HONEYWELL INTERNATIONAL INC. patent applications on October 17th, 2024
Patent Applications by HONEYWELL INTERNATIONAL INC. on October 17th, 2024
HONEYWELL INTERNATIONAL INC.: 23 patent applications
HONEYWELL INTERNATIONAL INC. has applied for patents in the areas of G01N33/00 (2), A62B3/00 (1), G02F1/39 (1), H01S3/091 (1), H01S3/108 (1) A61K8/315 (1), G01R33/032 (1), H01L21/8221 (1), G08G5/0021 (1), G08B29/145 (1)
With keywords such as: data, gas, include, sensing, voltage, based, about, configured, pressure, and portion in patent application abstracts.
Patent Applications by HONEYWELL INTERNATIONAL INC.
Inventor(s): CHANGMING WANG of Shenzhen (CN) for honeywell international inc., YIU KEUNG LING of Charlotte NC (US) for honeywell international inc., BARRY SETIAWAN of Charlotte NC (US) for honeywell international inc.
IPC Code(s): A61K8/31, A45D34/00, A61K8/04, A61K8/06, A61Q5/00, A61Q19/00
CPC Code(s): A61K8/315
Abstract: a method of treating human skin, hair and/or mucous membranes using a personal care composition in the form of a stable oil-in-water emulsion comprising: (i) a continuous aqueous phase comprising water; (ii) a discontinuous oil phase comprising trans-1-chloro-3,3,3-trifluoropropene and/or trans-1-3,3,3-tetrafluoropropene and when present together are present in a trans1233zd:trans1234ze weight ratio of from about 1:18 to less than about 8:1; and (iii) an emulsifier, which may be present in the continuous and/or discontinuous phase, comprising (a) a non-ionic emulsifier having an hlb of from about 7 to about 19; and/or (b) a polymeric emulsifier.
Inventor(s): John Bowler of Phoenix AZ (US) for honeywell international inc.
IPC Code(s): B64D45/04, B64C29/00
CPC Code(s): B64D45/04
Abstract: a method and system for emergency landing routing and prioritization for an vertical takeoff and landing (vtol) aircraft has been developed. first, an emergency condition onboard the vtol aircraft is detected that requires a landing. the emergency condition onboard the aircraft is then categorized based on severity. all potential landing zones (lzs) for the vtol aircraft are identified and categorized based on suitability for landing. the lzs for the vtol aircraft are prioritized based on the severity of the emergency condition onboard the aircraft in view of the suitability of the lzs. finally, a priority listing of the lzs displayed to an aircrew member of the vtol aircraft.
Inventor(s): Bin Yu of Williamsville NY (US) for honeywell international inc., Hang T. Pham of Amherst NY (US) for honeywell international inc.
IPC Code(s): C08J9/12, C08J9/14
CPC Code(s): C08J9/127
Abstract: heterogeneous azeotrope or azeotrope-like compositions comprising z-1-chloro-2,3,3,3-tetrafluoropropene (hcfo-1224yd(z)) and water which may include from about 47.0 wt. % to about 99.7 wt. % z-1-chloro-2,3,3,3-tetrafluoropropene (hcfo-1224yd(z)) and from about 0.3 wt. % to about 53.0 wt. % water and having a boiling point between about 13.0� c. and about 14.0� c. at a pressure of between about 14.0 psia and about 15.0 psia. the azeotrope or azeotrope-like compositions may be used to as blowing agents in the formation of foams.
Inventor(s): Jun Liu of Shanghai (CN) for honeywell international inc., Johnny Hu of Shanghai (CN) for honeywell international inc., Yanming Shen of Shanghai (CN) for honeywell international inc., Ya Qun LIU of Shanghai (CN) for honeywell international inc., Ryan Hulse of Charlotte NC (US) for honeywell international inc.
