Method and apparatus for controlling the provision of power to computer peripherals
First Claim
1. In a computer system having at least one peripheral having a power plug, an apparatus for controlling power provision to said peripheral, comprisingan input port for receiving input signals;
- a processor for processing said input signals to determine whether power should be provided to said peripheral, said processor generating an activation signal in response to a determination that power should be provided to said peripheral;
a power receptacle for receiving said power plug;
a connection circuit responsive to said activation signal for coupling said power receptacle to a power source, thereby providing power to said peripheral; and
a memory;
wherein said processor receives and stores a set of user instructions in said memory, and wherein said processor executes said user instructions to carry out a set of user-desired functions.
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Abstract
The provision of power to a peripheral of a computer system is controlled by first receiving input signals from an input source, such as a keyboard, mouse, printer port, or an occupancy sensor. The input signals are then processed to determine whether power should be provided to the peripheral, and if so, an activation signal is generated. In response to this activation signal, the peripheral is connected to an external power source, thereby turning the peripheral on. Thereafter, the input signals continue to be processed to determine whether power should be disconnected from the peripheral, and if so, a deactivation signal is generated. The peripheral is disconnected from the power source in response to the deactivation signal to turn the peripheral off. An apparatus for carrying out the method described above comprises an input port for receiving the input signals, a processor the processing the input signals, and a connection circuit for selectively connecting the peripheral to a power source. The input port receives the input signals and passes them on to the processor. The processor monitors the input signals for input signal activity, and if there is input signal activity, the processor processes the input signals to determine whether the peripheral needs to be turned on. If so, the processor generates and sends an activation signal to the connection circuit to cause the connection circuit to connect the peripheral to a power source, thereby, turning the peripheral on. Thereafter, the processor continues to monitor the input signals for input signal activity, and if no activity is detected, the processor starts a timer having a selected time limit. If no activity is detected before the time limit expires, the processor generates and sends a deactivation signal to the connection circuit, which causes the connection circuit to disconnect the peripheral from the power source, thereby, turning the peripheral off. Thus, the peripheral is automatically turned off when it is not needed in order to minimize the power consumed by the peripheral.
106 Citations
15 Claims
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1. In a computer system having at least one peripheral having a power plug, an apparatus for controlling power provision to said peripheral, comprising
an input port for receiving input signals; -
a processor for processing said input signals to determine whether power should be provided to said peripheral, said processor generating an activation signal in response to a determination that power should be provided to said peripheral; a power receptacle for receiving said power plug; a connection circuit responsive to said activation signal for coupling said power receptacle to a power source, thereby providing power to said peripheral; and a memory; wherein said processor receives and stores a set of user instructions in said memory, and wherein said processor executes said user instructions to carry out a set of user-desired functions.
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2. In a computer system having at least one peripheral having a power plug, an apparatus for controlling power provision to said peripheral, comprising
an input port for receiving input signals; -
a processor for processing said input signals to determine whether power should be provided to said peripheral, said processor generating an activation signal in response to a determination that power should be provided to said peripheral, and generating a deactivation signal in response to a determination that power should be disconnected from said peripheral; a power receptacle for receiving said power plug; and a connection circuit responsive to said activation signal for coupling said power receptacle to a power source, thereby providing power to said peripheral, and responsive to said deactivation signal for decoupling said power receptacle from said power source; wherein said processor processes said input signals to determine whether a computer to which said peripheral is coupled has been activated, said processor generating said deactivation signal in response to a determination that said computer has not been activated.
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3. In a computer system having at least one peripheral, an apparatus for controlling power provision to said peripheral, comprising:
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an input port for receiving input signals; an occupancy sensor coupled to said input port for generating said input signals when a selected spatial area is occupied by a user; a processor for monitoring said input signals for input signal activity, said processor generating an activation signal if input signal activity is detected; and a connection circuit responsive to said activation signal for coupling said peripheral to a power source. - View Dependent Claims (4, 5)
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6. In a computer system having at least one peripheral having a power plug, an apparatus for controlling power provision to said peripheral, comprising:
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a first port for sending and receiving signals to and from a computer; a power receptacle for receiving said power plug; a processor for monitoring said first port for input signal activity, said processor generating and sending an "on-line" signal to said computer, said processor also generating an activation signal if input signal activity is detected; and a connection circuit responsive to said activation signal for coupling said power receptacle to a power source, thereby providing power to said peripheral. - View Dependent Claims (7)
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8. In a computer system having at least one peripheral, an apparatus for controlling power provision to said peripheral, comprising:
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a first port for sending and receiving signals to and from a computer; a random access memory (RAM) for storing signals received from said computer via said first port; a processor for monitoring said first port for input signal activity, said processor generating and sending an "on-line" signal to said computer, said processor also generating an activation signal if input signal activity is detected; and a connection circuit responsive to said activation signal for coupling said peripheral to a power source. - View Dependent Claims (9, 10)
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11. In a computer system having at least one peripheral, a method for controlling power provision to said peripheral, comprising the steps of:
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receiving input signals from a computer; generating and sending an "on-line" signal to said computer to indicate that said peripheral is on-line, said "on-line" signal being generated and sent regardless of whether said peripheral is actually on-line; monitoring said input signals for input signal activity; generating an activation signal if input signal activity is detected; and coupling said peripheral to a power source in response to said activation signal. - View Dependent Claims (12, 13, 14, 15)
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Specification
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Current AssigneeRichard Tornai
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Original AssigneeRichard Tornai
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InventorsTornai, Richard
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Primary Examiner(s)Harvey, Jack B.
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Assistant Examiner(s)AUVE, GLENN ALLEN
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Application NumberUS08/098,577Time in Patent Office629 DaysField of Search395/750, 395/575, 364/707, 364/483, 371/14, 371/66US Class Current713/324CPC Class CodesG06F 1/3215 Monitoring of peripheral de...G06F 1/3231 Monitoring the presence, ab...G06F 1/325 Power saving in peripheral ...Y02D 10/00 Energy efficient computing,...
