Patent application number | Description | Published |
20100123435 | REDUCTION OF PEAK CURRENT REQUIREMENTS - Method and apparatus are provided for controlling electrical current supplied to an electronic device, such as a computer system. The method includes drawing up to a predetermined amount of an electrical input current from a first current source, and supplying a first portion of the drawn electrical input current to the electronic device, wherein the amount of the first portion may change over time to supply the amount of electrical current demanded by the electronic device without exceeding the predetermined amount. A second portion is supplied to charge an energy storage device during a period that the first portion is less than the predetermined amount. The stored energy device is discharged, as needed, to supply supplemental electrical current to the electronic device. A power supply including an energy storage device, such as a rechargeable battery, may be used to carry out the method. | 05-20-2010 |
20110066910 | STEALTH MESSAGE TRANSMISSION IN A NETWORK - Embodiments of the invention include methods of transmitting a hidden message within a secured primary data transmission. In one embodiment, a method involves transmitting a primary data transmission over a computer network from a source host to a receiving host. Intentionally-corrupted packets are introduced within the primary data transmission in a manner providing a hidden message. For example, a pattern of intentionally-corrupted packets may be used to encode the hidden message. Alternatively, the hidden message may be embedded within the data area of the intentionally-corrupted packets. The intentionally-corrupted packets are received and interpreted at the receiving host to determine the hidden message. | 03-17-2011 |
20120219154 | STEALTH MESSAGE TRANSMISSION IN A NETWORK - Embodiments of the invention include methods of transmitting a hidden message within a secured primary data transmission. In one embodiment, a method involves transmitting a primary data transmission over a computer network from a source host to a receiving host. Intentionally-corrupted packets are introduced within the primary data transmission in a manner providing a hidden message. For example, a pattern of intentionally-corrupted packets may be used to encode the hidden message. Alternatively, the hidden message may be embedded within the data area of the intentionally-corrupted packets. The intentionally-corrupted packets are received and interpreted at the receiving host to determine the hidden message. | 08-30-2012 |
Patent application number | Description | Published |
20090016019 | AIRFLOW CONTROL AND DUST REMOVAL FOR ELECTRONIC SYSTEMS - Airflow control and dust removal systems and methods are disclosed. In one embodiment, a plurality of blade servers is mounted in a chassis. A blower generates airflow through the chassis. Air enters the chassis uniformly across the blade servers and flows in parallel through the servers. An airflow directing mechanism is provided for allowing airflow through a selected one of the blade servers while reducing or closing airflow to the other blade servers, to individually clean and remove dust from the selected blade server. The airflow directing mechanism may include a movable vane actuated by a rotary or linear solenoid to selectively block airflow ports of the servers. The vane may be held in a closed position, assisted by an electromagnet. The airflow directing mechanism may alternatively comprise a rolled shade having a pattern of openings. The position of the rolled shade may be controlled to align openings in the shade with airflow ports in the servers, to control which servers airflow may pass through. | 01-15-2009 |
20090021270 | CAPACITIVE DETECTION OF DUST ACCUMULATION IN A HEAT SINK - A system and method for electronically detecting the accumulation of dust within a computer system using a capacitive dust sensor. The dust detection system may be implemented on a smaller computer, such as an individual PC, or in a more expansive system, such as a rack-based server system (“rack system”) having multiple servers and other hardware devices. In one embodiment, each server in a rack system includes a capacitive sensor responsive to the accumulation of dust. The capacitive sensor may include one or more capacitive plates integral with a heatsink. As dust collects on the capacitive plates, the capacitance increases. When a capacitance setpoint is reached, indicating the dust has reached a critical level, an alert is generated. The alerts may be received by a management console for the attention of a system administrator. Each alert may contain the identity of the server generating the alert, so that the system administrator knows which server(s) are to be removed for cleaning. | 01-22-2009 |