IPC Code(s): C09D7/20, C08G65/00, C08G65/336, C09D5/16, C09D171/00, C09D171/02
CPC Code(s): C09D7/20
Abstract: a coating composition comprising: (a) at least one coating agent comprising a perfluoropolyether-modified alkyloxysilane polymer; and (b) a carrier composition comprising monochloro, trifluoropropene, wherein the carrier is present in an amount effective to at least partially solvate or at least partially emulsify the coating agent. such compositions may optionally contain one or more other co-carriers or additives. also disclosed are methods of coating substrates, in particular substrates having a hard surface such as ceramics or glass, to render them water, oil and/or dirt repellent.
Inventor(s): Wyatt Culler of Berne IN (US) for honeywell international inc.
IPC Code(s): F01N11/00, F01N13/00
CPC Code(s): F01N11/00
Abstract: a device and method for correcting emissions can include a first sensor that measures a sample of air not containing an exhaust gas, and a second sensor, wherein the exhaust gas enters a settling chamber and a relative humidity of the exhaust gas is measured by the second sensor. a microcomputer can calculate a mass of water vapor in the sample of air measured by the first sensor and in the exhaust gas measured by the second sensor and can determine a dilution factor of the measured exhaust gas. the dilution factor can be used for correcting emissions based on the measurements of the exhaust gas made by the first sensor and the second sensor. the first and second sensors can comprise one or more of, for example, a relative humidity sensor, a dew point sensor, a trace water vapor sensor and/or other types of sensors.
20240344571. TORQUE PAD_simplified_abstract_(honeywell international inc.)
Inventor(s): Brian Shula of South Bend IN (US) for honeywell international inc.
IPC Code(s): F16D55/36, F16D65/097
CPC Code(s): F16D55/36
Abstract: in some examples, a brake assembly is configured to compress a brake disc stack to reduce and/or limit rotational motion of a wheel about a wheel axis. the brake assembly is configured to transmit a compression force on the disc stack to a backing plate. the backing plate is configured to transmit the compression force to a pad face of a torque pad, which transmits the compression force to a torque tube. a pad face of the torque pad defines a convex surface configured to cause a magnitude of a force profile on the pad face to decrease as the force profile distributes toward an edge of the torque pad. in examples, the pad face defines a first convex surface configured to reduce the magnitude as the force profile distributes toward a first end and a second convex surface configured to reduce the magnitude as the force profile distributes toward a second end substantially opposite the first end.
Inventor(s): Joshua J. Weaver of Yorktown IN (US) for honeywell international inc., Bradley M. Wright of Hartford City IN (US) for honeywell international inc., Edward Lovett of Parker City IN (US) for honeywell international inc.
IPC Code(s): F23D14/04, F23D14/62, F23N3/00
CPC Code(s): F23D14/04
Abstract: a fuel nozzle apparatus can include a nozzle that functions with two or more modes of operation with respect to a group of fuels, and an air shroud fixed over the nozzle. the air shroud blocks air through the nozzle or allows air through the nozzle in a predefined pattern. when a position of the air shroud is varied, the amount of the air and the location of the air into the nozzle is changed to facilitate the two or more modes of operation with respect to the group of fuels.
Inventor(s): Zhongliang MENG of Morris Plains NJ (US) for honeywell international inc., Dan ZHANG of Morris Plains NJ (US) for honeywell international inc., Yuhui XU of Morris Plains NJ (US) for honeywell international inc., Kui LU of Morris Plains NJ (US) for honeywell international inc.
IPC Code(s): F24F3/147, F24F3/14, F24F12/00, F24F13/20
CPC Code(s): F24F3/147
Abstract: a humidity reduction apparatus and a method for reducing the humidity of a volume of gas. the humidity reduction apparatus comprises a gas delivery conduit, at least one heat-conductive media positioned in-line within at least a portion of the gas delivery conduit, and a cooler in contact with at least a portion of the gas delivery conduit to cool the gas delivery conduit and the at least one heat-conductive media. the gas delivery conduit comprises at least one conducting portion. the first side of the cooler is configured to cool the at least one conducting portion of the gas delivery conduit and the at least one heat-conductive media. the voltage applied across the cooler is selectably reversed such that the first side heats the at least one conducting portion of the gas delivery conduit and the at least one heat-conductive media.
