Patent application number | Description | Published |
20080310195 | Bidirectional DC to DC Converter for Power Storage Control in a Power Scavenging Application - A bidirectional DC to DC converter having a first operational mode and a second operational mode includes a first terminal pair that has a positive terminal and a negative terminal and that connects the converter to a first electric circuit, a second terminal pair that has a positive terminal and a negative terminal and that connects the converter to a second electric circuit, an accumulation element for temporary accumulation of electric energy; and a switching circuit connected to the first terminal pair, the second terminal pair, and the accumulation element. Electric energy is transferred from the first electric circuit to the second electric circuit via the accumulation element in the first operational mode of the bidirectional DC to DC converter and, from the second electric circuit to the first electric circuit via the accumulation element in the second operational mode of the DC to DC converter. | 12-18-2008 |
20090015216 | Input regulated DC to DC converter for power scavenging - A method of scavenging power in a circuit having a power source generating electric current includes connecting a power scavenging device having an input terminal pair and an output terminal pair to the circuit via the input terminal pair, dynamically regulating a voltage drop across the input terminal pair of the power scavenging device, harvesting electrical energy available at the regulated voltage drop from the electric current flowing through the first input terminal pair of the power scavenging device, and providing the harvested electrical energy at the output terminal pair of the power scavenging device. | 01-15-2009 |
20090289575 | Opto-Isolator Multi-Voltage Detection Circuit - An opto-isolator multi-voltage detection circuit is capable to handle a wide range of input voltages ranging from about 9 volts DC to about 240 volts AC includes an input voltage, an opto-isolator, a rectifier, a voltage divider, first and second transistors, and a DC to DC converter. The voltage divider operatively coupled to the first and second transistors is capable of evenly dividing the input voltage across the first and second transistors. The DC to DC converter operatively coupled to the transistors, the voltage divider, and the opto-isolator is capable of maintaining an output current from the rectifier. The use of the DC to DC converter, the voltage divider, and the transistors provide benefit of reducing a power dissipated throughout the entire circuit. | 11-26-2009 |
20100214036 | Common-Mode Noise Reduction Circuit - A system operating in a process control environment includes a field device to perform a process control function in the process control environment, a remote device disposed away from the field device to perform an auxiliary function associated with the process control function of the field device, a first wired communication link communicatively coupled to the field device and to the remote device to support data communication between the field device and the remote device, and a common-mode noise reduction circuit coupled to the field device and to the wired communication link to reduce common-mode noise generated in the first wired communication link. | 08-26-2010 |
20110048556 | APPARATUS, METHODS AND ARTICLES OF MANUFACTURE TO CALIBRATE VALVE-MOUNTED INSTRUMENTS - Example methods, apparatus and articles of manufacture to calibrate valve-mounted instruments, such as a position controllers and/or a position transmitter, are described. A disclosed example apparatus to calibrate a valve assembly including a valve, an actuator and a position sensor includes an interface to receive a valve position value and to receive a position sensor sensitivity value, and an endpoint estimator to compute a first estimated value corresponding to an expected fully-open position of the valve based on the position sensor signal and the first and second values, and to compute a second estimated value corresponding to an expected fully-closed position of the valve based on the position sensor signal and the first and second received values, wherein the first and second estimated values are computed without repositioning the valve between computation of the first and second estimated values. | 03-03-2011 |
20130042476 | APPARATUS, METHODS AND ARTICLES OF MANUFACTURE TO CALIBRATE VALVE-MOUNTED INSTRUMENTS - Example methods, apparatus and articles of manufacture to calibrate valve-mounted instruments, such as a position controllers and/or a position transmitter, are described. An example method disclosed herein includes securing a position of a flow control member of a control valve assembly to prevent movement of the flow control member and installing a controller to the control valve assembly. The method includes activating a user interface of the controller after the controller is coupled to the control valve assembly, entering a position sensor sensitivity value and a single-point position value, the single-point position value being representative of the secured position of the flow control member, applying a single-point calibration value, placing the controller in a control mode, and releasing the position of the flow control member, the controller to self-calibrate during operation of the control valve assembly based on the position sensor sensitivity value and the single-point position value while the control valve assembly is in operation. | 02-21-2013 |
20140049868 | Control Signal Protection Device - A control signal protection device having a first operational mode and a second operational mode includes a first terminal pair that connects the signal protection device to a control system and a second terminal pair that connects the converter to a field device. The control system provided a control signal to the control system protection device. The control signal device further includes a power storing element for temporary accumulation of electric energy and a switching circuit for controlling operational mode of the signal protection device. Electric energy is stored in the power storing element in the first operational mode. Electric energy stored in the power storing element is supplied to a positive terminal in the second terminal pair in the second operational mode. | 02-20-2014 |
20150051716 | Control Signal Protection Device - A control signal protection device protects a current-receiving field device from an undesirable interruption in a control signal provided to the field device. The control signal protection device includes a first terminal to connect the signal protection device to a control system and a second terminal that connects the control signal protection device to a field device. The control signal device further includes a power storing element for temporary accumulation of electric energy and a switching circuit for controlling operational mode of the signal protection device. Electric energy is stored in the power storing element in a first operational mode. Electric energy stored in the power storing element is supplied to a positive terminal in the second terminal pair in a second operational mode. | 02-19-2015 |