Class / Patent application number | Description | Number of patent applications / Date published |
340854600 |
Electromagnetic energy (e.g., radio frequency, etc.)
| 107 |
340854400 |
Drill string or tubing support signal conduction
| 56 |
340854900 |
Cable or wire (e.g., conductor as support, etc.)
| 47 |
340854500 |
Wellbore casing or ground | 5 |
20110241897 | SYSTEM AND METHOD FOR REAL TIME DATA TRANSMISSION DURING WELL COMPLETIONS - Presently, existing completion tools have not been designed to couple with wired drill pipe. As such, present completions operations and tools have not been able to take advantage of the expanded bandwidth in wire drill pipe. Instead of designing new completions tools with wired pipe connections, the disclosed system and methods propose use of a short-hop or wireless system to transmit data from a completions tool to an upper receiver module coupled to the wired drill pipe. Various measurements from the region around the completions tool may be transmitted from one or more lower wireless modules to the upper wireless module and then transmitted through the wired drill pipe to the surface. Likewise, signals may be transmitted from the surface through the wired drill pipe to the upper module and then to the lower wireless module. | 10-06-2011 |
20120146807 | ZERO SUM PRESSURE DROP MUD TELEMETRY MODULATOR - A method and arrangement for mud telemetry having components of a wellbore casing, a combination rotor stator positioned inside the wellbore casing, an uphole detection arrangement configured to sense increases and decreases in pressure, a valve actuator, a valve configured to be actuated by the valve actuator, the valve configured to convey a fluid from an inside of the wellbore casing to an outside of the wellbore casing and cause a decrease in fluid pressure in the wellbore casing, and a downhole tool configured to measure at least one formation parameter. | 06-14-2012 |
20130234860 | PIPELINE SYSTEM AND METHOD FOR OPERATING A PIPELINE SYSTEM - A pipeline system includes at least one electrically-conducting pipeline, which is connected to the ground and which is isolated from the ground. A cathode protection system is provided, which includes a plurality of ground rods arranged in the ground, which are each connected electrically to the ground and are coupled electrically to the pipeline. The pipeline system also includes a communication system with a plurality of communication devices, allowing data to be transmitted via the pipeline for communication between the communication devices. The communication devices have sensor units arranged along the pipeline, which are supplied with energy from the cathode protection system. | 09-12-2013 |
20150337649 | TIME-FREQUENCY DOMAIN MULTIPLEXING APPARATUS, METHODS, AND SYSTEMS - In some embodiments, an apparatus and a system, as well as a method and an article, may operate to transmit energy as transmitted signals from current electrodes on a galvanic down hole tool, while multiplexing the energy in both time and frequency domains, to interact the transmitted signals with a geological formation to provide interacted signals that represent a formation property. Additional apparatus, systems, and methods are described. | 11-26-2015 |
20160102545 | WIRELESS PASSIVE PRESSURE SENSOR FOR DOWNHOLE ANNULUS MONITORING - A downhole pressure sensor to measure absolute pressure in an annulus and a method of measuring absolute pressure in an annulus are described. The sensor includes an inductor including primary windings and secondary windings, and a capacitor coupled to the secondary windings and disposed in the annulus, at least one of the plates of the capacitor being flexible. The sensor also includes a controller coupled to the primary windings, the controller introducing an input signal to the primary windings and receive a return signal from the primary windings, the return signal resulting from the input signal being transferred through the secondary windings to the capacitor and back through the secondary windings to the primary windings. The controller determines the absolute pressure from the return signal. | 04-14-2016 |
Entries |
Document | Title | Date |
20080211687 | Electric field communication for short range data transmission in a borehole - The present invention concerns application of a unique conductive electrode geometry used to form an efficient wideband, one- or two-way wireless data link between autonomous systems separated by some distance along a bore hole drill string. One objective is the establishment of an efficient, high bandwidth communication link between such separated systems, using a unique electrode configuration that also aids in maintaining a physically robust drill string. Insulated or floating electrodes of various selected geometries provide a means for sustaining or maintaining a modulated electric potential adapted for injecting modulated electrical current into the surrounding sub-surface medium. Such modulated current conveys information to the systems located along the drill string by establishing a potential across a receiving insulated or floating electrode. | 09-04-2008 |
20080218374 | METHOD AND APPARATUS FOR COMMUNICATING SIGNALS TO AN INSTRUMENT IN A WELLBORE - A method for communicating a signal to an instrument in a wellbore includes axially accelerating the instrument in a preselected pattern of acceleration. The predetermined pattern corresponds to the signal to be communicated. The axial acceleration of the instrument is detected, and the signal is decoded from the detected axial acceleration. A signal detection system for an instrument in a wellbore includes an accelerometer oriented along a longitudinal axis of the instrument and means for comparing measurements made by the accelerometer to at least one predetermined pattern. | 09-11-2008 |
