Electrical transmission or interconnection systems – Plural load circuit systems – Selectively connected or controlled load circuits
Reexamination Certificate
2001-12-03
2004-06-01
Han, Jessica (Department: 2838)
Electrical transmission or interconnection systems
Plural load circuit systems
Selectively connected or controlled load circuits
C307S115000, C361S118000, C700S295000
Reexamination Certificate
active
06744150
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to electrical power delivery devices, and, more particularly, to an electrical extension cord with electrical outlets (commonly referred to as a “power strip”) controlled by a personal computer (PC) for providing and interrupting power to peripheral equipment.
One type of electrical extension cord, commonly known as a power strip, generally comprises an elongate box-like housing having a row of plug-receiving receptacles formed therein, an on/off switch, and a single power cord which is connectable to a standard AC nominal 110 volt (foreign 220 volts) wall or other outlet. The power cord is typically plugged into the power outlet to energize the power strip. Thereafter, a plurality of devices may be plugged into the various plug receiving receptacles of the power strip. When the on/off switch of the power strip is turned to its “ON” position, current will flow to the plug-receiving receptacles and any devices which are plugged into the receptacles will become energized. Conversely, when the on/off switch is placed in its “OFF” position, devices which are plugged into the electrical power strip will become de-energized. Some of the currently available electrical power strips include resettable circuit breakers and generally include circuitry involving power surge suppression and noise filtration, to protect the personal computer from power surges, noise that comes from standard AC power, and power outages or blackouts. Some power controllers also include backup power supply in the form of a battery that can sustain the computer if a power outage or blackout occurs. These conventional power controller devices function to transmit power to a computer and peripheral devices, but generally fail to affect any operative functions of the computer or its peripheral devices.
Other power controllers are generally confined to outlet strips that enable a computer and several peripheral devices to be connected to the power strip, which is connected directly to a standard AC wall outlet. In computer systems, there is a problem of how to conveniently turn on the CPU and peripherals from the desktop. This problem is commonly handled by the use of a manually operated master switch on a conventional multi-outlet power strip or under monitor power centers. This approach however requires that the power strip be located next to the computer or under the monitor, something that is often undesirable. Another approach is to use a power strip, which is remotely controlled by a smaller switching unit, located at the desktop. This still suffers from the problem of requiring an additional piece of equipment on the desk. Power supply units in older PC's, such as the model XT and AT, provided only one such controlled outlet for the connection of a monitor. When several peripheral devices were connected to a computer system, an extension line was needed to provide peripheral equipment with AC power supply. However, because the extension line was not connected in series to the power outlet of the power supply unit of the computer system, the installed peripheral equipment had to be turned off separately when the computer system was turned off. If the computer user forgot to turn off the peripheral equipment, the peripheral equipment remained ON and consuming and wasting electrical power.
When using modem computers it is desirable and customary to cause a plurality of peripheral equipment to become energized and de-energized concurrently with the CPU. For example, when using a computer, it is sometimes desirable to energize/de-energize a group of secondary or peripheral devices concurrently with the computer. Examples of such secondary devices, which may be powered externally of the computer, include monitor, printer, plotter, scanner, sub woofer and speakers, etc.
However, it is unduly laborious to have to turn each of the secondary or peripheral devices on and off independently, rather than utilizing the singie on/off switch of the power strip to effect simultaneous energization and de-energization of the secondary devices. And, the under-monitor control center is obsolete because it does not support the automatic software turnoff feature common in today's software products as will be described below.
2. Description of the Prior Art
In order to provide background information so that the invention may be completely understood and appreciated in its proper context, reference may be made to a number of prior U.S. patents as follows:
4,204,249
4,312,035
4,368,394
4,484,258
4,463,967
4,395,640
4,623,967
4,647,721
4,675,537
4,685,023
4,747,041
4,794,525
5,250,851
5,347,167
5,359,540
5,424,903
5,506,790
5,731,947
5,904,591
6,211,581
U.S. Pat. No. 4,395,640 to Bone, issued Jul. 26, 1983, discloses a “special electric convenience outlet.” Specifically, the invention discloses a home convenience electrical outlet unit which includes the particular combination of both normally energized outlets for powering appliances requiring constant power and switch controlled outlets for selectively energizing appliances. This device incorporates a manually operated switch and is not intended to be used in connection with personal computer equipment.
U.S. Pat. No. 5,250,851 to McKnight , et at., issued Oct. 5, 1993, discloses a “video monitor support and power distribution assembly”. This is the well-known under-monitor control center and is not capable of automatic connection or disconnection of power to computer equipment.
U.S. Pat. No. 5,347,167 to Singh, issued Sep. 13, 1994, discloses a “power controller using keyboard and computer interface”. This invention is a power control device which incorporates a microcontroller to control the switching of power to and from a plurality of outlets. A host computer communicates with the microcontroller through the computer's keyboard interface to instruct the device to turn on or off one or more of the outlets either immediately or at one or more preset future times. An operator communicates with the microcontroller through the computer's keyboard to intercede to instruct the device to initiate a sequence of pre-programed on/off events. This invention works only with Apple Computers using the McIntosh operating systems due to its use of ADB (Apple Desktop Bus). This device requires special software known as “PowerKey Pro Software” in order to function.
U.S. Pat. No. 5,359,540 to Ortiz, issued Oct. 25, 1994, discloses a “computer assisted electric power management” system, and describes a complex power control apparatus connected to a parallel port of a computer. This device utilizes apparatus which connects through a computer in which electrical power outlets are independently switched in response to control signals from user switches, the computer, or other devices (telephone ring signal, timer alarm, etc.), and on demand transmits to the computer logic status and hardware interrupt signals. The device requires a “memory resident routine or program to control the on/off state of the electrical power outlets automatically and/or in response to keyboard commands”.
U.S. Pat. No. 5,424,903 to Schreiber, issued Jun. 13, 1995, discloses an intelligent power switching system for controlling the electrical connection of a power source to each of a plurality of outputs, such as personal computer components or electronic entertainment equipment. Switch circuitry is coupled to relay circuitry for generating signals responsive to user commands to select an “ON” or “OFF” state with respect to each output. A processor receives switching signals and generates control signals to effect actuation of the relays. Responsive to user programming commands, the processor stores the switching signals, their sequence and the time delay between their generation. Responsive to a subsequent abbreviated user “power-on” command, the processor generates control signals by reading the stored switching signals, their sequence and time delay, and automatically actuates the relays with respect to each outpu
Brinkley McNerney et al.
Crilly, Esq. Daniel C.
Crosby, Esq. Kevin P.
Han Jessica
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