Patents Assigned to STMicroelectronics (Shenzhen) R&D Co. Ltd.
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Patent number: 9030258Abstract: An amplifier circuit includes an input terminal and an output terminal. A current sinking transistor includes a first conduction terminal coupled to the output terminal and a second conduction terminal coupled to a reference supply node. A voltage sensing circuit has a first input coupled to the input terminal and a second input coupled to the output terminal. An output of the voltage sensing circuit is coupled to the control terminal of the current sinking transistor. The voltage sensing circuit functions to sense a rise in the voltage at the output terminal which exceeds the voltage at the input terminal, and respond thereto by activating the current sinking transistor.Type: GrantFiled: May 2, 2013Date of Patent: May 12, 2015Assignee: STMicroelectronics (Shenzhen) R&D Co., Ltd.Inventor: Yi Jun Duan
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Patent number: 9024597Abstract: A constant-frequency current-mode-controlled boost converter circuit provides slope compensation of an inductor current, reduces reverse inductor current in light output load conditions, and reduces oscillation between a discontinuous current mode and a continuous current mode by enabling or disabling an inductor current threshold. The constant-frequency current-mode-controlled boost converter circuit is efficient and stable in light, medium, and heavy output load conditions.Type: GrantFiled: October 24, 2012Date of Patent: May 5, 2015Assignee: STMicroelectronics (Shenzhen) R&D Co. LtdInventors: Hai Bo Zhang, Jin Li, Yong Jun Wu
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Publication number: 20150115927Abstract: A voltage detector operates to detect a system power supply voltage and generate a trigger signal. A control signal generator responds to the trigger signal and generates a control signal. A DC bias generator responds to the control signal by generating a DC bias. The control signal controls the DC bias to have a first value when the power supply voltage is a first voltage and have a second value when the power supply voltage is a second voltage different from the first voltage, wherein the first value is different from the second value. A dynamic DC bias is generated which can not only support a larger voltage scope, but also significantly improves signal to noise ratio. The system power supply detection may concern stop/start operation of an automobile engine.Type: ApplicationFiled: October 23, 2014Publication date: April 30, 2015Applicant: STMicroelectronics (Shenzhen) R&D Co. LtdInventors: Min Chen, Wen Liu, Hong Xia Li
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Patent number: 9019026Abstract: An oscillator module includes a first MOS transistor and a capacitor. The capacitor is coupled between a gate and source of the first MOS transistor. The drain of the first MOS transistor receives a first bias current and generates an oscillating output signal. A switching circuit operates in response to the oscillating output signal to selective charge and discharge the capacitor. A current sourcing circuit is configured to generate the bias current. The current sourcing circuit includes a second MOS transistor which has an identical layout to the first MOS transistor and receives a second bias current. A resistor is coupled between a gate and source of the second MOS transistor. The current sourcing circuit further includes a current mirror having an input configured to receive a reference current passing through the resistor and generate the first and second bias currents.Type: GrantFiled: November 6, 2013Date of Patent: April 28, 2015Assignee: STMicroelectronics (Shenzhen) R&D Co. LtdInventor: Hong Wu Lin
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Patent number: 9007101Abstract: A driver circuit for driving a power transistor includes a converter having a first transistor and a second transistor coupled in series between a supply node and a reference node. The converter is configured to receive a first signal and in response thereto generate a second signal for selectively controlling status of the power transistor. The ratio of a first leakage current of the first transistor to a second leakage current of the second transistor is used in the generation of the second signal which is applied to the control terminal of a transistor switch that is selectively actuated to turn off the power transistor.Type: GrantFiled: November 6, 2013Date of Patent: April 14, 2015Assignee: STMicroelectronics (Shenzhen) R&D Co. LtdInventor: Ni Zeng
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Publication number: 20150071464Abstract: A class D amplifier receives and amplifies a differential analog signal which is then differentially integrated. Two pulse width modulators generate pulse signals corresponding to the differentially integrated analog signal and two power units generate output pulse signals. The outputs the power units are coupled to input terminals of integrators via a resistor feedback network. An analog output unit converts the pulse signals to an output analog signal. The differential integration circuitry implements a soft transition between mute/un-mute. In mute, the integrator output is fixed. During the soft transition, the PWM outputs change slowly from a fixed 50% duty cycle to a final value to ensure that no pop noise is present in the output as a result of mode change.Type: ApplicationFiled: September 5, 2014Publication date: March 12, 2015Applicant: STMicroelectronics (Shenzhen) R&D Co. Ltd.Inventors: Ru Feng Du, Qi Yu Liu
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Patent number: 8970280Abstract: A clamping circuit for a class AB amplifier includes a reference voltage circuit, four NPN Darlington transistors having inputs coupled to the reference voltage circuit, and outputs for providing four clamped voltages, and a split NPN Darlington transistor having an input coupled to the reference voltage circuit, and four separate outputs for providing four AC ground voltages.Type: GrantFiled: December 6, 2012Date of Patent: March 3, 2015Assignee: STMicroelectronics (Shenzhen) R&D Co. Ltd.Inventors: Mei Yang, YueHua Wang, Xaut Zhang, Kelvin Wen, XiangSheng Li