20080231467 | COMPLIANCE TELEMETRY - A communication system for communicating information with a compliant medium is disclosed, the communication device includes a constrained fluid, a valve, a modulator, a sensor and a demodulator. The constrained is fluid distributed along a length. The valve is configured to operatively engage a second point relative to the length. The modulator configured to actuate the valve according to information. The sensor configured to measure pressure at a first point relative to the length, where the first point is distant from the second point. The demodulator is coupled to the sensor to recover the information. | 09-25-2008 |
20090146835 | WIRELESS COMMUNICATION FOR DOWNHOLE TOOLS AND METHOD - A system for setting a tool in a downhole environment includes a communicator configured to broadcast a signal; a downhole tool configured to receive the signal from the communicator and execute on an instruction conveyed by the signal, a radio wave inhibiting structure being interposed between the communicator and the downhole tool and method. | 06-11-2009 |
20090237267 | DOWNHOLE TELEMETRY THROUGH MULTI-CONDUCTOR WIRELINE - A logging tool has three seismic sensors that generate seismic signals in response to microseismic events and can be a Triaxial Borehole Seismic system. The tool also has additional sensors, such as a wireline tension measuring circuit, a gamma ray sensor, an inclinometer, and a gyroscope. The tool deploys downhole with a multi-conductor (i.e., seven conductor) wireline. For the seismic signals, a telemetry unit on the tool derives frequency-modulated carrier signals from the seismic signals, and a transformer of the unit transmits these carrier signals to surface acquisition equipment using cross-wired pairs of conductors in the wireline connected to the transformer's terminals. For the signals from the other sensors, the telemetry unit derives analog carrier signals from their signals and transmits the analog carrier signals to the surface acquisition equipment using remaining conductors of the wireline. | 09-24-2009 |
20090251331 | MUD CHANNEL CHARACTERIZATION OVER DEPTH - A system for optimizing a mud-pulse telemetry system, the system including: a plurality of sensors distributed along a drill string adapted for being disposed in a borehole, each sensor configured to perform a measurement of a characteristic of at least one of mud in a column within the borehole and a mud-pulse telemetry signal propagating in the mud; and a processing unit for receiving the measurements, the processing unit comprising an algorithm to compile a data set from the measurements and to determine a parameter of the mud-pulse telemetry system using the data set to optimize the mud-pulse telemetry system. A method and a computer program product are also provided. | 10-08-2009 |
20100013663 | Downhole Telemetry System Using an Optically Transmissive Fluid Media and Method for Use of Same - A downhole telemetry system ( | 01-21-2010 |
20100148987 | COMMUNICATION VIA FLUID PRESSURE MODULATION - In some embodiments, an apparatus [100] and a system, as well as a method and an article, may operate to transmit downhole data in a drilling fluid via fluid pressure modulation, and receive the downhole data at a fluid pulse receiver included in a conduit [104] coupled to a drill pipe downstream from a Kelly hose. Other apparatus, systems, and methods are disclosed. | 06-17-2010 |
20100231411 | Long Distance Power Transfer Coupler for Wellbore Applications - A long distance power transfer coupler for wellbore applications system uses two or more wireless modules, each wireless module comprises a self-resonant coil, to transmit energy within a wellbore. The second, and potentially subsequent, wireless modules receive radiant electromagnetic energy from a nearby neighbor which the self-resonant coil converts to usable electromagnetic energy which may be used for power, data communications, or a combination thereof. A first module may be deployed at a predetermined position in the wellbore; a cable attached to a second length of tubing; and one or more second modules attached to the tubing and coupled inductively to a resistive load. The tubing and second module or modules are deployed downhole and electromagnetic energy transmitted wirelessly between the first module and the second module. Modules may be deployed in a completion string. | 09-16-2010 |
20100295701 | Interconnection device for electronic circuits, notably microwave electronic circuits - Interconnection device for electronic circuits, notably microwave electronic circuits, characterized in that it comprises at least one transmission line coupled to an earth line, the two lines being made on a face of a dielectric substrate, at least one metallization surface forming on the other face of the dielectric substrate at least one coupling element disposed on a surface substantially equal in area to the surface occupied by the transmission line and the earth line, the interconnection being carried out substantially at the level of the ends of the transmission line and of the earth line. | 11-25-2010 |
