Patent application number | Description | Published |
20100005430 | DDCC and FDCCII-Grounded Resistor and Capacitor Filter Structures - A voltage-mode nth-order differential difference current conveyor (DDCC) and fully differential current conveyor (FDCCII)-resistor and capacitor filter structures are proposed using a new effective analytical synthesis method (ASM), a succession of innovative algebra operations until a set of simple equations are produced, which are then realized using n integrators and a constraint sub-circuitry, A new ASM can effectively carry out (i) use of all the grounded capacitors and grounded resistors, and (ii) employment of the minimum number of active and passive components and then enjoys the low sensitivities, lower parasitics, power consumption, noise, and smaller chip area leading to simultaneously achieving two important features: (i) higher output performance and (ii) lower cost, without tradeoff. Moreover, the component value variations of all the relative sensitivities have the same incremental percentage or decrement. | 01-07-2010 |
20100031205 | ANALYTICAL SYNTHESIS METHOD AND OTA-BASED CIRCUIT STRUCTURE - An analytical Synthesis Method (ASM) is clearly and effectively demonstrated in the realization of current/voltage-mode Operational Trans-conductance Amplifier and Capacitor (OTA-C) circuits, where a complicated nth-order transfer function is manipulated and decomposed by a succession of innovative algebra operations until a set of simple equations are produced, which are then realized using n integrators and a constraint circuitry. The circuits realized includes voltage-mode nth-order OTA-C universal filter structures, tunable voltage/current-mode OTA-C universal biquad filters, voltage-mode odd/even-nth-order OTA-C elliptic filter structures, voltage/current-mode odd-nth-order OTA-C elliptic high-pass filter structures, and OTA-C quadrature oscillators. Some realized OTA-C circuits can be simplified to be OTA-only (OTA-parasiic C) circuits which fit for the operation at high frequencies. | 02-04-2010 |
20100264996 | Nth-Order Arbitrary-Phase-Shift Sinusoidal Oscillator Structure and Analytical Synthesis Method of Making the same - Nth-order voltage- and current-mode arbitrary phase shift oscillator structures are synthesized using n operational trans-conductance amplifiers (OTAs) or second-generation current controlled conveyors (CCCIIs) and n grounded capacitors. Linking up the I/O characteristics of the OTA and the CCCII and the reactance of grounded capacitor, the step of synthesis is first based on the algebraic analysis to oscillatory characteristic equations, resulting in a quadrature oscillator structure. Secondly, instead of the quadrature characteristic, to control each output signal with one another by a desired phase difference > or <90°, selectively superposing any of two fundamental OTA/CCCII-C sub-circuitries benefits the transformation of quadrature to arbitrary-phase-shift characteristic for the sinusoidal oscillator structure. Furthermore, several compensation schemes are presented for reducing the output parameter deviation due to the non-ideal effects. | 10-21-2010 |
20110316628 | COMPLIMENTARY SINGLE-ENDED-INPUT OTA-C UNIVERSAL FILTER STRUCTURES - A complimentary single-ended-input OTA-C universal filter structures in terms of integrated circuits is provided. The integrated circuit comprises a plurality of amplifiers and a plurality of capacitors. In some capacitors, one electrode is electrically connected to the positive input of its corresponding amplifier, and the other electrode can be electrically connected to an electrical source. In addition, the negative input of one amplifier is electrically connected to the negative input of another amplifier. Besides, there are a head amplifier and a tail amplifier. The output of the head amplifier is electrically connected to the negative input of the head amplifier, and the positive input of the tail amplifier can be electrically connected to an electrical source. | 12-29-2011 |
Patent application number | Description | Published |
20120113675 | LAMP DEVICE WITH COLOR-CHANGEABLE FILTER - A lamp device includes a supporting frame, a light emitting diode (LED) array source, a light filter, two end caps and two couples of electrodes. The LED array source is disposed on the supporting frame. The light filter is arc-shaped and combined with the supporting frame as a tubular structure, wherein the arc surface of the light filter is a light emitting surface of the LED array source. The light filter is used for absorbing a ray in a specific wavelength range of the emitting light of the LED array source. The two end caps are disposed at two ends of the tubular structure respectively. The two couples of electrodes are disposed at two ends of the tubular structure and mounted on the two end caps respectively for electrically connecting to the LED array source. | 05-10-2012 |
