Pilot operated bypass valve with reverse check

What is claimed is: 1. A valve assembly, comprising: an outer subassembly, including: a housing including an at least partially annular body, and an annular wall, defining a first central bore defining a longitudinal axis, a circumferential direction, a radial direction, and a first longitudinal end disposed along the longitudinal axis, and a second longitudinal end disposed along the longitudinal axis, and further including a flange disposed at the first longitudinal end and the first central bore extends through the second longitudinal end, the annular wall further defining a first cross-bore extending radially through the annular wall to the first central bore proximate to the flange, and a second cross-bore extending radially through the annular wall to the first central bore, the second cross-bore being disposed axially between the second longitudinal end and the first cross-bore; and a sleeve defining a thru-bore, forming a sleeve annular wall, and further defining a proximate end that is configured to mate with the second longitudinal end of the housing, and a distal end, the sleeve annular wall further defining a third-cross bore that extends radially through the sleeve annular wall that is in communication with the thru-bore, and that is disposed adjacent the proximate end, and a fourth cross-bore that extends radially through the sleeve annular wall that is in communication with the thru-bore, and that is disposed axially between the third cross-bore, and the distal end; and an inner subassembly, including: a spool defining a central bore that extends axially through the spool forming a spool annular wall; and a stem that is disposed in the central bore, the stem defining a closed axial end including a stem cone tip, an open axial end, and another central bore forming a stem annular wall, and a first flow bore that extends radially through the stem annular wall that is disposed axially between the closed axial end and the open axial end, the stem including a stepped body such that the stem annular wall jogs radially outwardly at a place disposed axially between the first flow bore and the open axial end. 2. The valve assembly of claim 1 , wherein the housing further defines a peripheral groove that is in communication with the first cross-bore, the first cross-bore extends radially completely through the housing, and a test bore extends from the first cross-bore through the flange. 3. The valve assembly of claim 1 , wherein the proximate end of the sleeve includes a stepped pilot pocket that is in communication with the thru-bore of the sleeve, and the second longitudinal end of the housing includes a stepped pilot ring that fits into the stepped pilot pocket of the sleeve. 4. The valve assembly of claim 3 , wherein the thru-bore defines an intermediate diameter portion that extends axially from the stepped pilot pocket toward the distal end, and a reduced diameter portion that extends axially from the intermediate diameter portion toward the distal end, and the third cross-bore and the fourth cross-bore are in fluid communication with the intermediate diameter portion. 5. The valve assembly of claim 1 , wherein the housing and the sleeve are separate components, the sleeve further includes a radially inwardly extending rim that partially axially obstructs the thru-bore, and the housing further defines a radially inner circumferentially extending slot that is axially aligned with the second-cross bore, being in fluid communication therewith. 6. An inner subassembly for assembling a valve assembly, the inner subassembly comprising: a spool defining a central bore that extends axially through the spool forming a spool annular wall, and including a spool cone, and a hydraulic activation ridge extending radially outwardly from the spool annular wall, and further defining a first bypass bore that extends through the spool annular wall to the central bore; and a stem that is disposed in the central bore, the stem defining a closed axial end including a stem cone tip, an open axial end, and another central bore forming a stem annular wall, and a first flow bore that extends radially through the stem annular wall that is disposed axially between the closed axial end and the open axial end, the stem including a stepped body such that the stem annular wall jogs radially outwardly at a place disposed axially between the first flow bore and the open axial end. 7. The inner subassembly of claim 6 , further comprising a snap ring, a guide, and a compression spring, and wherein the spool further defines a snap ring groove that is in communication with the central bore of the spool, the snap ring is disposed in the snap ring groove, the guide abuts the snap ring, and the compression spring contacts the guide and the stem. 8. The inner subassembly of claim 7 , wherein the guide defines a distal spring pocket including a distal shoulder surface, and the stem defines a proximate spring pocket disposed at the open axial end, the proximate spring pocket also including a proximate shoulder surface, and the compression spring contacts the distal shoulder surface and the proximate shoulder surface. 9. The inner subassembly of claim 8 , wherein the stem cone tip contacts the spool cone tip, and the stem annular wall covers the first bypass bore. 10. The inner subassembly of claim 6 , wherein the spool defines a radially outer circumferential surface that defines a plurality of outer circumferentially extending slits, and a radially outer circumferential slot that is axially aligned with the first bypass bore, being in fluid communication therewith, and the stem includes a radially inner circumferential surface that defines a plurality of circumferentially extending grooves at an interface between the spool annular wall and the stem annular wall. 11. A valve assembly comprising: a housing including an at least partially annular body, and an annular wall, defining a first central bore defining a longitudinal axis, a circumferential direction, a radial direction, and a first longitudinal end disposed along the longitudinal axis, and a second longitudinal end disposed along the longitudinal axis, and further including a flange disposed at the first longitudinal end and the first central bore extends through the second longitudinal end, the annular wall further defining a first cross-bore extending radially through the annular wall to the first central bore proximate to the flange, and a second cross-bore extending radially through the annular wall to the first central bore, the second cross-bore being disposed axially between the second longitudinal end and the first cross-bore; a sleeve defining a thru-bore, forming a sleeve annular wall, and further defining a proximate end that is configured to mate with the second longitudinal end of the housing, and a distal end that includes a radially inwardly extending rim that partially axially obstructs the thru-bore, the sleeve annular wall further defining a third-cross bore that extends radially through the sleeve annular wall, that is in communication with the thru-bore, and that is disposed adjacent the proximate end, and a fourth cross-bore that extends radially through the sleeve annular wall, that is in communication with the thru-bore, and that is disposed axially between the third cross-bore, and the distal end; a spool that is disposed in the first central bore and the thru-bore, the spool defining a first axial end, a second axial end, a second central bore that extends axially through the spool forming a spool annular wall, and including a spool cone tip that is disposed at the first axial end, and a hydraulic activation ridge extending radially outwardly from the spoo