Nozzle cap multi-band antenna assembly

That which is claimed is: 1. A nozzle cap assembly comprising: a nozzle cap housing configured to mount on a hydrant, the nozzle cap housing defining an upper rim and a lower rim, the nozzle cap housing defining an interior cavity extending inward from the upper rim toward the lower rim, the nozzle cap housing defining an antenna mounting portion extending from the upper rim toward the lower rim; an antenna cover mounted on the nozzle cap housing, the antenna cover positioned over at least a portion of the antenna mounting portion, the antenna cover defining an inner cover surface facing the antenna mounting portion, an antenna cover cavity at least partially defined between the inner cover surface and the antenna mounting portion; and an antenna assembly positioned in the antenna cover cavity, the antenna assembly comprising a printed circuit board (“PCB”) and an antenna structure positioned on the PCB, the PCB secured directly against the inner cover surface. 2. The nozzle cap assembly of claim 1 , wherein potting is positioned at least partially between the antenna cover and the interior cavity. 3. The nozzle cap assembly of claim 2 , wherein the potting is positioned at least partially between the antenna assembly and the interior cavity. 4. The nozzle cap assembly of claim 1 , wherein the nozzle cap housing defines a port extending through the antenna mounting portion to the interior cavity, and wherein a cable attached to the antenna assembly extends through the port. 5. The nozzle cap assembly of claim 4 , wherein the port is at least partially covered by potting, the potting positioned at least partially between the antenna assembly and the interior cavity. 6. The nozzle cap assembly of claim 1 , wherein the PCB is adhered to the inner cover surface. 7. The nozzle cap assembly of claim 1 , further comprising a nozzle cap cover attached to the upper rim, the nozzle cap housing defining a shoulder, the antenna cover secured between the nozzle cap cover and the shoulder. 8. The nozzle cap assembly of claim 1 , wherein the antenna mounting portion is defined radially inward from the lower rim. 9. A smart fluid system comprising: a fluid system; a hydrant connected in fluid communication to the fluid system, the hydrant comprising a nozzle; a sensing node mounted on the nozzle of the hydrant, the sensing node comprising: a nozzle cap housing defining an upper rim and a lower rim, the nozzle cap housing defining an interior cavity extending inward from the upper rim toward the lower rim, the nozzle cap housing defining an antenna mounting portion extending from the upper rim toward the lower rim; a sensor attached to the nozzle cap housing, the sensor configured to collect data for a parameter of the fluid system; an antenna cover mounted on the nozzle cap housing, the antenna cover positioned over at least a portion of the antenna mounting portion, the antenna cover defining an inner cover surface facing the antenna mounting portion, an antenna cover cavity at least partially defined between the inner cover surface and the antenna mounting portion; and an antenna assembly positioned in the antenna cover cavity, the antenna assembly comprising a printed circuit board (“PCB”) and an antenna structure positioned on the PCB, the PCB secured directly against the inner cover surface, the antenna assembly configured to transmit the data collected by the sensor. 10. The smart fluid system of claim 9 , wherein potting is positioned at least partially between the antenna cover and the interior cavity. 11. The smart fluid system of claim 10 , wherein the potting is positioned at least partially between the antenna assembly and the interior cavity. 12. The smart fluid system of claim 9 , wherein the nozzle cap housing defines a port extending through the antenna mounting portion to the interior cavity, and wherein a cable attached to the antenna assembly extends through the port. 13. The smart fluid system of claim 12 , wherein the port is at least partially covered by potting, the potting positioned at least partially between the antenna assembly and the interior cavity. 14. The smart fluid system of claim 9 , wherein the antenna assembly is adhered to the inner cover surface. 15. The smart fluid system of claim 9 , further comprising a nozzle cap cover attached to the upper rim, the nozzle cap housing defining a shoulder, the antenna cover secured between the nozzle cap cover and the shoulder. 16. The smart fluid system of claim 9 , wherein the antenna mounting portion is defined radially inward from the lower rim. 17. A nozzle cap assembly comprising: a nozzle cap cover; a nozzle cap housing defining a first end and a second end, the first end positioned opposite from the second end, the nozzle cap housing comprising: an upper rim positioned at the first end, the nozzle cap cover mounted on the upper rim; a divider wall positioned between the first end and the second end, the nozzle cap housing defining an interior cavity extending into the upper rim to the divider wall, the interior cavity extending in a direction from the upper rim towards the second end, the nozzle cap cover enclosing the interior cavity; and a lower rim positioned at the second end, the nozzle cap housing defining an internally threaded bore extending into the lower rim to the divider wall, the internally threaded bore extending in a direction from the lower rim towards the first end, the divider wall positioned between the upper rim and the lower rim, the divider wall separating the interior cavity from the internally threaded bore, the internally threaded bore configured to mount on a nozzle of a fire hydrant; and an acoustic sensor positioned within the interior cavity between the divider wall and the upper rim, the acoustic sensor configured to detect vibrations. 18. The nozzle cap assembly of claim 17 , wherein a gasket is positioned between the upper rim and the nozzle cap cover; and wherein the gasket forms a seal between the upper rim and the nozzle cap cover. 19. The nozzle cap assembly of claim 17 , further comprising at least one battery and a printed circuit board (“PCB”), the at least one battery and the PCB connected in electrical communication with the acoustic sensor. 20. The nozzle cap assembly of claim 17 , wherein the divider wall is perpendicular to the internally threaded bore. 21. A nozzle cap assembly comprising: a nozzle cap housing configured to mount on a hydrant, the nozzle cap housing defining an upper rim and a lower rim, the nozzle cap housing defining an interior cavity extending inward from the upper rim toward the lower rim, the nozzle cap housing defining an antenna mounting portion extending from the upper rim toward the lower rim; an antenna cover mounted on the nozzle cap housing, the antenna cover positioned over at least a portion of the antenna mounting portion, the antenna cover defining an inner cover surface facing the antenna mounting portion, an antenna cover cavity at least partially defined between the inner cover surface and the antenna mounting portion; an antenna assembly positioned in the antenna cover cavity, the antenna assembly secured in facing engagement with the inner cover surface; and potting positioned at least partially between the antenna cover and the interior cavity, the potting positioned at least partially between the antenna assembly and the interior cavity.