20100328095 | APPARATUS, SYSTEM, AND METHOD FOR COMMUNICATING WHILE LOGGING WITH WIRED DRILL PIPE - Aspects of the inventions generally provide a method and apparatus for coupling a communication sub to a wired drill pipe. In one aspect, a surface of a coupler head is non threaded and configured to provide a retaining force. In another aspect, a coupler head is coupled to a body, and a support mechanism is coupled to the body and configured to secure the coupler head within a receiving end of the wired drill pipe. In another aspect, a method of placing a communication sub involves inserting the communication sub into the receiving end of the wired drill pipe, adjusting the position of the communication sub until an indication of signal communication between the communication sub and the wired drill pipe is observed, and after the indication of signal communication is observed, retaining the communication sub within the receiving end until removal of the communication sub is desired. | 12-30-2010 |
20110140907 | DOWNHOLE COMMUNICATION - A downhole system ( | 06-16-2011 |
20110148656 | DOWNHOLE POWER GENERATION - Downhole electrical power generation apparatus and methods of using stored pressurized gas and/or ambient downhole pressure. One example comprises first and second fluid receiving chambers, a fluid communication path for allowing flow of fluid from the first chamber via the fluid communication path to the second chamber and a turbine generator disposed so that fluid flowing from the first chamber via the fluid communications path to the second chamber operates the turbine generator to generate electrical power. | 06-23-2011 |
20110234421 | METHOD AND APPARATUS FOR A SUBTERRANEAN AND MARINE-SUBMERSIBLE ELECTRICAL TRANSMISSION SYSTEM FOR OIL AND GAS WELLS - The present invention is directed towards methods of oil and gas well logging, monitoring, and the field of electrically powering submersible devices like electrical motors in oil and gas wells. | 09-29-2011 |
20120013481 | Wellbore Telemetry And Noise Cancellation Systems And Method For The Same - A method of signal processing includes providing at least a first pressure sensor and a second pressure sensor spaced in a drilling system and using an algorithm to separate the downwardly propagating waves from the upwardly propagating waves. In one or more examples, an algorithm may include determining a velocity of pressure signals in a wellbore, time-shifting and stacking pressure signals from at least the first pressure sensor and the second pressure sensor to determine a downwardly propagating noise signal, and subtracting the downwardly propagating noise signal from at least the signal from the first pressure sensor. | 01-19-2012 |
20130088361 | SENSOR COMMUATED ELECTRIC MOTOR WITH SENSORLESS ANGULAR POSITION DETERMINATION AND METHOD - An electric motor assembly, mud pulser and a method for transmitting data. The electric motor assembly includes an electric motor having a rotor and a stator that includes one or more windings; one or more sensors on the stator and configured to determine an angular position of the rotor; and a motor control circuitry configured to control a commutation of the electric motor based on signals received from the one or more sensors. The motor control circuitry is configured to determine a total angular rotation of the rotor based on a back emf voltage of the one or more windings and independent of the signals from the one or more sensors. | 04-11-2013 |
20130088362 | INTELLIGENT WELLHEAD RUNNING SYSTEM AND RUNNING TOOL - Systems and methods communicating between a subsea running tool disposed within a subsea wellhead, a blowout preventer assembly, and/or a subsea tree, and a surface platform are provided. An example of such a system includes a running tool assembly. The running tool assembly can include a running tool and a running tool wireless interface carried by the running tool. Wireless interface is configured to communicate running tool sensor data to a blowout preventer assembly wireless interface through a fluid medium located between the running tool wireless interface and a blowout preventer assembly wireless interface when the running tool is operably positioned within a bore extending through a component of the blowout preventer assembly or a bore extending through the subsea wellhead. The wireless communications scheme for communicating with a sensor data can include radiofrequency communications through the fluid medium between antenna components thereof, mutual inductive coupling, backscatter coupling, and/or capacitive coupling. | 04-11-2013 |
20130093597 | COMMUNICATION APPLICATIONS - In some embodiments, an apparatus and a system, as well as a method and an article, may operate to transmit and receive data. Transmission may comprise transforming larger values of acquired data into smaller values of transformed data using a transform defined by a seed value selected to reduce digital pulse position modulation transmission time for the acquired data. Additional activities include digital pulse position modulating the transformed data and a checksum associated with the transformed data to provide a propagation signal, and transmitting the propagation signal into drilling fluid or a geological formation. Reception may comprise receiving the propagation signal, demodulating the propagation signal to extract the transformed data and the checksum, and transforming the transformed data into an estimate of the acquired data, using the transform defined by the seed value validated by the checksum. Additional apparatus, systems, and methods are described. | 04-18-2013 |
