The present application provides a memory device. The memory device includes a connector plate having a front edge and a rear edge opposite to the front edge, wherein the connector plate comprises an edge connector disposed at the rear edge and configured to connect to a host connector of a host device; a controller plate defining a first connection region, a second connection region and a chip region, wherein the controller plate is attached to the connector plate at the first connection region, and the controller plate comprises a memory control module disposed in the chip region and in electrical communication with the edge connector; and at least one memory module detachably connected to the controller plate at the second connection region of the controller plate, wherein each of the at least one memory module is in electrical communication with the memory control module when the memory module is connected to the controller plate, such that the memory module can be accessible by the host device via the memory control module.

An electronic equipment assembly has an interconnect including columns of signal conductors, connectors mounted to the columns of signal conductors, and a chassis coupled with the interconnect. The chassis provides slots that guide resource devices into engagement with the connectors mounted to the columns of signal conductors to enable the interconnect to electronically access the resource devices. At least one column of the columns of signal conductors of the interconnect is a multi-function column. Each multi-function column is constructed and arranged to electronically access different types of resource devices through a respective connector mounted to that multi-function column.

The present disclosure relates to a portable solid-state drive (SSD) module. The portable SSD module includes a case, an SSD, a light-emitting device (LED) module and a main bracket. The case may have a window. The SSD may be arranged in the case. The LED module may be arranged in the case to indicate an operation of the SSD through the window. The main bracket may be arranged in the case to support the LED module. Therefore, the LED module may be readily and firmly combined with the case.

A solid state drive apparatus includes a casing including a top plate, a bottom plate, a first sidewall, and a second sidewall. A first substrate is disposed inside the casing. At least one first semiconductor chip is mounted on the first substrate. A second substrate is disposed inside the casing. At least one second semiconductor chip is mounted on the second substrate. A heat dissipation structure is disposed between the first substrate and the second substrate and includes a lower heat dissipation panel contacting the at least one first semiconductor chip. An upper heat dissipation panel contacts the at least one second semiconductor chip. An air passage is provided between the lower heat dissipation panel and the upper heat dissipation panel and extends from the first sidewall of the casing to the second sidewall.

An electronic equipment assembly has an interconnect including columns of signal conductors, connectors mounted to the columns of signal conductors, and a chassis coupled with the interconnect. The chassis provides slots that guide resource devices into engagement with the connectors mounted to the columns of signal conductors to enable the interconnect to electronically access the resource devices. At least one column of the columns of signal conductors of the interconnect is a multi-function column. Each multi-function column is constructed and arranged to electronically access different types of resource devices through a respective connector mounted to that multi-function column.

To protect memory cards, such as SD type cards, and similar devices from Electrostatic Discharge (ESD), the input pads of the device include points along their edges that are aligned with correspond points on a conductive frame structure mounted adjacent the input pad to form a spark gap. The input pads are connected to a memory controller or other ASIC over signal lines that include a diode located between the input pad and the ASIC and a resistance located between the input pad and the diode. The resistance and diode are selected such that an ESD event at an input pad triggers a discharge across the spark gap before it is transmitted on to the ASIC, while also allowing a high data rate for signals along the signal line.

A memory card is provided with various pad layouts to prevent a data signal pad from contacting a power contact in a host during insertion and removal of the memory card. The memory card can have a form factor and features that accommodate a relatively-large memory with relatively-high performance and accompanying thermal conditions. An efficient card lock mechanism is also provided.

Systems and methods of controlling operation of a connection device associated with a modular computing system are disclosed. For instance, data indicative of a connection between a first connection device and a second connection device can be obtained. The first connection device can be associated with a modular computing device, and the second connection device can be associated with a modular component to be implemented within the modular computing device. Each connection device can include a plurality of connector elements. Data indicative of one or more configuration parameters of the second connection device can be obtained. An operating configuration of the first connection device can be determined based at least in part on the data indicative of the one or more configuration parameters. Operation of the first connection device can be controlled based at least in part on the operating configuration.

A memory card includes a case and an integrated circuit package disposed in the case. The case includes a first case edge, a second case edge connected to the first case edge, a third case edge connected to the second case edge, a fourth case edge connected to the third case edge and the first case edge, and a first recessed groove formed in the second case edge, the first recessed groove being spaced apart from the first case edge and inwardly recessed. The integrated circuit package is disposed in an upper portion of the case between the first case edge and a first horizontal line that extends in a direction from a top end of the first recessed groove in the second case edge to the fourth case edge.

A circuit module is provided, including: a substrate, having a PCI-E or PCI strip, the PCI-E or PCI strip for being inserted into and electrically connected with a PCI-E or PCI slot; at least one LED, disposed at a side of the substrate opposite to the PCI-E or PCI strip, electrically connected with the PCI-E or PCI strip; a light guide member, being pervious to light, at least corresponding to the at least one LED.