Patents by Inventor Hsiang-an Feng
Hsiang-an Feng has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11621368Abstract: A magnetic light-emitting structure and fabrication method for manufacturing a magnetic light-emitting element are provided. The fabrication method comprises providing a magnetic metal composite substrate, wherein a second metal layer is respectively disposed on an upper and lower surface of a first metal layer; forming a connecting metal layer, an epitaxial layer and a plurality of electrode unit on top; and performing a complex process, which removes the second metal layer on the lower surface of the first metal layer and part of the first metal layer and performs cutting according to the number of the electrode unit, so as to form a plurality of epitaxial die. Each epitaxial die corresponds to an electrode unit to form a magnetic light-emitting element. The proposed method improves soft magnetic properties of an original substrate and enables dies to reverse spontaneously, thereby used perfectly for industrial mass transfer technology.Type: GrantFiled: September 16, 2020Date of Patent: April 4, 2023Assignee: Ingentec CorporationInventors: Hsiang-An Feng, Chia-Wei Tu, Cheng-Yu Chung, Ya-Li Chen
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Patent number: 11614515Abstract: An object recognition method includes generating a first frequency domain signal according to a first echo signal, updating at least one parameter of a primary classifier according to the first frequency domain signal and a training target corresponding to the first frequency domain signal, generating a second frequency domain signal according to a second echo signal, and generating object classification data corresponding to the second frequency domain signal according to the second frequency domain signal and the at least one parameter of the primary classifier. The object classification data is associated with presence of a second object.Type: GrantFiled: September 8, 2020Date of Patent: March 28, 2023Assignee: RichWave Technology Corp.Inventor: Hsiang-Feng Chi
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Publication number: 20230078775Abstract: A frequency modulated continuous wave (FMCW) radar device and a signal processing method thereof are provided. The frequency modulated continuous wave radar device includes a transmitter stage circuit, a frequency synthesizer, a receiver stage circuit, a pre-stage circuit, and a signal processing circuit. The transmitter stage circuit transmits a transmitting signal. The frequency synthesizer generates the transmitting signal associated with a chirp period. The receiver stage circuit receives a receiving signal including a periodic interference signal with a noise period associated with the chirp period. The pre-stage circuit outputs a to-be-processed signal including multiple frames according to the receiving signal and the transmitting signal. The signal processing circuit groups the frames into multiple frame groups. The signal processing circuit generates a processed signal by sampling at least one frame from the multiple frames in each of the frame groups with an identical sampling rule.Type: ApplicationFiled: January 6, 2022Publication date: March 16, 2023Applicant: RichWave Technology Corp.Inventors: Shun-Pin Yang, Hsiang-Feng Chi
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Publication number: 20230035632Abstract: A radar apparatus and an interference suppression method are provided. The radar apparatus includes a clock generator, an analog to digital converter (ADC), and a notch filter. The clock generator is configured to generate a sampling frequency. The ADC is coupled to the clock generator, and is configured to convert an analog signal into a digital signal according to the sampling frequency. The notch filter is coupled to the ADC, and is configured to attenuate one or more interfered frequencies of the digital signal. The interfered frequencies are related to the sampling frequency. Accordingly, the interference at a specific frequency and harmonics thereof may be suppressed.Type: ApplicationFiled: October 5, 2021Publication date: February 2, 2023Applicant: RichWave Technology Corp.Inventor: Hsiang-Feng Chi
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Publication number: 20230014043Abstract: A radar apparatus includes a transmitting analog front-end circuit, a plurality of antenna ports, a switching controller, a switching circuit, and a receiving analog front-end circuit. The transmitting analog front-end circuit generates a transmitting signal according to a carrier wave signal. A frequency of the carrier wave signal changes with time during a frequency sweep period of the carrier wave signal. The antenna ports are respectively configured to receive an echo signal corresponding to the transmitting signal. The switching controller is coupled to the transmitting analog front-end circuit and configured to generate a control signal according to the frequency sweep period of the carrier wave signal. The switching circuit is coupled to the antenna ports and the switching controller, configured to select one of the antenna ports to receive the echo signal according to the control signal, and coupled to the receiving analog front-end circuit.Type: ApplicationFiled: September 12, 2021Publication date: January 19, 2023Applicant: RichWave Technology Corp.Inventor: Hsiang-Feng Chi
