Load cell on EMA housing with trim resistors

What is claimed is: 1. An instrumented housing for an electric motor actuator comprising: a housing; and a first ribbon gage installed on an exterior surface of the housing, wherein the first ribbon gage comprises: a T-shaped substrate material having a first arm and a second arm, and a first strain gage set installed on the first arm of the T-shaped substrate material, wherein the first strain gage set is configured to measure tension along an axial load path of the housing. 2. The instrumented housing of claim 1 , wherein the first ribbon gage further comprises: a second strain gage set installed on the second arm of the T-shaped substrate material; and a trim resistor. 3. The instrumented housing of claim 2 , wherein the housing comprises a substantially cylindrical body portion and a mounting flange. 4. The instrumented housing of claim 3 , wherein the first ribbon gage is installed in a location wherein at least one of the first strain gage set and the second strain gage set of the first ribbon gage is positioned on the axial load path. 5. The instrumented housing of claim 2 , wherein the first ribbon gage is installed in a location on the housing wherein at least one of the first strain gage set and the second strain gage set is installed annularly equidistant between a first end and a second end of a mounting flange and is installed axially equidistant between the mounting flange and an end of the housing. 6. The instrumented housing of claim 1 , wherein the first strain gage set comprises a first strain gage and a second strain gage. 7. The instrumented housing of claim 1 further comprising a second ribbon gage. 8. The instrumented housing of claim 1 , further comprising a cover installable on the housing and coupled to the housing with a collar. 9. The instrumented housing of claim 1 , wherein the housing comprises at least one of aluminum and aluminum alloy. 10. A strain gage system, comprising: a housing comprising a first mounting flange and a second mounting flange; a ribbon gage installed on the housing wherein the ribbon gage comprises: a T-shaped substrate, a first strain gage set, a second strain gage set, and a trim resistor; a connector in electronic communication with the first strain gage set, the second strain gage set and the trim resistor; and wherein a portion of the ribbon gage is coupled to the housing at a location wherein the first strain gage set is installed annularly equidistant between a first end and a second end of the first mounting flange, wherein a portion of the ribbon gage is coupled to the housing at a location wherein the first strain gage set is installed axially equidistant between the first mounting flange and an end of the housing, wherein a portion of the ribbon gage is coupled to the housing at a location wherein the second strain gage set is installed annularly equidistant between a first end and a second end of the second mounting flange, and wherein a portion of the ribbon gage is coupled to the housing at a location wherein the second strain gage set is installed axially equidistant between the second mounting flange and an end of the housing. 11. The strain gage system according to claim 10 , further comprising a cover installable on the housing and coupled to the housing with a collar. 12. The strain gage system according to claim 10 , wherein the housing comprises at least one of aluminum and aluminum alloy. 13. The strain gage system of claim 10 , wherein the ribbon gage is installable on the housing by adhesive. 14. The strain gage system of claim 10 , wherein the housing further comprises a groove wherein the ribbon gage is installed on the housing in the groove. 15. The strain gage system of claim 10 , wherein at least one of the first strain gage set and the second strain gage set measure tension along a load path of the housing.