reductant insertion assembly comprising: a pump; a dosing valve fluid coupled to the pump; a sensing circuitry configured to sense parameters from which a torque generated by the pump is determinable; and a controller communicatively coupled to the pump and the sensing circuitry, the controller configured to: initialize the pump so as to pressurize a reductant in the pump, open the dosing valve, thereby expelling a reductant therethrough, determine the torque generated by the pump based on the parameters sensed by the sensing circuitry, the torque being indicative of an operating pressure of the pump, in response to the torque exceeding a threshold, stop the pump, and activate the dosing valve while the pump is stopped, the activating allowing the reductant to be expelled through the dosing valve while the pump is stopped. 13. The reductant insertion assembly of claim 12 , wherein the controller is further configured to restart the pump in response to the torque falling below the threshold. 14. A reductant insertion assembly comprising: a pump; a dosing valve fluid coupled to the pump; a sensing circuitry configured to sense parameters from which a torque generated by the pump is determinable; and a controller communicatively coupled to the pump and the sensing circuitry, the controller configured to: initialize the pump so as to pressurize a reductant in the pump, open the dosing valve, thereby expelling a reductant therethrough, determine the torque generated by the pump based on the parameters sensed by the sensing circuitry, determine a current value of a current consumed by the pump based on the determined torque generated by the pump, the current value being indicative of an operating pressure of the pump, and in response to the current value exceeding a predetermined threshold current value, stop the pump. 15. A method of operating a reductant insertion assembly comprising a pump and a dosing valve structured to be fluidly coupled to an aftertreatment system, the method comprising; initializing the pump so as to pressurize a reductant in the pump to an operating pressure of the pump; opening the dosing valve, thereby inserting a reductant into the aftertreatment system; determining a torque generated by the pump; determining if a current value of a current consumed by the pump based on the determined