Divided LLBFN/HMPA transmitted architecture
First Claim
1. In an overlapping beam, power versatile system for a communications transmitter comprising a low level beam forming network having inputs to which a plurality of individual beam signals are respectively applied, the low level beam forming network having a plurality of outputs, some of which respectively carry the sum of components of more than one input signal, a hybrid matrix power amplifier means having input ports respectively connected to the outputs of the low level beam forming network and having complementary output ports respectively connected to a plurality of radiating elements of the same number as the outputs of the beam forming network, whereby a plurality of beams each emanating from more than one of the radiating elements can be achieved, some of the radiating elements being used in common for more than one beam to achieve beam overlap, the improvement where the hybrid matrix power amplifier means is formed as a plurality of separate hybrid matrix power amplifiers.
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Accused Products
Abstract
A communications satellite uses a low level beam forming network connected to a hybrid matrix power amplifier section which has output ports connected to an array of radiating elements. Several beams emanate from the array and at least some of the elements are used in common for more than one beam to achieve beam overlap. The hybrid matrix power amplifier section which provides flexible power distribution, is formed of several relatively small hybrid matrix power amplifiers instead of a single relatively large one. This enables considerable advantages to be achieved, particularly dispensing with the requirement for port selection and reducing the size of the device, without compromising the performance.
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Citations
3 Claims
- 1. In an overlapping beam, power versatile system for a communications transmitter comprising a low level beam forming network having inputs to which a plurality of individual beam signals are respectively applied, the low level beam forming network having a plurality of outputs, some of which respectively carry the sum of components of more than one input signal, a hybrid matrix power amplifier means having input ports respectively connected to the outputs of the low level beam forming network and having complementary output ports respectively connected to a plurality of radiating elements of the same number as the outputs of the beam forming network, whereby a plurality of beams each emanating from more than one of the radiating elements can be achieved, some of the radiating elements being used in common for more than one beam to achieve beam overlap, the improvement where the hybrid matrix power amplifier means is formed as a plurality of separate hybrid matrix power amplifiers.
Specification