Sonde with integral pressure sensor and method

What is claimed is: 1. A sonde for use in an inground tool having an inground tool housing that defines an inground tool cavity such that the inground tool cavity is exposed to an ambient pressure environment which surrounds the inground tool during an inground operation, said sonde comprising: an elongated main body having first and second opposing ends; first and second end caps that are receivable by said first and second opposing ends, respectively, of said main body in pressure sealing engagement with the main body such that the main body with the first and second end caps installed thereon is receivable in the inground tool cavity and the first end cap defines a pressure sensor aperture; and a pressure sensor having a pressure sensor body that is receivable in said pressure sensor aperture in pressure sealing engagement with the first end cap such that the first end cap, the second end cap, the elongated main body and the pressure sensor cooperate to define a sonde interior that is pressure sealed from the ambient pressure environment while the pressure sensor is supported to produce a pressure signal responsive to the ambient pressure environment; and a sonde electronics package that is supported within the sonde interior and is at least configured to receive said pressure signal and transfer a corresponding pressure signal from the sonde. 2. The sonde of claim 1 wherein said main body defines an inner surface and said first and second end caps are each configured with an exterior surface for engaging said inner surface. 3. The sonde of claim 2 wherein said exterior surface of each of said first and second endcaps is configured with an o-ring groove for receiving an o-ring that is captured between each endcap and the main body to at least partially pressure seal each of the first and second endcaps against the inner surface of the main body. 4. The sonde of claim 1 wherein said first end cap is configured for receiving a cover that retains the pressure sensor within the sensor aperture. 5. The sonde of claim 4 wherein the pressure sensor includes a pressure diaphragm and wherein said cover defines at least one non-line-of-sight circuitous path to provide pressure communication to the pressure diaphragm from outside the first end cap and the sensor aperture is configured such that the pressure diaphragm faces an inner surface of the cover when captured in the sensor aperture by the cover. 6. The sonde of claim 4 wherein said cover is removably engagable with the first end cap. 7. The sonde of claim 6 wherein said first end cap is configured for receiving at least a threaded fastener to hold the cover in removable engagement with the first end cap. 8. The sonde of claim 4 wherein said cover defines at least one pressure passage that leads to the pressure sensor from outside the cover when removably engaged with the first end cap. 9. The sonde of claim 8 wherein the pressure passage defines a non-line-of-sight circuitous path leading to the pressure sensor from outside the cover. 10. The sonde of claim 8 including a filter member that is received with the pressure passage. 11. The sonde of claim 10 wherein the filter member is a filter disc. 12. The sonde of claim 1 wherein said first end cap defines said sensor aperture for removably receiving the sensor such that the pressure sensor is accessible and replaceable only with the first end cap removed from said main body. 13. The sonde of claim 12 wherein the pressure sensor includes a pressure diaphragm and the sensor aperture is configured such that the pressure sensor is receivable against a floor of the sensor aperture and the pressure diaphragm confronts said floor and at least one pressure conducting passage is defined passing through the floor to provide pressure communication with the ambient pressure environment. 14. The sonde of claim 12 wherein said first end cap is integrally formed and defines at least one pressure passage that leads to the pressure sensor from outside the first end cap. 15. The sonde of claim 14 wherein the pressure passage defines a non-line-of-sight circuitous path leading to the pressure sensor from outside the first end cap. 16. A sonde for use in an inground tool having an inground tool housing that defines an inground tool cavity such that the inground tool cavity is exposed to an ambient pressure environment which surrounds the inground tool during an inground operation, said sonde comprising: an elongated main body having first and second opposing ends; first and second end caps that are receivable by said first and second opposing ends, respectively, of said main body in pressure sealing engagement with the main body for installation in the inground tool cavity and the first end cap defines a pressure sensor aperture for receiving a pressure sensor having a pressure sensor body that is receivable in said pressure sensor aperture in pressure sealing engagement with the first end cap such that the first end cap, the second end cap, the elongated main body and the pressure sensor cooperate to define a sonde interior that is pressure sealed from the ambient pressure environment while the pressure sensor is supported to produce a pressure signal responsive to the ambient pressure environment; and a sonde electronics package that is supported within the sonde interior and is at least configured to receive said pressure signal and transfer a corresponding pressure signal from the sonde.