20130154845 | Mud Pulse Telemetry Noise Reduction Method - A method for reducing noise in downhole fluid communications includes processing first and second received signals in combination with a strobe signal from an active pump to obtain pump signatures at first and second spaced measurement locations. The pump signatures are used to compute a transfer function of the fluid channel between the two measurement locations. The transfer function may then be used to estimate the telemetry signal traveling in the uphole direction. | 06-20-2013 |
20130162440 | Downhole Pressure Pulse Generator And Method - A downhole pressure pulse generator ( | 06-27-2013 |
20130176137 | HORIZONTAL DIRECTIONAL DRILLING AREA NETWORK AND METHODS - A drilling area network hub is located proximate to a drill rig and includes an uphole transceiver in bidirectional communication with a downhole transceiver by utilizing the drill string as an electrical conductor. Certain information is collected including rig-based and/or location information. At least one field report is generated based on the certain information to characterize at least one of an inground operation, an operational condition of the downhole transceiver, an operational condition of the uphole transceiver, and an operational condition of the drill rig. A drilling area network server receives the field report from the Internet at a remote location and can generate a custom report and/or recommended actions based on field data. Region specific parameters can be applied to the operation of a drilling system. The drilling area network hub can transfer data logs to the remote location according to assigned priorities. | 07-11-2013 |
20130176138 | APPARATUS AND METHOD FOR ENHANCING SUBSURFACE SURVEYS - This invention generally relates to the field of 2D, 3D and 4D survey techniques used to delineate the subsurface structure of the earth. In one aspect, a method of using a downhole system is provided. The method includes the step of deploying the downhole system in a wellbore. The method further includes the step of allowing wellbore fluid to move through the down-hole system. Additionally, the method includes the step of selectively generating signals in the downhole system that are used in subsurface surveys. In another aspect, a downhole system for use in generating signals in a wellbore that are used in subsurface surveys is provided. | 07-11-2013 |
20130214934 | DOWNHOLE LOGGING TOOL - A downhole logging tool, comprising: a sensor device comprising a sensor configured to electrically detect at least one physical characteristic downhole fluid such as temperature or flow. The sensor comprises a bridge circuit having a four electric components for electric detection of the physical characteristic. The electric components, often resistors, are often spaced apart in pairs where a first and second components are situated together next to each other; third and fourth electric components are situated together in close proximity and next to each other; whilst first and the third electric component are configured to be in parallel with the second and the fourth electric components. A heater may be added to the tool to generate a pulse of heat which may be detected by the sensors and provide data indicative of flow in the well. Accordingly embodiments of the invention can detect temperature in a well, and indeed fluid flow, which can be indicative of leaks in the well. | 08-22-2013 |
20130222149 | Mud Pulse Telemetry Mechanism Using Power Generation Turbines - A method and apparatus of creating a mud pulse for a drilling system, comprising creating a mud flow through the drilling system and creating at least one pressure pulse in the mud flow with a power generation mechanism. | 08-29-2013 |
20130249703 | Apparatus, System, And Method For Communicating While Logging With Wired Drill Pipe - Aspects of the inventions generally provide a method and apparatus for coupling a communication sub to a wired drill pipe. In one aspect, a surface of a coupler head is non threaded and configured to provide a retaining force. In another aspect, a coupler head is coupled to a body, and a support mechanism is coupled to the body and configured to secure the coupler head within a receiving end of the wired drill pipe. In another aspect, a method of placing a communication sub involves inserting the communication sub into the receiving end of the wired drill pipe, adjusting the position of the communication sub until an indication of signal communication between the communication sub and the wired drill pipe is observed, and after the indication of signal communication is observed, retaining the communication sub within the receiving end until removal of the communication sub is desired. | 09-26-2013 |
20140218206 | Multi-Scheme Downhole Tool Bus System and Methods - A multi-scheme downhole tool bus system is provided. The system may comprise a tool bus master and a number tool bus slaves coupled together via a communications link The communications link may include an uplink communication and a downlink communication. The uplink communication and the downlink communication may include a number of communication schemes or data rates. | 08-07-2014 |
20140266769 | NETWORK TELEMETRY SYSTEM AND METHOD - A telemetry system produces, transmits and receives signal sets from network nodes, which correspond to transceiver stations. Repeater scheduling and other interference mitigating techniques are utilized to simultaneously transmit from multiple nodes with minimized network degradation. Update interval/rate and network throughput are thereby fixed regardless of the number of network nodes and a network telemetry method is provided using the system. | 09-18-2014 |
