Pressure switch

What is claimed is: 1. A pressure switch system, comprising: a pressure switch assembly fluidly coupled to a wellhead, wherein the pressure switch assembly comprises: a diaphragm disposed at a first end of the pressure switch assembly, wherein the diaphragm is deflectable to an energized position based on a pressurized fluid; a pin coupled to the diaphragm; a dart coupled to the pin, wherein the pin is disposed between the dart and the diaphragm, and wherein the diaphragm exerts a force on the pin as the diaphragm transitions to the energized position such that the force on the pin exerts a pressure on the dart; and a sensor at a second end of the pressure switch assembly and proximal to the dart, wherein the dart translationally moves towards the sensor based on the pressure on the dart exerted by the pin; a remote connector coupled to the wellhead; and a controller coupled to the pressure switch assembly, wherein the sensor transmits one or more measurements to the controller as the dart translationally moves towards the sensor to within a reading range associated with the sensor, and wherein the controller controls disengagement of the remote connector based on the one or more measurements. 2. The system of claim 1 , wherein the pressure switch assembly further comprises a compression assembly, wherein the dart is at least one of disposed within or coupled to the compression assembly. 3. The system of claim 2 , wherein the compression assembly comprises a spring. 4. The system of claim 2 , wherein the pressure switch assembly further comprises an adjusting nut that sets a preloading force on the compression assembly. 5. The system of claim 1 , further comprising: a first arm coupled to the pressure switch assembly and a manifold; and a second arm coupled to the pressure switch assembly and the remote connector; where fluid flows from the manifold to the wellhead. 6. The system of claim 1 , further comprising: a hydraulics unit, wherein the hydraulics unit comprises: an actuator communicatively coupled to the controller; a hydraulic valve coupled to the remote connector; and a hydraulic line coupled to the hydraulic valve and the actuator, wherein actuation of the hydraulic valve by the actuator allows the remote connector to be disengaged from the wellhead. 7. The system of claim 6 , wherein the controller controls actuation of the actuator based on the one or more measurements. 8. A method for controlling disengagement of a remote connector, comprising: flowing a fluid at a first pressure through a remote connector to a wellhead, wherein a pressure switch assembly is coupled to the remote connector, and wherein the pressure switch assembly comprises: a diaphragm disposed at a first end of the pressure switch assembly, wherein the diaphragm is deflectable to an energized position based on the fluid; a pin coupled to the diaphragm; a dart coupled to the pin, wherein the pin is disposed between the dart and the diaphragm, and wherein the diaphragm exerts a force on the pin as the diaphragm transitions to the energized position such that the force on the pin exerts a pressure on the dart; and a sensor at a second end of the pressure switch assembly and proximal to the dart; transitioning the diaphragm to an energized position based on the first pressure to exert the force against the pin; exerting the pressure by the pin against the dart based on the force; transitioning the dart to a location within a reading range associated with the sensor based on the pressure on the dart exerted by the pin; detecting by the sensor the dart when the dart is within the reading range associated with the sensor; and controlling disengagement of the remote connector from the wellhead based on one or more measurements from the sensor. 9. The method of claim 8 , wherein transitioning the dart to the location within the reading range comprises compressing a compression assembly, wherein the dart is at least one of disposed within or coupled to the compression assembly. 10. The method of claim 9 , wherein the compression assembly comprises a spring. 11. The method of claim 9 , wherein the pressure switch assembly further comprises an adjusting nut that sets a preloading force on the compression assembly. 12. The method of claim 8 , wherein controlling disengagement of the remote connector comprises actuating a hydraulic valve, wherein the hydraulic valve is coupled to the remote connector. 13. The method of claim 12 , wherein the controller controls actuation of the hydraulic valve based on the one or more measurements. 14. A pressure switch assembly fluidly coupled to a wellhead, comprising: a diaphragm disposed at a first end of the pressure switch assembly, wherein the diaphragm is deflectable to an energized position based on a pressurized fluid; a pin coupled to the diaphragm; a dart coupled to the pin, wherein the pin is disposed between the dart and the diaphragm, and wherein the diaphragm exerts a force on the pin as the diaphragm transitions to the energized position such that the force on the pin exerts a pressure on the dart; and a sensor at a second end of the pressure switch assembly and proximal to the dart, wherein the dart translationally moves towards the sensor based on the pressure on the dart exerted by the pin; a remote connector coupled to the wellhead; at least one processor; and a memory including non-transitory executable instructions that, when executed, cause the at least one processor to: receive one or more measurements from the sensor as the dart translationally moves towards the sensor to within a reading range associated with the sensor; and control disengagement of the remote connector based on the one or more measurements. 15. The pressure switch assembly of claim 14 , further comprising: a compression assembly, wherein the dart is at least one of disposed within or coupled to the compression assembly. 16. The pressure switch assembly of claim 14 , wherein the compression assembly comprises a spring. 17. The pressure switch assembly of claim 14 , wherein the one or more measurements are indicative of an unsafe disengagement pressure. 18. The pressure switch assembly of claim 14 , wherein the non-transitory executable instructions that, when executed, further cause the at least one processor to transmit a signal to a hydraulic system, wherein the signal causes the hydraulic system to bypass a hydraulic valve that prevents the remote connector from being disengaged from the wellhead. 19. The pressure switch assembly of claim 14 , wherein the non-transitory executable instructions that, when executed, further cause the at least one processor to receive from the sensor one or more measurements indicative of a state of the pressure switch assembly. 20. The pressure switch assembly of claim 19 , wherein controlling disengagement of the remote connector is based on the state of the pressure switch assembly.