Patents by Inventor Soon-Gil Jung
Soon-Gil Jung 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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Publication number: 20230178269Abstract: Disclosed is a method for producing a high-entropy alloy superconductor bulk materials and wire materials, the method including a first step of mixing 4 to 10 types of metals selected from a group consisting of niobium (Nb), tantalum (Ta), titanium (Ti), hafnium (Hf), zirconium (Zr), tungsten (W), molybdenum (Mo), chromium (Cr), vanadium (V), and rhenium (Re) with each other to prepare a mixture and then milling the mixture to prepare mixed metal powders; and a second step of sintering the mixed metal powders prepared in the first step.Type: ApplicationFiled: December 2, 2022Publication date: June 8, 2023Applicants: RESEARCH & BUSINESS FOUNDATION SUNGKYUNKWAN UNIVERSITY, University-Industry Cooperation Group of Kyung Hee UniversityInventors: Jong-Soo RHYEE, Jin Hee KIM, Tuson PARK, Soon-Gil JUNG, Yoonseok HAN, Won Nam KANG, Woo Seok CHOI
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Patent number: 10917055Abstract: A wide band communications circuit buffer can include a pair of NPN bipolar transistor emitter followers deployed as a voltage buffer and disposed at inputs before and outputs after an equalization module, and a pair of diode connected NPN transistors deployed as a level shifter and disposed following the emitter followers before an output of the wide band driver to keep an output level at the output of the wide band buffer close to a desired level. Resistors connected between emitters and a VEE terminal can be used to further adjust the DC level. An LC tank filter can be provided between emitters of the voltage buffer components and the circuit's outputs to pass and boost high frequency signals provided to next stage components. The wide band buffer is, inter alia, appropriate for use in providing a DC level shift function as used in wired data communication systems circuitry.Type: GrantFiled: November 8, 2018Date of Patent: February 9, 2021Assignee: NXP B.V.Inventors: Xueyang Geng, Siamak Delshadpour, Soon-Gil Jung, Ahmad Yazdi
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Patent number: 10691150Abstract: A redriver powers up a high-speed channel within a time window sufficient to satisfy the requirements of a CIO mode of operation. The redriver includes a signal detector for a channel and control logic to activate the channel within a time window that satisfies operation in a CIO mode. The control logic may activate the channel by controlling a first bias current for a first circuit of the channel based on a signal detected by the signal detector. The first bias current may be greater than a second bias current for the first circuit during a mode different from the CIO mode. These features may form any linear or limiting redriver for a faster power-up time.Type: GrantFiled: April 26, 2019Date of Patent: June 23, 2020Assignee: NXP B.V.Inventors: Siamak Delshadpour, Soon-Gil Jung
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Publication number: 20200153395Abstract: A wide band communications circuit buffer can include a pair of NPN bipolar transistor emitter followers deployed as a voltage buffer and disposed at inputs before and outputs after an equalization module, and a pair of diode connected NPN transistors deployed as a level shifter and disposed following the emitter followers before an output of the wide band driver to keep an output level at the output of the wide band buffer close to a desired level. Resistors connected between emitters and a VEE terminal can be used to further adjust the DC level. An LC tank filter can be provided between emitters of the voltage buffer components and the circuit's outputs to pass and boost high frequency signals provided to next stage components. The wide band buffer is, inter alia, appropriate for use in providing a DC level shift function as used in wired data communication systems circuitry.Type: ApplicationFiled: November 8, 2018Publication date: May 14, 2020Inventors: Xueyang Geng, Siamak Delshadpour, Soon-Gil Jung, Ahmad Yazdi
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Patent number: 10594285Abstract: A signal detector includes an input to receive a differential signal, a generator to generate a first voltage based on the differential signal and a second voltage based on the first voltage and a predetermined voltage, and an output stage to output a detection signal based on the first voltage and the second voltage. The differential signal includes a first signal and a second signal. The detection signal has a first value when a difference between the first and second signals is in a first range and a second value when the difference between the first and second signals is in a second range. The detection signal may indicate the presence or absence of low frequency periodic signaling for the differential signal. Such a detector may demonstrate fast response and operate at low-current.Type: GrantFiled: April 30, 2019Date of Patent: March 17, 2020Assignee: NXP B.V.Inventors: Siamak Delshadpour, Soon-Gil Jung, Xiaoqun Liu
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Patent number: 10447507Abstract: Embodiments of linear equalizers are disclosed. In an embodiment, a linear equalizer includes sets of transistors, a resistor, and first and second impedance elements. The sets of transistors are connected between at least one input terminal of the linear equalizer and at least one output terminal of the linear equalizer. The resistor is connected to a supply voltage, to the at least one output terminal, and to the sets of transistors. The first and second impedance elements are connected between emitter terminals or source terminals of the sets of transistors and at least one fixed voltage. A peaking gain of the linear equalizer is programmable by adjusting a direct current (DC) component of at least one input signal that is received at the at least one input terminal and that is applied to the sets of transistors.Type: GrantFiled: October 26, 2018Date of Patent: October 15, 2019Assignee: NXP B.V.Inventors: Xu Zhang, Soon-Gil Jung, Ahmad Yazdi
