System, method and device having teaching and commerce subsystems
First Claim
1. A system comprising:
- an input connector configured to receive a radio-frequency (RF) signal from a supplier and return the RF signal to the supplier;
an output connector configured to connect to user equipment;
an amplified path configured to communicate the RF signal from the input connector to the output connector, the amplified path including;
an upstream diplexer configured to separate the RF signal into a downstream signal and an upstream signal;
an amplifier configured to receive the downstream signal as an input from the upstream diplexer and to amplify the downstream signal;
a downstream diplexer configured to receive the downstream signal as an input from the amplifier and to combine the downstream signal with the upstream signal; and
a compensation device configured to;
compare a predetermined signal strength loss curve to a low band signal strength of the downstream signal and to a high band signal strength of the downstream signal; and
adjust the compensation device to output a gain curve across the downstream signal in response to the comparison;
a return path configured to communicate the upstream signal from the output connector to the input connector;
a bypass path configured to communicate the downstream signal from the input connector to the output connector, and to communicate the upstream signal from the output connector to the input connector;
a voltage sensor coupled to the amplified path and not coupled to the return path; and
a switch configured to selectively connect to the amplified path and the bypass path,wherein;
the voltage sensor is configured to detect voltage in the amplified path;
the switch is configured to route the RF signal through the amplified path in response to the voltage sensor detecting a first condition, andthe switch is configured to route the RF signal through the bypass path in response to the voltage sensor detecting a second condition.
3 Assignments
0 Petitions
Accused Products
Abstract
A frequency band selection device that can be inserted into a signal transmission line of a CATV system on the premise of a user includes at least two signal path sets between a tap side and a premise side. Each signal path set includes two discrete signal paths, a high frequency signal path for a downstream bandwidth and a low frequency signal path for an upstream bandwidth. The high frequency signal path and the low frequency signal path are separated by a cut-off transition frequency that is different for each signal path set. The device further includes a switch controller having at least two discrete switch positions. The switch controller chooses one of the switch positions as a result of an information signal. Each of the switch positions corresponds to a respective one of the signal path sets.
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Citations
21 Claims
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1. A system comprising:
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an input connector configured to receive a radio-frequency (RF) signal from a supplier and return the RF signal to the supplier; an output connector configured to connect to user equipment; an amplified path configured to communicate the RF signal from the input connector to the output connector, the amplified path including; an upstream diplexer configured to separate the RF signal into a downstream signal and an upstream signal; an amplifier configured to receive the downstream signal as an input from the upstream diplexer and to amplify the downstream signal; a downstream diplexer configured to receive the downstream signal as an input from the amplifier and to combine the downstream signal with the upstream signal; and a compensation device configured to; compare a predetermined signal strength loss curve to a low band signal strength of the downstream signal and to a high band signal strength of the downstream signal; and adjust the compensation device to output a gain curve across the downstream signal in response to the comparison; a return path configured to communicate the upstream signal from the output connector to the input connector; a bypass path configured to communicate the downstream signal from the input connector to the output connector, and to communicate the upstream signal from the output connector to the input connector; a voltage sensor coupled to the amplified path and not coupled to the return path; and a switch configured to selectively connect to the amplified path and the bypass path, wherein; the voltage sensor is configured to detect voltage in the amplified path; the switch is configured to route the RF signal through the amplified path in response to the voltage sensor detecting a first condition, and the switch is configured to route the RF signal through the bypass path in response to the voltage sensor detecting a second condition. - View Dependent Claims (2)
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3. A system comprising:
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an input connector configured to receive a radio-frequency (RF) signal from a supplier and return the RF signal to the supplier; an output connector configured to connect to user equipment; an amplified path configured to communicate the RF signal from the input connector to the output connector, the amplified path including; an upstream diplexer configured to separate the RF signal into a downstream signal and an upstream signal; an amplifier configured to receive the downstream signal as an input from the upstream diplexer and to amplify the downstream signal; and a downstream diplexer configured to receive the downstream signal as an input from the amplifier and to combine the downstream signal with the upstream signal; a return path configured to communicate the upstream signal from the output connector to the input connector; a bypass path configured to communicate the downstream signal from the input connector to the output connector, and to communicate the upstream signal from the output connector to the input connector; a voltage sensor coupled to the amplified path and not coupled to the return path; and a switch configured to selectively connect to the amplified path and the bypass path, wherein; the voltage sensor is configured to detect voltage in the amplified path; the switch is configured to route the RF signal through the amplified path in response to the voltage sensor detecting a first condition, the switch is configured to route the RF signal through the bypass path in response to the voltage sensor detecting a second condition, and wherein a compensation device is located in the amplified path and configured to; identify a low band signal channel of the downstream signal and a high band signal channel of the downstream signal; determine a format of the low band signal channel; determine a low band signal strength of the low band signal channel; determine a format of the high band signal channel; determine a high band signal strength of the high band signal channel; compare a predetermined signal strength loss curve to the low band signal strength and to the high band signal strength; and adjust the compensation device to output a gain curve across the downstream signal.