Inventor(s): Glen A. Sanders of Scottsdale AZ (US) for honeywell international inc., Marc Smiciklas of Phoenix AZ (US) for honeywell international inc.
IPC Code(s): G01C19/72
CPC Code(s): G01C19/727
Abstract: a method for a resonant fiber optic gyroscope is provided. the method includes locking a frequency of a light wave from a master laser to a resonant frequency of a fiber optic resonator; phase locking a first slave laser to the frequency of the master laser at a first offset frequency; combining the light wave from the master laser with a light wave from the first slave laser; launching the combined light wave in the clockwise (cw) direction in the fiber optic resonator; and prior to combining the light wave from the master laser and the light wave from the first slave laser, shifting the frequency of the light wave from the master laser to avoid interference with a signal produced by pick-up in the first slave laser, that includes a light wave at the frequency of the light wave from the master laser.
Inventor(s): Wang Yang of Cave Creek AZ (US) for honeywell international inc.
IPC Code(s): G01L19/08
CPC Code(s): G01L19/08
Abstract: a pressure transmitter and a method for enhancing the performance of the pressure transmitter, can involve obtaining pressure values from a pressure transmitter during a period of time in which pressure is not present in the process of a process control system, determining a long-term drift based on the obtained pressure values during the period of time in which pressure is not present in the process, and correcting the long-term drift by offsetting the amount of pressure measurement by the pressure transmitter to improve the measurement accuracy of the pressure transmitter. the long-term drift can be further determined with temperature measurements made by the pressure transmitter. in addition, a zero correction function may be performed to remove drift.
Inventor(s): Andy Walker Brown of Richardson TX (US) for honeywell international inc., Stephan Bork of Murphy TX (US) for honeywell international inc.
IPC Code(s): G01N21/31, G01N33/00
CPC Code(s): G01N21/31
Abstract: various embodiments are directed to methods, apparatuses, and systems for sensing one or more gases and particulate matter. in various embodiments, a method of detecting a gas and particulate matter within a sensing region comprises emitting, from a beam component, an optical beam along a beam path defined within a sensing region; detecting particulate matter within the sensing region based on particulate data generated by one or more photodetector, the particulate data being defined by a detection of a scattered portion of the optical beam reflected from a particulate positioned along the beam path; and detecting a first gas based on gas data generated by the beam component, wherein the gas data is generated by the beam component via an optical gas sensing means, and wherein the gas data is defined by a detected absorption of the optical beam at a first wavelength corresponding to the first gas.
Inventor(s): Ling LIU of Morris Plains NJ (US) for honeywell international inc., Feng LIANG of Morris Plains NJ (US) for honeywell international inc.
IPC Code(s): G01N27/416, G01N33/00
CPC Code(s): G01N27/4163
Abstract: methods, apparatuses, and systems for calculating a compensated reading of a gas sensing apparatus are provided. an example method includes causing a first supply of a working voltage to a sensing circuitry of the gas sensing apparatus, determining a first output of the sensing circuitry, causing a second supply of a stimulate voltage to the sensing circuitry, determining a second output of the sensing circuitry, and calculating a compensated reading of the gas sensing apparatus based at least in part on the first output and the second output.
Inventor(s): Matthew Wade Puckett of Phoenix AZ (US) for honeywell international inc., Neal Eldrich Solmeyer of Edina MN (US) for honeywell international inc., Mary Salit of Plymouth MN (US) for honeywell international inc., Jianfeng Wu of Tucson AZ (US) for honeywell international inc., Matthew Robbins of Minneapolis MN (US) for honeywell international inc.