20120170228 | CIRCUIT MODULE AND ELECTRIC CONNECTOR - A circuit module and an electric connector are provided. The electric connector is used for connecting two circuit boards. The electric connector at least includes two bases and a locking element. The bases are disposed on the periphery of the circuit boards and electrically connected with the circuit boards respectively. The locking element is used for locking the bases, such that the circuit boards are mechanically connected with each other and the electric paths thereof are electrically connected. | 07-05-2012 |
20120212951 | LAMP TUBE STRUCTURE AND ASSEMBLY THEREOF - A lamp tube structure includes a first end cap, a second end cap, a heat sink holder, a light emitting element array and a lamp cover. The first end cap includes a pair of electrical terminals and a first insulating portion. The electrical terminals are integrated into the first insulating portion by insert molding, and one end of each electrical terminal is protruded from an outside of the first insulating portion. The second end cap includes a grounding terminal and a second insulating portion. The grounding terminal is integrated into the second insulating portion by insert molding, and one end of the grounding terminal is protruded from an outside of the second insulating portion. The light emitting element array is disposed on top surface of the heat sink holder. A bottom surface of the lamp cover is fixed on the heat sink holder for receiving the light emitting element array. | 08-23-2012 |
20120243216 | LAMP COVER AND LAMP STRUCTURE - A cover and a lamp structure. The cover whose curvature has a light incident surface and a light outgoing surface, and includes a plurality of 3D micro-structures disposed thereon and arranged in the form of an array. When a light is emitted into the light outgoing surface from the light incident surface, the light emitting angle of the light outgoing surface is increased through the refraction of the 3D micro-structures, so that the occurrence of mura or spots due to uneven distribution of the light is avoid. | 09-27-2012 |
20120243242 | LIGHTING MODULE AND POWER CONNECTING SET - A lighting module and a power connecting set are provided. The lighting module includes two circuit boards, two light emitting elements and a power connecting set. The light emitting elements are disposed on the circuit boards respectively. The power connecting set includes two connecting bases and a flexible circuit board. The connecting bases are disposed on the circuit boards and electronically connected to the circuit boards respectively. Two ends of the flexible circuit board are connected to the connecting bases for electrically connecting a power path of the circuit boards. | 09-27-2012 |
Patent application number | Description | Published |
20080251910 | Fabricating method of semiconductor package and heat-dissipating structure applicable thereto - A method for fabricating semiconductor packages is disclosed, including mounting and electrically connecting a semiconductor chip onto a chip carrier; mounting a heat-dissipating structure on the semiconductor chip; placing the heat-dissipating structure into a mold cavity for filling therein a packaging material to form an encapsulant, wherein the heat-dissipating structure has a heat spreader having a size larger than that of the predetermined size of the semiconductor package, a covering layer formed on the, and a plurality of protrusions formed on edges of the covering layer that are free from being corresponding in position to the semiconductor chip, such that the protrusions can abut against a top surface of the mold cavity to prevent the heat spreader from being warped; and finally performing a singulation process according to the predetermined size and removing the encapsulant formed on the covering layer to form the desired semiconductor package. Also, this invention discloses a heat-dissipating structure applicable to the method described above. | 10-16-2008 |
20080277777 | Heat dissipation semiconductor package - A heat dissipation semiconductor package includes a chip carrier, a semiconductor chip, a heat conductive adhesive, a heat dissipation member, and an encapsulant. The semiconductor chip is flip-chip mounted on the chip carrier and defined with a heat conductive adhesive mounting area. Periphery of the heat adhesive mounting area is spaced apart from edge of the semiconductor chip. The heat dissipation member is mounted on the heat conductive adhesive formed in the heat conductive adhesive mounting area. The encapsulant formed between the chip carrier and the heat dissipation member encapsulates the semiconductor chip and the heat conductive adhesive, and embeds edges of the active surface and non-active surface and side edge of the semiconductor chip, thereby increasing bonding area between the encapsulant and the semiconductor chip. The side edges of the heat conductive adhesive and the semiconductor chip are not flush with each other, thereby preventing propagation of delamination. | 11-13-2008 |