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Patent number: 11520031Abstract: Doppler signal processing device for detecting an object according to a received wireless signal. The Doppler signal processing device includes a frequency analysis unit for generating a frequency domain signal vector according to at least one digital signal, an interference suppression unit for performing a suppression operation according to the frequency domain signal vector and a frequency domain interference estimation signal vector to generate an interference suppressed frequency domain signal vector, an interference estimation unit for generating the frequency domain interference estimation signal vector according to the frequency domain signal vector, a detection unit for generating a result signal according to the interference suppressed frequency domain signal vector, an error detection unit for optionally providing an error detection control signal to the interference estimation unit to adjust a rate of updating the frequency domain interference estimation signal vector.Type: GrantFiled: May 21, 2019Date of Patent: December 6, 2022Assignee: RichWave Technology Corp.Inventor: Hsiang-Feng Chi
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Patent number: 11508872Abstract: An alignment module and alignment method for transferring magnetic light-emitting die are provided, including a backplane having at least one cavity, a magnetic pull device and magnetic light-emitting die. The magnetic pull device is located below the cavity and disposed correspondingly to the cavity. The magnetic light-emitting die includes a magnetic metallic substrate and a peripheral electrode formed on the magnetic metallic substrate. The peripheral electrode is surrounding on the magnetic metallic substrate and formed adjacent to an inner edge of the magnetic metallic substrate. Depth of the cavity is designed as equal to a thickness of the magnetic metallic substrate such that the die is accommodated and aligning transferred to the backplane by using the cavity and magnetic pull device. By employing the proposed die alignment techniques, accurate alignment result is achieved and thereby the present invention is applied perfectly for industrial mass transfer technology.Type: GrantFiled: March 11, 2021Date of Patent: November 22, 2022Assignee: Ingentec CorporationInventors: Ai Sen Liu, Hsiang An Feng, Chia Wei Tu, Ya Li Chen
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Publication number: 20220271200Abstract: A light-emitting diode packaging structure and a method for fabricating the same is disclosed. A semiconductor wafer is provided, which includes semiconductor substrates. Each semiconductor substrate is penetrated with a first through hole and three second through holes. An insulation layer is formed on the surface of each semiconductor substrate and the inner surfaces of the first through hole, the first sub-through hole, and the second sub-through hole. A patterned electrode layer is formed on the top surface of the semiconductor substrate. A conductive material covering the insulation layer is formed in the first through hole and the second through hole and electrically connected to the patterned electrode layer. Three light-emitting diodes are respectively formed in the first sub-through holes of the second through holes of each semiconductor substrate and respectively electrically connected to the conductive material within the second through holes.Type: ApplicationFiled: April 26, 2021Publication date: August 25, 2022Inventors: AI SEN LIU, HSIANG AN FENG, CHENG YU CHUNG, CHIA WEI TU, YA LI CHEN
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Patent number: 11415665Abstract: An ultra-wideband radar transceiver and an operating method thereof are provided. The ultra-wideband radar transceiver includes a receiving module. The receiving module includes an I/Q signal generator, a first sensing circuit and a second sensing circuit. The I/Q signal generator receives M consecutive echo signals and generates M consecutive in-phase signals and M consecutive quadrature-phase signals accordingly, wherein M is an integer greater than 1. The first sensing circuit is coupled to the I/Q signal generator to receive the M consecutive in-phase signals and is configured to perform integration and analog-to-digital conversion on the M consecutive in-phase signals to generate a first digital data. The second sensing circuit is coupled to the I/Q signal generator to receive the M consecutive quadrature-phase signals and is configured to perform integration and analog-to-digital conversion on the M consecutive quadrature-phase signals to generate a second digital data.Type: GrantFiled: September 19, 2019Date of Patent: August 16, 2022Assignee: RichWave Technology Corp.Inventor: Hsiang-Feng Chi