IPC Code(s): G01R33/032, G02F1/39, H01S3/091, H01S3/108
CPC Code(s): G01R33/032
Abstract: a photonics device for threshold magnetometry includes an absorbent material with nonlinear optical susceptibility, such as a diamond material with nitrogen vacancy defects, that is disposed in an optical resonator. the optical resonator receives light from an input source and includes nonlinear optical properties that enable the resonator to undergo a nonlinear photon generation process at a certain threshold power level to generate photons at distinct frequencies from the input light. the absorbent material absorbs photons entering the resonator when excited, which causes the threshold power level to shift as a function of the absorption. this may cause the optical resonator to stop generating photons via the nonlinear photon generation process and output a change in power. the change in power can be used to determine the characteristics of a present magnetic field.
Inventor(s): Paul M. Werking of Rockford MN (US) for honeywell international inc.
IPC Code(s): G05F3/20, G05F1/575, G05F3/26
CPC Code(s): G05F3/205
Abstract: voltage reference circuits configured to output reference voltages with a reduced noise on the output and reduced power consumption when compared to other arrangements of voltage reference circuits. the voltage reference circuit of this disclosure may stack two or more independent shunt voltage reference circuits in series to produce a summed voltage (vsum), then amplify the summed voltage to output the desired reference voltage. the circuit of this disclosure may arrange the independent shunt voltage reference circuits to diminish any noise generated by each independent shunt voltage reference circuit in the summed voltage, for example as an array of independent shunt voltage reference circuits in series.
Inventor(s): Abhinab SONOWAL of Bangalore (IN) for honeywell international inc., Dipanjan SAHA of Bangalore (IN) for honeywell international inc., Arnab BHATTACHARJEE of Bangalore (IN) for honeywell international inc., Nikhil BANSAL of Bengaluru (IN) for honeywell international inc.
IPC Code(s): G06F9/445
CPC Code(s): G06F9/44505
Abstract: computer-implemented methods, systems, computing devices, and/or the like are provided. the computer-implemented method may include identifying a raw representation of the source data and a processed representation of the source data; selecting a read mode for reading the raw representation of the source data and the processed representation of the source data; selecting a write mode for writing the raw representation of the source data and the processed representation of the source data, wherein the write mode is based at least in part on the read mode; selecting a process mode for processing the source data, wherein the process mode is based at least in part on the write mode; selecting a representation mode for representing the processed source data; and storing the raw representation of the source data and the processed representation of the source data based at least in part on the representation mode.
Inventor(s): Bhabesh Chandra ACHARYA of Bangalore (IN) for honeywell international inc., Santimreddigari Manjunatha REDDY of Madanapalle (IN) for honeywell international inc.
IPC Code(s): G06F11/07
CPC Code(s): G06F11/0784
Abstract: systems, apparatuses, methods, and computer program products for parallel processing of real-time data and accumulated data are provided. for example, a method provided herein may include determining that a computing device is affected by a fault during a first time period. the method may include receiving real-time data from the computing device via a network during a second time period. the method may include receiving accumulated data from the computing device via a network during the second time period. the method may include directing the real-time data to a real-time data processing unit and the accumulated data to an accumulated data processing unit. the method may include processing the real-time data with the real-time data processing unit and the accumulated data with the accumulated data processing unit. the method may include routing the real-time data and the accumulated data following the processing to one or more databases.
Inventor(s): Narayana J of Hyderabad (IN) for honeywell international inc., Dipanjan SAHA of Bangalore (IN) for honeywell international inc., Arnab BHATTACHARJEE of Bangalore (IN) for honeywell international inc.