Patent application number | Description | Published |
20090161396 | Synchronous rectifier control device and forward synchronous rectifier circuit - Disclosed are a synchronous rectifier control device and a forward synchronous rectifier circuit. The synchronous rectifier control device is coupled with the secondary side of the forward synchronous rectifier circuit, comprising a condition detecting unit, a reference time circuit and a synchronous signal generator. The condition detecting unit receives at least one reference signal and a detecting signal in response to the condition of the secondary side of the forward synchronous rectifier circuit, and accordingly generates a first synchronous control signal. The reference time circuit is coupled with the condition detecting unit, and generates a reference time signal in response to the first synchronous control signal. The synchronous signal generator generates a second synchronous control signal in response to the first synchronous control signal and the reference time signal. | 06-25-2009 |
20090168464 | Synchronous rectifier control device and a forward synchronous rectifier circuit - A synchronous rectifier control device comprises a status detecting unit, an analog circuit, a first counter, a second counter and a signal process unit. The status detecting unit receives at least one reference signal and a detecting signal to generate a first synchronous control signal. The analog circuit generates a delay signal in accordance with the first synchronous control signal. The first counter receives a clock signal and generates a first counter signal in accordance with the first synchronous control signal, the clock signal, and the delay signal. The second counter receives the clock signal and generates a second counter signal in accordance with the first synchronous control signal, the clock signal, and the first counter signal. The signal process unit generates a second synchronous control signal in accordance with the first synchronous control signal and the second signal. | 07-02-2009 |
20090244932 | Synchronous Rectifying Apparatus and Forward Synchronous Converter - A synchronous rectifying apparatus suitable for use in a forward synchronous converter having a transforming unit with a primary and secondary side, and a first and second rectifying switches coupled to the secondary side is provided. The synchronous rectifying apparatus has a condition detecting unit and a synchronous rectifying controller. The condition detecting unit; coupled to the secondary side of the transforming unit, for detecting if the operation condition of the forward synchronous converter is at boundary between discontinuous current mode and continuous current mode or under discontinuous current mode based on the rising slope of the secondary side voltage of the transforming unit. If so, the condition detecting unit outputs a reset signal. The synchronous rectifying controller, coupled to the secondary side of the transforming unit and the condition detecting unit, to turn off the second rectifying switch for a predetermined time period in response to the reset signal. | 10-01-2009 |
20100044803 | SEALING STRUCTURE FOR HIGH-K METAL GATE AND METHOD OF MAKING - The present disclosure provides a semiconductor device that includes a semiconductor substrate and a transistor formed in the substrate. The transistor includes a gate stack having a high-k dielectric and metal gate, a sealing layer formed on sidewalls of the gate stack, the sealing layer having an inner edge and an outer edge, the inner edge interfacing with the sidewall of the gate stack, a spacer formed on the outer edge of the sealing layer, and a source/drain region formed on each side of the gate stack, the source/drain region including a lightly doped source/drain (LDD) region that is aligned with the outer edge of the sealing layer. | 02-25-2010 |
20110057638 | PULSE WIDTH MODULATION REGULATOR IC AND CIRCUIT THEREOF - A pulse width modulation regulator IC is provided for controlling a duty cycle of at least one switch to convert one input voltage signal into an output voltage. An input pin is provided for receiving an input signal different from the input voltage signal. The input signal has a lasting time substantially the same as the time that input voltage signal situated at a high level, but the waveforms of the two signals are different. The input signal is converted into a square wave signal by a conversion unit, and a PWM signal is generated by a PWM controller according to the square wave signal to control the duty cycle of the switch. Therefore, the input pin can be saved by adjusting an internal or external circuit of the IC for the usage of the different kinds of input signals without increasing the number of input pins of the IC. | 03-10-2011 |
