Signal equalizer for balanced transfer line-based video switching
First Claim
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1. A balanced transmission line based video signal switching system comprising:
- a video signal switch coupled to at least one balanced transmission line video receiver;
a first signal transmitter coupled to the signal switch by a first balanced transmission line cable with a first length;
at least one second signal transmitter coupled to the signal switch by a second balanced transmission line cable with a second length different from the first length; and
at least one equalizer coupled between the at least one second signal transmitter and the signal switch, the at least one equalizer comprising;
an equalization stage including an output amplifier circuit and a first variable resistor configured to select a gain of the equalization stage to selectively provide (1) positive equalization and (2) negative equalization;
a stabilizer stage including a second variable resistor and a control signal amplifier, the control signal amplifier configured to provide a buffered voltage to the output amplifier circuit based on a selected resistance of the second variable resistor;
wherein the equalization stage further includes a cable equalization filter configured to shunt a portion of the input signal, received from the first variable resistor, to an input terminal of the output amplifier, and wherein the first variable resistor is a three-terminal potentiometer; and
wherein the equalization stage further includes a gain setting resistor arranged in parallel with a series combination of the first variable resistor and a feedback resistor,wherein the feedback resistor is arranged in a feedback path of the output amplifier circuit, and wherein the gain of the equalization stage is based on a ratio of the gain setting resistor and the feedback resistor.
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Abstract
A method of equalizing signals from a plurality of balanced transmission line cables having different lengths includes providing a first cable having a first length and a second cable having a second length, the first cable coupled to a variable resistor. A first signal is transmitted along the first cable to the variable resistor such that the first signal is attenuated to assume a first frequency domain characteristic. A second signal is transmitted along the second cable such that the second signal is attenuated to assume a second frequency domain characteristic. A voltage of the first signal is divided in the variable resistor such that the first signal assumes substantially the second frequency domain characteristic. The first signal having the second frequency domain characteristic is outputted.
16 Citations
17 Claims
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1. A balanced transmission line based video signal switching system comprising:
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a video signal switch coupled to at least one balanced transmission line video receiver; a first signal transmitter coupled to the signal switch by a first balanced transmission line cable with a first length; at least one second signal transmitter coupled to the signal switch by a second balanced transmission line cable with a second length different from the first length; and at least one equalizer coupled between the at least one second signal transmitter and the signal switch, the at least one equalizer comprising; an equalization stage including an output amplifier circuit and a first variable resistor configured to select a gain of the equalization stage to selectively provide (1) positive equalization and (2) negative equalization; a stabilizer stage including a second variable resistor and a control signal amplifier, the control signal amplifier configured to provide a buffered voltage to the output amplifier circuit based on a selected resistance of the second variable resistor; wherein the equalization stage further includes a cable equalization filter configured to shunt a portion of the input signal, received from the first variable resistor, to an input terminal of the output amplifier, and wherein the first variable resistor is a three-terminal potentiometer; and wherein the equalization stage further includes a gain setting resistor arranged in parallel with a series combination of the first variable resistor and a feedback resistor, wherein the feedback resistor is arranged in a feedback path of the output amplifier circuit, and wherein the gain of the equalization stage is based on a ratio of the gain setting resistor and the feedback resistor. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A balanced transmission line based video signal switching system comprising:
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a video signal switch coupled to at least one balanced transmission line video receiver; a first signal transmitter coupled to the signal switch by a first balanced transmission line cable with a first length; at least one second signal transmitter coupled to the signal switch by a second balanced transmission line cable with a second length different from the first length; and at least one equalizer coupled between the at least one second signal transmitter and the signal switch, the at least one equalizer comprising; an equalization stage including an output amplifier circuit and a first variable resistor configured to select a gain of the equalization stage to selectively provide (1) positive equalization and (2) negative equalization; and a stabilizer stage including a second variable resistor and a control signal amplifier, the control signal amplifier configured to provide a buffered voltage to the output amplifier circuit based on a selected resistance of the second variable resistor; wherein the selection of the gain configures the at least one equalizer to provide substantially between −
500 feet to 500 feet of equalization to a signal received from the second signal transmitter. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
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17. A balanced transmission line based video signal switching system comprising:
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a video signal switch coupled to at least one balanced transmission line video receiver; a first signal transmitter coupled to the signal switch by a first balanced transmission line cable with a first length; at least one second signal transmitter coupled to the signal switch by a second balanced transmission line cable with a second length different from the first length; and at least one equalizer coupled between the at least one second signal transmitter and the signal switch, the at least one equalizer comprising; an equalization stage to selectively provide (1) positive equalization and (2) negative equalization, the equalization stage including an output amplifier circuit configured to receive a signal from one or more of a first variable resistor, a cable equalization filter, a feedback resistor, and a gain setting resistor; a stabilizer stage including a second variable resistor and a control signal amplifier, the control signal amplifier configured to provide a buffered voltage to the output amplifier circuit using the second variable resistor; and a skew compensation stage coupled between the equalization stage and the signal switch, wherein the skew compensation stage is configured to selectably apply a delay to an output signal from the at least one equalizer'"'"'s output amplifier circuit; wherein at maximum positive equalization, the cable equalization filter is arranged in parallel with the gain setting resistor in the equalization stage; and wherein at maximum negative equalization, the cable equalization filter is arranged in parallel with the feedback resistor in the equalization stage.
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Specification
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Current AssigneeMagenta Research, Ltd. (Melrose Industries Plc)
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Original AssigneeMagenta Research, Ltd. (Melrose Industries Plc)
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InventorsMiller, Chris, Mortensen, Keith
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Primary Examiner(s)Ahn, Sam K
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Assistant Examiner(s)Perez, James M
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Application NumberUS14/086,212Publication NumberTime in Patent Office509 DaysField of Search375229-236, 375/257, 375259-260, 375/285, 375316-319, 375/322, 375/324, 375/328, 375/340, 375345-346, 375349-351, 375/354, 375/356US Class Current375/232CPC Class CodesH04N 5/268 Signal distribution or swit...H04N 5/44 Receiver circuitry for the ...H04N 9/68 for controlling the amplitu...
