Peripheral device power management circuit and method for...

Electrical computers and digital processing systems: support – Computer power control – Having power source monitoring

Reexamination Certificate

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Details

C713S310000

Reexamination Certificate

active

06564333

ABSTRACT:

TECHNICAL FIELD
The present invention generally pertains to the field of computer networking. More particularly, the present invention pertains to power management in a network adapter with more than one power source, such as a network adapter equipped with remote wakeup capability.
BACKGROUND ART
A computer system's functionality is dramatically enhanced by coupling stand-alone computers together to form a computer network. In a computer network, users may readily exchange files, share information stored on a common database, pool resources, and communicate via e-mail and video teleconferencing. Another advantage of computer networks is that they can be accessed from remote locations via a modem or various other types of communication equipment.
One popular type of computer network is known as a local area network (LAN). LANs connect multiple computers together such that the users of the computers can access the same information and share data. Typically, in order to be connected to a LAN, a general purpose computer requires a peripheral device generally known as a network adapter or network interface card (NIC). Essentially, the NIC works with the operating system and central processing unit (CPU) of the host computer to control the flow of information over the LAN. NICs may also be used to connect a computer to the Internet.
Remote access to a computer network (e.g., a LAN) is facilitated by providing the capability to start or wake up a computer from a remote location. This feature is advantageous to a user desiring access to a computer from a remote location. This feature is also advantageous to a network administrator, allowing the administrator to perform, for example, maintenance activities on a computer system from a remote location.
A standard has been developed for allowing a networked computer which is in sleep mode to be awakened. More specifically, Advanced Micro Devices (AMD) of Santa Clara, Calif., has developed a technology referred to as the Magic Packet technology. In the Magic Packet technology, assuming, for example, that an Ethernet controller is running and communicating with the network, the computer's power management hardware or software puts the Ethernet controller into the Magic Packet mode prior to the system going to sleep. Once in the sleep mode, the computer will be awakened when a Magic Packet is detected. That is, incoming data will be monitored until the specific sequence comprising the Magic Packet is detected. The Magic Packet technology and the associated standard (generally referred to as the Wakeon LAN standard) are well known in the art.
Accordingly, some NICs are designed to detect a Magic Packet and to awaken the computer (or selected components within the computer) in response. These NICs are typically connected in a standard fashion to the computer (e.g., to the computer's motherboard) via a bus such as a PCI (peripheral component interconnect) bus. These NICs also are connected to the motherboard via a separate cable (e.g., a remote wakeup cable). Thus, NICs that provide a remote wakeup capability typically have a primary power source from the motherboard and an auxiliary power source from the remote wakeup cable. When the computer is powered on and awake, power to the NIC is provided over the PCI bus from the primary power source, typically five volts (5V). When the computer system is in the sleep mode, power to the NIC is provided over the remote wakeup cable from the auxiliary power source, typically also 5V. Therefore, when a Magic Packet is received, the NIC will have power and hence the ability to wake up. The NIC also can then send a PME (power management event) signal via the remote wakeup cable to wake up the computer.
The prior art is problematic because the presence of more than one power source can cause a power contention issue. If power is being provided by one source (for example, by the auxiliary power source), it is not necessary for the other source (in this case, the primary power source) to provide power. In fact, using power concurrently from both sources may cause damage to some of the components in the NIC. Also, switching to different power sources during the power down mode can cause faults in the NIC.
This problem is aggravated by introduction of revision 2.2 of the PCI specification (“PCI 2.2”). With PCI 2.2, the aforementioned PCI bus is required to provide another auxiliary power source in addition to the power sources described above. In accordance with PCI 2.2, pin A
14
of the PCI bus provides a 3.3V auxiliary power source to the NIC. Thus, a NIC with the remote wakeup capability and compliant with PCI 2.2 can have three power sources, aggravating the power contention issue described above.
Thus, a need exists for a device or method that addresses the power contention problem so that components do not inadvertently receive power from more than one source when multiple power sources are present in a peripheral device (such as a NIC). A further need exists for a device or method that addresses the above need and allows the peripheral device to select one power source versus another depending on the mode in which the computer and peripheral device are currently operating (e.g., sleep mode versus awake). The present invention provides a novel solution to these needs.
DISCLOSURE OF THE INVENTION
The present invention provides a device and method thereof which address the power contention problem so that components do not inadvertently receive power from more than one source when multiple power sources are present in a peripheral device (such as a network interface card). The present invention also provides a device and method thereof that allow the peripheral device to select one power source versus another depending on the mode in which the computer and peripheral device are currently operating (e.g., sleep mode versus awake).
Specifically, in one embodiment of the present invention, a circuit and method thereof are used to arbitrate between a first power source and a second power source in a computer system peripheral device such as a network adapter (e.g., a network interface card) that is connected to multiple power sources. In the present embodiment, the circuit includes a first component coupled between the first power source and the second power source. The first component is adapted to conduct current from the second power source when power is not available from the first power source. Integral with the first component is a second component adapted to substantially prevent current from flowing from the first power source to the second power source. In the present embodiment, the first component is a field effect transistor (FET) and the second component is a diode intrinsic to the FET. The circuit also includes a third component coupled between the first power source and the second power source. The third component is adapted to regulate voltage such that a voltage from the first power source and a voltage from the second power source are approximately equal.
In one embodiment, the first power source is selected from a primary power source and a first auxiliary power source that are connected to the peripheral device. In this case, the second power source is a second auxiliary power source also connected to the peripheral device. In this embodiment, a fourth component is coupled between the primary power source and the first auxiliary power source. The fourth component is adapted to conduct current from the primary power source when power is not available from the first auxiliary power source. Integral with the fourth component is a fifth component adapted to conduct current from the primary power source in combination with the fourth component and to substantially prevent current from flowing from the first auxiliary power source to the primary power source. In the present embodiment, the fourth component is a FET and the fifth component is a diode intrinsic to the FET. Thus, in this embodiment, power from the first auxiliary power source is used when power is available from the f

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