摘要:
A differential signal transmission connector includes an insulative housing. A plurality of pairs of differential signal transmission contacts and a plurality of grounding contacts are provided in the insulative housing. The differential signal transmission contacts and the grounding contacts are arranged in two rows. A first contact from each of the pairs of the differential signal transmission contacts is arranged in a first row, and a second contact from each of the pairs of the differential signal transmission contacts is arranged in a second row. The grounding contacts are arranged in the first row between each of the first contacts and the grounding contacts are arranged in the second row between each of the second contacts.
摘要:
A differential signal transmission connector includes an insulative housing. A plurality of pairs of differential signal transmission contacts and a plurality of grounding contacts are provided in the insulative housing. The differential signal transmission contacts and the grounding contacts are arranged in two rows. A first contact from each of the pairs of the differential signal transmission contacts is arranged in a first row, and a second contact from each of the pairs of the differential signal transmission contacts is arranged in a second row. The grounding contacts are arranged in the first row between each of the first contacts and the grounding contacts are arranged in the second row between each of the second contacts.
摘要:
An electrical connector comprises an insulating housing provided with first and second contacts. A positioning guide protrudes from a mating surface of the housing. At least one barrier wall is formed between the first and second contacts that separates the first contacts from the second contacts.
摘要:
Disclosed herein is a method for decompressing compressed data. First, a table is prepared in which the number of bits, consecutively present to the right of the certain bit and having the same color as the certain bit, is listed. Then, a predetermined number of reference data bits is taken from a reference line. Next, the table is searched with both the reference data bits and a position of an attentional bit in the data bits, in order to detect the number of bits of the same color as the attentional bit which are consecutively present to the right of the attentional bit. Thereafter, a pixel, right away from the attentional bit by a distance equal to the addition of 1 and the detected number of bits, is found as a color-changed pixel on the reference line. The compressed data is decoded based on the position of the found color-changed pixel.
摘要:
In a connector for use in connecting a cable (11) such as a coaxial cable, a contact element (12) is held by an insulator (13) and is connected to the cable. A conductive shell (14) covers the insulator. The conductive shell has a holding portion (17) for clamping and holding the cable in cooperation with the insulator. It is preferable that the shell has a first shell component (15) arranged at a position corresponding to a contacting portion of the contact element and fixedly held by the insulator and a second shell component (16) having the holding portion and removably held by the insulator.
摘要:
In a connector for use in connecting a connection member (33) of a sheet-like having first and second surfaces opposite to each other in a predetermined direction, a contact member (35) is provided with a first arm portion (53) extending to face the first surface and a second arm portion (54) connected to the first arm portion and extending to face the second surface. The first arm portion is for engaging with an operation member (39) to be moved by manual operation of the operation member in the predetermined direction. The second arm portion moves together with the first arm portion to become in contact with the second surface of the connection member. When the first arm portion is moved, bending is caused in a bendable portion (47) extending from a fixed portion (32) which is fixed to an insulator (31).
摘要:
A two-stroke cycle gasoline engine, comprising a power cylinder-piston assembly having a scavenging port configuration including a first scavenging port configuration first uncovered by the power piston as it moves along the power cylinder from its top dead center to its bottom dead center and a second scavenging port configuration uncovered by the power piston as it moves from its top dead center to its bottom dead center immediately after said power piston has completed uncovering the first scavenging port configuration, wherein the general rate relative to piston position in the power cylinder of uncovering of the area of the first scavenging port configuration is substantially lower than that of the second scavenging port configuration, so that the idling and low-load performance of the engine is substantially improved by improving scavenging.