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Publication number: 20220190196Abstract: An alignment module and alignment method for transferring magnetic light-emitting die are provided, including a backplane having at least one cavity, a magnetic pull device and magnetic light-emitting die. The magnetic pull device is located below the cavity and disposed correspondingly to the cavity. The magnetic light-emitting die includes a magnetic metallic substrate and a peripheral electrode formed on the magnetic metallic substrate. The peripheral electrode is surrounding on the magnetic metallic substrate and formed adjacent to an inner edge of the magnetic metallic substrate. Depth of the cavity is designed as equal to a thickness of the magnetic metallic substrate such that the die is accommodated and aligning transferred to the backplane by using the cavity and magnetic pull device. By employing the proposed die alignment techniques, accurate alignment result is achieved and thereby the present invention is applied perfectly for industrial mass transfer technology.Type: ApplicationFiled: March 11, 2021Publication date: June 16, 2022Inventors: AI SEN LIU, HSIANG AN FENG, CHIA WEI TU, YA LI CHEN
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Publication number: 20220179040Abstract: A radar detector including a radar transmitting device, a radar receiving device, an analog-to-digital converter (ADC), and a digital processing unit, and an interference suppression method using the radar detector are provided. The radar transmitting device transmits a first wireless signal. The radar receiving device receives a second wireless signal to generate an analog reference signal in response to the first wireless signal is subdued from being transmitted, and receives a third wireless signal to generate an analog main signal in response to the first wireless signal is not subdued from being transmitted. The ADC generates a digital reference signal according to the analog reference signal, and generates a digital main signal according to the analog main signal. The digital processing unit adjusts the digital or analog main signal according to the digital reference signal to correspondingly suppress interference components in the digital main signal or in the analog main signal.Type: ApplicationFiled: November 9, 2021Publication date: June 9, 2022Applicant: RichWave Technology Corp.Inventor: Hsiang-Feng Chi
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Publication number: 20220120850Abstract: A radar apparatus and a leakage correction method thereof are provided. The radar apparatus includes a transmitter and a receiver. The transmitter includes a sinewave signal generator. The sinewave signal generator generates a sinewave signal. The receiver includes another sinewave signal generator and a correcting circuit. The receiver receives transmitting signals including the sinewave signal from the transmitter. The sinewave signal generator of the receiver generates another sinewave signal according to the amplitude of the transmitting signals or received transmitting signals. The correcting circuit corrects leakage situation on the received transmitting signals according to another sinewave signal. The phasor of sinewave form corresponding to the leakage situation relates to the phasor of another sinewave signal. Accordingly, the performance of receiver may be improved effectively.Type: ApplicationFiled: December 23, 2021Publication date: April 21, 2022Applicant: RichWave Technology Corp.Inventors: Chiang-Hua Yeh, Hsiang-Feng Chi
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Patent number: 11307287Abstract: A radar apparatus and a leakage correction method thereof are provided. The radar apparatus includes a transmitter and a receiver. The transmitter includes a sinewave signal generator. The sinewave signal generator generates a sinewave signal. The receiver includes another sinewave signal generator and a correcting circuit. The receiver receives transmitting signals including the sinewave signal from the transmitter. The sinewave signal generator of the receiver generates another sinewave signal according to the amplitude of the transmitting signals or received transmitting signals. The correcting circuit corrects leakage situation on the received transmitting signals according to another sinewave signal. The phasor of sinewave form corresponding to the leakage situation relates to the phasor of another sinewave signal. Accordingly, the performance of receiver may be improved effectively.Type: GrantFiled: October 24, 2019Date of Patent: April 19, 2022Assignee: RichWave Technology Corp.Inventors: Chiang-Hua Yeh, Hsiang-Feng Chi
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Publication number: 20220045237Abstract: A magnetic light-emitting structure and fabrication method for manufacturing a magnetic light-emitting element are provided. The fabrication method comprises providing a magnetic metal composite substrate, wherein a second metal layer is respectively disposed on an upper and lower surface of a first metal layer; forming a connecting metal layer, an epitaxial layer and a plurality of electrode unit on top; and performing a complex process, which removes the second metal layer on the lower surface of the first metal layer and part of the first metal layer and performs cutting according to the number of the electrode unit, so as to form a plurality of epitaxial die. Each epitaxial die corresponds to an electrode unit to form a magnetic light-emitting element. The proposed method improves soft magnetic properties of an original substrate and enables dies to reverse spontaneously, thereby used perfectly for industrial mass transfer technology.Type: ApplicationFiled: September 16, 2020Publication date: February 10, 2022Inventors: HSIANG-AN FENG, CHIA-WEI TU, CHENG-YU CHUNG, YA-LI CHEN