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Patent number: 7184510Abstract: A differential charge pump includes a transient reducing circuit that provides multiple switching current paths to reduce transients caused by the charge transfer as the charge pump is switched. The differential charge pump includes separate current sources in the transient reducing circuit that are switchably coupled to the non-active current source in the charge pump. In one embodiment, each current sources include a static current source and a variable current source that is controlled by a common mode feedback circuit. The variable current source may produce a current with less magnitude than the current produced by the static current source.Type: GrantFiled: September 26, 2003Date of Patent: February 27, 2007Assignee: Quicklogic CorporationInventor: Soon-Gil Jung
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Patent number: 7088082Abstract: A voltage regulator with a variable compensation capacitor is capable of driving a large variable dynamic current load. The regulator includes an error amplifier and an output stage amplifier. The variable compensation capacitor is disposed between the output terminal of the error amplifier and the output terminal of the output stage amplifier. In one embodiment, a NMOS transistor is disposed between the output terminal of the output stage amplifier and the variable compensation capacitor. The variable compensation capacitor may be, e.g., a PMOS transistor with the source and drain tied together. In one embodiment, a plurality of regulators is included on chip, e.g., such as a programmable device, where the output terminals of each regulator is tied together and used to drive the same load.Type: GrantFiled: December 16, 2003Date of Patent: August 8, 2006Assignee: Quick Logic CorporationInventor: Soon-Gil Jung
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Publication number: 20050185746Abstract: A differential charge pump includes a transient reducing circuit that provides multiple switching current paths to reduce transients caused by the charge transfer as the charge pump is switched. The differential charge pump includes separate current sources in the transient reducing circuit that are switchably coupled to the non-active current source in the charge pump. In one embodiment, each current sources include a static current source and a variable current source that is controlled by a common mode feedback circuit. The variable current source may produce a current with less magnitude than the current produced by the static current source.Type: ApplicationFiled: September 26, 2003Publication date: August 25, 2005Applicant: Quicklogic CorporationInventor: Soon-Gil Jung
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Publication number: 20050127885Abstract: A voltage regulator with a variable compensation capacitor is capable of driving a large variable dynamic current load. The regulator includes an error amplifier and an output stage amplifier. The variable compensation capacitor is disposed between the output terminal of the error amplifier and the output terminal of the output stage amplifier. In one embodiment, a NMOS transistor is disposed between the output terminal of the output stage amplifier and the variable compensation capacitor. The variable compensation capacitor may be, e.g., a PMOS transistor with the source and drain tied together. In one embodiment, a plurality of regulators is included on chip, e.g., such as a programmable device, where the output terminals of each regulator is tied together and used to drive the same load.Type: ApplicationFiled: December 16, 2003Publication date: June 16, 2005Applicant: QuickLogic CorporationInventor: Soon-Gil Jung
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Patent number: 6683740Abstract: A write amplifier circuit in a magnetic storage system has a cross coupling circuit and an active damp circuit to supply an improved write current to the head writing the data onto the media within the magnetic storage system. The inclusion of the cross coupling circuit decreases a rise time and a fall time associated with the write current. The active damp circuit reduces the undershoot and ringing of the write current. Thus, the write amplifier circuit is suitable for high speed data storage writing applications requiring minimal distortion of the data written to a magnetic medium. The write amplifier circuit achieves these improvements in the waveform of the write current by incorporating circuit elements and using both a negative feedback path and a feedforward path.Type: GrantFiled: February 15, 2000Date of Patent: January 27, 2004Assignees: Sony Corporation, Sony Electronics, Inc.Inventors: Soon-Gil Jung, Shang-Ching Dong, Hiroshi Takeuchi, Norio Shoji, Keiji Narusawa, Michiya Sako
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Patent number: 5402180Abstract: An RGB encoder includes a Y-matrix processor, a chrominance signal processor, a bandpass filter, a delay element, an OTA (operational transconductance amplifier) control signal generator and a mixer. The OTA bandpass filter has a plurality of operational transconductance amplifiers for bandpass-filtering the chrominance signal, wherein the passband is varied according to the transconductance of the operational transconductance amplifiers included therein. The OTA delay element has a plurality of operational transconductance amplifiers for receiving and delaying the luminance signal, wherein the delay time is varied according to the transconductance of the operational transconductance amplifiers included therein. The OTA control signal generator generates first and second control signals in accordance with an NTSC/PAL select signal.Type: GrantFiled: January 28, 1994Date of Patent: March 28, 1995Assignee: Samsung Electronics Co., Ltd.Inventor: Soon-gil Jung