20140354444 | CHANNEL IMPULSE RESPONSE IDENTIFICATION AND COMPENSATION - A method of interpreting a signal transmitted through a drilling fluid disposed within a telemetry channel of a wellbore that includes defining a finite number of distinct message signals for representing conditions within the wellbore. The method also includes transmitting one of the message signals through the telemetry channel, and receiving a distorted signal that includes the message signal as distorted by transmission through the telemetry channel. A channel impulse response is estimated and applied to at least one of the message signals to generate at least one predicted signal. A comparison is made between the predicted signal and the distorted signal, and an estimation is made as to which of the finite number of message signals is included in the distorted signal based on the comparison. | 12-04-2014 |
20150368539 | CARBONACEOUS NANOPARTICLES AS CONDUCTIVITY ENHANCEMENT ADDITIVES TO WATER-IN-OIL EMULSIONS, OIL-IN-WATER EMULSIONS AND OIL-BASED WELLBORE FLUIDS - Various embodiments of the present disclosure provide methods of making wellbore fluids with enhanced electrical conductivities. In some embodiments, such methods comprise: (1) pre-treating a carbon material with an acid; and (2) adding the carbon material to the wellbore fluid. Further embodiments of the present disclosure pertain to wellbore fluids formed by the methods of the present disclosure. Additional embodiments of the present disclosure pertain to methods for logging a subterranean well by utilizing the aforementioned wellbore fluids. | 12-24-2015 |
20150377013 | Piping Assembly with Probes Utilizing Addressed Datagrams - A control system with probes for generating and utilizing at least one or more addressed datagrams that communicate information to and from devices along piping assemblies comprising; one or more transmitters, one or more receivers, and one or more controllers, wherein the transmitters transmit information via one or more addressed datagrams encoded within a working medium to one or more receivers among the piping assemblies, is described. Transmitters convert datagrams into signals that are transmitted within the working medium and the receivers receive signals from the transmitters and also convert signals from the working medium which is converted back into datagrams. The controllers receive and decode the datagrams so that the controllers selectively communicate and perform logical operations on piping assembly devices according to directions received from the addressed datagrams. The entire control system can function as a network of controllers, receivers, transmitters, and/or transponders as required by one or more users. | 12-31-2015 |
20150377014 | FLUID PRESSURE PULSE GENERATOR FOR A DOWNHOLE TELEMETRY TOOL - A fluid pressure pulse generator comprises a stator having a body and cylindrical bore and a rotor having a cylindrical body and cap. The diameter of the cylindrical body is smaller than that of the stator central bore such that an annular gap is formed therebetween. The cap has a base with a diameter larger than that of the rotor body, forming a protruding lip that covers at least a portion of the annular gap. The stator body and rotor body collectively have at least one fluid flow chamber comprising a lateral opening and an uphole axial inlet, and a downhole axial outlet and at least one fluid diverter comprising a lateral opening in fluid communication with the axial outlet. The rotor can rotate within the stator such that the fluid diverter moves in and out of fluid communication with the fluid flow chamber to create fluid pressure pulses. | 12-31-2015 |
20150377015 | FLUID PRESSURE PULSE GENERATOR FOR A DOWNHOLE TELEMETRY TOOL - A fluid pressure pulse generator comprises a stator with a body and cylindrical bore and a generally cylindrical rotor having uphole and downhole ends with different diameters to form an annular fluid barrier at the intersection of the two ends. An annular gap is formed between the rotor uphole end and stator body. The stator body and rotor body collectively have a fluid flow chamber comprising a lateral opening and an uphole axial inlet, and a downhole axial outlet and fluid diverter comprising a lateral opening in fluid communication with the axial outlet. The annular fluid barrier is in fluid communication with the fluid flow chamber or the fluid diverter. The rotor can be rotated such that the fluid diverter is movable in and out of fluid communication with the fluid flow chamber to create fluid pressure pulses. | 12-31-2015 |
20150377018 | FLUID PRESSURE PULSE GENERATOR FOR A DOWNHOLE TELEMETRY TOOL - A fluid pressure pulse generator comprises a stator having a body with a cylindrical bore and a fluid flow chamber comprising a lateral opening and an uphole axial inlet, and a rotor having a cylindrical body rotatably seated within the bore, a rotor head connected to the rotor body, and a fluid diverter comprising a fluid passage through the rotor body and a nozzle in the rotor head. A fluid passage has an opening on an outside surface of the rotor body and an outlet at an end of the rotor body. The nozzle has an inlet end communicable with a drilling fluid and an outlet end in fluid communication with the fluid opening. The flow area of the nozzle increases from the inlet to outlet end such that the velocity of the drilling fluid slows while from inlet to outlet end. | 12-31-2015 |