20120225529 | SEALING STRUCTURE FOR HIGH-K METAL GATE AND METHOD OF MAKING - The present disclosure provides a semiconductor device that includes a semiconductor substrate and a transistor formed in the substrate. The transistor includes a gate stack having a high-k dielectric and metal gate, a sealing layer formed on sidewalls of the gate stack, the sealing layer having an inner edge and an outer edge, the inner edge interfacing with the sidewall of the gate stack, a spacer formed on the outer edge of the sealing layer, and a source/drain region formed on each side of the gate stack, the source/drain region including a lightly doped source/drain (LDD) region that is aligned with the outer edge of the sealing layer. | 09-06-2012 |
20140016358 | Voltage Waveform Detector, Power Controller and Control Method for Switched-Mode Power Supplies with Primary-Side Control - Disclosed are a voltage waveform detector, a power controller and a control method used therein, adaptive for a switched-mode power supply having a power switch and an inductive device. A disclosed power controller has a voltage waveform detector and a constant-current control unit. The voltage waveform detector estimates a discharge time of the inductive device when the power switch is turned off. In the voltage waveform detector, a differential capacitor is coupled between an input node of a comparator and a feedback node, at which the feedback voltage corresponds to a reflection voltage of the inductive device. The constant-current control unit integrates a current-detection signal over the discharge time to control a maximum output current of the switched-mode power supply. | 01-16-2014 |
Patent application number | Description | Published |
20140016013 | IMAGE CAPTURE METHOD - The present disclosure provides an image capturing method including: detecting whether a first trigger signal has been received; performing a first facial recognition process on a preview image captured by an image capture device to produce a first facial recognition result, when the first trigger signal has been received; determining whether a number of people indicated by the first facial recognition result is equal to a predetermined number of participants indicated by an input signal; and activating an output device to display a correct signal when the number of people indicated by the first facial recognition result is equal to the predetermined number of participants. | 01-16-2014 |
20140109241 | Data Protection Method and Electronic Device - A data protection method for an electronic device is disclosed. The data protection method includes setting a log-in password for a private file stored in a public folder, creating a private folder having a same folder name as the public folder to store the private file in the private folder, and comparing an input password with the log-in password for the private folder to determine to display the private folder or the public folder. | 04-17-2014 |
20140115690 | ELECTRONIC DEVICE AND METHOD FOR RELEASING SCREEN LOCKED STATE - An electronic device and a method for releasing a screen locked state thereof are provided. The electronic device includes a touch screen, an operating unit, a display unit and a sensing unit that are coupled to each other and apply the method for releasing a screen locked state. The method for releasing a screen locked state includes: defining a prompt area and a signal input area on the touch screen, in which the prompt area has a plurality of prompt objects; an indication object in the signal input area indicating one of the prompt objects; receiving a touch track signal to indicate different prompt objects; detecting a click signal to acquire the indicated prompt object; and when the acquired prompt objects satisfies a preset arrangement order, releasing the screen locked state. | 04-24-2014 |
20140199871 | POWER ADAPTER - A power adapter includes a casing, a first connector, a rotary mechanism and a second connector. The first connector is rotatably disposed on a bottom of the casing. A first opening and a second opening are formed on the casing. The rotary mechanism is disposed between the casing and the first connector. The second connector is movably disposed inside the casing and connected to the rotary mechanism. The second connector is electrically connected to the first connector. An external plug inserts into the seconding opening to connect the second connector. The second connector is pushed by the external plug to drive the rotary mechanism to rotate the first connector, and a part of the first connector protrudes from an inner of the casing via the first opening. | 07-17-2014 |
Patent application number | Description | Published |
