38results about How to "Impedance can be adjusted" patented technology

A terminals (10) for use in connection of a first electrical interface (50) and a second interface (60), comprises a base portion (12) extending between the first electrical interface and the second electrical interface, a pair of arm portions (14) extending from two lateral sides of the base portion toward the first electrical interface, a solder portion (16) extending outwardly from the base portion (12) towards the second electrical interface, and at least one plate-like member disposed between the arm portion (14) and the solder portion (16) of the terminal (10).

A terminal plate set and an electric connector including the terminal plate set are disclosed. The terminal plate set includes two signal terminal plates and two grounding terminal plates, and the signal terminal plates are parallel to each other and disposed between the grounding terminal plates. A partition channel is formed between the grounding terminal plates, between the signal terminal plates, between the signal terminal plate and the grounding terminal plate, or between the terminal plates. The electric connector includes the terminal plate set and a front body, and the terminal plate set is installed at the front body, and a front convection hole is formed on a plug side of the front body. The impedance of the signal terminal plates and the grounding terminal plates can be adjusted within the best range to improve the heat dissipation efficiency of the terminal plate set and the electric connector.

Reflector that when associated to a portable telephone allows concentrating a maximum amount of radiation, providing a directional radiation source allowing an increased signal gain, greater coverage, reduced radiation on the face of the circuit attached to the telephone and a lower incidence on the human body. The reflector is attached on the casing on the portable telephone, constructed on a fiberglass plate and comprises two faces on which are arranged a number of tracks such that the radiation between the reflector and the portable telephone antenna is adjusted. The support is conformed by the reflector itself, to which are adhered two double strips, one for attachment to the telephone and another for attachment to an ornamental strip that is provided on its outer face with an attachment area and an available area.

An RF welder, and a method of operation thereof, is disclosed that has circuitry that automatically affects system impedance so that, throughout the welding or embossing cycle, a generator is capable of delivering the same power to a die and fabric, and cabling is capable of dissipating a load that is less than a preselected amount.

A plasma processing apparatus, for performing a plasma processing on a substrate to be processed by generating a plasma of the processing gas in an evacuable processing chamber, includes an impedance adjusting mechanism. The impedance adjusting mechanism is provided with a resonance circuit formed to allow a radio frequency current to flow into the first electrode; a variable impedance unit installed on a power feed line to the first electrode; a detector for detecting an apparatus state to be used to search a resonance point of the resonance circuit; and a controller for searching a resonance point of the resonance circuit by detecting a signal of the apparatus state of the detector while varying a value of the variable impedance unit in a state where the plasma is formed and then adjusting the value of the variable impedance unit at the resonance point to a reference value.

A terminals (10) for use in connection of a first electrical interface (50) and a second interface (60), comprises a base portion (12) extending between the first electrical interface and the second electrical interface, a pair of arm portions (14) extending from two lateral sides of the base portion toward the first electrical interface, a solder portion (16) extending outwardly from the base portion (12) towards the second electrical interface, and at least one plate-like member disposed between the arm portion (14) and the solder portion (16) of the terminal (10).

There is provided a semiconductor device including an output buffer circuit which reduces an area occupied by a circuit for impedance adjustment and allows high-speed impedance adjustment. In an impedance measuring circuit, the impedance values of reference transistors having the same sizes as those of a plurality of transistors composing the output buffer circuit which are equal in size are measured. An impedance code generating circuit outputs impedance codes corresponding to the impedance values of the reference transistors to an output buffer code generating circuit based on the result of the measurement from the impedance measuring circuit. The output buffer code generating circuit generates output buffer codes for adjusting the impedance of the output buffer circuit by performing an arithmetic operation process to provide an objective impedance based on the impedance codes.

A signal transmission connector includes an insulating body, a plurality of first terminals, a plurality of second terminals, and a rear casing. The insulating body has a dielectric constant of about 3 to 3.4. The first and second terminals are disposed on the insulating body. The first and second terminals have widths of about 0.36 to 0.42 mm. The rear casing is assembled at the second end of the insulating body. The rear casing envelops the first and the second terminals. The rear casing has a dielectric constant of about 3.5 to 3.8. The connector provides adjustable impedance without modifications to the terminal structures and also reduces cost.

An inner terminal is provided with a crimp barrel portion with which a terminal of a core wire is connected and an electric connecting portion to be electrically connected with a mating terminal. The inner terminal is received in an insulation inner housing. The inner housing is set into a terminal body portion. An outer terminal is provided with a shield member connecting portion with which a shield member is connected and a cylindrical portion in which the electric connecting portion of the inner terminal is positioned, the cylindrical portion mated with a mating connector. An impedance adjusting portion is provided between the electric connecting portion and the crimp barrel portion of the inner terminal.

An impedance adjusting circuit for adjusting an impedance of an output buffer of a DDR2 memory, using an OCD impedance adjusting function, from a side of a memory controller, includes first and second terminals, first and second switches, a comparator, and a control circuit. The DDR2 memory has an OCD impedance adjusting function and includes a first output buffer and a second buffer each having a pull-up buffer and a pull-down buffer that receive an input signal in common and with impedances thereof capable of being variably set. The first and second terminals receive first and second signals output from the first buffer and the second buffers, respectively. The first and second switches are connected between the first terminal and the second terminal in series. The comparator compares a reference voltage VREF with a voltage at a connection node between the first and second switches. The control circuit receives a comparison result from the comparator to perform control for adjustably setting the impedance of the first buffer and / or the impedance of the second buffer, and also performs on / off control of the first and second switches.

A multiplexer includes a first filter connected to a common terminal and a first input / output terminal, a second filter connected to the common terminal and a second input / output terminal, a first cancel circuit including a first terminal, a second terminal acoustically connected to the first terminal, and a third terminal acoustically connected to the first terminal, and a second cancel circuit including a fourth terminal, and a fifth terminal acoustically connected to the fourth terminal. The first terminal is connected to the first input / output terminal. The second terminal is connected to the second input / output terminal. The fourth terminal is connected to the third terminal. The fifth terminal is connected to the second input / output terminal. The first and second cancel circuits generate signals that cancel out unnecessary signals in a prescribed frequency band propagating between the first and second input / output terminals.

An antenna device reduced in size and increased in bandwidth. The antenna device comprises a first radiating plate and a second radiating plate arranged with a space having a predetermined width. A power supply section feeding a power to the first radiating plate and the second radiating plate is installed in the space. The first radiating plate and the second radiating plate are characterized in that they are similar to each other in plan view shape and different in size from each other.

A front end circuit includes a variable matching circuit connected to a diplexer and a switch connector connected between an antenna port and the diplexer. The variable matching circuit selectively connects matching circuits to a signal path. When one of the matching circuits is connected, the impedance as viewed from the switch connector matches an impedance of a measurement circuit near a normalized impedance of 1 in a predetermined communication band, whereas when the other matching circuit is connected, the impedance viewed from the antenna port conjugate-matches the impedance of an antenna circuit in a predetermined communication band.