IPC Code(s): G06F11/34, G06F9/451, G06F11/36
CPC Code(s): G06F11/3409
Abstract: systems, apparatuses, methods, and computer program products for generating one or more monitoring operations are provided. for example, a method provided herein may include causing a component interface to be displayed on a user interface. in some embodiments, the component interface comprises one or more components of a computing application. in some embodiments, the method may include causing a modeling interface to be displayed on the user interface. in some embodiments, the method may include receiving a selection of at least one of the one or more components of the computing application. in some embodiments, the method may include causing an updated modeling interface to be displayed on the user interface. in some embodiments, the updated modeling interface comprises a computing application architecture model. in some embodiments, the method may include applying an analyzer scanning model to the computing application architecture model to generate the one or more monitoring operations.
Inventor(s): Sagar Ramesh Kulkarni of Bangalore (IN) for honeywell international inc.
IPC Code(s): G06N5/025, A62B3/00, G06F30/20
CPC Code(s): G06N5/025
Abstract: systems, methods, and devices for adaptive cause and effect rules for emergency evacuation are described herein. one method includes performing a plurality of fire drills at a facility having a fire control panel, receiving data associated with each of the plurality of fire drills, and modifying cause and effect rules stored and implemented by the fire control panel based on the received data.
Inventor(s): John Goodman of Katy TX (US) for honeywell international inc., Kalyanasundaram Palavesh of Shencottai (IN) for honeywell international inc., Mahboubeh Hejazibakhsh of Atlanta GA (US) for honeywell international inc., Vijayamahantesh Karpurmath of Bangalore (IN) for honeywell international inc., Abhishek Manohar Pednekar of West Hills CA (US) for honeywell international inc.
IPC Code(s): G06N20/00, G06F30/27
CPC Code(s): G06N20/00
Abstract: embodiments of the disclosure provide for intelligent model integration within a process simulation system. some embodiments receive data associated with the operation of a plant, determine, using at least one specially configured algorithm and based on the received data, at least one qualifying dataset determined qualified to train an intelligent model, train the intelligent model using the at least one qualifying dataset, and deploy the trained intelligent model for use.
Inventor(s): Michael Barson of Nuneaton (GB) for honeywell international inc., Scott Lang of Geneva IL (US) for honeywell international inc., Christopher Dearden of Melton Mowbray (GB) for honeywell international inc., Benjamin H. Wolf of Leicester (GB) for honeywell international inc.
IPC Code(s): G08B29/14, F24F11/30, G08B17/107, G08B17/113, G08B17/117
CPC Code(s): G08B29/145
Abstract: devices, methods, and systems of a self-testing duct environment detector are described herein. one self-testing duct environment detector system includes a first portion to be mounted outside of a duct, the first portion having a detector housing with a space therein, the space having a detector with a sensing chamber and a self-testing sensing apparatus therein, wherein the self-testing sensing apparatus determines whether airflow through the detector housing is above a threshold and a second portion and third portion each configured to extend into the duct, wherein the second portion has at least one inlet aperture formed therein and wherein the third portion has at least on outlet aperture therein.
Inventor(s): Jacob K. MAXFIELD of Phoenix AZ (US) for honeywell international inc.
IPC Code(s): G08G5/00
CPC Code(s): G08G5/0021
Abstract: a method of displaying a preferred stopping distance comprising: receiving a current location of an vehicle relative to a landing pad; calculating a deceleration of a lower bound of the preferred stopping distance symbol; calculating a deceleration of a upper bound of the preferred stopping distance symbol; calculating a predicted stopping ground location of the upper bound and lower bound; and displaying the preferred stopping distance symbol on a graphic user interface. a stopping indicator system on a three-dimensional display includes a flight path vector symbol, a landing pad symbol, a waypoint symbol positioned at some altitude above the landing pad symbol, a nearest predicted stopping symbol, a preferred stopping distance symbol, and a predicted stopping location symbol.
Inventor(s): James L. Tucker of Clearwater FL (US) for honeywell international inc., Eric E. Vogt of Independence MN (US) for honeywell international inc., James W, Karcz, JR. of Plymouth MN (US) for honeywell international inc.