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Publication number: 20150042229Abstract: A driving apparatus configured to drive a light emitting device includes a driving current source module operable to supply current to the light emitting device via a node during operation. A protection module coupled to the node and the driving current source module selectively injects current to the node during operation. The driving current source module is controlled based on a detection result of a voltage on the node.Type: ApplicationFiled: August 8, 2014Publication date: February 12, 2015Applicant: STMICROELECTRONICS (SHENZHEN) R&D CO. LTD.Inventors: Yi Jun Duan, Tao Tao Huang
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Patent number: 8947060Abstract: An embodiment of the invention relates to a power converter formed with an error amplifier and a related method. In an embodiment, a first switch is coupled in series with an error amplifier compensation capacitor. Upon detection of a current level greater than a threshold level, the compensation capacitor is decoupled from the error amplifier by opening the first switch. In an embodiment, a second switch is coupled in parallel with the compensation capacitor, and the current-sensing circuit enables conductivity of the second switch to discharge the compensation capacitor upon detection of the current level greater than the threshold level. The second switch is opened upon detection of the current level less than the threshold level. In an embodiment, the current-sensing circuit controls an output current of the power converter at a current-limit level upon detection of the internal current level greater than the threshold level.Type: GrantFiled: November 23, 2010Date of Patent: February 3, 2015Assignee: STMicroelectronics (Shenzhen) R&D Co., Ltd.Inventors: Da Song Lin, Ni Zeng, Gang Zha, Xianfeng Xiong, Yiwei Zhang
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Patent number: 8907705Abstract: A fully integrated ramp generator circuit includes a first current generator that sources current to first capacitor through a first transistor that is gate controlled by the complement of a periodic signal. The ramping voltage stored on the first capacitor is buffered to an output node as a ramp output signal. A second transistor couples the output node to the first current generator and is gate controlled by the periodic signal. The periodic signal is generated at the output of a flip-flop that receives an input clock signal and reset signal. The reset signal is generated by a comparator circuit operable to compare the voltage on a second capacitor to a reference. The second capacitor is charged by a second current source and discharged by a third transistor that is gate controlled by the periodic signal.Type: GrantFiled: October 10, 2012Date of Patent: December 9, 2014Assignee: STMicroelectronics (Shenzhen) R&D Co. Ltd.Inventors: Tao Tao Huang, Meng Wang
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Patent number: 8907641Abstract: A boost converter includes an input terminal and an output terminal. A first switch is connected between a first intermediate node and a reference potential node. An inductive component is connected between the input terminal and the first intermediate node. A rectifying component is connected between the first intermediate node and a second intermediate node. A multi-state module is connected between the second intermediate node and the output terminal, and has at least a low resistance state and a high resistance state. A control module is coupled to the output terminal, the first switch and the multi-state module, and is operable in response to an output voltage to control the first switch and the multi-state module so that the first switch is open and the multi-state module is in the high resistance state if the output voltage is lower than a threshold value.Type: GrantFiled: December 7, 2011Date of Patent: December 9, 2014Assignee: STMicroelectronics (Shenzhen) R&D Co. Ltd.Inventors: HaiBo Zhang, GuangFeng Wang, Jin Li
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Publication number: 20140327419Abstract: A current limiting circuit includes a current sensing module that is configured to sense an output current of a power transistor and to generate a corresponding sensing current which is proportional to the output current. A first current limiting module coupled to the current sensing module is configured to generate a first limiting current based on the sensing current when a variation of the output current of the power transistor exceeds a first current level. A second current limiting module coupled to the current sensing module is configured to generate a second limiting current based on the sensing current when a variation of the output current of the power transistor exceeds a second current level. A converting module coupled to the first and second current limiting modules and the power transistor controls a gate voltage of the power transistor based at least on the first and second limiting currents.Type: ApplicationFiled: May 2, 2014Publication date: November 6, 2014Applicant: STMICROELECTRONICS (SHENZHEN) R&D CO. LTD.Inventor: Ni Zeng
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Patent number: 8855219Abstract: A system and method for transmitting data. The system and method is configured to dynamically implement one of a differential signaling method or a single-ended signaling method during a transmission of data. The signaling method is selected based on a measured interference level during the transmission of data. The implementation of the signaling method is performed without interrupting the data transmission.Type: GrantFiled: October 7, 2010Date of Patent: October 7, 2014Assignee: STMicroelectronics (Shenzhen) R&D Co., Ltd.Inventor: Zhi Gao
