Assemblies, circuits, and methods of transmitters between different equipment protection levels in a hazardous environment

What is claimed is: 1. A transmitter assembly for a hazardous environment, comprising: a transmitter comprising: a transmitting unit configured to be positioned in a first area of the hazardous environment, wherein the transmitting unit includes an intrinsically safe circuit; and a probe coupled with the transmitting unit and configured to be positioned in a second area of the hazardous environment, wherein the second area is more hazardous and has a higher equipment protection level than the first area, wherein the probe is electrically connected directly or indirectly to the intrinsically safe circuit; and a separation assembly positioned between the transmitting unit and the probe, the separation assembly comprising: a hermetic seal configured to be electrically connected to the transmitting unit and the probe; and a nut defining a tunnel sized to receive the hermetic seal therein, wherein the nut has an exterior surface and exterior threads formed on the exterior surface, wherein the exterior threads of the nut are complementary to threads on a partition wall positioned between the transmitting unit and the probe, and wherein the nut has an interior surface opposite the exterior surface and interior threads formed on the interior surface, the exterior threads and the interior threads sloping in opposite directions. 2. The transmitter assembly of claim 1 , wherein the hermetic seal further comprises exterior threads formed on a side surface of the hermetic seal and complementary to the interior threads of the nut. 3. The transmitter assembly of claim 1 , further comprising a seal wrench and a socket wrench, wherein the socket wrench is configured to engage with the nut and rotate the nut, and the seal wrench is configured to engage with the hermetic seal and hold the hermetic seal stationary while the nut is being rotated. 4. The transmitter assembly of claim 3 , wherein the hermetic seal includes a top surface facing the transmitting unit, and the top surface defines a plurality of recesses. 5. The transmitter assembly of claim 4 , wherein the seal wrench includes a plurality of pins sized to be received in the recesses. 6. The transmitter assembly of claim 3 , wherein the nut further comprises a plurality of projections, the plurality of projections define a plurality of recesses, and the socket wrench includes a plurality of feet sized to be received in the plurality of recesses of the nut. 7. The transmitter assembly of claim 1 , wherein the probe includes a thermoplastic membrane. 8. The transmitter assembly of claim 1 , wherein the transmitting unit communicates using a communication protocol, and the intrinsically safe circuit further comprises: a first power line and a second power line; a first signal line and a second signal line; a voltage clamping unit configured to clamp a voltage between any two of the first power line, the second power line, the first signal line, and the second signal line; and a current limiting unit configured to limit current flowing through the first power line, the second power line, the first signal line, and the second signal line. 9. The transmitter assembly of claim 1 , wherein the intrinsically safe circuit further comprises: an input configured to be connected to a power supply; an output; a switching unit connected between the input and the output and configured to deliver an energy from the input to the output; a voltage clamping unit connected to the input and the switching unit, the voltage clamping unit configured to turn off the switching unit when an input voltage at the input exceeds a threshold voltage and clamp the input voltage to the threshold voltage, and the voltage clamping unit configured to limit a leakage current through the voltage clamping unit below a predetermined leakage current level when the input voltage is in a vicinity of the threshold voltage; and a current limiting unit connected between the switching unit and the output and configured to limit a current to the output. 10. The transmitter assembly of claim 1 , wherein the intrinsically safe circuit includes a current limiting unit configured to manage current flow through the intrinsically safe circuit. 11. A separation assembly of a transmitter assembly for a hazardous environment, the transmitter assembly including an intrinsically safe circuit, the separation assembly comprising: a hermetic seal configured to be electrically connected to a transmitting unit and a probe of the transmitter assembly; and a nut defining a tunnel sized to receive the hermetic seal therein, wherein the nut has an exterior surface and exterior threads formed on the exterior surface, wherein the exterior threads of the nut are complementary to threads on a partition wall positioned between the transmitting unit and the probe, and wherein the nut has an interior surface opposite the exterior surface and interior threads formed on the interior surface, the exterior threads and the interior threads sloping in opposite directions. 12. The separation assembly of claim 11 , wherein the hermetic seal further comprises exterior threads formed on a side surface of the hermetic seal and complementary to the interior threads of the nut. 13. The separation assembly of claim 11 , further comprising a seal wrench and a socket wrench, wherein the socket wrench is configured to engage with the nut and rotate the nut, and the seal wrench is configured to engage with the hermetic seal and hold the hermetic seal stationary while the nut is being rotated. 14. The separation assembly of claim 13 , wherein the hermetic seal includes a top surface, the top surface defines a plurality of recesses, and the seal wrench includes a plurality of pins sized to be received in the recesses. 15. The separation assembly of claim 13 , wherein the nut further comprises a plurality of projections, the plurality of projections define a plurality of recesses, and the socket wrench includes a plurality of feet sized to be received in the plurality of recesses of the nut. 16. A method of installing a separation assembly of a transmitter assembly between different equipment protection levels in a hazardous environment, the transmitter assembly including an intrinsically safe circuit, the method comprising: providing a hermetic seal and a nut, wherein the hermetic seal is configured to be electrically connected to a transmitting unit and a probe of the transmitter assembly, and the nut defines a tunnel sized to receive the hermetic seal therein, wherein the nut has an exterior surface and exterior threads formed on the exterior surface, and the exterior threads of the nut are complementary to threads on a partition wall positioned between the transmitting unit and the probe, and wherein the nut has an interior surface opposite the exterior surface and interior threads formed on the interior surface, the exterior threads and the interior threads sloping in opposite directions; coupling the probe with the hermetic seal; coupling the hermetic seal with the nut; engaging a seal wrench with the hermetic seal; engaging a socket wrench with the nut; and rotating the nut via the socket wrench while holding the hermetic seal stationary via the seal wrench. 17. The method of claim 16 , wherein coupling the hermetic seal further comprises coupling the hermetic seal with the nut by one turn of threads. 18. The method of claim 16 , wherein engaging a seal wrench further comprises engaging pins of the seal wrench in recesses of the hermetic seal, and engaging a socket wrenc