IPC Code(s): H01L21/822, H01L23/373, H01L23/50
CPC Code(s): H01L21/8221
Abstract: a semiconductor assembly including: a first semiconductor having a plurality of electrical contacts extending from an upper surface of the first semiconductor; a second semiconductor adjacent to the first semiconductor; and a mesh disposed between and affixed to the upper surface of the first semiconductor and the lower surface of the second semiconductor. a lower surface of the second semiconductor is electrically connected to the first semiconductor via the plurality of electrical contacts. the mesh comprises a plurality of interconnecting struts defining a plurality of openings, wherein the plurality of openings is configured to receive the plurality of electrical contacts.
20240348169. DC-DC CONVERTER CIRCUIT_simplified_abstract_(honeywell international inc.)
Inventor(s): Pavel Studnicka of Brno (CZ) for honeywell international inc., Petr Spanel of Brno (CZ) for honeywell international inc., Ondrej Kotaba of Brno (CZ) for honeywell international inc., Jiri Holy of Brno (CZ) for honeywell international inc.
IPC Code(s): H02M3/335, H02M1/00, H03K17/691
CPC Code(s): H02M3/33523
Abstract: a dc-dc converter circuit includes a high-side transistor, a low side transistor, a gate driver power supply, a converter control, and a capacitance divider network. the high-side transistor includes a high-side drain terminal, a high-side source terminal, and a high-side gate terminal. the high-side drain terminal is coupled to a positive dc supply terminal. the gate driver power supply is electrically isolated from the high-side transistor and the low-side transistor. the converter control is configured to supply high-side control commands and low-side control commands to the high-side transistor and the low-side transistor, respectively. the capacitance divider network includes a first capacitor and a second capacitor. the first capacitor is electrically connected in series, at a dc-link midpoint node, to the second capacitor. the dc-link midpoint node, the gate driver power supply, and the converter control are all electrically connected to, and share, a local electrical ground.
HONEYWELL INTERNATIONAL INC. patent applications on October 17th, 2024
- HONEYWELL INTERNATIONAL INC.
- A61K8/31
- A45D34/00
- A61K8/04
- A61K8/06
- A61Q5/00
- A61Q19/00
- CPC A61K8/315
- Honeywell international inc.
- B64D45/04
- B64C29/00
- CPC B64D45/04
- C08J9/12
- C08J9/14
- CPC C08J9/127
- C09D7/20
- C08G65/00
- C08G65/336
- C09D5/16
- C09D171/00
- C09D171/02
- CPC C09D7/20
- F01N11/00
- F01N13/00
- CPC F01N11/00
- F16D55/36
- F16D65/097
- CPC F16D55/36
- F23D14/04
- F23D14/62
- F23N3/00
- CPC F23D14/04
- F24F3/147
- F24F3/14
- F24F12/00
- F24F13/20
- CPC F24F3/147
- G01C19/72
- CPC G01C19/727
- G01L19/08
- CPC G01L19/08
- G01N21/31
- G01N33/00
- CPC G01N21/31
- G01N27/416
- CPC G01N27/4163
- G01R33/032
- G02F1/39
- H01S3/091
- H01S3/108
- CPC G01R33/032
- G05F3/20
- G05F1/575
- G05F3/26
- CPC G05F3/205
- G06F9/445
- CPC G06F9/44505
- G06F11/07
- CPC G06F11/0784
- G06F11/34
- G06F9/451
- G06F11/36
- CPC G06F11/3409
- G06N5/025
- A62B3/00
- G06F30/20
- CPC G06N5/025
- G06N20/00
- G06F30/27
- CPC G06N20/00
- G08B29/14
- F24F11/30
- G08B17/107
- G08B17/113
- G08B17/117
- CPC G08B29/145
- G08G5/00
- CPC G08G5/0021
- H01L21/822
- H01L23/373
- H01L23/50
- CPC H01L21/8221
- H02M3/335
- H02M1/00
- H03K17/691
- CPC H02M3/33523
