Waveguide assembly for an RF oven

That which is claimed: 1. An oven comprising: a cooking chamber configured to receive a food product, the cooking chamber being defined at least in part by a top wall, a first sidewall and a second sidewall; and a radio frequency (RF) heating system configured to provide RF energy into the cooking chamber using solid state electronic components, the solid state electronic components including power amplifier electronics configured to provide the RF energy into the cooking chamber via a launcher assembly operably coupled to the cooking chamber via a waveguide assembly; wherein the waveguide assembly includes a waveguide extending along at least one of the first sidewall or the second sidewall to provide the RF energy into the cooking chamber through a radiation opening provided at the at least one of the first sidewall or the second sidewall, wherein the launcher assembly includes a launcher disposed proximate to a first end of the waveguide and the radiation opening is disposed proximate to a second end of the waveguide, wherein the waveguide is defined by a back plate that lies adjacent to the at least one of the first sidewall or the second sidewall, and a front plate extending away from the back plate, wherein the front plate is defined by a front face extending substantially parallel to the back plate, a top face extending between the front face and the back plate substantially perpendicular to both the front face and the back plate, two side faces opposing each other on opposite lateral sides of the front face extending between the front face and the back plate, and a bottom face, wherein the bottom wall is disposed at an angle relative to the front face to extend between the front face and the back plate, and wherein the radiation opening is disposed in the back plate of the waveguide assembly such that a portion of the bottom wall and a portion of an interior of the front face are visible through the radiation opening, the radiation opening being offset away from an intersection of the bottom face and the back plate. 2. The oven of claim 1 , wherein the angle is about 135 degrees. 3. The oven of claim 2 , wherein the bottom face faces the radiation opening. 4. The oven of claim 1 , wherein the launcher is disposed at an elevation higher than the top wall and the radiation opening is disposed proximate to a middle of the at least one of the first sidewall or the second sidewall. 5. The oven of claim 1 , wherein the waveguide assembly includes a second waveguide adjacent the waveguide, the waveguide and the second waveguide being symmetrical with respect to each other about a longitudinal centerline of the back plate. 6. The oven of claim 1 , wherein the front plate comprises a single unitary piece of material, and wherein the top face, two side faces and bottom face are each bent away from the front face toward the back plate to form the waveguide. 7. The oven of claim 1 , wherein a longitudinal direction of extension of the waveguide between the first and the second end is oriented substantially perpendicular relative to a plane in which the top wall lies. 8. A waveguide assembly for delivering RF energy generated by solid state electronic components into an oven, the oven including a cooking chamber configured to receive a food product, the cooking chamber being defined at least in part by a top wall, a first sidewall and a second sidewall, the waveguide assembly comprising: a waveguide extending along at least one of the first sidewall or the second sidewall, and a radiation opening provided at the at least one of the first sidewall or the second sidewall to provide the RF energy into the cooking chamber from the waveguide, wherein a launcher is disposed proximate to a first end of the waveguide and the radiation opening is disposed proximate to a second end of the waveguide, wherein the waveguide is defined by a back plate that lies adjacent to the at least one of the first sidewall or the second sidewall, and a front plate extending away from the back plate, wherein the front plate is defined by a front face extending substantially parallel to the back plate, a top face extending between the front face and the back plate substantially perpendicular to both the front face and the back plate, two side faces opposing each other on opposite lateral sides of the front face extending between the front face and the back plate, and a bottom face, wherein the bottom wall is disposed at an angle relative to the front face to extend between the front face and the back plate, and wherein the radiation opening is disposed in the back plate of the waveguide assembly such that a portion of the bottom wall and a portion of an interior of the front face are visible through the radiation opening, the radiation opening being offset away from an intersection of the bottom face and the back plate. 9. The waveguide assembly of claim 8 , wherein the angle is about 135 degrees. 10. The waveguide assembly of claim 9 , wherein the bottom face faces the radiation opening. 11. The waveguide assembly of claim 8 , wherein the launcher is disposed at an elevation higher than the top wall and the radiation opening is disposed proximate to a middle of the at least one of the first sidewall or the second sidewall. 12. The waveguide assembly of claim 8 , wherein the waveguide assembly includes a second waveguide adjacent the waveguide, the waveguide and the second waveguide being symmetrical with respect to each other about a longitudinal centerline of the back plate. 13. The waveguide assembly of claim 8 , wherein the front plate comprises a single unitary piece of material, and wherein the top face, two side faces and bottom face are each bent away from the front face toward the back plate to form the waveguide. 14. The waveguide assembly of claim 8 , wherein a longitudinal direction of extension of the waveguide between the first and the second end is oriented substantially perpendicular relative to a plane in which the top wall lies. 15. The oven of claim 1 , wherein a portion of the back plate extends away from the intersection of the bottom face and the back plate by about 10% to 25% of a height of the radiation opening to offset the radiation opening away from the intersection. 16. The waveguide assembly of claim 8 , wherein a portion of the back plate extends away from the intersection of the bottom face and the back plate by about 10% to 25% of a height of the radiation opening to offset the radiation opening away from the intersection.