PATENT CLAIM ANALYSIS

Application Number: 16121575
Application Type: Utility
Filing Date: 2018-09
Publication Date: 2018-12
Patent Classification: ["725", "148000"]

Abstract:
Power divider networks are provided that have Multimedia Over Coax Alliance (“MoCA”) bypass paths. These power divider networks may include a housing having an input port and first and second output ports; a first impedance transformer that has a first winding coupled in series between the input port and a first node, a second winding coupled in series between a reference voltage and the first node; a second impedance transformer that has a third winding coupled in series between the first node and the first output port, a fourth winding coupled in series between the first node and the second output port; a resistance having a first end coupled to the first output port and a second end coupled to the second output port; a first inductor in series between the third winding and the first output port; a second inductor in series between the fourth winding and the second output port; and a third inductor and a first capacitor that are disposed in parallel between the first output port and the first end of the first resistance.

Claim (Index 16):
A radio frequency (\u201cRF\u201d) power divider network, comprising:\n first divider circuitry having a first RF input, a first RF output, a second RF output, a first signal splitting circuit configured to take a signal presented to said first RF input and divide that signal between said first and second RF outputs of said first divider circuitry, and a first MoCA bypass circuit that is configured to pass signals in a MoCA frequency band between said first RF output and said second RF output; second divider circuitry having a second RF input that is coupled to said first RF output, a third RF output, a fourth RF output, a second signal splitting circuit configured to take a signal presented to said second RF input and divide that signal between said third and fourth RF outputs of said second divider circuitry, and a second MoCA bypass circuit that is configured to pass signals in the MoCA frequency band between said third RF output and said fourth RF output; third divider circuitry having a third RF input that is coupled to said second RF output, a fifth RF output, a sixth RF output, a third signal splitting circuit configured to take a signal presented to said third RF input and divide that signal between said fifth and sixth RF outputs of said third divider circuitry, and a third MoCA bypass circuit that is configured to pass signals in the MoCA frequency band between said fifth RF output and said sixth RF output; fourth divider circuitry having a fourth RF input that is coupled to said third RF output, a seventh RF output, an eighth RF output, a fourth signal splitting circuit configured to take a signal presented to said fourth RF input and divide that signal between said seventh and eighth RF outputs of said fourth divider circuitry, and a fourth MoCA bypass circuit that is configured to pass signals in a MoCA frequency band between said seventh RF output and said eighth RF output; fifth divider circuitry having a fifth RF input that is coupled to said fourth RF output, a ninth RF output, a tenth RF output, a fifth signal splitting circuit configured to take a signal presented to said fifth RF input and divide that signal between said ninth and tenth RF outputs of said fifth divider circuitry, and a fifth MoCA bypass circuit that is configured to pass signals in the MoCA frequency band between said ninth RF output and said tenth RF output; sixth divider circuitry having a sixth RF input that is coupled to said fifth RF output, an eleventh RF output, a twelfth RF output, a sixth signal splitting circuit configured to take a signal presented to said sixth RF input and divide that signal between said eleventh and twelfth RF outputs of said sixth divider circuitry, and a sixth MoCA bypass circuit that is configured to pass signals in the MoCA frequency band between said eleventh RF output and said twelfth RF output; and seventh divider circuitry having a seventh RF input that is coupled to said sixth RF output, a thirteenth RF output, a fourteenth RF output, a seventh signal splitting circuit configured to take a signal presented to said seventh RF input and divide that signal between said thirteenth and fourteenth RF outputs of said seventh divider circuitry, and a seventh MoCA bypass circuit that is configured to pass signals in the MoCA frequency band between said thirteenth RF output and said fourteenth RF output, wherein said second MoCA bypass circuit is different from said fourth MoCA bypass circuit in that at least one component of said second MoCA bypass circuit is different in value compared to components of said fourth MoCA bypass circuit.

Metadata:
- Claim Count in Document: 50.0
- Percentile: 97.0
- Lexical Diversity: 3.31034
- Patent Class: 725.0
- Transitional Phrase Type: open
- Component Type: 1
- Foreign Priority: False
- Related Applications: ['15640151', '14672260', '12510351', '15607896', '14561319']

Analysis Scores:
- 35 USC 101 Eligibility (BERT): 0.4751382019952651
- 35 USC 102 Novelty (BERT): 0.6350365556129975
- Combined Prediction Score: 0.4911280373570383
- Mean Citation Score: 441.387382
- Max Citation Score: 593.1928
- Similarity Product: 556.105733605671

Labels:
- Claim Label 101: 1
- Claim Label 102: 1
- Claim Label 103: 1
- Claim Label 112: 1
- Combined Label: 1
- Label 101 Adjusted: 1

Dataset: test