20100254161 | STRUCTURE FOR CHRISTMAS LIGHT - A structure for LED Christmas light is provided, including a light holder, being a hollow body having a separating part connected to the inner wall of the light holder to divide the hollow interior of the light holder into two cavities. Each of the two opposite sides of the inner wall of the light holder connected to the separating part forms a slot and face the surface of the separating part of the two cavities, with each having a guiding channel. Two wire sets are fixed inside the two cavities. An LED light bulb has a positive pin and a negative pin inserted inside the guiding channel, respectively, and being electrically connected to the wire sets. A light cap has a holding part passing the LED light bulb to tightly engage to the top of the light holder so as to fix the LED light bulb to the light holder. | 10-07-2010 |
20120033439 | Structure Of Plug-In Light String - A structure of plug-in light string is provided, including a light shell, a separation element, an LED and a plurality of wires. The two metal leads extended from the LED are soldered to respective wires. The top of the separation element presses against the bottom of the LED, and the separation element and the LED are plugged into the light shell. The LED extends partially from the top opening of the light shell, and the separation element is buckled to the light shell to fasten the position of each component. Inside the light shell, the separation element separates the connection segments of the two metal leads and the wires. In this manner, the structure of plug-in light string is constituted to achieve advantages of easy assembly, water-proof effect, safe usage and small size. | 02-09-2012 |
20150211717 | CHRISTMAS LAMP - A Christmas light includes a reflector holder defining an axis, a lamp body and a reflector. The reflector holder has an axial hole, an axial engagement slot and a radial slot in spatial communication with the axial engagement slot. The lamp body includes a light emitter and a tenon formed at one side thereof. The lamp body extends through the axial hole in the reflector holder with the tenon sliding into the axial engagement slot and finally engaged in the radial slot once the reflector holder is rotated relative to the lamp body. The reflector has a bottom opening for mounting onto the reflector holder from above, thereby enclosing the light emitter within the reflector. | 07-30-2015 |
Patent application number | Description | Published |
20100128215 | LIQUID CRYSTAL DISPLAY AND FABRICATION METHOD THEREOF - A liquid crystal display (LCD) and a fabrication method thereof are provided. The LCD includes a first substrate and a second substrate opposite to the first substrate. At least two layers of cholesteric liquid crystal layers are disposed between the first and the second substrates, wherein chiral dopants with different optical activities are respectively added in the cholesteric liquid crystal layers, and the chiral dopants have the same chemical structure. The fabrication method includes providing a first substrate and a second substrate opposite to the first substrate. A plurality of chiral dopants with different optical activities and having the same chemical structure are mixed into the same liquid crystal host respectively to form at least two kinds of cholesteric liquid crystal materials. Then, the cholesteric liquid crystal materials are disposed between the first and the second substrates to form at least two layers of cholesteric liquid crystal layers. | 05-27-2010 |
20110109868 | CHIRAL COMPOUND AND LIQUID CRYSTAL COMPOSITION CONTAINING THE SAME - A chiral compound of formula (I) or (II) is provided, | 05-12-2011 |
20120086902 | ISOSORBIDE DERIVATIVES AND LIQUID CRYSTAL DISPLAYS COMPRISING THE SAME - An isosorbide derivative of Formula (I) is provided. | 04-12-2012 |
20130063693 | CHIRAL DOPANTS, LIQUID CRYSTAL MATRIX AND MANUFACTURING METHOD THEREOF AND LIQUID CRYSTAL DISPLAY - An embodiment of the invention provides a chiral dopant having the following formula: | 03-14-2013 |
20130100394 | LIQUID CRYSTAL COMPOUND, AND LIQUID CRYSTAL DISPLAY - An embodiment of the invention provides a liquid crystal compound having the following formula: | 04-25-2013 |
20130235320 | LIQUID CRYSTAL COMPOUND AND LIQUID CRYSTAL DISPLAY - An embodiment of the disclosure provides a liquid crystal compound having the following formula: | 09-12-2013 |
Patent application number | Description | Published |
20120194933 | COLOR FILTER STRUCTURE AND MANUFACTURING METHOD THEREOF - The present invention discloses a color filter structure and a manufacturing method thereof. The color filter structure has a glass substrate, a black matrix layer, a color pixel layer, a plurality of spacers, a transparent conductive layer and a transparent planarized photo-resist layer. The present invention can simultaneously form the spacers by using the same color resist when forming the color pixel layer. Thus, the color filter structure of the present invention is relatively simple, and the manufacture cost thereof is relatively low, so as to save the manufacture cost of the color filter structure. In addition, the transparent planarized photo-resist layer can prevent the transparent conductive layer from generating short circuit problems during installation. | 08-02-2012 |