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4. A device comprising:
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an amplified path configured to communicate a downstream radio-frequency (RF) signal though the device, wherein a compensation device is located in the amplified path and configured to; compare a predetermined signal strength loss curve to a low band signal strength of the downstream RF signal and to a high band signal strength of the downstream RF signal; and adjust the compensation device to output a gain curve across the downstream RF signal in response to the comparison; a return path configured to communicate an upstream RF signal though the device; a bypass path configured to communicate the downstream RF signal and the upstream RF signal through the device; and a switching circuit coupled to the amplified, return, and bypass paths, wherein; the switching circuit includes a power sensor electrically coupled to the amplified path and not electrically coupled to the return path, the power sensor circuit is configured to detect a first condition and a second condition in the amplified path, the switching circuit is configured to communicate the downstream RF signal through the amplified path in response to the first condition in the amplified path, and to communicate the downstream RF signal through the bypass path in response to the second condition in the amplified path, and the switching circuit is configured to provide power to the return path in response to the first condition in the return path, and remove power from the return path in response to the second condition in the return path. - View Dependent Claims (5, 6, 7)
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8. A device comprising:
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an amplified path configured to communicate a downstream radio-frequency (RF) signal though the device; a return path configured to communicate an upstream RF signal though the device; a bypass path configured to communicate the downstream RF signal and the upstream RF signal through the device; and a switching circuit coupled to the amplified, return, and bypass paths, wherein; the switching circuit includes a power sensor electrically coupled to the amplified path and not electrically coupled to the return path, the power sensor circuit is configured to detect a first condition and a second condition in the amplified path, the switching circuit is configured to communicate the downstream RF signal through the amplified path in response to the first condition in the amplified path, and to communicate the downstream RF signal through the bypass path in response to the second condition in the amplified path, and the switching circuit is configured to provide power to the return path in response to the first condition in the return path, and remove power from the return path in response to the second condition in the return path, wherein a compensation device is located in the amplified path and configured to maintain a particular signal quality for high frequency signals within the downstream RF signal, and wherein the compensation device is further configured to; identify a low band signal channel of the downstream RF signal and a high band signal channel of the downstream RF signal; determine a low band signal strength of the low band signal channel; determine a high band signal strength of the high band signal channel; compare a predetermined signal strength loss curve to the low band signal strength and to the high band signal strength; and adjust the compensation device to output a gain curve across the downstream RF signal. - View Dependent Claims (9, 10, 11)
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12. A system comprising:
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an amplified forward path; a return path; a bypass path; a voltage sensor coupled in communication to the amplified forward path and not coupled in communication to the return path, and configured to detect voltage in the amplified forward path; and a switch configured to route a radio-frequency (RF) signal through the amplified forward path in response to a first condition, and to route the RF signal through the bypass path in response to a second condition, wherein a compensation device is located in the amplified forward path and configured to; compare a predetermined signal strength loss curve to a low band signal strength of the RF signal and to a high band signal strength of the RF signal; and adjust the compensation device to output a gain curve across the RF signal in response to the comparison. - View Dependent Claims (13, 14, 15, 16)
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17. A system comprising:
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an amplified forward path; a return path; a bypass path; a voltage sensor coupled in communication to the amplified forward path and not coupled in electrical communication to the return path, and configured to detect voltage in the amplified forward path; and a switch configured to route a radio-frequency (RF) signal through the amplified forward path in response to a first condition, and to route the RF signal through the bypass path in response to a second condition, wherein a compensation device is located in the amplified forward path and configured to maintain a particular signal quality of the RF signal; and wherein the compensation device is configured to; identify a low band signal channel of the RF signal and a high band signal channel of the RF signal; compare a predetermined signal strength loss curve to a strength of the low band signal and to a strength of the high band signal; and adjust the compensation device to output a gain curve across the RF signal. - View Dependent Claims (18, 19, 20)
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21. A device comprising:
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an input connector; an output connector; an amplified path configured to communicate a radio-frequency (RF) signal received by the input connector to the output connector, the amplified path including; a first diplexer configured to separate the RF signal into a first signal and a second signal; an amplifier configured to receive the first signal as an input from the first diplexer and to amplify the first signal; and a second diplexer configured to receive the first signal as an input from the amplifier and to combine the first signal with the second signal; and a compensation device configured to; compare a predetermined signal strength loss curve to a low band signal strength of the first signal and to a high band signal strength of the first signal; and adjust the compensation device to output a gain curve across the first signal in response to the comparison; a return path configured to communicate the second signal from the output connector to the input connector; a bypass path configured to communicate the first signal from the input connector to the output connector, and to communicate the second signal from the output connector to the input connector; a voltage sensor directly coupled to amplified path and not coupled to the return path; and a switch configured to selectively connect to the amplified path and the bypass path, wherein; the voltage sensor is configured to detect voltage in the amplified path; the switch is configured to route the RF signal through the amplified path in response to the voltage sensor detecting a first condition, the switch is configured to route the RF signal through the bypass path in response to the voltage sensor detecting a second condition.
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Specification