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Publication number: 20140285258Abstract: A Class-D amplifier includes a pre-amplifier having an input configured to receive an amplifier reference voltage signal which is ramped at start-up at a fast rate. An integrator has a first input configured to receive an input signal from the pre-amplifier and a second input configured to receive an integrator reference voltage signal which is ramped at start-up at a slower rate. A modulator has an input coupled to an output of the integrator. The modulator generates a pulse width modulated output signal. Operation of the Class-D amplifier is controlled at start-up by applying a slow ramped signal as the integrator reference voltage signal and a fast ramped signal as the amplifier reference voltage so that the pulse width modulated output signal exhibits an increasing change in duty cycle in response to an increasing voltage of the integrator reference voltage signal, and no “pop” is introduced at start-up.Type: ApplicationFiled: March 6, 2014Publication date: September 25, 2014Applicant: STMicroelectronics (Shenzhen) R&D Co. Ltd.Inventors: Ru Feng Du, Qi Yu Liu
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Patent number: 8811766Abstract: Systems and methods are disclosed for determining the perceptibility of noise in a block of images and/or video. The systems and methods may compute a mask value for the block using a block masking generator. The mask value may indicate the perceptibility of noise in the block. The mask value may be computed using a normalized activity value and/or a texture value for the block. The normalized activity value may indicate the relative activity in the block as compared to the activity in the image and/or video. The texture value may indicate the strength and/or number of edges in the block.Type: GrantFiled: December 21, 2011Date of Patent: August 19, 2014Assignees: STMicroelectronics Asia Pacific Pte. Ltd., STMicroelectronics (Shenzhen) R&D Co., Ltd.Inventors: Anna Raffalli, Haiyun Wang, Lucas Hui, Patricia Wei Yin Chiang
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Patent number: 8803601Abstract: A circuit includes a first circuit module with a first input node, a second input node and an output node. The first circuit module receives an input signal at the first input node and generates an amplified signal at the output node. The circuit further includes a second circuit module coupled between the output node and a reference potential line. The second circuit selectively draws a current from the output node in response to a first control signal. The first control signal is generated in response to sensing a voltage fluctuation at a power supply node which supplies power to the first circuit module.Type: GrantFiled: July 23, 2012Date of Patent: August 12, 2014Assignee: STMicroelectronics (Shenzhen) R&D Co. Ltd.Inventor: Hong Wu Lin
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Patent number: 8779804Abstract: A high side driver circuit includes a driver stage having an input, an output, a first power terminal and a second power terminal, a transistor having a first power terminal, a second power terminal, and a control terminal coupled to the output of the driver stage, and a switch coupled between the second power terminal of the driver stage and the second power terminal of the transistor.Type: GrantFiled: December 7, 2012Date of Patent: July 15, 2014Assignee: STMicroelectronics (Shenzhen) R&D Co. Ltd.Inventor: Lin Li
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Patent number: 8779801Abstract: A switching circuit includes a first input stage having an input for receiving a first input signal, an output, and a power terminal for receiving an increasing analog current, a second input stage having an input for receiving a second input signal, an output, and a power terminal for receiving a decreasing analog current, and an output node coupled to the outputs of the first input stage and the second input stage for providing a switched output signal. An output stage is coupled between the first and second input stages and the output node. The first and second input stages are operational amplifiers.Type: GrantFiled: December 3, 2012Date of Patent: July 15, 2014Assignee: STMicroelectronics (Shenzhen) R&D Co. Ltd.Inventors: Min Chen, Wen Liu, HongXia Li, XiaoWu Dai
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Publication number: 20140184345Abstract: An oscillator module includes a first MOS transistor and a capacitor. The capacitor is coupled between a gate and source of the first MOS transistor. The drain of the first MOS transistor receives a first bias current and generates an oscillating output signal. A switching circuit operates in response to the oscillating output signal to selective charge and discharge the capacitor. A current sourcing circuit is configured to generate the bias current. The current sourcing circuit includes a second MOS transistor which has an identical layout to the first MOS transistor and receives a second bias current. A resistor is coupled between a gate and source of the second MOS transistor. The current sourcing circuit further includes a current mirror having an input configured to receive a reference current passing through the resistor and generate the first and second bias currents.Type: ApplicationFiled: November 6, 2013Publication date: July 3, 2014Applicant: STMICROELECTRONICS (SHENZHEN) R&D CO. LTD.Inventor: Hong Wu LIN
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Publication number: 20140184278Abstract: A driver circuit for driving a power transistor includes a converter having a first transistor and a second transistor coupled in series between a supply node and a reference node. The converter is configured to receive a first signal and in response thereto generate a second signal for selectively controlling status of the power transistor. The ratio of a first leakage current of the first transistor to a second leakage current of the second transistor is used in the generation of the second signal which is applied to the control terminal of a transistor switch that is selectively actuated to turn off the power transistor.Type: ApplicationFiled: November 6, 2013Publication date: July 3, 2014Applicant: STMICROELECTRONICS (SHENZHEN) R&D CO. LTD.Inventor: Ni ZENG