20130021688 | COLOR FILTER AND MANUFACTURING METHOD THEREOF - The present invention provides a color filter and a manufacturing method of the color filter. The color filter comprises first color resist units and second color resist units, and a pixel layer is formed by the first color resist units and the second color resist units. The manufacturing method comprises the following step of: after the first color resist units are formed, forming photo spacers for controlling a gap between an array substrate and a color filter substrate simultaneously when the second color resist units are formed. The present invention can reduce the number of manufacturing processes and effectively reduce the manufacturing cost of liquid crystal displays (LCDs). | 01-24-2013 |
20130321750 | LCD Panel, Color Filter Substrate, and Method of Manufacturing the Color Filter Substrate - A liquid crystal display (LCD) panel, a color filter (CF) substrate, and a method of manufacturing the CF substrate are proposed. The method includes forming a black matrix pattern on an invalid pixel domain on a transparent substrate for forming an alignment mark, coating a transparent conducting layer on the invalid pixel domain for covering the alignment mark, and patterning the transparent conducting layer so that the alignment mark and the peripheral domain of the alignment mark could have a different feature of coverage. The alignment mark and the peripheral domain of the alignment mark show optics differences obviously through a CCD (charge-coupled device) optical reading lens, which increases the success ratio of reading the alignment mark and improves manufacturing efficiency. | 12-05-2013 |
Patent application number | Description | Published |
20140184791 | OPTICAL IMAGE CAPTURING MODULE, ALIGNMENT METHOD, AND OBSERVATION METHOD - An optical image capturing module and an alignment method and an observation method for an upper substrate and a lower substrate using the optical image capturing module are provided. The upper substrate and the lower substrate are disposed opposite. The alignment method includes the following steps of: emitting a light ray; filtering the light ray and dividing the light ray into a light ray at first wavelength and a light ray at second wavelength, whereby the light ray at first wavelength irradiates a pattern on the upper substrate, and the light ray at second wavelength irradiates a pattern on the lower substrate; reflecting the pattern on the upper substrate to an image capturing device; reflecting the pattern on the lower substrate to the image capturing device; and determining the positions of the pattern on the upper substrate and the pattern on the lower substrate on the image capturing device. | 07-03-2014 |
20150049334 | OPTICAL IMAGE CAPTURING MODULE, ALIGNING METHOD, AND OBSERVING METHOD - A method of aligning an upper substrate and a lower substrate is provided. The upper and lower substrates are oppositely arranged, and the aligning method includes the following steps: providing an optical image capturing module; emitting light rays to a third surface of a first prism; filtering the light rays, so that the light rays are divided into light rays at the first wavelength range and light rays at the second wavelength range, wherein the light rays at the first wavelength range irradiate a pattern on the upper substrate, and light rays at the second wavelength range irradiate a pattern on the lower substrate; reflecting a pattern image on the upper substrate to an image capturing apparatus; reflecting a pattern image on the lower substrate to the image capturing apparatus; and determining locations of the patterns of the upper and lower substrate that are on the image capturing apparatus. | 02-19-2015 |
20150205216 | METHOD FOR ALIGNING SUBSTRATES IN DIFFERENT SPACES AND HAVING DIFFERENT SIZES - A method for aligning substrates in different spaces and having different sizes includes: capturing actual local images of two substrates; comparing specific marks in standard local feature regions of the two substrates, and obtaining specific marks in actual local feature regions of the two substrates; separately establishing actual coordinate systems of the two substrates to synthesize aligned assembly coordinate system; comparing coordinate values of the specific marks of the two substrates in the two actual coordinate systems to obtain first group of offsets, and comparing sizes of the two substrates to obtain a size difference; using the first group of offsets and the size difference to correct coordinate values of specific marks of one of the two substrates; comparing coordinate values of the specific marks of the two substrates, to obtain second group of offsets; and moving the one to a position compensated by the second group of offsets. | 07-23-2015 |
