Chenglong
Chenglong Ding, Nanjing CN
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20150092602 | Method and Device for Clearing Media Access Control Forwarding Entry - The present application provides a method and a device for clearing a MAC forwarding entry. The method includes: detecting, by a first RB, that a topology of a network accessed by a local terminal changes; and sending, by the first RB, a first packet to a second RB, so that the second RB clears a corresponding forwarding entry after receiving the first packet, where the second RB refers to an RB configured with at least one VLAN the same as that of the first RB. According to embodiments of the present application, after the topology of the network accessed by the local terminal changes, MAC forwarding entries of relevant devices in a whole network can be cleared in time, thereby avoiding a forwarding error. | 04-02-2015 |
Chenglong Liu, Shenzhen CN
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20080270584 | Method for Realizing Terminal Management in the Network Device - A method for realizing terminal management in a network device includes: receiving a message addressed to a terminal from a network management station; determining identification information of the message in accordance with information contained in the message; if receiving a Response message from the terminal, determining a destination network management station for receiving the Response message in accordance with identification information of the Response message, and forwarding the Response message to the determined network management station. | 10-30-2008 |
Chenglong Wang, Shenzhen CN
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20140043767 | RADIO REMOTE UNIT DEVICE AND ASSEMBLY THEREOF - Embodiments of the present invention relate to an RRU device and an assembly thereof. The RRU device includes: an enclosure, where the enclosure includes a front-end plate and a back-end plate that are respectively set on two lengthwise ends of the enclosure, multiple parallel spaced heat sinks are set on two widthwise sides of the enclosure and between the front-end plate and the back-end plate, and the front-end plate and the back-end plate extend along a widthwise direction of the enclosure by a length which is greater than a length by which the heat sinks extend; and a joint part set on the enclosure, where the joint part is used to fasten two side-by-side radio remote unit devices together. | 02-13-2014 |
20150373871 | RADIO REMOTE UNIT DEVICE AND ASSEMBLY THEREOF - Embodiments of the present invention relate to an RRU device and an assembly thereof The RRU device includes: an enclosure, where the enclosure includes a front-end plate and a back-end plate that are respectively set on two lengthwise ends of the enclosure, multiple parallel spaced heat sinks are set on two widthwise sides of the enclosure and between the front-end plate and the back-end plate, and the front-end plate and the back-end plate extend along a widthwise direction of the enclosure by a length which is greater than a length by which the heat sinks extend; and a joint part set on the enclosure, where the joint part is used to fasten two side-by-side radio remote unit devices together. | 12-24-2015 |
20160057888 | Communications Product and Base Station System - A communications product, including at least one RRU and a fan assembly, where the fan assembly is independent of the at least one RRU, and is disposed side by side with the at least one RRU, an air duct is disposed between the fan assembly and the RRU, and an airflow passes, from the fan assembly, through the air duct, and arrives at the at least one RRU, to dissipate heat of the at least one RRU. The communications product of the present disclosure can ensure a heat-dissipation capability, and also can allow the RRU to be small in size. The present disclosure further provides a base station system that includes the communications product. | 02-25-2016 |
Chenglong Wu, Beijing CN
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20150332896 | VACUUM APPARATUS - An embodiment of the present disclosure provides a vacuum apparatus, which relates to a display technical field. The vacuum apparatus can eliminate an electrostatic adsorption between a substrate and an electrode so as to avoid damages to the substrate. The vacuum apparatus includes: a vacuum cavity; a first electrode and a second electrode located inside the vacuum cavity and opposite to each other; and positioning structures for positioning the substrate. The substrate is located between the first electrode and the second electrode and is positioned closer to the first electrode or the second electrode. The vacuum apparatus further includes an electrostatic elimination device. The electrostatic elimination device can eliminate the electrostatic adsorption between the substrate and the first electrode and/or between the substrate and the second electrode by attracting charged particles to the surface of the substrate closer to a side of the first electrode and/or the surface of the substrate closer to a side of the second electrode. The present disclosure also relates to manufacture method of the vacuum apparatus. | 11-19-2015 |
Chenglong Zhang, Shanghai CN
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20140374911 | DEVICE HAVING REDUCED PAD PEELING DURING TENSILE STRESS TESTING AND A METHOD OF FORMING THEREOF - The present disclosure relates to a method for forming a semiconductor device. The method includes forming a first aluminum pad layer on a metal layer, forming an adhesion layer on the first aluminum pad layer, etching the adhesion layer so as to form a patterned adhesion layer, and forming a second aluminum pad layer on the first aluminum pad layer and the patterned adhesion layer. | 12-25-2014 |
