摘要:
A USB device including a tubular housing and a rear cap assembly including a handle structure that is rotatably connected to the tubular housing to facilitate deploying and retracting a plug connector through a front opening of the housing. The plug connector is fixedly connected onto the front end of a sliding rack assembly that is disposed in housing such that the sliding rack assembly is slidable along a longitudinal axis. The sliding rack assembly includes a carrier including a carrier tray for supporting electronic devices and an elongated positioning rod extending from a rear portion of the carrier tray. The positioning rod is operably engaged with an actuator portion such that manual rotation of the rear cap handle structure relative to the housing around the longitudinal axis causes the sliding rack assembly to slide inside the housing between retracted and deployed positions.
摘要:
A USB device including a tubular housing and a rear cap assembly including a handle structure that is rotatably connected to the tubular housing to facilitate deploying and retracting a plug connector through a front opening of the housing. The plug connector is fixedly connected onto the front end of a sliding rack assembly that is disposed in housing such that the sliding rack assembly is slidable along a longitudinal axis. The sliding rack assembly includes a carrier including a carrier tray for supporting electronic devices and an elongated positioning rod extending from a rear portion of the carrier tray. The positioning rod is operably engaged with an actuator portion such that manual rotation of the rear cap handle structure relative to the housing around the longitudinal axis causes the sliding rack assembly to slide inside the housing between retracted and deployed positions.
摘要:
A pen-type computer peripheral device includes an elongated housing containing a PCBA having a plug connector, and cap/cover that is slidably connected to a front portion of the housing. Locking structures are respectively integrally molded onto opposing surfaces of the housing and cap/cover that cooperate to prevent separation of the cap/cover from the housing. By manually pushing (sliding) the cap/cover relative to the housing, the plug connector is effectively moved between a retracted position, in which the plug connector is disposed inside the cap/cover, and a deployed position in which the plug connector extends through a front housing opening of the cap/cover such that the plug connector is operably exposed for insertion into a host system.
摘要:
A swivel-type portable flash device includes a C-shaped swivel cover that rotates (swivels) relative to a housing between an open position in which a plug connector is exposed for insertion in a host system, and a closed position in which the plug connector is covered and protected by the swivel cover. The swivel cover is permanently rotatably connected to the housing by ring-shaped protrusions that are movably engaged inside corresponding recessed ring-shaped grooves formed in upper/lower walls of the housing, whereby the swivel cover is manually rotatable relative to the housing between the opened and closed positions. The swivel cover includes locking structures (e.g., locking notches) disposed on the ring-shaped protrusions, and the housing includes second locking structures disposed in the recessed ring-shaped grooves, where the first and second locking structures prevent rotation of the swivel cover when the plug connector is closed.
摘要:
A swivel-type computer peripheral device includes a housing and a swivel rack assembly that swivels relative to the housing between a retracted position, in which a PCBA having a plug connector mounted on the swivel rack assembly is disposed inside the housing, and a deployed position, in which the swivel rack assembly is rotated outside of the housing such that the plug connector is positioned for insertion into a host computer socket. A torsion spring is connected between the housing and the swivel rack assembly and arranged to bias the swivel rack assembly either into the deployed position or into the retracted position. A locking mechanism controlled by a push button or another actuating mechanism is used to selectively lock the swinging rack in a retracted position and a deployed position.
摘要:
A Low-power flash-memory device uses a modified Universal-Serial-Bus (USB) 3.0 Protocol to reduce power consumption. The bit clock is slowed to reduce power and the need for pre-emphasis when USB cable lengths are short in applications. Data efficiency is improved by eliminating the 8/10-bit encoder and instead encoding sync and framing bytes as 9-bit symbols. Data bytes are expanded by bit stuffing only when a series of six ones occurs in the data. Header and payload data is transmitted as nearly 8-bits per data byte while framing is 9-bits per symbol, much less than the standard 10 bits per byte. Low-power link layers, physical layers, and scaled-down protocol layers are used. A card reader converter hub allows USB hosts to access low-power USB devices. Only one flash device is accessed, reducing power compared with standard USB broadcasting to multiple devices.
摘要:
A swivel-type portable flash device includes a C-shaped swivel cover that rotates (swivels) relative to a housing between an open position in which a plug connector is exposed for insertion in a host system, and a closed position in which the plug connector is covered and protected by the swivel cover. The swivel cover is permanently rotatably connected to the housing by way of ring-shaped protrusions that are movably engaged inside corresponding recessed ring-shaped grooves formed in upper/lower walls of the housing, whereby the swivel cover is manually rotatable relative to the housing between the opened and closed positions. The swivel cover also includes locking structures (e.g., locking notches) disposed on the ring-shaped protrusions, and the housing includes second locking structures disposed in the recessed ring-shaped grooves, where the first locking structures operably engage the second locking structures to prevent rotation of the swivel cover when the plug connector is in the closed position.
摘要:
A USB device including a housing and a rear cap that is rotatably connected to the housing to facilitate deploying and retracting a plug connector through a front opening of the housing. The plug connector is fixedly connected onto the front end of a sliding rack assembly that is disposed in housing such that the sliding rack assembly is slidable along a longitudinal axis. The sliding rack assembly includes a carrier including a carrier tray for supporting electronic devices and an elongated positioning rod extending from a rear portion of the carrier tray. The positioning rod is operably engaged with an actuator portion such that manual rotation of the rear cap relative to the housing around the longitudinal axis causes the sliding rack assembly to slide inside the housing between retracted and deployed positions.
摘要:
A memory module assembly includes a heat-sink plate attached to one or more of the integrated circuits (e.g., memory devices) of a memory module PCBA by adhesive. The heat-sink plate includes an elongated base structure, a first contact plate extending away from the base structure such that a step-like positioning surface is defined therebetween, and heat-exchange fins extending from the opposite side of the base structure. An optional upper heat-sink plate is secured to a second side of the PCBA by a second adhesive layer, and contacts the lower heat-sink plate to facilitate heat transfer to the heat-exchange fins. The adhesive is either heat-activated or heat-cured. The adhesive is applied to either the memory devices or the heat-sink plates, and then compressed between the heat-sink plates and memory module using a fixture. The fixture is then passed through an oven to activate/cure the adhesive.
摘要:
A Low-power flash-memory device uses a modified Universal-Serial-Bus (USB) 3.0 Protocol to reduce power consumption. The bit clock is slowed to reduce power and the need for pre-emphasis when USB cable lengths are short in applications. Data efficiency is improved by eliminating the 8/10-bit encoder and instead encoding sync and framing bytes as 9-bit symbols. Data bytes are expanded by bit stuffing only when a series of six ones occurs in the data. Header and payload data is transmitted as nearly 8-bits per data byte while framing is 9-bits per symbol, much less than the standard 10 bits per byte. Low-power link layers, physical layers, and scaled-down protocol layers are used. A card reader converter hub allows USB hosts to access low-power USB devices. Only one flash device is accessed, reducing power compared with standard USB broadcasting to multiple devices.