Patent application number | Description | Published |
20110294352 | ELECTRICAL CONNECTOR WITH STACKED SPACERS - An electrical connector includes a housing with a number of passageways, a plurality of contacts retained in the passageways, and a spacer assembly assembled to a rear side of the housing. The contacts are arranged in plural rows along an insertion direction of a mating plug. Each contact has a connecting portion extending along an up to down direction. The spacer assembly has at least two spacers stacked with each other along the up to down direction to jointly receive and position the connecting portions. | 12-01-2011 |
20130316592 | ELECTRICAL CARD CONNECTOR - An electrical connector | 11-28-2013 |
20140051274 | ELECTRICAL CONNECTOR - An electrical connector comprises an insulative housing with a base portion and a tongue portion extending forwardly form the base portion. A plurality of contacts being retained in the insulative housing, and a shell surround the tongue portion to form a mating port for receiving a plug connector. A detecting contact is fixed in the insulative housing, the detecting contact has a first detecting terminal at one side of the insulative housing, the first detecting terminal has a first extending portion, a first engaging portion protruding into the mating port, a connecting part connecting with the first extending portion and the first engaging portion, the connecting part is located at the most front of the detecting contact along a front-to-back direction. | 02-20-2014 |
20140051302 | ELECTRICAL CONNECTOR WITH DETECT CONTACT - An electrical connector ( | 02-20-2014 |
20140051303 | ELECTRICAL CONNECTOR - An electrical connector comprises an insulative housing with a base portion and a tongue portion extending forwardly form the base portion, a plurality of contacts retained in the insulative housing and a shell surrounding the tongue portion to form a mating port. The shell has two side walls located at two sides of the mating port, and at least one side walls forming a detecting pad. A detecting contact is retained in the insulative housing and aligned with the detecting pad, and the detecting contact has a detecting arm extending forwardly. The side wall further has a bridge behind the detecting pad, the bridge and the detecting pad both protrude beyond the side wall to form a room therebetween, the room is beside the mating port and communicates with the mating port, and the detecting arm is received in the room and partly protrudes into the mating port. | 02-20-2014 |
20140120778 | ELECTRICAL CONNECTOR WITH DETECT PINS - An electrical connector comprises an insulative housing, a metallic shell surround the insulative housing, a plurality of contacts and two detect pin retained to the insulative housing. The insulative housing is formed with a base and a tongue extending forwardly from the base. The shell and the insulative housing define a receiving cavity therebetween. The two detect pins are fastened to two opposite ends of the insulative housing, respectively, each has a detecting portion located in the receiving cavity, and the detecting portions of the two detect pins are disposed offset along a front-to-back direction for being selectively pushed by the mating plug. One of the contacts is formed with a wing contacting with the first detecting portion. The electrical connector can detect insertions of different mating plugs via the detect pins. | 05-01-2014 |
20140273653 | ELECTRICAL CONNECTOR WITH BI-DETECTING PINS - An electrical connector includes an insulative housing formed with a rear base and a front mating tongue, a metallic shell covering the insulative housing thereby defining a mating cavity, contacts, and a first and a second detecting pin. The mating tongue defines a first and a second face and two lateral sides between the first and second faces. The contacts include contacting portions located on the first face. Each of the first and the second detecting pins forwardly protrude and has a contacting portion located in the mating cavity. The contacting portion of the first detecting pin is located behind that of the second detecting pin in the insertion direction. The contacting portion of the first detecting pin is located along and space from one of the lateral sides, the contacting portion of the second detecting pin is located in the second face of the mating tongue. | 09-18-2014 |
20140315405 | ELECTRICAL CONNECTOR WITH DTECT PINS - An electrical connector comprises an insulative housing, a metallic shell surround the insulative housing, a plurality of contacts and two detect modules retained to the metallic shell. The insulative housing is formed with a base and a tongue extending forwardly from the base. The shell and the insulative housing define a receiving cavity therebetween. The detect module have a detect pin, respectively, the detect pins extend into the receiving cavity through the shell and electrically connecting with each other via a shell of a mating plug. | 10-23-2014 |
