Methods and apparatuses for providing freeze resistant sensing assembly

The invention claimed is: 1. A pressure sensing assembly, comprising: a first member comprising an aperture and a flow tunnel, wherein the aperture defines an inner opening disposed on an inner surface of the first member and an outer opening disposed on an outer surface of the first member, wherein the flow tunnel defines a tunnel opening on the inner surface of the first member; a protection diaphragm disposed on the inner surface of the first member, wherein the protection diaphragm covers the inner opening of the aperture and comprises a diaphragm opening overlapping with the tunnel opening; and a sensing diaphragm disposed on the inner surface of a second member, wherein the second member is fastened to the first member, wherein the sensing diaphragm and the protection diaphragm at least partially form a protection cavity to receive a fluid substance, wherein the protection diaphragm reduces a force from the fluid substance when the fluid substance solidifies. 2. The pressure sensing assembly of claim 1 , further comprising: a header component disposed in the second member, wherein the header component and the sensing diaphragm at least partially form a sensing cavity. 3. The pressure sensing assembly of claim 2 , further comprising: a sensing die disposed in the sensing cavity and mounted on a surface of the header component. 4. The pressure sensing assembly of claim 3 , further comprising: an isolation liquid disposed in the sensing cavity. 5. The pressure sensing assembly of claim 3 , further comprising: a liquid insert component disposed in the second member and supplies isolation liquid in the sensing cavity. 6. The pressure sensing assembly of claim 3 , wherein the sensing cavity is in a vacuum state. 7. The pressure sensing assembly of claim 3 , wherein the sensing die is electronically coupled to a sensing circuitry. 8. The pressure sensing assembly of claim 7 , wherein the sensing circuitry comprises a Wheatstone bridge circuit. 9. The pressure sensing assembly of claim 8 , wherein the flow tunnel is connected to the protection cavity through the tunnel opening. 10. The pressure sensing assembly of claim 9 , wherein the sensing diaphragm transfers a force from the fluid substance to the sensing die. 11. The pressure sensing assembly of claim 9 , further comprising: a cap component attached to the sensing diaphragm, wherein the cap component comprises at least one cap opening. 12. The pressure sensing assembly of claim 1 , wherein the protection diaphragm is welded on the first member. 13. The pressure sensing assembly of claim 1 , wherein the protection diaphragm is attached to the first member through an adhesive material. 14. The pressure sensing assembly of claim 1 , wherein the second member is fastened to the first member through threaded fitting. 15. The pressure sensing assembly of claim 1 , further comprising: a third member being fastened to the second member, wherein the third member receives a power source. 16. A pressure sensing assembly, comprising: a flow tunnel disposed in a first member and receives a fluid substance, wherein the flow tunnel comprises a tunnel opening on an inner surface of the first member; at least one spring-loaded component disposed on the inner surface of the first member surrounding the tunnel opening; a protection diaphragm disposed on the inner surface of the first member, wherein the protection diaphragm covers an inner opening of an aperture of the first member and comprises a diaphragm opening overlapping with the tunnel opening; and a sensing diaphragm disposed in a second member, wherein the second member is fastened to the first member, wherein the at least one spring-loaded component and the sensing diaphragm at least partially form a protection cavity to receive the fluid substance through the tunnel opening. 17. The pressure sensing assembly of claim 16 , wherein the at least one spring-loaded component reduces a force from the fluid substance when the fluid substance solidifies. 18. The pressure sensing assembly of claim 16 , wherein the at least one spring-loaded component comprises at least one spring component connected to a washer component. 19. A pressure sensing assembly, comprising: a flow tunnel disposed in a first member and receives a fluid substance, wherein the flow tunnel comprises a tunnel opening on an inner surface of the first member; a sensing diaphragm disposed in a second member, wherein the second member is fastened to the first member, wherein the inner surface of the first member and the sensing diaphragm at least partially form a protection cavity to receive the fluid substance through the tunnel opening; a protection diaphragm disposed on the inner surface of the first member, wherein the protection diaphragm covers an inner opening of an aperture of the first member and comprises a diaphragm opening overlapping with the tunnel opening; and a bellows component disposed in the protection cavity. 20. The pressure sensing assembly of claim 19 , wherein the bellows component reduces a force from the fluid substance when the fluid substance solidifies.