Pressure relief valve tuning feature

What is claimed is: 1. In a hydraulic tensioner for an endless loop power transmission member including a pressure relief valve ( 10 ) to prevent over-tensioning of the endless loop power transmission member, the improvement of the pressure relief valve ( 10 ) comprising: a housing ( 12 ) defining a fluid passage ( 14 ) and a valve seat ( 16 ); a reciprocal check valve member ( 18 ) positioned within the fluid passage ( 14 ) for movement toward and away from the valve seat ( 16 ); a spring ( 20 ) normally biasing the reciprocal check valve member ( 18 ) toward the valve seat ( 16 ); and a spring retainer ( 22 ) assembled within the fluid passage ( 14 ) of the housing ( 12 ) to a variable depth in response to a feedback control system ( 44 ) for automatically adjusting a biasing force of the assembled spring ( 20 ) to compensate for tolerances effecting a relief pressure value of an assembled pressure relief valve ( 10 ) and allowing control of the relief pressure value to be within a predetermined range with respect to a predetermined target relief pressure value for driving the reciprocal check valve member ( 18 ) away from the valve seat ( 16 ). 2. The improvement of claim 1 , wherein the spring ( 20 ) has characteristics based on the biasing force to provide the target relief pressure value within the predetermined range for allowing movement of the reciprocal check valve member ( 18 ) away from the valve seat ( 16 ). 3. The improvement of claim 1 , wherein the housing ( 12 ) has an inlet geometry based on the target relief pressure value for allowing movement of the reciprocal check valve member ( 18 ) away from the valve seat ( 16 ). 4. The improvement of claim 1 , wherein the feedback control system ( 44 , 44 a ) includes at least one of a pressure sensor and a current sensor. 5. The improvement of claim 1 , wherein the spring retainer ( 22 ) is press-fit within the fluid passage ( 14 ) of the housing ( 12 ). 6. The improvement of claim 1 , wherein the spring retainer ( 22 a ) includes an exterior threaded surface ( 22 b ) matingly engageable with an interior threaded wall ( 12 b ) formed in the housing ( 12 a ). 7. The improvement of claim 1 , wherein the predetermined range is ±10% of the predetermined target relief pressure value. 8. A method of assembling a pressure relief valve ( 10 ) for a hydraulic tensioner of an endless loop power transmission member, the method comprising: inserting a reciprocal check valve member ( 18 ) within a fluid passage ( 14 ) defined by a housing ( 12 ) for movement toward and away from a valve seat ( 16 ) defined by the housing ( 12 ); inserting a spring ( 20 ) within the housing ( 12 ) to normally bias the reciprocal check valve member ( 18 ) toward the valve seat ( 16 ); and driving a spring retainer ( 22 ) within the fluid passage ( 14 ) of the housing ( 12 ) to a variable depth in response to a feedback control system ( 44 ) for automatically adjusting a biasing force of the assembled spring ( 20 ) to compensate for tolerances effecting a relief pressure value of an assembled pressure relief valve ( 10 ) and allowing control of the relief pressure value to be within a predetermined range with respect to a predetermined target relief pressure value for allowing movement of the reciprocal check valve member ( 18 ) away from the valve seat ( 16 ). 9. The method of claim 8 , wherein driving the spring retainer ( 22 ) further comprises: press-fitting the spring retainer ( 22 ) within the fluid passage ( 14 ) of the housing ( 12 ). 10. The method of claim 8 , wherein driving the spring retainer ( 22 ) further comprises: threadedly engaging an exterior threaded surface ( 22 b ) of the spring retainer ( 22 a ) with an interior threaded wall ( 12 b ) formed in the housing ( 12 a ). 11. The method of claim 8 , further comprising: forming the housing ( 12 ) to have an inlet geometry based on a predetermined target pressure relief value for allowing movement of the reciprocal check valve member ( 18 ) away from the valve seat ( 16 ). 12. The method of claim 8 , further comprising: selecting the spring ( 20 ) having characteristics based on the predetermined target relief pressure value for allowing movement of the reciprocal check valve member ( 18 ) away from the valve seat ( 16 ). 13. The method of claim 8 , further comprising: testing an assembled pressure relief valve ( 10 ) to determine if a measured relief pressure value is within the predetermined range with respect to the predetermined target relief pressure value; if the measured relief pressure value is within the predetermined range with respect to the predetermined target relief pressure value, accepting the assembled pressure relief valve ( 10 ); if the measured relief pressure value is below the predetermined range with respect to the predetermined target relief pressure value, reprocessing the assembled pressure relief valve ( 10 ) to drive the spring retainer ( 22 ) further inwardly with respect to the housing ( 12 ) in an attempt to achieve a measured relief pressure value within the predetermined range with respect to the predetermined target relief pressure value; and if the measured relief pressure value is above the predetermined range with respect to the predetermined target relief pressure value, rejecting the assembled pressure relief valve ( 10 ). 14. The method of claim 8 , further comprising: enclosing the spring retainer ( 22 ), the spring ( 20 ), and the reciprocal check valve member ( 18 ) in the housing ( 12 ) with a valve cap ( 30 ) located at an end ( 32 ) of the housing ( 12 ) distally opposite from the valve seat ( 16 ). 15. A pressure relief valve ( 10 ) having a housing ( 12 ) defining a fluid passage ( 14 ) with a valve seat ( 16 ), a reciprocal check valve member ( 18 ) engageable with the valve seat ( 16 ), a biasing spring ( 20 ) for urging the reciprocal check valve member ( 18 ) normally toward the valve seat ( 16 ), the pressure relief valve ( 10 ) assembled by a process comprising: positioning the reciprocal check valve member ( 18 ) within the fluid passage ( 14 ) for movement toward and away from the valve seat ( 16 ); selecting the biasing spring ( 20 ) to have characteristics based on a target relief pressure value for allowing movement of the reciprocal check valve 5 member ( 18 ) away from the valve seat ( 16 ); inserting the biasing spring ( 20 ) in the fluid passage ( 14 ) for urging the reciprocal check valve member ( 18 ) toward the valve seat ( 16 ); driving a spring retainer ( 22 ) within the fluid passage ( 14 ) of the housing ( 12 ) to a variable depth in response to a feedback control system ( 44 ) for automatically adjusting a biasing force of the assembled spring ( 20 ) to compensate for tolerances effecting a relief pressure value of an assembled pressure relief valve ( 10 ) and allowing control of the relief pressure value to be within a predetermined range with respect to a predetermined target relief pressure value; testing an assembled pressure relief valve ( 10 ) to determine if a measured relief pressure value is within the predetermined range with respect to the predetermined target relief pressure value; if the measured relief pressure value is within the predetermined range with respect to the predetermined target relief pressure value, accepting the assembled pressure relief valve ( 10 ); if the measured relief pressure value is below the predetermined range with respect to the target relief pressure value, reprocessing the assembled pressure relief valve ( 10 ) to drive the spring retainer ( 22 ) further inwardly with r