Patent application number | Description | Published |
20100326024 | FILTER ELEMENT SUPPORT ASSEMBLY, QUICK INSTALLATION SYSTEM, AND METHODS - A filter element support assembly for mounting a filter element to a tube sheet includes a plurality of elongated rods; a first clamp having a through-hole; the first clamp defining a plurality of rod seats sized to receive a first end of one of the rods; a clamp rod extending through the through-hole in the first clamp; a second clamp having a through-hole; the clamp rod extending through the second clamp through-hole; the second clamp being mounted against the first clamp; the second clamp having radially projecting bumps mounted against the rods adjacent to the first clamp to hold the rods in the rod seats; a plurality of feet; each foot being secured to a second end of one of the rods; and a handle secured to an end of the clamp rod. | 12-30-2010 |
20110067368 | FILTER ARRANGEMENT AND METHODS - A filter element includes a single seamless media pack having first and second opposite ends and first and second lateral sides extending between the first and second ends. The media pack also has pleats extending between the first and second ends and a first cross-section defined between the first and second lateral sides. The first cross-section having at least one outward projection that defines an internal radius of at least ¼ inch wherein a plurality of pleats of the media pack are fanned around the internal radius. A first end cap is secured to the first end of the media pack while a second end cap secured to the second end of the media pack. Additionally, a frame member is secured to the first end cap, second end cap, the first lateral side, and the second lateral side. A pre-filter is usable with described filter arrangements. | 03-24-2011 |
20140033664 | FILTER ARRANGEMENT AND METHODS - A filter element includes a single seamless media pack having first and second opposite ends and first and second lateral sides extending between the first and second ends. The media pack also has pleats extending between the first and second ends and a first cross-section defined between the first and second lateral sides. The first cross-section having at least one outward projection that defines an internal radius of at least ¼ inch wherein a plurality of pleats of the media pack are fanned around the internal radius. A first end cap is secured to the first end of the media pack while a second end cap secured to the second end of the media pack. Additionally, a frame member is secured to the first end cap, second end cap, the first lateral side, and the second lateral side. A pre-filter is usable with described filter arrangements. | 02-06-2014 |
20140123621 | ACTUATED BYPASS HOOD FOR GAS TURBINE AIR INLET SYSTEM AND METHODS - An inlet hood for use with a gas turbine or compressor air inlet system includes a frame and at least one pre-filter pivotably held by the frame in an operating position. The pre-filter is pivotable to a bypass position angled relative to the operating position. Methods of assembly and use are provided. | 05-08-2014 |
20150052860 | FILTER ELEMENT SUPPORT ASSEMBLY, QUICK INSTALLATION SYSTEM, AND METHODS - A filter element support assembly for mounting a filter element to a tube sheet includes a plurality of elongated rods; a first clamp having a through-hole; the first clamp defining a plurality of rod seats sized to receive a first end of one of the rods; a clamp rod extending through the through-hole in the first clamp; a second clamp having a through-hole; the clamp rod extending through the second clamp through-hole; the second clamp being mounted against the first clamp; the second clamp having radially projecting bumps mounted against the rods adjacent to the first clamp to hold the rods in the rod seats; a plurality of feet; each foot being secured to a second end of one of the rods; and a handle secured to an end of the clamp rod. | 02-26-2015 |
Patent application number | Description | Published |
20080249666 | Dynamically Configuring Overcurrent Protection In A Power Supply - Methods, apparatus, and products are disclosed for dynamically configuring overcurrent protection in a power supply for components of an electrically powered system, including summing by a master service processor, during powered operation of the system, the present power requirements of components presently installed in the system and setting by the master service processor an overcurrent trip point of the power supply in dependence upon the sum of the present power requirements of the components. | 10-09-2008 |
20130091380 | Dynamically Reconfiguring A Primary Processor Identity Within A Multi-Processor Socket Server - Methods, apparatuses, and computer program products for dynamically reconfiguring a primary processor identity within a multi-processor socket server are provided. Embodiments include detecting, by the service processor, a processor socket reconfiguration event corresponding to a first processor socket; disabling, by the service processor, the first processor socket of the server in response to detecting the processor socket reconfiguration event; and reassigning, by the service processor, the primary processor identity to a second processor socket of the server. | 04-11-2013 |
