Electro-magnetic throttle valve with integrated blowdown conduit

What is claimed is: 1. A fluid compressor system for compressing a working fluid comprising: a compressor assembly having a discharge; and an electro-magnetic throttle valve (EMTV) including: a valve having a ferromagnetic valve plate configured to move between a fully open position and a closed position, an electromagnet supported by a supporting frame, the electromagnet configured to actuate the movement of the valve plate between the fully open position and the closed position, and a blowdown conduit disposed within the supporting frame, the blowdown conduit coupled to the discharge of the compressor assembly, the blowdown conduit configured to release pressure within the fluid compressor system when the valve plate is at the closed position. 2. The fluid compressor system of claim 1 , wherein the EMTV includes a first housing portion and a second housing portion, the first housing portion housing the valve plate and the second housing portion defining an outlet of the valve and the supporting frame. 3. The fluid compressor system of claim 1 , wherein the EMTV includes a valve rod assembly connecting the valve plate with the supporting frame, the valve rod assembly configured to guide the movement of the valve plate and including a valve rod having an orifice, wherein when the valve plate is at the closed position, the orifice of the valve rod aligns with the blowdown conduit, releasing the pressure built from the discharge of the compressor assembly. 4. The fluid compressor system of claim 3 , wherein the electromagnet is configured to actuate the movement of the valve plate to at least one of a plurality of intermediate positions. 5. The fluid compressor system of claim 4 , wherein the valve rod assembly includes a sleeve and a rod seal surrounding the valve rod, the sleeve and the rod seal including a respective orifice aligned with the orifice of the valve rod, wherein when the valve plate is at the fully open position or at one of the plurality of intermediate positions, the valve rod, the rod seal, and the sleeve close the blowdown conduit. 6. The fluid compressor system of claim 1 , wherein the EMTV includes a biasing mechanism configured to bias the movement of the valve plate to the closed position, wherein the biasing mechanism is at least one of a permanent magnet, a tension spring, or a compression spring. 7. The fluid compressor system of claim 1 , wherein the EMTV includes a biasing mechanism configured to bias the movement of the valve plate to the fully open position, wherein the biasing mechanism is at least one of a permanent magnet, a tension spring, or a compression spring. 8. A fluid compressor system for compressing a working fluid comprising: a compressor assembly; and an electro-magnetic throttle valve (EMTV) including: a valve having a ferromagnetic valve plate configured to move between a fully open position and a closed position, and an electromagnet aligned with the valve plate, the electromagnet supported by a supporting frame, the supporting frame defining a blowdown conduit configured to release a pressure within the fluid compressor system, wherein the electromagnet actuates the movement of the valve plate between the fully open position and the closed position. 9. The fluid compressor system of claim 8 , wherein the blowdown conduit is coupled to a discharge of the compressor assembly and is configured to release the pressure within the fluid compressor system when the valve plate is at the closed position. 10. The fluid compressor system of claim 8 , wherein the EMTV includes a first housing portion and a second housing portion, the first housing portion housing the valve plate of the valve and the second housing portion defining an outlet of the valve and the supporting frame configured to hold the electromagnet. 11. The fluid compressor system of claim 8 , wherein the EMTV includes a valve rod assembly connecting the valve plate with the supporting frame, the valve rod assembly configured to guide the movement of the valve plate and including a valve rod having an orifice, and wherein when the valve plate is at the closed position, the orifice of the valve rod aligns with the blowdown conduit, releasing the pressure built from the discharge of the compressor assembly. 12. The fluid compressor system of claim 11 , wherein the electromagnet is configured to actuate the movement of the valve plate to at least one of a plurality of intermediate positions. 13. The fluid compressor system of claim 12 , wherein the valve rod assembly includes a sleeve and a rod seal surrounding the valve rod, the sleeve and the rod seal including a respective orifice aligned with the orifice of the valve rod, wherein when the valve plate is at the fully open position or at one of the plurality of intermediate position, the valve rod, the rod seal, and the sleeve close the blowdown conduit. 14. The fluid compressor system of claim 8 , wherein the EMTV includes a biasing mechanism configured to bias the movement of the valve plate towards the closed position, wherein the biasing mechanism is at least one of a permanent magnet, a tension spring, or a compression spring. 15. An electro-magnetic throttle valve (EMTV) configured to regulate a flow of a working fluid in a fluid compressor system, the EMTV comprising: a valve configured to receive the working fluid into a compressor assembly, the compressor assembly having a discharge and the valve having a ferromagnetic valve plate configured to move between a fully open position and a closed position, an electromagnet supported by a supporting frame, the electromagnet configured to actuate the movement of the valve plate between the fully open position and the closed position, and a blowdown conduit disposed within the supporting frame, the blowdown conduit coupled to the discharge and configured to release pressure within the fluid compressor system when the valve plate is at the closed position. 16. The EMTV of claim 15 , wherein the EMTV includes a valve rod assembly connecting the valve plate with the supporting frame, the valve rod assembly configured to guide the movement of the valve plate and including a valve rod having an orifice, wherein when the valve plate is at the closed position, the orifice of the valve rod aligns with the blowdown conduit, releasing the pressure built from the discharge of the compressor assembly. 17. The EMTV of claim 16 , wherein the electromagnet is configured to actuate the movement of the valve plate to at least one of a plurality intermediate position. 18. The EMTV of claim 17 , wherein the valve rod assembly includes a sleeve and a rod seal surrounding the valve rod, the sleeve and the rod seal including a respective orifice aligned with the orifice of the valve rod, wherein when the valve plate is at the fully open position or at one of the plurality of intermediate position, the valve rod, the rod seal, and the sleeve close the blowdown conduit. 19. The EMTV of claim 15 , further including a biasing mechanism configured to bias the movement of the valve plate to the closed position, wherein the biasing mechanism is at least one of a permanent magnet, a tension spring, or a compression spring. 20. The EMTV of claim 15 , further including a biasing mechanism configured to bias the movement of the valve plate to the fully open position, wherein the biasing mechanism is at least one of a permanent magnet, a tension spring, or a compression spring.