Multi-circuit signal transformer
First Claim
1. A multi-circuit, impedance transformer module for use with a chassis, the module comprising:
- first and second opposite faces;
a plurality of first connectors mounted on the first face for connecting to twisted pair cables;
a plurality of second connectors mounted on the second face for connecting to coaxial cables;
circuitry electrically connecting pairs of first connectors and second connectors including baluns to convert twisted pair wire signals from the first connectors to coaxial cable signals at the second connectors, and to convert coaxial cable signals from the second connectors to twisted pair wire signals at the front connectors; and
a housing enclosing the circuitry, and connecting the first and second faces, the housing including oppositely extending flanges for mounting the module to the chassis.
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Accused Products
Abstract
Multiple digital audio transformer circuits are included in a module for mounting in a chassis. These digital audio transformer circuits are comprised of a front mounted twisted pair digital audio cable connector and a rear mounted coaxial cable connector, with circuitry including baluns electrically linking the front and rear connectors to reduce the impedance of the signal and attenuate the amplitude of the signal voltage. In one embodiment, the module may also include removable attenuation pads accessible through the front face of the module to allow variation of the level of voltage attenuation. The preferred embodiment of the module bi-directional transforms 110 Ohm digital audio signals and 75 Ohm coaxial signals. If transformation of other levels of impedance are desired, modules may also allow for removal and replacement of the baluns. A digital audio transformer system including multi-circuit modules and rack mount equipment chassis is also provided.
23 Citations
23 Claims
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1. A multi-circuit, impedance transformer module for use with a chassis, the module comprising:
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first and second opposite faces;
a plurality of first connectors mounted on the first face for connecting to twisted pair cables;
a plurality of second connectors mounted on the second face for connecting to coaxial cables;
circuitry electrically connecting pairs of first connectors and second connectors including baluns to convert twisted pair wire signals from the first connectors to coaxial cable signals at the second connectors, and to convert coaxial cable signals from the second connectors to twisted pair wire signals at the front connectors; and
a housing enclosing the circuitry, and connecting the first and second faces, the housing including oppositely extending flanges for mounting the module to the chassis. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A digital audio impedance transformer system comprising:
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(a) a plurality of digital audio impedance transformer modules, each module including;
(1) a front face including a plurality of front connectors for connecting to twisted pair cable;
(2) a rear face including a plurality of rear connectors which are paired with the front connectors, the rear connectors for connecting to coaxial cable;
(3) circuitry including baluns electrically connecting each pair of front connectors and rear connectors, the circuitry operating to convert twisted pair digital audio signals received by the front connectors into a signal suitable for transmission over coaxial cable connected at the rear connectors and to convert coaxial signals received by the rear connectors into a signal suitable for transmission over twisted pair digital audio cable connected at the front connectors; and
(4) a housing surrounding the circuitry and supporting the front and rear faces, the housing including a flange;
(b) a chassis holding a plurality of the modules;
(c) a fastener mounting the flange of each module to the chassis. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
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21. A multi-circuit, impedance transformer module for use with a chassis, the module comprising:
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first and second opposite faces;
a plurality of first connectors mounted on the first face for connecting to twisted pair cables, the first connectors arranged in a linear array;
a plurality of second connectors mounted on the second face for connecting to coaxial cables, the second connectors arranged in a linear array;
circuitry electrically connecting pairs of first connectors and second connectors including baluns to convert twisted pair wire signals from the first connectors to coaxial cable signals at the second connectors, and to convert coaxial cable signals from the second connectors to twisted pair wire signals at the front connectors;
a plurality of attenuation pads mounted through one of the first face and the second face, each attenuation pad electrically connected to the circuitry connecting the pairs of first and second connectors, and each attenuation pad being mounted adjacent to the respective first or second connectors of the circuitry to which the attenuation pad is connected; and
a housing enclosing the circuitry, and connecting the first and second faces, the housing including a flange for mounting the module to the chassis.
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22. A connector mounting system comprising:
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a three pin connector housing including a first end and an opposite second end, the first end defining three aligned post openings, the second end including a pair of outwardly projecting locking flanges, one of the locking flanges including a key flange projecting from the locking flange, the housing including a flange opposing the locking flanges;
a face plate including a front surface and a rear surface, and having at least one opening through the face plate from front surface to rear surface, the opening adapted to receive the second end of the three pin connector housing, the opening including an index notch sized to receive the key flange of the locking flange;
wherein the three pin connector housing is insertable into the opening of the face plate from the front surface toward the rear surface such that the flange rests against the front surface of the face plate, the locking flanges engage the rear surface of the face plate, and the key flange is insertable into the index notch such that the key flange engages the rear surface of the face plate. - View Dependent Claims (23)
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Specification