20130275636 | ACCESSING PERIPHERAL DEVICES - A hardware system comprises a master device and a slave device that are coupled by a signal line. A frequency generator in the master device places a selected frequency signal on the signal line. A frequency detector/comparator in the slave device, which is coupled to the signal line, determines whether the selected frequency signal on the signal line matches a predetermined frequency for the slave device. If the selected frequency signal matches the predetermined frequency, then a chip select node on the slave device is enabled, in order to permit a data exchange session between the master device and the slave device. | 10-17-2013 |
20140013151 | I2C MULTIPLEXER SWITCHING AS A FUNCTION OF CLOCK FREQUENCY - In accordance with one embodiment of the invention, an I2C bus multiplexing circuit for use in an I2C bus interface can be provided. The I2C bus multiplexing circuit can facilitate multiplexer switching in an I2C bus interface by detecting a start command from an I2C master device via an I2C bus, buffering data from the I2C master device, detecting a clock frequency of a bus serial clock (SCL) line of the I2C master device, holding the serial data (SDA) line of the I2C master device in a clock stretch state and selecting a port based on the detected clock frequency of the SCL of the I2C master device. The method further can include sending the buffered data to an I2C slave device on the selected port. The method further can include receiving an acknowledgement from the I2C slave device on the selected port. | 01-09-2014 |
20140019644 | Controlling A Plurality Of Serial Peripheral Interface ('SPI') Peripherals Using A Single Chip Select - Controlling a plurality of serial peripheral interface (‘SPI’) peripherals using a single chip select in a computing system, the computing system including an SPI master, a first SPI peripheral, and a second SPI peripheral, wherein the first SPI peripheral is operatively coupled to the second SPI peripheral, including: receiving, by the first SPI peripheral, a signal from the SPI master; determining, by the first SPI peripheral, whether the first SPI peripheral is a primary SPI peripheral or a backup SPI peripheral; responsive to determining that the first SPI peripheral is the backup SPI peripheral, transmitting, by the first SPI peripheral to the second SPI peripheral, the signal; and responsive to determining that the first SPI peripheral is the primary SPI peripheral: servicing, by the first SPI peripheral, an instruction contained in the signal; and transmitting, by the first SPI peripheral to the second SPI peripheral, a response signal. | 01-16-2014 |
20140115222 | HIGH SPEED SERIAL PERIPHERAL INTERFACE SYSTEM - A serial peripheral interface (SPI) system including a bus adapter is disclosed. The bus adapter may include a data converter that may be adapted to receive respective first and second data from a first master output peripheral input (MOPI) line and a chip select line from a SPI master device. The data converter may also be adapted to interleave the first and second data, and the data converter may be adapted to transmit the interleaved first and second data synchronously with a second clock signal on a second MOPI line. The bus adapter may also include a clock rate adjuster adapted to generate the second clock signal to transmit to a SPI peripheral device. The second clock signal may be adapted to enable the SPI peripheral device to read the transmitted data. | 04-24-2014 |
20140306528 | INTELLIGENT OVER-CURRENT PREVENTION - A system, method, and/or computer program product comprises an input/output (I/O) bus and an intelligent current bank that couples a voltage source to the I/O bus. The intelligent current bank includes an ammeter that measures a real-time flow of current to the I/O bus. In response to the current to the I/O bus exceeding a predetermined level, an intelligent Pulse-Width Modulator (iPWM) within the intelligent current bank selectively decreases current to one or more electronic devices on the I/O bus by shortening a duty cycle of voltage being received by the iPWM from the voltage source. | 10-16-2014 |
20140310547 | INTELLIGENT OVER-CURRENT PREVENTION - A system, method, and/or computer program product comprises an input/output (I/O) bus and an intelligent current bank that couples a voltage source to the I/O bus. The intelligent current bank includes an ammeter that measures a real-time flow of current to the I/O bus. In response to the current to the I/O bus exceeding a predetermined level, an intelligent Pulse-Width Modulator (iPWM) within the intelligent current bank selectively decreases current to one or more electronic devices on the I/O bus by shortening a duty cycle of voltage being received by the iPWM from the voltage source. | 10-16-2014 |