Rack comprising a high power RF amplifier

The invention claimed is: 1. A rack for mounting multiple equipment modules, the rack comprising: a frame having first vertical posts on a leftmost side of the frame and second vertical posts on a rightmost side of the frame; a plurality of RF amplifier modules mounted to the frame between the first vertical posts and the second vertical posts, each RF amplifier module further comprising an RF amplifier circuit having an RF input and an amplified RF output; a first RF power combiner having first combiner inputs connected to the amplified RF outputs of at least two first RF amplifier modules of the plurality of RF amplifier modules and configured to deliver a first combined RF power output; a second RF power combiner comprising second combiner inputs connected to the amplified RF outputs of at least two second RF amplifier modules of the plurality of RF amplifier modules and configured to deliver a second combined RF power output; and a third RF power combiner comprising third combiner inputs connected respectively to the first and second combined RF power outputs of respectively the first and second RF power combiners to deliver a third combined RF power output, wherein: the first RF power combiner is at least partially contained in at least one of a first volume between the first vertical posts of the frame or a second volume between the second vertical posts of the frame; each of the at least two first RF amplifier modules has a front face located at the front side of the rack; each front face of each of the at least two first RF amplifier modules comprises an electrical circuit coupling the respective amplified RF outputs of the at least two first RF amplifier modules to the first combiner inputs of the first RF power combiner; the second RF power combiner is at least partially contained in at least one of the first volume between the first vertical posts of the frame or the second volume between the second vertical posts of the frame; and the third RF power combiner is mounted at a back side of the rack. 2. The rack of claim 1 , wherein: the RF amplifier modules are removably mounted in the rack; and each front face comprises a first connector configured to removably connect the electrical circuit to the first RF power combiner, the first connector being arranged at a distal left side or at a distal right side of the front face. 3. The rack of claim 1 , wherein: each RF amplifier module further comprises a printed circuit board with an RF amplifier circuit; each front face is removably mounted to the printed circuit board of the corresponding RF amplifier module; and the electrical circuit of each front face is connected to the amplified RF output of the corresponding RF amplifier module via a second connector. 4. The rack of claim 1 , wherein a nominal operating frequency of each RF amplifier module is between 3 MHz and 3 GHz. 5. The rack of claim 1 , wherein a nominal output power of each RF amplifier module is between 1 KW and 100 KW. 6. The rack of claim 5 , wherein a nominal output power of each RF amplifier module is between 3 KW and 30 KW. 7. The rack of claim 1 , wherein the first RF power combiner comprises between two and ten first combiner inputs, the first combiner inputs being respectively connected to between two and ten amplified RF outputs of the RF amplifier modules to deliver the first combined RF power output. 8. The rack of claim 1 , wherein the third RF power combiner comprises a hybrid coupled line. 9. The rack of claim 1 , further comprising: a fourth RF power combiner and a fifth RF power combiner comprising fourth and fifth combiner inputs, respectively, the fourth and fifth combiner inputs being connected to the amplified RF outputs of the RF amplifier modules to deliver a fourth and a fifth combined RF power outputs, respectively, wherein: the fourth and fifth RF power combiners are at least partially contained in at least one of the first volume between the first vertical posts of the frame or the second volume between the second vertical posts of the frame; a sixth RF power combiner comprising sixth combiner inputs connected to the fourth and fifth combined RF power outputs of the fourth and fifth RF power combiners, respectively, to deliver a sixth combined RF power output, wherein: the sixth RF power combiner is mounted at the back side of the rack; and a seventh RF power combiner comprising seventh combiner inputs connected to the third and sixth combined RF power outputs to deliver a seventh combined RF power output, wherein: the seventh RF power combiner is mounted on the top side of the rack. 10. The rack of claim 9 , wherein: the sixth RF power combiner comprises a hybrid coupled line, and the seventh RF power combiner comprises a 90° hybrid power combiner of a branch line type. 11. The rack of claim 1 , further comprising an impedance adapter mounted in at least one of the first volume between the first vertical posts or the second volume between the second vertical posts. 12. The rack of claim 11 , wherein the impedance adapter is configured to adjust an output impedance of the first RF power combiner to 50 ohms. 13. The rack of claim 1 , wherein the front face of the RF amplifier modules further comprises an electrically insulating cover. 14. A rack for mounting multiple equipment modules, the rack comprising: a frame having first vertical posts on a leftmost side of the frame and second vertical posts on a rightmost side of the frame; a plurality of RF amplifier modules mounted to the frame between the first vertical posts and the second vertical posts, each RF amplifier module further comprising an RF amplifier circuit having an RF input and an amplified RF output; a first RF power combiner having first combiner inputs connected to the amplified RF outputs of at least two RF amplifier modules of the plurality of RF amplifier modules and configured to deliver a first combined RF power output, wherein: the first RF power combiner is at least partially contained in at least one of a first volume between the first vertical posts of the frame or a second volume between the second vertical posts of the frame; each of the at least two RF amplifier modules has a front face located at the front side of the rack; each front face of each of said at least two RF amplifier modules comprises an electrical circuit coupling the respective amplified RF outputs of the at least two RF amplifier modules to the first combiner inputs of the first RF power combiner; and a remaining part of the first RF power combiner is at least partially arranged on the front faces of the at least two RF amplifier modules.