20150031239 | ELECTRICAL CONNECTOR WITH IMPROVED HIGH FREQUENCY SIGNAL TRANSMISSION ENVIRONMENT - An electrical connector comprises an insulative housing, a plurality of contacts retained in the insulative housing and including a grounding contact and a first pair of differential signal contacts. The first pair of differential signal contacts have a first signal contact and a second signal contact closing to the grounding contact. Each contact has a contacting portion, a soldering portion, a position portion and a connecting portion. A first distance is defined between a center line of the grounding contact and an inner side edge of the connecting portion of the second signal contact, a second distance is defined between the center line and an inner side edge of the soldering portion, and a third distance is defined between the center line and the position portion, the second distance and the third distance are both smaller than the first distance. | 01-29-2015 |
20150056855 | ELECTRICAL CONNECTOR WITH IMPROVED SHELL - An electrical connector, including an insulative housing, a plurality of conductive contacts received in the insulative housing and a metallic shell covering the insulative housing, the shell has a top wall, a bottom wall, a left and a right sidewalls connecting the top wall and the bottom wall, and a rear wall. The rear wall has a first part bent from a rear edge of the left sidewall and extending toward the right sidewall and a second part bent from a rear edge of the right sidewall and extending toward the left sidewall. Both the first and the second parts have a mounting leg extending downwardly, and the right and the left sidewalls have retaining legs. | 02-26-2015 |
20150087172 | ELECTRICAL CONNECTOR - An electrical connector includes an insulative housing, a metal shell covering the insulative housing, electrical terminals and auxiliary terminals received in the insulative housing. The electrical terminals includes a number of first contacts. The first contacts include a grounding contact in the middle and some signal contacts on both sides of the grounding contact. The auxiliary terminals includes the retaining portion received in insulative housing and the connecting portion downwardly bent from an end of the retaining portion. The retaining portion has a first spring tab and the connecting has a second spring tab. The first spring tab contacts with the metal shell and the second spring tab contacts with the grounding contact. Such arrangment can improve the anti EMI effect of the electrical connector and reduce the signal interference between the signal terminals. | 03-26-2015 |
20150162711 | ELECTRICAL CONNECTOR WITH DETECTING CONTACTS - An electrical connector ( | 06-11-2015 |
20150162714 | ELECTRICAL CONNECTOR WITH IMPROVED CONTACTS - An electrical connector ( | 06-11-2015 |
20150229082 | ELECTRICAL CONNECTOR WITH SHIELDING PLATE SECURED THEREIN - An electrical connector includes a first terminal module, a second terminal module, a shielding shell and a metallic shielding plate. The first terminal module includes a first mating tongue and first terminals insert molded thereamong. The first mating tongue has a first mating face on which the first terminals are exposed. The first terminals have first connecting sections extending in a vertical direction. The second terminal module includes a second mating tongue and second terminals insert molded thereamong. The second mating tongue has a second mating face directly facing to the first mating face and a third mating face. The second terminals are disposed in the second and third mating faces and have second connecting sections extending in the vertical direction. The metallic shielding plate is disposed between the first and second connecting sections and has a plurality of hooked shrapnels elastically contacting with the shielding shell. | 08-13-2015 |
20150295335 | ELECTRICAL CONNECTOR WITH IMPROVED CONTACTS - An electrical connector comprises an insulative housing with a plurality of ports, a plurality of contacts received in the insulative housing, a rear seat assembled to a rear side of the insulative housing and a metal shell covering the insulative housing. The insulative housing has a plurality of slots recessed from a rear surface thereof for retaining the contacts. The contact has a linking portion positioned in the rear sear and a mating portion bent from the linking portion and exposed in the port. The mating portions of the contacts in a same port are located in different heights, and at least one of the mating potions is inclined, so as to provide an inclined force to an inserted mating connector thereby reducing a pressing force to the inserted plug during engaging. | 10-15-2015 |