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Patent number: 11239559Abstract: A communication device includes a ground element, an antenna structure, a first reflector, a second reflector, a first tuning element, and a switch element. The first reflector is disposed adjacent to the antenna structure. The second reflector is disposed adjacent to the antenna structure. The second reflector is separate from the first reflector. The switch element is coupled to the first tuning element. When the switch element is enabled, the switch element couples the first tuning element to the first reflector or the second reflector. When the switch element is disabled, the first tuning element is separate from the first reflector and the second reflector.Type: GrantFiled: October 8, 2019Date of Patent: February 1, 2022Assignee: WISTRON NEWEB CORP.Inventors: Huang-Tse Peng, Hsiang-Feng Hsieh, Wan-Ju Huang
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Publication number: 20220003837Abstract: An object recognition method includes generating Doppler spectrogram data according to an echo signal, the echo signal being relating to an object; transforming N sets of time-domain data of the Doppler spectrogram data corresponding to N velocities into N sets of cadence spectrogram data, respectively; combining the N sets of spectrogram data to obtain 1D/2D cadence spectrum data, and acquiring a series of cadence feature from the 1D/2D cadence spectrum data to recognize the object.Type: ApplicationFiled: May 27, 2021Publication date: January 6, 2022Inventors: Wei-Min Liu, Po-Fu Wan, Han-Jieh Chang, Hsiang-Feng Chi
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Patent number: 11187784Abstract: A phase information extraction circuit includes a first mixer circuit for generating a second analog signal by mixing a carrier signal with a first analog signal generated by a transmitted signal reflected by the object, an analog-to-digital converter (ADC) coupled to the first mixer circuit for generating a first digital signal according to the second analog signal, an in-phase quadrature (I/Q) signal generator coupled to the ADC for generating a digital I signal and a digital Q signal according to the first digital signal, and a first phase acquisition unit for extracting phase information according to the digital I signal and the digital Q signal.Type: GrantFiled: March 29, 2019Date of Patent: November 30, 2021Assignee: RichWave Technology Corp.Inventor: Hsiang-Feng Chi
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Publication number: 20210255302Abstract: A method of detecting a life includes receiving an echo signal including an in-phase component and a quadrature component, performing a preprocessing procedure on the echo signal to generate a preprocessed signal, generating, according to the preprocessed signal, complex conjugate data associated with the in-phase component and the quadrature component, performing a first time-domain-to-frequency-domain transform on the complex conjugate data to generate Doppler spectrogram data comprising a plurality of positive velocity energies and a plurality of negative velocity energies, generating combined Doppler spectrogram data according to the plurality of positive velocity energies and the plurality of negative velocity energies, performing a second time time-domain-to-frequency-domain transform on the combined Doppler spectrogram data to generate spectrum data, and determining whether a life is detected according to the spectrum data.Type: ApplicationFiled: February 8, 2021Publication date: August 19, 2021Inventors: Keng-Hao Liu, Han-Jieh Chang, Hsiang-Feng Chi
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Publication number: 20210231789Abstract: The Doppler signal processing device includes a frequency analyzer, an interference suppressor, an interference baseline estimator and a synthesizer. The frequency analyzer can generate a frequency domain signal according to a digital signal. The interference suppressor can perform a suppression operation to generate an interference suppressed frequency domain signal. The interference baseline estimator can generate or update the frequency domain interference estimation signal according to the frequency domain signal. The synthesizer can generate an interference suppressed digital signal according to the interference suppressed frequency domain signal, where the interference suppressed digital signal is related to the digital signal with the interference energy suppressed.Type: ApplicationFiled: April 13, 2021Publication date: July 29, 2021Inventor: Hsiang-Feng Chi
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Publication number: 20210103026Abstract: An object recognition method includes generating a first frequency domain signal according to a first echo signal, updating at least one parameter of a primary classifier according to the first frequency domain signal and a training target corresponding to the first frequency domain signal, generating a second frequency domain signal according to a second echo signal, and generating object classification data corresponding to the second frequency domain signal according to the second frequency domain signal and the at least one parameter of the primary classifier. The object classification data is associated with presence of a second object.Type: ApplicationFiled: September 8, 2020Publication date: April 8, 2021Inventor: Hsiang-Feng Chi