20150061047 | CAPACITIVE PRESSURE SENSORS AND FABRICATION METHODS THEREOF - A capacitive pressure sensor is provided. The capacitive pressure sensor includes a substrate; and a first electrode formed in one surface of the substrate and vertical to the surface of the substrate. The capacitive pressure sensor also includes a second electrode with a portion facing the first sub-electrode, a portion facing the second sub-electrode and a portion formed in the other surface of the substrate. Further, the capacitive pressure sensor includes a first chamber between the first electrode and the second electrode and a second chamber formed in the second electrode. Further, the pressure sensor also includes a first sealing layer formed on the second electrode; and a second sealing layer formed on the other surface of the substrate. | 03-05-2015 |
20150187601 | INTERCONNECT STRUCTURE AND METHOD FOR FORMING THE SAME - Various embodiments provide semiconductor devices and methods for forming the same. A base including a substrate and an interlayer dielectric layer is provided. The base has a first region and a second region that have an overlapped third region. A mask layer having a stacked structure is formed on the interlayer dielectric layer at the overlapped third region. Using the mask layer as an etching mask, the interlayer dielectric layer at the first region at both sides of the mask layer is etched, to expose the substrate and form a first contact via at the first region. Using the mask layer as an etching mask, the interlayer dielectric layer at the second region at both sides of the mask layer is etched, to form a second contact via at the second region. A conductive layer is formed to fill the first contact via and the second contact via. | 07-02-2015 |
20160054189 | CAPACITIVE PRESSURE SENSORS - A capacitive pressure sensor is provided. The capacitive pressure sensor includes a substrate; and a first electrode formed in one surface of the substrate and vertical to the surface of the substrate. The capacitive pressure sensor also includes a second electrode with a portion facing the first sub-electrode, a portion facing the second sub-electrode and a portion formed in the other surface of the substrate. Further, the capacitive pressure sensor includes a first chamber between the first electrode and the second electrode and a second chamber formed in the second electrode. Further, the pressure sensor also includes a first sealing layer formed on the second electrode; and a second sealing layer formed on the other surface of the substrate. | 02-25-2016 |
Chenglong Zhang, Campbell, CA US
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20140159616 | ADAPTIVE HOLDING CURRENT CONTROL FOR LED DIMMER - A TRIAC dimmer controller for an LED lamp dynamically adjusts the amount of additional current supplied to the TRIAC dimmer based on the TRIAC dimmer operating mode. A TRIAC dimmer current controller continually senses the TRIAC dimmer current loading and determines a TRIAC dimmer operating mode based on the detected current. The TRIAC dimmer controller compares the detected current with a threshold current value called a TRIAC holding current, and adjusts the amount of bleeder current based on the difference between the detected current and the threshold current value. By continually sensing the TRIAC dimmer current loading, the LED controller regulates the amount of bleeder current supplied to the TRIAC dimmer using a single sink current path to satisfy the TRIAC dimmer current demands of multiple TRIAC dimmer operating modes. | 06-12-2014 |
Chenglong Zhang, San Jose, CA US
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20160081152 | GENERATING A VOLTAGE FEEDBACK SIGNAL IN NON-ISOLATED LED DRIVERS - An LED lamp comprises one or more LEDs, an inductive element coupled to an input voltage source and the one or more LEDs, and a switch coupled to the inductive element. A first current detector is coupled between the input voltage source and a ground node of the LED lamp, such that a current detected by the first current detector is proportional to a bulk voltage across the input voltage source. A second current detector is coupled between the inductive element and the ground node, such that current detected by the second current detector is proportional to a drain voltage across the switch. A switch controller controls the switch based on a feedback signal indicative of a voltage across the inductive element, which is generated based on a difference between the current detected by the second current detector and the current detected by the first current detector. | 03-17-2016 |
20160081153 | POWERING INTERNAL COMPONENTS OF LED LAMPS USING DISSIPATIVE SOURCES - An LED lamp comprises one or more LEDs and an LED driver receiving an input signal from a dimmer switch indicative of an amount of dimming for the LED lamp. The LED driver controls regulated current through the one or more LEDs based on the input signal such that an output light intensity of the one or more LEDs substantially corresponds to the amount of dimming for the LED lamp. A regulated output provides operating power for the LED driver. A controller regulates the regulated output to power the LED driver. The controller selects a power source for charging the regulated output from two or more power sources, and the regulated output is charged using the power source selected by the controller. | 03-17-2016 |