20090045967 | CAPACITIVE DETECTION OF DUST ACCUMULATION USING MICROCONTROLLER COMPONENT LEADS - A system and method are used for electronically detecting the accumulation of dust within a computer system using a capacitive dust sensor. The dust detection system may be implemented on a smaller computer, such as an individual PC, or in a more expansive system, such as a rack-based server system (“rack system”) having multiple servers and other hardware devices. In one embodiment, each server in a rack system includes a capacitive sensor responsive to the accumulation of dust. The capacitive sensor may include one or more capacitive plates integral with a heatsink. As dust collects on the capacitive plates, the capacitance increases. When a capacitance setpoint is reached, indicating the dust has reached a critical level, an alert is generated. The alerts may be received by a management console for the attention of a system administrator. Each alert may contain the identity of the server generating the alert, so that the system administrator knows which server(s) are to be removed for cleaning. | 02-19-2009 |
20090088008 | METHOD FOR HORIZONTAL INSTALLATION OF LGA SOCKETED CHIPS - Method and apparatus for installing a processor into electronic communication with a socket. The land grid array socket connector includes a socket housing secured to a circuit board and an array of upwardly extending pins for electronic communication with contact pads on the processor. The socket connector provides a carriage configured to receiving the processor through a lateral opening and support a perimeter edge of the processor. A mechanical linkage couples the carriage and the socket housing for substantially vertically translating the processor relative to the socket. A plurality of alignment features upwardly extends from the socket housing along the perimeter of the array of pins. Each of the alignment features has an inwardly-facing tapered surface for registering the edge of the processor and biasing the processor into a position where the array of contact pads are aligned with the array of pins as the processor is lowered. | 04-02-2009 |
20090234936 | Dual-Band Communication Of Management Traffic In A Blade Server System - In one embodiment, a communication system for a multi-blade server system includes a multi-drop serial bus network interconnecting a management module with each of a plurality of servers in a multi-server chassis. A first transceiver subsystem is configured for communicating over the serial bus network between the management module and each server within a first frequency band. A second transceiver subsystem is configured for simultaneously communicating over the serial bus network between the management module and the servers within a second frequency band higher than the first frequency band. A first signal-filtering subsystem substantially filters out signals in the second frequency band from the first transceiver subsystem. A second signal-filtering subsystem substantially filters out the signals in the first frequency band from the second transceiver subsystem. | 09-17-2009 |
20090273911 | Self-Detecting Electronic Connection For Electronic Devices - According to one embodiment, an apparatus has first and second connectors configured for removably connecting to one another. The first connector circuit has a first differential amplifier, a first differential signal path, a first capacitor section capacitively coupling the first differential amplifier to the first differential signal path, and a first DC biasing circuit for imparting a first DC bias to the first differential signal path opposite the first capacitor section. The second connector circuit has a second differential amplifier, a second differential signal path, a second capacitor section capacitively coupling the second differential amplifier to the second differential signal path, and a second DC biasing circuit for imparting a second DC bias to the second differential signal path opposite the second capacitor section having a different magnitude than the first DC bias when the first and second connector are not connected. One or both of the first and second connector circuits is configured for detecting a change in the first or second DC bias and outputting a connection status signal in response to the detected change. | 11-05-2009 |
20100030942 | ENCODED CHIP SELECT FOR SUPPORTING MORE MEMORY RANKS - Method and systems are disclosed for increasing the number of ranks supported in a memory system. In one embodiment, a plurality of predefined subsets of memory chips on a memory module is selected. A chip select signal uniquely identifying the selected subset of memory chips is generated. The chip select signal is encoded as a multi-bit word having a bit width that is less than the number of predefined subsets of memory chips. Each bit of the encoded chip select signal is transmitted along a separate chip select line. The transmitted chip select signal is decoded to determine the identity of the selected subset of memory chips. The selected subset of memory chips identified by the decoded chip select signal are read or written. | 02-04-2010 |
20110066840 | SYSTEM AND METHOD FOR REDUCING SUBSYSTEM ENERGY COSTS - Power supply to system resources is managed by implementing a hardware hook. System resources that should be reconfigured for an application workload are identified. A present power profile in a non-volatile memory is then updated. The present power profile is updated according to the application workload. During a system restart, the present power profile is retrieved from the non-volatile memory. Power is applied to system resources through the hardware hook based on the present power profile. | 03-17-2011 |